The system incorporates two Frequency-to-Digital Converters (FDCs), one synchronous and one asynchronous. A selector controls a multiplexer, which chooses between these two FDCs. Both frequency signals are sent to the inputs of the chip. Depending on the selected mode, either the asynchronous or synchronous FDC processes the input signal. The chosen FDC then converts the frequency signal into a digital value, representing the frequency, which can be further processed or transmitted as needed.
To test this chip, connect the inputs as follows: ui[0] (selec) controls the multiplexer selector, ui[1] (clk_ref) receives the reference clock signal or frequency, ui[2] (VCO) is the frequency beig measured, and ui[3] (reset) is the reset input. Ensure all connections are secure and provide appropriate signals to these inputs. Monitor the outputs uo[0] to uo[4], which represent the digital values of the frequency measurements. Apply power to the chip, vary input signals, and toggle the selector pin to observe the chip's behavior under different conditions. Analyze the digital output values to verify the accuracy and performance of the chip, comparing them against expected frequency measurements to ensure compliance with specifications and requirements.
Waveform Generator and Logic Analyzer.
| # | Input | Output | Bidirectional |
|---|---|---|---|
| 0 | selec | out[0] | |
| 1 | clk_ref | out[1] | |
| 2 | VCO | out[2] | |
| 3 | reset | out[3] | |
| 4 | out[4] | ||
| 5 | |||
| 6 | |||
| 7 |