Maxim Integrated Products has introduced low-power (less than 1.2microamps), microprocessor supervisory circuits that feature precision power-supply monitoring and battery-control functions.

Microprocessor testing and self-test techniques constitute a critical domain in ensuring the reliability and performance of modern computing devices. These methodologies encompass both hardware and ...

The MAX696/MAX697 supervisory circuits reduce the complexity and number of components required for power-supply monitoring and battery-control functions in microprocessor (µP) systems. These include ...

Many microprocessor-based products require a manual-reset capability that allows the user, test technician, or external circuitry to reboot the system without a full power-down/power-up cycle. To ...

Maxim Integrated Products introduces the MAX16072-MAX16074 microprocessor supervisory circuits in a 1mm x 1mm chip-scale package Maxim Integrated Products introduces the MAX16072-MAX16074 ...

Maxim Integrated Products MAX16060/MAX16061/MAX16062 1% accurate, quad-/hex-/octal-voltage microprocessor supervisors. The supervisors offer accurate monitoring to maximise system reliability. To ...

LOS ALTOS, Calif.--January 24, 2011--True Circuits, Inc. (TCI), a leading provider of analog and mixed-signal intellectual property (IP) for the semiconductor, systems and electronics industries ...

Cells in the body are wired like computer chips to direct signals that instruct how they function, research suggests. Unlike a fixed circuit board, however, cells can rapidly rewire their ...

In 1958 the integrated circuit was developed by a young engineer at Texas Instruments named Jack St. Clair Kilby. He put together a few transistors and capacitors, linking them with a thin layer of ...

Graphene could become the next big thing in the quest for smaller, less power-hungry electronics. Physicists are making discoveries that may advance electronic circuit technology. Graphene could ...