3.5Discussion 1. Give some uses of the clipper circuits. 2. What are the parameters that the output voltage and current waveforms depend on it? 3. What is the property of the diode that the clipper circuits depend on it? 4. How does a positive clipper differ from a negative clipper? 3.6 Review Questions 1. For the positive clipper circuit of figure (1), the positive peak voltage is approximately (a) OV (b) +0.6V (c) +3V (d) +6V 2. For the negative clipper circuit of figure (3), the positive are not clipped because the diode is (a) Reverse biased (b) forward biased 3. In all the clipping circuits in this experiment, the 15k2 resistor is used to (a) Set the clipping level (b) Set the peak output voltage (c) Limit the voltage across the diode (d) Limit the peak forward diode current 4. For the circuit of figure (5), the DC voltage is used to set the clipping level of the outputs (a) Positive peaks (b) negative peaks (c) positive and negative peaks.

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3.5Discussion 1. Give some uses of the clipper circuits. 2. What are the parameters that the output voltage and current waveforms depend on it? 3. What is the property of the diode that the clipper circuits depend on it? 4. How does a positive clipper differ from a negative clipper? 3.6 Review Questions 1. For the positive clipper circuit of figure (1), the positive peak voltage is approximately (a) OV (b) +0.6V (c) +3V (d) +6V 2. For the negative clipper circuit of figure (3), the positive are not clipped because the diode is (a) Reverse biased (b) forward biased 3. In all the clipping circuits in this experiment, the 15k resistor is used to (a) Set the clipping level (b) Set the peak output voltage (c) Limit the voltage across the diode (d) Limit the peak forward diode current 4. For the circuit of figure (5), the DC voltage is used to set the clipping level of the outputs (a) Positive peaks (b) negative peaks (c) positive and negative peaks.