2, 2.3, 21. Design 3 bit Analog to digital converter.2. Consider a platinum resistance temperature sensor, which has a resistance at 0°C of 100ohms and forms one arm of a Wheatstone bridge. The bridge is balanced, at thistemperature, with each of the other arms also being 100 ohms. If the temperature coefficientof resistance of platinum is 0.0039/K, what will be the output voltage from the bridge perdegree 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 theresistance of the platinum with temperature can be represented byRt = R0(1+ at)Where Rt is the resistance at t (°C), R0 the resistance at 0°C and a theTemperature coefficient of resistance.3. Simplify the Boolean function below and draw the Combinatorial logic of SimplifiedFunction. (a + b)(a + b')4. Implement a logic function and circuit diagram of truth table below.ABC FA5.B00000101001110010111011100010111Write down intermediate logical expressions along the path22 +26² +26+bbOa2 (2 + 8 +b) to1 + 2(b + b )aaX

Answered: Image /qna-images/answer/ad58d662-1ecd-48a2-bcd7-8f12a6e9ce5f.jpg

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 )

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

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Similar questions

Suppose a power supply is energized by an AC source of 119 V RMS. The transformer step-down ratio is 8:1, it uses a full-wave bridge rectifier circuit with silicon diodes, and the filter is nothing but a single electrolytic capacitor. Calculate the unloaded DC output voltage for this supply (assume 0.7 volts drop across each diode). Also, write an equation solving for DC output voltage (Vout), given all these parameters.
What is the effective voltage in the primary of an ideal Trafo with a turns NP / NS = 660/60; connected to a half-wave rectifier with RC load, whose filter capacitor is 1000μF with a load of 100Ω whose average voltage of output is 13.05V? Draw the wiring diagram correctly and care with the units!
For an eight-bit D/A converter having a range of 5 V, convert 10110110 into an analog sample value (consider using the mathematical method – Hint: convert to decimal and multiply by step size).
‏( b ) For the Junction Field Effect Transistor ( JFET ) shown in Figure Q1 ( b ) below , given that maximum current Ipss = 10 mA , pinch - off voltage Vp = -5 V , R D= 2 ka , source voltage and resistance are VDD= 12 V and Rs = 5 kn , respectively , solve to determine following (i) The quiescent voltage between the gate and source VGSQ . (ii) The quiescent drain current IDQ
2. Select ONE (1) transducer or sensor with available in the market, with providing the brand, model and technical specification of the selected transducer or sensor, you are required to i. Explain its designed measurand and the working range. ii. Explain its basic working principles and any steps required to take in order to avoid any error (ex. Loading error) during measurement process. iii. Identify either the selected transducer or sensor required a signal conditioner. iv. Propose ONE (1) cable with is suitable to be connected with the selected transducer or sensor
For each of Common Source(CS), Common Gate(CG), Common Drain(CD)ampliers,1. Show its operating principle2. How DC biasing can be done
Design the heatsink for the power transistor of a voltage regulator, keeping the heatsink cost minimal.The voltage regulator has an output voltage of 5 V and full load current of 500 mA. At full load, the regulator efficiency is 25 %, with the power transistor contributing to 45% of the power loss. The regulator is expected to operate at ambient temperature of between 20 °C and 40 °C. The heatsink temperature should not be more than 80 °C. Assume the cost of the heatsink is inversely proportional to the value of the thermal resistance θSA. The power transistor has the following parameters:θJC = 3 °C /WTJ,max = 150 °CDetermine the thermal resistances, θCS and θSA.
The Type K thermocouple has a sensitivity of about 41 micro-Volts/℃, i.e. for each degree difference in the junction temperature, the output changes by 41 micro-Volts. If you have a 32-bit ADC, what is the smallest temperature change you can detect if the ADC range is 10 V?
Consider the operational rectifier or superdiode circuit, with R=1kohm. For v1=10mV, 1V, and -1V, what are the voltages that result at the rectifier output and at the output of the op amp? Assume that the op amp is non-ideal and that its output saturates at ± 12V. The diode has a 0.7-V drop at 1-mA current.
Explain the working of Binary Weighted Resistor Digital to Analog converter with a neat diagram. pleas writing not typing
31 voltage for each code change in a 9-bit digital-to-analog converter is 10.3 mV. Since OV is obtained for the code 00000000, in which option is the voltage to be obtained for the code 101101111 given correctly? d) none
The BJT shown in Figure T12.4 has β = 50 and VBE = 0.7 V. a. Determine the values of IC and VCE. b. Repeat for β=250.