ZHCSOS8A October 2021 – October 2024 ADC09DJ1300 , ADC09QJ1300 , ADC09SJ1300
PRODUCTION DATA
Table 6-56 lists the SPI_Register_Map registers. All register offset addresses not listed in Table 6-56 should be considered as reserved locations and the register contents should not be modified.
Address | Acronym | Register Name | Section |
---|---|---|---|
0x0 | CONFIG_A | Configuration A (default: 0x30) | Go |
0x2 | DEVICE_CONFIG | Device Configuration (default: 0x00) | Go |
0xC | VENDOR_ID | Vendor Identification (Default = 0x0451) | Go |
0x10 | USR0 | User SPI Configuration (Default: 0x00) | Go |
0x29 | CLK_CTRL0 | Clock Control 0 (default: 0x80) | Go |
0x2A | CLK_CTRL1 | Clock Control 1 (default: 0x00) | Go |
0x2B | CLK_CTRL2 | Clock Control 2 (default: 0x10) | Go |
0x2C | SYSREF_POS | SYSREF Capture Position (read-only status) | Go |
0x30 | FS_RANGE | FS_RANGE (default: 0xA000) | Go |
0x37 | LOW_POWER1 | Low Power Mode 1 (default: 0x4B) | Go |
0x3B | TMSTP_CTRL | TIMESTAMP (TMSTP) Control (default: 0x00) | Go |
0x3C | PLLREFO_CTRL | PLL Reference Output Control (default: 0x01) | Go |
0x3D | CPLL_FBDIV1 | C-PLL Feedback Divider V and P (default: 0x00) | Go |
0x3E | CPLL_FBDIV2 | C-PLL Feedback Divider N (default: 0x20) | Go |
0x3F | CPLL_VCOCTRL1 | C-PLL Feedback Divider N (default: 0x4F) | Go |
0x48 | SER_PE | Serializer Pre-Emphasis Control (default: 0x00) | Go |
0x57 | TRIGOUT_CTRL | TRIGOUT Output Control (default: 0x00) | Go |
0x58 | CPLL_OVR | C-PLL Pin Override (default: 0x00) | Go |
0x59 | VCO_FREQ_TRIM | C-PLL VCO Frequency Trim (default: undefined) | Go |
0x5C | CPLL_RESET | C-PLL / VCO Calibration Reset (default: 0x00) | Go |
0x5D | VCO_CAL_CTRL | VCO Calibration Control (default: 0x40) | Go |
0x5E | VCO_CAL_STATUS | VCO Calibration Status (read-only) (default: undefined) | Go |
0x61 | CAL_EN | Calibration Enable (Default: 0x01) | Go |
0x62 | CAL_CFG0 | Calibration Configuration 0 (Default: 0x01) | Go |
0x65 | CAL_CFG1 | Calibration Configuration 1 (Default: 0x01) | Go |
0x68 | CAL_AVG | Calibration Averaging (default: 0x61) | Go |
0x6A | CAL_STATUS | Calibration Status (default: undefined) (read-only) | Go |
0x6B | CAL_PIN_CFG | Calibration Pin Configuration (default: 0x00) | Go |
0x6C | CAL_SOFT_TRIG | Calibration Software Trigger (default: 0x01) | Go |
0x6E | CAL_LP | Low-Power Background Calibration (default: 0x88) | Go |
0x7A | GAIN_TRIM | Gain DAC Trim (default from Fuse ROM) | Go |
0x7C | BG_TRIM | Band-Gap Trim (default from Fuse ROM) | Go |
0x7E | RTRIM_A | Resistor Trim for INA (default from Fuse ROM) | Go |
0x7F | RTRIM_B | Resistor Trim for INB (default from Fuse ROM) | Go |
0x80 | RTRIM_C | Resistor Trim for INC (default from Fuse ROM) | Go |
0x81 | RTRIM_D | Resistor Trim for IND (default from Fuse ROM) | Go |
0x9A | ADC_SRC_DLY | ADC Source Delay for Calibration | Section 6.6.37 |
0x9B | MUX_SEL_DLY | MUX selection Delay for Calibration | Section 6.6.38 |
0x9D | ADC_DITH | ADC Dither Control (default from Fuse ROM) | Go |
0x160 | LSB_CTRL | LSB Control Bit Output (default: 0x00) | Go |
0x200 | JESD_EN | JESD204C Subsystem Enable (default: 0x01) | Go |
0x201 | JMODE | JESD204C Mode (default: 0x00) | Go |
0x202 | KM1 | JESD204C K Parameter (minus 1) (default: 0x1F) | Go |
0x203 | JSYNC_N | JESD204C Manual Sync Request (default: 0x01) | Go |
0x204 | JCTRL | JESD204C Control (default: 0x03) | Go |
0x205 | JTEST | JESD204C Test Control (default: 0x00) | Go |
0x206 | DID | JESD204C DID Parameter (default: 0x00) | Go |
0x207 | FCHAR | JESD204C Frame Character (default: 0x00) | Go |
0x208 | JESD_STATUS | JESD204C / System Status Register | Go |
0x209 | CH_EN | JESD204C Channel Enable (default: 0x03) | Go |
0x20F | SHMODE | JESD204C Sync Word Mode (default: 0x00) | Go |
0x210 | SYNC_THRESH | JESD204C SYNC~ Threshold (default: 0x03) | Go |
0x211 | OVR_TH | Over-range Threshold (default: 0xF2) | Go |
0x213 | OVR_CFG | Over-range Enable / Hold Off (default: 0x07) | Go |
0x270 | INIT_STATUS | Initialization Status (read-only) | Go |
0x29A | LOW_POWER2 | Low Power Mode 2 (default: 0x0F) | Go |
0x29B | LOW_POWER3 | Low Power Mode 3 (default: 0x04) | Go |
0x29C | LOW_POWER4 | Low Power Mode 4 (default: 0x1B) | Go |
0x2C0 | ALARM | Alarm Interrupt (read-only) | Go |
0x2C1 | ALM_STATUS | Alarm Status (default: 0x3F, write to clear) | Go |
0x2C2 | ALM_MASK | Alarm Mask Register (default: 0x3F) | Go |
0x2C4 | FIFO_LANE_ALM | FIFO Overflow/Underflow Alarm (default: 0xFF) | Go |
0x330 | OFS0 | Offset Adjustment for ADC0 (default from Fuse ROM) | Go |
0x332 | OFS1 | Offset Adjustment for ADC1 (default from Fuse ROM) | Go |
0x334 | OFS2A | Offset Adjustment for ADC2 (INA±) (default from Fuse ROM) | Go |
0x336 | OFS2B | Offset Adjustment for ADC2 (INB±) (default from Fuse ROM) | Go |
0x338 | OFS3C | Offset Adjustment for ADC3 (INC±) (default from Fuse ROM) | Go |
0x33A | OFS3D | Offset Adjustment for ADC3 (IND±) (default from Fuse ROM) | Go |
0x33C | OFS4 | Offset Adjustment for ADC4 (default from Fuse ROM) | Go |
0x33E | OFS5 | Offset Adjustment for ADC5 (default from Fuse ROM) | Go |
0x360 | GAIN0 | Fine Gain Adjust for ADC0 (default from Fuse ROM) | Go |
0x361 | GAIN1 | Fine Gain Adjust for ADC1 (default from Fuse ROM) | Go |
0x362 | GAIN2A | Fine Gain Adjust for ADC2 (INA±) (default from Fuse ROM) | Go |
0x363 | GAIN2B | Fine Gain Adjust for ADC2 (INB±) (default from Fuse ROM) | Go |
0x364 | GAIN3C | Fine Gain Adjust for ADC3 (INC±) (default from Fuse ROM) | Go |
0x365 | GAIN3D | Fine Gain Adjust for ADC3 (IND±) (default from Fuse ROM) | Go |
0x366 | GAIN4 | Fine Gain Adjust for ADC4 (default from Fuse ROM) | Go |
0x367 | GAIN5 | Fine Gain Adjust for ADC5 (default from Fuse ROM) | Go |
Complex bit access types are encoded to fit into small table cells. Table 6-57 shows the codes that are used for access types in this section.
Access Type | Code | Description |
---|---|---|
Read Type | ||
R | R | Read |
Write Type | ||
W | W | Write |
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. |
CONFIG_A is shown in Figure 6-20 and described in Table 6-58.
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Configuration A (default: 0x30)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
SOFT_RESET | RESERVED | ASCEND | SDO_ACTIVE | RESERVED | |||
R/W-0x0 | R/W-0x0 | R/W-0x1 | R-0x1 | R/W-0x0 | |||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | SOFT_RESET | R/W | 0x0 | Setting this bit causes a full reset of the chip and all SPI registers (including CONFIG_A). This bit is self-clearing. After writing this bit, the part may take up to 750ns to reset. During this time, do not perform any SPI transactions. |
6 | RESERVED | R/W | 0x0 | Must write default value. |
5 | ASCEND | R/W | 0x1 | 0 : Address is decremented during streaming reads/writes 1 : Address is incremented during streaming reads/writes (default) |
4 | SDO_ACTIVE | R | 0x1 | Always returns 1. Always use SDO for SPI reads. No SDIO mode supported. |
3:0 | RESERVED | R/W | 0x0 |
DEVICE_CONFIG is shown in Figure 6-21 and described in Table 6-59.
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Device Configuration (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | MODE | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:2 | RESERVED | R/W | 0x0 | Must write default value. |
1:0 | MODE | R/W | 0x0 | 0 : Normal operation (default) 1 : Reserved 2 : Reserved 3 : Power down (full device) |
VENDOR_ID is shown in Figure 6-22 and described in Table 6-60.
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Vendor Identification (Default = 0x0451)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
VENDOR_ID | |||||||
R-0x0 | |||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
VENDOR_ID | |||||||
R-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:0 | VENDOR_ID | R | 0x0 | Always returns 0x0451 (Vendor ID for Texas Instruments) |
USR0 is shown in Figure 6-23 and described in Table 6-61.
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User SPI Configuration (Default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | ADDR_HOLD | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | ADDR_HOLD | R/W | 0x0 | 0 : Use ASCEND register to select address ascend/descend mode (default) 1 : Address stays constant throughout streaming operation; useful for reading and writing calibration vector information at the CAL_DATA register |
CLK_CTRL0 is shown in Figure 6-24 and described in Table 6-62.
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Clock Control 0 (default: 0x80)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | SYSREF_PROC_EN | SYSREF_RECV_EN | SYSREF_ZOOM | SYSREF_SEL | |||
R/W-0x1 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | |||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RESERVED | R/W | 0x1 | Must write default value. |
6 | SYSREF_PROC_EN | R/W | 0x0 | This bit enables the SYSREF processor, which allows the device to process SYSREF events (default: disabled). SYSREF_RECV_EN must be set before setting SYSREF_PROC_EN. |
5 | SYSREF_RECV_EN | R/W | 0x0 | Set this bit to enable the SYSREF receiver circuit (default: disabled) |
4 | SYSREF_ZOOM | R/W | 0x0 | Set this bit to zoom in the SYSREF windowing status and delays (impacts SYSERF_POS and SYSREF_SEL). When set, the delays used in the SYSREF windowing feature (reported in the SYSREF_POS register) become smaller. Use SYSREF_ZOOM for high clock rates, specifically when multiple SYSREF valid windows are encountered in the SYSREF_POS register; see the SYSREF Position Detector and Sampling Position Selection (SYSREF Windowing) section. |
3:0 | SYSREF_SEL | R/W | 0x0 | Set this field to select which SYSREF delay to use. Set this field based on the results returned by SYSREF_POS; see the SYSREF Position Detector and Sampling Position Selection (SYSREF Windowing) section. |
CLK_CTRL1 is shown in Figure 6-25 and described in Table 6-63.
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Clock Control 1 (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | DEVCLK_LVPECL_EN | SYSREF_LVPECL_EN | SYSREF_INVERTED | ||||
R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:3 | RESERVED | R/W | 0x0 | Must write default value. |
2 | DEVCLK_LVPECL_EN | R/W | 0x0 | Activate low voltage PECL mode for DEVCLK. The internal termination for each input pin (CLK+ and CLK–) becomes a 50-Ω resistor to ground. There is no input common-mode self-biasing for CLK± when DEVCLK_LVPECL_EN is set to 1. |
1 | SYSREF_LVPECL_EN | R/W | 0x0 | Activate low voltage PECL mode for SYSREF. The internal termination for each input pin (SYSREF+ and SYSREF–) becomes a 50-Ω resistor to ground. There is no input common-mode self-biasing for SYSREF± when SYSREF_LVPECL_EN is set to 1. |
0 | SYSREF_INVERTED | R/W | 0x0 | This bit inverts the SYSREF signal used for alignment. |
CLK_CTRL2 is shown in Figure 6-26 and described in Table 6-64.
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Clock Control 1 (default: 0x10)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | VA11Q_NOISESUPPR_EN | RESERVED | VCLK11_NOISESUPPR_EN | ||||
R/W-0x1 | R/W-0x0 | R/W-0x0 | R/W-0x0 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:3 | RESERVED | R/W | 0x0 | Must write default value. |
2 | VA11Q_NOISESUPPR_EN | R/W | 0x0 | When set, noise on VA11Q is suppressed while drawing ~ 20mA of current. This will reduce sampling jitter and reduce the reference clock spur in C-PLL modes and SYSREF spurs. |
1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | VCLK11_NOISESUPPR_EN | R/W | 0x0 | When set, noise on VCLK11 is suppressed while drawing ~ 20mA of current. This will reduce sampling jitter and reduce the reference clock spur in C-PLL modes and SYSREF spurs. |
SYSREF_POS is shown in Figure 6-27 and described in Table 6-65.
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SYSREF Capture Position (read-only status)
23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
SYSREF_POS | |||||||
R-0x0 | |||||||
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
SYSREF_POS | |||||||
R-0x0 | |||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
SYSREF_POS | |||||||
R-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
23:0 | SYSREF_POS | R | 0x0 | Returns a 24-bit status value that indicates the position of the SYSREF edge with respect to CLK±. Use this to program SYSREF_SEL. |
FS_RANGE is shown in Figure 6-28 and described in Table 6-66.
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FS_RANGE (default: 0xA000)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
FS_RANGE | |||||||
R/W-0xA000 | |||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
FS_RANGE | |||||||
R/W-0xA000 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:0 | FS_RANGE | R/W | 0xA000 | These bits enable adjustment of the analog full-scale range for all channels. 0x0000: Settings below 0x2000 result in degraded performance 0x2000: 500 mVPP - Recommended minimum setting 0xA000: 800 mVPP (default) 0xFFFF: 1000 mVPP - Maximum setting, highest SNR |
LOW_POWER1 is shown in Figure 6-29 and described in Table 6-67.
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Low Power Mode 1 (default: 0x4B)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
LOW_POW_MODE1 | |||||||
R/W-0x4B | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | LOW_POW_MODE1 | R/W | 0x4B | Set this register along with LOW_POWER2, LOW_POWER3 and LOW_POWER4 to enable Low Power Mode. All registers must be set together. Calibration must be performed after changing the operating mode: 0x46 : Low Power Mode (only valid when sampling rate is less than or equal to 1 GSPS) 0x4B : High Performance Mode (default) All other values are RESERVED Note: Must set CAL_EN to 0 and JESD_EN to 0 before changing this register. |
TMSTP_CTRL is shown in Figure 6-30 and described in Table 6-68.
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TIMESTAMP (TMSTP) Control (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | TMSTP_LVPECL_EN | TMSTP_RECV_EN | |||||
R/W-0x0 | R/W-0x0 | R/W-0x0 | |||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:2 | RESERVED | R/W | 0x0 | Must write default value. |
1 | TMSTP_LVPECL_EN | R/W | 0x0 | When set, activates the low voltage PECL mode for the differential TMSTP± input. The internal termination for each input pin (TMSTP+ and TMSTP–) becomes a 50-Ω resistor to ground. There is no input common-mode self-biasing for TMSTP± when TMSTP_LVPECL_EN is set to 1. |
0 | TMSTP_RECV_EN | R/W | 0x0 | Enables the differential differential TMSTP± input. |
PLLREFO_CTRL is shown in Figure 6-31 and described in Table 6-69.
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PLL Reference Output Control (default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | PLLREFO_EN | ||||||
R/W-0x0 | R/W-0x1 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | PLLREFO_EN | R/W | 0x1 | When set the reference clock output (PLLREFO±) is enabled whenever the PLL is enabled (PLL_EN=1). This bit defaults to 1 to cause PLLREFO± to enable automatically without SPI writes since PLLREFO± may be used to derive the SPI clock. |
CPLL_FBDIV1 is shown in Figure 6-32 and described in Table 6-70.
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C-PLL Feedback Divider V and P (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | PLL_P_DIV | PLL_V_DIV | |||||
R/W-0x0 | R/W-0x0 | R/W-0x0 | |||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:4 | RESERVED | R/W | 0x0 | Must write default value. |
3:2 | PLL_P_DIV | R/W | 0x0 | Controls the second feedback divider of C-PLL. The output of this divider is the sampling clock. Set CPLL_RESET=1 before changing PLL_P_DIV. 0 : divide-by-1 (default) 1 : divide-by-2 2 : divide-by-4 3 : RESERVED |
1:0 | PLL_V_DIV | R/W | 0x0 | Controls the first feedback divider of C-PLL. The output of this divider feeds the P divider. Set CPLL_RESET=1 before changing PLL_V_DIV. 0 : divide-by-5 (default) 1 : divide-by-4 2 : divide-by-3 3 : RESERVED |
CPLL_FBDIV2 is shown in Figure 6-33 and described in Table 6-71.
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C-PLL Feedback Divider N (default: 0x20)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | PLL_N_DIV | ||||||
R/W-0x0 | R/W-0x20 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | RESERVED | R/W | 0x0 | Must write default value. |
5:0 | PLL_N_DIV | R/W | 0x20 | Controls the third feedback divider of C-PLL (default is divide-by-32). This divider divides the sampling clock to generate the PFD feedback clock. The value of PLL_N_DIV is the divider value. Values from 1 to 63 are supported. Set CPLL_RESET=1 before changing PLL_N_DIV. |
CPLL_VCOCTRL1 is shown in Figure 6-34 and described in Table 6-72.
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C-PLL Feedback Divider N (default: 0x4F)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | VCO_BIAS | ||||||
R/W-0x0 | R/W-0x4F | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RESERVED | R/W | 0x0 | Must write default value. |
6:0 | VCO_BIAS | R/W | 0x4F | Sets the bias levels for the C-PLL VCO. Write 0x4A to this field when using the C-PLL. Do not use the default value of 0x4F. |
SER_PE is shown in Figure 6-35 and described in Table 6-73.
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Serializer Pre-Emphasis Control (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | SER_PE | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:4 | RESERVED | R/W | 0x0 | Must write default value. |
3:0 | SER_PE | R/W | 0x0 | Sets the pre-emphasis for the SerDes output lanes. Pre-emphasis can be used to compensate for the high-frequency loss of the PCB trace. This is a global setting that affects all lanes (D[7:0]±). |
TRIGOUT_CTRL is shown in Figure 6-36 and described in Table 6-74.
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TRIGOUT Output Control (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
TRIGOUT_EN | RESERVED | TRIGOUT | |||||
R/W-0x0 | R/W-0x0 | R/W-0x0 | |||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | TRIGOUT_EN | R/W | 0x0 | 0 : TRIGOUT± output buffer/divider is disabled. 1 : TRIGOUT± output buffer/divider is enabled. The RXCLK output can be used to provide a reference clock for the JESD204C receiver. Use the TRIGOUT_MODE field to adjust the output mode. |
6:3 | RESERVED | R/W | 0x0 | Must write default value. |
2:0 | TRIGOUT | R/W | 0x0 | Set the mode for the TRIGOUT± output. 0 : 16 UI clock (RX_DIV = 16) 1 : 32 UI clock (RX_DIV = 32) 2 : 64 UI clock (RX_DIV = 64) 3 : Resampled timestamp from TMSTP± 4-7 : RESERVED Note 1: Only change TRIGOUT_MODE when TRIGOUT_EN=0. Note 2: When TRIGOUT_MODE is 2 or less, TRIGOUT± is derived from the SerDes block. As a result, the TRIGOUT± output is briefly disrupted any time the serializer is re-initialized. |
CPLL_OVR is shown in Figure 6-37 and described in Table 6-75.
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C-PLL Pin Override (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
CPLL_OVR_EN | RESERVED | DIVREF_D_MODE | DIVREF_C_MODE | CPLLREF_SE_OVR_VALUE | CPLL_EN_OVR_VALUE | ||
R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | ||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | CPLL_OVR_EN | R/W | 0x0 | Set this bit to ignore the C-PLL configuration pins and use SPI
registers instead. 0 : Pin Mode : The C-PLL is controlled by chip pins (PLL_EN, PLLREF_SE, CLKCFG0, CLKCFG1) 1 : SPI Mode : The C-PLL is controlled by SPI registers (CPLLREF_SE_OVR_VALUE, CPLL_EN_OVR_VALUE, DIVREF_C_MODE, DIVREF_D_MODE) |
6 | RESERVED | R/W | 0x0 | Must write default value. |
5:4 | DIVREF_D_MODE | R/W | 0x0 | When CPLL_OVR_EN=1, this field sets the ORD output function. When
CPLL_OVR_EN=0, this field has no effect (CLKCFG0 and CLKCFG1
controls ORD functionality). 0 : Divided reference output is disabled. 1 : Output C-PLL reference clock divided by 1 on ORD. 2 : Output C-PLL reference clock divided by 2 on ORD. 3 : Output C-PLL reference clock divided by 4 on ORD. **Important Note: ORD cannot produce a clock unless ORC is also producing a clock). |
3:2 | DIVREF_C_MODE | R/W | 0x0 | When CPLL_OVR_EN=1, this field sets the ORC output function. When
CPLL_OVR_EN=0, this field has no effect (CLKCFG0 and CLKCFG1
controls ORC functionality). 0 : Divided reference output is disabled. 1 : Output C-PLL reference clock divided by 1 on ORC. 2 : Output C-PLL reference clock divided by 2 on ORC. 3 : Output C-PLL reference clock divided by 4 on ORC. |
1 | CPLLREF_SE_OVR_VALUE | R/W | 0x0 | When CPLL_OVR_EN=1, this bit enables the single-ended C-PLL reference clock input (SE_CLK) when set to 1 instead of the PLLREF_SE pin. |
0 | CPLL_EN_OVR_VALUE | R/W | 0x0 | When CPLL_OVR_EN=1, this bit enables the C-PLL when set to 1 instead of the PLL_EN pin. |
VCO_FREQ_TRIM is shown in Figure 6-38 and described in Table 6-76.
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C-PLL VCO Frequency Trim (default: undefined)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | VCO_FREQ_TRIM | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RESERVED | R/W | 0x0 | Must write default value. |
6:0 | VCO_FREQ_TRIM | R/W | 0x0 | Trims C-PLL VCO frequency. This field can be automatically set by the
VCO calibration routine (see VCO_CAL_EN). After VCO calibration has
been run the value can be read from this field and reprogrammed
after future power-up cycles. If VCO calibration is running (VCO_CAL_EN=1 and VCO_CAL_DONE=0), you should not read or write this register since it will interfere with the calibration process. |
CPLL_RESET is shown in Figure 6-39 and described in Table 6-77.
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C-PLL / VCO Calibration Reset (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | CPLL_RESET | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | CPLL_RESET | R/W | 0x0 | C-PLL / VCO calibration reset. Program CPLL_RESET=1 before programming the C-PLL (PLL_P_DIV, PLL_V_DIV, PLL_N_DIV, VCO_BIAS or VCO_CAL_CTRL). Program CPLL_RESET=0 after programming is completed. |
VCO_CAL_CTRL is shown in Figure 6-40 and described in Table 6-78.
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VCO Calibration Control (default: 0x40)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | VCO_CAL_STL | RESERVED | VCO_CAL_EN | ||||
R/W-0x0 | R/W-0x4 | R/W-0x0 | R/W-0x0 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RESERVED | R/W | 0x0 | Must write default value. |
6:4 | VCO_CAL_STL | R/W | 0x4 | Program this field to adjust the settling time that the VCO calibration engine gives to the C-PLL each time it changes the VCO frequency trim (VCO_FREQ_TRIM). Larger numbers result in longer settling times. |
3:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | VCO_CAL_EN | R/W | 0x0 | Set this bit to enable the VCO calibration engine. The calibration
commences once CPLL_RESET is programmed to 0. The calibration will
automatically tune VCO_FREQ_TRIM to center the VCO frequency based
on the reference frequency and PLL configuration. Note: The VCO_CAL_CTRL register should only be changed when CPLL_RESET=1. |
VCO_CAL_STATUS is shown in Figure 6-41 and described in Table 6-79.
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VCO Calibration Status (read-only) (default: undefined)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | VCO_CAL_DONE | ||||||
R-0x0 | R-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R | 0x0 | |
0 | VCO_CAL_DONE | R | 0x0 | This bit returns ‘1’ once the VCO calibration engine has completed calibration (or calibration was skipped because VCO_CAL_EN=0). Once the calibration is completed, you can safely read or write the VCO_FREQ_TRIM register (never write VCO_FREQ_TRIM during calibration). |
CAL_EN is shown in Figure 6-42 and described in Table 6-80.
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Calibration Enable (Default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | CAL_EN | ||||||
R/W-0x0 | R/W-0x1 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | CAL_EN | R/W | 0x1 | Calibration Enable. Set high to run calibration. Set low to hold calibration in reset to program new calibration settings. Clearing CAL_EN also resets the clock dividers that clock the digital block and JESD204C interface. Some calibration registers require clearing CAL_EN before making any changes. All registers with this requirement contain a note in their descriptions. After changing the registers, set CAL_EN to re-run calibration with the new settings. Always set CAL_EN before setting JESD_EN. Always clear JESD_EN before clearing CAL_EN. |
CAL_CFG0 is shown in Figure 6-43 and described in Table 6-81.
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Calibration Configuration 0 (Default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | CAL_BGOS | CAL_OS | CAL_BG | CAL_FG | |||
R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x1 | |||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:4 | RESERVED | R/W | 0x0 | Must write default value. |
3 | CAL_BGOS | R/W | 0x0 | 0 : Disable background offset calibration (default) 1 : Enable background offset calibration (requires CAL_BG to be set). |
2 | CAL_OS | R/W | 0x0 | 0 : Disable foreground offset calibration (default) 1 : Enable foreground offset calibration (requires CAL_FG to be set). |
1 | CAL_BG | R/W | 0x0 | 0 : Disable background calibration (default) 1 : Enable background calibration |
0 | CAL_FG | R/W | 0x1 | 0 : Reset calibration values, skip foreground calibration. 1 : Reset calibration values, then run foreground calibration (default). |
CAL_CFG1 is shown in Figure 6-44 and described in Table 6-82.
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Calibration Configuration 1 (Default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | OSREF | RESERVED | |||||
R/W-0x0 | R/W-0x0 | R/W-0x1 | |||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:3 | RESERVED | R/W | 0x0 | Must write default value. |
2 | OSREF | R/W | 0x0 | Defines which reference is used for offset calibration: 0 : Use mid-code as the reference (calibrate to zero-offset). The analog input signal must have no offset during offset calibration (typically true if AC-coupled). 1 : Use the spare ADC output samples as the reference (calibrates primary ADC offsets to match the spare ADC that stands in for them). The analog input signal can have an offset (e.g. DC-coupled). Only use this mode when CAL_BG=1. Setting OSREF=1 while CAL_BG=0 will produce undefined results. |
1:0 | RESERVED | R/W | 0x1 | Must write default value. |
CAL_AVG is shown in Figure 6-45 and described in Table 6-83.
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Calibration Averaging (default: 0x61)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | OS_AVG | RESERVED | CAL_AVG | ||||
R/W-0x0 | R/W-0x6 | R/W-0x0 | R/W-0x1 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RESERVED | R/W | 0x0 | Must write default value. |
6:4 | OS_AVG | R/W | 0x6 | Select the amount of averaging used for the offset correction routine. A larger number corresponds to more averaging. |
3 | RESERVED | R/W | 0x0 | Must write default value. |
2:0 | CAL_AVG | R/W | 0x1 | Select the amount of averaging used for the linearity calibration routine. A larger number corresponds to more averaging. |
CAL_STATUS is shown in Figure 6-46 and described in Table 6-84.
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Calibration Status (default: undefined) (read-only)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | CAL_STAT | CAL_STOPPED | FG_DONE | ||||
R-0x0 | R-0x0 | R-0x0 | R-0x0 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R | 0x0 | |
4:2 | CAL_STAT | R | 0x0 | Calibration status code |
1 | CAL_STOPPED | R | 0x0 | This bit returns a 1 when background calibration is successfully stopped at the requested phase. This bit returns a 0 when calibration starts operating again. If background calibration is disabled, this bit is set when foreground calibration is completed or skipped. |
0 | FG_DONE | R | 0x0 | This bit is high to indicate that foreground calibration has completed (or was skipped). |
CAL_PIN_CFG is shown in Figure 6-47 and described in Table 6-85.
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Calibration Pin Configuration (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | CAL_STATUS_SEL | CAL_TRIG_EN | |||||
R/W-0x0 | R/W-0x0 | R/W-0x0 | |||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:3 | RESERVED | R/W | 0x0 | Must write default value. |
2:1 | CAL_STATUS_SEL | R/W | 0x0 | 0 : CALSTAT output matches FG_DONE. 1 : CALSTAT output matches CAL_STOPPED. 2 : CALSTAT output matches ALARM. 3 : CALSTAT output is always low. |
0 | CAL_TRIG_EN | R/W | 0x0 | This bit selects the hardware or software trigger source. 0 : Use the CAL_SOFT_TRIG register for the calibration trigger. The CALTRIG input is disabled (ignored). 1 : Use the CALTRIG input for the calibration trigger. The CAL_SOFT_TRIG register is ignored. |
CAL_SOFT_TRIG is shown in Figure 6-48 and described in Table 6-86.
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Calibration Software Trigger (default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | CAL_SOFT_TRIG | ||||||
R/W-0x0 | R/W-0x1 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | CAL_SOFT_TRIG | R/W | 0x1 | CAL_SOFT_TRIG is a software bit to provide the functionality of the CALTRIG input pin when there are no hardware resources to drive CALTRIG. Program CAL_TRIG_EN=0 to use CAL_SOFT_TRIG for the calibration trigger. Note: If no calibration trigger is needed, leave CAL_TRIG_EN=0 and CAL_SOFT_TRIG=1 (trigger set high). |
CAL_LP is shown in Figure 6-49 and described in Table 6-87.
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Low-Power Background Calibration (default: 0x88)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
LP_SLEEP_DLY | LP_WAKE_DLY | RESERVED | LP_TRIG | LP_EN | |||
R/W-0x4 | R/W-0x1 | R/W-0x0 | R/W-0x0 | R/W-0x0 | |||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | LP_SLEEP_DLY | R/W | 0x4 | These bits adjust how long an ADC sleeps before waking for calibration (only applies when LP_EN = 1 and LP_TRIG = 0). Values below 4 are not recommended because of limited overall power reduction benefits. 0: Sleep delay = 1,152 × tCLK 1: Sleep delay = 4,194,432 × tCLK 2: Sleep delay = 33,554,560 × tCLK 3: Sleep delay = 268,435,584 × tCLK 4: Sleep delay = 2,147,483,776 × tCLK (default, approximately 2.15 seconds with a 1.0-GHz clock) 5: Sleep delay = 17,179,869,312× tCLK 6: Sleep delay = 137,438,953,600 × tCLK 7: Sleep delay = 1,099,511,627,904 × tCLK |
4:3 | LP_WAKE_DLY | R/W | 0x1 | These bits adjust how much time is provided for settling before calibrating an ADC after the ADC wakes up (only applies when LP_EN = 1). Values lower than 1 are not recommended because there is insufficient time for the core to stabilize before calibration begins. 0: Wake delay = 1,152 × tCLK 1: Wake delay = 33,554,560 × tCLK (default, approximately 34 ms with a 1.0-GHz clock) 2: Wake delay = 268,435,584 × tCLK 3: Wake delay = 2,147,483,776 × tCLK |
2 | RESERVED | R/W | 0x0 | Must write default value. |
1 | LP_TRIG | R/W | 0x0 | 0 : ADC sleep duration is set by LP_SLEEP_DLY (autonomous mode). 1 : ADCs sleep until awoken by a trigger. An ADC is awoken when the calibration trigger is low. The offline ADC is sleeping when the calibration trigger is high. |
0 | LP_EN | R/W | 0x0 | 0 : Disable low-power background calibration (default) 1 : Enable low-power background calibration (only applies when CAL_BG=1). |
GAIN_TRIM is shown in Figure 6-50 and described in Table 6-88.
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Gain DAC Trim (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
GAIN_TRIM | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | GAIN_TRIM | R/W | 0x0 | This register trims the gain of all ADC cores. FS_RANGE should be used for full-scale range adjustment instead of GAIN_TRIM. |
BG_TRIM is shown in Figure 6-51 and described in Table 6-89.
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Band-Gap Trim (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | BG_TRIM | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:4 | RESERVED | R/W | 0x0 | Must write default value. |
3:0 | BG_TRIM | R/W | 0x0 | This register enables trimming of the internal band-gap reference. After reset, the factory trimmed value can be read and adjusted as required. |
RTRIM_A is shown in Figure 6-52 and described in Table 6-90.
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Resistor Trim for INA (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RTRIM_A | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | RTRIM_A | R/W | 0x0 | This register controls the INA± ADC input termination trim. After reset, the factory trimmed value can be read and adjusted as required. |
RTRIM_B is shown in Figure 6-53 and described in Table 6-91.
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Resistor Trim for INB (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RTRIM_B | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | RTRIM_B | R/W | 0x0 | This register controls the INB± ADC input termination trim. After reset, the factory trimmed value can be read and adjusted as required. |
RTRIM_C is shown in Figure 6-54 and described in Table 6-92.
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Resistor Trim for INC (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RTRIM_C | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | RTRIM_C | R/W | 0x0 | This register controls the INC± ADC input termination trim. After reset, the factory trimmed value can be read and adjusted as required. |
RTRIM_D is shown in Figure 6-55 and described in Table 6-93.
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Resistor Trim for IND (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RTRIM_D | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | RTRIM_D | R/W | 0x0 | This register controls the IND± ADC input termination trim. After reset, the factory trimmed value can be read and adjusted as required. |
ADC_SRC_DLY is shown in AC_SRC_DLY Register and described in ADC_SRC_DLY Register Field Descriptions. Only change this register while CAL_EN is 0.
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ADC Dither Control (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | |||||||
R/W-0x0 | R/W-0x08 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | ADC_SRC_DLY | R/W | 0x08 | Adjusts how long two ADCs will sample the same input at the same clock phase during background ADC swaps. The default value is appropriate for all ADCCLK frequencies. If using a reduced ADCCLK frequency, ADC_SRC_DLY can be set to 7 to reduce the glitch duration during fast background ADC swaps, however there is a greater risk of having a large glitch amplitude. Two ADCs will sample the same input for 4+2*ADC_SRC_DLY ADCCLK cycles. ADC_SRC_DLY can be programmed from 0 to 31. |
MUX_SEL_DLY is shown in MUX_SEL_DLY Register and described in MUX_SEL_DLY Register Field Descriptions.
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7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | MUX_SEL_DLY | ||||||
R/W-0x0 | R/W-0x07 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | MUX_SEL_DLY | R/W | 0x07 | Adjusts the delay added to the internal mux selection signal. This signal controls multiplexors that steer ADC core output data into the encoders. This delay only applies during background ADC swaps. This delay needs to be tuned to swap between sample streams during a small window of time when both sample streams are valid. MUX_SEL_DLY can be programmed from 0 to 31. |
ADC_DITH is shown in Figure 6-58 and described in Table 6-96.
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ADC Dither Control (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | ADC_DITH_ERR | ADC_DITH_AMP | ADC_DITH_EN | ||||
R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:3 | RESERVED | R/W | 0x0 | Must write default value. |
2 | ADC_DITH_ERR | R/W | 0x0 | Small rounding errors may occur when subtracting the dither signal. The error can be chosen to either slightly degrade SNR or to slightly increase the DC offset and FS/2 spur. In addition, the FS/4 spur will also be increased slightly while in single channel mode. 0 : Rounding error degrades SNR 1 : Rounding error degrades DC offset, FS/2 spur and FS/4 spur |
1 | ADC_DITH_AMP | R/W | 0x0 | 0 : Small dither for better SNR (default) 1 : Large dither for better spurious performance |
0 | ADC_DITH_EN | R/W | 0x0 | Set this bit to enable ADC dither. Dither can improve spurious performance at the expense of slightly degraded SNR. The dither amplitude (ADC_DITH_AMP) can be used to further tradeoff SNR and spurious performance. |
LSB_CTRL is shown in Figure 6-59 and described in Table 6-97.
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LSB Control Bit Output (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | TIME_STAMP_EN | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | TIME_STAMP_EN | R/W | 0x0 | When set, the transport layer transmits the timestamp signal on the LSB of the output samples. The latency of the timestamp signal (through the entire chip) should match the latency of the analog ADC inputs. Please also set TMSTP_RECV_EN when using TIME_STAMP_EN. Note 1: The control bit is placed on the LSB of the JESD204C samples. In some cases, the JESD204C sample width (N) is greater than the sample width from the ADC. In these cases, the control bit does not replace the LSB of the ADC sample since it is placed at the LSB of the N-bit field). Note 2: The control bit that is enabled by this register is never advertised in the ILA (CS is 0 in the ILA). |
JESD_EN is shown in Figure 6-60 and described in Table 6-98.
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JESD204C Subsystem Enable (default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | JESD_EN | ||||||
R/W-0x0 | R/W-0x1 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | JESD_EN | R/W | 0x1 | 0 : Disable JESD204C interface 1 : Enable JESD204C interface Note: Before altering other JESD204C registers, you must clear JESD_EN. When JESD_EN is 0, the block is held in reset and the serializers are powered down. The clocks are gated off to save power. The LMFC/LEMC counter is also held in reset, so SYSREF will not align the LMFC/LEMC. Note: Always set CAL_EN before setting JESD_EN. Note: Always clear JESD_EN before clearing CAL_EN. |
JMODE is shown in Figure 6-61 and described in Table 6-99.
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JESD204C Mode (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | JMODE | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | RESERVED | R/W | 0x0 | Must write default value. |
5:0 | JMODE | R/W | 0x0 | Specifies the JESD204C output mode. See JESD204C Mode table. Note: This register should only be changed when JESD_EN=0 and CAL_EN=0. |
KM1 is shown in Figure 6-62 and described in Table 6-100.
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JESD204C K Parameter (minus 1) (default: 0x1F)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
KM1 | |||||||
R/W-0x1F | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | KM1 | R/W | 0x1F | K is the number of frames per multiframe and this register must be programmed as K-1. Depending on the JMODE setting, there are constraints on the legal values of K (see K parameter in JESD204C Mode table). The default value is KM1=31, which corresponds to K=32. Note: For modes using the 64B/66B link layer, the KM1 register is ignored and the value of K is determined from E and F (which are derived from JMODE). The effective value of K is 256*E/F. Note: This register should only be changed when JESD_EN is 0. |
JSYNC_N is shown in Figure 6-63 and described in Table 6-101.
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JESD204C Manual Sync Request (default: 0x01)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | JSYNC_N | ||||||
R/W-0x0 | R/W-0x1 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R/W | 0x0 | Must write default value. |
0 | JSYNC_N | R/W | 0x1 | Set this bit to 0 to request JESD204C synchronization (equivalent to the SYNC~ signal being asserted). For normal operation, leave this bit set to 1. Note: The JSYNC_N register can always generate a synchronization request, regardless of the SYNC_SEL register. However, if the selected sync pin is stuck low, you cannot de-assert the synchronization request unless you program SYNC_SEL=2. |
JCTRL is shown in Figure 6-64 and described in Table 6-102.
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JESD204C Control (default: 0x03)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | ALT_LANES | SYNC_SEL | SFORMAT | SCR | |||
R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x1 | R/W-0x1 | |||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4 | ALT_LANES | R/W | 0x0 | 0 : Normal lane mapping (default) as shown in the JESD204C output mode section. Lanes 0 thru L-1 are used. 1 : Alternate lane mapping (use upper lanes). Lanes 4 to 4+L-1 are used. Lanes 0 to 3 are unused. This option is only supported when JMODE selects a mode that uses 4 or less lanes per link (L<=4). The behavior is undefined for modes that use more than 4 lanes. |
3:2 | SYNC_SEL | R/W | 0x0 | 0 : Use the SYNCSE input for SYNC~ function (default) 1 : Use the TMSTP± input for SYNC~ function. TMSTP_RECV_EN must also be set. 2 : Do not use any SYNC~ input pin (use JSYNC_N as a software SYNC~) |
1 | SFORMAT | R/W | 0x1 | Output sample format for JESD204C samples 0 : Offset binary 1 : Signed 2’s complement (default) |
0 | SCR | R/W | 0x1 | 0 : 8B/10B Scrambler disabled (applies only to 8B/10B modes) 1 : 8B/10B Scrambler enabled (default) Note 1: The 8b/10b scrambler is recommended to improve spurious noise and ensure that certain sample payloads cannot prevent the JESD204C receiver from detecting incorrect code-group or lane alignment. 64B/66B modes always use scrambling. This register does not apply to 64B/66B modes. Note: This register should only be changed when JESD_EN is 0. |
JTEST is shown in Figure 6-65 and described in Table 6-103.
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JESD204C Test Control (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | JTEST | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | JTEST | R/W | 0x0 | 0 : Test mode disabled. Normal operation (default) 1 : PRBS7 test mode 2 : PRBS15 test mode 3 : PRBS23 test mode 4 : Ramp test mode 5 : Transport Layer test mode 6 : D21.5 test mode 7 : K28.5 test mode* 8 : Repeated ILA test mode* 9 : Modified RPAT test mode* 10: Serial outputs held low 11: Serial outputs held high 12: RESERVED 13: PRBS9 test mode 14: PRBS31 test mode 15: Clock test pattern (0x00FF) 16: K28.7 test mode* 17-31: RESERVED * These test modes are only supported when JMODE is selecting a mode that utilizes 8B/10B encoding. Note: This register should only be changed when JESD_EN is 0. |
DID is shown in Figure 6-66 and described in Table 6-104.
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JESD204C DID Parameter (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
DID | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | DID | R/W | 0x0 | Specifies the DID (Device ID) value that is transmitted during the second multiframe of the JESD204B ILA. Note: This register should only be changed when JESD_EN is 0. |
FCHAR is shown in Figure 6-67 and described in Table 6-105.
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JESD204C Frame Character (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | FCHAR | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:2 | RESERVED | R/W | 0x0 | Must write default value. |
1:0 | FCHAR | R/W | 0x0 | Specify which comma character is used to denote end-of-frame. This character is transmitted opportunistically. This only applies to modes that utilize 8B/10B encoding. 0 : Use K28.7 (default) (JESD204C compliant) 1 : Use K28.1 (not JESD204C compliant) 2 : Use K28.5 (not JESD204C compliant) 3 : Reserved When using a JESD204C receiver, always use FCHAR=0. When using a general purpose 8B/10B receiver, the K28.7 character may cause issues. When K28.7 is combined with certain data characters, a false, misaligned comma character can result, and some receivers will re-align to the false comma. To avoid this, program FCHAR to 1 or 2. Note: This register should only be changed when JESD_EN is 0. |
JESD_STATUS is shown in Figure 6-68 and described in Table 6-106.
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JESD204C / System Status Register
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | LINK_UP | SYNC_STATUS | REALIGNED | ALIGNED | SPLL_LOCKED | RESERVED | CPLL_LOCKED |
R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 | R/W-0x0 |
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RESERVED | R/W | 0x0 | |
6 | LINK_UP | R/W | 0x0 | When set, indicates that the JESD204C link is up. |
5 | SYNC_STATUS | R/W | 0x0 | Returns the state of the JESD204C SYNC~ signal. 0 : SYNC~ asserted 1 : SYNC~ de-asserted |
4 | REALIGNED | R/W | 0x0 | When high, indicates that the digital block clock, frame clock, or multiframe clock phase was realigned by SYSREF. Writing a 1 to this bit will clear it. |
3 | ALIGNED | R/W | 0x0 | When high, indicates that the multiframe (LMFC) clock phase has been established by SYSREF. The first SYSREF event after enabling the JESD204B encoder will set this bit. Writing a 1 to this bit will clear it. |
2 | SPLL_LOCKED | R/W | 0x0 | When high, indicates that the SerDes PLL (S-PLL) is locked. |
1 | RESERVED | R/W | 0x0 | |
0 | CPLL_LOCKED | R/W | 0x0 | When high, indicates that the converter PLL (C-PLL) is locked. |
CH_EN is shown in Figure 6-69 and described in Table 6-107.
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JESD204C Channel Enable (default: 0x03)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | SINGLE_CH_EN | CD_EN | AB_EN | ||||
R/W-0x0 | R/W-0x0 | R/W-0x1 | R/W-0x1 | ||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:3 | RESERVED | R/W | 0x0 | Must write default value. |
2 | SINGLE_CH_EN | R/W | 0x0 | When set, single channel mode is enabled and channels B, C and D are disabled. AB_EN must be set to 1. |
1 | CD_EN | R/W | 0x1 | When set, the C and D channels are enabled. Set to 0 to disable channels C and D. Set this bit to enable dual channel operation. |
0 | AB_EN | R/W | 0x1 | When set, the A and B channels are enabled. Set to 0 to disable channel A and B. Important notes: 1. You must set CAL_EN=0 and JESD_EN=0 before changing CH_EN. 2. Do not use this register to disable (power down) all channels since this state is undefined. Instead use the MODE register to power down the full device. 3. When either pair of channels is disabled, the JESD204C link will scale down the number of lanes and converters: L = ceiling(Lx/2) and M = Mx/2. If Lx is odd, tail bits are added to the end of the highest lane to pad out the frame (as per the JESD204C standard). 4. When AB_EN=0, the samples for channels C & D are placed within the JESD204C frame where the A & B samples would normally be located. |
SHMODE is shown in Figure 6-70 and described in Table 6-108.
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JESD204C Sync Word Mode (default: 0x00)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | SHMODE | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:2 | RESERVED | R/W | 0x0 | Must write default value. |
1:0 | SHMODE | R/W | 0x0 | Select the mode for the 64B/66B sync word (32 bits of data per multi-block). This only applies when JMODE is selecting a 64B/66B mode. 0 : Transmit CRC-12 signal (default setting) 1 : RESERVED 2 : Transmit FEC signal 3 : RESERVED Note: This device does not support any JESD204C command features. All command fields will be set to zero (idle headers). Note: This register should only be changed when JESD_EN is 0. |
SYNC_THRESH is shown in Figure 6-71 and described in Table 6-109.
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JESD204C SYNC~ Threshold (default: 0x03)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | SYNC_THRESH | ||||||
R/W-0x0 | R/W-0x3 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | SYNC_THRESH | R/W | 0x3 | This register defines how many times the SYNC~ signal must be sampled low before the JESD204C transmitter interprets it as a synchronization request. The SYNC~ signal is sampled by the link clock (fS/2). If SYNC~ is sampled low for SYNC_THRESH+1 consecutive clock cycles, it will be interpreted as a synchronization request. Refer to JESD204C section 8.8.2 for more details. If SYNC~ is sampled low for less than SYNC_THRESH+1 clock cycles, it is considered to be an error report and is ignored. Note: This register should only be changed when JESD_EN is 0. Note: Since this design does not do anything with an error reported on the SYNC~ interface, it is recommended that error reporting be disabled on the receiver and SYNC_THRESH programmed to 0. This provides the fastest response time for synchronization requests. |
OVR_TH is shown in Figure 6-72 and described in Table 6-110.
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Over-range Threshold (default: 0xF2)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OVR_TH | |||||||
R/W-0xF2 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | OVR_TH | R/W | 0xF2 | This parameter defines the absolute sample level that causes the over-range outputs to be asserted. The detection level in dBFS (peak) is 20log10(OVR_TH/256) (Default: 0xF2 = 242-> -0.5dBFS) |
OVR_CFG is shown in Figure 6-73 and described in Table 6-111.
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Over-range Enable / Hold Off (default: 0x07)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | OVR_EN | OVR_N | |||||
R/W-0x0 | R/W-0x0 | R/W-0x7 | |||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:4 | RESERVED | R/W | 0x0 | Must write default value. |
3 | OVR_EN | R/W | 0x0 | Enables over-range status output pins when set high. The ORA, ORB, ORC and ORD outputs are held low when OVR_EN is set low. |
2:0 | OVR_N | R/W | 0x7 | Program this register to adjust the pulse extension for the ORA, ORB, ORC and ORD outputs. The minimum pulse duration of the over-range outputs is 4 * 2OVR_N sampling cycles. Incrementing this field doubles the monitoring period. |
INIT_STATUS is shown in Figure 6-74 and described in Table 6-112.
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Initialization Status (read-only)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | INIT_DONE | ||||||
R-0x0 | R-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R | 0x0 | |
0 | INIT_DONE | R | 0x0 | Returns 1 when the initialization logic has finished initializing the device. This indicates that it is now safe to proceed with startup. No SPI transactions should be performed before INIT_DONE returns 1 (except SOFT_RESET). |
LOW_POWER2 is shown in Figure 6-75 and described in Table 6-113.
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Low Power Mode 2 (default: 0x0F)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
LOW_POW_MODE2 | |||||||
R/W-0xF | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | LOW_POW_MODE2 | R/W | 0xF | Set this register along with LOW_POWER1, LOW_POWER3 and LOW_POWER4 to enable Low Power Mode. All registers must be set together. Calibration must be performed after changing the operating mode: 0x06 : Low Power Mode (only valid when sampling rate is less than or equal to 1 GSPS) 0x0F : High Performance Mode (default) All other values are RESERVED Note: Must set CAL_EN to 0 and JESD_EN to 0 before changing this register. |
LOW_POWER3 is shown in Figure 6-76 and described in Table 6-114.
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Low Power Mode 3 (default: 0x04)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
LOW_POW_MODE3 | |||||||
R/W-0x4 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | LOW_POW_MODE3 | R/W | 0x4 | Set this register along with LOW_POWER1, LOW_POWER2 and LOW_POWER4 to enable Low Power Mode. All registers must be set together. Calibration must be performed after changing the operating mode: 0x00 : Low Power Mode (only valid when sampling rate is less than or equal to 1 GSPS) 0x04 : High Performance Mode (default) All other values are RESERVED Note: Must set CAL_EN to 0 and JESD_EN to 0 before changing this register. |
LOW_POWER4 is shown in Figure 6-77 and described in Table 6-115.
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Low Power Mode 4 (default: 0x1B)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
LOW_POW_MODE4 | |||||||
R/W-0x1B | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | LOW_POW_MODE4 | R/W | 0x1B | Set this register along with LOW_POWER1, LOW_POWER2 and LOW_POWER3 to enable Low Power Mode. All registers must be set together. Calibration must be performed after changing the operating mode: 0x14 : Low Power Mode (only valid when sampling rate is less than or equal to 1 GSPS) 0x1B : High Performance Mode (default) All other values are RESERVED Note: Must set CAL_EN to 0 and JESD_EN to 0 before changing this register. |
ALARM is shown in Figure 6-78 and described in Table 6-116.
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Alarm Interrupt (read-only)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | ALARM | ||||||
R-0x0 | R-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:1 | RESERVED | R | 0x0 | |
0 | ALARM | R | 0x0 | This bit returns a ‘1’ whenever any alarm occurs that is unmasked in the ALM_STATUS register. Use ALM_MASK to mask (disable) individual alarms. CAL_STATUS_SEL can be used to drive the ALARM bit onto the CALSTAT output pin to provide a hardware alarm interrupt signal. |
ALM_STATUS is shown in Figure 6-79 and described in Table 6-117.
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Alarm Status (default: 0x3F, write to clear)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | FIFO_ALM | SPLL_ALM | LINK_ALM | REALIGNED_ALM | RESERVED | CLK_ALM | |
R/W-0x0 | R/W-0x1 | R/W-0x1 | R/W-0x1 | R/W-0x1 | R/W-0x1 | R/W-0x1 | |
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | RESERVED | R/W | 0x0 | |
5 | FIFO_ALM | R/W | 0x1 | FIFO overflow/underflow alarm: This bit is set whenever an active JESD204C lane FIFO experiences an underflow or overflow condition. Write a ‘1’ to clear this bit. To inspect which lane generated the alarm, read FIFO_LANE_ALM. |
4 | SPLL_ALM | R/W | 0x1 | S-PLL Lock Lost Alarm: This bit is set whenever the SerDes S-PLL is not locked. Write a ‘1’ to clear this bit. |
3 | LINK_ALM | R/W | 0x1 | Link Alarm: This bit is set whenever the JESD204C link is enabled, but is not in the DATA_ENC state (8B/10B modes). In 64B/66B modes, there is no DATA_ENC state, so this alarm will fire when the link first starts up, and will also fire if any event causes a FIFO/Serializer realignment. Write a ‘1’ to clear this bit. |
2 | REALIGNED_ALM | R/W | 0x1 | Realigned Alarm: This bit is set whenever SYSREF causes the internal clocks (including the LMFC/LEMC) to be realigned. Write a ‘1’ to clear this bit. |
1 | RESERVED | R/W | 0x1 | |
0 | CLK_ALM | R/W | 0x1 | Clock Alarm: This bit can be used to detect an upset to the internal digital block and JESD204C clocks. This bit is set whenever the internal clock dividers for the A and B channels do not match the C and D channels. Write a ‘1’ to clear this bit. Refer to the alarm section for the proper usage of this register. Note: After power-on reset or soft-reset, all alarm bits are set to ‘1.’ Note: When JESD_EN=0, all alarms (except CLK_ALM) are undefined. It is recommended that the user clears the alarms after setting JESD_EN=1. |
ALM_MASK is shown in Figure 6-80 and described in Table 6-118.
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Alarm Mask Register (default: 0x3F)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | MASK_FIFO_ALM | MASK_PLL_ALM | MASK_LINK_ALM | MASK_REALIGNED_ALM | RESERVED | MASK_CLK_ALM | |
R/W-0x0 | R/W-0x1 | R/W-0x1 | R/W-0x1 | R/W-0x1 | R/W-0x1 | R/W-0x1 | |
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:6 | RESERVED | R/W | 0x0 | Must write default value. |
5 | MASK_FIFO_ALM | R/W | 0x1 | When set, FIFO_ALM is masked and will not impact the ALARM register bit. |
4 | MASK_PLL_ALM | R/W | 0x1 | When set, PLL_ALM is masked and will not impact the ALARM register bit. |
3 | MASK_LINK_ALM | R/W | 0x1 | When set, LINK_ALM is masked and will not impact the ALARM register bit. |
2 | MASK_REALIGNED_ALM | R/W | 0x1 | When set, REALIGNED_ALM is masked and will not impact the ALARM register bit. |
1 | RESERVED | R/W | 0x1 | Must write default value. |
0 | MASK_CLK_ALM | R/W | 0x1 | When set, CLK_ALM is masked and will not impact the ALARM register bit. |
FIFO_LANE_ALM is shown in Figure 6-81 and described in Table 6-119.
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FIFO Overflow/Underflow Alarm (default: 0xFF)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
FIFO_LANE_ALM | |||||||
R/W-0xFF | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:0 | FIFO_LANE_ALM | R/W | 0xFF | FIFO_LANE_ALM[i] is set if the FIFO for lane i experiences overflow or underflow. Use this register to determine which lane(s) generated an alarm. Writing a ‘1’ to any bit in this register will clear the alarm (the alarm may immediately trip again if the overflow/underflow condition persists). Writing a ‘1’ to the FIFO_ALM register will clear all bits of this register. |
OFS0 is shown in Figure 6-82 and described in Table 6-120.
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Offset Adjustment for ADC0 (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS0 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS0 | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS0 | R/W | 0x0 | Offset adjustment value applied to ADC0. The format is unsigned. Important note: Do not access any OFS* registers if the calibration system is performing offset calibration. Case 1: If CAL_BGOS or CAL_BG is 0 and CAL_OS is 1, you may access OFS* registers after FG_DONE goes high. Case 2: If CAL_BG=1 and CAL_BGOS=1, you should not access the OFS* registers. For background calibration without continuous offset calibration, set CAL_OS to 1 and CAL_BG to 1, but keep CAL_BGOS set to 0. This will still calibrate the offset of the spare ADC cores during the foreground offset calibration step. Case 3: If none of the above conditions apply, you may access the OFS* registers without waiting. |
OFS1 is shown in Figure 6-83 and described in Table 6-121.
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Offset Adjustment for ADC1 (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS1 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS1 | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS1 | R/W | 0x0 | Offset adjustment value applied to ADC1. |
OFS2A is shown in Figure 6-84 and described in Table 6-122.
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Offset Adjustment for ADC2 (INA±) (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS2A | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS2A | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS2A | R/W | 0x0 | Offset adjustment value applied to ADC2 when sampling INA±. |
OFS2B is shown in Figure 6-85 and described in Table 6-123.
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Offset Adjustment for ADC2 (INB±) (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS2B | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS2B | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS2B | R/W | 0x0 | Offset adjustment value applied to ADC2 when sampling INB±. |
OFS3C is shown in Figure 6-86 and described in Table 6-124.
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Offset Adjustment for ADC3 (INC±) (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS3C | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS3C | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS3C | R/W | 0x0 | Offset adjustment value applied to ADC3 when sampling INC±. |
OFS3D is shown in Figure 6-87 and described in Table 6-125.
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Offset Adjustment for ADC3 (IND±) (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS3D | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS3D | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS3D | R/W | 0x0 | Offset adjustment value applied to ADC3 when sampling IND±. |
OFS4 is shown in Figure 6-88 and described in Table 6-126.
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Offset Adjustment for ADC4 (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS4 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS4 | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS4 | R/W | 0x0 | Offset adjustment value applied to ADC4. |
OFS5 is shown in Figure 6-89 and described in Table 6-127.
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Offset Adjustment for ADC5 (default from Fuse ROM)
15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
RESERVED | OFS5 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
OFS5 | |||||||
R/W-0x0 | |||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
15:12 | RESERVED | R/W | 0x0 | Must write default value. |
11:0 | OFS5 | R/W | 0x0 | Offset adjustment value applied to ADC5. |
GAIN0 is shown in Figure 6-90 and described in Table 6-128.
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Fine Gain Adjust for ADC0 (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN0 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN0 | R/W | 0x0 | Fine gain adjustment for ADC0. |
GAIN1 is shown in Figure 6-91 and described in Table 6-129.
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Fine Gain Adjust for ADC1 (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN1 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN1 | R/W | 0x0 | Fine gain adjustment for ADC1. |
GAIN2A is shown in Figure 6-92 and described in Table 6-130.
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Fine Gain Adjust for ADC2 (INA±) (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN2A | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN2A | R/W | 0x0 | Fine gain adjustment for ADC2 when sampling INA±. |
GAIN2B is shown in Figure 6-93 and described in Table 6-131.
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Fine Gain Adjust for ADC2 (INB±) (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN2B | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN2B | R/W | 0x0 | Fine gain adjustment for ADC2 when sampling INB±. |
GAIN3C is shown in Figure 6-94 and described in Table 6-132.
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Fine Gain Adjust for ADC3 (INC±) (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN3C | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN3C | R/W | 0x0 | Fine gain adjustment for ADC3 when sampling INC±. |
GAIN3D is shown in Figure 6-95 and described in Table 6-133.
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Fine Gain Adjust for ADC3 (IND±) (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN3D | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN3D | R/W | 0x0 | Fine gain adjustment for ADC3 when sampling IND±. |
GAIN4 is shown in Figure 6-96 and described in Table 6-134.
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Fine Gain Adjust for ADC4 (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN4 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN4 | R/W | 0x0 | Fine gain adjustment for ADC4. |
GAIN5 is shown in Figure 6-97 and described in Table 6-135.
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Fine Gain Adjust for ADC5 (default from Fuse ROM)
7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
RESERVED | GAIN5 | ||||||
R/W-0x0 | R/W-0x0 | ||||||
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7:5 | RESERVED | R/W | 0x0 | Must write default value. |
4:0 | GAIN5 | R/W | 0x0 | Fine gain adjustment for ADC5. |