1. For the poşitive limiter circuit in Figure 4-1A, the positive peak voltage approximately (a) 0V 2. For the negative limiter circuit in Figure 4-1B, the positive peaks are not clipped because the diode is. (a) reverse biased 3. In all the limiting circuits in this experiment, the 15-kN resistor is used to (b) +0.6 V .. (c) .+3 V (d) +6 V (b) forward biased (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 in Figure 4-1C, the potentiometer is used to set the clipping level of the output's (a) positive peaks (c) positive and negative peaks 5. For the circuit in Fimure (b) negative peaks

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1. For the positive limiter circuit in Figure 4-1A, the positive peak voltage is approximately (a) 0 V 2. For the negative limiter circuit in Figure 4-1B, the positive peaks are not clipped because the diode is. (a) reverse biased 3. In all the limiting circuits in this experiment, the 15-kN resistor is used to (b) +0.6 V.. (c) .+3 V (d) +6 V (b) forward biased (: ) (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 in Figure 4-1C, the potentiometer is used to set the clipping level of the output's (a) positive peaks (c) positive and negative peaks 5. For the circuit in Figure 4-1D, the potentiometer is used to set the clipping level of the output's (a) positive peaks (c) positivę and negative peaks (b) negative peaks (b) negative peaks This all figuers you need: 15 kN 15 k. IN4001 IN4001 1 kN 6 V PP 200 Hz 6 V p-p 200 Hz CH 2 Oscilloscope CH 1 CH 2 Oscilloscope CH 1 А. С. 15 kn 15 kN Vin -5 V IN4001 IN4001 6 V p-p 200 Hz 6 V p-p 1 kN& 200 Hz Vọc CH 2 Oscillascope CH 1 CH 2 Oscilloscope CH 1 + D. FIGURE 4-1 Schematic diagram of circuits.