Please could you complete this electronics question about Circuis Analysis. Thanks. 1) The layout of the MCP9700-E temperature sensor are shown in Table 1. The sensor transfer functionis,VOUT TCTA + V °C(1)where TA is the ambient temperature, Tc is the temperature coefficient, and Vo is the sensoroutput voltage at 0 °C.By checking the datasheet, complete the following questions,(a)Label the pins: Pin 1:; Pin 2:(b) The operating voltage range (VDD):(c)The extended temperature range:(d)The sensitivity (i.e., temperature coefficient):(e)The sensor accuracy as indicated by the manufacturer:(f) The output voltage at 0°C (Voc, Ta = 0°C): .(g)For the full extended temperature range, the expected output voltage range of the sensoris:; Pin 3:

Answered: The layout of the MCP9700-E temperature…

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Please could you complete this electronics question about Circuis Analysis. Thanks.

1) The layout of the MCP9700-E temperature sensor are shown in Table 1. The sensor transfer function
is,
VOUT TCTA + V °C
(1)
where TA is the ambient temperature, Tc is the temperature coefficient, and Vo is the sensor
output voltage at 0 °C.
By checking the datasheet, complete the following questions,
(a)
Label the pins: Pin 1:
; Pin 2:
(b) The operating voltage range (VDD):
(c)
The extended temperature range:
(d)
The sensitivity (i.e., temperature coefficient):
(e)
The sensor accuracy as indicated by the manufacturer:
(f) The output voltage at 0°C (Voc, Ta = 0°C): .
(g)
For the full extended temperature range, the expected output voltage range of the sensor
is:
; Pin 3:

Expert Solution

Step 1: Introduction to MCP9700-E

The MCP9700-E is a linear active thermistor integrated circuit. Manufactured by Microchip Technology Inc., it is designed to provide an analog voltage output that is linearly proportional to the ambient temperature.

With a sensitivity of 10 mV/°C, it offers a relatively straightforward means of converting temperature changes into a readable voltage output. The sensor operates over a voltage range of 2.3V to 5.5V and can measure temperatures ranging from -40°C to +125°C. Its simplicity and linear output make it a popular choice for basic temperature monitoring applications in various electronic projects and systems.

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