Press release -
ROHM Semiconductor's High Power Ultra-Low-Ohmic Shunt Resistors: 5W class ideal for current detection in automotive and industrial applications
KYOTO, Japan and SANTA CLARA, Calif., April 11, 2014 /PRNewswire/ -- ROHM has recently announced the development of high power ultra-low-ohmic shunt resistors ideal for current detection in applications with increased power requirements, such as automotive systems and industrial equipment. The new PSR series includes PSR400, which is rated at 4W, and PSR500, guaranteed up to 5W.
Resistors in current detection applications are typically used to detect overcurrent conditions or remaining battery level. And although current sense resistors have been widely adopted in the automotive and industrial sectors, the recent trend towards greater sophistication and computerization has increased current requirements, leading to a need for high power components. This includes a demand for high accuracy resistors with superior temperature coefficient of resistance (TCR) for stable operation in extreme temperature environments and that feature ultra-low resistance values in order to minimize power consumption.
In response, ROHM utilized high quality resistor technology cultivated
for the low-power sector to develop a new lineup of high power low-ohmic
shunt resistors. In addition, high-yield precision welding technology
made it possible to guarantee high rated power in the 5W class, while a
high-performance alloy was adopted in the resistive metal for superior
TCR in the low-ohmic region. This ensures sufficient margin even in
applications with stringent temperature requirements, such as automotive
systems and industrial equipment, while lightening design load.
Key Features
1. Exclusive precision welding technology utilized for improved rated power (5W)To support high power and ensure high measurement accuracy even in
the ultra-low-ohmic region (0.2mΩ), technology for bonding copper electrodes
without variations is required. ROHM employed original precision welding
technology to join the resistive metal to thick copper electrodes, achieving high
heat capacity with excellent thermal dissipation characteristics. This results
in improved power (5W class) along with high productivity.
2. Superior temperature coefficient of resistance, even in the ultra-low-ohmic region
Generally, as resistance value decreases the temperature coefficient of resistance increases. In response, ROHM utilized a high-performance alloy material for the resistive metal, ensuring superior temperature coefficient of resistance even at ultra-low resistances.
Pricing: US$2.10 (3000 pcs)
Availability: Samples
・TCR (Temperature Coefficient of Resistance)
The lower this value is the smaller the change in resistance value in response to changes in ambient temperature, making it possible to suppress variations in device operation.
Topics
- Engineering
Categories
- automotive
About ROHM Semiconductor:
ROHM Semiconductor is an industry leader in system LSI, discrete components and module products, utilizing the latest in semiconductor technology. ROHM's proprietary production system, which includes some of the most advanced automation technology, is a major factor in keeping it at the forefront of the electronic component manufacturing industry. In addition to its development of electronic components, ROHM has also developed its own production system so that it can focus on specific aspects of customized product development. ROHM employs highly skilled engineers with expertise in all aspects of design, development and production. This allows ROHM the flexibility to take on a wide range of applications and projects and the capability to serve valuable clients in the automotive, telecommunication and computer sectors, as well as consumer OEMs.
