ZHCSHD7A January 2018 – April 2020 ADC12DJ2700
PRODUCTION DATA.
The clocking subsystem of the ADC12DJ2700 has two input signals, device clock (CLK+, CLK–) and SYSREF (SYSREF+, SYSREF–). Within the clocking subsystem there is a noiseless aperture delay adjustment (tAD adjust), a clock duty cycle corrector, and a SYSREF capture block. Figure 65 describes the clocking subsystem.
The device clock is used as the sampling clock for the ADC core as well as the clocking for the digital processing and serializer outputs. Use a low-noise (low jitter) device clock to maintain high signal-to-noise ratio (SNR) within the ADC. In dual-channel mode, the analog input signal for each input is sampled on the rising edge of the device clock. In single-channel mode, both the rising and falling edges of the device clock are used to capture the analog signal to reduce the maximum clock rate required by the ADC. A noiseless aperture delay adjustment (tAD adjust) allows the user to shift the sampling instance of the ADC in fine steps in order to synchronize multiple ADC12DJ2700s or to fine-tune system latency. Duty cycle correction is implemented in the ADC12DJ2700 to ease the requirements on the external device clock while maintaining high performance. Table 5 summarizes the device clock interface in dual-channel mode and single-channel mode.
MODE OF OPERATION | SAMPLING RATE VS fCLK | SAMPLING INSTANT |
---|---|---|
Dual-channel mode | 1 × fCLK | Rising edge |
Single-channel mode | 2 × fCLK | Rising and falling edge |
SYSREF is a system timing reference used for JESD204B subclass-1 implementations of deterministic latency. SYSREF is used to achieve deterministic latency and for multi-device synchronization. SYSREF must be captured by the correct device clock edge in order to achieve repeatable latency and synchronization. The ADC12DJ2700 includes SYSREF windowing and automatic SYSREF calibration to ease the requirements on the external clocking circuits and to simplify the synchronization process. SYSREF can be implemented as a single pulse or as a periodic clock. In periodic implementations, SYSREF must be equal to, or an integer division of, the local multiframe clock frequency. Equation 2 is used to calculate valid SYSREF frequencies.