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equipment:sig-gens [2018/11/30 11:33]
tggzzz
equipment:sig-gens [2020/02/14 13:15] (current)
tggzzz
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 There are several simple sine/triangle/square wave signal generators, with adjustible peak-to-peak voltage and voltage offset and duty cycle / symmetry. Their main use is for audio frequencies circuits and mechantronic circuits.  There are several simple sine/triangle/square wave signal generators, with adjustible peak-to-peak voltage and voltage offset and duty cycle / symmetry. Their main use is for audio frequencies circuits and mechantronic circuits. 
  
-Frequency range is up to a couple of %%MHz%%, but at those frequencies the waveform is less than perfect. With most, the front panel controls give a vagueindication of the operating frequency, but if accuracy is required then measure it with a scope or the [[frequency-counters|frequency counter]]. The Levell contains its own internal frequency meter.+Frequency range is up to a couple of %%MHz%%, but at those frequencies the waveform is less than perfect. With most, the front panel controls give a vague indication of the operating frequency, but if accuracy is required then measure it with a scope or the [[frequency-counters|frequency counter]]. The Levell contains its own internal frequency meter.
  
 The sig gens are all based around the classic ICL8038, which is effectively a 555 timer with some wave shaping. Consequently the sine waves are noticably distorted at the peaks, and they are unsuitable for serious audiophile purposes. The sig gens are all based around the classic ICL8038, which is effectively a 555 timer with some wave shaping. Consequently the sine waves are noticably distorted at the peaks, and they are unsuitable for serious audiophile purposes.
 +
 {{test_equipment:siggen8038.jpg?direct&200}} {{test_equipment:siggen-levell.jpg?direct&200}} {{test_equipment:siggen-peakSpike.jpg?direct&200}} {{test_equipment:siggen8038.jpg?direct&200}} {{test_equipment:siggen-levell.jpg?direct&200}} {{test_equipment:siggen-peakSpike.jpg?direct&200}}
 +
 +
 +==== RF ====
 +
 +For higher frequencies and when simple modulation is required, we have a Philips PM5390S. The key characteristics are:
 +  * 100kHz - 1000MHz
 +  * 50ohm output. At these frequencies 50ohm coax and 50ohm terminations are required if the amplitude is to be correct
 +  * accurate synthesised frequency and frequency sweeps
 +  * AM and FM modulation. The internal modulation is inflexible and sufficient for testing/simulating traditional old-school radios. External modulation could be used for more demanding purposes, but I doubt those are relevant at Hackspace
 +
 +A quick play with it indicates 
 +  * it is basically functional
 +  * since it is complex, it is useful to RTFM before using it!
 +  * it feels as if the internal attenuator or relays need cleanin
 +  * it looks like it could benefit from recapping the PSU
 +
 +
 +{{test_equipment:philips-pm5390s.jpg?direct&200}} 
 +
 +Unmodulated sine wave: {{test_equipment:philips-pm5390s-sine.jpg?direct&200}} 
 +
 +FM: {{test_equipment:philips-pm5390s-fm1.jpg?direct&200}} 
 +
 +AM: {{test_equipment:philips-pm5390s-am1.jpg?direct&200}} {{test_equipment:philips-pm5390s-am2.jpg?direct&200}} 
  
  
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   * a "complex" waveform useful when learning how to use an oscilloscope   * a "complex" waveform useful when learning how to use an oscilloscope
   * an RF signal generator, albeit only a modulated signal not a sine wave   * an RF signal generator, albeit only a modulated signal not a sine wave
 +  * when testing an old TV or monitor
  
 {{test_equipment:siggen-tvPattern.jpg?direct&200}} {{test_equipment:siggen-tvPattern.jpg?direct&200}}
  • equipment/sig-gens.1543577607
  • Last modified: 3 years ago
  • by tggzzz