ZHCSOD8A November 2021 – May 2022 CDCDB400
PRODUCTION DATA
Table 8-4 lists the CDCDB400 registers. All register locations not listed in Table 8-4 should be considered as reserved locations and the register contents should not be modified.
Address | Acronym | Register Name | Section |
---|---|---|---|
0h | RCR1 | Reserved Control Register 1 | Go |
1h | OECR1 | Output Enable Control 1 | Go |
2h | OECR2 | Output Enable Control 2 | Go |
3h | OERDBK | Output Enable# Pin Read Back | Go |
4h | RCR2 | Reserved Control Register 2 | Go |
5h | VDRREVID | Vendor/Revision Identification | Go |
6h | DEVID | Device Identification | Go |
7h | BTRDCNT | Byte Read Count Control | Go |
8h | OUTSET | Output Setting Control | Go |
4Ch | CAPTRIM | Slew Rate Capacitor Cluster 1 & 2 | Go |
Complex bit access types are encoded to fit into small table cells. Table 8-5 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 |
RCR1 is shown in Table 8-6.
Return to the Summary Table.
The RCR1 register contains reserved bits.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-4 | Reserved | R | 4h | Reserved. |
3-0 | Reserved | R/W | 7h | Writing to these bits will not affect the functionality of the device. |
OECR1 is shown in Table 8-7.
Return to the Summary Table.
The OECR1 register contains bits that enable or disable individual output clock channels [1:0].
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
6 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
5 | OUT_EN_CLK1 | R/W | 1h | This bit controls the output enable
signal for output channel CK1_P/CK1_N. 0h = Output Disabled 1h = Output Enabled |
4 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
3 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
2 | OUT_EN_CLK0 | R/W | 1h | This bit controls the output enable
signal for output channel CK0_P/CK0_N. 0h = Output Disabled 1h = Output Enabled |
1 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
0 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
OECR2 is shown in Table 8-8.
Return to the Summary Table.
The OECR2 register contains bits that enable or disable individual output clock channels [3:2].
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-4 | Reserved | R/W | 0h | Writing to these bits will not affect the functionality of the device. |
3 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
2 | OUT_EN_CLK3 | R/W | 1h | This bit controls the output enable
signal for output channel CK3_P/CK3_N. 0h = Output Disabled 1h = Output Enabled |
1 | Reserved | R/W | 1h | Writing to this bit will not affect the functionality of the device. |
0 | OUT_EN_CLK2 | R/W | 1h | This bit controls the output enable
signal for output channel CK2_P/CK2_N. 0h = Output Disabled 1h = Output Enabled |
OERDBK is shown in Table 8-9.
Return to the Summary Table.
The OERDBK register contains bits that report the current state of the OE[3:0]# input pins.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7 | RB_OEZ3 | R | 0h | This bit reports the logic level present on the OE3# pin. |
6 | RB_OEZ2 | R | 0h | This bit reports the logic level present on the OE2# pin. |
5-4 | Reserved | R | 0h | Reserved. |
3 | RB_OEZ1 | R | 0h | This bit reports the logic level present on the OE1# pin. |
2 | Reserved | R | 0h | Reserved. |
1 | RB_OEZ0 | R | 0h | This bit reports the logic level present on the OE0# pin. |
0 | Reserved | R | 0h | Reserved. |
RCR2 is shown in Table 8-10.
Return to the Summary Table.
The RCR2 register contains reserved bits.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-0 | Reserved | R | 0h | Reserved. |
VDRREVID is shown in Table 8-11.
Return to the Summary Table.
The VDRREVID register contains a vendor identification code and silicon revision code.Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-4 | REV_ID | R | 0h | Silicon revision code. Silicon revision code bits [3:0] map to register bits [7:4] directly. |
3-0 | VENDOR_ID | R | Ah | Vendor identification code. Vendor ID bits [3:0] map to register bits [3:0] directly. |
DEVID is shown in Table 8-12.
Return to the Summary Table.
The DEVID register contains a device identification code.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-0 | DEV_ID | R | E7h | Device ID code. Device ID bits[7:0] map to register bits[7:0] directly. |
BTRDCNT is shown in Table 8-13.
Return to the Summary Table.
The BTRDCNT register contains bits [4:0] which configure the number of bytes which will be read back.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-5 | Reserved | R/W | 0h | Writing to these bits will not affect the functionality of the device. |
4 | BYTE_COUNTER | R/W | 0h | Writing to this register configures how many bytes will be read back. |
3-0 | BYTE_COUNTER | R/W | 8h |
OUTSET is shown in Table 8-14.
Return to the Summary Table.
Bit5 of the OUTSET register sets the termination for all the outputs while bit4 can be used to set the power-down state for all outputs. The remaining bits for this register are reserved.
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-6 | Reserved | R | 0h | Reserved. |
5 | CH_ZOUT_SEL | R/W | 0h | Select between 85 Ω (0) and 100 Ω (1) Output impedance |
4 | d_DRIVE_OP_STATE_CTRL | R/W | 0h | Power-down state of all output
clocks. 0: LOW/LOW 1: TRI_STATE |
3-0 | Reserved | R/W | 0h | Register bits can be written to 0. Writing a different value than 0 will affect device functionality. |
CAPTRIM is shown in Table 8-16.
Return to the Summary Table.Bits [7:4] of the CAPTRIM register is used to control the slew rate for output channel cluster 2. Bits [3:0] control the slew rate for output channel cluster 1. Refer below for cluster identification.
Cluster | Outputs |
---|---|
1 | CK1, CK0 |
2 | CK3, CK2 |
Bit | Field | Type | Reset | Description |
---|---|---|---|---|
7-4 | CLUSTER2_CAP_TRIM | R/W | 6h | Slew Rate Reduction Cap Trim for
Cluster 2 Default value of 6h. 0: minimum F: maximum |
3-0 | CLUSTER1_CAP_TRIM | R/W | 6h | Slew Rate Reduction Cap Trim for
Cluster 1. Default value of 6h. 0: minimum F: maximum |