Test Methodology:In these tests we are using a wide bandwidth digital scope to view the 49.152MHz master clock waveform at various points in the clock network. It is impossible to make proper measurements of a clock source unless you use a scope with a suitable bandwidth that can at least capture the 21st harmonic of the fundamental frequency of the clock frequency which means a scope with at least a 1GHz bandwidth. Not only that you need to use a probe with an equivalent or greater bandwidth to the scope and preferably an active probe to minimize loading.
To avoid loading down the device under test we use an active probe (Tek P6204) with at least 1GHz bandwidth along with the shortest ground connection to minimize loop inductance in the probe which would manifest itself as ringing in the waveform. We used a Tektronix TDS784A DSO scope with a 1GHz bandwidth and real time sampling rate of 4Gs/s as well as a 10Gs/s equivalent time sampling rate for our measurements. For the expanded scale measurement the scope was set to an equivalent sampling rate of 100 Gs/s. What we are looking for is minimum ringing and overshoot without any kinks in the clock transition interval.
Test Results:- Frequency Measurement (https://analog-precision.com/forum/performance-and-measurements/clock-fidelity-test/msg102/#msg102)
- Raw Output from the master clock oscillator (https://analog-precision.com/forum/performance-and-measurements/clock-fidelity-test/msg103/#msg103)
- Buffered Output from the clock buffer chip feeding the DAC (https://analog-precision.com/forum/performance-and-measurements/clock-fidelity-test/msg104/#msg104)
- Buffered Output from the clock buffer chip feeding the ADC (https://analog-precision.com/forum/performance-and-measurements/clock-fidelity-test/msg105/#msg105)
- Buffered Output from the clock buffer chip feeding the timing logic ! (https://analog-precision.com/forum/performance-and-measurements/clock-fidelity-test/msg106/#msg106)
Conclusion:As one can see from the scope shots below that in all cases the clock wave-forms are clean and stable and show minimum overshoot which means that the clock outputs are properly matched to the board traces in order to minimize transmission line effects and reflections.
P1050107.JPG
Tektronix P6204 Low Capacitance Active Probe with 1GHz bandwidth
P1050109.JPG
Active Probe applied to clock circuit using the shortest possible ground connection for minimum induced ringing and overshoot ;)
P1050106.JPG
Frequency is pretty much spot on !!
P1050102.JPG
Very well defined with no overshoot and smooth crossover transition !
CLK-OSC.bmp
As smooth as ;)
CLK-DAC.bmp
Minimal overshoot and ringing with a well defined transition period !
CLK-ADC.bmp
Minimal overshoot and ringing with a well defined transition period !
CLK-CPLD.bmp
Expanded scale with equivalent time sampling rate of 100 Gs/s !
CLK-CPLD(expanded).bmp