SLLSE81A March 2011 – March 2016 SN75LVCP600S
PRODUCTION DATA.
MIN | MAX | UNIT | ||
---|---|---|---|---|
Supply voltage (2) | VCC | –0.5 | 4 | V |
Voltage | Differential I/O | –0.5 | 4 | V |
Control I/O | –0.5 | VCC + 0.5 | V | |
Continuous power dissipation | See Thermal Information Table | |||
Storage temperature, TA | –65 | 150 | °C |
VALUE | UNIT | |||
---|---|---|---|---|
V(ESD) | Electrostatic discharge | Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1) | ±9000 | V |
Charged-device model (CDM), per JEDEC specification JESD22-C101(2) | ±1500 | |||
Machine model (MM) | ±200 |
PARAMETER | MIN | NOM | MAX | UNITS | ||
---|---|---|---|---|---|---|
VCC | Supply voltage | 3 | 3.3 | 3.6 | V | |
CCOUPLING | Coupling capacitor | 12 | nF | |||
TA | Operating free-air temperature | –40 | 85 | °C |
THERMAL METRIC(1) | SN75LVCP600S | UNIT | |
---|---|---|---|
DSK (SON) | |||
10 PINS | |||
RθJA | Junction-to-ambient thermal resistance | 55.7 | °C/W |
RθJC(top) | Junction-to-case (top) thermal resistance | 61.9 | °C/W |
RθJB | Junction-to-board thermal resistance | 29.2 | °C/W |
ψJT | Junction-to-top characterization parameter | 1.0 | °C/W |
ψJB | Junction-to-board characterization parameter | 29.3 | °C/W |
RθJC(bot) | Junction-to-case (bottom) thermal resistance | 9.4 | °C/W |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
DEVICE PARAMETERS | ||||||
ICCMax | Active mode supply current | MODE/EQ/DE/SQ_TH = NC, K28.5 pattern at 6 Gbps, VID = 700 mVpp, (SATA mode) |
29 | 41 | mA | |
MODE/EQ/DE/SQ_TH = VCC, K28.5 pattern at 6 Gbps, VID = 700 mVpp, (SAS mode) |
32 | 45 | ||||
ICCPS | Auto power-save mode ICC | When auto low-power conditions are met | 3.3 | 5 | mA | |
Maximum data rate | 6 | Gbps | ||||
OOB | ||||||
VOOB_SAS | Input OOB threshold (output squelched below this level) | f = 750MHz; SQ_TH=0, MODE = 1, measured at receiver pin |
88 | 112 | 131 | mVpp |
f = 750MHz; SQ_TH=1, MODE = 1, measured at receiver pin |
67 | 85 | 100 | |||
VOOB_SATA | Input OOB threshold (output squelched below this level) | f = 750MHz; SQ_TH=0, MODE = 0, measured at receiver pin |
40 | 66 | 86 | |
f = 750MHz; SQ_TH=1, MODE = 0, measured at receiver pin |
35 | 56 | 72 | |||
DVdiffOOB | OOB differential delta | 25 | mV | |||
DVCMOOB | OOB common-mode delta | 50 | mV | |||
CONTROL LOGIC | ||||||
VIH | High-level input voltage | For all control pins | 1.4 | V | ||
VIL | Low-level input voltage | 0.5 | V | |||
VINHYS | Input hysteresis | 115 | mV | |||
IIH | High-level input current | MODE, SQ_TH = VCC | 30 | μA | ||
EQ, DE = VCC | 20 | |||||
IIL | Low-level input current | MODE, SQ_TH = GND | –30 | |||
EQ, DE = GND | –10 | |||||
RECEIVER AC/DC | ||||||
ZDIFFRX | Differential input impedance | 85 | 100 | 115 | Ω | |
ZSERX | Single-ended input impedance | 40 | Ω | |||
VCMRX | Common-mode voltage | 1.7 | V | |||
RLDiffRX | Differential mode return loss (RL) | f = 150 MHz–300 MHz | 18 | 26 | dB | |
f = 300 MHz–600 MHz | 14 | 23 | ||||
f = 600 MHz–1.2 GHz | 10 | 17 | ||||
f = 1.2 GHz–2.4 GHz | 8 | 14 | ||||
f = 2.4 GHz–3 GHz | 3 | 13 | ||||
RXDiffRLSlope | Differential mode RL slope | f = 300 MHz–6 GHz | –13 | dB/dec | ||
RLCMRX | Common-mode return loss | f = 150 MHz–300 MHz | 5 | 10 | dB | |
f = 300 MHz–600 MHz | 5 | 18 | ||||
f = 600 MHz–1.2 GHz | 2 | 16 | ||||
f = 1.2 GHz–2.4 GHz | 1 | 12 | ||||
f = 2.4 GHz–3 GHz | 1 | 12 | ||||
VdiffRX | Differential input voltage PP | MODE = 1, f = 1.5 GHz and 3 GHz | 275 | 1600 | mVpp | |
MODE = 0, f = 1.5 GHz and 3 GHz | 225 | 1600 | ||||
IBRX | Impedance balance | f = 150 MHz–300 MHz | 30 | 47 | dB | |
f = 300 MHz–600 MHz | 30 | 40 | ||||
f = 600 MHz–1.2 GHz | 20 | 34 | ||||
f = 1.2 GHz–2.4 GHz | 10 | 28 | ||||
f = 2.4 GHz–3. GHz | 10 | 24 | ||||
f = 3 GHz–5 GHz | 4 | 22 | ||||
f = 5 GHz–6.5 GHz | 4 | 22 | ||||
TRANSMITTER AC/DC | ||||||
ZdiffTX | Pair differential impedance | 85 | 100 | 122 | Ω | |
ZSETX | Single-ended input impedance | 40 | Ω | |||
VTXtrans | Sequencing transient voltage | Transient voltages on the serial data bus during power sequencing (lab load) | –1.2 | 0 | 1.2 | V |
RLDiffTX | Differential mode return loss | f = 150 MHz–300 MHz | 13 | 22 | dB | |
f = 300 MHz–600 MHz | 8 | 21 | ||||
f = 600 MHz–1.2 GHz | 6 | 20 | ||||
f = 1.2 GHz–2.4 GHz | 6 | 17 | ||||
f = 2.4 GHz–3 GHz | 3 | 17 | ||||
TXDiffRLSlope | Differential-mode RL slope | f = 300 MHz–3 GHz | –13 | dB/dec | ||
RLCMTX | Common-mode return loss | f = 150 MHz–300 MHz | 5 | 19 | dB | |
f = 300 MHz–600 MHz | 5 | 16 | ||||
f = 600 MHz–1.2 GHz | 2 | 11 | ||||
f = 1.2 GHz–2.4 GHz | 1 | 9 | ||||
f = 2.4 GHz–3 GHz | 1 | 10 | ||||
IBTX | Impedance balance | f = 150 MHz–300 MHz | 30 | 43 | dB | |
f = 300 MHz–600 MHz | 30 | 40 | ||||
f = 600 MHz–1.2 GHz | 20 | 32 | ||||
f = 1.2 GHz–2.4 GHz | 10 | 25 | ||||
f = 2.4 GHz–3 GHz | 10 | 27 | ||||
f = 3 GHz–5 GHz | 4 | 25 | ||||
f = 5. GHz–6.5 GHz | 4 | 26 | ||||
DiffVppTX | Differential output-voltage swing | DE = 1, MODE = 1→(SAS), f = 3 GHz (under no interconnect loss) |
385 | 850 | 1300 | mVpp |
DE = 0, MODE = 0→(SATA), f = 3 GHz (under no interconnect loss) |
400 | 600 | 800 | |||
DE | De-emphasis level | DE = 1 | –1.3 | dB | ||
DE = 0 | 0 | |||||
VCMAC_TX | TX AC CM voltage | At 1.5 GHz | 20 | 50 | mVpp | |
At 3 GHz | 11 | 26 | dBmv (rms) |
|||
At 6 GHz | 13 | 30 | ||||
VCMTX | Common-mode voltage | 1.7 | V | |||
TxR/Flmb | TX rise/fall imbalance | At 3 Gbps | 3% | 18% | ||
TxAmplmb | TX amplitude imbalance | 1.5% | 10% | |||
TRANSMITTER JITTER AT CP(1) | ||||||
3-Gbps SATA Mode | ||||||
TJTX | Total jitter(1) | 0.26 | 0.38 | UIpp | ||
DJTX | Deterministic jitter | VID = 500 mVpp, UI = 333 ps, K28.5 control character, EQ/DE = 1 | 0.13 | 0.24 | UIpp | |
RJTX | Residual random jitter | VID = 500 mVpp, UI = 333 ps, K28.7 control character, EQ/DE = 1 | 1.16 | 1.95 | ps-rms | |
6-Gbps SATA Mode | ||||||
TJTX | Total jitter(1) | 0.37 | 0.61 | UIpp | ||
DJTX | Deterministic jitter | VID = 500 mVpp, UI = 167 ps, K28.5 control character, EQ/DE = 1 | 0.12 | 0.32 | UIpp | |
RJTX | Residual random jitter | VID = 500 mVpp, UI = 167 ps, K28.7 control character, EQ/DE = 1 | 1.15 | 2.2 | ps-rms | |
3-Gbps SAS Mode | ||||||
TJTX | Total jitter(1) | 0.25 | 0.37 | UIpp | ||
DJTX | Deterministic jitter | VID = 500 mVpp, UI = 333 ps, K28.5 control character, EQ/DE = 1 | 0.12 | 0.23 | UIpp | |
RJTX | Residual random jitter | VID = 500 mVpp, UI = 333 ps, K28.7 control character, EQ/DE = 1 | 1.11 | 2 | ps-rms | |
6-Gbps SAS Mode | ||||||
TJTX | Total jitter(1) | 0.35 | 0.57 | UIpp | ||
DJTX | Deterministic jitter | VID = 500 mVpp, UI = 167 ps, K28.5 control character, EQ/DE = 1 | 0.10 | 0.29 | UIpp | |
RJTX | Residual random jitter | VID = 500 mVpp, UI = 167 ps, K28.7 control character, EQ/DE = 1 | 1.1 | 2.14 | ps-rms |
MIN | NOM | MAX | UNIT | |||
---|---|---|---|---|---|---|
DEVICE PARAMETERS | ||||||
tPDelay | Propagation delay | Measured using K28.5 pattern, See Figure 3 | 280 | 330 | ps | |
AutoLPENTRY | Auto low power entry time | Electrical idle at input, See Figure 5 | 11 | 20 | μs | |
AutoLPEXIT | Auto low power exit time | After first signal activity, See Figure 5 | 30 | 40 | ns | |
OOB | ||||||
tOOB1 | OOB mode enter | See Figure 4 | 3 | 8 | ns | |
tOOB2 | OOB mode exit | See Figure 4 | 3 | 8 | ns | |
RECEIVER AC/DC | ||||||
t20-80RX | Rise and fall time | Rise times and fall times measured between 20% and 80% of the signal. SATA/SAS 6 Gbps speed measured 1 inch (2.54 cm) from device pin | 62 | 75 | ps | |
tskewRX | Differential skew | Difference between the single-ended mid-point of the RX+ signal rising/falling edge, and the single-ended mid-point of the RX– signal falling/rising edge | 30 | ps | ||
TRANSMITTER AC/DC | ||||||
t20-80TX | Rise and fall time | Rise times and fall times measured between 20% and 80% of the signal. At 6 Gbps SATA or SAS, under no load, measured at the pin | 33 | 50 | 76 | ps |
tskewTX | Differential skew | Difference between the single-ended mid-point of the TX+ signal rising/falling edge, and the single-ended mid-point of the TX– signal falling/rising edge, SATA or SAS mode | 4 | 14 | ps |