The AD8495 K-type thermocouple amplifier from Analog Devices is so easy to use, we documented the whole thing on the back of the tiny PCB. Power the board with 3-18VDC and measure the output voltage on the OUT pin. You can easily convert the voltage to temperature with the following equation: Temperature = (Vout - 1.25) / 0.005 V. So for example, if the voltage is 1.5VDC, the temperature is (1.5 - 1.25) / 0.005 = 50°C with terminal block connections

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A simple 2xAA battery holder to 5mm Screw Terminal adapter PCB. Ideal for testing purposes.

A simple 2xAAA battery holder to 5mm Screw Terminal adapter PCB. Ideal for testing purposes.

Analog noise cancellation circuit migrated from EasyEDA PCB JSON using LM358 dual op-amps, 12V single-supply operation, virtual ground biasing, notch/filter network, input/output terminal blocks, and PCB preparation for manufacturing review.

Cyberdeck power distribution hub using a TP4056 Type-C Li-ion charger module, MT3608 boost converter module, switched output rail, voltmeter, servo, Arduino VIN, button signal header, and battery terminal on a 50 mm × 70 mm PCB.

The AD8495 K-type thermocouple amplifier from Analog Devices is so easy to use, we documented the whole thing on the back of the tiny PCB. Power the board with 3-18VDC and measure the output voltage on the OUT pin. You can easily convert the voltage to temperature with the following equation: Temperature = (Vout - 1.25) / 0.005 V. So for example, if the voltage is 1.5VDC, the temperature is (1.5 - 1.25) / 0.005 = 50°C with terminal block connections

A PCB for a power supply with a 5V, a 12V and an adjustable voltage terminal