Ramsey Electronics SHA2 manual Clipping detector circuit, Looping buffer

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C12(C24) is another coupling capacitor, and it serves the same purpose as C9 at the start of the circuit. This prevents the DC portion of the signal on the output of U2(U4) from being sent to the headphones.

The clipping detector circuit

The clipping detector circuit watches the headphone output signal level and flashes an LED when the output signal comes close to the maximum level available from the LM386. This level is determined by the voltage divider formed by R15 and R17.

U1C and U1D form comparator circuits for the left and right channels. The output signals from U2(U4) pin 5 is fed to U1C(U1D) pin 10(12), the ’+’ or non- inverting input, of the comparator. If this signal level exceeds the level on pin 9(13) the output, pin 8(14), will go to a high state about equal to the supply voltage of 9 volts. This forward biases diode D2(D5), causing it to conduct and apply a positive voltage through R16 and light the clipping LED D3. R16 is simply a current limiting resistor to prevent D3 from conducting too much current and ’burning out’. Because the outputs of the two comparators are basically at ground under non-clipping conditions D2 and D5 are needed so that if one comparator output goes high and the other is still low the current to light D3 is not grounded through the low output.

The looping buffer

The purpose of this circuit is to provide a signal which is identical to, but isolated from, the input signal to feed other devices such as additional SHA2 units, your tape recorder, etc. The isolation feature prevents the additional devices from interfering with the original input signal. For example if the other the device were to develop a short it will not affect the unit that it is being fed from.

U1A(U1B) are used as a unity gain amplifier or buffer. The input signal is feed through C1(C2), a coupling capacitor, to the buffer amplifier input pin 3(5). The output of the buffer then goes through C31(C32) to the buffered loop output. R1(R4) and R2(R3) form a voltage divider which sets a bias level on the ‘+’ input of the amplifier which is half of the supply voltage. This allows the input signal to swing around this point and produce an output signal which is between ground and the power supply voltage. This is basically the same way the clipping detector works except the output of U1A(U1B) is made to swing between 0 and the supply voltage as long as the input level does not exceed a peak-to-peak level greater than the supply voltage. Capacitor C31 (C32) removes the DC level of the output and presents a signal which is centered around 0 volts to the loop output jack. R19(R18) Provide a path for C31(C32) to discharge and also sets the impedance of the output. This low

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Contents Super Stereo Headphone Amplifier KIT Partial List of Available Kits Super Stereo Headphone AMP Nitty-gritty of it all Circuit DescriptionLooping buffer Clipping detector circuitWhat about H1 and H2? Power supply Kit building tips Ramsey LEARN-AS-YOU-BUILD Assembly StrategyResistors SHA2 Parts List CapacitorsSemiconductors CONTROLS, HARDWARE, and MiscellaneousSHA2 Parts Layout Diagram Assembly Steps SHA2 SHA2 SHA2 SHA2 SHA2 Install R10 SHA2 Setup and Testing SHA2 Troubleshooting Conclusion Ramsey Kit Warranty Required Tools Estimated Assembly TimeAdditional Suggested Items Total Solder Points

SHA2 specifications

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