The only thing that could make sense is that you either have the wrong value for the output 330R resistor, or there is a fault in the wire to the jack, or in the jack itself.
KenOn Thu, May 17, 2018 at 5:17 AM, richs19@... [cgs_synth] <cgs_synth@yahoogroups.com> wrote:Thanks for your reply Ken. I’ve triple checked the orientation of the diodes against the PCB and against the working module. Ditto for the other components. I swapped the LM3900 with the same results. I can’t see any obvious error although it’s obvious I’ve made one.
I took some measurements;4.2 vDC (C3) INNo Input4.2V Input#001#004#001#004IN Top0.0880.1004.24.2OUT DC Top0.7920.7864.24.2IN Middle0.1000.0404.24.2OUT DC Middle0.8030.7944.24.2IN Bottom0.0600.0064.20.37OUT DC Bottom0.7860.7804.21.44LM3900No Input4.2V InputPinFunction#001#004#001#00411IN +0.4090.4020.4030.40222IN +0.4080.4030.4030.40032IN -0.5580.5490.5540.54342OUT0.7680.7900.7750.78951OUT0.7720.8010.7810.79861IN -0.5540.5490.5510.5447GND0.2280.2180.2340.23183IN -JumpingJumpingJumpingJumping93OUT14.20214.20014.20014.169104OUT0.7630.7874.1601.456114IN -0.5450.5450.5410.538124IN +0.3950.4020.4740.414133IN+JumpingJumpingJumpingJumping14Vcc15.00015.00015.00015.000#001 is the working module. #004 is the non-functional module.The values in black are Volts. Blue are Millivolts. The value in Red is the suspect output. I tested the jack signal tabs and the pins on the LM3900 both with nothing plugged into the modules and then with a 4.2 Volt square wave coming out of an MFOS oscillator (C3). The Jumping values seemed to be in the millivolt range and appeared the same on each module.
I’m not sure if this info sheds light on where the problem may be. I’m guessing it’s a short somewhere as the value of the input drops from 4.2V to .37V as soon as the jack is plugged in.Rich
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