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| rstofer:
--- Quote from: Benta on March 20, 2019, 05:07:44 pm ---For a resolver, you'd normally use the excitation carrier peak as a trigger for A/D converting the sin/cos inputs. This way you'll get a reading of the sin/cos peaks, and will avoid delays from the envelope detector (which there will be, it's just a low pass filter). --- End quote --- Absolutely, an envelope detector wouldn't be satisfactory at all. |
| vk6zgo:
--- Quote from: Benta on March 20, 2019, 05:07:44 pm ---For a resolver, you'd normally use the excitation carrier peak as a trigger for A/D converting the sin/cos inputs. This way you'll get a reading of the sin/cos peaks, and will avoid delays from the envelope detector (which there will be, it's just a low pass filter). --- End quote --- With a non linear device included------ without that, it won't demodulates anything! |
| Benta:
--- Quote from: vk6zgo on March 21, 2019, 12:47:30 am --- --- Quote from: Benta on March 20, 2019, 05:07:44 pm ---For a resolver, you'd normally use the excitation carrier peak as a trigger for A/D converting the sin/cos inputs. This way you'll get a reading of the sin/cos peaks, and will avoid delays from the envelope detector (which there will be, it's just a low pass filter). --- End quote --- With a non linear device included------ without that, it won't demodulates anything! --- End quote --- I'm not sure you know the signal from a resolver. No need for anything non linear, it's pure sampling. |
| vk6zgo:
--- Quote from: Benta on March 21, 2019, 10:43:10 am --- --- Quote from: vk6zgo on March 21, 2019, 12:47:30 am --- --- Quote from: Benta on March 20, 2019, 05:07:44 pm ---For a resolver, you'd normally use the excitation carrier peak as a trigger for A/D converting the sin/cos inputs. This way you'll get a reading of the sin/cos peaks, and will avoid delays from the envelope detector (which there will be, it's just a low pass filter). --- End quote --- With a non linear device included------ without that, it won't demodulates anything! --- End quote --- I'm not sure you know the signal from a resolver. No need for anything non linear, it's pure sampling. --- End quote --- Sorry, I was really just commenting on the bit about the envelope detector.--- bit "tongue in cheek". |
| Benta:
--- Quote from: vk6zgo on March 21, 2019, 02:12:31 pm --- --- Quote from: Benta on March 21, 2019, 10:43:10 am --- I'm not sure you know the signal from a resolver. No need for anything non linear, it's pure sampling. --- End quote --- Sorry, I was really just commenting on the bit about the envelope detector.--- bit "tongue in cheek". --- End quote --- Well you're not wrong, just old fashioned :) In a classic resolver you'd multiply the excitation carrier with the sin/cos signals to extract the polarity of sin/cos. Is a multiplier is non-linear? Dunno how to classify it. Today its all digitized with fast ADCs. |
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