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50 Cards in this Set
- Front
- Back
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Peak Detector |
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Bandpass Response Curve |
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DifferentiatorAmp |
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Single Bounded Amp |
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R2R Digital to Analog Converter |
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Common Mode Rejection |
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Summing Amplifier |
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Log amp |
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Bandstop Filter Response Notch FilterOpposite of Bandpass |
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Thermostat or Temperature control |
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Double bounded comparator |
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Averaging Amplifier |
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Voltage Follower-Unity Gain |
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Op Amp Integrator |
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Inverting Amplifier: Compensation Resistor |
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Oscillator Block Diagram Positive Feedback |
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Twin T Oscilator One of thetwin-T filters has a low-pass response, and the other has a high-pass response.The combined parallel filtersproduce aband-stop or notch response with a center frequency equal to the desiredfrequency of oscillation. |
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Single Pole Active HPF |
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Anti-log Op Amp |
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Voltage regulator with voltage capacitors |
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Single Pole Active LPF |
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Linear Voltage Regulator Components |
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InvertingDifferential Mode |
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555 |
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Bandpass Filter |
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Square Wave Oscillator |
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Phase Shift Oscillator Maximum phase shift approaching 90 degrees |
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Scaling Adder (2-4-6-8) |
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6 pole HPF |
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Current Limited Regulator |
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Filter Type Graphical Comparison |
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A/D Converter |
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Comparator with Hysteresis & Zener Double Bounding |
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Double EndedDifferential Mode |
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Non inverting amp |
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Integrator output voltage equation |
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differentiator amp |
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Scaling adder-summing |
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The closed-loop gain of the inverting (I)amplifier |
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Double BoundedAmplifier |
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Differentiator amp |
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Integrator amp |
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Inverting amp |
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Voltage Hysteresis Equation |
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Reference Amp |
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Reference Amp |
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Inverting Op Amp |
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Output of Scaling adder summing amp |
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Single Bounded Amp |
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Op Amp Closed Loop Gain calculation Equation |