Figure presents a pressure measuring system of a pipeline. The pressure tap provides a pressure input to the transducer which resulting voltage output between 0 to 200 mV. The voltage output is linearly related to the input pressure with a range of 0 to 10 bar. The converter current output I is in mA and related to the voltage input in such, I = 4 – 0.2V, where V is in mV. The current signal is sent to a meter for reading display. Estimate the pressure value when the meter indicates 15 mA using the given equation.
Figure presents a pressure measuring system of a pipeline. The pressure tap provides a pressure input to the transducer which resulting voltage output between 0 to 200 mV. The voltage output is linearly related to the input pressure with a range of 0 to 10 bar. The converter current output I is in mA and related to the voltage input in such, I = 4 – 0.2V, where V is in mV. The current signal is sent to a meter for reading display. Estimate the pressure value when the meter indicates 15 mA using the given equation.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Figure presents a pressure measuring system of a pipeline. The pressure tap
provides a pressure input to the transducer which resulting voltage output between 0 to
200 mV. The voltage output is linearly related to the input pressure with a range of 0 to
10 bar. The converter current output I is in mA and related to the voltage input in such,
I = 4 – 0.2V, where V is in mV. The current signal is sent to a meter for reading display.
Estimate the pressure value when the meter indicates 15 mA using the given equation.
Transcribed Image Text:Pressure tap
Pipeline
Pipeline
Pressure input
Hose
Transducer
mV
Converter
Meter
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