NVE ADL024-14E

  • NVE

Product Features

  • GMR nanopower digital switch
  • 55Hz duty-cycled for low power consumption
  • Operating voltage of 2.4V to 3.6V
  • Quiescent current of 0.13uA (typ) at 2.4V
  • Precise detection of low magnetic fields
  • Operate point 28Oe (typ.)
  • Release differential range of 2Oe to 14Oe
  • Ultraminiature 1.1 x 1.1 mm ULLGA package

Applications

  • Compliant

The NVE ADL024-14E nanopower digital switch integrates NVE’s patented Spintronic GMR technology. Which offers a digital low-power CMOS circuitry and onboard signal processing. The ADL series from NVE is internally duty cycled at 55Hz to further reduce the power consumption which is ideal for operating from a 3.3V power supply or single lithium cell battery. The nanopower switch is extremely small in an ultraminiature ULLGA package and has a magnetic operate point of 28Oe (typ.).

  • GMR nanopower digital switch
  • Operating voltage between 2.4V and 3.6V
  • Quiescent current of 0.13µA(typ.) at 2.4V
  • Duty cycled at 55Hz for low power consumption
  • Magnetic operate point of 28Oe (typ.)
  • Precise detection of low magnetic fields
  • Release differential between 2Oe and 14Oe
  • Temperature range from -40°C to +125°C
  • Ultraminiature 1.1mm x 1.1 mm ULLGA package

The NVE ADL024-14E GMR nanopower digital switch covers the following applications:

  • Portable instruments
  • Utility meters
  • Lithium cell powered application

The below table gives the full specifications of the NVE ADL series including the ADL024-14E

NVE ADL024-14E  Specifications


Quantity
Calculators and Convertors

Work out what you need for your project. Go to calculators and convertors

Contact us if you need your items quicker or need more than in stock.

Specifications

Weight 0.00500 kg
Dimensions 0.40 x 1.10 x 1.10mm
Frequency Response

Magnetic Orientation

Output

Series / Model

Supply Voltage

Temperature Range (°C)

NVE ADL Series Technical Library

We are pleased to provide you with a range of additional content including videos, product datasheets, case studies, white papers and application notes for your reference. Please see below for the latest content available:

 

 

DOCUMENTATION
NVE ADL nanopower digital switch series datasheet
Current measurement using GMR sensors application note
2-wire sensor interfaces application note
Further application notes for GMR sensors
Package, tape-and-reel and pad layout specifications
NVE RoHS and enviromental compliance certificate
Case Studies
Analysis of a GMR-based Plethysmograph transducer and its utility for real-time Blood pressure measurement
Dual-stage nanopositioning for high speed scanning probe microscopy
Extending the GMR current measurement range with a counteracting magnetic field
A current sensor based on the GMR effect for design and potential smart grid applications
Flexible GMR sensor array for magnetic flux leakage testing of steel track ropes
Wireless wearable controller for upper limb neuroprosthesis
Using GMR sensors with MSP430 scan interface
Safety device uses GMR sensor
Nondestructive inspection for diffusion bonded components
GMR sensors manage batteries

 

 

 

VIDEOS
ADL Series Nanopower Magnetic Sensor Demonstration

NVE show the low power and high sensitivity of their unique ADL series of nanopower magnetic switches. These magnetic switches are the smallest parts in their class (1.1 mm x 1.1 mm), with the high sensitivity and (20 Oe operate points), and lowest power (as low as nanowatts).

ADL021 Nanopower Magnetic Switch Mini Evaluation Board

A new mini evaluation board shows the low power, high sensitivity, and small size of NVE's ADL021 magnetic switch. The 20 Oersted magnetic operate point allows wide distances between the sensor and magnet. Sensor power consumption is nanowatts, so they can run nearly forever on a watch battery, and the sensor is just 1.1 millimeters square, small enough to fit on the head of a pin.

ADL Series Nanopower Magnetic Sensor Evaluation Kit

The ridiculously low power of NVE's ADL series nanopower magnetic sensors is shown with an analog meter driven by an amplifier with a gain of 1000, to provide a 100 nanoamp scale. The self-contained demonstrator runs on a single three-volt coin cell, and includes each of the three ADL sensor power ranges – the continuous duty ADL9xx; and the ADL0xx and ADL1xx, which are duty-cycled for power consumption in the nanowatts. In addition to ridiculously low power, ADL-Series sensors are the most sensitive and smallest sensors in their class, with magnetic operate points as low as 20 Oersteds, and packages that fit on the head of a pin.

VIDEOS
ADL Series Nanopower Magnetic Sensor Demonstration

NVE show the low power and high sensitivity of their unique ADL series of nanopower magnetic switches. These magnetic switches are the smallest parts in their class (1.1 mm x 1.1 mm), with the high sensitivity and (20 Oe operate points), and lowest power (as low as nanowatts).

ADL021 Nanopower Magnetic Switch Mini Evaluation Board

A new mini evaluation board shows the low power, high sensitivity, and small size of NVE's ADL021 magnetic switch. The 20 Oersted magnetic operate point allows wide distances between the sensor and magnet. Sensor power consumption is nanowatts, so they can run nearly forever on a watch battery, and the sensor is just 1.1 millimeters square, small enough to fit on the head of a pin.

ADL Series Nanopower Magnetic Sensor Evaluation Kit

The ridiculously low power of NVE's ADL series nanopower magnetic sensors is shown with an analog meter driven by an amplifier with a gain of 1000, to provide a 100 nanoamp scale. The self-contained demonstrator runs on a single three-volt coin cell, and includes each of the three ADL sensor power ranges – the continuous duty ADL9xx; and the ADL0xx and ADL1xx, which are duty-cycled for power consumption in the nanowatts. In addition to ridiculously low power, ADL-Series sensors are the most sensitive and smallest sensors in their class, with magnetic operate points as low as 20 Oersteds, and packages that fit on the head of a pin.

  • NVE

NVE ADL024-14E

Quantity
Please be advised that due to the ongoing supply issues with raw materials affecting the global electronics industry, as well as an increase in orders received by our manufacturing partners, a large number of products are facing increased lead times in recent months. For the latest lead time and stock availability, please contact one of our engineers who will be happy to discuss lead times further and the potential for alternative parts.