Design specifications and constraints You are to design the voltage-regulator circuit shown below voltage regulator + V The supply voltages are nominally v, = 15 V, but either source might vary by as much as ±5%. The voltage regulator must meet the following specifications: 1. The DC voltage v is user-variable from 3 V to 10 V. 2. This voltage can be maintained for loads in the range 100 2 < R<1MN. You may use the following components:
Design specifications and constraints You are to design the voltage-regulator circuit shown below voltage regulator + V The supply voltages are nominally v, = 15 V, but either source might vary by as much as ±5%. The voltage regulator must meet the following specifications: 1. The DC voltage v is user-variable from 3 V to 10 V. 2. This voltage can be maintained for loads in the range 100 2 < R<1MN. You may use the following components:
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Transcribed Image Text:Design specifications and constraints
You are to design the voltage-regulator circuit shown below
voltage
regulator
R
The supply voltages are nominally v, = 15 V, but either source might vary by as much as +5%.
The voltage regulator must meet the following specifications:
1. The DC voltage v is user-variable from 3 V to 10 V.
2. This voltage can be maintained for loads in the range 100 N < R<1 MN.
You may use the following components:
1. any standard N = 24, 1/4-watt resistors
2. any standard N = 3 capacitors
%3D
3. one 1/4-watt 100-k2 potentiometer
4. one TL074C quad op-amp (contains 4 TL071C op-amps)
5. one 1N4735 Zener diode
6. one 2N3904 BJT
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