Melexis announces new Triphibian pressure sensor featuring LIN interface
Melexis introduces the MLX90833, a new pressure sensor with Triphibian technology, enabling robust measurement of both gas and liquid media from 2 to 70 bar, all within a compact SO16 package. This factory-calibrated device provides absolute pressure readings with a LIN digital output, simplifying integration for heat pump manufacturers.
The increasing number of heating and cooling modes in heat pumps, particularly electric vehicles (EVs), is driving demand for standalone sensors with digital interfaces. These systems, which often include smart expansion valves, coolant pumps, and compressors, require efficient communication with the central control unit. Utilising a digital bus like LIN reduces wiring complexity, improves system intelligence, and enables advanced diagnostics. This trend is especially prominent in Europe, where LIN is rapidly replacing legacy analog sensor outputs.
Heat pump systems in battery electric vehicles (BEVs) can require five or more pressure and temperature sensors to ensure optimal performance. These sensors play a crucial role in regulating the high-voltage electric compressor and controlling the various expansion valves within the system. By integrating a LIN interface, the MLX90833 simplifies data transmission and system design compared to traditional analog or SENT connections.
The factory calibration of Melexis’ Triphibian products reduces development time and complexity for customers. Unlike non-Triphibian solutions, where customers must source separate sensing elements, signal conditioning integrated circuits (ICs), and invest in end-of-line calibration equipment, the MLX90833 comes fully calibrated and ready to integrate. This streamlines module design and lowers manufacturing costs.
The MLX90833 is a fully integrated solution, including a MEMS sensor, signal conditioning, and digital output drivers. It boasts high accuracy (± 0.5% FSO) and is developed as a Safety Element out of Context (SEooC) under ISO 26262, meeting the stringent safety requirements of modern EVs.
