JAJSSY9 February 2024 ADC12DL1500 , ADC12DL2500 , ADC12DL500
PRODUCTION DATA
The ADC12DLx500 contains a delay adjustment on the device clock (sampling clock) input path, called tAD adjust, that can be used to shift the sampling instance within the device to align sampling instances among multiple devices or for external interleaving of multiple ADC12DLx500 devices. Further, tAD adjust can be used for automatic SYSREF calibration to simplify synchronization; see the Section 6.3.4.3.2 section. Aperture delay adjustment is implemented in a way that adds no additional noise to the clock path, however a slight degradation in aperture jitter (tAJ) is possible at large values of TAD_COARSE because of internal clock path attenuation. The degradation in aperture jitter can result in minor SNR degradations at high input frequencies (see tAJ in the Section 5.11 table). This feature is programmed using TAD_INV, TAD_COARSE, and TAD_FINE in the DEVCLK timing adjust ramp control register. Setting TAD_INV inverts the input clock resulting in a delay equal to half the clock period. Table 6-4 summarizes the step sizes and ranges of the TAD_COARSE and TAD_FINE variable analog delays. All three delay options are independent and can be used in conjunction. All clocks within the device are shifted by the programmed tAD adjust amount, which results in a shift of the timing of the LVDS data interface and affects the capture of SYSREF.
ADJUSTMENT PARAMETER | ADJUSTMENT STEP | DELAY SETTINGS | MAXIMUM DELAY |
---|---|---|---|
TAD_INV | 1 / (fCLK × 2) | 1 | 1 / (fCLK × 2) |
TAD_COARSE | See tTAD(STEP) in the Section 5.11 table | 256 | See tTAD(MAX) in the Section 5.11 table |
TAD_FINE | See tTAD(STEP) in the Section 5.11 table | 256 | See tTAD(MAX) in the Section 5.11 table |
To maintain timing alignment between converters, stable and matched power-supply voltages and device temperatures must be provided.
Aperture delay adjustment can be changed on-the-fly during normal operation, however changing the aperture delay also shifts the clock for the LVDS data interface (DxCLK±, DxSTR±, and Dx[11:0]±). The receiving circuit must be tolerant of shifts in the LVDS data timing. Use of the TAD_RAMP feature may help the receiver avoid loss of synchronization; see the Section 6.3.4.2 section.