Allegro MicroSystems, Inc. (“Allegro”), a global leader in power and sensing solutions for motion control and energy-efficient systems, today announced the ACS37200, a galvanically isolated current sensor that provides a breakthrough solution to the efficiency and power density challenges in high-current applications.
Image Credit: Allegro MicroSystems, Inc.
As engineers design increasingly compact and powerful systems for hybrid and battery electric vehicles (HEV/EVs), industrial automation, AI data centers, and solar inverters, the heat and power loss generated by traditional shunt resistors has become a primary design bottleneck. The ACS37200, with its industry-leading 50 µΩ conductor resistance, removes this obstacle, enabling designers to build smaller, more efficient, and more reliable power systems.
From Wasted Heat to More Power
In a high-current system, every milliohm of resistance matters. A typical 100A design using a 0.5 mΩ shunt resistor can waste up to 5 watts of power as pure heat, requiring costly and space-consuming heatsinks. The ACS37200’s ultra-low 50 µΩ resistance reduces that power loss to just 0.5 watts – a 90 % reduction. This means less energy is wasted and more power is available to drive the vehicle or run the server, directly improving HEV/EV range and lowering data center operating costs.
A Breakthrough in Power Density
This efficiency gain is a critical enabler for power density. While Allegro’s previous generation of integrated sensors, such as the ACS772, already offered a nearly 7x size reduction over bulky discrete shunt solutions, the new ACS37200, in its compact 100 mm2 PSOF package, takes this even further. It is nearly 70 % smaller than the ACS772’s CB package, resulting in a total footprint that is 20 times smaller than a traditional shunt solution – a significant 95 % reduction in board space. Because the sensor generates minimal heat, designers can eliminate bulky heatsinks, and its integrated architecture removes external isolation components, directly enabling this new level of compactness and higher power density.
“Our customers consistently tell us that power is a major bottleneck. Systems need to monitor, convert and deliver more power than ever before in the same or even smaller form factors,” said Matt Hein, Business Line Director of Current Sensors at Allegro MicroSystems. “By drastically cutting power loss and offering a 95 % reduction in footprint, we are giving our customers more design freedom, higher power density, and a faster path to building smaller, more efficient systems for the future of e-Mobility, industrial automation, and clean energy.”
Simplifying Design and Enhancing Safety
Beyond efficiency and density, the fully integrated ACS37200 simplifies the design process. As a single factory-calibrated component certified to UL 62368-1, it replaces multiple discrete parts – including a shunt resistor, isolation amplifier, and associated passive components. This reduces the bill of materials (BOM), simplifies the supply chain, and removes the need for complex high-voltage isolation design, enhancing system safety and reliability.
ACS37200 Features and Benefits
- Ultra-Low Power Loss: Industry’s lowest conductor resistance of 50 µΩ reduces power loss by 90 % compared to a typical 0.5 mΩ shunt.
- Unprecedented Power Density: A 95 % smaller footprint than discrete shunt solutions delivers more compact and cost-effective end products.
- Robust, Certified Isolation: Provides 1000 VRMS / 1,414 VDC of certified galvanic basic isolation in a single surface-mount package and is certified to UL 62368-1.
- Simplified Design: Replaces multiple discrete components (shunt, isolation amp) with a single factory-calibrated IC in a space-saving 8-pin PSOF package.
Stop wasting power on hot, inefficient shunts. Discover how the ACS37200 can reduce sensing-related power loss by up to 90 %. Datasheets and samples are available now at: www.allegromicro.com/acs37200.