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:............ ..; Pin 3:. (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 (Vo°C, TA = 0°C): (g) For the full extended temperature range, the expected output voltage range of the sensor is:

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+ No 1 2 3 4 6 7 Components Temperature sensor: MCP9700-E/TO Amplifier: MC602-E/P LED display: OLED128x64- 12C Microcontroller Arduino-Nano V3 (Pre- programmed) PCB, resistors, capacitors, etc. Temperature test bench Table 1. List of key components Model • Analogue temperature sensor ● Temperature range: -40°C to 125°C (Extended) • Temperature coefficient: 10.0 mV/°C • Operating voltage range: 2.3V to 5.5V • Operating current: 6µA (typical) ● Output voltage: 500mV (0°C) • Rail-to-Rail Input/Output No. of Amplifiers: 2 Bandwidth: 10MHz • Slew Rate: 7V/μs • Supply Voltage: 2.5 -5.5V No. of Pins: 8Pins Type: OLED Colour: White • Resolution: 128x64 • Display Size: 0.96inch • Format: SPI-4/SPI-3/I2C • Address: 0x3C • Pre-programmed • Microcontroller: ATmega328P, equipped with 22 I/O ports: 14 digital outputs, of which 6 PWM up to 8 analogue inputs with a resolution of 0-1023 (i.e. 10-bit) • Flash memory: 32KB ● ● SRAM memory: 2048 B • Clock freq (crystal): 16 MHz ● A serial port Input voltage: 5-12V DC (logic) 5V All included in the component bag. Also available in the Eng Lab. Thermal resistor based • Operational temperature range: room temperature up to 60°C • Operational time taken from the room temperature for 60°C: ~3 minutes • Reference temperature of the test bench is shown 1 2 3 54 Temp. inside 24°C outside 29°C 64% Humidity www. 33333333 8.5.6.1. HAAA MICROCHIP MCP9700

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1) The layout of the MCP9700-E temperature sensor are shown in Table 1. The sensor transfer function is, VOUT TCTA + Vo °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 (Voºc, Ta = 0°C): .. (g) For the full extended temperature range, the expected output voltage range of the sensor is: ….......... ....... Pin 3: