E-MOBILITY
The welded connections exhibit greater resistance to mechanical stress and thermal cycling
Specially engineered contact elements weld the shunt directly to the PCB
NEW ERA FOR SHUNT CONNECTIONS
How innovative contact technology for shunt resistors is setting new standards for battery management systems
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s the need for eff icient and dependable battery systems continues to rise, innovative contact technology for shunt
resistors is setting new standards in precision and adaptability for Battery Management Systems (BMS) across electric mobility and related fi elds.
THE GROWING ROLE OF BMS BMS are pivotal to the success of modern electrifi cation eff orts. Whether in electric vehicles (EVs) or renewable energy storage solutions, BMS are responsible for safeguarding
www.engineerlive.com Emerging contact
technology promises to overcome these obstacles by enabling more precise measurements and optimising manufacturing workfl ows
battery performance by tracking their state of charge (SOC) and state of health (SOH). At the heart of these systems is the shunt resistor, a key element in measuring electric currents. However, the traditional process of connecting shunts to printed circuit boards (PCBs) has notable limitations that hinder both performance and production eff iciency. Emerging contact technology
promises to overcome these obstacles by enabling more precise measurements and optimising manufacturing workfl ows. This breakthrough is redefi ning how
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