JAJSCV8B May 2016 – December 2021 ADC32RF80 , ADC32RF83
PRODUCTION DATA
The ADC32RF8x is equipped with three independent, complex NCOs per ADC channel. The oscillator generates a complex exponential sequence, as shown in Equation 2.
where
The complex exponential sequence is multiplied by the real input from the ADC to mix the desired carrier down to 0 Hz.
Each ADC channel has two DDCs. The first DDC has three NCOs and the second DDC has one NCO. The first DDC can dynamically select one of the three NCOs based on the GPIO pin or SPI selection. In wide-bandwidth mode (lower decimation factors, for example, 4 and 6), there can only be one DDC for each ADC channel. The NCO frequencies can be programmed independently through the DDCx, NCO[4:1], and the MSB and LSB register settings.
The NCO frequency setting is set by the 16-bit register value given by Equation 3:
where
For example:
If fS = 2949.12 MSPS, then the NCO register setting = 38230 (decimal).
Thus, fNCO is defined by Equation 4:
Any register setting changes that occur after the JESD204B interface is operational results in a non-deterministic NCO phase. If a deterministic phase is required, the JESD204B interface must be reinitialized after changing the register setting.