SBASAX2A November 2023 – March 2024 DAC39RF10EF , DAC39RFS10EF
PRODUCTION DATA
There are several difference latencies defined for the device as shown in Figure 7-57 and listed in Table 7-44. The latency within the device is dependent on the mode of operation, including JMODE, Interpolation factor, RBD setting, NCO usage and DES setting. An Excel spreadsheet calculator is provided by TI to calculate the device latency in different modes of operation.
In JESD204C subclass 0 operation, the latency from Serdes input to DAC output is called TDAC_LAT0 and is not deteriministic and a minimum and maximum range is provided in the Excel spreadsheet calculator.
In JESD204C subclass 1 operation, the latency TDAC_LAT from the SYSREF input to DAC output is deterministic and is provided in the Excel spreadsheet calculator. The JESD204C link latency is deterministic as long as SYSREF is sampled reliably and the RBD value is set properly.
Latency Parameter | Definition |
---|---|
TRELEASE | Latency from the rising edge of CLK that follows the rising edge of SYSREF to release event for elastic buffer. (subclass 1 only). |
TDAC_LAT | Latency from the rising edge of CLK that follows the rising edge of SYSREF to the time of the first sample at the DAC output of the multiframe/extended multiblock launched by SYSREF (subclass 1 only). |
TRxIN | Latency from the receiver data inputs to the elastic buffer input, including the minimum setup time of the elastic buffer. This is non-deterministic, so a minimum and maximum limit are provided. |
TDAC_LAT0 | Latency from receiver data inputs (multiframe/EMB boundary) to first sample of a multiframe launched on DAC output. This is non-deterministic, so a minimum and maximum limit are provided (subclass 0 only). |