SBAS837B August 2018 – April 2020 AMC1035
PRODUCTION DATA.
A differential input signal of 0 V ideally produces a stream of ones and zeros that are high 50% of the time. A differential input of 1 V produces a stream of ones and zeros that are high 90% of the time. With 16 bits of resolution, that percentage ideally corresponds to code 58982 (an unsigned code). A differential input of –1 V produces a stream of ones and zeros that are high 10% of the time and ideally results in code 6553 with 16-bit resolution. These input voltages are also the specified linear range of the AMC1035 with performance as specified in this document. If the input voltage value exceeds this range, the output of the modulator shows nonlinear behavior when the quantization noise increases. The output of the modulator clips with a stream of only zeros with an input less than or equal to –1.25 V or with a stream of only ones with an input greater than or equal to 1.25 V. In this case, however, the AMC1035 generates a single 1 (if the input is at negative full-scale) or 0 every 128 clock cycles to indicate proper device function (see the Fail-Safe Output section for more details). Figure 41 shows the input voltage versus the output modulator signal.
Equation 1 calculates the density of ones in the output bitstream for any input voltage value (with the exception of a full-scale input signal, as described in the Output Behavior in Case of a Full-Scale Input section):
The modulator bitstream on the DOUT pin changes with the rising edge of the clock signal applied on the CLKIN pin. Use the rising edge of the clock to latch the modulator bitstream at the input of the digital filter device.