Plano, Texas – October 15th, 2013 –– Diodes has extended its family of Hall effect switches with the introduction of a pair of high sensitivity, micropower devices. Bringing greater design flexibility and savings in both power and space, the AH1902 and AH1903 help raise the performance bar of a wide range of contact-less switch applications in consumer, domestic, office and industrial products.
The AH1902 is an omnipolar device, detecting both north and south pole magnets. In default mode, the programmable AH1903 operates as a unipolar device, detecting a south pole at the part marked package surface. The device also offers an omnipolar mode, enabling it to meet the needs of multiple applications and to be changed ‘on the fly’ in the event of a field direction issue. The AH1903 function is changed via a simple select pin, driven by an external logic source or microcontroller.
The high sensitivity of both switches means weaker magnets can be employed or detection distances extended; the switches’ typical operating threshold switch point being ±35G.
Designed to be used with a low voltage supply, these latest Hall switches from Diodes will operate over the range 1.6V to 3.6V. This factor, coupled with an integral sleep function and a typical current consumption figure of 4.3µA, makes them a good performer in battery-powered applications.
To aid product miniaturization, the switches are provided in a choice of space-saving low profile surface mount packages. The omnipolar AH1902 comes in the DFN1216-4, ultra-thin DFN2015-6 and SOT553 packages. And in the 1.2×1.6×0.5mm DFN1216-4 package, the AH1903 is the industry’s smallest omnipolar/unipolar programmable Hall switch.
To accommodate a wide range of hand-held applications, these high-reliability switches have an 8kV electrostatic discharge withstand capability and offer good immunity to RF noise and other circuit stresses. Operating and release points are also highly stable over the temperature range -40ºC to +85ºC, and with a very low temperature coefficient, the switches are immune to early or late switching.
In 10k quantities, the AH1902 omnipolar Hall effect switch is priced at $0.18USD each and the AH1903 omnipolar/unipolar programmable Hall effect switch at $0.185USD each. Further information is available at www.diodes.com
About Diodes Incorporated
Diodes Incorporated (Nasdaq: DIOD), a Standard and Poor’s SmallCap 600 and Russell 3000 Index company, is a leading global manufacturer and supplier of high-quality application specific standard products within the broad discrete, logic and analog semiconductor markets. Diodes serves the consumer electronics, computing, communications, industrial, and automotive markets. Diodes’ products include diodes, rectifiers, transistors, MOSFETs, protection devices, functional specific arrays, single gate logic, amplifiers and comparators, Hall-effect and temperature sensors; power management devices, including LED drivers, AC-DC converters and controllers, DC-DC switching and linear voltage regulators, and voltage references along with special function devices, such as USB power switches, load switches, voltage supervisors, and motor controllers. Diodes’ corporate headquarters, logistics center, and Americas’ sales office are located in Plano, Texas. Design, marketing, and engineering centers are located in Plano; San Jose, California; Taipei, Taiwan; Manchester, England; and Neuhaus, Germany. Diodes’ wafer fabrication facilities are located in Kansas City, Missouri and Manchester, with four manufacturing facilities located in Shanghai, China, and two joint venture facilities located in Chengdu, China, as well as manufacturing facilities located in Neuhaus and Taipei. Additional engineering, sales, warehouse, and logistics offices are located in Fort Worth, Texas; Taipei; Hong Kong; Manchester; Shanghai; Shenzhen, China; Seongnam-si, South Korea; Suwon, South Korea; Tokyo, Japan; and Munich, Germany, with support offices throughout the world. For further information, including SEC filings, visit Diodes’ website at http://www.diodes.com.