The Power PROFET + 12V allows for new mounting locations and new enclosure options, enabling the next generation of decentralised power architectures with high efficiency.
Two variants are available: the BTS50005-1LUA with an on-resistance (R DS(ON)) of 0.6 mΩ and the BTS50010-1LUA with an R DS(ON) of 1.0 mΩ for lowest power losses. They are designed to control high-current applications, especially in hot cabin and engine compartment environments for demanding high inrush currents, such as in heaters, pumps and fans.
They can provide more than 1,000,000 switching cycles compared to, for example, in average 200,000 switching cycles of a relay.
The switches can replace electromechanical relays, fuses and discrete circuits in power distribution boxes and other applications up to 65 A in a 12 V electrical system. Furthermore, the switches offer built-in protection and diagnostic functions, such as short-circuit, over-current and over-temperature protection. As a result, the devices are fully protected and provide a fault signal via the diagnosis enable pin to a connected microcontroller for advanced diagnosis in power distribution modules.
The smart power switches are housed in an 8-pin TO leadless package, reducing the footprint by 23 percent compared to D2PAK while providing similar thermal performance. The accuracy of the load current sense has been improved down to five percent and can be evaluated by reading an analogue voltage on the IS pin.
In addition, the switch family is PRO-SIL ISO 26262-ready and comes with a safety application note supporting the evaluation of hardware elements according to ISO 26262.
To enable easy design-in process of Power PROFET +12V devices, the family is integrated into the Infineon Smart Power Switches Intrinsic Fuse Tool and the Infineon Smart Power Switches kILIS Tool, both available in the Infineon Developer Center.
The Smart Power Switches Intrinsic Fuse tool makes it possible to calculate the intrinsic fusing characteristic based on the embedded overtemperature protection of the respective selected product under certain boundary conditions. The kILIS tool is used for calculating and visualising the range of the sense current for specific load currents on the respective selected product, taking the kILIS rate, sense resistor and ADC tolerances into account.