Vs R₁² α₂T } श 3 V +0 محمد at a₁T ≤ R₁ See figure of temperature transducer containing the following elements: - constant supply voltage (Vs = 1V) - First thermistor (R1) with nominal resistance (Rnom) - temperature coefficient (₁) - second thermistor (R2) with the same resistance but complimentary temperature coefficient ₂=-₁ - two identical resistors R3 = R4 = R. - responds to temperature acting on both thermistors by producing an output voltage Vo R₁ = Rnom (1 + α₁T) R₂ = Rnom (2 + α₂¹) श) Please find the output voltage as a function of temperature? Is this voltage response linear in temperature...why? Please find the sensitivity and the offset of the transducer?
Vs R₁² α₂T } श 3 V +0 محمد at a₁T ≤ R₁ See figure of temperature transducer containing the following elements: - constant supply voltage (Vs = 1V) - First thermistor (R1) with nominal resistance (Rnom) - temperature coefficient (₁) - second thermistor (R2) with the same resistance but complimentary temperature coefficient ₂=-₁ - two identical resistors R3 = R4 = R. - responds to temperature acting on both thermistors by producing an output voltage Vo R₁ = Rnom (1 + α₁T) R₂ = Rnom (2 + α₂¹) श) Please find the output voltage as a function of temperature? Is this voltage response linear in temperature...why? Please find the sensitivity and the offset of the transducer?
Chapter19: Special-purpose Outlets-water Pump, Water Heater
Section19.2: Water Heater Branch Circuit
Problem 8R: For residential water heaters, the Consumer Product Safety Commission suggests a maximum temperature...
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please help with this circuit
![Vs
R₁² α₂ T
R3
V
q₁T
محمد
R₂
R₁
See figure of temperature transducer containing the
following elements:
- constant supply voltage (Vs = 1V)
- First thermistor (R1) with nominal resistance (Rnom)
- temperature coefficient (₁)
- second thermistor (R2) with the same resistance but
complimentary temperature coefficient ₂-d₁
- two identical resistors R3 = R4 = R.
- responds to temperature acting on both thermistors by
producing an output voltage Vo
R₁ = Rnom (1 + α₁T)
R₂ = Rnom (2 + α₂¹)
Please find the output voltage as a function of temperature? Is this voltage
response linear in temperature...why?
Please find the sensitivity and the offset of the transducer?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fae78743c-2e5d-4f29-afad-9b0649e30c33%2F96ab60ad-3679-4553-9702-849482c30f34%2F9g5jdq_processed.png&w=3840&q=75)
Transcribed Image Text:Vs
R₁² α₂ T
R3
V
q₁T
محمد
R₂
R₁
See figure of temperature transducer containing the
following elements:
- constant supply voltage (Vs = 1V)
- First thermistor (R1) with nominal resistance (Rnom)
- temperature coefficient (₁)
- second thermistor (R2) with the same resistance but
complimentary temperature coefficient ₂-d₁
- two identical resistors R3 = R4 = R.
- responds to temperature acting on both thermistors by
producing an output voltage Vo
R₁ = Rnom (1 + α₁T)
R₂ = Rnom (2 + α₂¹)
Please find the output voltage as a function of temperature? Is this voltage
response linear in temperature...why?
Please find the sensitivity and the offset of the transducer?
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