A resistance temperature detector (RTD) is placed in a Wheatstone bridge as according to Figure 4. The RTD can be assumed to have 1st order dynamics where the temperature co-efficient is given as: Y = 0.001K-1. It is given that when R₁ = 5000, R₂ = 6000, R3 = 30002, the Wheatstone bridge is balanced when T = 280K. The input voltage is also given as: V = 8 Volts. 1. Please find the RTD resistance under the balanced condition. Subsequently, determine the output voltage Vo of the Wheatstone bridge when T = 340K. 2. Suppose the temperature co-efficient has an uncertainty tolerance of 3% and the voltage source V has an uncertainty of ±0.1 Volts. The other components of the circuit do not contain any uncertainty. Please determine the resulting uncertainty of Vo when T = 340K. RTD M R3 V 1+ + R1 M M R2

A resistance temperature detector (RTD) is placed in a Wheatstone bridge as according to Figure 4. The RTD can be assumed to have 1st order dynamics where the temperature co-efficient is given as: Y = 0.001K-1. It is given that when R₁ = 5000, R₂ = 6000, R3 = 30002, the Wheatstone bridge is balanced when T = 280K. The input voltage is also given as: V = 8 Volts. 1. Please find the RTD resistance under the balanced condition. Subsequently, determine the output voltage Vo of the Wheatstone bridge when T = 340K. 2. Suppose the temperature co-efficient has an uncertainty tolerance of 3% and the voltage source V has an uncertainty of ±0.1 Volts. The other components of the circuit do not contain any uncertainty. Please determine the resulting uncertainty of Vo when T = 340K. RTD M R3 V 1+ + R1 M M R2

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter7: Parallel Circuits

Section: Chapter Questions

Problem 3PP: Using the rules for parallel circuits and Ohmslaw, solve for the missing values....

See similar textbooks

Similar questions

An ac resistance is higher than a dc resistance. True False
What is the difference between the cut-off voltage VGS0 f and the narrowing voltage Vp? Explain this with the diagram
Which of the following statements are correct for the circuit below? Thanks to the capacitors I – C1 and C2, the voltage gain of the circuit increases. II – Capacitors C1 and C2 are coupling capacitors and provide an isolation function between AC and DC voltages in the circuit. Thanks to the III – RE resistor, the voltage gain of the circuit increases. Thanks to the IV – RE resistor, the stability of the circuit increases. The V – C3 Capacitor is a bypass capacitor and prevents the loss of voltage gain. Capacitor VI – C3 is a coupling capacitor and has no effect on the voltage gain in the circuit. VII – As the value of the source internal resistance Rs increases, the voltage gain decreases. VIII – The voltage gain decreases as the value of any RL load to be added to the circuit increases
Shunt PMMC was designed by using indirect method to provide an ammeter with current range 5A, 10A, 20A. The internal resistance is 500 and full scale current of 1mA, find Rb.
Two batteries are connected in parallel delivering power to a power resistor. The first battery has an open circuit voltage of 12.6 V and an internal resistance of 0.2 ohm. The second battery has an open circuit voltage of 12.2 V and an internal resistance of 0.3 ohm. Find the maximum power delivered to the load resistance.
A dc generator and a battery are connected to a resistive load RL in the figure below. For each, determine the value of RL for maximum power transfer to RL. Next is to determine RL to 75% efficiency
Create a circuit and apply kirchhoffs laws
the adjoining figure. This lamp can withstand a maximum voltage 3.0 v 0.4 9. Volt-ampere (V-I) charaeteristics of an incandescent lamp 16thd in and a maximum current 0.4 A. An infinite ladder network consisting a large number of these lamps is also shown in the figure given belo How much maximum voltage can be applied between the terminals A and B, so that no lamp gets damaged? (Use V5 = 2.2). Ans:x4.2V Hint: Curentin all bulls except first is
Given the circuit below and that R1=1.7ohm,R2=3.5ohm,Emf1=2.1V and Emf2=6.3V. What is the current through the section ac?
What can you learn about Series-Parallel Circuits?
Subject: CircuitsGivenRt = 37.9529 ohm..Rcd = 3.6 ohm.Rab=2.3529ohmIt=1.58APt=94.85WV2=3.16VV4=6.32VVab=3.7175vVcd=5.688VI10=0.372AI5=0.7435AI8=0.465AI9=0.632AI6=0.348AP2=4.9928WP4=9.9856WPab=5.88WP14=34.95WPcd=8.99WP12=29.96W
Using NODAL VOLTAGE ANALYSIS, solve Vy and Vx and voltages across EACH RESISTOR. Put signs on each resistors in the figure and draw the flow of current