Note: Assume ideal conditions of no reverse current through the diode and no leakage current in the capacitor. Note: The DC output voltage is approximately located at the midway point of the voltage ripple using VDC=Vp- Vr/2. Full-Wave Rectifier with Capacitor Filter For the circuit in Figure 13, determine VMax (peak after diode drops), Vr (ripple voltage), 7 (ripple factor), and the DC output voltage VDC. Vin_pp=22.8Vpp@60Hz (Vpeak-11.4V before the diode drops), RI=1350, C₁=100uF, VD=0.7V. To solve for V, and VDC, start with formula for Vr and VDC=VMax-Vr/2 and solve for Vr. Then substitute back in to solve for VDC. From Wall Outlet 120Vrms (340Vpp) Transformer DO NOT Connect these two wires! Sketch the output signal, Vout. Vin D₂ Probe RL VOUR Probe GND GND Figure 13: Full-Wave Rectifier with Capacitor Filter

Electric Motor Control
10th Edition
ISBN:9781133702818
Author:Herman
Publisher:Herman
Chapter59: Motor Startup And Troubleshooting Basics
Section: Chapter Questions
Problem 12SQ: How is a solid-state diode tested? Explain.
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don't forgwt to sketch output signal, vout

Note: Assume ideal conditions of no reverse current through the diode and no leakage current in the capacitor.
Note: The DC output voltage is approximately located at the midway point of the voltage ripple using VDC=Vp-
Vr/2.
Full-Wave Rectifier with Capacitor Filter
For the circuit in Figure 13, determine VMax (peak after diode drops), Vr (ripple voltage), 7 (ripple factor),
and the DC output voltage VDC. Vin_pp=22.8Vpp@60Hz (Vpeak-11.4V before the diode drops), RI=1350,
C₁=100uF, VD=0.7V. To solve for V, and VDC, start with formula for Vr and VDC=VMax-Vr/2 and solve for Vr.
Then substitute back in to solve for VDC.
From Wall
Outlet
120Vrms
(340Vpp)
Transformer
DO NOT Connect
these two wires!
Sketch the output signal, Vout.
Vin
D₂
Probe
RL
VOUR
Probe GND
GND
Figure 13: Full-Wave Rectifier with Capacitor Filter
Transcribed Image Text:Note: Assume ideal conditions of no reverse current through the diode and no leakage current in the capacitor. Note: The DC output voltage is approximately located at the midway point of the voltage ripple using VDC=Vp- Vr/2. Full-Wave Rectifier with Capacitor Filter For the circuit in Figure 13, determine VMax (peak after diode drops), Vr (ripple voltage), 7 (ripple factor), and the DC output voltage VDC. Vin_pp=22.8Vpp@60Hz (Vpeak-11.4V before the diode drops), RI=1350, C₁=100uF, VD=0.7V. To solve for V, and VDC, start with formula for Vr and VDC=VMax-Vr/2 and solve for Vr. Then substitute back in to solve for VDC. From Wall Outlet 120Vrms (340Vpp) Transformer DO NOT Connect these two wires! Sketch the output signal, Vout. Vin D₂ Probe RL VOUR Probe GND GND Figure 13: Full-Wave Rectifier with Capacitor Filter
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