OFF to ON when the diode voltage is zero volts Part (b) of problem assumes you use the diode model that just includes a 0.65 volt battery when the diodeWitehes from OFF to ON. The best systematic approach is to draw out each circuit and then look for any potential contradictions with the diode model and circuit when you assume a diode is either ON or OFF. Sketchina piece-wilinear I-V characteristic is one approach to piece-wise linear problems. Prepare a table to summaze your res. 3.66. (a) Find I and V in the four circuits in Fig. P3.66 using the ideal diode model. (b) Repeat using the constant voltage drop model with Von =0.65 V. +3 V +5 V 16 k2 16 k2 -5 V -7 V (a) (b) 9 +5 V +7 V 16 k2 16 k2 -3 V 6 -5 V (c) (d) Figure P3.66

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Text 3.66. Piecewise linear models should be used. Part (a) assumes you assume the diode switches from OFF to ON when the diode voltage is zero volts Part (b) of problem assumes you use the diode model that just includes a 0.65 volt battery when the diode Witshes from OFF to ON. The best systematic approach is to draw out each circuit and then look for any potential contradictions with the diode model and circuit when you assume a diode is either ON or OFF. Sketchina piece-wis linear I-V characteristic is one approach to piece-wise linear problems. Prepare a table to summaize your reis. 1. 3.66. (a) Find I and V in the four circuits in Fig. P3.66 using the ideal diode model. (b) Repeat using the constant voltage drop model with Von =0.65 V. 오 +3 V 오 +5 V 16 k2 o V 16 k2 5 V -7 V - (a) (b) 오 +5 V +7 V 16 k2 -o V 16 k2 -3 V -5 V (c) (d) Figure P3.66