SNAU275C February 2022 – November 2025 LMK5B33216
Table 1-1 lists the memory-mapped registers for the Device registers. All register offset addresses not listed in Table 1-1 should be considered as reserved locations and the register contents should not be modified.
| Offset | Acronym | Bit 7 | Bit 6 | Bit 5 | Bit 4 | Bit 3 | Bit 2 | Bit 1 | Bit 0 |
|---|---|---|---|---|---|---|---|---|---|
| 0x0 | R0 | VNDRID_15:8 | |||||||
| 0x1 | R1 | VNDRID | |||||||
| 0x2 | R2 | PRODID | |||||||
| 0x3 | R3 | REVID | |||||||
| 0x4 | R4 | PRTID_47:40 | |||||||
| 0x5 | R5 | PRTID_39:32 | |||||||
| 0x6 | R6 | PRTID_31:24 | |||||||
| 0x7 | R7 | PRTID_23:16 | |||||||
| 0x8 | R8 | PRTID_15:8 | |||||||
| 0x9 | R9 | PRTID | |||||||
| 0x10 | R16 | NVMCNT | |||||||
| 0x12 | R18 | RESERVED | TARGET_ADR_MSB | ||||||
| 0x13 | R19 | EEREV | |||||||
| 0x14 | R20 | ROM_PLUS_EE | EE_ROM_PAGE_SEL | RESERVED | |||||
| 0x15 | R21 | SPI_3WIRE_DIS | SYNC_SW | RESERVED | |||||
| 0x16 | R22 | RESERVED | DPLL3_EN | APLL3_EN | DPLL2_EN | APLL2_EN | DPLL1_EN | APLL1_EN | |
| 0x17 | R23 | RESERVED | SWRST | DPLL3_SWRST | DPLL2_SWRST | DPLL1_SWRST | APLL3_SWRST | APLL2_SWRST | APLL1_SWRST |
| 0x18 | R24 | RESERVED | APLL3_STRT_PRTY | APLL2_STRT_PRTY | APLL1_STRT_PRTY | ||||
| 0x19 | R25 | RESERVED | SYNC_EN | ||||||
| 0x1A | R26 | RESERVED | SYSREF_REQ_MODE | SYSREF_REQ_SEL | SYSREF_REQ_SW | ||||
| 0x1B | R27 | TEC_CNTR_39:32 | |||||||
| 0x1C | R28 | TEC_CNTR_31:24 | |||||||
| 0x1D | R29 | TEC_CNTR_23:16 | |||||||
| 0x1E | R30 | TEC_CNTR_15:8 | |||||||
| 0x1F | R31 | TEC_CNTR | |||||||
| 0x20 | R32 | RESERVED | TEC_CNTR_TRIG_SEL | TEC_CNTR_EN | |||||
| 0x21 | R33 | RESERVED | LOL_PLL1 | LOL_PLL2 | RESERVED | LOS_FDET_XO | |||
| 0x22 | R34 | LOPL_DPLL1 | LOFL_DPLL1 | RESERVED | HLDOVR1 | RESERVED | |||
| 0x23 | R35 | LOPL_DPLL2 | LOFL_DPLL2 | RESERVED | HLDOVR2 | RESERVED | |||
| 0x24 | R36 | LOPL_DPLL3 | LOFL_DPLL3 | RESERVED | HLDOVR3 | RESERVED | |||
| 0x25 | R37 | RESERVED | LOL_PLL1_MASK | LOL_PLL2_MASK | RESERVED | LOS_FDET_XO_MASK | |||
| 0x26 | R38 | LOPL_DPLL1_MASK | LOFL_DPLL1_MASK | HIST1_MASK | HLDOVR1_MASK | REFSWITCH1_MASK | LOR_MISSCLK1_MASK | LOR_FREQ1_MASK | LOR_PH1_MASK |
| 0x27 | R39 | LOPL_DPLL2_MASK | LOFL_DPLL2_MASK | HIST2_MASK | HLDOVR2_MASK | REFSWITCH2_MASK | LOR_MISSCLK2_MASK | LOR_FREQ2_MASK | LOR_PH2_MASK |
| 0x28 | R40 | LOPL_DPLL3_MASK | LOFL_DPLL3_MASK | HIST3_MASK | HLDOVR3_MASK | REFSWITCH3_MASK | LOR_MISSCLK3_MASK | LOR_FREQ3_MASK | LOR_PH3_MASK |
| 0x29 | R41 | RESERVED | LOL_PLL1_POL | LOL_PLL2_POL | RESERVED | LOS_FDET_XO_POL | |||
| 0x2A | R42 | LOPL_DPLL1_POL | LOFL_DPLL1_POL | HIST1_POL | HLDOVR1_POL | REFSWITCH1_POL | LOR_MISSCLK1_POL | LOR_FREQ1_POL | LOR_PH1_POL |
| 0x2B | R43 | LOPL_DPLL2_POL | LOFL_DPLL2_POL | HIST2_POL | HLDOVR2_POL | REFSWITCH2_POL | LOR_MISSCLK2_POL | LOR_FREQ2_POL | LOR_PH2_POL |
| 0x2C | R44 | LOPL_DPLL3_POL | LOFL_DPLL3_POL | HIST3_POL | HLDOVR3_POL | REFSWITCH3_POL | LOR_MISSCLK3_POL | LOR_FREQ3_POL | LOR_PH3_POL |
| 0x2D | R45 | RESERVED | LOL_PLL1_INTR | LOL_PLL2_INTR | RESERVED | LOS_FDET_XO_INTR | |||
| 0x2E | R46 | LOPL_DPLL1_INTR | LOFL_DPLL1_INTR | HIST1_INTR | HLDOVR1_INTR | REFSWITCH1_INTR | LOR_MISSCLK1_INTR | LOR_FREQ1_INTR | LOR_PH1_INTR |
| 0x2F | R47 | LOPL_DPLL2_INTR | LOFL_DPLL2_INTR | HIST2_INTR | HLDOVR2_INTR | REFSWITCH2_INTR | LOR_MISSCLK2_INTR | LOR_FREQ2_INTR | LOR_PH2_INTR |
| 0x30 | R48 | LOPL_DPLL3_INTR | LOFL_DPLL3_INTR | HIST3_INTR | HLDOVR3_INTR | REFSWITCH3_INTR | LOR_MISSCLK3_INTR | LOR_FREQ3_INTR | LOR_PH3_INTR |
| 0x31 | R49 | RESERVED | INT_LATCH_OR_LIVE | INT_AND_OR | INT_EN | INT_CLR | |||
| 0x32 | R50 | RESERVED | REF1_VALID_STATUS | REF0_VALID_STATUS | |||||
| 0x34 | R52 | RESERVED | REF1_PH_STATUS | RESERVED | REF1_FDET_STATUS | REF0_PH_STATUS | RESERVED | REF0_FDET_STATUS | |
| 0x35 | R53 | RESERVED | TEC_CNTR_HELD | RESERVED | |||||
| 0x36 | R54 | RESERVED | GPIO0_IN_FLT_EN | GPIO0_MODE | |||||
| 0x37 | R55 | RESERVED | GPIO1_IN_FLT_EN | GPIO1_MODE | |||||
| 0x38 | R56 | RESERVED | GPIO2_IN_FLT_EN | GPIO2_MODE | |||||
| 0x39 | R57 | RESERVED | GPIO0_SEL | ||||||
| 0x3A | R58 | RESERVED | GPIO1_SEL | ||||||
| 0x3B | R59 | RESERVED | GPIO2_SEL | ||||||
| 0x3C | R60 | RESERVED | GPIO0_OPEND | GPIO1_OPEND | GPIO2_OPEND | GPIO0_POL | GPIO1_POL | GPIO2_POL | |
| 0x3D | R61 | RESERVED | GPIO_SYSREF_SEL | MUTE_DPLL3_PHLOCK | MUTE_DPLL3_FRLOCK | ||||
| 0x3E | R62 | RESERVED | MUTE_DPLL2_PHLOCK | MUTE_DPLL2_FRLOCK | MUTE_APLL2_LOCK | MUTE_DPLL1_PHLOCK | MUTE_DPLL1_FRLOCK | MUTE_APLL1_LOCK | |
| 0x3F | R63 | RESERVED | XO_FDET_BYP | XO_ITYPE | |||||
| 0x40 | R64 | RESERVED | XO_OUT_BUF_EN | ||||||
| 0x43 | R67 | RESERVED | REF1_ITYPE | ||||||
| 0x44 | R68 | RESERVED | REF0_ITYPE | ||||||
| 0x46 | R70 | RESERVED | STATUS_MUX_DIV2_EN | ||||||
| 0x4B | R75 | RESERVED | TDC3_ZDM_BYPASS_FB_DIV | TDC3_ZDM_FB_PRE_BYP | TDC3_IN_SEL | TDC3_IN_DRV_SEL | |||
| 0x4C | R76 | RESERVED | TDC2_ZDM_BYPASS_FB_DIV | TDC2_ZDM_FB_PRE_BYP | TDC2_IN_SEL | TDC2_IN_DRV_SEL | |||
| 0x4D | R77 | RESERVED | TDC1_ZDM_BYPASS_FB_DIV | TDC1_ZDM_FB_PRE_BYP | TDC1_IN_SEL | TDC1_IN_DRV_SEL | |||
| 0x4E | R78 | RESERVED | REF_OUT01_EN | REF_OUT01_SEL | |||||
| 0x4F | R79 | RESERVED | REF0_EARLY_DET_EN | REF0_PH_VALID_EN | REF0_VALTMR_EN | REF0_PPM_EN | REF0_MISSCLK_EN | RESERVED | |
| 0x50 | R80 | RESERVED | REF1_EARLY_DET_EN | REF1_PH_VALID_EN | REF1_VALTMR_EN | REF1_PPM_EN | REF1_MISSCLK_EN | RESERVED | |
| 0x53 | R83 | RESERVED | REF1_DET_CLK_DIV | REF0_DET_CLK_DIV | |||||
| 0x54 | R84 | RESERVED | REF0_MISSCLK_DIV_21:16 | ||||||
| 0x55 | R85 | REF0_MISSCLK_DIV_15:8 | |||||||
| 0x56 | R86 | REF0_MISSCLK_DIV | |||||||
| 0x57 | R87 | RESERVED | REF1_MISSCLK_DIV_21:16 | ||||||
| 0x58 | R88 | REF1_MISSCLK_DIV_15:8 | |||||||
| 0x59 | R89 | REF1_MISSCLK_DIV | |||||||
| 0x60 | R96 | RESERVED | REF0_MISSCLK_VCOSEL | ||||||
| 0x61 | R97 | RESERVED | REF0_EARLY_CLK_DIV_21:16 | ||||||
| 0x62 | R98 | REF0_EARLY_CLK_DIV_15:8 | |||||||
| 0x63 | R99 | REF0_EARLY_CLK_DIV | |||||||
| 0x64 | R100 | RESERVED | REF1_EARLY_CLK_DIV_21:16 | ||||||
| 0x65 | R101 | REF1_EARLY_CLK_DIV_15:8 | |||||||
| 0x66 | R102 | REF1_EARLY_CLK_DIV | |||||||
| 0x6D | R109 | RESERVED | REF0_PPM_MIN_14:8 | ||||||
| 0x6E | R110 | REF0_PPM_MIN | |||||||
| 0x6F | R111 | RESERVED | REF0_PPM_MAX_14:8 | ||||||
| 0x70 | R112 | REF0_PPM_MAX | |||||||
| 0x71 | R113 | RESERVED | REF1_PPM_MIN_14:8 | ||||||
| 0x72 | R114 | REF1_PPM_MIN | |||||||
| 0x73 | R115 | RESERVED | REF1_PPM_MAX_14:8 | ||||||
| 0x74 | R116 | REF1_PPM_MAX | |||||||
| 0x7D | R125 | RESERVED | REF0_CNTSTRT_27:24 | ||||||
| 0x7E | R126 | REF0_CNTSTRT_23:16 | |||||||
| 0x7F | R127 | REF0_CNTSTRT_15:8 | |||||||
| 0x80 | R128 | REF0_CNTSTRT | |||||||
| 0x81 | R129 | RESERVED | REF0_HOLD_CNTSTRT_27:24 | ||||||
| 0x82 | R130 | REF0_HOLD_CNTSTRT_23:16 | |||||||
| 0x83 | R131 | REF0_HOLD_CNTSTRT_15:8 | |||||||
| 0x84 | R132 | REF0_HOLD_CNTSTRT | |||||||
| 0x85 | R133 | RESERVED | REF1_CNTSTRT_27:24 | ||||||
| 0x86 | R134 | REF1_CNTSTRT_23:16 | |||||||
| 0x87 | R135 | REF1_CNTSTRT_15:8 | |||||||
| 0x88 | R136 | REF1_CNTSTRT | |||||||
| 0x89 | R137 | RESERVED | REF1_HOLD_CNTSTRT_27:24 | ||||||
| 0x8A | R138 | REF1_HOLD_CNTSTRT_23:16 | |||||||
| 0x8B | R139 | REF1_HOLD_CNTSTRT_15:8 | |||||||
| 0x8C | R140 | REF1_HOLD_CNTSTRT | |||||||
| 0x9D | R157 | RESERVED | REF0VLDTMR | ||||||
| 0x9E | R158 | RESERVED | REF1VLDTMR | ||||||
| 0xA1 | R161 | RESERVED | REF0_PH_VALID_THR_13:8 | ||||||
| 0xA2 | R162 | REF0_PH_VALID_THR | |||||||
| 0xA3 | R163 | RESERVED | REF1_PH_VALID_THR_13:8 | ||||||
| 0xA4 | R164 | REF1_PH_VALID_THR | |||||||
| 0xAA | R170 | NVMSCRC | |||||||
| 0xAB | R171 | RESERVED | REGCOMMIT | NVMCRCERR | RESERVED | NVMBUSY | NVMERASE | NVMPROG | |
| 0xAC | R172 | NVMLCRC | |||||||
| 0xAD | R173 | RESERVED | MEMADR_12:8 | ||||||
| 0xAE | R174 | MEMADR | |||||||
| 0xAF | R175 | NVMDAT | |||||||
| 0xB0 | R176 | RAMDAT | |||||||
| 0xB4 | R180 | NVMUNLK | |||||||
| 0xDF | R223 | RESERVED | DPLL1_REF0_AUTO_PRTY | DPLL1_REF1_AUTO_PRTY | |||||
| 0xE1 | R225 | RESERVED | DPLL1_REF4_AUTO_PRTY | DPLL1_REF5_AUTO_PRTY | |||||
| 0xE2 | R226 | RESERVED | DPLL1_MAN_REFSEL | DPLL1_MAN_SWITCH_PIN_MODE | DPLL1_SWITCH_MODE | ||||
| 0xE3 | R227 | RESERVED | DPLL1_REFSEL_STAT | ||||||
| 0xE4 | R228 | DPLL1_LOCKDET_PPM_EN | DPLL1_LOCKDET_PPM_MAX_14:8 | ||||||
| 0xE5 | R229 | DPLL1_LOCKDET_PPM_MAX | |||||||
| 0xE6 | R230 | RESERVED | DPLL1_UNLOCKDET_PPM_MAX_14:8 | ||||||
| 0xE7 | R231 | DPLL1_UNLOCKDET_PPM_MAX | |||||||
| 0xE8 | R232 | RESERVED | DPLL1_LOCKDET2_PPM_CNTSTRT_29:24 | ||||||
| 0xE9 | R233 | DPLL1_LOCKDET2_PPM_CNTSTRT_23:16 | |||||||
| 0xEA | R234 | DPLL1_LOCKDET2_PPM_CNTSTRT_15:8 | |||||||
| 0xEB | R235 | DPLL1_LOCKDET2_PPM_CNTSTRT | |||||||
| 0xEC | R236 | RESERVED | DPLL1_LOCKDET_PPM_CNTSTRT_29:24 | ||||||
| 0xED | R237 | DPLL1_LOCKDET_PPM_CNTSTRT_23:16 | |||||||
| 0xEE | R238 | DPLL1_LOCKDET_PPM_CNTSTRT_15:8 | |||||||
| 0xEF | R239 | DPLL1_LOCKDET_PPM_CNTSTRT | |||||||
| 0xF0 | R240 | RESERVED | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_29:24 | ||||||
| 0xF1 | R241 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_23:16 | |||||||
| 0xF2 | R242 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_15:8 | |||||||
| 0xF3 | R243 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT | |||||||
| 0xF4 | R244 | RESERVED | DPLL1_STATUS_PPM_LOCK | ||||||
| 0xF7 | R247 | DPLL1_LOOP_EN | DPLL1_PHASE_CANCEL_EN | DPLL1_FASTLOCK_ALWAYS | DPLL1_PHS1_EN | DPLL1_ZDM_EN | DPLL1_HIST_EN | DPLL1_PHASE_CANCEL_ALWAYS | RESERVED |
| 0xF8 | R248 | DPLL1_HOLD_SLEW_LIM_EN | RESERVED | DPLL1_CLK_DIV_SRC_SEL | RESERVED | ||||
| 0xFA | R250 | RESERVED | DPLL1_PH_OFFSET_44:40 | ||||||
| 0xFB | R251 | DPLL1_PH_OFFSET_39:32 | |||||||
| 0xFC | R252 | DPLL1_PH_OFFSET_31:24 | |||||||
| 0xFD | R253 | DPLL1_PH_OFFSET_23:16 | |||||||
| 0xFE | R254 | DPLL1_PH_OFFSET_15:8 | |||||||
| 0xFF | R255 | DPLL1_PH_OFFSET | |||||||
| 0x100 | R256 | DPLL1_FREE_RUN_39:32 | |||||||
| 0x101 | R257 | DPLL1_FREE_RUN_31:24 | |||||||
| 0x102 | R258 | DPLL1_FREE_RUN_23:16 | |||||||
| 0x103 | R259 | DPLL1_FREE_RUN_15:8 | |||||||
| 0x104 | R260 | DPLL1_FREE_RUN | |||||||
| 0x105 | R261 | RESERVED | DPLL1_1PPS_MODE | DPLL1_1PPS_EN | RESERVED | ||||
| 0x122 | R290 | RESERVED | DPLL1_LCK_TIMER_9:8 | ||||||
| 0x123 | R291 | DPLL1_LCK_TIMER | |||||||
| 0x124 | R292 | RESERVED | DPLL1_HIST_TIMER_9:8 | ||||||
| 0x125 | R293 | DPLL1_HIST_TIMER | |||||||
| 0x126 | R294 | RESERVED | DPLL1_HOLD_TIMER_9:8 | ||||||
| 0x127 | R295 | DPLL1_HOLD_TIMER | |||||||
| 0x128 | R296 | RESERVED | DPLL1_PHS1_TIMER_9:8 | ||||||
| 0x129 | R297 | DPLL1_PHS1_TIMER | |||||||
| 0x12E | R302 | RESERVED | DPLL1_HIST_GAIN | ||||||
| 0x12F | R303 | RESERVED | DPLL1_PL_THRESH | ||||||
| 0x130 | R304 | RESERVED | DPLL1_PL_UNLK_THRESH | ||||||
| 0x131 | R305 | RESERVED | DPLL1_PHS1_THRESH | ||||||
| 0x134 | R308 | RESERVED | DPLL1_HOLD_SLEW_STEP | ||||||
| 0x136 | R310 | RESERVED | DPLL1_STATUS_PL | RESERVED | |||||
| 0x137 | R311 | RESERVED | DPLL1_DCO_SLEW_ACTIVE | RESERVED | |||||
| 0x13A | R314 | RESERVED | DPLL1_FB_DIV_32:32 | ||||||
| 0x13B | R315 | DPLL1_FB_DIV_31:24 | |||||||
| 0x13C | R316 | DPLL1_FB_DIV_23:16 | |||||||
| 0x13D | R317 | DPLL1_FB_DIV_15:8 | |||||||
| 0x13E | R318 | DPLL1_FB_DIV | |||||||
| 0x13F | R319 | DPLL1_FB_NUM_39:32 | |||||||
| 0x140 | R320 | DPLL1_FB_NUM_31:24 | |||||||
| 0x141 | R321 | DPLL1_FB_NUM_23:16 | |||||||
| 0x142 | R322 | DPLL1_FB_NUM_15:8 | |||||||
| 0x143 | R323 | DPLL1_FB_NUM | |||||||
| 0x144 | R324 | DPLL1_FB_DEN_39:32 | |||||||
| 0x145 | R325 | DPLL1_FB_DEN_31:24 | |||||||
| 0x146 | R326 | DPLL1_FB_DEN_23:16 | |||||||
| 0x147 | R327 | DPLL1_FB_DEN_15:8 | |||||||
| 0x148 | R328 | DPLL1_FB_DEN | |||||||
| 0x149 | R329 | RESERVED | DPLL1_FB2_DIV_32:32 | ||||||
| 0x14A | R330 | DPLL1_FB2_DIV_31:24 | |||||||
| 0x14B | R331 | DPLL1_FB2_DIV_23:16 | |||||||
| 0x14C | R332 | DPLL1_FB2_DIV_15:8 | |||||||
| 0x14D | R333 | DPLL1_FB2_DIV | |||||||
| 0x14E | R334 | DPLL1_FB2_NUM_39:32 | |||||||
| 0x14F | R335 | DPLL1_FB2_NUM_31:24 | |||||||
| 0x150 | R336 | DPLL1_FB2_NUM_23:16 | |||||||
| 0x151 | R337 | DPLL1_FB2_NUM_15:8 | |||||||
| 0x152 | R338 | DPLL1_FB2_NUM | |||||||
| 0x153 | R339 | DPLL1_FB2_DEN_39:32 | |||||||
| 0x154 | R340 | DPLL1_FB2_DEN_31:24 | |||||||
| 0x155 | R341 | DPLL1_FB2_DEN_23:16 | |||||||
| 0x156 | R342 | DPLL1_FB2_DEN_15:8 | |||||||
| 0x157 | R343 | DPLL1_FB2_DEN | |||||||
| 0x158 | R344 | RESERVED | DPLL1_REF5_FB_SEL | DPLL1_REF4_FB_SEL | RESERVED | DPLL1_REF1_FB_SEL | DPLL1_REF0_FB_SEL | ||
| 0x159 | R345 | RESERVED | DPLL1_FB_MASH_ORDER | ||||||
| 0x15A | R346 | RESERVED | DPLL1_FB_FDEV_37:32 | ||||||
| 0x15B | R347 | DPLL1_FB_FDEV_31:24 | |||||||
| 0x15C | R348 | DPLL1_FB_FDEV_23:16 | |||||||
| 0x15D | R349 | DPLL1_FB_FDEV_15:8 | |||||||
| 0x15E | R350 | DPLL1_FB_FDEV | |||||||
| 0x15F | R351 | RESERVED | DPLL1_FB_FDEV_UPDATE | ||||||
| 0x160 | R352 | RESERVED | DPLL1_FB_FDEV_EN | ||||||
| 0x161 | R353 | DPLL1_FB_NUM_STAT_39:32 | |||||||
| 0x162 | R354 | DPLL1_FB_NUM_STAT_31:24 | |||||||
| 0x163 | R355 | DPLL1_FB_NUM_STAT_23:16 | |||||||
| 0x164 | R356 | DPLL1_FB_NUM_STAT_15:8 | |||||||
| 0x165 | R357 | DPLL1_FB_NUM_STAT | |||||||
| 0x166 | R358 | RESERVED | DPLL1_REF0_DBLR_EN | DPLL1_REF1_DBLR_EN | RESERVED | ||||
| 0x167 | R359 | DPLL1_REF0_RDIV_15:8 | |||||||
| 0x168 | R360 | DPLL1_REF0_RDIV | |||||||
| 0x169 | R361 | DPLL1_REF1_RDIV_15:8 | |||||||
| 0x16A | R362 | DPLL1_REF1_RDIV | |||||||
| 0x16F | R367 | DPLL1_REF4_RDIV_15:8 | |||||||
| 0x170 | R368 | DPLL1_REF4_RDIV | |||||||
| 0x171 | R369 | DPLL1_REF5_RDIV_15:8 | |||||||
| 0x172 | R370 | DPLL1_REF5_RDIV | |||||||
| 0x175 | R373 | RESERVED | DPLL2_REF0_AUTO_PRTY | DPLL2_REF1_AUTO_PRTY | |||||
| 0x177 | R375 | RESERVED | DPLL2_REF4_AUTO_PRTY | DPLL2_REF5_AUTO_PRTY | |||||
| 0x178 | R376 | RESERVED | DPLL2_MAN_REFSEL | DPLL2_MAN_SWITCH_PIN_MODE | DPLL2_SWITCH_MODE | ||||
| 0x179 | R377 | RESERVED | DPLL2_REFSEL_STAT | ||||||
| 0x17A | R378 | DPLL2_LOCKDET_PPM_EN | DPLL2_LOCKDET_PPM_MAX_14:8 | ||||||
| 0x17B | R379 | DPLL2_LOCKDET_PPM_MAX | |||||||
| 0x17C | R380 | RESERVED | DPLL2_UNLOCKDET_PPM_MAX_14:8 | ||||||
| 0x17D | R381 | DPLL2_UNLOCKDET_PPM_MAX | |||||||
| 0x17E | R382 | RESERVED | DPLL2_LOCKDET2_PPM_CNTSTRT_29:24 | ||||||
| 0x17F | R383 | DPLL2_LOCKDET2_PPM_CNTSTRT_23:16 | |||||||
| 0x180 | R384 | DPLL2_LOCKDET2_PPM_CNTSTRT_15:8 | |||||||
| 0x181 | R385 | DPLL2_LOCKDET2_PPM_CNTSTRT | |||||||
| 0x182 | R386 | RESERVED | DPLL2_LOCKDET_PPM_CNTSTRT_29:24 | ||||||
| 0x183 | R387 | DPLL2_LOCKDET_PPM_CNTSTRT_23:16 | |||||||
| 0x184 | R388 | DPLL2_LOCKDET_PPM_CNTSTRT_15:8 | |||||||
| 0x185 | R389 | DPLL2_LOCKDET_PPM_CNTSTRT | |||||||
| 0x186 | R390 | RESERVED | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_29:24 | ||||||
| 0x187 | R391 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_23:16 | |||||||
| 0x188 | R392 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_15:8 | |||||||
| 0x189 | R393 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT | |||||||
| 0x18A | R394 | RESERVED | DPLL2_STATUS_PPM_LOCK | ||||||
| 0x18D | R397 | DPLL2_LOOP_EN | DPLL2_PHASE_CANCEL_EN | DPLL2_FASTLOCK_ALWAYS | DPLL2_PHS1_EN | DPLL2_ZDM_EN | DPLL2_HIST_EN | DPLL2_PHASE_CANCEL_ALWAYS | RESERVED |
| 0x18E | R398 | DPLL2_HOLD_SLEW_LIM_EN | RESERVED | ||||||
| 0x190 | R400 | RESERVED | DPLL2_PH_OFFSET_44:40 | ||||||
| 0x191 | R401 | DPLL2_PH_OFFSET_39:32 | |||||||
| 0x192 | R402 | DPLL2_PH_OFFSET_31:24 | |||||||
| 0x193 | R403 | DPLL2_PH_OFFSET_23:16 | |||||||
| 0x194 | R404 | DPLL2_PH_OFFSET_15:8 | |||||||
| 0x195 | R405 | DPLL2_PH_OFFSET | |||||||
| 0x196 | R406 | DPLL2_FREE_RUN_39:32 | |||||||
| 0x197 | R407 | DPLL2_FREE_RUN_31:24 | |||||||
| 0x198 | R408 | DPLL2_FREE_RUN_23:16 | |||||||
| 0x199 | R409 | DPLL2_FREE_RUN_15:8 | |||||||
| 0x19A | R410 | DPLL2_FREE_RUN | |||||||
| 0x19B | R411 | RESERVED | DPLL2_1PPS_MODE | DPLL2_1PPS_EN | RESERVED | ||||
| 0x1B8 | R440 | RESERVED | DPLL2_LCK_TIMER_9:8 | ||||||
| 0x1B9 | R441 | DPLL2_LCK_TIMER | |||||||
| 0x1BA | R442 | RESERVED | DPLL2_HIST_TIMER_9:8 | ||||||
| 0x1BB | R443 | DPLL2_HIST_TIMER | |||||||
| 0x1BC | R444 | RESERVED | DPLL2_HOLD_TIMER_9:8 | ||||||
| 0x1BD | R445 | DPLL2_HOLD_TIMER | |||||||
| 0x1BE | R446 | RESERVED | DPLL2_PHS1_TIMER_9:8 | ||||||
| 0x1BF | R447 | DPLL2_PHS1_TIMER | |||||||
| 0x1C4 | R452 | RESERVED | DPLL2_HIST_GAIN | ||||||
| 0x1C5 | R453 | RESERVED | DPLL2_PL_THRESH | ||||||
| 0x1C6 | R454 | RESERVED | DPLL2_PL_UNLK_THRESH | ||||||
| 0x1C7 | R455 | RESERVED | DPLL2_PHS1_THRESH | ||||||
| 0x1CA | R458 | RESERVED | DPLL2_HOLD_SLEW_STEP | ||||||
| 0x1CC | R460 | RESERVED | DPLL2_STATUS_PL | RESERVED | |||||
| 0x1CD | R461 | RESERVED | DPLL2_DCO_SLEW_ACTIVE | RESERVED | |||||
| 0x1D0 | R464 | RESERVED | DPLL2_FB_DIV_32:32 | ||||||
| 0x1D1 | R465 | DPLL2_FB_DIV_31:24 | |||||||
| 0x1D2 | R466 | DPLL2_FB_DIV_23:16 | |||||||
| 0x1D3 | R467 | DPLL2_FB_DIV_15:8 | |||||||
| 0x1D4 | R468 | DPLL2_FB_DIV | |||||||
| 0x1D5 | R469 | DPLL2_FB_NUM_39:32 | |||||||
| 0x1D6 | R470 | DPLL2_FB_NUM_31:24 | |||||||
| 0x1D7 | R471 | DPLL2_FB_NUM_23:16 | |||||||
| 0x1D8 | R472 | DPLL2_FB_NUM_15:8 | |||||||
| 0x1D9 | R473 | DPLL2_FB_NUM | |||||||
| 0x1DA | R474 | DPLL2_FB_DEN_39:32 | |||||||
| 0x1DB | R475 | DPLL2_FB_DEN_31:24 | |||||||
| 0x1DC | R476 | DPLL2_FB_DEN_23:16 | |||||||
| 0x1DD | R477 | DPLL2_FB_DEN_15:8 | |||||||
| 0x1DE | R478 | DPLL2_FB_DEN | |||||||
| 0x1DF | R479 | RESERVED | DPLL2_FB2_DIV_32:32 | ||||||
| 0x1E0 | R480 | DPLL2_FB2_DIV_31:24 | |||||||
| 0x1E1 | R481 | DPLL2_FB2_DIV_23:16 | |||||||
| 0x1E2 | R482 | DPLL2_FB2_DIV_15:8 | |||||||
| 0x1E3 | R483 | DPLL2_FB2_DIV | |||||||
| 0x1E4 | R484 | DPLL2_FB2_NUM_39:32 | |||||||
| 0x1E5 | R485 | DPLL2_FB2_NUM_31:24 | |||||||
| 0x1E6 | R486 | DPLL2_FB2_NUM_23:16 | |||||||
| 0x1E7 | R487 | DPLL2_FB2_NUM_15:8 | |||||||
| 0x1E8 | R488 | DPLL2_FB2_NUM | |||||||
| 0x1E9 | R489 | DPLL2_FB2_DEN_39:32 | |||||||
| 0x1EA | R490 | DPLL2_FB2_DEN_31:24 | |||||||
| 0x1EB | R491 | DPLL2_FB2_DEN_23:16 | |||||||
| 0x1EC | R492 | DPLL2_FB2_DEN_15:8 | |||||||
| 0x1ED | R493 | DPLL2_FB2_DEN | |||||||
| 0x1EE | R494 | RESERVED | DPLL2_REF5_FB_SEL | DPLL2_REF4_FB_SEL | RESERVED | DPLL2_REF1_FB_SEL | DPLL2_REF0_FB_SEL | ||
| 0x1EF | R495 | RESERVED | DPLL2_FB_MASH_ORDER | ||||||
| 0x1F0 | R496 | RESERVED | DPLL2_FB_FDEV_37:32 | ||||||
| 0x1F1 | R497 | DPLL2_FB_FDEV_31:24 | |||||||
| 0x1F2 | R498 | DPLL2_FB_FDEV_23:16 | |||||||
| 0x1F3 | R499 | DPLL2_FB_FDEV_15:8 | |||||||
| 0x1F4 | R500 | DPLL2_FB_FDEV | |||||||
| 0x1F5 | R501 | RESERVED | DPLL2_FB_FDEV_UPDATE | ||||||
| 0x1F6 | R502 | RESERVED | DPLL2_FB_FDEV_EN | ||||||
| 0x1F7 | R503 | DPLL2_FB_NUM_STAT_39:32 | |||||||
| 0x1F8 | R504 | DPLL2_FB_NUM_STAT_31:24 | |||||||
| 0x1F9 | R505 | DPLL2_FB_NUM_STAT_23:16 | |||||||
| 0x1FA | R506 | DPLL2_FB_NUM_STAT_15:8 | |||||||
| 0x1FB | R507 | DPLL2_FB_NUM_STAT | |||||||
| 0x1FC | R508 | RESERVED | DPLL2_REF0_DBLR_EN | DPLL2_REF1_DBLR_EN | RESERVED | ||||
| 0x1FD | R509 | DPLL2_REF0_RDIV_15:8 | |||||||
| 0x1FE | R510 | DPLL2_REF0_RDIV | |||||||
| 0x1FF | R511 | DPLL2_REF1_RDIV_15:8 | |||||||
| 0x200 | R512 | DPLL2_REF1_RDIV | |||||||
| 0x205 | R517 | DPLL2_REF4_RDIV_15:8 | |||||||
| 0x206 | R518 | DPLL2_REF4_RDIV | |||||||
| 0x207 | R519 | DPLL2_REF5_RDIV_15:8 | |||||||
| 0x208 | R520 | DPLL2_REF5_RDIV | |||||||
| 0x20B | R523 | RESERVED | DPLL3_REF0_AUTO_PRTY | DPLL3_REF1_AUTO_PRTY | |||||
| 0x20D | R525 | RESERVED | DPLL3_REF4_AUTO_PRTY | DPLL3_REF5_AUTO_PRTY | |||||
| 0x20E | R526 | RESERVED | DPLL3_MAN_REFSEL | DPLL3_MAN_SWITCH_PIN_MODE | DPLL3_SWITCH_MODE | ||||
| 0x20F | R527 | RESERVED | DPLL3_REFSEL_STAT | ||||||
| 0x210 | R528 | DPLL3_LOCKDET_PPM_EN | DPLL3_LOCKDET_PPM_MAX_14:8 | ||||||
| 0x211 | R529 | DPLL3_LOCKDET_PPM_MAX | |||||||
| 0x212 | R530 | RESERVED | DPLL3_UNLOCKDET_PPM_MAX_14:8 | ||||||
| 0x213 | R531 | DPLL3_UNLOCKDET_PPM_MAX | |||||||
| 0x214 | R532 | RESERVED | DPLL3_LOCKDET2_PPM_CNTSTRT_29:24 | ||||||
| 0x215 | R533 | DPLL3_LOCKDET2_PPM_CNTSTRT_23:16 | |||||||
| 0x216 | R534 | DPLL3_LOCKDET2_PPM_CNTSTRT_15:8 | |||||||
| 0x217 | R535 | DPLL3_LOCKDET2_PPM_CNTSTRT | |||||||
| 0x218 | R536 | RESERVED | DPLL3_LOCKDET_PPM_CNTSTRT_29:24 | ||||||
| 0x219 | R537 | DPLL3_LOCKDET_PPM_CNTSTRT_23:16 | |||||||
| 0x21A | R538 | DPLL3_LOCKDET_PPM_CNTSTRT_15:8 | |||||||
| 0x21B | R539 | DPLL3_LOCKDET_PPM_CNTSTRT | |||||||
| 0x21C | R540 | RESERVED | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_29:24 | ||||||
| 0x21D | R541 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_23:16 | |||||||
| 0x21E | R542 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_15:8 | |||||||
| 0x21F | R543 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT | |||||||
| 0x220 | R544 | RESERVED | DPLL3_STATUS_PPM_LOCK | ||||||
| 0x223 | R547 | DPLL3_LOOP_EN | DPLL3_PHASE_CANCEL_EN | DPLL3_FASTLOCK_ALWAYS | DPLL3_PHS1_EN | DPLL3_ZDM_EN | DPLL3_HIST_EN | DPLL3_PHASE_CANCEL_ALWAYS | RESERVED |
| 0x224 | R548 | DPLL3_HOLD_SLEW_LIM_EN | RESERVED | ||||||
| 0x226 | R550 | RESERVED | DPLL3_PH_OFFSET_44:40 | ||||||
| 0x227 | R551 | DPLL3_PH_OFFSET_39:32 | |||||||
| 0x228 | R552 | DPLL3_PH_OFFSET_31:24 | |||||||
| 0x229 | R553 | DPLL3_PH_OFFSET_23:16 | |||||||
| 0x22A | R554 | DPLL3_PH_OFFSET_15:8 | |||||||
| 0x22B | R555 | DPLL3_PH_OFFSET | |||||||
| 0x22C | R556 | DPLL3_FREE_RUN_39:32 | |||||||
| 0x22D | R557 | DPLL3_FREE_RUN_31:24 | |||||||
| 0x22E | R558 | DPLL3_FREE_RUN_23:16 | |||||||
| 0x22F | R559 | DPLL3_FREE_RUN_15:8 | |||||||
| 0x230 | R560 | DPLL3_FREE_RUN | |||||||
| 0x231 | R561 | DPLL3_PPM_REF_SEL | DPLL3_1PPS_MODE | DPLL3_1PPS_EN | RESERVED | ||||
| 0x24E | R590 | RESERVED | DPLL3_LCK_TIMER_9:8 | ||||||
| 0x24F | R591 | DPLL3_LCK_TIMER | |||||||
| 0x250 | R592 | RESERVED | DPLL3_HIST_TIMER_9:8 | ||||||
| 0x251 | R593 | DPLL3_HIST_TIMER | |||||||
| 0x252 | R594 | RESERVED | DPLL3_HOLD_TIMER_9:8 | ||||||
| 0x253 | R595 | DPLL3_HOLD_TIMER | |||||||
| 0x254 | R596 | RESERVED | DPLL3_PHS1_TIMER_9:8 | ||||||
| 0x255 | R597 | DPLL3_PHS1_TIMER | |||||||
| 0x25A | R602 | RESERVED | DPLL3_HIST_GAIN | ||||||
| 0x25B | R603 | RESERVED | DPLL3_PL_THRESH | ||||||
| 0x25C | R604 | RESERVED | DPLL3_PL_UNLK_THRESH | ||||||
| 0x25D | R605 | RESERVED | DPLL3_PHS1_THRESH | ||||||
| 0x262 | R610 | RESERVED | DPLL3_STATUS_PL | RESERVED | |||||
| 0x263 | R611 | RESERVED | DPLL3_DCO_SLEW_ACTIVE | RESERVED | |||||
| 0x266 | R614 | RESERVED | DPLL3_FB_DIV_32:32 | ||||||
| 0x267 | R615 | DPLL3_FB_DIV_31:24 | |||||||
| 0x268 | R616 | DPLL3_FB_DIV_23:16 | |||||||
| 0x269 | R617 | DPLL3_FB_DIV_15:8 | |||||||
| 0x26A | R618 | DPLL3_FB_DIV | |||||||
| 0x26B | R619 | DPLL3_FB_NUM_39:32 | |||||||
| 0x26C | R620 | DPLL3_FB_NUM_31:24 | |||||||
| 0x26D | R621 | DPLL3_FB_NUM_23:16 | |||||||
| 0x26E | R622 | DPLL3_FB_NUM_15:8 | |||||||
| 0x26F | R623 | DPLL3_FB_NUM | |||||||
| 0x270 | R624 | DPLL3_FB_DEN_39:32 | |||||||
| 0x271 | R625 | DPLL3_FB_DEN_31:24 | |||||||
| 0x272 | R626 | DPLL3_FB_DEN_23:16 | |||||||
| 0x273 | R627 | DPLL3_FB_DEN_15:8 | |||||||
| 0x274 | R628 | DPLL3_FB_DEN | |||||||
| 0x275 | R629 | RESERVED | DPLL3_FB2_DIV_32:32 | ||||||
| 0x276 | R630 | DPLL3_FB2_DIV_31:24 | |||||||
| 0x277 | R631 | DPLL3_FB2_DIV_23:16 | |||||||
| 0x278 | R632 | DPLL3_FB2_DIV_15:8 | |||||||
| 0x279 | R633 | DPLL3_FB2_DIV | |||||||
| 0x27A | R634 | DPLL3_FB2_NUM_39:32 | |||||||
| 0x27B | R635 | DPLL3_FB2_NUM_31:24 | |||||||
| 0x27C | R636 | DPLL3_FB2_NUM_23:16 | |||||||
| 0x27D | R637 | DPLL3_FB2_NUM_15:8 | |||||||
| 0x27E | R638 | DPLL3_FB2_NUM | |||||||
| 0x27F | R639 | DPLL3_FB2_DEN_39:32 | |||||||
| 0x280 | R640 | DPLL3_FB2_DEN_31:24 | |||||||
| 0x281 | R641 | DPLL3_FB2_DEN_23:16 | |||||||
| 0x282 | R642 | DPLL3_FB2_DEN_15:8 | |||||||
| 0x283 | R643 | DPLL3_FB2_DEN | |||||||
| 0x284 | R644 | RESERVED | DPLL3_REF5_FB_SEL | DPLL3_REF4_FB_SEL | RESERVED | DPLL3_REF1_FB_SEL | DPLL3_REF0_FB_SEL | ||
| 0x285 | R645 | RESERVED | DPLL3_FB_MASH_ORDER | ||||||
| 0x286 | R646 | RESERVED | DPLL3_FB_FDEV_37:32 | ||||||
| 0x287 | R647 | DPLL3_FB_FDEV_31:24 | |||||||
| 0x288 | R648 | DPLL3_FB_FDEV_23:16 | |||||||
| 0x289 | R649 | DPLL3_FB_FDEV_15:8 | |||||||
| 0x28A | R650 | DPLL3_FB_FDEV | |||||||
| 0x28B | R651 | RESERVED | DPLL3_FB_FDEV_UPDATE | ||||||
| 0x28C | R652 | RESERVED | DPLL3_FB_FDEV_EN | ||||||
| 0x28D | R653 | DPLL3_FB_NUM_STAT_39:32 | |||||||
| 0x28E | R654 | DPLL3_FB_NUM_STAT_31:24 | |||||||
| 0x28F | R655 | DPLL3_FB_NUM_STAT_23:16 | |||||||
| 0x290 | R656 | DPLL3_FB_NUM_STAT_15:8 | |||||||
| 0x291 | R657 | DPLL3_FB_NUM_STAT | |||||||
| 0x292 | R658 | RESERVED | DPLL3_REF0_DBLR_EN | DPLL3_REF1_DBLR_EN | RESERVED | ||||
| 0x293 | R659 | DPLL3_REF0_RDIV_15:8 | |||||||
| 0x294 | R660 | DPLL3_REF0_RDIV | |||||||
| 0x295 | R661 | DPLL3_REF1_RDIV_15:8 | |||||||
| 0x296 | R662 | DPLL3_REF1_RDIV | |||||||
| 0x29B | R667 | DPLL3_REF4_RDIV_15:8 | |||||||
| 0x29C | R668 | DPLL3_REF4_RDIV | |||||||
| 0x29D | R669 | DPLL3_REF5_RDIV_15:8 | |||||||
| 0x29E | R670 | DPLL3_REF5_RDIV | |||||||
| 0x2C3 | R707 | PLL1_CP_PU_R | |||||||
| 0x2C4 | R708 | RESERVED | PLL1_CPG | ||||||
| 0x2C5 | R709 | RESERVED | PLL1_LF_R2 | ||||||
| 0x2C6 | R710 | RESERVED | PLL1_LF_R3 | ||||||
| 0x2C7 | R711 | RESERVED | PLL1_LF_R4 | ||||||
| 0x2C8 | R712 | PLL1_DISABLE_3RD4TH | PLL1_LF_C3 | PLL1_LF_C4 | |||||
| 0x2C9 | R713 | RESERVED | PLL1_RDIV_8:8 | ||||||
| 0x2CA | R714 | PLL1_RDIV | |||||||
| 0x2CB | R715 | RESERVED | PLL1_RDIV_XO_EN | PLL1_RDIV_XO_DBLR_EN | PLL1_RDIV_BYPASS_EN | PLL1_RDIV_MUX_SEL | |||
| 0x2CC | R716 | RESERVED | PLL1_NDIV_8:8 | ||||||
| 0x2CD | R717 | PLL1_NDIV | |||||||
| 0x2CE | R718 | PLL1_NUM_MSB | |||||||
| 0x2CF | R719 | PLL1_NUM_39:32 | |||||||
| 0x2D0 | R720 | PLL1_NUM_31:24 | |||||||
| 0x2D1 | R721 | PLL1_NUM_23:16 | |||||||
| 0x2D2 | R722 | PLL1_NUM_15:8 | |||||||
| 0x2D3 | R723 | PLL1_NUM | |||||||
| 0x2D4 | R724 | RESERVED | PLL1_DTHRMODE | PLL1_ORDER | PLL1_MODE | ||||
| 0x2D5 | R725 | APLL1_NUM_STAT_39:32 | |||||||
| 0x2D6 | R726 | APLL1_NUM_STAT_31:24 | |||||||
| 0x2D7 | R727 | APLL1_NUM_STAT_23:16 | |||||||
| 0x2D8 | R728 | APLL1_NUM_STAT_15:8 | |||||||
| 0x2D9 | R729 | APLL1_NUM_STAT | |||||||
| 0x2DB | R731 | PLL1_PRI_DIV_SYNC_EN | PLL1_PRI_DIV_EN | PLL1_PRI_DIV | PLL1_P1_DIV_OUT0_1_EN | PLL1_P1_DIV_OUT2_3_EN | PLL1_P1_DIV_OUT14_15_EN | ||
| 0x2DC | R732 | PLL1_SEC_DIV_SYNC_EN | PLL1_SEC_DIV_EN | PLL1_SEC_DIV | PLL1_P2_DIV_OUT0_1_EN | RESERVED | |||
| 0x2DD | R733 | PLL1_VCO_BUF_EN | PLL1_VCO_BUF_2REF_EN | PLL1_VCO_BUF_2DPLL_EN | RESERVED | PLL1_VCO_BUF_PPM_CHECK_EN | PLL1_VCO_BUF_FB_TDC_EN | ||
| 0x2E0 | R736 | PLL1_NCLK_TEST_EN | RESERVED | PLL1_RDIV_OUTPUT_EN | RESERVED | ||||
| 0x2E5 | R741 | RESERVED | PLL1_VM_INSIDE | PLL1_VM_HI | RESERVED | ||||
| 0x2E9 | R745 | RESERVED | PLL1_NDIV_OUTPUT_EN | RESERVED | |||||
| 0x2EA | R746 | RESERVED | PLL1_VCO_PREBUF_EN | ||||||
| 0x305 | R773 | RESERVED | |||||||
| 0x309 | R777 | PLL2_CP_PU_R | |||||||
| 0x30A | R778 | RESERVED | PLL2_CP_PU_DIS | PLL2_CPG | |||||
| 0x30B | R779 | PLL2_LF_R2 | |||||||
| 0x30C | R780 | RESERVED | PLL2_LF_R3 | ||||||
| 0x30D | R781 | RESERVED | PLL2_LF_R4 | ||||||
| 0x30E | R782 | PLL2_DISABLE_3RD4TH | PLL2_LF_C3 | PLL2_LF_C4 | |||||
| 0x30F | R783 | RESERVED | PLL2_RDIV_8:8 | ||||||
| 0x310 | R784 | PLL2_RDIV | |||||||
| 0x311 | R785 | RESERVED | PLL2_RDIV_XO_EN | PLL2_RDIV_XO_DBLR_EN | PLL2_RDIV_BYPASS_EN | PLL2_RDIV_MUX_SEL | |||
| 0x312 | R786 | RESERVED | PLL2_NDIV_8:8 | ||||||
| 0x313 | R787 | PLL2_NDIV | |||||||
| 0x314 | R788 | PLL2_NUM_MSB | |||||||
| 0x315 | R789 | PLL2_NUM_39:32 | |||||||
| 0x316 | R790 | PLL2_NUM_31:24 | |||||||
| 0x317 | R791 | PLL2_NUM_23:16 | |||||||
| 0x318 | R792 | PLL2_NUM_15:8 | |||||||
| 0x319 | R793 | PLL2_NUM | |||||||
| 0x31A | R794 | RESERVED | PLL2_DTHRMODE | PLL2_ORDER | PLL2_MODE | ||||
| 0x31B | R795 | APLL2_NUM_STAT_39:32 | |||||||
| 0x31C | R796 | APLL2_NUM_STAT_31:24 | |||||||
| 0x31D | R797 | APLL2_NUM_STAT_23:16 | |||||||
| 0x31E | R798 | APLL2_NUM_STAT_15:8 | |||||||
| 0x31F | R799 | APLL2_NUM_STAT | |||||||
| 0x323 | R803 | RESERVED | PLL2_VCO_BUF_EN | PLL2_VCO_BUF_2REF_EN | PLL2_VCO_BUF_2DPLL_EN | PLL2_VCO_BUF_2WNDDET_EN | |||
| 0x324 | R804 | RESERVED | PLL2_VCO_DIV_SYNC_EN | PLL2_VCO_DIV_EN | PLL2_VCO_DIV | ||||
| 0x325 | R805 | RESERVED | PLL2_VCO_BUF_FB_TDC_EN | PLL2_P1_OUT14_15_EN | PLL2_P1_OUT8_13_EN | PLL2_P1_OUT4_7_EN | PLL2_P1_OUT2_3_EN | PLL2_P1_OUT0_1_EN | |
| 0x328 | R808 | RESERVED | PLL2_RDIV_OUTPUT_EN | RESERVED | |||||
| 0x32D | R813 | RESERVED | PLL2_VM_INSIDE | PLL2_VM_HI | RESERVED | ||||
| 0x332 | R818 | RESERVED | PLL2_NDIV_OUTPUT_EN | RESERVED | |||||
| 0x333 | R819 | RESERVED | PLL2_VCO_PREBUF_EN | ||||||
| 0x348 | R840 | PLL3_CPBAW_BLEED | |||||||
| 0x349 | R841 | RESERVED | PLL3_CP_PU_DIS | PLL3_CPG | |||||
| 0x34A | R842 | RESERVED | PLL3_LF_R2 | ||||||
| 0x34B | R843 | RESERVED | PLL3_LF_R3 | ||||||
| 0x34C | R844 | RESERVED | PLL3_LF_R4 | ||||||
| 0x34D | R845 | RESERVED | PLL3_LF_C3 | PLL3_LF_C4 | |||||
| 0x34E | R846 | RESERVED | PLL3_RDIV_8:8 | ||||||
| 0x34F | R847 | PLL3_RDIV | |||||||
| 0x350 | R848 | RESERVED | PLL3_RDIV_XO_EN | PLL3_RDIV_XO_DBLR_EN | PLL3_RDIV_BYPASS_EN | PLL3_RDIV_MUX_SEL | |||
| 0x351 | R849 | RESERVED | PLL3_NDIV_8:8 | ||||||
| 0x352 | R850 | PLL3_NDIV | |||||||
| 0x353 | R851 | PLL3_NUM_MSB | |||||||
| 0x354 | R852 | PLL3_NUM_39:32 | |||||||
| 0x355 | R853 | PLL3_NUM_31:24 | |||||||
| 0x356 | R854 | PLL3_NUM_23:16 | |||||||
| 0x357 | R855 | PLL3_NUM_15:8 | |||||||
| 0x358 | R856 | PLL3_NUM | |||||||
| 0x359 | R857 | RESERVED | PLL3_DTHRMODE | PLL3_ORDER | PLL3_MODE | ||||
| 0x35A | R858 | APLL3_NUM_STAT_39:32 | |||||||
| 0x35B | R859 | APLL3_NUM_STAT_31:24 | |||||||
| 0x35C | R860 | APLL3_NUM_STAT_23:16 | |||||||
| 0x35D | R861 | APLL3_NUM_STAT_15:8 | |||||||
| 0x35E | R862 | APLL3_NUM_STAT | |||||||
| 0x360 | R864 | PLL3_VCO_BUF_OUT_EN | PLL3_VCO_DIV_SYNC_EN | PLL3_PRI_DIV | |||||
| 0x361 | R865 | PLL3_VCO_DIV_SEL | PLL3_VCO_CHAN_DRVR_IN_EN | PLL3_P1_OUT14_15_EN | PLL3_P1_OUT8_13_EN | PLL3_P1_OUT4_7_EN | PLL3_P1_OUT2_3_EN | PLL3_P1_OUT0_1_EN | |
| 0x362 | R866 | RESERVED | PLL3_VCO_BUF_2REF_EN | PLL3_WIN_DET_DRVR_EN | PLL3_VCO_BUF_FB_TDC_EN | ||||
| 0x368 | R872 | RESERVED | PLL3_RDIV_OUTPUT_EN | RESERVED | |||||
| 0x372 | R882 | RESERVED | PLL3_NDIV_OUTPUT_EN | RESERVED | |||||
| 0x3C1 | R961 | RESERVED | OUT_0_EN | OUT_0_FMT | |||||
| 0x3C2 | R962 | OUT_0_CAP_EN | OUT_0_STATIC_LOW | OUT_0_P_CMOS_EN | OUT_0_N_CMOS_EN | OUT_0_P_INVERT_POLARITY | OUT_0_N_INVERT_POLARITY | OUT_0_P_FORCELOW | OUT_0_N_FORCELOW |
| 0x3C3 | R963 | OUT_0_CONFIGURATION | |||||||
| 0x3C4 | R964 | RESERVED | OUT_1_EN | OUT_1_FMT | |||||
| 0x3C5 | R965 | OUT_1_CAP_EN | OUT_1_STATIC_LOW | OUT_1_P_CMOS_EN | OUT_1_N_CMOS_EN | OUT_1_P_INVERT_POLARITY | OUT_1_N_INVERT_POLARITY | OUT_1_P_FORCELOW | OUT_1_N_FORCELOW |
| 0x3C6 | R966 | OUT_1_CONFIGURATION | |||||||
| 0x3C7 | R967 | RESERVED | OUT_0_1_CMOS_OUT_VOLTAGE_SEL | OUT_0_1_CMOS_OUT_LDO_EN | |||||
| 0x3C8 | R968 | RESERVED | OUT_0_1_ZDM_TDC_SEL | OUT_0_1_ZDM_EN | |||||
| 0x3C9 | R969 | RESERVED | OUT_0_1_DIV_MUTE_EN | OUT_0_1_DIV_SYNC_EN | OUT_0_1_SR_DIV_SYNC_EN | OUT_0_1_CH0_CHAN_POL_SEL | OUT_0_1_CH1_CHAN_POL_SEL | OUT_0_1_CH0_DIV_EN | OUT_0_1_CH1_DIV_EN |
| 0x3CB | R971 | OUT_0_1_CLK_IN_SEL | |||||||
| 0x3CC | R972 | RESERVED | OUT_0_1_CH0_CH_DIV_SR_MUX_CLK_SEL | RESERVED | |||||
| 0x3CD | R973 | OUT_0_1_CLK_IN_FANOUT | OUT_0_1_CLK_IN_SEL_9:8 | ||||||
| 0x3CE | R974 | RESERVED | OUT_0_1_CH0_CH_STATIC_OFFSET_11:8 | ||||||
| 0x3CF | R975 | OUT_0_1_CH0_CH_STATIC_OFFSET | |||||||
| 0x3D0 | R976 | RESERVED | OUT_0_1_CH1_CH_STATIC_OFFSET_11:8 | ||||||
| 0x3D1 | R977 | OUT_0_1_CH1_CH_STATIC_OFFSET | |||||||
| 0x3D2 | R978 | RESERVED | OUT_0_1_CH0_CH_DIV_11:8 | ||||||
| 0x3D3 | R979 | OUT_0_1_CH0_CH_DIV | |||||||
| 0x3D4 | R980 | RESERVED | OUT_0_1_CH1_CH_DIV_11:8 | ||||||
| 0x3D5 | R981 | OUT_0_1_CH1_CH_DIV | |||||||
| 0x3D6 | R982 | RESERVED | OUT_0_1_SR_ANA_DELAY | ||||||
| 0x3D7 | R983 | RESERVED | OUT_0_1_SR_ANA_DELAY_DIV2_SEL | OUT_0_1_SR_ANA_DELAY_EN | OUT_0_1_SR_ANA_DELAY_SMALL_STEP_EN | OUT_0_1_SR_ANA_DELAY_RANGE | |||
| 0x3D8 | R984 | RESERVED | OUT_0_1_SR_DDLY | ||||||
| 0x3D9 | R985 | RESERVED | OUT_0_1_SR_DIV_19:16 | ||||||
| 0x3DA | R986 | OUT_0_1_SR_DIV_15:8 | |||||||
| 0x3DB | R987 | OUT_0_1_SR_DIV | |||||||
| 0x3DC | R988 | RESERVED | OUT_0_1_SR_DIV_STATIC_OFFSET_14:8 | ||||||
| 0x3DD | R989 | OUT_0_1_SR_DIV_STATIC_OFFSET | |||||||
| 0x3DE | R990 | OUT_0_1_SR_REQ_MODE | OUT_0_1_SR_GPIO_EN | RESERVED | OUT_0_1_PULSE_COUNT | OUT_0_1_SR_MODE | |||
| 0x3DF | R991 | RESERVED | OUT_0_1_SR_CH0_DIV_BYPASS | RESERVED | |||||
| 0x400 | R1024 | RESERVED | OUT_2_EN | OUT_2_FMT | |||||
| 0x401 | R1025 | RESERVED | OUT_2_CAP_EN | OUT_2_CONFIGURATION | |||||
| 0x402 | R1026 | OUT_2_CHAN_POL_SEL | OUT_2_CLK_MUX | RESERVED | OUT_2_DIV_EN | OUT_2_CH_MUX_SEL | |||
| 0x403 | R1027 | RESERVED | OUT_2_MUTE_EN | OUT_2_SYNC_EN | RESERVED | ||||
| 0x404 | R1028 | RESERVED | OUT_2_CH_STATIC_OFFSET_11:8 | ||||||
| 0x405 | R1029 | OUT_2_CH_STATIC_OFFSET | |||||||
| 0x406 | R1030 | RESERVED | OUT_2_CH_DIV_11:8 | ||||||
| 0x407 | R1031 | OUT_2_CH_DIV | |||||||
| 0x420 | R1056 | RESERVED | OUT_3_EN | OUT_3_FMT | |||||
| 0x421 | R1057 | RESERVED | OUT_3_CAP_EN | OUT_3_CONFIGURATION | |||||
| 0x422 | R1058 | OUT_3_CHAN_POL_SEL | OUT_3_CLK_MUX | RESERVED | OUT_3_DIV_EN | OUT_3_CH_MUX_SEL | |||
| 0x423 | R1059 | RESERVED | OUT_3_MUTE_EN | OUT_3_SYNC_EN | RESERVED | ||||
| 0x424 | R1060 | RESERVED | OUT_3_CH_STATIC_OFFSET_11:8 | ||||||
| 0x425 | R1061 | OUT_3_CH_STATIC_OFFSET | |||||||
| 0x426 | R1062 | RESERVED | OUT_3_CH_DIV_11:8 | ||||||
| 0x427 | R1063 | OUT_3_CH_DIV | |||||||
| 0x440 | R1088 | RESERVED | OUT_4_5_SR_ANA_DLY_BIASTRIM | ||||||
| 0x441 | R1089 | RESERVED | OUT_4_EN | OUT_4_FMT | |||||
| 0x442 | R1090 | RESERVED | OUT_4_CAP_EN | RESERVED | OUT_4_CONFIGURATION | ||||
| 0x443 | R1091 | RESERVED | OUT_5_EN | OUT_5_FMT | |||||
| 0x444 | R1092 | RESERVED | OUT_5_CAP_EN | RESERVED | OUT_5_CONFIGURATION | ||||
| 0x445 | R1093 | RESERVED | OUT_4_5_DIV_SYNC_EN | OUT_4_5_SR_DIV_SYNC_EN | RESERVED | OUT_4_5_CHAN_POL_SEL | OUT_4_5_DIV_EN | ||
| 0x446 | R1094 | OUT_4_5_MUTE_EN | OUT_4_5_ZDM_EN | OUT_4_5_CLK_IN_SEL | OUT_4_5_CH_DIV_SR_MUX_CLK_SEL | OUT_4_5_CH_MUX_SEL | |||
| 0x447 | R1095 | RESERVED | OUT_4_5_CH_STATIC_OFFSET_11:8 | ||||||
| 0x448 | R1096 | OUT_4_5_CH_STATIC_OFFSET | |||||||
| 0x449 | R1097 | RESERVED | OUT_4_5_CH_DIV_11:8 | ||||||
| 0x44A | R1098 | OUT_4_5_CH_DIV | |||||||
| 0x44B | R1099 | RESERVED | OUT_4_5_SR_ANA_DELAY | ||||||
| 0x44C | R1100 | RESERVED | OUT_4_5_SR_ANA_DELAY_DIV2_SEL | OUT_4_5_SR_ANA_DELAY_EN | OUT_4_5_SR_ANA_DELAY_SMALL_STEP_EN | OUT_4_5_SR_ANA_DELAY_RANGE | |||
| 0x44D | R1101 | RESERVED | OUT_4_5_SR_DDLY | ||||||
| 0x44E | R1102 | RESERVED | OUT_4_5_SR_DIV_19:16 | ||||||
| 0x44F | R1103 | OUT_4_5_SR_DIV_15:8 | |||||||
| 0x450 | R1104 | OUT_4_5_SR_DIV | |||||||
| 0x451 | R1105 | RESERVED | OUT_4_5_SR_DIV_STATIC_OFFSET_14:8 | ||||||
| 0x452 | R1106 | OUT_4_5_SR_DIV_STATIC_OFFSET | |||||||
| 0x453 | R1107 | RESERVED | OUT_4_5_SR_REQ_MODE | OUT_4_5_PULSE_COUNT | OUT_4_5_SR_GPIO_EN | OUT_4_5_SR_MODE | |||
| 0x454 | R1108 | RESERVED | OUT_4_5_SR_CH_DIV_BYPASS | RESERVED | |||||
| 0x461 | R1121 | RESERVED | OUT_6_EN | OUT_6_FMT | |||||
| 0x462 | R1122 | RESERVED | OUT_6_CAP_EN | RESERVED | OUT_6_CONFIGURATION | ||||
| 0x463 | R1123 | RESERVED | OUT_7_EN | OUT_7_FMT | |||||
| 0x464 | R1124 | RESERVED | OUT_7_CAP_EN | RESERVED | OUT_7_CONFIGURATION | ||||
| 0x465 | R1125 | RESERVED | OUT_6_7_DIV_SYNC_EN | OUT_6_7_SR_DIV_SYNC_EN | RESERVED | OUT_6_7_CHAN_POL_SEL | OUT_6_7_DIV_EN | ||
| 0x466 | R1126 | OUT_6_7_MUTE_EN | RESERVED | OUT_6_7_CLK_IN_SEL | OUT_6_7_CH_DIV_SR_MUX_CLK_SEL | OUT_6_7_CH_MUX_SEL | |||
| 0x467 | R1127 | RESERVED | OUT_6_7_CH_STATIC_OFFSET_11:8 | ||||||
| 0x468 | R1128 | OUT_6_7_CH_STATIC_OFFSET | |||||||
| 0x469 | R1129 | RESERVED | OUT_6_7_CH_DIV_11:8 | ||||||
| 0x46A | R1130 | OUT_6_7_CH_DIV | |||||||
| 0x46B | R1131 | RESERVED | OUT_6_7_SR_ANA_DELAY | ||||||
| 0x46C | R1132 | RESERVED | OUT_6_7_SR_ANA_DELAY_DIV2_SEL | OUT_6_7_SR_ANA_DELAY_EN | OUT_6_7_SR_ANA_DELAY_SMALL_STEP_EN | OUT_6_7_SR_ANA_DELAY_RANGE | |||
| 0x46D | R1133 | RESERVED | OUT_6_7_SR_DDLY | ||||||
| 0x46E | R1134 | RESERVED | OUT_6_7_SR_DIV_19:16 | ||||||
| 0x46F | R1135 | OUT_6_7_SR_DIV_15:8 | |||||||
| 0x470 | R1136 | OUT_6_7_SR_DIV | |||||||
| 0x471 | R1137 | RESERVED | OUT_6_7_SR_DIV_STATIC_OFFSET_14:8 | ||||||
| 0x472 | R1138 | OUT_6_7_SR_DIV_STATIC_OFFSET | |||||||
| 0x473 | R1139 | RESERVED | OUT_6_7_SR_REQ_MODE | OUT_6_7_PULSE_COUNT | OUT_6_7_SR_GPIO_EN | OUT_6_7_SR_MODE | |||
| 0x474 | R1140 | RESERVED | OUT_6_7_SR_CH_DIV_BYPASS | RESERVED | |||||
| 0x481 | R1153 | RESERVED | OUT_8_EN | OUT_8_FMT | |||||
| 0x482 | R1154 | RESERVED | OUT_8_CAP_EN | RESERVED | OUT_8_CONFIGURATION | ||||
| 0x483 | R1155 | RESERVED | OUT_9_EN | OUT_9_FMT | |||||
| 0x484 | R1156 | RESERVED | OUT_9_CAP_EN | RESERVED | OUT_9_CONFIGURATION | ||||
| 0x485 | R1157 | RESERVED | OUT_8_9_DIV_SYNC_EN | OUT_8_9_SR_DIV_SYNC_EN | RESERVED | OUT_8_9_CHAN_POL_SEL | OUT_8_9_DIV_EN | ||
| 0x486 | R1158 | OUT_8_9_MUTE_EN | RESERVED | OUT_8_9_CLK_IN_SEL | OUT_8_9_CH_DIV_SR_MUX_CLK_SEL | OUT_8_9_CH_MUX_SEL | |||
| 0x487 | R1159 | RESERVED | OUT_8_9_CH_STATIC_OFFSET_11:8 | ||||||
| 0x488 | R1160 | OUT_8_9_CH_STATIC_OFFSET | |||||||
| 0x489 | R1161 | RESERVED | OUT_8_9_CH_DIV_11:8 | ||||||
| 0x48A | R1162 | OUT_8_9_CH_DIV | |||||||
| 0x48B | R1163 | RESERVED | OUT_8_9_SR_ANA_DELAY | ||||||
| 0x48C | R1164 | RESERVED | OUT_8_9_SR_ANA_DELAY_DIV2_SEL | OUT_8_9_SR_ANA_DELAY_EN | OUT_8_9_SR_ANA_DELAY_SMALL_STEP_EN | OUT_8_9_SR_ANA_DELAY_RANGE | |||
| 0x48D | R1165 | RESERVED | OUT_8_9_SR_DDLY | ||||||
| 0x48E | R1166 | RESERVED | OUT_8_9_SR_DIV_19:16 | ||||||
| 0x48F | R1167 | OUT_8_9_SR_DIV_15:8 | |||||||
| 0x490 | R1168 | OUT_8_9_SR_DIV | |||||||
| 0x491 | R1169 | RESERVED | OUT_8_9_SR_DIV_STATIC_OFFSET_14:8 | ||||||
| 0x492 | R1170 | OUT_8_9_SR_DIV_STATIC_OFFSET | |||||||
| 0x493 | R1171 | RESERVED | OUT_8_9_SR_REQ_MODE | OUT_8_9_PULSE_COUNT | OUT_8_9_SR_GPIO_EN | OUT_8_9_SR_MODE | |||
| 0x4A1 | R1185 | RESERVED | OUT_10_EN | OUT_10_FMT | |||||
| 0x4A2 | R1186 | RESERVED | OUT_10_CAP_EN | RESERVED | OUT_10_CONFIGURATION | ||||
| 0x4A3 | R1187 | RESERVED | OUT_11_EN | OUT_11_FMT | |||||
| 0x4A4 | R1188 | RESERVED | OUT_11_CAP_EN | RESERVED | OUT_11_CONFIGURATION | ||||
| 0x4A5 | R1189 | RESERVED | OUT_10_11_DIV_SYNC_EN | OUT_10_11_SR_DIV_SYNC_EN | RESERVED | OUT_10_11_CHAN_POL_SEL | OUT_10_11_DIV_EN | ||
| 0x4A6 | R1190 | OUT_10_11_MUTE_EN | OUT_10_11_ZDM_EN | OUT_10_11_CLK_IN_SEL | OUT_10_11_CH_DIV_SR_MUX_CLK_SEL | OUT_10_11_CH_MUX_SEL | |||
| 0x4A7 | R1191 | RESERVED | OUT_10_11_CH_STATIC_OFFSET_11:8 | ||||||
| 0x4A8 | R1192 | OUT_10_11_CH_STATIC_OFFSET | |||||||
| 0x4A9 | R1193 | RESERVED | OUT_10_11_CH_DIV_11:8 | ||||||
| 0x4AA | R1194 | OUT_10_11_CH_DIV | |||||||
| 0x4AB | R1195 | RESERVED | OUT_10_11_SR_ANA_DELAY | ||||||
| 0x4AC | R1196 | RESERVED | OUT_10_11_SR_ANA_DELAY_DIV2_SEL | OUT_10_11_SR_ANA_DELAY_EN | OUT_10_11_SR_ANA_DELAY_SMALL_STEP_EN | OUT_10_11_SR_ANA_DELAY_RANGE | |||
| 0x4AD | R1197 | RESERVED | OUT_10_11_SR_DDLY | ||||||
| 0x4AE | R1198 | RESERVED | OUT_10_11_SR_DIV_19:16 | ||||||
| 0x4AF | R1199 | OUT_10_11_SR_DIV_15:8 | |||||||
| 0x4B0 | R1200 | OUT_10_11_SR_DIV | |||||||
| 0x4B1 | R1201 | RESERVED | OUT_10_11_SR_DIV_STATIC_OFFSET_14:8 | ||||||
| 0x4B2 | R1202 | OUT_10_11_SR_DIV_STATIC_OFFSET | |||||||
| 0x4B3 | R1203 | RESERVED | OUT_10_11_SR_REQ_MODE | OUT_10_11_PULSE_COUNT | OUT_10_11_SR_GPIO_EN | OUT_10_11_SR_MODE | |||
| 0x4B4 | R1204 | RESERVED | OUT_10_11_SR_CH_DIV_BYPASS | RESERVED | |||||
| 0x4C1 | R1217 | RESERVED | OUT_12_EN | OUT_12_FMT | |||||
| 0x4C2 | R1218 | RESERVED | OUT_12_CAP_EN | RESERVED | OUT_12_CONFIGURATION | ||||
| 0x4C3 | R1219 | RESERVED | OUT_13_EN | OUT_13_FMT | |||||
| 0x4C4 | R1220 | RESERVED | OUT_13_CAP_EN | RESERVED | OUT_13_CONFIGURATION | ||||
| 0x4C5 | R1221 | RESERVED | OUT_12_13_DIV_SYNC_EN | OUT_12_13_SR_DIV_SYNC_EN | RESERVED | OUT_12_13_CHAN_POL_SEL | OUT_12_13_DIV_EN | ||
| 0x4C6 | R1222 | OUT_12_13_MUTE_EN | RESERVED | OUT_12_13_CLK_IN_SEL | OUT_12_13_CH_DIV_SR_MUX_CLK_SEL | OUT_12_13_CH_MUX_SEL | |||
| 0x4C7 | R1223 | RESERVED | OUT_12_13_CH_STATIC_OFFSET_11:8 | ||||||
| 0x4C8 | R1224 | OUT_12_13_CH_STATIC_OFFSET | |||||||
| 0x4C9 | R1225 | RESERVED | OUT_12_13_CH_DIV_11:8 | ||||||
| 0x4CA | R1226 | OUT_12_13_CH_DIV | |||||||
| 0x4CB | R1227 | RESERVED | OUT_12_13_SR_ANA_DELAY | ||||||
| 0x4CC | R1228 | RESERVED | OUT_12_13_SR_ANA_DELAY_DIV2_SEL | OUT_12_13_SR_ANA_DELAY_EN | OUT_12_13_SR_ANA_DELAY_SMALL_STEP_EN | OUT_12_13_SR_ANA_DELAY_RANGE | |||
| 0x4CD | R1229 | RESERVED | OUT_12_13_SR_DDLY | ||||||
| 0x4CE | R1230 | RESERVED | OUT_12_13_SR_DIV_19:16 | ||||||
| 0x4CF | R1231 | OUT_12_13_SR_DIV_15:8 | |||||||
| 0x4D0 | R1232 | OUT_12_13_SR_DIV | |||||||
| 0x4D1 | R1233 | RESERVED | OUT_12_13_SR_DIV_STATIC_OFFSET_14:8 | ||||||
| 0x4D2 | R1234 | OUT_12_13_SR_DIV_STATIC_OFFSET | |||||||
| 0x4D3 | R1235 | RESERVED | OUT_12_13_SR_REQ_MODE | OUT_12_13_PULSE_COUNT | OUT_12_13_SR_GPIO_EN | OUT_12_13_SR_MODE | |||
| 0x4D4 | R1236 | RESERVED | OUT_12_13_SR_CH_DIV_BYPASS | RESERVED | |||||
| 0x4E0 | R1248 | RESERVED | OUT_14_EN | OUT_14_FMT | |||||
| 0x4E1 | R1249 | RESERVED | OUT_14_CAP_EN | OUT_14_CONFIGURATION | |||||
| 0x4E2 | R1250 | OUT_14_CHAN_POL_SEL | OUT_14_CLK_MUX | RESERVED | OUT_14_DIV_EN | OUT_14_CH_MUX_SEL | |||
| 0x4E3 | R1251 | RESERVED | OUT_14_MUTE_EN | OUT_14_SYNC_EN | RESERVED | ||||
| 0x4E4 | R1252 | RESERVED | OUT_14_CH_STATIC_OFFSET_11:8 | ||||||
| 0x4E5 | R1253 | OUT_14_CH_STATIC_OFFSET | |||||||
| 0x4E6 | R1254 | RESERVED | OUT_14_CH_DIV_11:8 | ||||||
| 0x4E7 | R1255 | OUT_14_CH_DIV | |||||||
| 0x500 | R1280 | RESERVED | OUT_15_EN | OUT_15_FMT | |||||
| 0x501 | R1281 | RESERVED | OUT_15_CAP_EN | OUT_15_CONFIGURATION | |||||
| 0x502 | R1282 | OUT_15_CHAN_POL_SEL | OUT_15_CLK_MUX | RESERVED | OUT_15_DIV_EN | OUT_15_CH_MUX_SEL | |||
| 0x503 | R1283 | RESERVED | OUT_15_MUTE_EN | OUT_15_SYNC_EN | RESERVED | ||||
| 0x504 | R1284 | RESERVED | OUT_15_CH_STATIC_OFFSET_11:8 | ||||||
| 0x505 | R1285 | OUT_15_CH_STATIC_OFFSET | |||||||
| 0x506 | R1286 | RESERVED | OUT_15_CH_DIV_11:8 | ||||||
| 0x507 | R1287 | OUT_15_CH_DIV | |||||||
Complex bit access types are encoded to fit into small table cells. Table 1-2 shows the codes that are used for access types in this section.
| Access Type | Code | Description |
|---|---|---|
| Read Type | ||
| R | R | Read |
| R-0 | R -0 |
Read Returns 0s |
| Write Type | ||
| W | W | Write |
| W1S | W 1S |
Write 1 to set |
| WSC | W | Write |
| Reset or Default Value | ||
| -n | Value after reset or the default value | |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | VNDRID_15:8 | R | 0x10 | See Register 1 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | VNDRID | R | 0xB | Vendor Identification Number. The
Vendor Identification Number is a unique 16-bit
identification number assigned to I2C/SMBus vendors.
ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRODID | R | 0x41 | Product ID. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REVID | R | 0x1 | Revision ID. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRTID_47:40 | R | 0x0 | Part ID. Used for manufacturing ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRTID_39:32 | R | 0x0 | Part ID. Used for manufacturing ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRTID_31:24 | R | 0x0 | Part ID. Used for manufacturing ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRTID_23:16 | R | 0x0 | Part ID. Used for manufacturing ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRTID_15:8 | R | 0x0 | Part ID. Used for manufacturing ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PRTID | R | 0x0 | Part ID. Used for manufacturing ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMCNT | R | 0x0 | NVM Program Count. The NVMCNT
increments automatically after every EEPROM
Erase/Program Cycle. The NVMCNT value is retrieved
automatically after reset, after a NVM Commit
operation, or after a Erase/Program cycle. The
NVMCNT register will increment until it reaches it's
maximum value of 255 after which no further
increments will take place. ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | TARGET_ADR_MSB | R | 0x19 | I2C/SMBus Target Address. This field
holds the 5 MSB bits of the Target Address used to
identify this device during I2C/SMBus transactions.
The two least significant bits of the Target Address
are defined by CSC/ADD/TEC pin upon power-up. This
is user-writable to EEPROM only through SRAM
register at address 12. ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | EEREV | R/W | 0x0 | EEPROM Image Revision ID. EEPROM Image
Revision is automatically retrieved from EEPROM and
stored in the EEREV register after a reset or after
a NVM commit operation. This is user-writable to
EEPROM only through SRAM register address 13. ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | ROM_PLUS_EE | R/W | 0x0 | When set, the thin EEPROM settings are
loaded. This is user-writable to EEPROM only through
SRAM register address 14. ROM=N, EEPROM=Y |
| 6:3 | EE_ROM_PAGE_SEL | R/W | 0x0 | EE_ROM_PAGE_SEL value is added to the
GPIO pin value for selecting the start-up ROM. ROM=N, EEPROM=Y |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | SPI_3WIRE_DIS | R/W | 0x1 | Disable SPI 3 wire readback. The SDIO
pin will remain input at all times. ROM=Y, EEPROM=N
|
| 6 | SYNC_SW | R/W | 0x0 | Software SYNC Assertion. Writing a '1'
to this bit is equivalent to asserting the SYNC pin.
SYNC_EN must also be set to 1. ROM=Y, EEPROM=Y |
| 5:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL3_EN | R/W | 0x1 | Enable DPLL3. ROM=Y, EEPROM=N |
| 4 | APLL3_EN | R/W | 0x1 | Enable APLL3. ROM=Y, EEPROM=Y |
| 3 | DPLL2_EN | R/W | 0x0 | Enable DPLL2. ROM=Y, EEPROM=N |
| 2 | APLL2_EN | R/W | 0x1 | Enable APLL2. ROM=Y, EEPROM=Y |
| 1 | DPLL1_EN | R/W | 0x0 | Enable DPLL1. ROM=Y, EEPROM=N |
| 0 | APLL1_EN | R/W | 0x1 | Enable APLL1. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | SWRST | R/W | 0x0 | Software Reset ALL functions (active
low). Writing a '0' will cause the device to return
to its power-up state apart from the programmed
registers and the configuration controller. The
configuration controller is excluded to prevent an
re-transfer of EEPROM data to on-chip registers. Not
a self clearing field. ROM=N, EEPROM=N |
| 5 | DPLL3_SWRST | R-0/W1S | 0x0 | Software Reset DPLL3.. Setting to '1'
resets the DPLL loop filter.This bit is
automatically cleared to '0'. ROM=N, EEPROM=N |
| 4 | DPLL2_SWRST | R-0/W1S | 0x0 | Software Reset DPLL2. Setting to '1'
resets the DPLL loop filter. This bit is
automatically cleared to '0'. ROM=N, EEPROM=N |
| 3 | DPLL1_SWRST | R-0/W1S | 0x0 | Software Reset DPLL1. Setting to '1'
resets the DPLL loop filter. This bit is
automatically cleared to '0'. ROM=N, EEPROM=N |
| 2 | APLL3_SWRST | R-0/W1S | 0x0 | Software Reset PLL3. Setting to '1'
resets the PLL Calibrator, the PLL N Divider, R
Divider and VCO Divider. The PLL Calibrator then
takes control of the N Divider reset. This bit is
automatically cleared to '0'. It does not reset the
divider driving the CMOS Outputs. ROM=N, EEPROM=N |
| 1 | APLL2_SWRST | R-0/W1S | 0x0 | Software Reset PLL2. Setting to '1'
resets the PLL Calibrator, the PLL N Divider, R
Divider and VCO Divider. The PLL Calibrator then
takes control of the N Divider reset. This bit is
automatically cleared to '0'. It does not reset the
divider driving the CMOS Outputs. ROM=N, EEPROM=N |
| 0 | APLL1_SWRST | R-0/W1S | 0x0 | Software Reset PLL1. Setting to '1'
resets the PLL Calibrator, the PLL N Divider, R
Divider and VCO Divider. The PLL Calibrator then
takes control of the N Divider reset. This bit is
automatically cleared to '0'. It does not reset the
divider driving the CMOS Outputs. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | APLL3_STRT_PRTY | R/W | 0x0 | APLL3 Start-up Priority. 0 is highest
priority. APLLs with the same priority will start
simultaneously. ROM=Y, EEPROM=Y |
| 3:2 | APLL2_STRT_PRTY | R/W | 0x1 | APLL2 Start-up Priority. 0 is highest
priority. APLLs with the same priority will start
simultaneously. ROM=Y, EEPROM=Y |
| 1:0 | APLL1_STRT_PRTY | R/W | 0x2 | APLL1 Start-up Priority. 0 is highest
priority. APLLs with the same priority will start
simultaneously. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:1 | RESERVED | R | 0x0 | Reserved |
| 0 | SYNC_EN | R/W | 0x1 | Allows SYNC from SYNC_SW and GPIO pin.
For GPIO sync, must be set together with SYNC input
for GPIOx_MODE. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | SYSREF_REQ_MODE | R/W | 0x0 | SYSREF Request Mode. Determines how a
GPIO input is syncronized to generate a SYSREF
request. ROM=Y, EEPROM=N
|
| 3:1 | SYSREF_REQ_SEL | R/W | 0x0 | SYSREF Request Select. Choses which
output drives the SYSREF feedback clock. ROM=Y, EEPROM=N
|
| 0 | SYSREF_REQ_SW | R/WSC | 0x0 | Software SYSREF request trigger ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TEC_CNTR_39:32 | R | 0x0 | Time Elapsed Counter Readback ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TEC_CNTR_31:24 | R | 0x0 | Time Elapsed Counter Readback ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TEC_CNTR_23:16 | R | 0x0 | Time Elapsed Counter Readback ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TEC_CNTR_15:8 | R | 0x0 | Time Elapsed Counter Readback ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | TEC_CNTR | R | 0x0 | Time Elapsed Counter Readback ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2 | RESERVED | R | 0x0 | Reserved |
| 1 | TEC_CNTR_TRIG_SEL | R/W | 0x0 | Time Elapsed Counter trigger select. If
using GPIO, must also set GPIOx_MODE to provide TEC
trigger. ROM=Y, EEPROM=N
|
| 0 | TEC_CNTR_EN | R/W | 0x0 | Time Elapsed Counter counter enable.
When transitioning from 0 --> 1, the TEC counter
will start from 0. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1 | R | 0x0 | Loss of Lock - APLL1 ROM=N, EEPROM=N |
| 2 | LOL_PLL2 | R | 0x0 | Loss of Lock - APLL2 ROM=N, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO | R | 0x0 | Loss of Source Freq Detection - XO ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1 | R | 0x0 | Loss of Phase Lock - DPLL1 ROM=N, EEPROM=N |
| 6 | LOFL_DPLL1 | R | 0x0 | Loss of Frequency Lock - DPLL1 ROM=N, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4 | HLDOVR1 | R | 0x0 | Holdover event - DPLL1 ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2 | R | 0x0 | Loss of Phase Lock - DPLL2 ROM=N, EEPROM=N |
| 6 | LOFL_DPLL2 | R | 0x0 | Loss of Frequency Lock - DPLL2 ROM=N, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4 | HLDOVR2 | R | 0x0 | Holdover event - DPLL2 ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3 | R | 0x0 | Loss of Phase Lock - DPLL3 ROM=N, EEPROM=N |
| 6 | LOFL_DPLL3 | R | 0x0 | Loss of Frequency Lock - DPLL3 ROM=N, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4 | HLDOVR3 | R | 0x0 | Holdover event - DPLL3 ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1_MASK | R/W | 0x0 | Masks Loss of Lock - APLL1. When
LOL_PLL1_MASK is 1 then the LOL_PLL1 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 2 | LOL_PLL2_MASK | R/W | 0x0 | Masks Loss of Lock - APLL2. When
LOL_PLL2_MASK is 1 then the LOL_PLL2 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO_MASK | R/W | 0x0 | Masks Loss of Source Freq Detection -
XO. When LOS_FDET_XO_MASK is 1 then the LOS_FDET_XO
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1_MASK | R/W | 0x1 | Masks Loss of Phase Lock - DPLL1. When
LOPL_DPLL1_MASK is 1 then the LOPL_DPLL1 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL1_MASK | R/W | 0x1 | Masks Loss of Freq Lock - DPLL1. When
LOFL_DPLL1_MASK is 1 then the LOFL_DPLL1 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 5 | HIST1_MASK | R/W | 0x1 | Masks Tuning word history update -
DPLL1. When HIST1_MASK is 1 then the HIST1 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 4 | HLDOVR1_MASK | R/W | 0x1 | Masks Holdover event - DPLL1. When
HLDOVR1_MASK is 1 then the HLDOVR1 interrupt source
is masked and will not cause the interrupt signal to
be activated. ROM=Y, EEPROM=N |
| 3 | REFSWITCH1_MASK | R/W | 0x1 | Masks Reference Switchover - DPLL1.
When REFSWITCH1_MASK is 1 then the REFSWITCH1
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK1_MASK | R/W | 0x1 | Masks Loss of Active Reference -
Missing Clock - DPLL1. When LOR_MISSCLK1_MASK is 1
then the LOR_MISSCLK1 interrupt source is masked and
will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ1_MASK | R/W | 0x1 | Masks Loss of Active Reference -
Frequency - DPLL1. When LOR_FREQ1_MASK is 1 then the
LOR_FREQ1 interrupt source is masked and will not
cause the interrupt signal to be activated. ROM=Y, EEPROM=N |
| 0 | LOR_PH1_MASK | R/W | 0x1 | Masks Loss of Active Reference - Phase
- DPLL1. When LOR_PH1_MASK is 1 then the LOR_PH1
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2_MASK | R/W | 0x1 | Masks Loss of Phase Lock - DPLL2. When
LOPL_DPLL2_MASK is 1 then the LOPL_DPLL2 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL2_MASK | R/W | 0x1 | Masks Loss of Freq Lock - DPLL2. When
LOFL_DPLL2_MASK is 1 then the LOFL_DPLL2 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 5 | HIST2_MASK | R/W | 0x1 | Masks Tuning word history update -
DPLL2. When HIST2_MASK is 1 then the HIST2 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 4 | HLDOVR2_MASK | R/W | 0x1 | Masks Holdover event - DPLL2. When
HLDOVR2_MASK is 1 then the HLDOVR2 interrupt source
is masked and will not cause the interrupt signal to
be activated. ROM=Y, EEPROM=N |
| 3 | REFSWITCH2_MASK | R/W | 0x1 | Masks Reference Switchover - DPLL2.
When REFSWITCH2_MASK is 1 then the REFSWITCH2
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK2_MASK | R/W | 0x1 | Masks Loss of Active Reference -
Missing Clock - DPLL2. When LOR_MISSCLK2_MASK is 1
then the LOR_MISSCLK2 interrupt source is masked and
will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ2_MASK | R/W | 0x1 | Masks Loss of Active Reference -
Frequency - DPLL2. When LOR_FREQ2_MASK is 1 then the
LOR_FREQ2 interrupt source is masked and will not
cause the interrupt signal to be activated. ROM=Y, EEPROM=N |
| 0 | LOR_PH2_MASK | R/W | 0x1 | Masks Loss of Active Reference - Phase
- DPLL2. When LOR_PH2_MASK is 1 then the LOR_PH2
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3_MASK | R/W | 0x0 | Masks Loss of Phase Lock - DPLL3. When
LOPL_DPLL3_MASK is 1 then the LOPL_DPLL3 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL3_MASK | R/W | 0x0 | Masks Loss of Freq Lock - DPLL3. When
LOFL_DPLL3_MASK is 1 then the LOFL_DPLL3 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 5 | HIST3_MASK | R/W | 0x1 | Masks Tuning word history update -
DPLL3. When HIST3_MASK is 1 then the HIST3 interrupt
source is masked and will not cause the interrupt
signal to be activated. ROM=Y, EEPROM=N |
| 4 | HLDOVR3_MASK | R/W | 0x0 | Masks Holdover event - DPLL3. When
HLDOVR3_MASK is 1 then the HLDOVR3 interrupt source
is masked and will not cause the interrupt signal to
be activated. ROM=Y, EEPROM=N |
| 3 | REFSWITCH3_MASK | R/W | 0x0 | Masks Reference Switchover - DPLL3.
When REFSWITCH3_MASK is 1 then the REFSWITCH3
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK3_MASK | R/W | 0x0 | Masks Loss of Active Reference -
Missing Clock - DPLL3. When LOR_MISSCLK3_MASK is 1
then the LOR_MISSCLK3 interrupt source is masked and
will not cause the interrupt signal to be activated.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ3_MASK | R/W | 0x0 | Masks Loss of Active Reference -
Frequency - DPLL3. When LOR_FREQ3_MASK is 1 then the
LOR_FREQ3 interrupt source is masked and will not
cause the interrupt signal to be activated. ROM=Y, EEPROM=N |
| 0 | LOR_PH3_MASK | R/W | 0x0 | Masks Loss of Active Reference - Phase
- DPLL3. When LOR_PH3_MASK is 1 then the LOR_PH3
interrupt source is masked and will not cause the
interrupt signal to be activated. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1_POL | R/W | 0x0 | LOL_PLL1 Flag Polarity. When
LOL_PLL1_POL = 1,LOL_PLL1 = 0 results in
LOL_PLL1_INTR = 1. When LOL_PLL1_POL = 0, LOL_PLL1 =
1 results in LOL_PLL1_INTR = 1. ROM=Y, EEPROM=N |
| 2 | LOL_PLL2_POL | R/W | 0x0 | LOL_PLL2 Flag Polarity. When
LOL_PLL2_POL = 1,LOL_PLL2 = 0 results in
LOL_PLL2_INTR = 1. When LOL_PLL2_POL = 0, LOL_PLL2 =
1 results in LOL_PLL2_INTR = 1. ROM=Y, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO_POL | R/W | 0x0 | LOS_FDET_XO Flag Polarity. When
LOS_FDET_XO_POL = 1, LOS_FDET_XO = 0 results in
LOS_FDET_XO_INTR = 1. When LOS_FDET_XO_POL = 0,
LOS_FDET_XO = 1 results in LOS_FDET_XO_INTR = 1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1_POL | R/W | 0x0 | LOPL_DPLL1 Flag Polarity. When
LOPL_DPLL1_POL = 1, LOPL_DPLL1 = 0 results in
LOPL_DPLL1_INTR = 1. When LOPL_DPLL1_POL = 0,
LOPL_DPLL1 = 1 results in LOPL_DPLL1_INTR = 1. ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL1_POL | R/W | 0x0 | LOFL_DPLL1 Flag Polarity. When
LOFL_DPLL1_POL = 1, LOFL_DPLL1 = 0 results in
LOFL_DPLL1_INTR = 1. When LOFL_DPLL1_POL = 0,
LOFL_DPLL1 = 1 results in LOFL_DPLL1_INTR = 1. ROM=Y, EEPROM=N |
| 5 | HIST1_POL | R/W | 0x0 | HIST1 Flag Polarity. When HIST1_POL =
1, HIST1 = 0 results in HIST1_INTR = 1. When
HIST1_POL = 0, HIST1 = 1 results in HIST1_INTR = 1.
ROM=Y, EEPROM=N |
| 4 | HLDOVR1_POL | R/W | 0x0 | HLDOVR1 Flag Polarity. When HLDOVR1_POL
= 1, HLDOVR1 = 0 results in HLDOVR1_INTR = 1. When
HLDOVR1_POL = 0, HLDOVR1 = 1 results in HLDOVR1_INTR
= 1. ROM=Y, EEPROM=N |
| 3 | REFSWITCH1_POL | R/W | 0x0 | REFSWITCH1 Flag Polarity. When
REFSWITCH1_POL = 1, REFSWITCH1 = 0 results in
REFSWITCH1_INTR = 1. When REFSWITCH1_POL = 0,
REFSWITCH1 = 1 results in REFSWITCH1_INTR = 1. ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK1_POL | R/W | 0x0 | LOR_MISSCLK1 Flag Polarity. When
LOR_MISSCLK1_POL = 1, LOR_MISSCLK1 = 0 results in
LOR_MISSCLK1_INTR = 1. When LOR_MISSCLK1_POL = 0,
LOR_MISSCLK1 = 1 results in LOR_MISSCLK1_INTR = 1.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ1_POL | R/W | 0x0 | LOR_FREQ1 Flag Polarity. When
LOR_FREQ1_POL = 1, LOR_FREQ1 = 0 results in
LOR_FREQ1_INTR = 1. When LOR_FREQ1_POL = 0,
LOR_FREQ1 = 1 results in LOR_FREQ1_INTR = 1. ROM=Y, EEPROM=N |
| 0 | LOR_PH1_POL | R/W | 0x0 | LOR_PH1 Flag Polarity. When LOR_PH1_POL
= 1, LOR_PH1 = 0 results in LOR_PH1_INTR = 1. When
LOR_PH1_POL = 0, LOR_PH1 = 1 results in LOR_PH1_INTR
= 1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2_POL | R/W | 0x0 | LOPL_DPLL2 Flag Polarity. When
LOPL_DPLL2_POL = 1, LOPL_DPLL2 = 0 results in
LOPL_DPLL2_INTR = 1. When LOPL_DPLL2_POL = 0,
LOPL_DPLL2 = 1 results in LOPL_DPLL2_INTR = 1. ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL2_POL | R/W | 0x0 | LOFL_DPLL2 Flag Polarity. When
LOFL_DPLL2_POL = 1, LOFL_DPLL2 = 0 results in
LOFL_DPLL2_INTR = 1. When LOFL_DPLL2_POL = 0,
LOFL_DPLL2 = 1 results in LOFL_DPLL2_INTR = 1. ROM=Y, EEPROM=N |
| 5 | HIST2_POL | R/W | 0x0 | HIST2 Flag Polarity. When HIST2_POL =
1, HIST2 = 0 results in HIST2_INTR = 1. When
HIST2_POL = 0, HIST2 = 1 results in HIST2_INTR = 1.
ROM=Y, EEPROM=N |
| 4 | HLDOVR2_POL | R/W | 0x0 | HLDOVR2 Flag Polarity. When HLDOVR2_POL
= 1, HLDOVR2 = 0 results in HLDOVR2_INTR = 1. When
HLDOVR2_POL = 0, HLDOVR2 = 1 results in HLDOVR2_INTR
= 1. ROM=Y, EEPROM=N |
| 3 | REFSWITCH2_POL | R/W | 0x0 | REFSWITCH2 Flag Polarity. When
REFSWITCH2_POL = 1, REFSWITCH2 = 0 results in
REFSWITCH2_INTR = 1. When REFSWITCH2_POL = 0,
REFSWITCH2 = 1 results in REFSWITCH2_INTR = 1. ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK2_POL | R/W | 0x0 | LOR_MISSCLK2 Flag Polarity. When
LOR_MISSCLK2_POL = 1, LOR_MISSCLK2 = 0 results in
LOR_MISSCLK2_INTR = 1. When LOR_MISSCLK2_POL = 0,
LOR_MISSCLK2 = 1 results in LOR_MISSCLK2_INTR = 1.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ2_POL | R/W | 0x0 | LOR_FREQ2 Flag Polarity. When
LOR_FREQ2_POL = 1, LOR_FREQ2 = 0 results in
LOR_FREQ2_INTR = 1. When LOR_FREQ2_POL = 0,
LOR_FREQ2 = 1 results in LOR_FREQ2_INTR = 1. ROM=Y, EEPROM=N |
| 0 | LOR_PH2_POL | R/W | 0x0 | LOR_PH2 Flag Polarity. When LOR_PH2_POL
= 1, LOR_PH2 = 0 results in LOR_PH2_INTR = 1. When
LOR_PH2_POL = 0, LOR_PH2 = 1 results in LOR_PH2_INTR
= 1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3_POL | R/W | 0x0 | LOPL_DPLL3 Flag Polarity. When
LOPL_DPLL3_POL = 1, LOPL_DPLL3 = 0 results in
LOPL_DPLL3_INTR = 1. When LOPL_DPLL3_POL = 0,
LOPL_DPLL3 = 1 results in LOPL_DPLL3_INTR = 1. ROM=Y, EEPROM=N |
| 6 | LOFL_DPLL3_POL | R/W | 0x0 | LOFL_DPLL3 Flag Polarity. When
LOFL_DPLL3_POL = 1, LOFL_DPLL3 = 0 results in
LOFL_DPLL3_INTR = 1. When LOFL_DPLL3_POL = 0,
LOFL_DPLL3 = 1 results in LOFL_DPLL3_INTR = 1. ROM=Y, EEPROM=N |
| 5 | HIST3_POL | R/W | 0x0 | HIST3 Flag Polarity. When HIST3_POL =
1, HIST3 = 0 results in HIST3_INTR = 1. When
HIST3_POL = 0, HIST3 = 1 results in HIST3_INTR = 1
ROM=Y, EEPROM=N |
| 4 | HLDOVR3_POL | R/W | 0x0 | HLDOVR3 Flag Polarity. When HLDOVR3_POL
= 1, HLDOVR3 = 0 results in HLDOVR3_INTR = 1. When
HLDOVR3_POL = 0, HLDOVR3 = 1 results in HLDOVR3_INTR
= 1. ROM=Y, EEPROM=N |
| 3 | REFSWITCH3_POL | R/W | 0x0 | REFSWITCH3 Flag Polarity. When
REFSWITCH3_POL = 1, REFSWITCH3 = 0 results in
REFSWITCH3_INTR = 1. When REFSWITCH3_POL = 0,
REFSWITCH3 = 1 results in REFSWITCH3_INTR = 1. ROM=Y, EEPROM=N |
| 2 | LOR_MISSCLK3_POL | R/W | 0x0 | LOR_MISSCLK3 Flag Polarity. When
LOR_MISSCLK3_POL = 1, LOR_MISSCLK3 = 0 results in
LOR_MISSCLK3_INTR = 1. When LOR_MISSCLK3_POL = 0,
LOR_MISSCLK3 = 1 results in LOR_MISSCLK3_INTR = 1.
ROM=Y, EEPROM=N |
| 1 | LOR_FREQ3_POL | R/W | 0x0 | LOR_FREQ3 Flag Polarity. When
LOR_FREQ3_POL = 1, LOR_FREQ3 = 0 results in
LOR_FREQ3_INTR = 1. When LOR_FREQ3_POL = 0,
LOR_FREQ3 = 1 results in LOR_FREQ3_INTR = 1. ROM=Y, EEPROM=N |
| 0 | LOR_PH3_POL | R/W | 0x0 | LOR_PH3 Flag Polarity. When LOR_PH3_POL
= 1, LOR_PH3 = 0 results in LOR_PH3_INTR = 1. When
LOR_PH3_POL = 0, LOR_PH3 = 1 results in LOR_PH3_INTR
= 1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | LOL_PLL1_INTR | R | 0x0 | LOL_PLL1 Interrupt. The LOL_PLL1_INTR
bit is set when a level of the correct polarity is
detected on the LOL_PLL1 interrupt source. The
LOL_PLL1_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 2 | LOL_PLL2_INTR | R | 0x0 | LOL_PLL2 Interrupt. The LOL_PLL2_INTR
bit is set when a level of the correct polarity is
detected on the LOL_PLL2 interrupt source. The
LOL_PLL2_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | LOS_FDET_XO_INTR | R | 0x0 | LOL_FDET_XO Interrupt. The
LOL_FDET_XO_INTR bit is set when a level of the
correct polarity is detected on the LOL_FDET_XO
interrupt source. The LOL_FDET_XO_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL1_INTR | R | 0x0 | LOPL_DPLL1 Interrupt. The
LOPL_DPLL1_INTR bit is set when a level of the
correct polarity is detected on the LOPL_DPLL1
interrupt source. The LOPL_DPLL1_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 6 | LOFL_DPLL1_INTR | R | 0x0 | LOFL_DPLL1 Interrupt. The
LOFL_DPLL1_INTR bit is set when a level of the
correct polarity is detected on the LOFL_DPLL1
interrupt source. The LOFL_DPLL1_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 5 | HIST1_INTR | R | 0x0 | HIST1 Interrupt. The HIST1_INTR bit is
set when a level of the correct polarity is detected
on the HIST1 interrupt source. The HIST1_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 4 | HLDOVR1_INTR | R | 0x0 | HLDOVR1 Interrupt. The HLDOVR1_INTR bit
is set when a level of the correct polarity is
detected on the HLDOVR1 interrupt source. The
HLDOVR1_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 3 | REFSWITCH1_INTR | R | 0x0 | REFSWITCH1 Interrupt. The
REFSWITCH1_INTR bit is set when a level of the
correct polarity is detected on the REFSWITCH1
interrupt source. The REFSWITCH1_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK1_INTR | R | 0x0 | LOR_MISSCLK1 Interrupt. The
LOR_MISSCLK1_INTR bit is set when a level of the
correct polarity is detected on the LOR_MISSCLK1
interrupt source. The LOR_MISSCLK1_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 1 | LOR_FREQ1_INTR | R | 0x0 | LOR_FREQ1 Interrupt. The LOR_FREQ1_INTR
bit is set when a level of the correct polarity is
detected on the LOR_FREQ1 interrupt source. The
LOR_FREQ1_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 0 | LOR_PH1_INTR | R | 0x0 | LOR_PH1 Interrupt. The LOR_PH1_INTR bit
is set when a level of the correct polarity is
detected on the LOR_PH1 interrupt source. The
LOR_PH1_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL2_INTR | R | 0x0 | LOPL_DPLL2 Interrupt. The
LOPL_DPLL2_INTR bit is set when a level of the
correct polarity is detected on the LOPL_DPLL2
interrupt source. The LOPL_DPLL2_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 6 | LOFL_DPLL2_INTR | R | 0x0 | LOFL_DPLL2 Interrupt. The
LOFL_DPLL2_INTR bit is set when a level of the
correct polarity is detected on the LOFL_DPLL2
interrupt source. The LOFL_DPLL2_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 5 | HIST2_INTR | R | 0x0 | HIST2 Interrupt. The HIST2_INTR bit is
set when a level of the correct polarity is detected
on the HIST2 interrupt source. The HIST2_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 4 | HLDOVR2_INTR | R | 0x0 | HLDOVR2 Interrupt. The HLDOVR2_INTR bit
is set when a level of the correct polarity is
detected on the HLDOVR2 interrupt source. The
HLDOVR2_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 3 | REFSWITCH2_INTR | R | 0x0 | REFSWITCH2 Interrupt. The
REFSWITCH2_INTR bit is set when a level of the
correct polarity is detected on the REFSWITCH2
interrupt source. The REFSWITCH2_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK2_INTR | R | 0x0 | LOR_MISSCLK2 Interrupt. The
LOR_MISSCLK2_INTR bit is set when a level of the
correct polarity is detected on the LOR_MISSCLK2
interrupt source. The LOR_MISSCLK2_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 1 | LOR_FREQ2_INTR | R | 0x0 | LOR_FREQ2 Interrupt. The LOR_FREQ2_INTR
bit is set when a level of the correct polarity is
detected on the LOR_FREQ2 interrupt source. The
LOR_FREQ2_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 0 | LOR_PH2_INTR | R | 0x0 | LOR_PH2 Interrupt. The LOR_PH2_INTR bit
is set when a level of the correct polarity is
detected on the LOR_PH2 interrupt source. The
LOR_PH2_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | LOPL_DPLL3_INTR | R | 0x0 | LOPL_DPLL3 Interrupt. The
LOPL_DPLL3_INTR bit is set when a level of the
correct polarity is detected on the LOPL_DPLL3
interrupt source. The LOPL_DPLL3_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 6 | LOFL_DPLL3_INTR | R | 0x0 | LOFL_DPLL3 Interrupt. The
LOFL_DPLL3_INTR bit is set when a level of the
correct polarity is detected on the LOFL_DPLL3
interrupt source. The LOFL_DPLL3_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 5 | HIST3_INTR | R | 0x0 | HIST3 Interrupt. The HIST3_INTR bit is
set when a level of the correct polarity is detected
on the HIST3 interrupt source. The HIST3_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 4 | HLDOVR3_INTR | R | 0x0 | HLDOVR3 Interrupt. The HLDOVR3_INTR bit
is set when a level of the correct polarity is
detected on the HLDOVR3 interrupt source. The
HLDOVR3_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 3 | REFSWITCH3_INTR | R | 0x0 | REFSWITCH3 Interrupt. The
REFSWITCH3_INTR bit is set when a level of the
correct polarity is detected on the REFSWITCH3
interrupt source. The REFSWITCH3_INTR bit is cleared
by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 2 | LOR_MISSCLK3_INTR | R | 0x0 | LOR_MISSCLK3 Interrupt. The
LOR_MISSCLK3_INTR bit is set when a level of the
correct polarity is detected on the LOR_MISSCLK3
interrupt source. The LOR_MISSCLK3_INTR bit is
cleared by writing a 1 to INT_CLR. ROM=N, EEPROM=N |
| 1 | LOR_FREQ3_INTR | R | 0x0 | LOR_FREQ3 Interrupt. The LOR_FREQ3_INTR
bit is set when a level of the correct polarity is
detected on the LOR_FREQ3 interrupt source. The
LOR_FREQ3_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
| 0 | LOR_PH3_INTR | R | 0x0 | LOR_PH3 Interrupt. The LOR_PH3_INTR bit
is set when a level of the correct polarity is
detected on the LOR_PH3 interrupt source. The
LOR_PH3_INTR bit is cleared by writing a 1 to
INT_CLR. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | INT_LATCH_OR_LIVE | R/W | 0x0 | ROM=Y, EEPROM=N
|
| 2 | INT_AND_OR | R/W | 0x0 | Interrupt AND/OR Combination. If
INT_AND_OR is 1, then the interrupts are combined in
an AND structure, in which case ALL un-masked
interrupt flags must be active in order to generate
the interrupt. If INT_AND_OR is 0, then the
interrupts are combined in an OR structure, in which
case ANY un-masked interrupt flags can generate the
interrupt. ROM=Y, EEPROM=N
|
| 1 | INT_EN | R/W | 0x1 | Interrupt Enable. If INT_EN is 1 then
the interrupt circuit is enabled. If INT_EN is 0 the
interrupt circuit is disabled. When INT_EN is 0,
interrupts cannot be signaled on the GPIOx pins, and
the flag registers (*_INTR) will not be updated;
however, the live status registers will still
reflect the current state of the internal interrupt
source signals. To provide an interrupt on a pin, a
GPIOx pin must also be configured as interrupt
output. Interrupts may be enabled without providing
a GPIOx output to allow sticky bits to be set. ROM=Y, EEPROM=N |
| 0 | INT_CLR | R/WSC | 0x0 | Clears all interrupt flag (*_INTR)
registers ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | REF1_VALID_STATUS | R | 0x0 | Status of Reference Input Validation
for IN1 ROM=N, EEPROM=N |
| 0 | REF0_VALID_STATUS | R | 0x0 | Status of Reference Input Validation
for IN0 ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF1_PH_STATUS | R | 0x0 | Status of Reference 1 Phase Validation
ROM=N, EEPROM=N |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | REF1_FDET_STATUS | R | 0x0 | Status of Reference 1 Frequency
Validation ROM=N, EEPROM=N |
| 2 | REF0_PH_STATUS | R | 0x0 | Status of Reference 0 Phase Validation
ROM=N, EEPROM=N |
| 1 | RESERVED | R | 0x0 | Reserved |
| 0 | REF0_FDET_STATUS | R | 0x0 | Status of Reference 0 Frequency
Validation ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | TEC_CNTR_HELD | R | 0x0 | TEC Held. Reading back a 1 indicates
GPIO or SPI event has latched a holdover value. Will
clear to 0 after TEC CNTR LSB is read. ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | GPIO0_IN_FLT_EN | R/W | 0x0 | Enable GPIO0 Input Pin Deglitch Filter
ROM=Y, EEPROM=N |
| 5:0 | GPIO0_MODE | R/W | 0x0 | Select GPIO0 Pin Operating Mode. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | GPIO1_IN_FLT_EN | R/W | 0x0 | Enable GPIO1 Input Pin Deglitch Filter
ROM=Y, EEPROM=N |
| 5:0 | GPIO1_MODE | R/W | 0x0 | Select GPIO1 Pin Operating Mode. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | GPIO2_IN_FLT_EN | R/W | 0x0 | Enable GPIO2 Input Pin Deglitch Filter
ROM=Y, EEPROM=N |
| 5:0 | GPIO2_MODE | R/W | 0x0 | Select GPIO2 Pin Operating Mode. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | GPIO0_SEL | R/W | 0xC | GPIO0 Status Signal Select. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | GPIO1_SEL | R/W | 0xF | GPIO1 Status Signal Select. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | GPIO2_SEL | R/W | 0xE | GPIO2 Status Signal Select. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | GPIO0_OPEND | R/W | 0x0 | GPIO0 Open Drain Enable ROM=Y, EEPROM=N
|
| 4 | GPIO1_OPEND | R/W | 0x1 | GPIO1 Open Drain Enable ROM=Y, EEPROM=N
|
| 3 | GPIO2_OPEND | R/W | 0x0 | GPIO2 Open Drain Enable ROM=Y, EEPROM=N
|
| 2 | GPIO0_POL | R/W | 0x1 | GPIO0 Status Output Polarity. The
GPIO0_STAT_POL bit defines the polarity of
information presented on the GPIO0 output. If
GPIO0_STAT_POL is set to 1, then GPIO0 is active
high. If GPIO0_STAT_POL is 0, then GPIO0 is active
low. ROM=Y, EEPROM=N
|
| 1 | GPIO1_POL | R/W | 0x0 | GPIO1 Status Output Polarity. The
GPIO1_STAT_POL bit defines the polarity of
information presented on the GPIO1 output. If
GPIO1_STAT_POL is set to 1, then GPIO1 is active
high. If GPIO1_STAT_POL is 0, then GPIO1 is active
low. ROM=Y, EEPROM=N
|
| 0 | GPIO2_POL | R/W | 0x0 | GPIO2 Status Output Polarity. The
GPIO2_STAT_POL bit defines the polarity of
information presented on the GPIO2 output. If
GPIO2_STAT_POL is set to 1, then GPIO2 is active
high. If GPIO2_STAT_POL is 0, then GPIO2 is active
low. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | GPIO_SYSREF_SEL | R/W | 0x0 | Select SYSREF divider output for GPIO
output. When GPIOx_SEL chooses SYSREF divider, this
is the SYSREF divider output on the GPIO. This
signal is continuous. This could be used for low
frequency outputs such as 1-PPS or 8 kHz as a 3.3-V
LVCMOS signal. Select SYSREF divider output after
static digital delay but before the analog and
digital delay and pulser. ROM=Y, EEPROM=N
|
| 1 | MUTE_DPLL3_PHLOCK | R/W | 0x0 | DPLL3 mute enabled during phase lock.
Muted outputs will start clocking glitch free once
achieving lock status. PLL3 outputs will be muted
even if DPLL3_EN = 0. ROM=Y, EEPROM=Y |
| 0 | MUTE_DPLL3_FRLOCK | R/W | 0x0 | DPLL3 mute enabled during dpll lock.
Muted outputs will start clocking glitch free once
achieving lock status. PLL3 outputs will be muted
even if DPLL3_EN = 0. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | MUTE_DPLL2_PHLOCK | R/W | 0x0 | DPLL2 mute enabled during phase lock.
Muted outputs will start clocking glitch free once
achieving lock status. PLL2 outputs will be muted
even if DPLL2_EN = 0. ROM=Y, EEPROM=Y |
| 4 | MUTE_DPLL2_FRLOCK | R/W | 0x0 | DPLL2 mute enabled during dpll lock.
Muted outputs will start clocking glitch free once
achieving lock status. PLL2 outputs will be muted
even if DPLL2_EN = 0. ROM=Y, EEPROM=Y |
| 3 | MUTE_APLL2_LOCK | R/W | 0x0 | APLL2 mute enabled during PLL lock.
Muted outputs will start clocking glitch free once
achieving lock status. ROM=Y, EEPROM=Y |
| 2 | MUTE_DPLL1_PHLOCK | R/W | 0x0 | DPLL1 mute enabled during phase lock.
Muted outputs will start clocking glitch free once
achieving lock status. ROM=Y, EEPROM=Y |
| 1 | MUTE_DPLL1_FRLOCK | R/W | 0x0 | DPLL1 mute enabled during dpll lock.
Muted outputs will start clocking glitch free once
achieving lock status. ROM=Y, EEPROM=Y |
| 0 | MUTE_APLL1_LOCK | R/W | 0x0 | APLL1 mute enabled during PLL lock.
Muted outputs will start clocking glitch free once
achieving lock status. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | XO_FDET_BYP | R/W | 0x0 | Frequency Detector Bypass. When
XO_FDET_BYP is set to 1, the output of the XO
frequency detector is ignored. ROM=Y, EEPROM=N |
| 3:0 | XO_ITYPE | R/W | 0x0 | XO interface type control. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | XO_OUT_BUF_EN | R/W | 0x9 | Bit position enables XO Output Buffer
path to: [0] The XO Freq Detector [1] APLL1 REF [2] APLL2 REF [3] APLL3 REF, and [4] OUT0_1 ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_ITYPE | R/W | 0x0 | REF1 interface type control. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_ITYPE | R/W | 0x0 | REF0 interface type control. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | STATUS_MUX_DIV2_EN | R/W | 0x0 | Enable all DivideBy2 clocks for Status
MUX debug signals ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | TDC3_ZDM_BYPASS_FB_DIV | R/W | 0x0 | Selects TDC3 feedback input source. 0 = FB_DIV (Normal or ZDM) 1 = bypass FBDIV (ZDM) ROM=Y, EEPROM=N
|
| 5 | TDC3_ZDM_FB_PRE_BYP | R/W | 0x0 | Bypasses TDC3 feedback divider when
using ZDM with DPLL3. ROM=Y, EEPROM=N
|
| 4:3 | TDC3_IN_SEL | R/W | 0x3 | Selects TDC3 zero delay input ROM=Y, EEPROM=N
|
| 2:0 | TDC3_IN_DRV_SEL | R/W | 0x2 | Enables zero delay input mux output ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | TDC2_ZDM_BYPASS_FB_DIV | R/W | 0x0 | Selects TDC2 feedback input source. 0 = FB_DIV (Normal or ZDM) 1 = bypass FBDIV (ZDM) ROM=Y, EEPROM=N
|
| 5 | TDC2_ZDM_FB_PRE_BYP | R/W | 0x0 | Bypasses TDC2 feedback divider when
using ZDM with DPLL2. ROM=Y, EEPROM=N
|
| 4:3 | TDC2_IN_SEL | R/W | 0x3 | Selects zero delay input ROM=Y, EEPROM=N
|
| 2:0 | TDC2_IN_DRV_SEL | R/W | 0x2 | Enables zero delay input mux output ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | TDC1_ZDM_BYPASS_FB_DIV | R/W | 0x0 | Selects TDC1 feedback input source. 0 = FB_DIV (Normal or ZDM) 1 = bypass FBDIV (ZDM) ROM=Y, EEPROM=N
|
| 5 | TDC1_ZDM_FB_PRE_BYP | R/W | 0x0 | Bypasses TDC1 feedback divider when
using ZDM with DPLL1. ROM=Y, EEPROM=N
|
| 4:3 | TDC1_IN_SEL | R/W | 0x3 | Selects which output group to feedback
for zero delay mode. ROM=Y, EEPROM=N
|
| 2:0 | TDC1_IN_DRV_SEL | R/W | 0x2 | Enables zero delay input mux output ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF_OUT01_EN | R/W | 0x0 | Ref to OUT0_1 Enable. Enables the path
for a reference clock (selected by REF_2OUT01_SEL)
to be available for selection at OUT0_1. ROM=Y, EEPROM=N |
| 4:0 | REF_OUT01_SEL | R/W | 0x0 | Ref to OUT0_1 Select. Selects one
reference clock which will be fed to the input of
OUT0_1 (if path enabled by REF_2OUT01_EN). ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF0_EARLY_DET_EN | R/W | 0x1 | REF0 Early Clock Detect Enable ROM=Y, EEPROM=N |
| 4 | REF0_PH_VALID_EN | R/W | 0x0 | REF0 Phase Validation Enable ROM=Y, EEPROM=N |
| 3 | REF0_VALTMR_EN | R/W | 0x1 | REF0 Validation Timer Enable ROM=Y, EEPROM=N |
| 2 | REF0_PPM_EN | R/W | 0x1 | REF0 Freq ppm Enable ROM=Y, EEPROM=N |
| 1 | REF0_MISSCLK_EN | R/W | 0x1 | REF0 Missing Clock Detect Enable ROM=Y, EEPROM=N |
| 0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | REF1_EARLY_DET_EN | R/W | 0x1 | REF1 Early Clock Detect Enable ROM=Y, EEPROM=N |
| 4 | REF1_PH_VALID_EN | R/W | 0x0 | REF1 Phase Validation Enable ROM=Y, EEPROM=N |
| 3 | REF1_VALTMR_EN | R/W | 0x1 | REF1 Validation Timer Enable ROM=Y, EEPROM=N |
| 2 | REF1_PPM_EN | R/W | 0x1 | REF1 Freq ppm Enable ROM=Y, EEPROM=N |
| 1 | REF1_MISSCLK_EN | R/W | 0x1 | REF1 Missing Clock Detect Enable ROM=Y, EEPROM=N |
| 0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:2 | REF1_DET_CLK_DIV | R/W | 0x2 | REF1 Clock Detector Divider. Bit 0
controls the divide value (0=Div4, 1=Div16). Bit 1,
if set, causes the divider to be bypassed. ROM=Y, EEPROM=N
|
| 1:0 | REF0_DET_CLK_DIV | R/W | 0x2 | REF0 Clock Detector Divider. Bit 0
controls the divide value (0=Div4, 1=Div16). Bit 1,
if set, causes the divider to be bypassed. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_MISSCLK_DIV_21:16 | R/W | 0x0 | See Register 86 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_MISSCLK_DIV_15:8 | R/W | 0x0 | See Register 86 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_MISSCLK_DIV | R/W | 0x36 | REF0 Missing Clock Detector Divider.
21-bit divide value. Should be equal to the ratio of
either VCO3/2 to REF0 or VCO2/5 to REF0 (determined
by REF0_MISSCLK_VCOSEL selection) with some offset
added for upper bound. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_MISSCLK_DIV_21:16 | R/W | 0x0 | See Register 89 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_MISSCLK_DIV_15:8 | R/W | 0x0 | See Register 89 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_MISSCLK_DIV | R/W | 0x36 | REF1 Missing Clock Detector Divider.
21-bit divide value. Should be equal to the ratio of
either VCO3/2 to REF1 or VCO2/5 to REF0 (determined
by REF1_MISSCLK_VCOSEL selection) with some offset
added for upper bound. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:1 | RESERVED | R | 0x0 | Reserved |
| 0 | REF0_MISSCLK_VCOSEL | R/W | 0x0 | Missing/Early Clock Detector VCO
selection for all references. Also selects TEC clock
source. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_EARLY_CLK_DIV_21:16 | R/W | 0x0 | See Register 99 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_EARLY_CLK_DIV_15:8 | R/W | 0x0 | See Register 99 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_EARLY_CLK_DIV | R/W | 0x2E | REF0 Early Clock Detector Divider.
21-bit divide value. Should be equal to the ratio of
either VCO3/2 to REF0 or VCO2/5 to REF0 (determined
by REF0_MISSCLK_VCOSEL selection) with some offset
subtracted for lower bound. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_EARLY_CLK_DIV_21:16 | R/W | 0x0 | See Register 102 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_EARLY_CLK_DIV_15:8 | R/W | 0x0 | See Register 102 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_EARLY_CLK_DIV | R/W | 0x2E | REF1 Early Clock Detector Divider.
21-bit divide value. Should be equal to the ratio of
either VCO3/2 to REF1 or VCO2/5 to REF1 (determined
by REF0_MISSCLK_VCOSEL selection) with some offset
subtracted for lower bound. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF0_PPM_MIN_14:8 | R/W | 0x0 | See Register 110 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_PPM_MIN | R/W | 0xE | REF0 Frequency PPM Lower Limit ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF0_PPM_MAX_14:8 | R/W | 0x0 | See Register 112 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_PPM_MAX | R/W | 0x14 | REF0 Frequency PPM Upper Limit ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF1_PPM_MIN_14:8 | R/W | 0x0 | See Register 114 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_PPM_MIN | R/W | 0xE | REF1 Frequency PPM Lower Limit ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | REF1_PPM_MAX_14:8 | R/W | 0x0 | See Register 116 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_PPM_MAX | R/W | 0x14 | REF1 Frequency PPM Upper Limit ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | REF0_CNTSTRT_27:24 | R/W | 0x0 | See Register 128 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_CNTSTRT_23:16 | R/W | 0x1 | See Register 128 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_CNTSTRT_15:8 | R/W | 0x96 | See Register 128 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_CNTSTRT | R/W | 0xE7 | 28-bit REF0 PPM detect counter. REF0
decreases a counter reset by REF0_CNTSTRT value.
When this becomes 0, then counter reset by
REF0_HOLD_CNTSTRT is the error and used to know
frequency accuracy. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | REF0_HOLD_CNTSTRT_27:24 | R/W | 0x0 | See Register 132 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_HOLD_CNTSTRT_23:16 | R/W | 0x3 | See Register 132 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_HOLD_CNTSTRT_15:8 | R/W | 0xD | See Register 132 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_HOLD_CNTSTRT | R/W | 0x41 | 28-bit REF0 PPM detect counter. XO
decreases a counter reset by REF0_HOLD_CNTSTRT. When
counter reset by REF0_CNTSTRT becomes 0, this
counter reset by REF0_HOLD_CNTSTRT contains the time
error from which PPM error may be determined. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | REF1_CNTSTRT_27:24 | R/W | 0x0 | See Register 136 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_CNTSTRT_23:16 | R/W | 0x1 | See Register 136 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_CNTSTRT_15:8 | R/W | 0x96 | See Register 136 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_CNTSTRT | R/W | 0xE7 | 28-bit REF1 PPM detect counter. REF1
decreases a counter reset by REF1_CNTSTRT value.
When this becomes 0, then counter reset by
REF1_HOLD_CNTSTRT is the error and used to know
frequency accuracy. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | REF1_HOLD_CNTSTRT_27:24 | R/W | 0x0 | See Register 140 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_HOLD_CNTSTRT_23:16 | R/W | 0x3 | See Register 140 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_HOLD_CNTSTRT_15:8 | R/W | 0xD | See Register 140 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_HOLD_CNTSTRT | R/W | 0x41 | 28-bit REF1 PPM detect counter. XO
decreases a counter reset by REF1_HOLD_CNTSTRT. When
counter reset by REF1_CNTSTRT becomes 0, this
counter reset by REF1_HOLD_CNTSTRT contains the time
error from which PPM error may be determined. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | REF0VLDTMR | R/W | 0xA | REF0 Validation Timer. All selected
validations must be valid for selected amount of
time before the IN0/REF0 is considered valid. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | REF1VLDTMR | R/W | 0xA | REF1 Validation Timer. All selected
validations must be valid for selected amount of
time before the IN1/REF1 is considered valid. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF0_PH_VALID_THR_13:8 | R/W | 0x0 | REF0 Phase Validation Threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF0_PH_VALID_THR | R/W | 0x0 | REF0 Phase Validation Threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | REF1_PH_VALID_THR_13:8 | R/W | 0x0 | REF1 Phase Validation Threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | REF1_PH_VALID_THR | R/W | 0x0 | REF1 Phase Validation Threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMSCRC | R | 0x0 | NVM Stored CRC ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | REGCOMMIT | R/WSC | 0x0 | Copy fields which also exist in SRAM to
SRAM memory. The REGCOMMIT bit is automatically
cleared to 0 when the transfer is complete. Next an
EEPROM programming operation may be performed to
update NVM EEPROM. When programming to alter an NVM
profile, it is suggested to toggle PD# to assure
default conditions, change the desired fields, then
assert the REGCOMMIT bit. ROM=N, EEPROM=N |
| 5 | NVMCRCERR | R | 0x0 | NVM CRC Error Indication. The NVMCRCERR
bit is set to 1 if a CRC Error has been detected
when reading back from on-chip EEPROM during device
configuration. ROM=N, EEPROM=N |
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2 | NVMBUSY | R | 0x0 | NVM Program Busy Indication. The
NVMBUSY bit is 1 during an on-chip EEPROM
Erase/Program cycle. While NVMBUSY is 1 the on-chip
EEPROM cannot be accessed. Toggling PD# or removing
power while NVMBUSY is asserted will corrupt the
EEPROM. ROM=N, EEPROM=N |
| 1 | NVMERASE | R/WSC | 0x0 | NVM Erase Start. The NVMERASE bit is used to begin an on-chip EEPROM Erase cycle. The Erase cycle is only initiated if the immediately preceding I2C/SMBus transaction was a write to the NVMUNLK register with the appropriate code. The NVMERASE bit is automatically cleared to 0. |
| 0 | NVMPROG | R/WSC | 0x0 | NVM Program Start. The NVMPROG bit is used to begin an on-chip EEPROM Program cycle. The Program cycle is only initiated if the immediately preceding I2C/SMBus transaction was a write to the NVMUNLK register with the appropriate code. The NVMPROG bit is automatically cleared to 0. |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMLCRC | R | 0x0 | NVM Live CRC ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | MEMADR_12:8 | R/W | 0x0 | See Register 174 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | MEMADR | R/W | 0x0 | Memory Address. The MEMADR value
determines the starting address for access to the
on-chip memories. This same MEMADR value is used for
EEPROM and SRAM access which share the same memory
map and also ROM access. The NVMDAT field is used to read and write from EEPROM. The RAMDAT field is used to read and write from SRAM. The ROMDAT field is used to read and write from ROM. |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMDAT | R/W | 0x0 | EEPROM Read Data. The first time an
I2C/SMBus read transaction accesses the NVMDAT
register address, either because it was explicitly
targeted or because the address was
auto-incremented, the read transaction will
returnthe EEPROM data located at the address
specified by the MEMADR register. Any additional
read's which are part ofthe same transaction will
cause the EEPROM address to be incremented and the
next EEPROM data byte will bereturned. The I2C/SMBus
address will no longer be auto-incremented, i.e the
I2C/SMBus address will be locked tothe NVMDAT
register after the first access. Access to the
NVMDAT register will terminate at the end of the
currentI2C/SMBus transaction. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | RAMDAT | R/W | 0x0 | RAM Read/Write Data. The first time an
I2C/SMBus read or write transaction accesses the
RAMDAT register address, either because it was
explicitly targeted or because the address was
auto-incremented, a read transaction will return the
RAM data located at the address specified by the
MEMADR register and a write transaction will cause
the current I2C/SMBus data to be written to the
address specified by the MEMADR register. Any
additional accesses which are part of the same
transaction will cause the RAM address to be
incremented and a read or write access will take
place to the next SRAM address. The I2C/SMBus
address will no longer be auto-incremented (that is,
the I2C/SMBus address will be locked to the RAMDAT
register after the first access). Access to the
RAMDAT register will terminate at the end of the
current I2C/SMBus transaction. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | NVMUNLK | R/W | 0x0 | NVM Prog Unlock. The NVMUNLK register
must be written immediately prior to setting the
NVMERASE and NVMPROG bit, otherwise the
Erase/Program cycle will not be triggered. NVMUNLK
must be written with a value of 0xEA. ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL1_REF0_AUTO_PRTY | R/W | 0x0 | REF0 Priority for Automatic Switchover.
Sets the priority for REF0 used in Automatic
Non-Revertive, Automatic Revertive, and Manual
Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N
|
| 2:0 | DPLL1_REF1_AUTO_PRTY | R/W | 0x0 | REF1 Priority for Automatic Switchover.
Sets the priority for REF1 used in Automatic
Non-Revertive, Automatic Revertive, and Manual
Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL1_REF4_AUTO_PRTY | R/W | 0x0 | REF4 Priority for Automatic Switchover.
Sets the priority for REF4 feedback from APLL2 used
in Automatic Non-Revertive, Automatic Revertive, and
Manual Selection with Automatic Fallback switchover
modes. ROM=Y, EEPROM=N
|
| 2:0 | DPLL1_REF5_AUTO_PRTY | R/W | 0x0 | REF5 Priority for Automatic Switchover.
Sets the priority for REF5 feedback from APLL3 used
in Automatic Non-Revertive, Automatic Revertive, and
Manual Selection with Automatic Fallback switchover
modes. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL1_MAN_REFSEL | R/W | 0x0 | DPLL1 Manual Reference Selection Mode.
Determines how the manually selected reference is
chosen. If this is set to a '1', the manually
selected reference is taken from a GPIO input pin.
If it is set to a '0', the manually selected
reference is taken from ROM=Y, EEPROM=N
|
| 2 | DPLL1_MAN_SWITCH_PIN_MODE | R/W | 0x0 | DPLL1 Manual Reference Selection Mode.
Determines how the manually selected reference is
chosen. If this is set to a '1', the manually
selected reference is taken from a GPIO input pin.
If it is set to a '0', the manually selected
reference is taken from a register. ROM=Y, EEPROM=N
|
| 1:0 | DPLL1_SWITCH_MODE | R/W | 0x1 | DPLL1 Reference Switchover Mode.
Selects between Automatic Non-revertive, Automatic
Revertive, Manual Selection with Automatic Fallback,
and Manual Selection with Automatic Holdover. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_REFSEL_STAT | R | 0x0 | Reports the DPLL1 selected reference
ROM=N, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL1_LOCKDET_PPM_EN | R/W | 0x0 | DPLL frequency lock detect enable ROM=Y, EEPROM=N |
| 6:0 | DPLL1_LOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 229 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_MAX | R/W | 0xA | DPLL frequency lock detect in-lock
threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | DPLL1_UNLOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 231 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_UNLOCKDET_PPM_MAX | R/W | 0x64 | DPLL frequency lock detect out-of-lock
threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_LOCKDET2_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 235 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET2_PPM_CNTSTRT_23:16 | R/W | 0x9 | See Register 235 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET2_PPM_CNTSTRT_15:8 | R/W | 0x27 | See Register 235 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET2_PPM_CNTSTRT | R/W | 0xC0 | DPLL frequency lock detect reference
count value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_LOCKDET_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 239 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_CNTSTRT_23:16 | R/W | 0x22 | See Register 239 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_CNTSTRT_15:8 | R/W | 0xA0 | DPLL frequency lock detect reference
count value used with DPLL1 feedback configuration 1
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_PPM_CNTSTRT | R/W | 0xF3 | DPLL frequency lock detect reference
count value used with DPLL1 feedback configuration 1
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 243 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_23:16 | R/W | 0x98 | See Register 243 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT_15:8 | R/W | 0x96 | See Register 243 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LOCKDET_VCO_PPM_CNTSTRT | R/W | 0x83 | DPLL frequency lock detect VCO count
value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_STATUS_PPM_LOCK | R | 0x0 | Readback lock indicator from DPLL PPM
Checker ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL1_LOOP_EN | R/W | 0x0 | Enable DPLL1 loop filter and R-Div mash
engine ROM=Y, EEPROM=N |
| 6 | DPLL1_PHASE_CANCEL_EN | R/W | 0x1 | Enable Phase Cancellation ROM=Y, EEPROM=N |
| 5 | DPLL1_FASTLOCK_ALWAYS | R/W | 0x0 | Always perform fastlock. No phase
cancellation is done. ROM=Y, EEPROM=N |
| 4 | DPLL1_PHS1_EN | R/W | 0x1 | Enable holdover exit phase slew control
. ROM=Y, EEPROM=N |
| 3 | DPLL1_ZDM_EN | R/W | 0x0 | Enable Zero Delay ROM=Y, EEPROM=N |
| 2 | DPLL1_HIST_EN | R/W | 0x1 | Enable History word to be used during
holdover ROM=Y, EEPROM=N |
| 1 | DPLL1_PHASE_CANCEL_ALWAYS | R/W | 0x0 | Force phase cancellation to always
occur when DPLL is acquiring lock ROM=Y, EEPROM=N |
| 0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL1_HOLD_SLEW_LIM_EN | R/W | 0x0 | Enable slew limiter when entering
holdover. Allows slew rate control between current
DPLL value before entering holdover and history
value. Requires DPLL1_LOOP_EN=1. ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | RESERVED | R | 0x0 | Reserved |
| 2 | DPLL1_CLK_DIV_SRC_SEL | R/W | 0x0 | DPLL1 cannot be used without DPLL2 or
DPLL3 operating. DPLL1 clock select
|
| 1:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL1_PH_OFFSET_44:40 | R/W | 0x0 | See Register 255 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_39:32 | R/W | 0x0 | See Register 255 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_31:24 | R/W | 0x0 | See Register 255 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_23:16 | R/W | 0x0 | See Register 255 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET_15:8 | R/W | 0x0 | See Register 255 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PH_OFFSET | R/W | 0x0 | Phase offset to adjust and calibrate
input to output phase in ZDM. This is a 2s
complement number. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_39:32 | R/W | 0x0 | See Register 260 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_31:24 | R/W | 0x0 | See Register 260 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_23:16 | R/W | 0x0 | See Register 260 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN_15:8 | R/W | 0x0 | See Register 260 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FREE_RUN | R/W | 0x0 | DPLL1 starting word. Also non-history
holdover word. Used for APLL DCO. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | DPLL1_1PPS_MODE | R/W | 0x0 | Set when using 1-PPS input ROM=Y, EEPROM=N |
| 5 | DPLL1_1PPS_EN | R/W | 0x0 | Set when using 1-PPS input ROM=Y, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_LCK_TIMER_9:8 | R/W | 0x3 | See Register 291 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_LCK_TIMER | R/W | 0x9 | Minimum amount of time until DPLL1_LOPL
will be deasserted after starting to lock. Timer
begins once device is within valid phase lock
window. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_HIST_TIMER_9:8 | R/W | 0x1 | See Register 293 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_HIST_TIMER | R/W | 0x92 | Time interval between history update
events. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_HOLD_TIMER_9:8 | R/W | 0x1 | See Register 295 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_HOLD_TIMER | R/W | 0x42 | Rate of change to DPLL or APLL
numerator during phase slew control. See
DPLLx_HOLD_SLEW_STEP. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL1_PHS1_TIMER_9:8 | R/W | 0x1 | See Register 297 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_PHS1_TIMER | R/W | 0x40 | Holdover exit phase slew control. Timer
controlling update period. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL1_HIST_GAIN | R/W | 0x8 | History filter gain ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_PL_THRESH | R/W | 0x22 | Phase lock in-lock threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_PL_UNLK_THRESH | R/W | 0x24 | Phase lock out-of-lock threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_PHS1_THRESH | R/W | 0x7 | Holdover exit phase slew control.
Change per timer event. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_HOLD_SLEW_STEP | R/W | 0x3F | When DPLL exits holdover, rate of phase
change relates to the ratio of DPLLx_HOLD_SLEW_STEP
divided by DPLLx_HOLD_TIMER. DPLLx_HOLD_SLEW_STEP is
applied to DPLL numerator when exiting holdover or
APLL numerator when using APLL relative DCO. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL1_STATUS_PL | R | 0x0 | Readback the phase lock status ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL1_DCO_SLEW_ACTIVE | R | 0x0 | Readback DCO slew status ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB_DIV_32:32 | R/W | 0x0 | See Register 318 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV_31:24 | R/W | 0x0 | See Register 318 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV_23:16 | R/W | 0x0 | See Register 318 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV_15:8 | R/W | 0x0 | See Register 318 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DIV | R/W | 0xD3 | DPLL Feedback Divider N Value used with
DPLL1 feedback configuration 1. Divide value is
programmed value except when using ZDM mode with FB
div, actual divide value is +1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_39:32 | R/W | 0x81 | See Register 323 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_31:24 | R/W | 0xD7 | See Register 323 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_23:16 | R/W | 0xDB | See Register 323 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_15:8 | R/W | 0xF3 | See Register 323 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM | R/W | 0xFC | DPLL Feedback Divider Numerator Value
used with DPLL1 feedback configuration 1 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_39:32 | R/W | 0xFF | See Register 328 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_31:24 | R/W | 0xFF | See Register 328 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_23:16 | R/W | 0xFF | See Register 328 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN_15:8 | R/W | 0xFE | See Register 328 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_DEN | R/W | 0xEC | DPLL Feedback Divider Denominator Value
used with DPLL1 feedback configuration 1 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB2_DIV_32:32 | R/W | 0x0 | See Register 333 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV_31:24 | R/W | 0x0 | See Register 333 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV_23:16 | R/W | 0x0 | See Register 333 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV_15:8 | R/W | 0xF | See Register 333 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DIV | R/W | 0xA0 | DPLL Feedback Divider N Value used with
DPLL1 feedback configuration 2. Divide value is
programmed value except when using ZDM mode with FB
div, actual divide value is +1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_39:32 | R/W | 0x0 | See Register 338 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_31:24 | R/W | 0x0 | See Register 338 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_23:16 | R/W | 0x0 | See Register 338 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM_15:8 | R/W | 0x0 | See Register 338 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value
used with DPLL1 feedback configuration 2 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_39:32 | R/W | 0x0 | See Register 343 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_31:24 | R/W | 0x0 | See Register 343 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_23:16 | R/W | 0x0 | See Register 343 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN_15:8 | R/W | 0x0 | See Register 343 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB2_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value
used with DPLL1 feedback configuration 2 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL1_REF5_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF3. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 4 | DPLL1_REF4_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF4. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | DPLL1_REF1_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF1. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 0 | DPLL1_REF0_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF0. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | DPLL1_FB_MASH_ORDER | R/W | 0x2 | DPLL Feedback Divider MASH Order. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL1_FB_FDEV_37:32 | R/W | 0x0 | See Register 350 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV_31:24 | R/W | 0x0 | See Register 350 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV_23:16 | R/W | 0x0 | See Register 350 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV_15:8 | R/W | 0x0 | See Register 350 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_FDEV | R/W | 0x0 | DPLL Feedback Divider DCO Frequency
Deviation Value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB_FDEV_UPDATE | R/W | 0x0 | Increment/Decrement DPLL Feedback
Numerator value with DPLL_FB_FDEV value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL1_FB_FDEV_EN | R/W | 0x0 | Enable DPLL DCO mode ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_39:32 | R | 0x0 | See Register 357 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_31:24 | R | 0x0 | See Register 357 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_23:16 | R | 0x0 | See Register 357 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT_15:8 | R | 0x0 | See Register 357 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_FB_NUM_STAT | R | 0x0 | Readback DPLL Feedback Divider
Numerator value as a result of DCO mode ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | DPLL1_REF0_DBLR_EN | R/W | 0x0 | DPLL Reference 0 Doubler Enable ROM=Y, EEPROM=N |
| 2 | DPLL1_REF1_DBLR_EN | R/W | 0x0 | DPLL Reference 1 Doubler Enable ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF0_RDIV_15:8 | R/W | 0x0 | See Register 360 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF0_RDIV | R/W | 0x1 | DPLL REF0 R-divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF1_RDIV_15:8 | R/W | 0x0 | See Register 362 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF1_RDIV | R/W | 0x1 | DPLL REF1 R-divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF4_RDIV_15:8 | R/W | 0x0 | See Register 368 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF4_RDIV | R/W | 0x0 | DPLL REF4 R-divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF5_RDIV_15:8 | R/W | 0x0 | DPLL REF5 R-divider value. For use when
DPLL1 uses output of VCO3 as a reference. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL1_REF5_RDIV | R/W | 0x0 | DPLL REF5 R-divider value. For use when
DPLL1 uses output of VCO3 as a reference. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL2_REF0_AUTO_PRTY | R/W | 0x0 | REF0 Priority for Automatic Switchover.
Sets the priority for REF0 used in Automatic
Non-Revertive, Automatic Revertive, and Manual
Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N
|
| 2:0 | DPLL2_REF1_AUTO_PRTY | R/W | 0x0 | REF1 Priority for Automatic Switchover.
Sets the priority for REF1 used in Automatic
Non-Revertive, Automatic Revertive, and Manual
Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL2_REF4_AUTO_PRTY | R/W | 0x0 | REF4 Priority for Automatic Switchover.
Sets the priority for REF4 feedback from APLL1 used
in Automatic Non-Revertive, Automatic Revertive, and
Manual Selection with Automatic Fallback switchover
modes. ROM=Y, EEPROM=N
|
| 2:0 | DPLL2_REF5_AUTO_PRTY | R/W | 0x0 | REF5 Priority for Automatic Switchover.
Sets the priority for REF5 feedback from APLL3 used
in Automatic Non-Revertive, Automatic Revertive, and
Manual Selection with Automatic Fallback switchover
modes. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL2_MAN_REFSEL | R/W | 0x0 | DPLL2 Manual Reference Selection ROM=Y, EEPROM=N
|
| 2 | DPLL2_MAN_SWITCH_PIN_MODE | R/W | 0x0 | DPLL2 Manual Reference Selection Mode.
Determines how the manually selected reference is
chosen. If this is set to a '1', the manually
selected reference is taken from a GPIO input pin.
If it is set to a '0', the manually selected
reference is taken from a register. ROM=Y, EEPROM=N
|
| 1:0 | DPLL2_SWITCH_MODE | R/W | 0x1 | DPLL2 Reference Switchover Mode.
Selects between Automatic Non-revertive, Automatic
Revertive, Manual Selection with Automatic Fallback,
and Manual Selection with Automatic Holdover. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_REFSEL_STAT | R | 0x0 | Reads the DPLL2 selected reference ROM=N, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL2_LOCKDET_PPM_EN | R/W | 0x0 | DPLL frequency lock detect enable ROM=Y, EEPROM=N |
| 6:0 | DPLL2_LOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 379 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_MAX | R/W | 0xA | DPLL frequency lock detect in-lock
threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | DPLL2_UNLOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 381 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_UNLOCKDET_PPM_MAX | R/W | 0x64 | DPLL frequency lock detect out-of-lock
threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_LOCKDET2_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 385 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET2_PPM_CNTSTRT_23:16 | R/W | 0x0 | See Register 385 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET2_PPM_CNTSTRT_15:8 | R/W | 0x9 | See Register 385 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET2_PPM_CNTSTRT | R/W | 0xC5 | DPLL frequency lock detect reference
count value used with DPLL2 feedback configuration 2
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_LOCKDET_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 389 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_CNTSTRT_23:16 | R/W | 0x27 | See Register 389 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_CNTSTRT_15:8 | R/W | 0x75 | See Register 389 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_PPM_CNTSTRT | R/W | 0x3 | DPLL frequency lock detect reference
count value used with DPLL2 feedback configuration 1
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 393 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_23:16 | R/W | 0x98 | See Register 393 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT_15:8 | R/W | 0x96 | See Register 393 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LOCKDET_VCO_PPM_CNTSTRT | R/W | 0x82 | DPLL frequency lock detect VCO count
value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_STATUS_PPM_LOCK | R | 0x0 | Readback lock indicator from DPLL PPM
Checker ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL2_LOOP_EN | R/W | 0x0 | Enable DPLL2 loop filter and R-Div mash
engine ROM=Y, EEPROM=N |
| 6 | DPLL2_PHASE_CANCEL_EN | R/W | 0x1 | Enable Phase Cancellation ROM=Y, EEPROM=N |
| 5 | DPLL2_FASTLOCK_ALWAYS | R/W | 0x0 | Always perform fastlock. No phase
cancellation is done. ROM=Y, EEPROM=N |
| 4 | DPLL2_PHS1_EN | R/W | 0x1 | Enable holdover exit phase slew control
. ROM=Y, EEPROM=N |
| 3 | DPLL2_ZDM_EN | R/W | 0x0 | Enable Zero Delay ROM=Y, EEPROM=N |
| 2 | DPLL2_HIST_EN | R/W | 0x1 | Enable History word to be used during
holdover ROM=Y, EEPROM=N |
| 1 | DPLL2_PHASE_CANCEL_ALWAYS | R/W | 0x0 | Force phase cancellation to always
occur when DPLL is acquiring lock ROM=Y, EEPROM=N |
| 0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL2_HOLD_SLEW_LIM_EN | R/W | 0x0 | Enable slew limiter when entering
holdover ROM=Y, EEPROM=N |
| 6:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL2_PH_OFFSET_44:40 | R/W | 0x0 | See Register 405 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_39:32 | R/W | 0x0 | See Register 405 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_31:24 | R/W | 0x0 | See Register 405 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_23:16 | R/W | 0x0 | See Register 405 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET_15:8 | R/W | 0x0 | See Register 405 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PH_OFFSET | R/W | 0x0 | Phase offset to adjust and calibrate
input to output phase in ZDM. This is a 2s
complement number. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_39:32 | R/W | 0x0 | See Register 410 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_31:24 | R/W | 0x0 | See Register 410 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_23:16 | R/W | 0x0 | See Register 410 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN_15:8 | R/W | 0x0 | See Register 410 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FREE_RUN | R/W | 0x0 | DPLL2 starting word. Also non-history
holdover word. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | DPLL2_1PPS_MODE | R/W | 0x0 | Set when using 1-PPS input ROM=Y, EEPROM=N |
| 5 | DPLL2_1PPS_EN | R/W | 0x0 | Set when using 1-PPS input ROM=Y, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_LCK_TIMER_9:8 | R/W | 0x3 | See Register 441 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_LCK_TIMER | R/W | 0x9 | Minimum amount of time until DPLL2_LOPL
will be deasserted after starting to lock. Timer
begins once device is within valid phase lock
window. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_HIST_TIMER_9:8 | R/W | 0x1 | See Register 443 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_HIST_TIMER | R/W | 0x92 | Time interval between history update
events. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_HOLD_TIMER_9:8 | R/W | 0x1 | See Register 445 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_HOLD_TIMER | R/W | 0x42 | Rate of change to DPLL or APLL
numerator during phase slew control. See
DPLLx_HOLD_SLEW_STEP. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL2_PHS1_TIMER_9:8 | R/W | 0x1 | See Register 447 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_PHS1_TIMER | R/W | 0x40 | Holdover exit phase slew control. Timer
controlling update period. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL2_HIST_GAIN | R/W | 0x8 | History filter gain ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_PL_THRESH | R/W | 0x22 | Phase lock in-lock threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_PL_UNLK_THRESH | R/W | 0x24 | Phase lock out-of-lock threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_PHS1_THRESH | R/W | 0x7 | Holdover exit phase slew control.
Change per timer event. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_HOLD_SLEW_STEP | R/W | 0x3F | When DPLL exits holdover, rate of phase
change relates to DPLLx_HOLD_SLEW_STEP over
DPLLx_HOLD_TIMER. DPLLx_HOLD_SLEW_STEP is applied to
DPLL numerator when exiting holdover or APLL
numerator when using APLL relative DCO. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL2_STATUS_PL | R | 0x0 | Readback the phase lock status ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL2_DCO_SLEW_ACTIVE | R | 0x0 | Readback DCO slew status ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB_DIV_32:32 | R/W | 0x0 | See Register 468 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV_31:24 | R/W | 0x0 | See Register 468 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV_23:16 | R/W | 0x0 | See Register 468 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV_15:8 | R/W | 0x0 | See Register 468 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DIV | R/W | 0xE8 | DPLL Feedback Divider N Value used with
DPLL2 feedback configuration 1. Divide value is
programmed value except when using ZDM mode with FB
div, actual divide value is +1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_39:32 | R/W | 0x8 | See Register 473 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_31:24 | R/W | 0x0 | See Register 473 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_23:16 | R/W | 0x0 | See Register 473 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_15:8 | R/W | 0x0 | See Register 473 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value
used with DPLL2 feedback configuration 1 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_39:32 | R/W | 0x0 | See Register 478 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_31:24 | R/W | 0x0 | See Register 478 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_23:16 | R/W | 0x0 | See Register 478 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN_15:8 | R/W | 0x0 | See Register 478 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value
used with DPLL2 feedback configuration 1 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB2_DIV_32:32 | R/W | 0x0 | See Register 483 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV_31:24 | R/W | 0x0 | See Register 483 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV_23:16 | R/W | 0x0 | See Register 483 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV_15:8 | R/W | 0x12 | See Register 483 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DIV | R/W | 0xC0 | DPLL Feedback Divider N Value used with
DPLL2 feedback configuration 2. Divide value is
programmed value except when using ZDM mode with FB
div, actual divide value is +1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_39:32 | R/W | 0x0 | See Register 488 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_31:24 | R/W | 0x0 | See Register 488 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_23:16 | R/W | 0x0 | See Register 488 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM_15:8 | R/W | 0x0 | See Register 488 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value
used with DPLL2 feedback configuration 2 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_39:32 | R/W | 0x0 | See Register 493 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_31:24 | R/W | 0x0 | See Register 493 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_23:16 | R/W | 0x0 | See Register 493 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN_15:8 | R/W | 0x0 | See Register 493 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB2_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value
used with DPLL2 feedback configuration 2 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL2_REF5_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF3. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 4 | DPLL2_REF4_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF4. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | DPLL2_REF1_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF1. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 0 | DPLL2_REF0_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF0. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | DPLL2_FB_MASH_ORDER | R/W | 0x2 | DPLL Feedback Divider MASH Order. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL2_FB_FDEV_37:32 | R/W | 0x0 | See Register 500 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV_31:24 | R/W | 0x9D | See Register 500 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV_23:16 | R/W | 0xA3 | See Register 500 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV_15:8 | R/W | 0x83 | See Register 500 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_FDEV | R/W | 0x41 | DPLL Feedback Divider DCO Frequency
Deviation Value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB_FDEV_UPDATE | R/W | 0x1 | Increment/Decrement DPLL Feedback
Numerator value with DPLL_FB_FDEV value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL2_FB_FDEV_EN | R/W | 0x0 | Enable DPLL DCO mode ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_39:32 | R | 0x0 | See Register 507 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_31:24 | R | 0x0 | See Register 507 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_23:16 | R | 0x0 | See Register 507 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT_15:8 | R | 0x0 | See Register 507 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_FB_NUM_STAT | R | 0x0 | Readback DPLL Feedback Divider
Numerator value as a result of DCO mode ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | DPLL2_REF0_DBLR_EN | R/W | 0x0 | DPLL Reference 0 Doubler Enable ROM=Y, EEPROM=N |
| 2 | DPLL2_REF1_DBLR_EN | R/W | 0x0 | DPLL Reference 1 Doubler Enable ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF0_RDIV_15:8 | R/W | 0x0 | See Register 510 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF0_RDIV | R/W | 0x1 | DPLL Reference 0 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF1_RDIV_15:8 | R/W | 0x0 | See Register 512 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF1_RDIV | R/W | 0x1 | DPLL Reference 1 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF4_RDIV_15:8 | R/W | 0x0 | See Register 518 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF4_RDIV | R/W | 0x0 | DPLL REF4 R-divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF5_RDIV_15:8 | R/W | 0x0 | See Register 520 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL2_REF5_RDIV | R/W | 0x0 | DPLL Reference 3 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL3_REF0_AUTO_PRTY | R/W | 0x2 | REF0 Priority for Automatic Switchover.
Sets the priority for REF0 used in Automatic
Non-Revertive, Automatic Revertive, and Manual
Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N
|
| 2:0 | DPLL3_REF1_AUTO_PRTY | R/W | 0x1 | REF1 Priority for Automatic Switchover.
Sets the priority for REF1 used in Automatic
Non-Revertive, Automatic Revertive, and Manual
Selection with Automatic Fallback switchover modes.
ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL3_REF4_AUTO_PRTY | R/W | 0x0 | REF4 Priority for Automatic Switchover.
Sets the priority for REF4 feedback from APLL1 used
in Automatic Non-Revertive, Automatic Revertive, and
Manual Selection with Automatic Fallback switchover
modes. ROM=Y, EEPROM=N
|
| 2:0 | DPLL3_REF5_AUTO_PRTY | R/W | 0x0 | REF5 Priority for Automatic Switchover.
Sets the priority for REF5 feedback from APLL2 used
in Automatic Non-Revertive, Automatic Revertive, and
Manual Selection with Automatic Fallback switchover
modes. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | DPLL3_MAN_REFSEL | R/W | 0x0 | DPLL3 Manual Reference Selection Mode.
Determines how the manually selected reference is
chosen. If this is set to a '1', the manually
selected reference is taken from a GPIO input pin.
If it is set to a '0', the manually selected
reference is taken from a register. ROM=Y, EEPROM=N
|
| 2 | DPLL3_MAN_SWITCH_PIN_MODE | R/W | 0x0 | DPLL3 Manual Reference Selection Mode.
Determines how the manually selected reference is
chosen. If this is set to a '1', the manually
selected reference is taken from a GPIO input pin.
If it is set to a '0', the manually selected
reference is taken from a register. ROM=Y, EEPROM=N
|
| 1:0 | DPLL3_SWITCH_MODE | R/W | 0x1 | DPLL3 Reference Switchover Mode.
Selects between Automatic Non-revertive, Automatic
Revertive, Manual Selection with Automatic Fallback,
and Manual Selection with Automatic Holdover. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_REFSEL_STAT | R | 0x1 | Reads the DPLL3 selected reference ROM=N, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_LOCKDET_PPM_EN | R/W | 0x1 | DPLL frequency lock detect enable ROM=Y, EEPROM=N |
| 6:0 | DPLL3_LOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 529 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_MAX | R/W | 0xA | DPLL frequency lock detect in-lock
threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | DPLL3_UNLOCKDET_PPM_MAX_14:8 | R/W | 0x0 | See Register 531 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_UNLOCKDET_PPM_MAX | R/W | 0x64 | DPLL frequency lock detect out-of-lock
threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_LOCKDET2_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 535 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET2_PPM_CNTSTRT_23:16 | R/W | 0x3 | See Register 535 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET2_PPM_CNTSTRT_15:8 | R/W | 0xD | See Register 535 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET2_PPM_CNTSTRT | R/W | 0x40 | DPLL frequency lock detect reference
count value used with DPLL1 feedback configuration 2
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_LOCKDET_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 539 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_CNTSTRT_23:16 | R/W | 0x24 | See Register 539 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_CNTSTRT_15:8 | R/W | 0x9F | See Register 539 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_PPM_CNTSTRT | R/W | 0x0 | DPLL frequency lock detect reference
count value used with DPLL3 feedback configuration 1
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_29:24 | R/W | 0x0 | See Register 543 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_23:16 | R/W | 0x98 | See Register 543 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT_15:8 | R/W | 0x96 | See Register 543 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LOCKDET_VCO_PPM_CNTSTRT | R/W | 0x80 | DPLL frequency lock detect VCO count
value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_STATUS_PPM_LOCK | R | 0x0 | Readback lock indicator from DPLL PPM
Checker ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_LOOP_EN | R/W | 0x1 | Enable DPLL3 loop filter and R-Div mash
engine ROM=Y, EEPROM=N |
| 6 | DPLL3_PHASE_CANCEL_EN | R/W | 0x1 | Enable Phase Cancellation ROM=Y, EEPROM=N |
| 5 | DPLL3_FASTLOCK_ALWAYS | R/W | 0x0 | Always perform fastlock. No phase
cancellation is done. ROM=Y, EEPROM=N |
| 4 | DPLL3_PHS1_EN | R/W | 0x1 | Enable holdover exit phase slew control
. ROM=Y, EEPROM=N |
| 3 | DPLL3_ZDM_EN | R/W | 0x0 | Enable Zero Delay mode ROM=Y, EEPROM=N |
| 2 | DPLL3_HIST_EN | R/W | 0x1 | Enable History word to be used during
holdover ROM=Y, EEPROM=N |
| 1 | DPLL3_PHASE_CANCEL_ALWAYS | R/W | 0x0 | Force phase cancellation to always
occur when DPLL is acquiring lock. ROM=Y, EEPROM=N |
| 0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_HOLD_SLEW_LIM_EN | R/W | 0x0 | During holdover enable slew limiter ROM=Y, EEPROM=N |
| 6:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL3_PH_OFFSET_44:40 | R/W | 0x0 | See Register 555 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_39:32 | R/W | 0x0 | See Register 555 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_31:24 | R/W | 0x0 | See Register 555 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_23:16 | R/W | 0x0 | See Register 555 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET_15:8 | R/W | 0x0 | See Register 555 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PH_OFFSET | R/W | 0x0 | Phase offset to adjust and calibrate
input to output phase in ZDM. This is a 2s
complement number. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_39:32 | R/W | 0x0 | See Register 560 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_31:24 | R/W | 0x0 | See Register 560 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_23:16 | R/W | 0x0 | See Register 560 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN_15:8 | R/W | 0x0 | See Register 560 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FREE_RUN | R/W | 0x0 | DPLL starting word. Also non-history
holdover word. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | DPLL3_PPM_REF_SEL | R/W | 0x0 | PPM Detector Reference Selection for
DPLL3 LOFL. When set to 0, the selected DPLL input
reference is used resulting in DPLL3 LOFL as
expected. When set to 1, the XO is used as a
frequency enabling LOFL for APLL3, no DPLL is
required. This bit enables a "BAW LOCK" indicator.
ROM=Y, EEPROM=N
|
| 6 | DPLL3_1PPS_MODE | R/W | 0x0 | Set when using 1-PPS input ROM=Y, EEPROM=N |
| 5 | DPLL3_1PPS_EN | R/W | 0x0 | Set when using 1-PPS input ROM=Y, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_LCK_TIMER_9:8 | R/W | 0x3 | See Register 591 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_LCK_TIMER | R/W | 0x9 | Minimum amount of time until DPLL3_LOPL
will be deasserted after starting to lock. Timer
begins once device is within valid phase lock
window. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_HIST_TIMER_9:8 | R/W | 0x1 | See Register 593 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_HIST_TIMER | R/W | 0x92 | History timer ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_HOLD_TIMER_9:8 | R/W | 0x1 | See Register 595 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_HOLD_TIMER | R/W | 0x42 | Rate of change to DPLL or APLL
numerator during phase slew control. See
DPLLx_HOLD_SLEW_STEP. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | DPLL3_PHS1_TIMER_9:8 | R/W | 0x1 | See Register 597 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_PHS1_TIMER | R/W | 0x40 | Holdover exit phase slew control. Timer
controlling update period. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | DPLL3_HIST_GAIN | R/W | 0x8 | History filter gain ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_PL_THRESH | R/W | 0x22 | Phase lock in-lock threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_PL_UNLK_THRESH | R/W | 0x24 | Phase lock out-of-lock threshold ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_PHS1_THRESH | R/W | 0x7 | Holdover exit phase slew control.
Change per timer event. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL3_STATUS_PL | R | 0x0 | Readback the phase lock status ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | DPLL3_DCO_SLEW_ACTIVE | R | 0x0 | Readback DCO slew status ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB_DIV_32:32 | R/W | 0x0 | See Register 618 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV_31:24 | R/W | 0x0 | See Register 618 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV_23:16 | R/W | 0x0 | See Register 618 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV_15:8 | R/W | 0x0 | See Register 618 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DIV | R/W | 0x64 | DPLL Feedback Divider N Value used with
DPLL3 feedback configuration 1. Divide value is
programmed value except when using ZDM mode with FB
div, actual divide value is +1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_39:32 | R/W | 0x0 | See Register 623 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_31:24 | R/W | 0x0 | See Register 623 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_23:16 | R/W | 0x0 | See Register 623 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_15:8 | R/W | 0x0 | See Register 623 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM | R/W | 0x0 | DPLL Feedback Divider Numerator Value
used with DPLL3 feedback configuration 1 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_39:32 | R/W | 0x0 | See Register 628 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_31:24 | R/W | 0x0 | See Register 628 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_23:16 | R/W | 0x0 | See Register 628 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN_15:8 | R/W | 0x0 | See Register 628 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_DEN | R/W | 0x0 | DPLL Feedback Divider Denominator Value
used with DPLL3 feedback configuration 1 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB2_DIV_32:32 | R/W | 0x0 | See Register 633 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV_31:24 | R/W | 0x0 | See Register 633 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV_23:16 | R/W | 0x0 | See Register 633 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV_15:8 | R/W | 0x7 | See Register 633 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DIV | R/W | 0xAE | DPLL Feedback Divider N Value used with
DPLL3 feedback configuration 2. Divide value is
programmed value except when using ZDM mode with FB
div, actual divide value is +1. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_39:32 | R/W | 0x14 | See Register 638 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_31:24 | R/W | 0x7A | See Register 638 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_23:16 | R/W | 0xE1 | See Register 638 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM_15:8 | R/W | 0x47 | See Register 638 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_NUM | R/W | 0xAE | DPLL Feedback Divider Numerator Value
used with DPLL3 feedback configuration 2 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_39:32 | R/W | 0xFF | See Register 643 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_31:24 | R/W | 0xFF | See Register 643 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_23:16 | R/W | 0xFF | See Register 643 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN_15:8 | R/W | 0xFF | See Register 643 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB2_DEN | R/W | 0xFF | DPLL Feedback Divider Denominator Value
used with DPLL3 feedback configuration 2 ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | DPLL3_REF5_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF5. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 4 | DPLL3_REF4_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF4. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | DPLL3_REF1_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF1. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
| 0 | DPLL3_REF0_FB_SEL | R/W | 0x0 | DPLL Feedback N, NUM, DEN select for
REF0. When this bit is a 0, Value 1 is chosen for
each of the three parameters. When it is set to a 1,
Value 2 is used. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | DPLL3_FB_MASH_ORDER | R/W | 0x2 | DPLL Feedback Divider MASH Order. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | DPLL3_FB_FDEV_37:32 | R/W | 0x0 | See Register 650 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV_31:24 | R/W | 0x0 | See Register 650 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV_23:16 | R/W | 0x0 | See Register 650 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV_15:8 | R/W | 0x0 | See Register 650 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_FDEV | R/W | 0x0 | DPLL Feedback Divider DCO Frequency
Deviation Value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB_FDEV_UPDATE | R/W | 0x0 | Increment/Decrement DPLL Feedback
Numerator value with DPLL_FB_FDEV value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | DPLL3_FB_FDEV_EN | R/W | 0x0 | Enable DPLL DCO mode ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_39:32 | R | 0x0 | See Register 657 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_31:24 | R | 0x0 | See Register 657 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_23:16 | R | 0x0 | See Register 657 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT_15:8 | R | 0x0 | See Register 657 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_FB_NUM_STAT | R | 0x0 | Readback DPLL Feedback Divider
Numerator value as a result of DCO mode ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | DPLL3_REF0_DBLR_EN | R/W | 0x0 | DPLL Reference 0 Doubler Enable ROM=Y, EEPROM=N |
| 2 | DPLL3_REF1_DBLR_EN | R/W | 0x0 | DPLL Reference 1 Doubler Enable ROM=Y, EEPROM=N |
| 1:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF0_RDIV_15:8 | R/W | 0x0 | See Register 660 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF0_RDIV | R/W | 0x1 | DPLL Reference 0 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF1_RDIV_15:8 | R/W | 0x0 | See Register 662 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF1_RDIV | R/W | 0x1 | DPLL Reference 1 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF4_RDIV_15:8 | R/W | 0x0 | See Register 668 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF4_RDIV | R/W | 0x0 | DPLL Reference 4 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF5_RDIV_15:8 | R/W | 0x1 | See Register 670 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | DPLL3_REF5_RDIV | R/W | 0x1 | DPLL Reference 5 R divider value ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_CP_PU_R | R/W | 0x6D | PLL charge pump pull-up resistor
selection ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1:0 | PLL1_CPG | R/W | 0x3 | PLL charge pump gain Pump up/down. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL1_LF_R2 | R/W | 0x9 | PLL Loop Filter R2 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL1_LF_R3 | R/W | 0x2 | PLL Loop Filter R3 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL1_LF_R4 | R/W | 0x2 | PLL Loop Filter R4 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | PLL1_DISABLE_3RD4TH | R/W | 0x3 | PLL Loop Filter Disconnects C3 and C4
ROM=Y, EEPROM=N
|
| 5:3 | PLL1_LF_C3 | R/W | 0x7 | PLL Loop Filter C3 setting ROM=Y, EEPROM=N
|
| 2:0 | PLL1_LF_C4 | R/W | 0x7 | PLL Loop Filter C4 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL1_RDIV_8:8 | R/W | 0x0 | See Register 714 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_RDIV | R/W | 0xA | PLL R Divider ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL1_RDIV_XO_EN | R/W | 0x0 | APLL reference source is from XO. Must
also enable XO to drive this APLL with
XO_OUT_BUF_EN[1] = 1 ROM=Y, EEPROM=Y |
| 3 | PLL1_RDIV_XO_DBLR_EN | R/W | 0x0 | Enables XO Doubler ROM=Y, EEPROM=Y |
| 2 | PLL1_RDIV_BYPASS_EN | R/W | 0x0 | Bypass R Divider ROM=Y, EEPROM=Y |
| 1:0 | PLL1_RDIV_MUX_SEL | R/W | 0x2 | Select R Divider input. When enabling
reference from feedback divider, the APLL
PLLx_VCO_BUF_2REF_EN bit must also be set
appropriately. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL1_NDIV_8:8 | R/W | 0x0 | See Register 717 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NDIV | R/W | 0x32 | PLL N Divider ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_MSB | R/W | 0x61 | When PLL1_MODE is set for 24 bit
fractional. PLL1_NUM_MSB is effective
PLL1_NUM[23:16]. Other PLL1_NUM and PLL1_DEN bits in
programmable mode are in PLL1_NUM field. When in
40-bit fixed denominator PLL mode, then PLL1_NUM_MSB
is unused. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_39:32 | R/W | 0x86 | See Register 723 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_31:24 | R/W | 0x4E | See Register 723 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_23:16 | R/W | 0x80 | See Register 723 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM_15:8 | R/W | 0x7 | See Register 723 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL1_NUM | R/W | 0xE1 | When PLL1_MODE = 1 (40-bit fixed
denominator) mode then PLL1_NUM contains the APLL1
numerator. When PLL1_MODE = 0 (24-bit programmable
denominator) then PLL1_NUM[23:0] stores the
programmable PLL1 denominator and PLL1_NUM[39:24]
stores the 16 LSBs of the PLL1 numerator. Total PLL1
numerator is calculated with PLL1_NUM_MSB as the 8
MSBs. In 24-bit programmable denominator mode
PLL1_NUM[23:0] = 0 is 224. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | PLL1_DTHRMODE | R/W | 0x3 | PLL MASH Dither Mode ROM=Y, EEPROM=N
|
| 3:1 | PLL1_ORDER | R/W | 0x3 | PLL MASH Order ROM=Y, EEPROM=N
|
| 0 | PLL1_MODE | R/W | 0x0 | In APLL 24-bit num/den mode, APLL
denominator is programmable. Recommended not for use
with DPLL mode. In 24-bit mode, the denominator is
stored in PLL1_NUM[23:0] The numerator is stored in
(PLL1_NUM_MSB << 16) + PLL1_NUM[39:24]. In APLL 40-bit mode, APLL denominator is fixed. For use with DPLL. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_39:32 | R | 0x0 | See Register 729 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_31:24 | R | 0x0 | See Register 729 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_23:16 | R | 0x0 | See Register 729 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT_15:8 | R | 0x0 | See Register 729 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL1_NUM_STAT | R | 0x0 | Readback current effective APLL1
Numerator after FDEV and/or DPLL correction ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_PRI_DIV_SYNC_EN | R/W | 0x1 | PLL1 P1 Divider Sync Enable. Enables
synchronization of PLL1 P1 post-divider. ROM=Y, EEPROM=N |
| 6 | PLL1_PRI_DIV_EN | R/W | 0x1 | Enables the VCO1 P1 divider ROM=Y, EEPROM=Y |
| 5:3 | PLL1_PRI_DIV | R/W | 0x1 | Sets the VCO post-divider VCO1 P1 from
2 to 7. ROM=Y, EEPROM=Y
|
| 2 | PLL1_P1_DIV_OUT0_1_EN | R/W | 0x0 | Enables VCO1 P1 divider output driver
to channel output bank OUT0_1 ROM=Y, EEPROM=Y |
| 1 | PLL1_P1_DIV_OUT2_3_EN | R/W | 0x0 | Enables VCO1 P1 divider output driver
to channel output bank OUT2_3 ROM=Y, EEPROM=Y |
| 0 | PLL1_P1_DIV_OUT14_15_EN | R/W | 0x0 | Enables VCO1 P1 divider output driver
to channel output bank OUT14_15 ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_SEC_DIV_SYNC_EN | R/W | 0x1 | PLL1 P2 Divider Sync Enable. Enables
synchronization of PLL1 P2 post-divider. ROM=Y, EEPROM=N |
| 6 | PLL1_SEC_DIV_EN | R/W | 0x0 | Enables the VCO1 P2 divider ROM=Y, EEPROM=Y |
| 5:3 | PLL1_SEC_DIV | R/W | 0x4 | Sets the VCO post-divider VCO1 P2 from
2 to 7. ROM=Y, EEPROM=Y
|
| 2 | PLL1_P2_DIV_OUT0_1_EN | R/W | 0x0 | Enables the VCO1 P2 divider output
driver to channel output bank OUT0_1 ROM=Y, EEPROM=Y |
| 1 | RESERVED | R | 0x0 | Enables the VCO1 P2 divider output
driver to channel output bank Reserved ROM=Y, EEPROM=Y |
| 0 | RESERVED | R | 0x0 | Enables the VCO1 P2 divider output
driver to channel output bank Reserved ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_VCO_BUF_EN | R/W | 0x0 | Enables the VCO1 Buffer which drives
the DPLL feedback, reference window detector, DPLL
reference for cascade mode, and test mode ROM=Y, EEPROM=N |
| 6:5 | PLL1_VCO_BUF_2REF_EN | R/W | 0x0 | Enables the APLL1 Div-by-4 cascade
divider to APLL2/3 reference input for cascade mode.
[0] - > APLL2, [1] -> APLL3 ROM=Y, EEPROM=Y |
| 4 | PLL1_VCO_BUF_2DPLL_EN | R/W | 0x0 | Enables the VCO1 Buffer output driver
to DPLL feedback divider ROM=Y, EEPROM=N |
| 3 | RESERVED | R | 0x0 | Reserved |
| 2 | PLL1_VCO_BUF_PPM_CHECK_EN | R/W | 0x0 | Enables the APLL1 Div-by-4/8 cascade
divider to DPLL/PPM frequency detector ROM=Y, EEPROM=N |
| 1:0 | PLL1_VCO_BUF_FB_TDC_EN | R/W | 0x0 | Enables APLL1 Div-by-8 cacade divider
to TDC2 and TDC3 for cascade mode [0] = TDC2 driver
enable [1] = TDC3 driver enable ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | PLL1_NCLK_TEST_EN | R/W | 0x0 | Unused ROM=N, EEPROM=N |
| 6:4 | RESERVED | R | 0x0 | Reserved |
| 3 | PLL1_RDIV_OUTPUT_EN | R/W | 0x0 | If GPIOx_SEL selects PLL1 R/2 as an
output. Then this bit must be set along with
STATUS_MUX_DIV2_EN=1. ROM=N, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL1_VM_INSIDE | R | 0x0 | Denotes if the VCO tuning voltage is
within operational range. ROM=N, EEPROM=N |
| 4 | PLL1_VM_HI | R | 0x0 | Denotes if the charge pump voltage is
too high and outside range. If PLL1_VM_INSIDE = 0
and VM_HI = 0, then charge pump voltage is too low.
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL1_NDIV_OUTPUT_EN | R/W | 0x0 | If GPIOx_SEL selects PLL1 N/2 as an
output. Then this bit must be set along with
STATUS_MUX_DIV2_EN=1. ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL1_VCO_PREBUF_EN | R/W | 0x1 | Set to same value as APLL1_EN. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_CP_PU_R | R/W | 0x22 | PLL charge pump pull-up resistor
selection ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL2_CP_PU_DIS | R/W | 0x0 | PLL charge pump - pump up disable ROM=Y, EEPROM=N |
| 3:0 | PLL2_CPG | R/W | 0x9 | PLL charge pump gain ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_LF_R2 | R/W | 0x7 | PLL Loop Filter R2 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL2_LF_R3 | R/W | 0x2 | PLL Loop Filter R3 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL2_LF_R4 | R/W | 0x2 | PLL Loop Filter R4 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | PLL2_DISABLE_3RD4TH | R/W | 0x3 | PLL Loop Filter Disconnects C3 and C4
ROM=Y, EEPROM=N
|
| 5:3 | PLL2_LF_C3 | R/W | 0x7 | PLL Loop Filter C3 setting ROM=Y, EEPROM=N
|
| 2:0 | PLL2_LF_C4 | R/W | 0x7 | PLL Loop Filter C4 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL2_RDIV_8:8 | R/W | 0x0 | See Register 784 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_RDIV | R/W | 0xA | PLL R Divider ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL2_RDIV_XO_EN | R/W | 0x0 | APLL reference source is from XO. Must
also enable XO to drive this APLL with
XO_OUT_BUF_EN[2] = 1 ROM=Y, EEPROM=Y |
| 3 | PLL2_RDIV_XO_DBLR_EN | R/W | 0x0 | Enables XO Doubler ROM=Y, EEPROM=Y |
| 2 | PLL2_RDIV_BYPASS_EN | R/W | 0x0 | Bypass R Divider ROM=Y, EEPROM=Y |
| 1:0 | PLL2_RDIV_MUX_SEL | R/W | 0x2 | Select R Divider input: 0=XO, 1=VCO1
feedback divider, 2=VCO3 feedback divider ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL2_NDIV_8:8 | R/W | 0x0 | See Register 787 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NDIV | R/W | 0x37 | PLL N Divider ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_MSB | R/W | 0x58 | When PLL2_MODE is set for 24 bit
fractional. PLL2_NUM_MSB is effective
PLL2_NUM[23:16]. Other PLL2_NUM and PLL2_DEN bits in
programmable mode are in PLL2_NUM field. When in
40-bit fixed denominator PLL mode, then PLL2_NUM_MSB
is unused. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_39:32 | R/W | 0x0 | See Register 793 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_31:24 | R/W | 0x0 | See Register 793 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_23:16 | R/W | 0x80 | See Register 793 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM_15:8 | R/W | 0x0 | See Register 793 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL2_NUM | R/W | 0x0 | When PLL2_MODE = 1 (40-bit fixed
denominator) mode then PLL2_NUM contains the APLL2
numerator. When PLL2_MODE = 0 (24-bit programmable
denominator) then PLL2_NUM[23:0] stores the
programmable PLL2 denominator and PLL2_NUM[39:24]
stores the 16 LSBs of the PLL2 numerator. Total PLL2
numerator is calculated with PLL2_NUM_MSB as the 8
MSBs. In 24-bit programmable denominator mode
PLL2_NUM[23:0] = 0 is 224. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | PLL2_DTHRMODE | R/W | 0x0 | PLL MASH Dither Mode ROM=Y, EEPROM=N
|
| 3:1 | PLL2_ORDER | R/W | 0x3 | PLL MASH Order ROM=Y, EEPROM=N
|
| 0 | PLL2_MODE | R/W | 0x0 | In APLL 24-bit num/den mode, APLL
denominator is programmable. Not for use with DPLL
mode. In 24-bit mode, the denominator is stored in
PLL2_NUM[23:0] The numerator is stored in
(PLL2_NUM_MSB << 16) + PLL2_NUM[39:24]. In APLL 40-bit mode, APLL denominator is fixed. For use with DPLL. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL2_NUM_STAT_39:32 | R | 0x0 | See Register 799 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL2_NUM_STAT_31:24 | R | 0x0 | See Register 799 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL2_NUM_STAT_23:16 | R | 0x0 | See Register 799 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL2_NUM_STAT_15:8 | R | 0x0 | See Register 799 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL2_NUM_STAT | R | 0x0 | Readback current effective APLL2
Numerator after FDEV and/or DPLL correction ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL2_VCO_BUF_EN | R/W | 0x0 | Enables the VCO2 Buffer which drives
the DPLL feedback, reference window detector, DPLL
reference for cascade mode, and test mode ROM=Y, EEPROM=N |
| 3:2 | PLL2_VCO_BUF_2REF_EN | R/W | 0x0 | Enables the APLL2 Div-by-4 cascade
divider to [0] -> APLL1 and [1] -> APLL3
reference input for cascade mode. ROM=Y, EEPROM=Y |
| 1 | PLL2_VCO_BUF_2DPLL_EN | R/W | 0x0 | Enables the VCO2 Buffer output driver
to DPLL2 feedback divider ROM=Y, EEPROM=N |
| 0 | PLL2_VCO_BUF_2WNDDET_EN | R/W | 0x0 | Enables the APLL2 Div-by-5 cascade
divider to reference window detectors input buffer
and prepares pre-divided clock for DPLL2 loop filter
and PPM/Frequency detector. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL2_VCO_DIV_SYNC_EN | R/W | 0x1 | PLL2 Divider Sync Enable. Enables
synchronization of post-dividers and reference
dividers for PLL2. ROM=Y, EEPROM=N |
| 4 | PLL2_VCO_DIV_EN | R/W | 0x1 | Enables the VCO2 Div By 2 to 13 divide
block. ROM=Y, EEPROM=Y |
| 3:0 | PLL2_VCO_DIV | R/W | 0xC | Sets the VCO2 divider divide value from
2 to 13 ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | PLL2_VCO_BUF_FB_TDC_EN | R/W | 0x0 | Enables APLL2 Div-by-10 cascade divider
to TDC1 and TDC3 for cascade mode [0] = TDC1 driver
enable [1] = TDC3 driver enable ROM=Y, EEPROM=N |
| 4 | PLL2_P1_OUT14_15_EN | R/W | 0x0 | Enable VCO2 P1 divider output driver to
channel output bank OUT14_15 ROM=Y, EEPROM=Y |
| 3 | PLL2_P1_OUT8_13_EN | R/W | 0x0 | Enable VCO2 P1 divider output driver to
channel output bank OUT8_13 ROM=Y, EEPROM=Y |
| 2 | PLL2_P1_OUT4_7_EN | R/W | 0x0 | Enable VCO2 P1 divider output driver to
channel output bank OUT4_7 ROM=Y, EEPROM=Y |
| 1 | PLL2_P1_OUT2_3_EN | R/W | 0x0 | Enable VCO2 P1 divider output driver to
channel output bank OUT2_3 ROM=Y, EEPROM=Y |
| 0 | PLL2_P1_OUT0_1_EN | R/W | 0x0 | Enable VCO2 P1 divider output driver to
channel output bank OUT0_1 ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | PLL2_RDIV_OUTPUT_EN | R/W | 0x0 | If GPIOx_SEL selects PLL2 R/2 as an
output. Then this bit must be set along with
STATUS_MUX_DIV2_EN=1. ROM=N, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL2_VM_INSIDE | R | 0x0 | Denotes if the VCO tuning voltage is
within operational range. ROM=N, EEPROM=N |
| 4 | PLL2_VM_HI | R | 0x0 | Denotes if the charge pump voltage is
too high and outside range. If PLL2_VM_INSIDE = 0
and VM_HI = 0, then charge pump voltage is too low.
ROM=N, EEPROM=N |
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL2_NDIV_OUTPUT_EN | R/W | 0x0 | If GPIOx_SEL selects PLL2 N/2 as an
output. Then this bit must be set along with
STATUS_MUX_DIV2_EN=1. ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL2_VCO_PREBUF_EN | R/W | 0x1 | Set to same value as APLL2_EN. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_CPBAW_BLEED | R/W | 0x22 | PLL charge pump pull-up resistor
selection ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL3_CP_PU_DIS | R/W | 0x1 | PLL charge pump pump-up disable ROM=Y, EEPROM=N |
| 3:0 | PLL3_CPG | R/W | 0x5 | PLL charge pump gain ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL3_LF_R2 | R/W | 0x1 | PLL Loop Filter R2 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL3_LF_R3 | R/W | 0xD | PLL Loop Filter R3 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:0 | PLL3_LF_R4 | R/W | 0xD | PLL Loop Filter R4 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:3 | PLL3_LF_C3 | R/W | 0x7 | PLL Loop Filter C3 setting ROM=Y, EEPROM=N
|
| 2:0 | PLL3_LF_C4 | R/W | 0x7 | PLL Loop Filter C4 setting ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL3_RDIV_8:8 | R/W | 0x0 | See Register 847 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_RDIV | R/W | 0xA | PLL R Divider ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | PLL3_RDIV_XO_EN | R/W | 0x1 | APLL reference source is from XO. Must
also enable XO to drive this APLL with
XO_OUT_BUF_EN[3] = 1 ROM=Y, EEPROM=Y |
| 3 | PLL3_RDIV_XO_DBLR_EN | R/W | 0x1 | Enables XO Doubler ROM=Y, EEPROM=Y |
| 2 | PLL3_RDIV_BYPASS_EN | R/W | 0x1 | Bypass R Divider ROM=Y, EEPROM=Y |
| 1:0 | PLL3_RDIV_MUX_SEL | R/W | 0x0 | Select R Divider input: 0=XO, 1=VCO1
feedback divider, 2=VCO2 feedback divider ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:1 | RESERVED | R | 0x0 | Reserved |
| 0 | PLL3_NDIV_8:8 | R/W | 0x0 | See Register 850 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NDIV | R/W | 0x1A | PLL N Divider ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_MSB | R/W | 0x4C | When PLL3_MODE is set for 24 bit
fractional. PLL3_NUM_MSB is effective
PLL3_NUM[23:16]. Other PLL3_NUM and PLL3_DEN bits in
programmable mode are in PLL3_NUM field. When in
40-bit fixed denominator PLL mode, then PLL3_NUM_MSB
is unused. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_39:32 | R/W | 0xA | See Register 856 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_31:24 | R/W | 0xAA | See Register 856 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_23:16 | R/W | 0xAA | See Register 856 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM_15:8 | R/W | 0xAA | See Register 856 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | PLL3_NUM | R/W | 0xAB | When PLL3_MODE = 1 (40-bit fixed
denominator) mode then PLL3_NUM contains the APLL3
numerator. When PLL3_MODE = 0 (24-bit programmable
denominator) then PLL3_NUM[23:0] stores the
programmable PLL3 denominator and PLL3_NUM[39:24]
stores the 16 LSBs of the PLL3 numerator. Total PLL3
numerator is calculated with PLL3_NUM_MSB as the 8
MSBs. In 24-bit programmable denominator mode
PLL3_NUM[23:0] = 0 is 224. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | PLL3_DTHRMODE | R/W | 0x0 | PLL MASH Dither Mode ROM=Y, EEPROM=N
|
| 3:1 | PLL3_ORDER | R/W | 0x2 | PLL MASH Order ROM=Y, EEPROM=N
|
| 0 | PLL3_MODE | R/W | 0x1 | In APLL 24-bit num/den mode, APLL
denominator is programmable. Recommended not for use
with DPLL mode. In 24-bit mode, the denominator is
stored in PLL3_NUM[23:0] The numerator is stored in
(PLL3_NUM_MSB << 16) + PLL3_NUM[39:24]. In APLL 40-bit mode, APLL denominator is fixed. For use with DPLL. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL3_NUM_STAT_39:32 | R | 0x0 | See Register 862 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL3_NUM_STAT_31:24 | R | 0x0 | See Register 862 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL3_NUM_STAT_23:16 | R | 0x0 | See Register 862 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL3_NUM_STAT_15:8 | R | 0x0 | See Register 862 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | APLL3_NUM_STAT | R | 0x0 | Readback current effective APLL3
Numerator after FDEV and/or DPLL correction ROM=N, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | PLL3_VCO_BUF_OUT_EN | R/W | 0xF | Enables VCO3 to: [0] -> VCO3
Post-divider, [1] -> VCO3 Auxiliary Buffer (TDC1
Reference Clock Buffer, TDC2 Reference Clock Buffer,
APLL1 Reference Clock Buffer, APLL2 Reference Clock
Buffer, Window Monitor), [2] -> APLL3 N-Divider,
[3] -> DPLL3 N-Divider ROM=Y, EEPROM=Y |
| 3 | PLL3_VCO_DIV_SYNC_EN | R/W | 0x1 | PLL3 Divider Sync Enable. Enables
synchronization of post-dividers and reference
dividers for PLL3. ROM=Y, EEPROM=N |
| 2:0 | PLL3_PRI_DIV | R/W | 0x0 | Sets the VCO3 primary divider divide
value from 1 to 8 (div = field value + 1) ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | PLL3_VCO_DIV_SEL | R/W | 0x0 | Selects APLL3 P1 post-divider block or
APLL3 P1 followed by additional divide-by 2 block.
ROM=Y, EEPROM=Y
|
| 5 | PLL3_VCO_CHAN_DRVR_IN_EN | R/W | 0x1 | Enables the selected clock (div1to8 or
div2) to the VCO3 to Outputs Output Buffer. See
PLL3_VCO_DIV1TO8_EN and PLL3_VCO_DIV2_EN.
Optimization to prevent unused domain from
interacting with active domains. Always on if using
PLL3. Might be on to help reduce crosstalk from
APLL3. ROM=Y, EEPROM=Y |
| 4 | PLL3_P1_OUT14_15_EN | R/W | 0x0 | Enable VCO3 P1 divider output driver to
channel output bank OUT14_15 ROM=Y, EEPROM=Y |
| 3 | PLL3_P1_OUT8_13_EN | R/W | 0x0 | Enable VCO3 P1 divider output driver to
channel output bank OUT8_13 ROM=Y, EEPROM=Y |
| 2 | PLL3_P1_OUT4_7_EN | R/W | 0x0 | Enable VCO3 P1 divider output driver to
channel output bank OUT4_7 ROM=Y, EEPROM=Y |
| 1 | PLL3_P1_OUT2_3_EN | R/W | 0x0 | Enable VCO3 P1 divider output driver to
channel output bank OUT2_3 ROM=Y, EEPROM=Y |
| 0 | PLL3_P1_OUT0_1_EN | R/W | 0x0 | Enable VCO3 P1 divider output driver to
channel output bank OUT0_1 ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:3 | PLL3_VCO_BUF_2REF_EN | R/W | 0x3 | Enables the APLL3 Div-by-2 cascade
divider to [0] -> APLL1 and [1] -> APLL2
reference input for cascade mode. ROM=Y, EEPROM=Y |
| 2 | PLL3_WIN_DET_DRVR_EN | R/W | 0x1 | Enables the APLL3 Div-by-2 cascade
divider to reference window detectors input buffer,
ROM=Y, EEPROM=N |
| 1:0 | PLL3_VCO_BUF_FB_TDC_EN | R/W | 0x0 | Enables APLL3 Div-by-4 cascade divider
to TDC1 and TDC2 for cascade mode [0] = TDC1 driver
enable [1] = TDC2 driver enable. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5:4 | RESERVED | R | 0x0 | Reserved |
| 3 | PLL3_RDIV_OUTPUT_EN | R/W | 0x0 | If GPIOx_SEL selects PLL3 R/2 as an
output. Then this bit must be set along with
STATUS_MUX_DIV2_EN=1. ROM=N, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | PLL3_NDIV_OUTPUT_EN | R/W | 0x0 | If GPIOx_SEL selects PLL3 N/2 as an
output. Then this bit must be set along with
STATUS_MUX_DIV2_EN=1. ROM=N, EEPROM=N |
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_0_EN | R/W | 0x1 | OUT0 Enable. If CMOS on OUT0 is used,
this enable must also be set. ROM=Y, EEPROM=Y |
| 5:0 | OUT_0_FMT | R/W | 0x0 | Remix of OUT_0_VOD and OUT_0_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_0_CAP_EN | R/W | 0x0 | If enable, this output capacitor
reduces the slew rate of the output clock. ROM=Y, EEPROM=N |
| 6 | OUT_0_STATIC_LOW | R/W | 0x0 | When OUT0 is forced to a static output,
this bit determines if the output voltage will be
0: Static Low 1: Static High ROM=Y, EEPROM=N
|
| 5 | OUT_0_P_CMOS_EN | R/W | 0x1 | OUT0P CMOS Enable. Overrides the
OUT_0_VOD setting and makes OUT_0 CMOS. Setting this
bit enables of the positive terminal of OUT0 for
CMOS outputs. OUT_0_ENABLE must also be set. ROM=Y, EEPROM=Y |
| 4 | OUT_0_N_CMOS_EN | R/W | 0x1 | OUT0N CMOS Enable. Setting this bit
enables of the negative terminal of OUT0 for CMOS
outputs. OUT_0_ENABLE must also be set. ROM=Y, EEPROM=Y |
| 3 | OUT_0_P_INVERT_POLARITY | R/W | 0x0 | OUT0P CMOS Invert Polarity. Setting
this bit inverts the polarity of the positive
terminal of OUT0 for CMOS outputs. ROM=Y, EEPROM=N |
| 2 | OUT_0_N_INVERT_POLARITY | R/W | 0x0 | OUT0N CMOS Invert Polarity. Setting
this bit inverts the polarity of the negative
terminal of OUT0 for CMOS outputs. ROM=Y, EEPROM=N |
| 1 | OUT_0_P_FORCELOW | R/W | 0x0 | OUT0P CMOS Force Low. Setting this bit
forces the positive terminal of OUT0 low. ROM=Y, EEPROM=N |
| 0 | OUT_0_N_FORCELOW | R/W | 0x0 | OUT0N CMOS Force Low. Setting this bit
forces the negative terminal of OUT0 low. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_CONFIGURATION | R/W | 0x0 | OUT0 configuration. Selects from CH0
Bypass, CH1 Bypass, CHDIV0, CHDIV1, CH0/2 low-noise
divide by two path, SYSREF, SYSREF + Analog Delay,
or static DC H/L. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_1_EN | R/W | 0x1 | OUT1 Enable. If CMOS on OUT1 is used,
this enable must also be set. ROM=Y, EEPROM=Y |
| 5:0 | OUT_1_FMT | R/W | 0x0 | Remix of OUT_1_VOD and OUT_1_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_1_CAP_EN | R/W | 0x1 | ROM=Y, EEPROM=N |
| 6 | OUT_1_STATIC_LOW | R/W | 0x0 | When OUT1 is forced to a static output,
this bit determines if the output voltage will be
0=Static Low or 1=Static High ROM=Y, EEPROM=N
|
| 5 | OUT_1_P_CMOS_EN | R/W | 0x0 | OUT1P CMOS Enable. Setting this bit
enables the positive terminal of OUT1 for CMOS
outputs. ROM=Y, EEPROM=Y |
| 4 | OUT_1_N_CMOS_EN | R/W | 0x0 | OUT1N CMOS Enable. Setting this bit
enables the negative terminal of OUT1 for CMOS
outputs. ROM=Y, EEPROM=Y |
| 3 | OUT_1_P_INVERT_POLARITY | R/W | 0x0 | OUT1P CMOS Invert Polarity. Setting
this bit inverts the polarity of the positive
terminal of OUT1 for CMOS outputs. ROM=Y, EEPROM=N |
| 2 | OUT_1_N_INVERT_POLARITY | R/W | 0x0 | OUT1N CMOS Invert Polarity. Setting
this bit inverts the polarity of the negative
terminal of OUT1 for CMOS outputs. ROM=Y, EEPROM=N |
| 1 | OUT_1_P_FORCELOW | R/W | 0x0 | OUT1P CMOS Force Low. Setting this bit
forces the positive terminal of OUT1 low. ROM=Y, EEPROM=N |
| 0 | OUT_1_N_FORCELOW | R/W | 0x0 | OUT1N CMOS Force Low. Setting this bit
forces the negative terminal of OUT1 low. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_1_CONFIGURATION | R/W | 0x0 | OUT1 configuration. Selects from CH0
Bypass, CH1 Bypass, CHDIV0, CHDIV1, CH0/2 low-noise
divide by two path, SYSREF, SYSREF + Analog Delay,
or static DC H/L. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_0_1_CMOS_OUT_VOLTAGE_SEL | R/W | 0x0 | CMOS LDO Voltage. Selects CMOS LDO
voltage. ROM=Y, EEPROM=Y
|
| 0 | OUT_0_1_CMOS_OUT_LDO_EN | R/W | 0x1 | CMOS LDO Enable. Enables LDO used for
CMOS outputs. Must be enabled for CMOS mode. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:1 | OUT_0_1_ZDM_TDC_SEL | R/W | 0x0 | Select zero delay output to TDC's ROM=Y, EEPROM=N
|
| 0 | OUT_0_1_ZDM_EN | R/W | 0x0 | Enable the output from CH_DIV0_1 to be
used as DPLL feedback input for zero delay mode ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_0_1_DIV_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 5 | OUT_0_1_DIV_SYNC_EN | R/W | 0x1 | OUT0_1 Divider Sync Enable. Enables
synchronization of chandiv and div2 dividers for
OUT0_1. ROM=Y, EEPROM=N |
| 4 | OUT_0_1_SR_DIV_SYNC_EN | R/W | 0x1 | OUT0_1 SYSREF Divider Sync Enable.
Enables synchronization of SYSREF dividers for
OUT0_1. ROM=Y, EEPROM=N |
| 3 | OUT_0_1_CH0_CHAN_POL_SEL | R/W | 0x0 | OUT0_1 Ch0 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 2 | OUT_0_1_CH1_CHAN_POL_SEL | R/W | 0x0 | OUT0_1 Ch1 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 1 | OUT_0_1_CH0_DIV_EN | R/W | 0x1 | OUT0_1 Ch0 ChanDiv Enable. Enables the
Ch0 channel divider. Note: SYSREF/chandiv mode must
be configured separately. ROM=Y, EEPROM=Y |
| 0 | OUT_0_1_CH1_DIV_EN | R/W | 0x1 | OUT0_1 Ch1 ChanDiv Enable. Enables the
Ch1 channel divider. Note: SYSREF/chandiv mode must
be configured separately. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CLK_IN_SEL | R/W | 0x0 | OUT0_1 grouped clock input control to
CH0 and CH1. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_0_1_CH0_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT0_1 Ch0 ChanDiv to SYSREF Input
Clock Select. When set, the Ch0 channel divider
output is inverted before being fed to the SYSREF.
ROM=Y, EEPROM=N
|
| 0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:2 | OUT_0_1_CLK_IN_FANOUT | R/W | 0x0 | OUT0_1 input clock fanout. Distributes
the input clock to the channel dividers and the
standalone divide-by-2s. ROM=Y, EEPROM=Y
|
| 1:0 | OUT_0_1_CLK_IN_SEL_9:8 | R/W | 0x0 | OUT0_1 grouped clock input control to
CH0 and CH1. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH0_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 975 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH0_CH_STATIC_OFFSET | R/W | 0x0 | CH0_CH_DIV static digital delay value.
Delays divider start by specified number of full
clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH1_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 977 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH1_CH_STATIC_OFFSET | R/W | 0x0 | CH1_CH_DIV static digital delay value.
Delays divider start by specified number of full
clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH0_CH_DIV_11:8 | R/W | 0x0 | See Register 979 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH0_CH_DIV | R/W | 0x64 | OUT0_1 Ch0 Channel Divider (ChanDiv)
Divide Value. For this 12-bit divider all bits are
set by ROM, but 8 LSBs may be overwritten by EEPROM
if EEPROM overlay (ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_CH1_CH_DIV_11:8 | R/W | 0x0 | See Register 981 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_CH1_CH_DIV | R/W | 0x19 | OUT0_1 Ch1 Channel Divider (ChanDiv)
Divide Value. For this 12-bit divider all bits are
set by ROM, but 8 LSBs may be overwritten by EEPROM
if EEPROM overlay (ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_0_1_SR_ANA_DELAY | R/W | 0x0 | OUT0_1 SYSREF Analog Delay. Specified
here in multiples of one delay step duration. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_0_1_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT0_1 SYSREF Analog Delay Div By 2
Select. Divides the incoming clock by 2 to double
the delay step size. Useful for increasing analog
delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_0_1_SR_ANA_DELAY_EN | R/W | 0x0 | OUT0_1 SYSREF Analog Delay Enable. ROM=Y, EEPROM=N |
| 3 | OUT_0_1_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT0_1 SYSREF Analog Delay Small Step
Enable. If set to 1, the analog delay generator will
use both rising and falling edges of the incoming
clock to halve delay step size. Useful for when
large pre-divider values have been used. ROM=Y, EEPROM=N |
| 2:0 | OUT_0_1_SR_ANA_DELAY_RANGE | R/W | 0x5 | Analog delay range is set according to
the period entering the SYSREF analog delay block.
The period can be calculated as
(OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) /
(OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / VCO post
divider frequency. Calculated range must fall
between 333 ps and 1050 ps. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_0_1_SR_DDLY | R/W | 0x0 | OUT0_1 SYSREF Digital Delay Value.
Measured in VCO half-cycles. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_0_1_SR_DIV_19:16 | R/W | 0x0 | See Register 987 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_SR_DIV_15:8 | R/W | 0x0 | See Register 987 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_SR_DIV | R/W | 0xFA | OUT0_1 SYSREF Divide Value. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_0_1_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 989 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_0_1_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT_0_1_SR_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider synchronization
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_0_1_SR_REQ_MODE | R/W | 0x0 | OUT0_1 SYSREF Mute Enable ROM=Y, EEPROM=N |
| 6 | OUT_0_1_SR_GPIO_EN | R/W | 0x0 | Enable SYSREF to digital for SYSREF
request resampling, continuous SYSREF, 1-PPS GPIO
output, 1-PPS phase validation. Only one
OUT_x_y_SR_GPIO_EN should be enabled at a time. ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:2 | OUT_0_1_PULSE_COUNT | R/W | 0x0 | OUT0_1 SYSREF Pulse Count. The number
of SYSREF pulses which will be generated by a SYSREF
request. ROM=Y, EEPROM=N |
| 1:0 | OUT_0_1_SR_MODE | R/W | 0x0 | OUT0_1 SYSREF Mode. Selects Pulser
mode, Continuous mode, or None. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_0_1_SR_CH0_DIV_BYPASS | R/W | 0x0 | OUT0_1 cascaded SYSREF bypass mux. If
set, bypasses CHDIV0 for the SYSREF input clock.
Using CHDIV bypass is practical when SYSREF is
required but CHDIV is not used. VCO post divide
frequency must be ≤ 2 GHz to bypass CHDIV. ROM=Y, EEPROM=N
|
| 4:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_2_EN | R/W | 0x1 | OUT2 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_2_FMT | R/W | 0x0 | Remix of OUT_2_VOD and OUT_2_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_2_CAP_EN | R/W | 0x1 | ROM=Y, EEPROM=N |
| 2:0 | OUT_2_CONFIGURATION | R/W | 0x0 | OUT2 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_2_CHAN_POL_SEL | R/W | 0x0 | OUT2 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 6:5 | OUT_2_CLK_MUX | R/W | 0x0 | OUT2 Input Clock Select. Selects the
input clock which will be used to drive the output.
ROM=Y, EEPROM=Y
|
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_2_DIV_EN | R/W | 0x1 | OUT2 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
| 2:0 | OUT_2_CH_MUX_SEL | R/W | 0x7 | OUT2 Clock Enable. Bit 2, if set,
passes the selected VCO1 clock (VCO1P or VCO1S), to
the second stage of clock selection. Bit 1 and Bit0
enable the selected clock to drive the channel
divider and the channel divider retimer
respectively. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_2_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 3 | OUT_2_SYNC_EN | R/W | 0x1 | OUT2 ChanDiv Sync Enable. Enables
synchronization of chandiv dividers for OUT2. ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_2_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1029 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_2_CH_STATIC_OFFSET | R/W | 0x0 | OUT_2_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_2_CH_DIV_11:8 | R/W | 0x0 | See Register 1031 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_2_CH_DIV | R/W | 0x11 | OUT2 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_3_EN | R/W | 0x1 | OUT3 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_3_FMT | R/W | 0x0 | Remix of OUT_3_VOD and OUT_3_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_3_CAP_EN | R/W | 0x1 | ROM=Y, EEPROM=N |
| 2:0 | OUT_3_CONFIGURATION | R/W | 0x0 | OUT3 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_3_CHAN_POL_SEL | R/W | 0x0 | OUT3 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 6:5 | OUT_3_CLK_MUX | R/W | 0x0 | OUT3 Input Clock Select. Selects the
input clock which will be used to drive the output.
ROM=Y, EEPROM=Y
|
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_3_DIV_EN | R/W | 0x1 | OUT3 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
| 2:0 | OUT_3_CH_MUX_SEL | R/W | 0x7 | OUT3 Clock Enable. Bit 2, if set,
passes the selected VCO1 clock (VCO1P or VCO1S), to
the second stage of clock selection. Bit 1 and Bit0
enable the selected clock to drive the channel
divider and the channel divider retimer
respectively. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_3_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 3 | OUT_3_SYNC_EN | R/W | 0x1 | OUT3 ChanDiv Sync Enable. Enables
synchronization of chandiv dividers for OUT3. ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_3_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1061 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_3_CH_STATIC_OFFSET | R/W | 0x0 | OUT_3_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_3_CH_DIV_11:8 | R/W | 0x0 | See Register 1063 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_3_CH_DIV | R/W | 0x11 | OUT3 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:3 | RESERVED | R | 0x0 | Reserved |
| 2:0 | OUT_4_5_SR_ANA_DLY_BIASTRIM | R/W | 0x4 | Channel Analog Delay Bias Trim ROM=N, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_4_EN | R/W | 0x1 | OUT4 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_4_FMT | R/W | 0x0 | Remix of OUT_4_VOD and OUT_4_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_4_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_4_CONFIGURATION | R/W | 0x0 | OUT4 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_5_EN | R/W | 0x1 | OUT5 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_5_FMT | R/W | 0x0 | Remix of OUT_5_VOD and OUT_5_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_5_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_5_CONFIGURATION | R/W | 0x0 | OUT5 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_4_5_DIV_SYNC_EN | R/W | 0x1 | OUT4_5 Divider Sync Enable. Enables
synchronization of chandiv dividers for OUT4_5. ROM=Y, EEPROM=N |
| 4 | OUT_4_5_SR_DIV_SYNC_EN | R/W | 0x1 | OUT4_5 SYSREF Divider Sync Enable.
Enables synchronization of SYSREF dividers for
OUT4_5. ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_4_5_CHAN_POL_SEL | R/W | 0x0 | OUT4_5 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 0 | OUT_4_5_DIV_EN | R/W | 0x1 | OUT4_5 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_4_5_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 6 | OUT_4_5_ZDM_EN | R/W | 0x0 | OUT4_5 zero delay output enable ROM=Y, EEPROM=N |
| 5 | OUT_4_5_CLK_IN_SEL | R/W | 0x0 | OUT4_5 Input Clock Select. Selects the
input clock which will be used to drive the output:
0 = VCO2, 1 = VCO3 ROM=Y, EEPROM=Y
|
| 4 | OUT_4_5_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT4_5 ChanDiv to SYSREF Clock Select.
When set, the channel divider output is inverted
before being fed to the SYSREF. ROM=Y, EEPROM=N |
| 3:0 | OUT_4_5_CH_MUX_SEL | R/W | 0x3 | OUT4_5 Input Clock Enable. Enables the
selected clock to various inputs: [0] -> ChanDiv,
[1] -> ChanDiv Retimer, [2] -> Div2 to OUT4,
[3] -> Div2 to OUT5 ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_4_5_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1096 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_CH_STATIC_OFFSET | R/W | 0x0 | OUT_4_5_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_4_5_CH_DIV_11:8 | R/W | 0x0 | See Register 1098 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_CH_DIV | R/W | 0x3 | OUT4_5 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_4_5_SR_ANA_DELAY | R/W | 0x0 | OUT4_5 SYSREF Analog Delay. Specified
here in multiples of one delay step duration. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_4_5_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT4_5 SYSREF Analog Delay Div By 2
Select. Divides the incoming clock by 2 to double
the delay step size. Useful for increasing analog
delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_4_5_SR_ANA_DELAY_EN | R/W | 0x0 | OUT4_5 SYSREF Analog Delay Enable.
Enables the analog delay generator. Set to a 0 to
save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_4_5_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT4_5 SYSREF Analog Delay Small Step
Enable. If set to 1, the analog delay generator will
use both rising and falling edges of the incoming
clock to halve delay step size. Useful for when
large pre-divider values have been used. ROM=Y, EEPROM=N |
| 2:0 | OUT_4_5_SR_ANA_DELAY_RANGE | R/W | 0x5 | Analog delay range is set according to
the period entering the SYSREF analog delay block.
The period can be calculated as
(OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) /
(OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / VCO post
divider frequency. Calculated range must fall
between 333 ps and 1050 ps. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_4_5_SR_DDLY | R/W | 0x0 | OUT4_5 SYSREF Digital Delay Value.
Measured in VCO half-cycles. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_4_5_SR_DIV_19:16 | R/W | 0x0 | See Register 1104 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_SR_DIV_15:8 | R/W | 0x0 | See Register 1104 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_SR_DIV | R/W | 0xFA | OUT4_5 SYSREF Divide Value. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_4_5_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1106 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_4_5_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT_4_5_SR_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider synchronization
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_4_5_SR_REQ_MODE | R/W | 0x0 | OUT4_5 SYSREF Mute Enable ROM=Y, EEPROM=N |
| 5:3 | OUT_4_5_PULSE_COUNT | R/W | 0x0 | OUT4_5 SYSREF Pulse Count. The number
of SYSREF pulses which will be generated by a SYSREF
request. ROM=Y, EEPROM=N |
| 2 | OUT_4_5_SR_GPIO_EN | R/W | 0x0 | Enables SYSREF to digital for SYSREF
request resampling, continuous SYSREF, or 1-PPS GPIO
output. Only one OUT_x_y_SR_GPIO_EN should be
enabled at a time. ROM=Y, EEPROM=N |
| 1:0 | OUT_4_5_SR_MODE | R/W | 0x0 | OUT4_5 SYSREF Mode. When these bits are
set, the SYSREF operates in Continuous Mode. When
cleared, the SYSREF operates in Pulse Mode. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_4_5_SR_CH_DIV_BYPASS | R/W | 0x1 | OUT4_5 cascaded SYSREF bypass mux. If
set, bypasses OUT4_5 channel divider for the SYSREF
input clock. Using CHDIV bypass is practical when
SYSREF is required but CHDIV is not used. VCO post
divide frequency must be ≤ 2 GHz to bypass CHDIV.
ROM=Y, EEPROM=N
|
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_6_EN | R/W | 0x1 | OUT6 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_6_FMT | R/W | 0x0 | Remix of OUT_6_VOD and OUT_6_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_6_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_6_CONFIGURATION | R/W | 0x0 | OUT6 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_7_EN | R/W | 0x1 | OUT7 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_7_FMT | R/W | 0x0 | Remix of OUT_7_VOD and OUT_7_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_7_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_7_CONFIGURATION | R/W | 0x0 | OUT7 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_6_7_DIV_SYNC_EN | R/W | 0x1 | OUT6_7 Divider Sync Enable. Enables
synchronization of chandiv dividers for OUT6_7. ROM=Y, EEPROM=N |
| 4 | OUT_6_7_SR_DIV_SYNC_EN | R/W | 0x1 | OUT6_7 SYSREF Divider Sync Enable.
Enables synchronization of SYSREF dividers for
OUT6_7. ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_6_7_CHAN_POL_SEL | R/W | 0x0 | OUT6_7 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 0 | OUT_6_7_DIV_EN | R/W | 0x1 | OUT6_7 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_6_7_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_6_7_CLK_IN_SEL | R/W | 0x0 | OUT6_7 Input Clock Select. Selects the
input clock which will be used to drive the output:
0 = VCO2, 1 = VCO3 ROM=Y, EEPROM=Y
|
| 4 | OUT_6_7_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT6_7 ChanDiv to SYSREF Clock Select.
When set, the channel divider output is inverted
before being fed to the SYSREF. ROM=Y, EEPROM=N |
| 3:0 | OUT_6_7_CH_MUX_SEL | R/W | 0x3 | OUT6_7 Input Clock Enable. Enables the
selected clock to various inputs: [0] -> ChanDiv,
[1] -> ChanDiv Retimer, [2] -> Div2 to OUT6,
[3] -> Div2 to OUT7 ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_6_7_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1128 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_CH_STATIC_OFFSET | R/W | 0x0 | OUT_6_7_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_6_7_CH_DIV_11:8 | R/W | 0x0 | See Register 1130 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_CH_DIV | R/W | 0x3 | OUT6_7 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_6_7_SR_ANA_DELAY | R/W | 0x0 | OUT6_7 SYSREF Analog Delay. Specified
here in multiples of one delay step duration. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_6_7_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT6_7 SYSREF Analog Delay Div By 2
Select. Divides the incoming clock by 2 to double
the delay step size. Useful for increasing analog
delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_6_7_SR_ANA_DELAY_EN | R/W | 0x0 | OUT6_7 SYSREF Analog Delay Enable.
Enables the analog delay generator. Set to a 0 to
save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_6_7_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT6_7 SYSREF Analog Delay Small Step
Enable. If set to 1, the analog delay generator will
use both rising and falling edges of the incoming
clock to halve delay step size. Useful for when
large pre-divider values have been used. ROM=Y, EEPROM=N |
| 2:0 | OUT_6_7_SR_ANA_DELAY_RANGE | R/W | 0x5 | Analog delay range is set according to
the period entering the SYSREF analog delay block.
The period can be calculated as
(OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) /
(OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / VCO post
divider frequency. Calculated range must fall
between 333 ps and 1050 ps. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_6_7_SR_DDLY | R/W | 0x0 | OUT6_7 SYSREF Digital Delay Value.
Measured in VCO half-cycles. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_6_7_SR_DIV_19:16 | R/W | 0x0 | See Register 1136 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_SR_DIV_15:8 | R/W | 0x0 | See Register 1136 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_SR_DIV | R/W | 0xFA | OUT6_7 SYSREF Divide Value. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_6_7_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1138 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_6_7_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT_6_7_SR_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider synchronization
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_6_7_SR_REQ_MODE | R/W | 0x0 | OUT6_7 SYSREF Mute Enable ROM=Y, EEPROM=N |
| 5:3 | OUT_6_7_PULSE_COUNT | R/W | 0x0 | OUT6_7 SYSREF Pulse Count. The number
of SYSREF pulses which will be generated by a SYSREF
request. ROM=Y, EEPROM=N |
| 2 | OUT_6_7_SR_GPIO_EN | R/W | 0x0 | Enables SYSREF to digital for SYSREF
request resampling, continuous SYSREF, or 1-PPS GPIO
output. Only one OUT_x_y_SR_GPIO_EN should be
enabled at a time. ROM=Y, EEPROM=N |
| 1:0 | OUT_6_7_SR_MODE | R/W | 0x0 | OUT6_7 SYSREF Mode. When these bits are
set, the SYSREF operates in Continuous Mode. When
cleared, the SYSREF operates in PULSE MODE. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_6_7_SR_CH_DIV_BYPASS | R/W | 0x1 | OUT6_7 cascaded SYSREF bypass mux. If
set, bypasses OUT6_7 channel divider for the SYSREF
input clock. Using CHDIV bypass is practical when
SYSREF is required but CHDIV is not used. VCO post
divide frequency must be ≤ 2 GHz to bypass CHDIV.
ROM=Y, EEPROM=N
|
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_8_EN | R/W | 0x1 | OUT8 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_8_FMT | R/W | 0x0 | Remix of OUT_8_VOD and OUT_8_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_8_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_8_CONFIGURATION | R/W | 0x0 | OUT8 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_9_EN | R/W | 0x1 | OUT9 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_9_FMT | R/W | 0x0 | Remix of OUT_9_VOD and OUT_9_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_9_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_9_CONFIGURATION | R/W | 0x0 | OUT9 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_8_9_DIV_SYNC_EN | R/W | 0x1 | OUT8_9 Divider Sync Enable. Enables
synchronization of chandiv dividers for OUT8_9. ROM=Y, EEPROM=N |
| 4 | OUT_8_9_SR_DIV_SYNC_EN | R/W | 0x1 | OUT8_9 SYSREF Divider Sync Enable.
Enables synchronization of SYSREF dividers for
OUT8_9. ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_8_9_CHAN_POL_SEL | R/W | 0x0 | OUT8_9 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 0 | OUT_8_9_DIV_EN | R/W | 0x1 | OUT8_9 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_8_9_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_8_9_CLK_IN_SEL | R/W | 0x1 | OUT8_9 Input Clock Select. Selects the
input clock which will be used to drive the output:
0 = VCO2, 1 = VCO3 ROM=Y, EEPROM=Y
|
| 4 | OUT_8_9_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT8_9 ChanDiv to SYSREF Clock Select.
When set, the channel divider output is inverted
before being fed to the SYSREF. ROM=Y, EEPROM=N |
| 3:0 | OUT_8_9_CH_MUX_SEL | R/W | 0x3 | OUT8_9 Input Clock Enable. Enables the
selected clock to various inputs: [0] -> ChanDiv,
[1] -> ChanDiv Retimer, [2] -> Div2 to OUT8,
[3] -> Div2 to OUT9 ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_8_9_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1160 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_CH_STATIC_OFFSET | R/W | 0x0 | OUT_8_9_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_8_9_CH_DIV_11:8 | R/W | 0x0 | See Register 1162 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_CH_DIV | R/W | 0x10 | OUT8_9 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_8_9_SR_ANA_DELAY | R/W | 0x0 | OUT8_9 SYSREF Analog Delay. Specified
here in multiples of one delay step duration. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_8_9_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT8_9 SYSREF Analog Delay Div By 2
Select. Divides the incoming clock by 2 to double
the delay step size. Useful for increasing analog
delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_8_9_SR_ANA_DELAY_EN | R/W | 0x0 | OUT8_9 SYSREF Analog Delay Enable.
Enables the analog delay generator. Set to a 0 to
save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_8_9_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT8_9 SYSREF Analog Delay Small Step
Enable. If set to 1, the analog delay generator will
use both rising and falling edges of the incoming
clock to halve delay step size. Useful for when
large pre-divider values have been used. ROM=Y, EEPROM=N |
| 2:0 | OUT_8_9_SR_ANA_DELAY_RANGE | R/W | 0x5 | Analog delay range is set according to
the period entering the SYSREF analog delay block.
The period can be calculated as
(OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) /
(OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / VCO post
divider frequency. Calculated range must fall
between 333 ps and 1050 ps. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_8_9_SR_DDLY | R/W | 0x0 | OUT8_9 SYSREF Digital Delay Value.
Measured in VCO half-cycles. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_8_9_SR_DIV_19:16 | R/W | 0x0 | See Register 1168 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_SR_DIV_15:8 | R/W | 0x0 | See Register 1168 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_SR_DIV | R/W | 0xFA | OUT8_9 SYSREF Divide Value. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_8_9_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1170 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_8_9_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT_8_9_SR_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider synchronization
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_8_9_SR_REQ_MODE | R/W | 0x0 | OUT8_9 SYSREF Mute Enable ROM=Y, EEPROM=N |
| 5:3 | OUT_8_9_PULSE_COUNT | R/W | 0x0 | OUT8_9 SYSREF Pulse Count. The number
of SYSREF pulses which will be generated by a SYSREF
request. ROM=Y, EEPROM=N |
| 2 | OUT_8_9_SR_GPIO_EN | R/W | 0x0 | Enables SYSREF to digital for SYSREF
request resampling, continuous SYSREF, or 1-PPS GPIO
output. Only one OUT_x_y_SR_GPIO_EN should be
enabled at a time. ROM=Y, EEPROM=N |
| 1:0 | OUT_8_9_SR_MODE | R/W | 0x0 | OUT8_9 SYSREF Mode. When these bits are
set, the SYSREF operates in Continuous Mode. When
cleared, the SYSREF operates in PULSE MODE. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_10_EN | R/W | 0x1 | OUT10 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_10_FMT | R/W | 0x0 | Remix of OUT_10_VOD and OUT_10_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_10_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_10_CONFIGURATION | R/W | 0x0 | OUT10 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_11_EN | R/W | 0x1 | OUT11 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_11_FMT | R/W | 0x0 | Remix of OUT_11_VOD and OUT_11_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_11_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_11_CONFIGURATION | R/W | 0x0 | OUT11 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_10_11_DIV_SYNC_EN | R/W | 0x1 | OUT10_11 Divider Sync Enable. Enables
synchronization of chandiv dividers for OUT10_11.
ROM=Y, EEPROM=N |
| 4 | OUT_10_11_SR_DIV_SYNC_EN | R/W | 0x1 | OUT10_11 SYSREF Divider Sync Enable.
Enables synchronization of SYSREF dividers for
OUT10_11. ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_10_11_CHAN_POL_SEL | R/W | 0x0 | OUT10_11 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 0 | OUT_10_11_DIV_EN | R/W | 0x1 | OUT10_11 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_10_11_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 6 | OUT_10_11_ZDM_EN | R/W | 0x0 | OUT10_11 zero delay output enable. ROM=Y, EEPROM=N |
| 5 | OUT_10_11_CLK_IN_SEL | R/W | 0x1 | OUT10_11 Input Clock Select. Selects
the input clock which will be used to drive the
output: 0 = VCO2, 1 = VCO3 ROM=Y, EEPROM=Y
|
| 4 | OUT_10_11_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT10_11 ChanDiv to SYSREF Clock
Select. When set, the channel divider output is
inverted before being fed to the SYSREF. ROM=Y, EEPROM=N |
| 3:0 | OUT_10_11_CH_MUX_SEL | R/W | 0x3 | OUT10_11 Input Clock Enable. Enables
the selected clock to various inputs: [0] ->
ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2
to OUT10, [3] -> Div2 to OUT11 ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_10_11_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1192 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_CH_STATIC_OFFSET | R/W | 0x0 | OUT_10_11_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_10_11_CH_DIV_11:8 | R/W | 0x0 | See Register 1194 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_CH_DIV | R/W | 0x10 | OUT10_11 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_10_11_SR_ANA_DELAY | R/W | 0x0 | OUT10_11 SYSREF Analog Delay. Specified
here in multiples of one delay step duration. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_10_11_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT10_11 SYSREF Analog Delay Div By 2
Select. Divides the incoming clock by 2 to double
the delay step size. Useful for increasing analog
delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_10_11_SR_ANA_DELAY_EN | R/W | 0x0 | OUT10_11 SYSREF Analog Delay Enable.
Enables the analog delay generator. Set to a 0 to
save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_10_11_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT10_11 SYSREF Analog Delay Small Step
Enable. If set to 1, the analog delay generator will
use both rising and falling edges of the incoming
clock to halve delay step size. Useful for when
large pre-divider values have been used. ROM=Y, EEPROM=N |
| 2:0 | OUT_10_11_SR_ANA_DELAY_RANGE | R/W | 0x5 | Analog delay range is set according to
the period entering the SYSREF analog delay block.
The period can be calculated as
(OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) /
(OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / VCO post
divider frequency. Calculated range must fall
between 333 ps and 1050 ps. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_10_11_SR_DDLY | R/W | 0x0 | OUT10_11 SYSREF Digital Delay Value.
Measured in VCO half-cycles. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_10_11_SR_DIV_19:16 | R/W | 0x0 | See Register 1200 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_SR_DIV_15:8 | R/W | 0x0 | See Register 1200 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_SR_DIV | R/W | 0xFA | OUT10_11 SYSREF Divide Value. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_10_11_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1202 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_10_11_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT_10_11_SR_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider synchronization
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_10_11_SR_REQ_MODE | R/W | 0x0 | OUT10_11 SYSREF Mute Enable ROM=Y, EEPROM=N |
| 5:3 | OUT_10_11_PULSE_COUNT | R/W | 0x0 | OUT10_11 SYSREF Pulse Count. The number
of SYSREF pulses which will be generated by a SYSREF
request. ROM=Y, EEPROM=N |
| 2 | OUT_10_11_SR_GPIO_EN | R/W | 0x0 | Enables SYSREF to digital for SYSREF
request resampling, continuous SYSREF, or 1-PPS GPIO
output. Only one OUT_x_y_SR_GPIO_EN should be
enabled at a time. ROM=Y, EEPROM=N |
| 1:0 | OUT_10_11_SR_MODE | R/W | 0x0 | OUT10_11 SYSREF Mode. When these bits
are set, the SYSREF operates in Continuous Mode.
When cleared, the SYSREF operates in PULSE MODE. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_10_11_SR_CH_DIV_BYPASS | R/W | 0x1 | OUT10_11 cascaded SYSREF bypass mux. If
set, bypasses OUT10_11 channel divider for the
SYSREF input clock. Using CHDIV bypass is practical
when SYSREF is required but CHDIV is not used. VCO
post divide frequency must be ≤ 2 GHz to bypass
CHDIV. ROM=Y, EEPROM=N
|
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_12_EN | R/W | 0x1 | OUT12 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_12_FMT | R/W | 0x0 | Remix of OUT_12_VOD and OUT_12_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_12_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_12_CONFIGURATION | R/W | 0x0 | OUT12 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_13_EN | R/W | 0x1 | OUT13 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_13_FMT | R/W | 0x0 | Remix of OUT_13_VOD and OUT_13_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_13_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_13_CONFIGURATION | R/W | 0x0 | OUT13 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_12_13_DIV_SYNC_EN | R/W | 0x1 | OUT12_13 Divider Sync Enable. Enables
synchronization of chandiv dividers for OUT12_13.
ROM=Y, EEPROM=N |
| 4 | OUT_12_13_SR_DIV_SYNC_EN | R/W | 0x1 | OUT12_13 SYSREF Divider Sync Enable.
Enables synchronization of SYSREF dividers for
OUT12_13. ROM=Y, EEPROM=N |
| 3:2 | RESERVED | R | 0x0 | Reserved |
| 1 | OUT_12_13_CHAN_POL_SEL | R/W | 0x0 | OUT12_13 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 0 | OUT_12_13_DIV_EN | R/W | 0x1 | OUT12_13 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_12_13_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_12_13_CLK_IN_SEL | R/W | 0x1 | OUT12_13 Input Clock Select. Selects
the input clock which will be used to drive the
output. For crosstlak performance OUT8 to OUT13
should select the same VCO souce: 0 = VCO2, 1 =
VCO3. ROM=Y, EEPROM=Y
|
| 4 | OUT_12_13_CH_DIV_SR_MUX_CLK_SEL | R/W | 0x0 | OUT12_13 ChanDiv to SYSREF Clock
Select. When set, the channel divider output is
inverted before being fed to the SYSREF. ROM=Y, EEPROM=N |
| 3:0 | OUT_12_13_CH_MUX_SEL | R/W | 0x3 | OUT12_13 Input Clock Enable. Enables
the selected clock to various inputs: [0] ->
ChanDiv, [1] -> ChanDiv Retimer, [2] -> Div2
to OUT12, [3] -> Div2 to OUT13 ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_12_13_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1224 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_CH_STATIC_OFFSET | R/W | 0x0 | OUT_12_13_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_12_13_CH_DIV_11:8 | R/W | 0x0 | See Register 1226 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_CH_DIV | R/W | 0x8 | OUT12_13 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_12_13_SR_ANA_DELAY | R/W | 0x0 | OUT12_13 SYSREF Analog Delay. Specified
here in multiples of one delay step duration. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:6 | RESERVED | R | 0x0 | Reserved |
| 5 | OUT_12_13_SR_ANA_DELAY_DIV2_SEL | R/W | 0x0 | OUT12_13 SYSREF Analog Delay Div By 2
Select. Divides the incoming clock by 2 to double
the delay step size. Useful for increasing analog
delay range, given high incoming clock frequencies.
ROM=Y, EEPROM=N |
| 4 | OUT_12_13_SR_ANA_DELAY_EN | R/W | 0x0 | OUT12_13 SYSREF Analog Delay Enable.
Enables the analog delay generator. Set to a 0 to
save power if analog delay generator is not needed.
ROM=Y, EEPROM=N |
| 3 | OUT_12_13_SR_ANA_DELAY_SMALL_STEP_EN | R/W | 0x0 | OUT12_13 SYSREF Analog Delay Small Step
Enable. If set to 1, the analog delay generator will
use both rising and falling edges of the incoming
clock to halve delay step size. Useful for when
large pre-divider values have been used. ROM=Y, EEPROM=N |
| 2:0 | OUT_12_13_SR_ANA_DELAY_RANGE | R/W | 0x5 | Analog delay range is set according to
the period entering the SYSREF analog delay block.
The period can be calculated as
(OUT_x_y_SR_ANA_DELAY_DIV2_SEL + 1) /
(OUT_x_y_SR_ANA_DELAY_SMALL_STEP_EN + 1) / VCO post
divider frequency. Calculated range must fall
between 333 ps and 1050 ps. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4:0 | OUT_12_13_SR_DDLY | R/W | 0x0 | OUT12_13 SYSREF Digital Delay Value.
Measured in VCO half-cycles. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_12_13_SR_DIV_19:16 | R/W | 0x0 | See Register 1232 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_SR_DIV_15:8 | R/W | 0x0 | See Register 1232 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_SR_DIV | R/W | 0xFA | OUT12_13 SYSREF Divide Value. ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:0 | OUT_12_13_SR_DIV_STATIC_OFFSET_14:8 | R/W | 0x0 | See Register 1234 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_12_13_SR_DIV_STATIC_OFFSET | R/W | 0x0 | OUT_12_13_SR_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider synchronization
ROM=Y, EEPROM=N |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_12_13_SR_REQ_MODE | R/W | 0x0 | OUT12_13 SYSREF Mute Enable ROM=Y, EEPROM=N |
| 5:3 | OUT_12_13_PULSE_COUNT | R/W | 0x0 | OUT12_13 SYSREF Pulse Count. The number
of SYSREF pulses which will be generated by a SYSREF
request. ROM=Y, EEPROM=N |
| 2 | OUT_12_13_SR_GPIO_EN | R/W | 0x0 | Enables SYSREF to digital for SYSREF
request resampling, continuous SYSREF, or 1-PPS GPIO
output. Only one OUT_x_y_SR_GPIO_EN should be
enabled at a time. ROM=Y, EEPROM=N |
| 1:0 | OUT_12_13_SR_MODE | R/W | 0x0 | OUT12_13 SYSREF Mode. When these bits
are set, the SYSREF operates in Continuous Mode.
When cleared, the SYSREF operates in PULSE MODE. ROM=Y, EEPROM=N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_12_13_SR_CH_DIV_BYPASS | R/W | 0x1 | OUT12_13 cascaded SYSREF bypass mux. If
set, bypasses OUT12_13 channel divider for the
SYSREF input clock. Using CHDIV bypass is practical
when SYSREF is required but CHDIV is not used. VCO
post divide frequency must be ≤ 2 GHz to bypass
CHDIV. ROM=Y, EEPROM=N
|
| 3:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_14_EN | R/W | 0x1 | OUT14 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_14_FMT | R/W | 0x0 | Remix of OUT_14_VOD and OUT_14_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_14_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 2:0 | OUT_14_CONFIGURATION | R/W | 0x0 | OUT14 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_14_CHAN_POL_SEL | R/W | 0x0 | OUT14 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 6:5 | OUT_14_CLK_MUX | R/W | 0x0 | OUT14 Input Clock Select. Selects the
input clock which will be used to drive the output.
ROM=Y, EEPROM=Y
|
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_14_DIV_EN | R/W | 0x1 | OUT14 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
| 2:0 | OUT_14_CH_MUX_SEL | R/W | 0x7 | OUT14 Clock Enable. Bit 2, if set,
passes the selected clock (VCO3 or VCO1P), to the
second stage of clock selection. Bit 1 and Bit0
enable the selected clock to drive the channel
divider and the channel divider retimer
respectively. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_14_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 3 | OUT_14_SYNC_EN | R/W | 0x1 | OUT14 ChanDiv Sync Enable. Enables
synchronization of chandiv dividers for OUT14. ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_14_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1253 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_14_CH_STATIC_OFFSET | R/W | 0x0 | OUT_14_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_14_CH_DIV_11:8 | R/W | 0x0 | See Register 1255 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_14_CH_DIV | R/W | 0x19 | OUT14 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | RESERVED | R | 0x0 | Reserved |
| 6 | OUT_15_EN | R/W | 0x1 | OUT15 Enable. ROM=Y, EEPROM=Y |
| 5:0 | OUT_15_FMT | R/W | 0x0 | Remix of OUT_15_VOD and OUT_15_VOS to
display datasheet specified settings availible to
user. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_15_CAP_EN | R/W | 0x0 | ROM=Y, EEPROM=N |
| 2:0 | OUT_15_CONFIGURATION | R/W | 0x0 | OUT15 configuration. ROM=Y, EEPROM=Y and N
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7 | OUT_15_CHAN_POL_SEL | R/W | 0x0 | OUT15 ChanDiv Polarity Select. This bit flips the polarity of the clock into SYSREF and the polarity of the clock into the channel divider. |
| 6:5 | OUT_15_CLK_MUX | R/W | 0x0 | OUT15 Input Clock Select. Selects the
input clock which will be used to drive the output.
ROM=Y, EEPROM=Y
|
| 4 | RESERVED | R | 0x0 | Reserved |
| 3 | OUT_15_DIV_EN | R/W | 0x1 | OUT15 ChanDiv Enable. Enables the
channel divider. Note: SYSREF/chandiv mode must be
configured separately. ROM=Y, EEPROM=Y |
| 2:0 | OUT_15_CH_MUX_SEL | R/W | 0x7 | OUT15 Clock Enable. Bit 2, if set,
passes the selected VCO1 clock (VCO1P or VCO1S), to
the second stage of clock selection. Bit 1 and Bit0
enable the selected clock to drive the channel
divider and the channel divider retimer
respectively. ROM=Y, EEPROM=Y
|
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:5 | RESERVED | R | 0x0 | Reserved |
| 4 | OUT_15_MUTE_EN | R/W | 0x0 | Mute enable. ROM=Y, EEPROM=N |
| 3 | OUT_15_SYNC_EN | R/W | 0x1 | OUT15 ChanDiv Sync Enable. Enables
synchronization of chandiv dividers for OUT15. ROM=Y, EEPROM=N |
| 2:0 | RESERVED | R | 0x0 | Reserved |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_15_CH_STATIC_OFFSET_11:8 | R/W | 0x0 | See Register 1285 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_15_CH_STATIC_OFFSET | R/W | 0x0 | OUT_15_CH_DIV static digital delay
value. Delays divider start by specified number of
full clock cycles of divider input. This results in
specified digital delay upon divider
synchronization. Lower 8 bits are stored in EEPROM.
ROM=Y, EEPROM=Y |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:4 | RESERVED | R | 0x0 | Reserved |
| 3:0 | OUT_15_CH_DIV_11:8 | R/W | 0x0 | See Register 1287 |
Return to the Summary Table.
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 7:0 | OUT_15_CH_DIV | R/W | 0x19 | OUT15 ChanDiv Divide Value. For this
12-bit divider all bits are set by ROM, but 8 LSBs
may be overwritten by EEPROM if EEPROM overlay
(ROM_PLUS_EE=1) is enabled. ROM=Y, EEPROM=Y |