(a) A Resistor Temperature Detector (RTD) sensor connected into one arm of a Wheatstone bridge as shown in Figure Q4 (a). The RTD resistance changes with temperature according to the following equation: R = Ro (1+ 0.00397) where R, is the resistance of the RTD at any temperature T, T, is the temperature Ro, is the RTD resistance at room temperature (25 °C). (i) If the bridge is balance at temperature of 25 °C, calculate the value of RTD resistance at balance condition. (ii) Calculate the value of Vout at a steady state temperature of 550 °C. 200 Q 400 Q 6V Vout 50 2 RTD Figure Q4 (a)

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O Weel x P *Wee x E Tuto X 岳*Tutc X *Topi x Topic x P Mod X P 2019 X esktop/insturmation/Acad%20Form%2012-Final%20Exam-ELEC2113-2018-2019.pdf D Page view A Read aloud O Add text V Draw Y Highlight (a) A Resistor Temperature Detector (RTD) sensor connected into one arm of a Wheatstone bridge as shown in Figure Q4 (a). The RTD resistance changes with temperature according to the following equation: R = Ro (1+ 0.00397) where R, is the resistance of the RTD at any temperature T, T, is the temperature Ro, is the RTD resistance at room temperature (25 °C). (i) If the bridge is balance at temperature of 25 °C, calculate the value of RTD resistance at balance condition. (ii) Calculate the value of Vout at a steady state temperature of 550 °C. 200 N || 400 Q 6V 50 2 RTD Figure Q4 (a) 42