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RELAY Datasheet, PDF

Searched Keyword : 'RELAY' - Total: 45 (3/3) Pages
ManufacturerPart #DatasheetDescription
Company Logo Img
Infineon Technologies A...
TLE9835QX Datasheet pdf image
312Kb/2P
Smart LIN-based Relay Driver IC & Switch Panel Interface with integrated 8-bit MCU
02 / 2012
PEF3460E Datasheet pdf image
146Kb/2P
Single channel T3/E3 Framer & Line Interface for ATM, Frame Relay and PPP/IP
2001
TLE7236E Datasheet pdf image
744Kb/37P
8 Channel High-Side and Low-Side Relay Switch with Limp Home Mode and Cranking
Rev. 1.0, October 2008
TLE7236G Datasheet pdf image
726Kb/38P
8 Channel High-Side and Low-Side Relay Switch with Limp Home Mode and Cranking
Rev. 1.0, October 2008
TLE7239GS Datasheet pdf image
729Kb/37P
8 Channel High-Side and Low-Side Relay Switch with Limp Home Mode and Cranking
Rev. 1.0, October 2008

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What is RELAY


A relay is an electrically operated switch that is used to control high-power circuits with a low-power signal. It consists of an electromagnet, which is activated by a small electrical current, and a set of contacts that open and close in response to the electromagnetic field.

Relays are widely used in many applications, including automotive systems, industrial control systems, and power distribution systems. They are used to control high-power circuits, such as lighting, motors, and solenoids, with a low-power signal, such as a switch, a microcontroller, or a sensor.

There are several types of relays, including electromechanical relays, solid-state relays, and reed relays.

Electromechanical relays are the most common type, and they use a mechanical armature to open and close the contacts. Solid-state relays use semiconductor devices, such as transistors or thyristors, to control the flow of current, and they offer advantages in terms of reliability and response time.

Reed relays are small and fast, and they are used in applications where space is limited and high-speed switching is required.

The performance of a relay is influenced by several factors, including the input signal, the size of the relay, the type of contacts, and the operating environment.
The design of relays is an important consideration in many applications, as it affects the reliability, safety, and cost of the system.

In addition to their use in switching high-power circuits, relays are also used in many other applications, including telecommunications, test equipment, and power supplies, among others.

The ability to control high-power circuits with a low-power signal is a critical aspect of many electronic systems, and the design and performance of relays play an important role in enabling these systems to function effectively and efficiently.

*This information is for general informational purposes only, we will not be liable for any loss or damage caused by the above information.


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