SPRUIZ1B July 2023 – August 2024 TMS320F28P650DH , TMS320F28P650DK , TMS320F28P650SH , TMS320F28P650SK , TMS320F28P659DH-Q1 , TMS320F28P659DK-Q1 , TMS320F28P659SH-Q1
Table 17-8 lists the memory-mapped registers for the ANALOG_SUBSYS_REGS registers. All register offset addresses not listed in Table 17-8 should be considered as reserved locations and the register contents should not be modified.
| Offset | Acronym | Register Name | Write Protection | Section |
|---|---|---|---|---|
| 4Ah | INTERNALTESTCTL | INTERNALTEST Node Control Register | EALLOW | Go |
| 5Eh | CONFIGLOCK | Lock Register for all the config registers. | EALLOW | Go |
| 60h | TSNSCTL | Temperature Sensor Control Register | EALLOW | Go |
| 68h | ANAREFCTL | Analog Reference Control Register. | EALLOW | Go |
| 70h | VMONCTL | Voltage Monitor Control Register | EALLOW | Go |
| 82h | CMPHPMXSEL | Bits to select one of the many sources on CopmHP inputs. Refer to Pimux diagram for details. | EALLOW | Go |
| 84h | CMPLPMXSEL | Bits to select one of the many sources on CopmLP inputs. Refer to Pimux diagram for details. | EALLOW | Go |
| 86h | CMPHNMXSEL | Bits to select one of the many sources on CopmHN inputs. Refer to Pimux diagram for details. | EALLOW | Go |
| 87h | CMPLNMXSEL | Bits to select one of the many sources on CopmLN inputs. Refer to Pimux diagram for details. | EALLOW | Go |
| 88h | ADCDACLOOPBACK | Enabble loopback from DAC to ADCs | Go | |
| 8Eh | LOCK | Lock Register | EALLOW | Go |
| 90h | CMPHPMXSEL1 | Bits to select one of the many sources on CopmHP inputs. Refer to Pimux diagram for details. | EALLOW | Go |
| 92h | CMPLPMXSEL1 | Bits to select one of the many sources on CopmLP inputs. Refer to Pimux diagram for details. | EALLOW | Go |
| 10Eh | ADCSOCFRCGB | ADC Global SOC Force | EALLOW | Go |
| 110h | ADCSOCFRCGBSEL | ADC Global SOC Force Select | EALLOW | Go |
| 120h | AGPIOCTRLG | AGPIO Control Register | EALLOW | Go |
| 122h | AGPIOCTRLH | AGPIO Control Register | EALLOW | Go |
| 134h | GPIOINENACTRL | GPIOINENACTRL Control Register | EALLOW | Go |
Complex bit access types are encoded to fit into small table cells. Table 17-9 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 |
| WOnce | W Once | Write Write once |
| WSonce | W Sonce | Write Set once |
| Reset or Default Value | ||
| -n | Value after reset or the default value | |
| Register Array Variables | ||
| i,j,k,l,m,n | When these variables are used in a register name, an offset, or an address, they refer to the value of a register array where the register is part of a group of repeating registers. The register groups form a hierarchical structure and the array is represented with a formula. | |
| y | When this variable is used in a register name, an offset, or an address it refers to the value of a register array. | |
INTERNALTESTCTL is shown in Figure 17-4 and described in Table 17-10.
Return to the Summary Table.
INTERNALTEST Node Control Register
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| KEY | |||||||
| R-0/W-0h | |||||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| KEY | |||||||
| R-0/W-0h | |||||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | RESERVED | RESERVED | |||||
| R-0-0h | R/W-0h | R-0-0h | |||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | TESTSEL | ||||||
| R-0-0h | R/W-0h | ||||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-16 | KEY | R-0/W | 0h | Write Key. Writes to this register must include the value 0xA5A5 in the KEY bit field to take effect. Otherwise the register will remain as it was prior to the write attempt. Reads will return a 0. Reset type: SYSRSn |
| 15-12 | RESERVED | R-0 | 0h | Reserved |
| 11-9 | RESERVED | R/W | 0h | Reserved |
| 8-6 | RESERVED | R-0 | 0h | Reserved |
| 5-0 | TESTSEL | R/W | 0h | Test Select. This bit field defines which internal node, if any, is selected to come out on the INTERNALTEST node connected to the ADC. Any values not defined below are reserved. Reset type: SYSRSn 0h (R/W) = No internal connection 1h (R/W) = Core VDD (1.2V) voltage 2h (R/W) = VDDA voltage 3h (R/W) = VSSA - Analog ground pin 4h (R/W) = VREFLOA pin voltage 5h (R/W) = VREFLOB pin voltage 6h (R/W) = VREFLOC pin voltage 7h (R/W) = CMPSS1 High DAC output (6-bit) 8h (R/W) = CMPSS1 Low DAC output (6-bit) 9h (R/W) = CMPSS2 High DAC output (6-bit) Ah (R/W) = CMPSS2 Low DAC output (6-bit) Bh (R/W) = CMPSS3 High DAC output (6-bit) Ch (R/W) = CMPSS3 Low DAC output (6-bit) Dh (R/W) = CMPSS4 High DAC output (6-bit) Eh (R/W) = CMPSS4 Low DAC output (6-bit) Fh (R/W) = CMPSS5 High DAC output (6-bit) 10h (R/W) = CMPSS5 Low DAC output (6-bit) 11h (R/W) = CMPSS6 High DAC output (6-bit) 12h (R/W) = CMPSS6 Low DAC output (6-bit) 13h (R/W) = CMPSS7 High DAC output (6-bit) 14h (R/W) = CMPSS7 Low DAC output (6-bit) 15h (R/W) = CMPSS8 High DAC output (6-bit) 16h (R/W) = CMPSS8 Low DAC output (6-bit) 17h (R/W) = CMPSS9 High DAC output (6-bit) 18h (R/W) = CMPSS9 Low DAC output (6-bit) 19h (R/W) = CMPSS10 High DAC output (6-bit) 1Ah (R/W) = CMPSS10 Low DAC output (6-bit) 1Bh (R/W) = CMPSS11 High DAC output (6-bit) 1Ch (R/W) = CMPSS11 Low DAC output (6-bit) 1Dh (R/W) = Enable ENZ_CALIB_GAIN_3P3V. All ADCs are placed in gain calibration mode. 0.9*VREFHIA pin voltage is sampled by all ADCs through INTERNALTEST mux output, overriding CHSEL setting. 1Eh (R/W) = Reserved 1Fh (R/W) = Reserved 20h (R/W) = Reserved 21h (R/W) = Reserved 22h (R/W) = Reserved 23h (R/W) = Reserved 24h (R/W) = Reserved 25h (R/W) = Reserved 26h (R/W) = Reserved 27h (R/W) = Reserved 28h (R/W) = Reserved 29h (R/W) = Reserved 2Ah (R/W) = Reserved 2Bh (R/W) = VSS - Digital ground pin 2Ch (R/W) = Reserved 2Dh (R/W) = Reserved 2Eh (R/W) = Reserved 2Fh (R/W) = Reserved |
CONFIGLOCK is shown in Figure 17-5 and described in Table 17-11.
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Lock Register for all the config registers.
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | GPIOINENACTRL | RESERVED | RESERVED | AGPIOCTRL | RESERVED | RESERVED | RESERVED |
| R-0-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-7 | RESERVED | R-0 | 0h | Reserved |
| 6 | GPIOINENACTRL | R/WSonce | 0h | Locks all GPIOINENACTRL Register. Setting this bit will disable any future writes to this reigster. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 5 | RESERVED | R/WSonce | 0h | Reserved |
| 4 | RESERVED | R/WSonce | 0h | Reserved |
| 3 | AGPIOCTRL | R/WSonce | 0h | Locks all AGPIOCTRL Register. Setting this bit will disable any future writes to this reigster. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 2 | RESERVED | R/WSonce | 0h | Reserved |
| 1 | RESERVED | R/WSonce | 0h | Reserved |
| 0 | RESERVED | R/WSonce | 0h | Reserved |
TSNSCTL is shown in Figure 17-6 and described in Table 17-12.
Return to the Summary Table.
Temperature Sensor Control Register
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | ENABLE | ||||||
| R-0-0h | R/W-0h | ||||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15-1 | RESERVED | R-0 | 0h | Reserved |
| 0 | ENABLE | R/W | 0h | Temperature Sensor Enable. This bit enables the temperature sensor output to the ADC. 0 Disabled 1 Enabled Reset type: SYSRSn |
ANAREFCTL is shown in Figure 17-7 and described in Table 17-13.
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Analog Reference Control Register.
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | RESERVED | ANAREFC2P5SEL | ANAREFB2P5SEL | ANAREFA2P5SEL | |||
| R/W-0h | R-0-0h | R/W-0h | R/W-0h | R/W-0h | |||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | ANAREFCSEL | ANAREFBSEL | ANAREFASEL | ||||
| R-0-1h | R/W-1h | R/W-1h | R/W-1h | ||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15 | RESERVED | R/W | 0h | Reserved |
| 14-11 | RESERVED | R-0 | 0h | Reserved |
| 10 | ANAREFC2P5SEL | R/W | 0h | Analog reference C 2.5V source select. In internal reference mode, this bit selects which voltage the internal reference buffer drives onto the VREFHI pin. The buffer can drive either 1.65V onto the pin, resulting in a reference range of 0 to 3.3V, or the buffer can drive 2.5V onto the pin, resulting in a reference range of 0 to 2.5V. If switching between these two modes, the user must allow adequate time for the external capacitor to charge to the new voltage before using the ADC or buffered DAC. If multiple VREFHI pins are ganged together (for lower pin-count packages), then the reference voltage select for the ganged pins should always be configured to the same setting. 0 Internal 1.65V reference mode (3.3V reference range) 1 Internal 2.5V reference mode (2.5V reference range) Reset type: XRSn |
| 9 | ANAREFB2P5SEL | R/W | 0h | Analog reference B 2.5V source select. In internal reference mode, this bit selects which voltage the internal reference buffer drives onto the VREFHI pin. The buffer can drive either 1.65V onto the pin, resulting in a reference range of 0 to 3.3V, or the buffer can drive 2.5V onto the pin, resulting in a reference range of 0 to 2.5V. If switching between these two modes, the user must allow adequate time for the external capacitor to charge to the new voltage before using the ADC or buffered DAC. If multiple VREFHI pins are ganged together (for lower pin-count packages), then the reference voltage select for the ganged pins should always be configured to the same setting. 0 Internal 1.65V reference mode (3.3V reference range) 1 Internal 2.5V reference mode (2.5V reference range) Reset type: XRSn |
| 8 | ANAREFA2P5SEL | R/W | 0h | Analog reference A 2.5V source select. In internal reference mode, this bit selects which voltage the internal reference buffer drives onto the VREFHI pin. The buffer can drive either 1.65V onto the pin, resulting in a reference range of 0 to 3.3V, or the buffer can drive 2.5V onto the pin, resulting in a reference range of 0 to 2.5V. If switching between these two modes, the user must allow adequate time for the external capacitor to charge to the new voltage before using the ADC or buffered DAC. If multiple VREFHI pins are ganged together (for lower pin-count packages), then the reference voltage select for the ganged pins should always be configured to the same setting. 0 Internal 1.65V reference mode (3.3V reference range) 1 Internal 2.5V reference mode (2.5V reference range) Reset type: XRSn |
| 7-3 | RESERVED | R-0 | 1h | Reserved |
| 2 | ANAREFCSEL | R/W | 1h | Analog reference C mode select. This bit selects whether the VREFHIC pin uses internal reference mode (the device drives a voltage onto the VREFHI pin) or external reference mode (the system is expected to drive a voltage into the VREFHI pin). If multiple VREFHI pins are ganged together (for lower pin-count packages), then the mode select for the ganged pins should always be configured to the same setting 0 Internal reference mode 1 External reference mode Reset type: XRSn |
| 1 | ANAREFBSEL | R/W | 1h | Analog reference B mode select. This bit selects whether the VREFHIB pin uses internal reference mode (the device drives a voltage onto the VREFHI pin) or external reference mode (the system is expected to drive a voltage into the VREFHI pin). If multiple VREFHI pins are ganged together (for lower pin-count packages), then the mode select for the ganged pins should always be configured to the same setting 0 Internal reference mode 1 External reference mode Reset type: XRSn |
| 0 | ANAREFASEL | R/W | 1h | Analog reference A mode select. This bit selects whether the VREFHIA pin uses internal reference mode (the device drives a voltage onto the VREFHI pin) or external reference mode (the system is expected to drive a voltage into the VREFHI pin). If multiple VREFHI pins are ganged together (for lower pin-count packages), then the mode select for the ganged pins should always be configured to the same setting 0 Internal reference mode 1 External reference mode Reset type: XRSn |
VMONCTL is shown in Figure 17-8 and described in Table 17-14.
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Voltage Monitor Control Register
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | BORLVMONDIS | ||||||
| R-0-0h | R/W-0h | ||||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | RESERVED | RESERVED | |||||
| R-0-0h | R/W-0h | R/W-0h | |||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15-9 | RESERVED | R-0 | 0h | Reserved |
| 8 | BORLVMONDIS | R/W | 0h | BORL disable on VDDIO. 0 BORL is enabled on VDDIO, i.e BOR circuit will be triggered if VDDIO goes lower than the lower BOR threshold of VDDIO. 1 BORL is disabled on VDDIO, i.e BOR circuit will not be triggered if VDDIO goes lower than the lower BOR threshold of VDDIO. Reset type: SYSRSn |
| 7-2 | RESERVED | R-0 | 0h | Reserved |
| 1 | RESERVED | R/W | 0h | Reserved |
| 0 | RESERVED | R/W | 0h | Reserved |
CMPHPMXSEL is shown in Figure 17-9 and described in Table 17-15.
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Bits to select one of the many sources on CopmHP inputs. Refer to Pimux diagram for details.
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | CMP10HPMXSEL | CMP9HPMXSEL | |||||
| R-0-0h | R/W-0h | R/W-0h | |||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| CMP8HPMXSEL | CMP7HPMXSEL | CMP6HPMXSEL | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| CMP6HPMXSEL | CMP5HPMXSEL | CMP4HPMXSEL | CMP3HPMXSEL | ||||
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| CMP3HPMXSEL | CMP2HPMXSEL | CMP1HPMXSEL | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-30 | RESERVED | R-0 | 0h | Reserved |
| 29-27 | CMP10HPMXSEL | R/W | 0h | CMP10HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 26-24 | CMP9HPMXSEL | R/W | 0h | CMP9HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 23-21 | CMP8HPMXSEL | R/W | 0h | CMP8HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 20-18 | CMP7HPMXSEL | R/W | 0h | CMP7HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 17-15 | CMP6HPMXSEL | R/W | 0h | CMP6HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 14-12 | CMP5HPMXSEL | R/W | 0h | CMP5HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 11-9 | CMP4HPMXSEL | R/W | 0h | CMP4HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 8-6 | CMP3HPMXSEL | R/W | 0h | CMP3HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 5-3 | CMP2HPMXSEL | R/W | 0h | CMP2HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 5 are valid, rest are reserved Reset type: XRSn |
| 2-0 | CMP1HPMXSEL | R/W | 0h | CMP1HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
CMPLPMXSEL is shown in Figure 17-10 and described in Table 17-16.
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Bits to select one of the many sources on CopmLP inputs. Refer to Pimux diagram for details.
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | CMP10LPMXSEL | CMP9LPMXSEL | |||||
| R-0-0h | R/W-0h | R/W-0h | |||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| CMP8LPMXSEL | CMP7LPMXSEL | CMP6LPMXSEL | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| CMP6LPMXSEL | CMP5LPMXSEL | CMP4LPMXSEL | CMP3LPMXSEL | ||||
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| CMP3LPMXSEL | CMP2LPMXSEL | CMP1LPMXSEL | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-30 | RESERVED | R-0 | 0h | Reserved |
| 29-27 | CMP10LPMXSEL | R/W | 0h | CMP10LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 26-24 | CMP9LPMXSEL | R/W | 0h | CMP9LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 23-21 | CMP8LPMXSEL | R/W | 0h | CMP8LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 20-18 | CMP7LPMXSEL | R/W | 0h | CMP7LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 17-15 | CMP6LPMXSEL | R/W | 0h | CMP6LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 14-12 | CMP5LPMXSEL | R/W | 0h | CMP5LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 11-9 | CMP4LPMXSEL | R/W | 0h | CMP4LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 8-6 | CMP3LPMXSEL | R/W | 0h | CMP3LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 5-3 | CMP2LPMXSEL | R/W | 0h | CMP2LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
| 2-0 | CMP1LPMXSEL | R/W | 0h | CMP1LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
CMPHNMXSEL is shown in Figure 17-11 and described in Table 17-17.
Return to the Summary Table.
Bits to select one of the many sources on CopmHN inputs. Refer to Pimux diagram for details.
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | CMP11HNMXSEL | CMP10HNMXSEL | CMP9HNMXSEL | ||||
| R-0-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| CMP8HNMXSEL | CMP7HNMXSEL | CMP6HNMXSEL | CMP5HNMXSEL | CMP4HNMXSEL | CMP3HNMXSEL | CMP2HNMXSEL | CMP1HNMXSEL |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15-11 | RESERVED | R-0 | 0h | Reserved |
| 10 | CMP11HNMXSEL | R/W | 0h | CMP11HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 9 | CMP10HNMXSEL | R/W | 0h | CMP10HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 8 | CMP9HNMXSEL | R/W | 0h | CMP9HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 7 | CMP8HNMXSEL | R/W | 0h | CMP8HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 6 | CMP7HNMXSEL | R/W | 0h | CMP7HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 5 | CMP6HNMXSEL | R/W | 0h | CMP6HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 4 | CMP5HNMXSEL | R/W | 0h | CMP5HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 3 | CMP4HNMXSEL | R/W | 0h | CMP4HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 2 | CMP3HNMXSEL | R/W | 0h | CMP3HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 1 | CMP2HNMXSEL | R/W | 0h | CMP2HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 0 | CMP1HNMXSEL | R/W | 0h | CMP1HNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
CMPLNMXSEL is shown in Figure 17-12 and described in Table 17-18.
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Bits to select one of the many sources on CopmLN inputs. Refer to Pimux diagram for details.
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | CMP11LNMXSEL | CMP10LNMXSEL | CMP9LNMXSEL | ||||
| R-0-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| CMP8LNMXSEL | CMP7LNMXSEL | CMP6LNMXSEL | CMP5LNMXSEL | CMP4LNMXSEL | CMP3LNMXSEL | CMP2LNMXSEL | CMP1LNMXSEL |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15-11 | RESERVED | R-0 | 0h | Reserved |
| 10 | CMP11LNMXSEL | R/W | 0h | CMP11LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 9 | CMP10LNMXSEL | R/W | 0h | CMP10LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 8 | CMP9LNMXSEL | R/W | 0h | CMP9LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 7 | CMP8LNMXSEL | R/W | 0h | CMP8LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 6 | CMP7LNMXSEL | R/W | 0h | CMP7LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 5 | CMP6LNMXSEL | R/W | 0h | CMP6LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 4 | CMP5LNMXSEL | R/W | 0h | CMP5LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 3 | CMP4LNMXSEL | R/W | 0h | CMP4LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 2 | CMP3LNMXSEL | R/W | 0h | CMP3LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 1 | CMP2LNMXSEL | R/W | 0h | CMP2LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
| 0 | CMP1LNMXSEL | R/W | 0h | CMP1LNMXSEL bits, Refer to figure 4 of Analog system control doc Reset type: XRSn |
ADCDACLOOPBACK is shown in Figure 17-13 and described in Table 17-19.
Return to the Summary Table.
Enabble loopback from DAC to ADCs
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| KEY | |||||||
| R-0/W-0h | |||||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| KEY | |||||||
| R-0/W-0h | |||||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | ENLB2ADCC | ENLB2ADCB | ENLB2ADCA | ||||
| R-0-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-16 | KEY | R-0/W | 0h | Write Key. Writes to this register must include the value 0xA5A5 in the KEY bit field to take effect. Otherwise the register will remain as it was prior to the write attempt. Reads will return a 0. Reset type: XRSn |
| 15-3 | RESERVED | R-0 | 0h | Reserved |
| 2 | ENLB2ADCC | R/W | 0h | 1 Loops back COMPDACA output to ADCC. 0 Loop back is broken. Note: Setting this bit to 1, will override the CHSEL specification for the ADC. ADC would sample COMPDACA output irrespective of the value of CHSEL. Reset type: XRSn |
| 1 | ENLB2ADCB | R/W | 0h | 1 Loops back COMPDACA output to ADCB. 0 Loop back is broken. Note: Setting this bit to 1, will override the CHSEL specification for the ADC. ADC would sample COMPDACA output irrespective of the value of CHSEL. Reset type: XRSn |
| 0 | ENLB2ADCA | R/W | 0h | 1 Loops back COMPDACA output to ADCA. 0 Loop back is broken. Note: Setting this bit to 1, will override the CHSEL specification for the ADC. ADC would sample COMPDACA output irrespective of the value of CHSEL. Reset type: XRSn |
LOCK is shown in Figure 17-14 and described in Table 17-20.
Return to the Summary Table.
Lock Register
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | CMPLPMXSEL1 | CMPHPMXSEL1 | CMPSSCTL | VREGCTL | CMPLNMXSEL | ||
| R-0-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | ||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| CMPHNMXSEL | CMPLPMXSEL | CMPHPMXSEL | RESERVED | RESERVED | VMONCTL | ANAREFCTL | TSNSCTL |
| R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h | R/WSonce-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-13 | RESERVED | R-0 | 0h | Reserved |
| 12 | CMPLPMXSEL1 | R/WSonce | 0h | CMPLPMXSEL1 Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 11 | CMPHPMXSEL1 | R/WSonce | 0h | CMPHPMXSEL1 Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 10 | CMPSSCTL | R/WSonce | 0h | CMPSSCTL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 9 | VREGCTL | R/WSonce | 0h | VREGCTL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 8 | CMPLNMXSEL | R/WSonce | 0h | CMPLNMXSEL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 7 | CMPHNMXSEL | R/WSonce | 0h | CMPHNMXSEL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 6 | CMPLPMXSEL | R/WSonce | 0h | CMPLPMXSEL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 5 | CMPHPMXSEL | R/WSonce | 0h | CMPHPMXSEL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 4 | RESERVED | R/WSonce | 0h | Reserved |
| 3 | RESERVED | R/WSonce | 0h | Reserved |
| 2 | VMONCTL | R/WSonce | 0h | VMONCTL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 1 | ANAREFCTL | R/WSonce | 0h | ANAREFCTL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
| 0 | TSNSCTL | R/WSonce | 0h | TSNSCTL Register Lock. Setting this bit will disable any future write to the respective register. This bit can only be cleared by a reset. Reset type: SYSRSn |
CMPHPMXSEL1 is shown in Figure 17-15 and described in Table 17-21.
Return to the Summary Table.
Bits to select one of the many sources on CopmHP inputs. Refer to Pimux diagram for details.
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | RESERVED | RESERVED | |||||
| R-0-0h | R/W-0h | R/W-0h | |||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | RESERVED | RESERVED | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | RESERVED | RESERVED | RESERVED | ||||
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | RESERVED | CMP11HPMXSEL | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-30 | RESERVED | R-0 | 0h | Reserved |
| 29-27 | RESERVED | R/W | 0h | Reserved |
| 26-24 | RESERVED | R/W | 0h | Reserved |
| 23-21 | RESERVED | R/W | 0h | Reserved |
| 20-18 | RESERVED | R/W | 0h | Reserved |
| 17-15 | RESERVED | R/W | 0h | Reserved |
| 14-12 | RESERVED | R/W | 0h | Reserved |
| 11-9 | RESERVED | R/W | 0h | Reserved |
| 8-6 | RESERVED | R/W | 0h | Reserved |
| 5-3 | RESERVED | R/W | 0h | Reserved |
| 2-0 | CMP11HPMXSEL | R/W | 0h | CMP11HPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
CMPLPMXSEL1 is shown in Figure 17-16 and described in Table 17-22.
Return to the Summary Table.
Bits to select one of the many sources on CopmLP inputs. Refer to Pimux diagram for details.
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | RESERVED | RESERVED | |||||
| R-0-0h | R/W-0h | R/W-0h | |||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | RESERVED | RESERVED | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | RESERVED | RESERVED | RESERVED | ||||
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | ||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | RESERVED | CMP11LPMXSEL | |||||
| R/W-0h | R/W-0h | R/W-0h | |||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-30 | RESERVED | R-0 | 0h | Reserved |
| 29-27 | RESERVED | R/W | 0h | Reserved |
| 26-24 | RESERVED | R/W | 0h | Reserved |
| 23-21 | RESERVED | R/W | 0h | Reserved |
| 20-18 | RESERVED | R/W | 0h | Reserved |
| 17-15 | RESERVED | R/W | 0h | Reserved |
| 14-12 | RESERVED | R/W | 0h | Reserved |
| 11-9 | RESERVED | R/W | 0h | Reserved |
| 8-6 | RESERVED | R/W | 0h | Reserved |
| 5-3 | RESERVED | R/W | 0h | Reserved |
| 2-0 | CMP11LPMXSEL | R/W | 0h | CMP11LPMXSEL bits, Refer to figure 4 of Analog system control doc Note: Only values 0 to 4 are valid, rest are reserved Reset type: XRSn |
ADCSOCFRCGB is shown in Figure 17-17 and described in Table 17-23.
Return to the Summary Table.
ADC Global SOC Force
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| SOC15 | SOC14 | SOC13 | SOC12 | SOC11 | SOC10 | SOC9 | SOC8 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| SOC7 | SOC6 | SOC5 | SOC4 | SOC3 | SOC2 | SOC1 | SOC0 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-16 | RESERVED | R-0 | 0h | Reserved |
| 15 | SOC15 | R/W | 0h | Indicate if SOC15 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 14 | SOC14 | R/W | 0h | Indicate if SOC14 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 13 | SOC13 | R/W | 0h | Indicate if SOC13 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 12 | SOC12 | R/W | 0h | Indicate if SOC12 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 11 | SOC11 | R/W | 0h | Indicate if SOC11 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 10 | SOC10 | R/W | 0h | Indicate if SOC10 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 9 | SOC9 | R/W | 0h | Indicate if SOC9 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 8 | SOC8 | R/W | 0h | Indicate if SOC8 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 7 | SOC7 | R/W | 0h | Indicate if SOC7 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 6 | SOC6 | R/W | 0h | Indicate if SOC6 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 5 | SOC5 | R/W | 0h | Indicate if SOC5 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 4 | SOC4 | R/W | 0h | Indicate if SOC4 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 3 | SOC3 | R/W | 0h | Indicate if SOC3 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 2 | SOC2 | R/W | 0h | Indicate if SOC2 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 1 | SOC1 | R/W | 0h | Indicate if SOC1 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
| 0 | SOC0 | R/W | 0h | Indicate if SOC0 selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: SYSRSn |
ADCSOCFRCGBSEL is shown in Figure 17-18 and described in Table 17-24.
Return to the Summary Table.
ADC Global SOC Force Select
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | RESERVED | ADCC | ADCB | ADCA | |||
| R-0-0h | R-0/W1S-0h | R-0/W1S-0h | R-0/W1S-0h | R-0/W1S-0h | |||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15-4 | RESERVED | R-0 | 0h | Reserved |
| 3 | RESERVED | R-0/W1S | 0h | Reserved |
| 2 | ADCC | R-0/W1S | 0h | Indicate if ADCC selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: XRSn |
| 1 | ADCB | R-0/W1S | 0h | Indicate if ADCB selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: XRSn |
| 0 | ADCA | R-0/W1S | 0h | Indicate if ADCA selected for global SW trigger 0 : Not selected for Global SW Trigger 1 : Selected for Global SW Trigger Reset type: XRSn |
AGPIOCTRLG is shown in Figure 17-19 and described in Table 17-25.
Return to the Summary Table.
AGPIO Control Register
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | RESERVED | RESERVED | RESERVED | GPIO219 | GPIO218 | GPIO217 | GPIO216 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| GPIO215 | GPIO214 | GPIO213 | GPIO212 | GPIO211 | GPIO210 | GPIO209 | GPIO208 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| GPIO207 | GPIO206 | GPIO205 | GPIO204 | GPIO203 | GPIO202 | GPIO201 | GPIO200 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| GPIO199 | GPIO198 | RESERVED | RESERVED | RESERVED | RESERVED | RESERVED | RESERVED |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31 | RESERVED | R/W | 0h | Reserved |
| 30 | RESERVED | R/W | 0h | Reserved |
| 29 | RESERVED | R/W | 0h | Reserved |
| 28 | RESERVED | R/W | 0h | Reserved |
| 27 | GPIO219 | R/W | 0h | One time configuration for GPIO219 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 26 | GPIO218 | R/W | 0h | One time configuration for GPIO218 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 25 | GPIO217 | R/W | 0h | One time configuration for GPIO217 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 24 | GPIO216 | R/W | 0h | One time configuration for GPIO216 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 23 | GPIO215 | R/W | 0h | One time configuration for GPIO215 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 22 | GPIO214 | R/W | 0h | One time configuration for GPIO214 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 21 | GPIO213 | R/W | 0h | One time configuration for GPIO213 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 20 | GPIO212 | R/W | 0h | One time configuration for GPIO212 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 19 | GPIO211 | R/W | 0h | One time configuration for GPIO211 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 18 | GPIO210 | R/W | 0h | One time configuration for GPIO210 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 17 | GPIO209 | R/W | 0h | One time configuration for GPIO209 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 16 | GPIO208 | R/W | 0h | One time configuration for GPIO208 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 15 | GPIO207 | R/W | 0h | One time configuration for GPIO207 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 14 | GPIO206 | R/W | 0h | One time configuration for GPIO206 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 13 | GPIO205 | R/W | 0h | One time configuration for GPIO205 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 12 | GPIO204 | R/W | 0h | One time configuration for GPIO204 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 11 | GPIO203 | R/W | 0h | One time configuration for GPIO203 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 10 | GPIO202 | R/W | 0h | One time configuration for GPIO202 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 9 | GPIO201 | R/W | 0h | One time configuration for GPIO201 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 8 | GPIO200 | R/W | 0h | One time configuration for GPIO200 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 7 | GPIO199 | R/W | 0h | One time configuration for GPIO199 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 6 | GPIO198 | R/W | 0h | One time configuration for GPIO198 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 5 | RESERVED | R/W | 0h | Reserved |
| 4 | RESERVED | R/W | 0h | Reserved |
| 3 | RESERVED | R/W | 0h | Reserved |
| 2 | RESERVED | R/W | 0h | Reserved |
| 1 | RESERVED | R/W | 0h | Reserved |
| 0 | RESERVED | R/W | 0h | Reserved |
AGPIOCTRLH is shown in Figure 17-20 and described in Table 17-26.
Return to the Summary Table.
AGPIO Control Register
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | RESERVED | RESERVED | RESERVED | RESERVED | RESERVED | RESERVED | RESERVED |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | RESERVED | RESERVED | RESERVED | RESERVED | GPIO242 | GPIO241 | GPIO240 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| GPIO239 | GPIO238 | GPIO237 | GPIO236 | GPIO235 | GPIO234 | GPIO233 | GPIO232 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| GPIO231 | GPIO230 | GPIO229 | GPIO228 | GPIO227 | GPIO226 | GPIO225 | GPIO224 |
| R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h | R/W-0h |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31 | RESERVED | R/W | 0h | Reserved |
| 30 | RESERVED | R/W | 0h | Reserved |
| 29 | RESERVED | R/W | 0h | Reserved |
| 28 | RESERVED | R/W | 0h | Reserved |
| 27 | RESERVED | R/W | 0h | Reserved |
| 26 | RESERVED | R/W | 0h | Reserved |
| 25 | RESERVED | R/W | 0h | Reserved |
| 24 | RESERVED | R/W | 0h | Reserved |
| 23 | RESERVED | R/W | 0h | Reserved |
| 22 | RESERVED | R/W | 0h | Reserved |
| 21 | RESERVED | R/W | 0h | Reserved |
| 20 | RESERVED | R/W | 0h | Reserved |
| 19 | RESERVED | R/W | 0h | Reserved |
| 18 | GPIO242 | R/W | 0h | One time configuration for GPIO242 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 17 | GPIO241 | R/W | 0h | One time configuration for GPIO241 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 16 | GPIO240 | R/W | 0h | One time configuration for GPIO240 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 15 | GPIO239 | R/W | 0h | One time configuration for GPIO239 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 14 | GPIO238 | R/W | 0h | One time configuration for GPIO238 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 13 | GPIO237 | R/W | 0h | One time configuration for GPIO237 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 12 | GPIO236 | R/W | 0h | One time configuration for GPIO236 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 11 | GPIO235 | R/W | 0h | One time configuration for GPIO235 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 10 | GPIO234 | R/W | 0h | One time configuration for GPIO234 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 9 | GPIO233 | R/W | 0h | One time configuration for GPIO233 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 8 | GPIO232 | R/W | 0h | One time configuration for GPIO232 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 7 | GPIO231 | R/W | 0h | One time configuration for GPIO231 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 6 | GPIO230 | R/W | 0h | One time configuration for GPIO230 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 5 | GPIO229 | R/W | 0h | One time configuration for GPIO229 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 4 | GPIO228 | R/W | 0h | One time configuration for GPIO228 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 3 | GPIO227 | R/W | 0h | One time configuration for GPIO227 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 2 | GPIO226 | R/W | 0h | One time configuration for GPIO226 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 1 | GPIO225 | R/W | 0h | One time configuration for GPIO225 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
| 0 | GPIO224 | R/W | 0h | One time configuration for GPIO224 to decide whether AGPIO functionality is enabled 0 - AGPIO functionality is disabled 1 - AGPIO functionality is enabled Reset type: XRSn |
GPIOINENACTRL is shown in Figure 17-21 and described in Table 17-27.
Return to the Summary Table.
GPIOINENACTRL Control Register
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED | |||||||
| R-0-0h | |||||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| RESERVED | GPIO103 | GPIO46 | GPIO31 | GPIO25 | GPIO23 | GPIO0 | |
| R-0-0h | R/W-1h | R/W-1h | R/W-1h | R/W-1h | R/W-1h | R/W-1h | |
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 31-6 | RESERVED | R-0 | 0h | Reserved |
| 5 | GPIO103 | R/W | 1h | One time configuration for GPIO103 to decide whether Input buffer (INENA control) is enabled or disabled 0 - Input buffer is disabled 1 - Input buffer is enabled Reset type: XRSn |
| 4 | GPIO46 | R/W | 1h | One time configuration for GPIO46 to decide whether Input buffer (INENA control) is enabled or disabled 0 - Input buffer is disabled 1 - Input buffer is enabled Reset type: XRSn |
| 3 | GPIO31 | R/W | 1h | One time configuration for GPIO31 to decide whether Input buffer (INENA control) is enabled or disabled 0 - Input buffer is disabled 1 - Input buffer is enabled Reset type: XRSn |
| 2 | GPIO25 | R/W | 1h | One time configuration for GPIO25 to decide whether Input buffer (INENA control) is enabled or disabled 0 - Input buffer is disabled 1 - Input buffer is enabled Reset type: XRSn |
| 1 | GPIO23 | R/W | 1h | One time configuration for GPIO23 to decide whether Input buffer (INENA control) is enabled or disabled 0 - Input buffer is disabled 1 - Input buffer is enabled Reset type: XRSn |
| 0 | GPIO0 | R/W | 1h | One time configuration for GPIO0 to decide whether Input buffer (INENA control) is enabled or disabled 0 - Input buffer is disabled 1 - Input buffer is enabled Reset type: XRSn |