Parameter Value Gain, AV 30 dB Resistor, R1 1.5 kΩ Capacitor, C 3.35 uF 1. Figure depicts a first order low pass filter and Table tabulates parameters ultised to construct the filter. In the design, R1||R2. Calculate the bandwith of the filter. 2. Describe the condition of unity gain in an amplifier and determine voltage output, VO, if voltage input, V1, is 2V for a non-inverting amplifier 3. Construct an equation relating the input (Vin) and output (Vout) of an inverting amplifier. The conditioning circuit has input range between 10 mV to 110 mV which resulting output between 0V to 5V.
Parameter Value Gain, AV 30 dB Resistor, R1 1.5 kΩ Capacitor, C 3.35 uF 1. Figure depicts a first order low pass filter and Table tabulates parameters ultised to construct the filter. In the design, R1||R2. Calculate the bandwith of the filter. 2. Describe the condition of unity gain in an amplifier and determine voltage output, VO, if voltage input, V1, is 2V for a non-inverting amplifier 3. Construct an equation relating the input (Vin) and output (Vout) of an inverting amplifier. The conditioning circuit has input range between 10 mV to 110 mV which resulting output between 0V to 5V.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Parameter | Value |
Gain, AV | 30 dB |
Resistor, R1 | 1.5 kΩ |
Capacitor, C | 3.35 uF |
1. Figure depicts a first order low pass filter and Table tabulates parameters
ultised to construct the filter. In the design, R1||R2. Calculate the bandwith of the filter.
2. Describe the condition of unity gain in an amplifier and determine voltage output, VO,
if voltage input, V1, is 2V for a non-inverting amplifier
3. Construct an equation relating the input (Vin) and output (Vout) of an inverting amplifier.
The conditioning circuit has input range between 10 mV to 110 mV which resulting
output between 0V to 5V.
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