So I got this idea thinking... First, scenario will be testing how well DACs work.
Example: P Company makes Magic DAC. First, we're testing two identical units.
Test 1
- run 1kHz through the right channel of both DAC1 and DAC2, with DAC2's sine in opposite polarity (ie when DAC1 is at 1V and increasing in potential, DAC2 is at -1v, decreasing)
- stick a 1k ohm resistor on DAC1's output, and a ~1k ohm variable resistor on Magic DAC2's output
- adjust DAC2's variable resistor until its output impedance (DAC2's output impedance through its var. resistor) is the same as DAC1's output impedance through its 1k ohm resistor (to measure DAC1: connect the 1k ohm output resistor to ground, the volt meter across the resistor, send 1kHz at full scale, recording the voltage. Signal then sent to DAC2, its variable resistor adjusted to match record).
- DAC1: 1.94V with 1100 ohm impedance: exactly 1.76mA
- DAC2: 1.94V with 1100 ohm impedance: exactly 1.76mA
-----With DAC1 and DAC2 running opposite polarity, DAC2's average 1.76mA eats DAC1's average 1.76mA, and DAC1's average 1.76mA eats DAC2's average 1.76mA
-----Therefore, silence on the output.
Disagreements?
Test 2 (a)
- Same as Test 1, except 32 tone multitone is running
-----silence on the output
2b)
- Same as Test 2a, except instead of normal ~40dB level of tones, they are -60
-----silence on the output as well
Disagreements?
Test 3
- Same as Tests 2 , except instead of multitone, it's a random pop song
-----silence on the output
Disagreements?
Test 4
- We need a third DAC for this experiment, so we bought another Magic DAC (and are calling it DAC3). It's connected with the same polarity as DAC2, and has a 1k ohm var resistor (also calibrated). This means DAC3 could replace DAC2 in Test 2, and the result would be the same (silence).
- This test:
DAC1 plays 32 multitone @-60 and the random pop song from Test 3 is used. The music amplitude is set so that the music + 32 tones have a peak level of -4dB
DAC2 plays 32 multitone @-60 and that's it
DAC3 plays the random pop song
As before, DAC2 reverse polarity, and DAC3 is the same
-----silence on the output
Disagreements? Why or why not?
Things I didn't incorporate but are also true:
- Sample rate and bit depth: 24/192
- -3dB point: 91kHz
- no tricks (same filter is used on all DACs, signal is fed on the same clock)
I'm thinking of carrying this out
Example: P Company makes Magic DAC. First, we're testing two identical units.
Test 1
- run 1kHz through the right channel of both DAC1 and DAC2, with DAC2's sine in opposite polarity (ie when DAC1 is at 1V and increasing in potential, DAC2 is at -1v, decreasing)
- stick a 1k ohm resistor on DAC1's output, and a ~1k ohm variable resistor on Magic DAC2's output
- adjust DAC2's variable resistor until its output impedance (DAC2's output impedance through its var. resistor) is the same as DAC1's output impedance through its 1k ohm resistor (to measure DAC1: connect the 1k ohm output resistor to ground, the volt meter across the resistor, send 1kHz at full scale, recording the voltage. Signal then sent to DAC2, its variable resistor adjusted to match record).
- DAC1: 1.94V with 1100 ohm impedance: exactly 1.76mA
- DAC2: 1.94V with 1100 ohm impedance: exactly 1.76mA
-----With DAC1 and DAC2 running opposite polarity, DAC2's average 1.76mA eats DAC1's average 1.76mA, and DAC1's average 1.76mA eats DAC2's average 1.76mA
-----Therefore, silence on the output.
Disagreements?
Test 2 (a)
- Same as Test 1, except 32 tone multitone is running
-----silence on the output
2b)
- Same as Test 2a, except instead of normal ~40dB level of tones, they are -60
-----silence on the output as well
Disagreements?
Test 3
- Same as Tests 2 , except instead of multitone, it's a random pop song
-----silence on the output
Disagreements?
Test 4
- We need a third DAC for this experiment, so we bought another Magic DAC (and are calling it DAC3). It's connected with the same polarity as DAC2, and has a 1k ohm var resistor (also calibrated). This means DAC3 could replace DAC2 in Test 2, and the result would be the same (silence).
- This test:
DAC1 plays 32 multitone @-60 and the random pop song from Test 3 is used. The music amplitude is set so that the music + 32 tones have a peak level of -4dB
DAC2 plays 32 multitone @-60 and that's it
DAC3 plays the random pop song
As before, DAC2 reverse polarity, and DAC3 is the same
-----silence on the output
Disagreements? Why or why not?
Things I didn't incorporate but are also true:
- Sample rate and bit depth: 24/192
- -3dB point: 91kHz
- no tricks (same filter is used on all DACs, signal is fed on the same clock)
I'm thinking of carrying this out