The TMP392 device is part of a family of ultra-low power, dual channel, resistor programmable temperature switches that enable protection and detection of system thermal events from 30 °C to 130 °C. The TMP392 offers dual overtemperature (hot and warm) detection. The trip temperatures (T_TRIP) and thermal hysteresis (T_HYST) options are programmed by two E96-series resistors (1 % tolerance) on the SETA and SETB pins. Channel A resistors can range from 1.05 kΩ to 909 kΩ, representing one of 48 unique values. Channel B resistors can range from 10.5 kΩ to 909 kΩ.

The value of the resistor to ground on SETA input sets the T_TRIP threshold of Channel A. The value of the resistor to ground on SETB input sets the T_TRIP threshold of Channel B, as well as the T_HYST options of 5 °C, or 1 °C for both channels, to prevent undesired digital output switching. When the SETB input is connected to ground, Channel A operates with 20 °C hysteresis.

TMP392 Features:

• Resistor programmable temperature trip points
• Dual output selection
• Ultra-low power consumption
• Open-drain outputs

For this design, the dual overtemperature protection was selected such that when temperature is between 60 °C to 90 °C, a visual warning is provided via a red LED. The LED selected for this design is LSL29K-G1H2-1-Z which only requires 2 mA to provide high luminous intensity. TPSI3050-Q1 can provide a max of 50 mW of power that must be carefully distributed for the auxiliary circuitry. When the temperature is higher than 90 °C the circuit immediately disconnects the load. The Channel A (HOT) temperature is set to trip at 90 °C by the 78.7 kΩ resistor between SETA and ground while Channel B (WARM) is set to trip at 60 °C by the 38.3 kΩ resistor connected between SETB and ground. The 38.3 kΩ resistor on SETB also set the hysteresis for both channels to 5 °C.