Post on 07-May-2015
PRESENTATION TOPIC
IDEAL DIODE
SYED HASHIR AHMEDROLL# 130
Objectives Understand the characteristics of an ideal diode.
Analyze simple circuits involving ideal diodes.
Current-Voltage CharacteristicForward/Reverse Bias
Computing iD and vD
What is the current through the diode (iD) and the voltage across the diode (vD) for the following two circuits?
Rectifier Circuit
What voltage waveform would we observe across the output of this circuit?
Rectifier Circuit Operation
Rectifier Circuit Operation (Cont’d)What voltage waveform would we observe across the diode vD?
Voltage Transfer Characteristic of the Rectifier Circuit
The Interesting Phenomenon of Charging a Battery
The source vS is a sinusoid with a 24 Vpeak amplitude. The diode is used to charge a 12 V battery and the 100 W resistor limits the current.
We want to determine the fraction of each cycle during which the diode conducts. We also wish to find the peak-value of the diode current and the maximum reverse-bias voltage that appears across the diode.
Solution
We reason that the diode will not begin to conduct until vS exceeds 12 V. Likewise, the diode will stop conducting once vS again reaches 12 V.
This defines the conduction angle, 2 (i.e., the fraction of the sinusoidal cycle over which the diode conducts). Hence, we reason that the diode will conduct provided that 24V sin 12 V. Or 30o ≤ ≤ 150o (or 1/3 of a cycle).
The peak value of the diode current is 12.0
100
1224
VV
ID Amps
Solution (Cont’d)
The maximum reverse-bias voltage that appears across the diode is simply:
24 V + 12 V = 36 V
DETERMINE I AND V FOR THE FOLLOWING CIRCUITS:
For this second circuit the same assumption gives nonsensical results (verify this)
We assume that D1 is OFF and D2 is ON. Consequently, VB = 3.3 V (verify).
Let’s begin by assuming that diodes D1 and D2 are conducting:
mAk
ID 110
0102
mAIk
mAI 15
)10(01
KCL (node B):