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 V 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) (c) (d) The sensitivity (i.e., temperature coefficient): . (e) (f) (g) The operating voltage range (VDD): The extended temperature range: . .; Pin 3: The sensor accuracy as indicated by the manufacturer: The output voltage at 0°C (Vo°C, TA = 0°C): For the full extended temperature range, the expected output voltage range of the sensor is:
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 V 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) (c) (d) The sensitivity (i.e., temperature coefficient): . (e) (f) (g) The operating voltage range (VDD): The extended temperature range: . .; Pin 3: The sensor accuracy as indicated by the manufacturer: The output voltage at 0°C (Vo°C, TA = 0°C): For the full extended temperature range, the expected output voltage range of the sensor is:
Chapter32: Standby Power Systems
Section: Chapter Questions
Problem 7R: Briefly explain the function of a transfer switch. _____
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