Highly reliable metal alloy resistors are AEC-Q200 qualified
Global provider of engineered electronics for performance critical applications, TT Electronics, has announced the LRMAP5930 series of low resistance, metal alloy current sense power resistors. With values down to 200μΩ and a corresponding power rating on standard FR4 PCB of up to 10W, the maximum measurable current is over 200A, and hence in most cases restricted only by the capacity of the PCB tracks.
A 50% higher power rating of 15W can be achieved for assemblies mounted on a thermal substrate such as direct bonded ceramic (DBC) or insulated metal substrate (IMS), making these resistors suitable for hybrid modules.
Aimed at designers of power supplies and motor drives in the industrial, automotive and medical industries, TT Electronics’ LRMAP5930 high power shunt resistors are suitable in the specific areas of regulating current flow, detecting stalled motors and particularly, measuring power consumption.
The growth of electrical drives and actuators in industrial and automotive applications has witnessed a parallel growth in the need to monitor and minimise energy usage. The LRMAP5930 is AEC-Q200 qualified for the automotive market while other applications include power supplies, battery monitoring and process control.
LRMAP5930 resistance values range from 200μΩ to 2mΩ and the resistors feature a high surge energy capability of up to 33J. Robust, they are formed from a continuous band of E‑beam welded precision resistive strip, and various alloys are used based on the resistance value. The metal element shunt parts withstand all normal industrial solvents suitable for cleaning printed circuits and for ease of identification are marked ‘5930’; alloy type, ohmic value and tolerance.
The surface mount shunt resistors’ low thermal impedance minimises the temperature rise and enhances the reliability of the assembly, while their high surge tolerance gives reliable product performance under inrush and momentary short circuit conditions.
Their good long term stability of value, low TCR (temperature coefficient of resistance) and low thermal EMF collectively mean that only a small part of the designer’s error budget is consumed, enabling more design freedom elsewhere in the circuit.
For circuit designers who need to guarantee stable and accurate sensing of AC and DC currents up to 200A in SMT assemblies, TT Electronics’ LRMAP5930 high power shunt resistors match or surpass the power ratings of key competitors’ parts in most ohmic values.
It is important that specifiers and designers make power rating comparisons taking mounting conditions into account. TT Electronics clearly defines these on the resistors’ datasheet that presents dual ratings based on standard FR4 PCB and thermal substrate mounting types.