Temperature coefficient of resistance. 3. Simplify the Boolean function below and draw the Combinatorial logic of Simplified Esmction. (a + b)(a + b) 4. Implement a logic function and circuit diagram of truth table below. ABC F 5. B 000 0 001 0 010 0 011 100 101 110 111 Write down intermediate logical expressions along the path 22 +26² +26+bb 2 (2+8+b) to 1 + 2(b + b )

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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2, 2.3, 2
1. Design 3 bit Analog to digital converter.
2. Consider a platinum resistance temperature sensor, which has a resistance at 0°C of 100
ohms and forms one arm of a Wheatstone bridge. The bridge is balanced, at this
temperature, with each of the other arms also being 100 ohms. If the temperature coefficient
of resistance of platinum is 0.0039/K, what will be the output voltage from the bridge per
degree change in temperature if the load across the output can be assumed infinite?
The supply voltage, with negligible internal resistance, is 6.0v. The variation of the
resistance of the platinum with temperature can be represented by
Rt = R0(1+ at)
Where Rt is the resistance at t (°C), R0 the resistance at 0°C and a the
Temperature coefficient of resistance.
3. Simplify the Boolean function below and draw the Combinatorial logic of Simplified
Function. (a + b)(a + b')
4. Implement a logic function and circuit diagram of truth table below.
ABC F
A
5.
B
000
001
010
011
100
101
110
111
0
0
0
1
0
1
1
1
Write down intermediate logical expressions along the path
22 +26² +26+bb
O
a
2 (2 + 8 +b) to
1 + 2(b + b )
aa
X
Transcribed Image Text:2, 2.3, 2 1. Design 3 bit Analog to digital converter. 2. Consider a platinum resistance temperature sensor, which has a resistance at 0°C of 100 ohms and forms one arm of a Wheatstone bridge. The bridge is balanced, at this temperature, with each of the other arms also being 100 ohms. If the temperature coefficient of resistance of platinum is 0.0039/K, what will be the output voltage from the bridge per degree change in temperature if the load across the output can be assumed infinite? The supply voltage, with negligible internal resistance, is 6.0v. The variation of the resistance of the platinum with temperature can be represented by Rt = R0(1+ at) Where Rt is the resistance at t (°C), R0 the resistance at 0°C and a the Temperature coefficient of resistance. 3. Simplify the Boolean function below and draw the Combinatorial logic of Simplified Function. (a + b)(a + b') 4. Implement a logic function and circuit diagram of truth table below. ABC F A 5. B 000 001 010 011 100 101 110 111 0 0 0 1 0 1 1 1 Write down intermediate logical expressions along the path 22 +26² +26+bb O a 2 (2 + 8 +b) to 1 + 2(b + b ) aa X
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