Skip to product information
1 of 1

ALLEGRO

Allegro MicroSystems Micropower Ultra-Sensitive Hall-Effect Switch, Part #A3214ELHLT-T | Sensor | DEX

Allegro MicroSystems Micropower Ultra-Sensitive Hall-Effect Switch, Part #A3214ELHLT-T | Sensor | DEX

Regular price
List Price: $25.00 USD   
Regular price Sale price $25.00 USD
Sale Sold out
Shipping calculated at checkout.

Allegro MicroSystems Micropower Ultra-Sensitive Hall-Effect Switch, Part #A3214ELHLT-T | Sensor | DEX features: • AEC-Q100 automotive qualified • Micropower operation • Operate with north or south pole • 2.4 to 5.5 V battery operation • Chopper stabilized □ Superior temperature stability □ Extremely low switchpoint drift □ Insensitive to physical stress • High ESD protection • Solid-state reliability • Small size • Easily assembly into applications due to magnetic pole independence

The A3213 and A3214 integrated circuits are ultra-sensitive, pole-independent Hall-effect switches with a latched digital output. They are especially suited for operation in battery-operated, hand-held equipment such as cell and cordless telephones and palmtop computers. A 2.4 to 5.5 V operation and a unique clocking scheme reduce the average operating power requirements: the A3213 to 825 µW, the A3214 to 14 µW (typical, at 2.75 V). Except for operating duty cycle and average operating current, the A3213 and A3214 are identical. Unlike other Hall-effect switches, either a north or south pole of sufficient strength will turn the output on; in the absence of a magnetic field, the output is off. The polarity independence and minimal power requirement allows these devices to easily replace reed switches for superior reliability and ease of manufacturing, while eliminating the requirement for signal conditioning. Improved stability is made possible through chopper stabilization (dynamic offset cancellation), which reduces the residual offset voltage normally caused by device overmolding, temperature dependencies, and thermal stress.

 

ALE:A3214ELHLT-T 

A3214ELHLT-T 

View full details