Knit pom pom beanie hat, blue with white NVE logo. 12 inches long with a 3 inch cuff, 100% acrylic. We know spintronics and how to keep warm in the winter.
The 12030 is a 0.125 x 0.25 x 0.5 inch miniature ferrite bar magnet. Typical
field strength is 1500 Oe at the magnet face and forty oersteds one-half inch
away.
This magnet is also included in several sensor evaluation kits, including our Analog
Sensor Evaluation Kit and Sensor
Demo Board.
The 12031 is a 0.312" dia. x 0.125" thick Y25 ferrite disk magnet. Typical field strength is 900 Oe at the magnet face.
This magnet is also included in our Analog
Sensor Evaluation Kit.
The 12032 is a 1.0" long x 0.125" wide x 0.39" thick Y25 ferrite bar magnet. Typical
field strength is 1800 Oe at the magnet face.
This magnet is also included in the AG910-07
and AG911-07
GMR Switch Evaluation Kits.
The 12216 magnet is a round, Y25 ferrite, 6 mm dia. x 4 mm thick disk magnet. Typical field strength is 1100 Oe at the magnet face.
This magnet is also included in the AG920-07
Gear Tooth Sensor Evaluation Kit.
The 12217 magnet is a round, 3.5 mm dia. x 4 mm thick Y25 ferrite disk magnet. Typical field strength is 1700 Oe at the magnet face.
This magnet is also included in the AG920-07
Gear Tooth Sensor Evaluation Kit.
A diametrically-magnetized for use with AAT- and ADT-Series angle sensors. The magnet material is C5/Y25 ferrite or similar.Typical field strength is 1000 Oe at the magnet face.
The 12426 is a split-pole Alnico-5 round horseshoe magnet, ideal for use with
AAT-Series angle sensors.
The magnet is 11 mm diameter by 11 mm tall, with a 3.7 mm hole
through the center for a variety of mounting options.
Typical field strength is 1100 Oe at the magnet face and thirty oersteds 12mm away. This magnet's strength allows a large airgap between the magnet and the sensor.
This magnet is included in our angle sensor evaluation kits.
A machined-aluminum magnet holder for 8 mm dia. magnets such as part numbers 12527 and 12528 (sold separately).
Compatible with
AG93x-Series
and AG956 Evaluation Kits for AAT, ADT, and ASR-Series angle and rotation sensors.
Outside dimensions 11 mm dia. x 22 mm tall, with a 6-32 threaded mounting hole. Includes 0-80 set screws, set-screw Allen wrenches, a nylon knob, and a clock hand to track rotation.
A machined-aluminum magnet holder for 4 mm dia. magnets such as part number 12526 (sold separately).
Compatible with
AG93x-Series
and AG956 Evaluation Kits for AAT, ADT, and ASR-Series angle and rotation sensors.
Outside dimensions 11 mm dia. x 22 mm tall, with a 6-32 threaded mounting hole. Includes 0-80 set screws, set-screw Allen wrenches, a nylon knob, and a clock hand to track rotation.
NVE's AA002-02E Normalized Output GMR Magnetic Field Sensors have a unique ability
to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
15
3.0 - 4.2
Analog Bridge
Low-Field Measurement
SOIC8 (RoHS)
Note: Parts must be purchased in tube multiples (increments of 92) when purchasing quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA002-02E 0.15 to 1.05 mT GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
NVE's AA003-02E Normalized Output GMR Magnetic Field Sensors have a unique ability
to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
20
2.0 - 3.2
Analog Bridge
Low-Field Measurement
SOIC8 (RoHS)
Note: Parts must be purchased in tube multiples (increments of 92) when purchasing quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA003-02E 2 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
NVE's AA004-00E Normalized Output GMR Magnetic Field Sensors have a unique ability
to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
20
0.9 - 1.3
Analog Bridge
Low-Field Measurement
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) when purchasing quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA004-00E 5 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
NVE's AA004-02E Normalized Output GMR Magnetic Field Sensors have a unique ability
to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
20
0.9 - 1.3
Analog Bridge
Low-Field Measurement
SOIC8 (RoHS)
Note: Quantity Parts must be purchased in tube quantities (multiples of 92) when purchasing quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA004-02E 5 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
NVE's AA005-02E Normalized Output GMR Magnetic Field Sensors have a unique ability
to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
100
0.45 - 0.65
Analog Bridge
High-Field Measurement
SOIC8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 92) when purchasing quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA005-02E 10 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
NVE's AA006-00E Normalized Output GMR Magnetic Field Sensors have a unique ability
to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
50
0.9 - 1.3
Analog Bridge
0.3mA@9V
MSOP8
(RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) when purchasing quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA006-00E 5 mT saturation, low-power GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
NVE's AA006-02E Normalized Output GMR Magnetic Field Sensors have a unique ability to sense static fields and offer unmatched magnetic sensitivity.
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Sensitivity (mV/V/Oe)
Output
Comments
Package
50
0.9 - 1.3
Analog Bridge
0.3mA@9V
SOIC8
(RoHS)
Note: Parts must be purchased in tube quantities (multiples of 92) when purchasing quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA006-02E 5 mT saturation, low-power GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
The AA007-00E GMR Magnetic Field Sensors are used to sense relatively high fields.
0.1 mV/V/Oe Sensitivity; 500 Oe Saturation Field; MSOP8.
Note: Parts must be purchased in tube quantities (multiples
of 100) when purchasing quantities of 100 or more. Larger quantities are subject
to NVE's standard lead times.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AA007-00E 50 mT saturation, low-power GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field.
AAH002-02E Normalized Output GMR Field Sensors use a unique high-sensitivity GMR material, making them ideal for low-field applications. They also tolerate extremely high temperatures--up to 150 degrees Celsius.
Features:
Extremely High Sensitivity to Applied Magnetic Fields
Wheatstone Bridge Analog Output
150 Degrees Celsius Continuous
DC to >1MHz Frequency Response
Applications:
Low Voltage, High Temperature Applications
Low-Field Sensing for Magnetic Media Detection
Earth's Magnetic Field Detection
Current Sensing
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
6
0.6 - 3.0
11 - 18
2,000 +/-20%
SOIC8
(RoHS)
Note: Parts must be purchased in tube
quantities (multiples of 92) when purchasing quantities of 92 or more. Larger
quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAH002-02E ultrahigh-sensitivity 0.6 to 3 mT linear range GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 12 V supply and provides a differential output voltage proportional to the applied magnetic field.
AAH004-00E Normalized Output GMR Field Sensors use a unique high-sensitivity GMR material, making them ideal for low-field applications. They also tolerate extremely high temperatures--up to 150 degrees Celsius.
Features:
Extremely High Sensitivity to Applied Magnetic Fields
Wheatstone Bridge Analog Output
150 Degrees Celsius Continuous
DC to >1MHz Frequency Response
Applications:
Low Voltage, High Temperature Applications
Low-Field Sensing for Magnetic Media Detection
Earth's Magnetic Field Detection
Current Sensing
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
15
1.5 - 7.5
3.2 - 4.8
2,000 +/-20%
MSOP8
(Pb)
Note: Parts must be purchased in tube quantities (multiples of 100) when purchasing quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAH004-00E 1.5 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 12 V supply and provides a differential output voltage proportional to the applied magnetic field.
The AAK001-14E is a high-field magnetometer sensor that provides precise sensing
of magnetic fields up to 4 kOe (400 mT). With a unique 1.1 mm x 1.1 mm package
package, it is also our smallest analog sensor.
Features:
Precise sensing of magnetic fields up to 4 kOe (400 mT)
Sensitive to fields of any direction in the IC plane
Ratiometric Wheatstone bridge outputs
Any operating supply voltage up to 12V
Ultraminiature 1.1 x 1.1 mm package
Applications:
Brushless DC motors
Motor commutator sensors
Noncontact high-current measurement
Harsh industrial applications
Note: Parts are sold in increments of 100 for quantities of 100 or more.
This part is RoHS compliant.
AAL002-02E Normalized Output GMR Field Sensors use a unique high-sensitivity GMR
material, making them ideal for low-field applications. They also tolerate extremely
high temperatures--up to 150 degrees Celsius.
Features:
High Sensitivity to Applied Magnetic Fields
Low Hysteresis
Wheatstone Bridge Analog Output
150 Degrees Celsius Continuous
DC to >1MHz Frequency Response
Applications:
Low Voltage, High Temperature Applications
Low-Field Sensing for Magnetic Media Detection
Earth's Magnetic Field Detection
Current Sensing
General purpose magnetometer --
senses fields from permanent magnets, earth, and current sources.
Typ. Min. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
15
1.5 - 10.5
3.0 - 4.2
5,500 +/-20%
SOIC8
(RoHS)
Note: Parts must be purchased in tube
quantities (multiples of 92) when purchasing quantities of 92 or more. Larger
quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAL002-02E 1.5 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 12 V supply and provides a differential output voltage proportional to the applied magnetic field.
The AAL004-10E high-performance magnetometer has high sensitivity and low-hysteresis, making it ideal for low-field applications. With a unique TDFN6 package, it is also our smallest analog sensor.
Features:
Output linear with magnetic fields as low as 1.5 Oe for low-field applications
3.5 mv/V/Oe typical sensitivity for large output signals and low noise
2% maximum hysteresis for precision and repeatability
Omnipolar output for configuration flexibility
–40 to 125°C
Applications:
Current sensing
Low-field sensing for magnetic media
Earths magnetic field detection
Low-Hysteresis Magnetometer
senses fields from permanent magnets, earth, and current sources.
Typ. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
15
1.5 - 10.5
3.0 - 4.2
2200 ±20%
TDFN6
(RoHS)
Note: Parts are sold in increments of 100 for quantities of 100 or more.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAL004-10E 1.5 mT saturation GMR analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 12 V supply and provides a differential output voltage proportional to the applied magnetic field.
The AAL024-10E high-performance magnetometer has high sensitivity, high linearity, low-hysteresis, and cross-axis sensitivity, making it ideal for noncontact current-sensing.
Features:
3.6 mv/V/Oe typical sensitivity for large output signals and low noise
Wide linear range: 0.15 – 1.05 mT; 1.5 mT saturation
2.2 kΩ bridge resistance/1.1 kΩ output impedance for easy interface
Low offset: 4 mV/V max.
Low hysteresis: 2% max. for excellent repeatability
Wide bandwidth: 100 kHz
63 V minimum inherent isolation (pad to electrical connections)
Ultraminiature 2.5 mm x 2.5 mm TDFN6 package
Applications:
Current sensing
Low-field sensing for magnetic media
Earths magnetic field detection
Low-Hysteresis Magnetometer
senses fields from permanent magnets, earth, and current sources.
Typ. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
15
1.5 - 10.5
3.0 - 4.2
2200 ±20%
TDFN6
(RoHS)
Note: Parts are sold in increments of 100 for quantities of 100 or more.
This part is RoHS compliant.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAL024-10E 1.5 mT saturation, low hysteresis GMR analog bridge magnetometer. Its cross-axis sensitivity makes it ideal for noncontact current sensing, which can be evaluated using this board (up to 7 A for this board).
The board has a pre-soldered sensor, screw terminals for the current trace, a standard 0.1" (2.54 mm) header, and a 1 mm pitch card-edge connector.
The board can be powered by a 0 to 24 V supply and provides a differential output voltage proportional to the applied magnetic field or current.
AAT001-10E Angle Sensors use Tunneling Magnetoresistance (TMR) technology to produce
a very high output signal without amplification, a wide airgap tolerance, and
very high device resistance for extremely low power. Sine and cosine outputs provide
full quadrature.
Key specifications are as follows:
TMR Angle Sensor
Typ. p-p
Signal
Min. Applied
Field (Oe)
Max. Angular
Error (const. field)
Max. Op. Temp.
Typ. Device
Resistance
Package
200 mV/V
30 Oe
0.5 degrees
125°C
1.25 MΩ
TDFN6
The angle sensors are typically used with a split pole magnets such as
NVE part no. 12249 or 12426.
An Evaluation Kit is available with an angle sensor, circuit board, unity-gain buffer amplifier, split-pole magnet, and a plastic magnet locating fixture.
Note: Please purchase in increments of 100 when purchasing quantities of 100 or more.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAT001-10E 1.25 MOhm Tunneling Magnetoresistance (TMR) analog angle sensor.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 5.5 V supply and provides sine and cosine analog outputs.
AAT003-10E
Angle Sensors use Tunneling Magnetoresistance (TMR) technology to produce a very
high output signal without amplification, a wide airgap tolerance, and low power. Sine and cosine outputs provide full quadrature. The sensor has a 40 kilohm device
resistance and 20 kilohm output impedance, which is ideal for direct interface to microcontrollers.
Key specifications are as follows:
TMR Angle Sensor
Typ. p-p
Signal
Min. Applied
Field (Oe)
Max. Angular
Error (const. field)
Max. Op. Temp.
Typ. Device
Resistance
Package
200 mV/V
30 Oe
0.5 degrees
125°C
40 kΩ
TDFN6
The angle sensors are typically used with a split pole magnets such as
NVE part no. 12249 or 12426.
An Evaluation Kit is available with an angle sensor, circuit board, unity-gain buffer amplifier, split-pole magnet, and a plastic magnet locating fixture.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAT003-10E40 kOhm Tunneling Magnetoresistance (TMR) analog angle sensor.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 5.5 V supply and provides sine and cosine analog outputs.
AAT006-10E Angle Sensors use Tunneling Magnetoresistance (TMR) technology for operation at magnetic fields as low as 15 Oe, allowing an extremely wide airgap tolerance. The device has a large output without amplification, and high device resistance for low power. Sine and cosine outputs provide full quadrature.
Key specifications are as follows:
TMR Angle Sensor
Typ. p-p
Signal
Min. Applied
Field (Oe)
Max. Angular
Error (const. field)
Max. Op. Temp.
Typ. Device
Resistance
Package
200 mV/V
15 Oe
0.5 degrees
125°C
1.25 MΩ
TDFN6
The angle sensors are typically used with a split pole magnets such as
NVE part no. 12249 or 12426.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAT006-10E1.5 mT, 1.25 MOhm Tunneling Magnetoresistance (TMR) analog angle sensor.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 5.5 V supply and provides sine and cosine analog outputs.
AAT009-10E Angle Sensors use Tunneling Magnetoresistance (TMR) technology for ultralow power, high output signal, and a wide airgap tolerance. Sine and cosine outputs provide
full quadrature. The AAT009-10E version has the highest device resistance in the AAT product family (6 megaohms typ.), for the lowest power consumption.
Key specifications are as follows:
TMR Angle Sensor
Typ. p-p
Signal
Min. Applied
Field (Oe)
Max. Angular
Error (const. field)
Max. Op. Temp.
Typ. Device
Resistance
Package
200 mV/V
30 Oe
0.5 degrees
125°C
6 MΩ
TDFN6
The angle sensors are typically used with a split pole magnets such as
NVE part no. 12249 or 12426.
An Evaluation Kit is available with an angle sensor, circuit board, unity-gain buffer amplifier, split-pole magnet, and a plastic magnet locating fixture.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAT009-10E 6 MOhm Tunneling Magnetoresistance (TMR) analog angle sensor.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 5.5 V supply and draws less than a microwatt. It provides sine and cosine analog outputs.
AAT101-10E Angle Sensors use a Tunneling Magnetoresistance (TMR)
full-bridges to produce a very high output signal without amplification. The sensors also have a wide
airgap tolerance and high device resistance for low power. Sine
and cosine outputs provide full quadrature.
Key specifications are as follows:
Full-Bridge TMR Angle Sensor
Typ. p-p
Signal
Configuration
Min. Applied
Field
Nonsinusoidality
accuracy
Max. Op.
Temp.
Typ. Device
Resistance
Package
400 mV/V
Full bridge
30 Oe
1.5%
125°C
625 kΩ
TDFN6
The angle sensors are typically used with a split pole magnets such as
NVE part no. 12249 or 12426.
An Evaluation Kit is available with an angle sensor, circuit board, unity-gain buffer amplifier, split-pole magnet, and a plastic magnet locating fixture.
Note: Please purchase in increments of 100 when purchasing quantities of 100 or more.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AAT101-10E Full-Bridge Tunneling Magnetoresistance (TMR) analog angle sensor.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 5.5 V supply and provides full-bridge sine and cosine analog outputs.
AB001-00E GMR Gradient Sensors (Gradiometers) offer unparalleled magnetic gradient
sensing. Two pairs of unshielded GMR bridge resistors provide directional sensing
of small gradients over a wide range of magnetic field strength. The devices
are sensitive only to gradients, and have low sensitivity to constant magnetic
noise.
Differential magnetic field sensor (gradiometer) -- for gear tooth, multi-pole magnet, and high noise rejection sensing.
Typ. Min. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
250
20 - 200
0.02 - 0.03
2,500 +/-20%
MSOP8
(RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) when purchasing quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
AB001-02E GMR Gradient Sensors (Gradiometers) offer unparalleled magnetic gradient
sensing. Two pairs of unshielded GMR bridge resistors provide directional sensing
of small gradients over a wide range of magnetic field strength. The devices
are sensitive only to gradients, and have low sensitivity to constant magnetic
noise.
Differential magnetic field sensor (gradiometer) --
for gear tooth, multi-pole magnet, and high noise rejection sensing.
Typ. Min. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Sensitivity (mV/V/Oe)
min.-max.
Resistance
(Ohms)
Package
250
20 - 200
0.02 - 0.03
2,500 +/-20%
SOIC8
(RoHS)
Note: Parts must be purchased in tube quantities (multiples of 92) when purchasing quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
ABH001-00E GMR Gradient Sensors (Gradiometers) offer unparalleled magnetic gradient sensing. Two pairs of unshielded GMR bridge resistors provide directional sensing of small gradients over a wide range of magnetic field strength. The devices are sensitive only to gradients with low sensitivity to constant external magnetic noise. This allows these sensors to operate in high noise environments, such as near electric motors or high-current wires.
Key Features:
Extremely High Sensitivity to Applied Magnetic Fields
Wheatstone Bridge Analog Output
Temperature to 150 degrees Continuous
Wide Linear Range of Operation
Near-Zero Voltage Operation
DC to >1MHz Frequency Response
MSOP Package
Applications:
General Differential Field Sensing
Gear Tooth and Encoder Speed and Position Sensing
Low Voltage, High Temperature Applications
Differential magnetic field sensor (gradiometer) --
for gear tooth, multi-pole magnet, and high noise rejection sensing.
Typ. Min. Saturation Field (Oe)
Linear Range(|Oe|)
min.-max.
Resistor
Sensitivity
(%R/Oe)
min.-max.
Resistance
(Ohms)
Package
70
5 - 40
0.06 - 0.12
1,200 +/-20%
MSOP8
(RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) when purchasing quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's ABL004-00E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The part features differential sensor elements spaced 1.0 mm apart on the sensor IC arranged in a full bridge configuration.
Bridge Resistance (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 1.000 mm.
4K - 7K
+/-5 to +/-100
Analog Bridge
Gear Tooth or Encoder
MSOP8
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL004-10 GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The part features differential sensor elements spaced 1.0 mm apart on the sensor IC arranged in a full bridge configuration.
Bridge Resistance (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 1.000 mm.
4K - 7K
+/-5 to +/-100
Analog Bridge
Gear Tooth or Encoder
TDFN6
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL005-00E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The part features differential sensor elements spaced 0.5 mm apart on the sensor IC arranged in a full bridge configuration.
Bridge Resistance (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 0.500 mm.
4K - 7K
+/-5 to +/-100
Analog Bridge
Gear Tooth or Encoder
MSOP8
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL005-10E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The part features differential sensor elements spaced 0.5 mm apart on the sensor IC arranged in a full bridge configuration.
Bridge Resistance (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center to center distance between sensor elements is 0.500 mm.
4K - 7K
+/-5 to +/-100
Analog Bridge
Gear Tooth or Encoder
TDFN6
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL006-00E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The part features differential sensor elements spaced 0.3 mm apart on the sensor IC arranged in a full bridge configuration.
Bridge Resistance (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 0.300 mm.
4K - 7K
+/-5 to +/-100
Analog Bridge
Gear Tooth or Encoder
MSOP8
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL006-10 GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The part features differential sensor elements spaced 0.3 mm apart on the sensor IC arranged in a full bridge configuration.
Bridge Resistance (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center to center distance between sensor elements is 0.300 mm.
4K - 7K
+/-5 to +/-100
Analog Bridge
Gear Tooth or Encoder
TDFN6
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL014-00E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The differential sensor elements are spaced 1.0 mm apart on the sensor IC, and the two sensors are phase shifted by 0.5 mm.
Bridge Resistance for Each Bridge (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Dual Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 1.000 mm, and sensor-to-sensor phase shift is 0.500 mm.
4K - 7K
+/-5 to +/-100
Dual Analog Bridge
Gear Tooth or Encoder
MSOP8
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL014-10E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The differential sensor elements are spaced 1.0 mm apart on the sensor IC, and the two sensors are phase shifted by 0.5 mm.
Bridge Resistance for Each Bridge (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Dual Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 1.000 mm, and phase shift from sensor to sensor is 0.500 mm.
4K - 7K
+/-5 to +/-100
Dual Analog Bridge
Gear Tooth or Encoder
TDFN6
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL015-00E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The differential sensor elements are spaced 0.5 mm apart on the sensor IC, and the two sensors are phase shifted by 0.25 mm.
Bridge Resistance for Each Bridge (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Dual Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 0.500 mm, and phase shift from sensor to sensor is 0.250 mm.
4K - 7K
+/-5 to +/-100
Dual Analog Bridge
Gear Tooth or Encoder
MSOP8
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL015-10E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The differential sensor elements are spaced 0.5 mm apart on the sensor IC, and the two sensors are phase shifted by 0.25 mm.
Bridge Resistance for Each Bridge (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Dual Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 0.500 mm, and phase shift from sensor to sensor is 0.250 mm.
4K - 7K
+/-5 to +/-100
Dual Analog Bridge
Gear Tooth or Encoder
TDFN6
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL016-00E GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The differential sensor elements are spaced 0.3 mm apart on the sensor IC, and the two sensors are phase shifted by 0.15 mm.
Bridge Resistance for Each Bridge (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Dual Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 0.300 mm, and phase shift from sensor to sensor is 0.150 mm.
4K - 7K
+/-5 to +/-100
Dual Analog Bridge
Gear Tooth or Encoder
MSOP8
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ABL016-10 GMR sensor is an analog output sensor for gear tooth sensing or magnetic encoders. The differential sensor elements are spaced 0.3 mm apart on the sensor IC, and the two sensors are phase shifted by 0.15 mm.
Bridge Resistance for Each Bridge (Ohms)
Linear Range (Oersteds)
Output
Comments
Package
Dual Differential Sensor (Gradiometer); senses the magnetic field gradient across the sensor IC. Center-to-center distance between sensor elements is 0.300 mm, and phase shift from sensor to sensor is 0.150 mm.
4K - 7K
+/-5 to +/-100
Dual Analog Bridge
Gear Tooth or Encoder
TDFN6
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
The
ACT001-10E is a high-sensitivity, inline analog TMR current sensor for AC or DC
measurements. An integrated current strap senses current, and a TMR bridge sensor
element provides a Wheatstone bridge differential output. The output is bipolar
and proportional to the current through the strap. The sensor has a -500 mA to
+500 mA linear range, with a typical sensitivity of 0.04 mV/V-mA.
The part comes in an ultraminiature DFN6 package.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ACT001-10E TMR analog bridge current sensor. The sensor
has an on-chip current strap for precise operation.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 14 V supply and provides a differential output voltage proportional current.
NVE's AD004-00 GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 20 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
15-25
5
0.4
Current Sink
BBH
Std. axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD005-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 40 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
NVE's AD006-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 80 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
60-100
5
0.4
Current Sink
BBJ
Std. axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD020-00 GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point --28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Current Sink
BBK
Std. axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD021-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 20 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
15-25
5
0.4
Current Sink
BBB
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's AD022-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 40 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
30-50
5
0.4
Current Sink
BBC
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's AD023-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 80 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
60-100
5
0.4
Current Sink
BBD
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD024-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Current Sink
BBF
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's AD024-10 GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Ultra-miniature 2.5 mm x 2.5 mm TDFN Package
Precision Magnetic Operate Point -- 28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Current Sink
BBL
Cross axis
TDFN6 (RoHS)
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD084-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
3.0-6.0
0.7-1.2
21-34
5
0.4
Current Sink
BDF
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's AD105-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 40 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
30-50
5
0.4
Current Source
DBG
Std. axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD122-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 40 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
30-50
5
0.4
Current Source
DBC
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD221-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 20 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
15-25
5
0.4
Sink/Source
FBB
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD320-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Current Sink
GBK
Std. axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD324-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Precision Magnetic Operate Point -- 28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Current Sink
GBF
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's AD724-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Regulated Voltage Output
Precision Magnetic Operate Point -- 28 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Sink/
Sink/
Vreg
LBF
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
AD924-00 Sensors are for use with external high-current output transistors in
industrial control environments. The parts provide the same precise magnetic performance
as NVE's GMR Digital Switches with the addition of output stage short circuit
protection (SCP). The protection circuit shuts off the output stage if there is
a short circuit, then turns it back on after a specified interval. The sensor,
combined with external reverse battery and overvoltage protection, results in
a "bulletproof" assembly.
Features:
Precision Magnetic Operate Point -- 28 Gauss
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Sink/
Source/
Vreg/
SCP
NBF
Cross axis
MSOP8 (Pb)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
AD924-00E Sensors are for use with external high-current output transistors in
industrial control environments. The parts provide the same precise magnetic performance
as NVE's GMR Digital Switches with the addition of output stage short circuit
protection (SCP). The protection circuit shuts off the output stage if there is
a short circuit, then turns it back on after a specified interval. The sensor,
combined with external reverse battery and overvoltage protection, results in
a "bulletproof" assembly.
Features:
Precision Magnetic Operate Point -- 28 Gauss
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
21-34
5
0.4
Sink/
Source/
Vreg/
SCP
NBF
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's ADH025-00E GMR Switch integrates GMR sensor elements with digital onboard
signal processing electronics. The GMR Switch has less field sensing errors than
other magnetic sensors, and magnetic field operate points are stable over voltage
and temperature extremes. This enables high precision, tight-tolerance magnetic
sensing assemblies.
Features:
Extremely Sensitive Magnetic Operate Point -- 10 Oersteds
Excellent Temperature and Voltage Performance
Digital Outputs
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
3.0-6.0
8-12
3.5
0.4
Current Sink
MBL
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
The ADK991-14E Nanopower Switch integrates TMR sensor elements with digital signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
350 mT Digital Switch
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
1 microamp quiescent current at 3 V without duty-cycling
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
Applications:
MRI Detection
Battery-Powered Devices
Portable Instruments
Wearables
NVE's ADL021-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
Typical Power Consumption 192 nW at 2.4 V
55 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycling
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL024-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
Typical Power Consumption 192 nW at 2.4 V
110 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycling
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL121-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
Typical Power Consumption 72 nW at 2.4 V
30 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycling
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL124-14E Nanopower Switch integrates GMR sensor elements with digital onboard signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
Typical Power Consumption 72 nW at 2.4 V
30 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycling
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL125-14E Ultrasensitive Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultrasensitive 1 mT operate point
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm DFN4 package
2.4 to 4.2 V
Typical Power Consumption 72 nW at 2.4 V
30 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycling
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL921-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing. Continuous operation allows high frequency operation. The part is packaged in an ultraminiature ULLGA.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 V to 4.2 V
Typical Power Consumption 84 microwatts at 2.4 V without duty-cycling
250 kHz Operating Frequency
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL922-14E Ultraminiature Nanopower Switch integrates GMR sensor elements with onboard digital signal processing. Continuous operation allows high frequency switching. External duty cycling allows nanopower operation. The part is packaged in a 1.1 x 1.1 x 0.35 mm DFN4 package.
Features:
Precise 4 mT operate point
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm DFN4 package
2.4 to 4.2 V
Typical Power Consumption 84 microwatts at 2.4 V without duty-cycling
100 kHz Operating Frequency
Digital Switch Output
Applications:
Battery-Powered Devices
Wearables and IoT Sensors
Battery-Powered Devices
Industrial Sensors
NVE's ADL924-14E Nanopower Switch integrates GMR sensor elements with digital onboard signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
Typical Power Consumption 84 microwatts at 2.4 V without duty-cycling
250 kHz Operating Frequency
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
NVE's ADL925-14E Ultrasensitive Nanopower Switch integrates GMR sensor elements with digital onboard signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
Ultrasensitive 1 mT operate point
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm DFN4 package
2.4 to 4.2 V
Typical Power Consumption 84 microwatts at 2.4 V without duty-cycling
250 kHz Operating Frequency
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
ADT002-10E Rotation Sensors provide two binary digital outputs to accurately indicate the absolute rotational quadrant of a rotating magnet. The two outputs are 90 degrees out of phase to also provide directional information.
The ADT002 is lower hysteresis than the ADT005 to provide accurate, absolute rotational quadrant information.
The sensors use NVE’s unique Tunneling Magnetoresistance (TMR) technology to minimize power consumption and size.
The sensors are typically used with
radially-magnetized disk magnets or split pole magnet.
An Evaluation Kit is available with an angle sensor, magnet, circuit board with indicator LEDs, and a plastic magnet locating fixture.
Note: Please purchase in increments of 100 when purchasing quantities of 100 or more.
ADT005-10E Rotation Sensors provide two binary digital outputs to accurately indicate the absolute rotational quadrant of a rotating magnet. The two outputs are 90 degrees out of phase to also provide directional information.
The ADT005 is higher hysteresis than the ADT002 for high noise immunity in applications such as speed sensing and counting rotations or where motion is in only one direction.
To minimize power, the ADT005 does not include
the high-field detection circuitry included in the ADT001 version, and is slightly less accurate due to lower-power circuitry.
The sensors use NVE’s unique Tunneling Magnetoresistance (TMR) technology to minimize power consumption and size.
The sensors are typically used with
radially-magnetized disk magnets or split pole magnet.
An Evaluation Kit is available with an angle sensor, magnet, circuit board with indicator LEDs, and a plastic magnet locating fixture.
Note: Please purchase in increments of 100 when purchasing quantities of 100 or more.
NVE's ADT922-14E Nanopower Switch integrates TMR sensor elements with digital onboard
signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
4.5 mT (45 Oe) Digital Switch
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
1 microamp quiescent current at 3 V without duty-cycling
Up to 20 kHz switching frequency
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
Applications:
Battery-Powered Devices
Portable Instruments
Security
Wearables
NVE's ADT923-14E Nanopower Switch integrates TMR sensor elements with digital onboard
signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
3.2 mT (32 Oe) Digital Switch
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
1 microamp quiescent current at 3 V without duty-cycling
Up to 20 kHz switching frequency
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
Applications:
Battery-Powered Devices
Portable Instruments
Wearables
NVE's ADT924-14E Nanopower Switch integrates TMR sensor elements with digital signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
2.2 mT (22 Oe) Digital Switch
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
1 microamp quiescent current at 3 V without duty-cycling
Up to 20 kHz switching frequency
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
Applications:
Battery-Powered Devices
Portable Instruments
Wearables
NVE's ADT925-14E Nanopower Switch integrates TMR sensor elements with digital signal processing. Continuous operation allows high frequency switching. The part is packaged in an ultraminiature ULLGA.
Features:
1.5 mT (15 Oe) Digital Switch
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
2.4 to 4.2 V
1 microamp quiescent current at 3 V without duty-cycling
Up to 20 kHz switching frequency
Ultraminiature 1.1 mm x 1.1 mm x 0.35 mm ULLGA package
Applications:
Battery-Powered Devices
Portable Instruments
Wearables
A smart business card that demonstrates the ADT925-14E 1.1 x 1.1 mm DFN4 TMR Switch sensor.
The board can be plugged into a USB TYPE-A connector, such as those on a computer, for power. An LED on the card shows when the sensor is activated. A small neodymium magnet is included to activate the sensor.
You can carry it with you so you're always prepared to demonstrate the high sensitivity, low power, and small size of TMR sensors.
NVE's ADV001-00E is a GMR Digital Switch using a bipolar output GMR material.
This material allows the sensor to maintain an operate point with the application
of a negative (South) magnetic field, and a release point with the application
of a positive (North) magnetic field. The part is ideal for use with magnetic
encoders that have alternating North/South poles, or in any other application
where one polarity of field is required to turn the part on, and the opposite
polarity is required to turn it off.
Features:
Bipolar Operation (south field ON, north field OFF)
Extremely Sensitive Magnetic Operate Point -- 4 Oersteds
Digital Output
Frequency Response to >100 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Pneumatic Cylinder Position Sensing
Speed Sensing
Supply
Voltage
min.-max.
Supply
Current
(mA)
min.-max.
Op./
Release
(Oe)
ON|OFF
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
4.5-30.0
2.5-4.5
4|-4
2
0.4
Current Sink
FCMe
Cross axis
MSOP8 (Pb)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
AET050F-00E sensors can be used with multipole ring magnets as rotary encoders or with magnetic scale tapes as linear motion sensors. High sensitivity allows for wide airgaps and accommodates mechanical tolerances.
The full-bridge configuration maximizes noise immunity and provides large 600 mVpp/V output signals. Sine and cosine outputs provide direction information.
Evaluation and Demonstration
Kits are also available.
AET075F-00E sensors can be used with multipole ring magnets as rotary encoders or with magnetic scale tapes as linear motion sensors. High sensitivity allows for wide airgaps and accommodates mechanical tolerances.
The full-bridge configuration maximizes noise immunity and provides large 600 mVpp/V output signals. Sine and cosine outputs provide direction information.
Evaluation and Demonstration
Kits are also available.
AET100F-00E sensors can be used with multipole ring magnets as rotary encoders or with magnetic scale tapes as linear motion sensors. High sensitivity allows for wide airgaps and accommodates mechanical tolerances.
The full-bridge configuration maximizes noise immunity and provides large 600 mVpp/V output signals. Sine and cosine outputs provide direction information.
Evaluation and Demonstration
Kits are also available.
AET120F-00E sensors can be used with multipole ring magnets as rotary encoders or with magnetic scale tapes as linear motion sensors. High sensitivity allows for wide airgaps and accommodates mechanical tolerances.
The full-bridge configuration maximizes noise immunity and provides large 600 mVpp/V output signals. Sine and cosine outputs provide direction information.
Evaluation and Demonstration
Kits are also available.
AET500-02E sensors can be used with multipole ring magnets as rotary encoders or with magnetic scale tapes as linear motion sensors. High sensitivity allows for wide airgaps and accommodates mechanical tolerances.
The half-bridge configuration maximizes noise immunity and provides large 300 mVpp/V output signals. Sine and cosine outputs provide direction information.
Evaluation and Demonstration
Kits are also available.
NVE's AFL000-00E low power switch sensor integrates GMR sensor elements with digital
onboard signal processing electronics. The switch is designed for use in low power
and battery applications, and features supply voltages down to 0.9 Volts and
continuous operation at currents of 20-55 microamps. Like all NVE magnetic sensors,
the AFL sensors have extremely precise magnetic operate and release points.
Features:
Precision Magnetic Operate Point -- 10 Oersteds
Low Voltage -- 0.9 V
Low Power
Digital Output
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Single Battery Applications
Low Power, Low Field Applications
Supply
Voltage
min.-max.
Supply
Current
(µA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
0.9-1.3
20-55
7-13
1
0.4
Current Sink
PBBe
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
The AFL006-10E is the world's most sensitive magnetic switch. The switch is designed for use in low power
and battery applications. It can operate from a single cell with supplies as low as 0.9 V and typical supply current of 55 microamps.
Like all NVE magnetic
sensors, the AFL006-10E has extremely precise magnetic operate and release points.
Features:
4 Oe typical operate point for ultrahigh sensitivity
0.9 V – 2 V operating voltage for single-cell battery operation
Less than 100 microwatts power consumption
2.5 mm x 2.5 mm x 0.8 mm TDFN6 for miniaturization
Applications include:
Portable instruments
Utility meters
Noncontact overcurrent protection
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's AFL100-10E low power switch sensor integrates GMR sensor elements with digital
onboard signal processing electronics. Like all NVE magnetic
sensors, the AFL sensors have extremely precise magnetic operate and release points.
Features:
Precision Magnetic Operate Point -- 10 Oersteds (1 mT)
Low Power
Digital Output
Ultraminiature 2.5 mm x 2.5 mm TDFN Package
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
NVE's AFL200-00E low power switch sensor integrates GMR sensor elements with digital
onboard signal processing electronics. The switch is designed for use in low power
and battery applications, and features supply voltages down to 2.7 Volts
and continuous operation at currents of 20-55 microamps. Like all NVE magnetic
sensors, the AFL sensors have extremely precise magnetic operate and release points.
Features:
Precision Magnetic Operate Point -- 10 Oersteds
Normally OFF Current Sinking Digital Output
Frequency Response 0 to 250 KHz
Small, Low Profile Surface Mount Packages
Applications:
General Digital Field Sensing
Low Power Applications
Low Field Applications
Supply
Voltage
min.-max.
Supply
Current
(µA)
min.-max.
Op. Point
(Oe)
min.-max.
Differ-
ential
(Oe)
min.
Output
Sat.
Voltage
max.
Output
Pkg. Mark
Orien-
tation
Pkg.
2.7-3.6
20-55
7-13
1
0.4
Current Sink
PBGe
Cross axis
MSOP8 (RoHS)
Note: Parts must be purchased in tube quantities (multiples of 100) for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is RoHS compliant.
The AG001-01E GMR Analog Sensor Evaluation Kit is designed for experimentation and development. The kit contains an assortment of 14 NVE analog sensors plus several printed circuit boards and various permanent magnets. It includes the high-sensitivity AAH002 sensor. The kit contains only RoHS compliant parts.
The AG005-06 Printed Circuit Board is a 0.5 x 0.5 inch (13 x 13 mm) PCB with SOIC8 solder pads and through holes for wires or a connector. The PCB allows easy connections to AA-Series SOIC8 sensors (-02E suffix; order separately).
This PCB is also included in the AG001-01 Analog Sensor Evaluation Kit.
The AG035-06 Printed Circuit Board (PCB) is a 1.57 x 0.25 inch (40 x 6 mm) PCB for connection to 2.5 x 2.5 mm TDFN6 sensors (-10E suffix sensors; order sensors separately).
A 1.57 x 0.25 inch PCB for demonstrating 1.1 x 1.1 mm DFN4/ULLGA sensors such as AHLxxx-14E, ADLxxx-14E, and ALT0xx-14E, (order sensors separately). In addition to space for the sensor, the boards have locations for 0402-size pull-up resistors and bypass capacitors.
Note that since these boards use very small sensors, they require reflow or hot-air soldering techniques.
This kit includes a demo board with the ultraminiature, ultralow-power ADL021 magnetic switch. An LED shows the sensor output. The board is powered by a three-volt lithium coin cell (included), and the sensor quiescent power consumption is so low that the battery will last indefinitely.
A miniature bar magnet is included so you can see for yourself how these remarkable sensors work.
Sensor quiescent current is only 100 nA typical; the sensor operate point is 20 Oe; and the sensors are 1.1 mm x 1.1 mm.
These miniature evaluation boards are just 0.25 x 1.57 inches (6 x 40 mm).
This kit includes an evaluation board with the ultraminiature, ultralow-power ADL021 magnetic switch.
The board has a digital output, and can be powered from a 3.3-volt nominal supply. An LED shows the output.
A miniature bar magnet is included so you can see for yourself how these remarkable sensors work.
Typical sensor quiescent current is only 100 nA, the sensor operate point is 20 Oe, and the sensors are 1.1 mm x 1.1 mm.
These miniature evaluation boards are just 0.25 x 1.57 inches (6 x 40 mm).
The AG040T Demonstration Board has an ADT923 TMR magnetic switch powered by a three-volt lithium coin cell (included). An LED to show the sensor output. The sensor’s low quiescent power allows the battery to last at least several years with occasional LED use.
A miniature bar magnet is included so you can see for yourself how these remarkable sensors work.
The sensors are 1.1 mm x 1.1 mm x 0.35 mm, and these miniature evaluation boards are just 0.25 x 1.57 inches (6 x 40 mm).
The evaluation board includes three sensor over current-trace modules with three AAL024-10E TDFN current sensors.
The board measures 1.565" x 2.915" (40 mm by 74 mm), and includes three separable modules. The three modules are optimized to measure currents of 0-0.75A, 0-5A, and 0-50A.
A 1.2 x 0.25 inch x 0.031 inch thick (30 x 6 x 0.75 mm) PCB for demonstrating 1.1 x 1.1 mm DFN4/ULLGA sensors (-14E sensor suffix; order sensors separately).
Note that since these boards use very small sensors, they require reflow or hot-air soldering techniques.
This demonstration features the ALT025 low hysteresis, high-speed TMR magnetometer and a high current PCB layout, optimized for the detection of +/- 200 amps. The board has sturdy screw terminal connections for current input, and it has header pins for sensor power and output.
AG910-07 kit includes several MSOP GMR Switches with different magnetic operate points and different output options such as current sink and current source. Magnets, circuit boards for mounting the parts, and a zero insertion force (ZIF) socket are also included.
AG911-07 kit includes several MSOP GMR Switches with different magnetic operate points and different output options such as current sink and current source. A magnet and circuit boards for mounting the parts are included.
The AG919-06 is a 2 x 0.25 inch (50 x 6 mm) PCB designed to be used with MSOP8 sensors (-00E package; order sensors separately). The MSOP8 is rotated 90 degrees compared to the AG918-06.
The kit includes one of each of NVE's analog and digital GT Sensors, two DD001-12E signal processing ICs, and several circuit boards for fixturing and testing the sensors.
A self-contained demonstrator for NVE’s unique AKL digital gear tooth sensor.The battery-powered demonstrator (battery included) is based on an AKL001 sensor. The demonstrator also includes a circuit board with an LED and driver, a biasing magnet, and a gear that can be turned by hand. No assembly required. Dimensions 3" x 3" x 1.5".
The kit includes a circuit board with an AAT001-10E 1.25 megohm Angle Sensor and a unity-gain buffer amplifier. The circuit board can be powered with a 1.7 V to 5.5 V power supply. An angular reticle on the circuit board aids in characterizing output versus angle.
The kit also includes a split-pole magnet and a plastic magnet locating fixture.
The kit includes a circuit board with an AAT003-10E 40 kilohm Angle Sensor and a unity-gain buffer amplifier. The circuit board can be powered with a 1.7 V to 5.5 V power supply. An angular reticle on the circuit board aids in characterizing output versus angle.
The kit also includes a split-pole magnet and a plastic magnet locating fixture.
The AAT003-10E Angle Sensor's 20 kilohm output impedance is ideal for direct interface to microcontrollers.
The kit includes a circuit board with an ADT002 low hysteresis, ultralow-power rotation sensor, a split-pole magnet that can be turned, and simple circuitry to drive LEDs from the sensor outputs. Two LEDs follow the sensor outputs; four others indicate the rotational quadrant.
A 3-volt coin cell (included) powers the board.
The kit includes a circuit board with an AAT009-10E 6 megohm Angle Sensor and a unity-gain buffer amplifier. The circuit board can be powered with a 1.7 V to 5.5 V power supply. An angular reticle on the circuit board aids in characterizing output versus angle.
The kit also includes a split-pole magnet and a plastic magnet locating fixture.
The AAT009-10E Angle Sensor has ultra-ultra low power consumption and is ideal for long-term battery-powered operation or operation from harvested power.
The kit includes a circuit board with an AAT101-10E Full-Bridge Angle Sensor, which provides two differential analog outputs, 90 degrees out of phase. The circuit board can be powered with a 0 V to 5.5 V power supply. An angular reticle on the circuit board aids in characterizing output versus angle.
The kit also includes a split-pole magnet and a plastic magnet locating fixture.
The AAT101-10E Angle Sensor typical output amplitude is 400 mV/V peak-to-peak for each output.
This kit includes a 5-inch by 5-inch circuit board with an AAT003 Angle Sensor, 60 multicolor smart LEDs (6° spacing) to indicate rotation angle, and a preprogrammed, onboard ATtiny microcontroller.
The microcontroller also provides a PWM angle output. The board is factory calibrated and can optionally be field calibration.
A split-pole magnet, a magnet locating fixture, and a 5-volt wall mount power supply module are also included.
The board comes preprogrammed, but the Arduino compatible software is available on Github/NveCorporation so you can use the routines in your own application.
The kit includes a demo board with three ultraminiature, ultralow-power ADL-Series magnetic sensors. Each sensor drives an indicator LED, and a meter shows the sensor power in microamps or nanoamps.
A miniature bar magnet is included so you can see for yourself how these remarkable sensors work.
The evaluation boards are 3.75 x 5 inches (95 x 127 mm), and are powered by a coin cell (included).
The AG951-07 Evaluation Kit has everything you need to calibrate, test, and evaluate
the remarkable SM324-10E Smart TMR Magnetometer. The kit includes:
An evaluation board with:
- an SM324-10E sensor.
- a microcontroller connected to the sensor via I²C.
- a current-carrying trace under the sensor for evaluating as a current sensor.
A powerful, intuitive graphical user interface.
Simple software installation.
Flexibility to power from USB or an external power supply.
Isolated USB interface for safety and noise minimization.
USB cable to connect the Evaluation Board to a computer.
A small ceramic magnet for evaluating as a proximity sensor.
The AG952-07 Evaluation Kit has everything you need to calibrate, test, and evaluate
the easy-to-use SM124-10E Smart Magnetometer. The kit includes:
A 1" x 1.6" (25 mm x 41 mm) evaluation board with:
- an SM124-10E sensor.
- a microcontroller connected to the sensor via I²C.
- a current-carrying trace under the sensor for evaluating as a current sensor.
A simple, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a computer.
A small ceramic magnet for evaluating as a proximity sensor.
The AG953-07 Evaluation Kit has everything you need to test and evaluate
the easy-to-use SM225-10E Smart Magnetometer. The kit includes:
A 1" x 1.6" (25 mm x 41 mm) evaluation board with:
- an SM225-10E sensor.
- a microcontroller connected to the sensor via SPI.
- a current-carrying trace under the sensor for evaluating as a current sensor.
A PWM board output for an analog representation of the measured magnetic field.
A simple, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a computer.
A small ceramic magnet for evaluating as a proximity sensor.
The AG953H-07 demonstrates high current measurement with the SM225-10E Smart TMR Magnetometer. A 1/4" x 1/2" busbar is mounted to the PCB, and the sensor can detect up to +/-650 amps. Based on the AG953-07E Evaluation Kit, a powerful, intuitive graphical user interface allows the user to control sensor offset, calibration, filtering, and memory.
The AG954-07E provides a socket for easy programming and prototyping of TDFN6 devices without soldering and unsoldering.
The custom socket is compatible with NVE's 2.5 mm x 2.5 mm TDFN6 package parts (-10E suffixes).
The board is 1.5" x 2" (38 mm x 50 mm), and uses brass hardware to minimize magnetic interference with the socketed sensor.
A 0.1"-spaced header provides for connections to the sensors, and a row of 0.1"-spaced through-holes allows for auxiliary parts such as a decoupling capacitor or an LED.
This self-contained module allows zeroing and programming the digital output threshold and hysteresis or SM124-10E or SM125-10E Smart Magnetometer without need of a computer or a customer microcontroller.
The 2.5" x 2.5" (64 mm x 64 mm) board has an I²C master microcontroller connected to the SM124.
A pushbutton for zeros the sensor, and miniature rotary thumbwheel switches provide three digits of resolution for the threshold and two for hysteresis. A custom TDFN-6 socket accommodates the 2.5 mm x 2.5 mm SM12x-10E. The module is powered by a small wall-mounted power supply (included).
Jumpers allow the sensor to be disconnected from the rest of the board so the board can be used as an interface to the customer’s electronics.
This module includes:
A 2.5 x 2.5 mm TDFN6 socket for a SM12x-10E Smart Magnetometer
A preprogrammed, onboard microcontroller
Two sets of thumbwheel switches for digital threshold and hysteresis
Two LEDs indicating the sensor’s output and successful programming
The AG956-07 Evaluation Kit has everything you need to calibrate, test, and evaluate
the remarkable ASR002-10E Smart Angle Sensor. The kit includes:
An evaluation board with:
- an ASR002-10E sensor
- a diametrical
magnet
- magnet fixturing and a
An interface board with:
- a microcontroller
connected to the sensor via SPI
- flexibility to power
from USB or external power supply
- isolated USB interface
for safety and low noise.
A powerful, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a
computer.
The AG957-06E provides easy connections to an ASR-Series Smart Angle Sensor (sensors sold separately). In addition a spot for the sensor, the board has a spot for a bypass capacitor and a header to connected to the sensor I/O pads.
The board is approximately 0.5 by 0.6 inches (12 x 15 mm).
The AG957-07E provides easy connections to an ASR002-10E TMR Smart Angle Sensor. In addition to the sensor, the board has a recommended bypass capacitor and a six-pin header connected to each of the sensor I/O pads.
The board is approximately 0.5 by 0.6 inches (12 x 15 mm).
The AG962-07 Evaluation Kit has everything you need to calibrate, test, and evaluate
the easy-to-use SM125-10E Smart Magnetometer. The kit includes:
A 1" x 1.6" (25 mm x 41 mm) evaluation board with:
- an SM125-10E sensor.
- a microcontroller connected to the sensor via I²C.
- a current-carrying trace under the sensor for evaluating as a current sensor.
A simple, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a computer.
A small ceramic magnet for evaluating as a proximity sensor.
The AG963-07E Evaluation Kit has everything you need to calibrate, test, and evaluate
the remarkable ASR012-10E I2C Smart Angle Sensor. The kit includes:
An evaluation board with:
- an ASR012-10E sensor
- a diametrical
magnet
- magnet fixturing
An interface board with:
- a microcontroller
connected to the sensor via I²C
- flexibility to power
from USB or external power supply
- isolated USB interface
for safety and low noise.
A powerful, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a
computer.
The AG965-07E demonstration kit showcases micron precision with an AET500-02E sensor.
The kit includes:
A 3 x 5-inch (76 x 127 mm) PCB
An AET500-02E 5 mm pole-pitch sensor
A four digit position display
Part #12592 5mm pole pitch magnetic tape
3-D printed fixturing
LEDs for pole detected
Powered by three AAA batteries (included)
The AG967-07E provides easy connections to an ASR022-10E ABZ TMR Encoder Sensor. In addition to the sensor, the board has a recommended bypass capacitor and a six-pin header connected to each of the sensor I/O pads.
The board is approximately 0.5 by 0.6 inches (12 x 15 mm).
The AG968-07E provides easy connections to an SM228-10E Smart Magnetometer. In addition to the sensor, the board has a recommended bypass capacitor and a six-pin header connected to each of the sensor I/O pads.
The board is approximately 0.6 by 0.75 inches (15 x 19 mm).
The AG969-07 Evaluation Kit has everything you need to test and evaluate
the easy-to-use SM228-10E I2C Smart Magnetometer. The kit includes:
A 1" x 1.6" (25 mm x 41 mm) evaluation board with:
- an SM228-10E sensor.
- a microcontroller connected to the sensor via I2C.
- a bus-bar for evaluating as a current sensor.
An LED indicating the state of the threshold output.
A PWM board output for an analog representation of the measured magnetic field.
A simple, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a computer.
A small ceramic magnet for evaluating as a proximity sensor.
The AG970-07E Evaluation Kit helps test a variety AET-Series sensors with linear magnetic scales. The kit includes:
All five AET-Series parts (unsoldered in tubes)
A 3 x 4-inch (76 x 101 mm) PCB with test points and screw terminals
Detachable fixturing for linear magnetic tape (tape sold separately)
The AG972-07E Demonstration Board showcases rotational encoding to
a few thousandths of a degree with an ABT375-00E sensor and a 30-tooth gear.
The kit includes:
A 3 x 5-inch (76 x 127 mm) PCB
An ABT375-00E gear tooth sensor
An eight-digit rotational display
a 30-tooth. 0.5 module gear
Part #12216 ceramic bias magnet
Test points for analog outputs
Powered by two AAA batteries (included)
The AG973-07 Evaluation Kit has everything you need to test and evaluate
the easy-to-use SM223-10E I2C Smart Magnetometer. The kit includes:
A 1" x 1.6" (25 mm x 41 mm) evaluation board with:
- an SM228-10E sensor.
- a microcontroller connected to the sensor via I2C.
- a current-carrying trace under the sensor for evaluating as a current sensor.
An LED indicating the state of the threshold output.
A PWM board output for an analog representation of the measured magnetic field.
A simple, intuitive graphical user interface.
Simple software installation.
USB cable to connect the Evaluation Board to a computer.
A small ceramic magnet for evaluating as a proximity sensor.
This 2” x 2” square evaluation board allows you to test the remarkable
ACT001-10E current sensor and a common application circuit.
The ACT001-10E is a fully-isolated, inline current sensor with
an on-chip current strap. A Wheatstone bridge manufactured
with NVE’s state-of-the-art tunneling magnetoresistance (TMR)
sensor elements detects the magnetic field from the input current
across NVE’s unique polymer isolation barrier.
The AG975-07E provides easy connections to an SM223-10E high-sensitivity Smart Magnetometer. In addition to the sensor, the board has a recommended bypass capacitor and a six-pin header connected to each of the sensor I/O pads.
The board is approximately 0.6 by 0.75 inches (15 x 19 mm).
The unique AHK991-14E is a high-field, low voltage, low power, TMR magnetic switch, designed for MRI detection in implantable medical devices.
The sensors have a 350 mT (3500 Oe) typical operate point, which is high enough to detect MRI fields or strong, rare-earth magnets in close proximity. Such high fields disrupt most other magnetic sensors.
The sensors can withstand unlimited fields without
being damaged or turning off.
Unlike Hall effect or other sensors, the switch is sensitive to magnetic fields in any direction.
Key Specifications:
350 mT operate point
0.9 to 1.8 V
2 µA typical supply current
3000 Hz switching speed
-40 to 85°C
NVE's AHL021-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
95 nA Typical Supply Current
110 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycle Operation
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AHL023-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
95 nA Typical Supply Current
110 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycle Operation
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AHL024-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
95 nA Typical Supply Current
110 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycle Operation
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AHL025-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing and duty-cycling electronics. The Nanopower Switch is extremely small and extremely low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
95 nA Typical Supply Current
110 Hz Typical Update Frequency
Digital Switch Output
Integrated Duty-Cycle Operation
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AHL921-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing. The Nanopower Switch is extremely small and low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
35 Microamps Typical Supply Current
110 Hz Typical Update Frequency
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AHL924-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing. The Nanopower Switch is extremely small and low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
35 Microamps Typical Supply Current
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AHL925-14E Nanopower Switch integrates GMR sensor elements with digital onboard
signal processing. The Nanopower Switch is extremely small and low power.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
35 Microamps Typical Supply Current
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
AHT-Series Nanopower Switches integrate TMR sensor elements with digital onboard
signal processing. The ultralow power TMR element provides nanopower without duty cycling.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
1 microamp Typical Supply Current
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
AHT-Series Nanopower Switches integrate TMR sensor elements with digital onboard
signal processing. The ultralow power TMR element provides nanopower without duty cycling.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
1 microamp Typical Supply Current
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
AHT924-Series Nanopower Switches integrate TMR sensor elements with digital onboard
signal processing. The ultralow power TMR element provides nanopower without duty cycling.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
1 microamp Typical Supply Current
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
AHT-Series Nanopower Switches integrate TMR sensor elements with digital onboard
signal processing. The ultralow power TMR element provides nanopower without duty cycling.
Features:
Ultraminiature 1.1 mm x 1.1 mm x 0.45 mm ULLGA package
Low Voltage Operation to 0.9 V
1 microamp Typical Supply Current
Digital Switch Output
Applications:
Battery-Powered Devices
Portable Instruments
NVE's AKL003-12E GMR GMR Gear Tooth Sensor is a digital output speed sensor for coarse-pitch gear tooth sensing and magnetic encoders. It is based on NVE's ABL006 differential sensor, and is easily biased with a permanent magnet for use with a gear-tooth style target. It provides a large airgap and 50% duty cycle current-modulated output over the -40C to +150C temperature range.
This is a Lead (Pb) free, RoHS compliant part.
Input Voltage
Output Current (Typical)
Airgap (Standard Target)
Comments
Package
Digital Output Gear Tooth Sensor based on a differential sensor element; provides a current modulated output and 50% duty cycle over a wide range of temperatures and airgaps.
4.5 - 48
4mA Off / 8mA On
1.0mm to 2.5mm
Gear Tooth or Encoder
DFN8
Note: Parts must be purchased in multiples of 100 for quantities
for 100 or more.
This part is not recommended for new designs.
The AKT001-14E is an ultrahigh-field magnetometer sensor that provides precise sensing of magnetic fields up to 1.5 T (15 kOe). NVE’s unique Tunneling Magnetoresistive (TMR) technology provides unmatched field range, low power, and small size.
Features:
Tunneling Magnetoresistance (TMR) technology
1.5 T saturation
0.05 to 1 T linear range
High resistance for battery powered applications
Sensitive to fields of any direction in the IC plane
Ratiometric Wheatstone bridge outputs
Wide supply voltage range (
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the AKT001-14E high-field (1.5 T), low power TMR analog bridge magnetometer. The sensor is an ultraminiature 1.1 x 1.1 mm package.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 5.5 V supply and provides a differential output voltage proportional to the applied magnetic field.
The ALT002-14E is an ultraminiature, ultrahigh sensitivity Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for
an opposite field polarity.
Features:
Tunneling Magnetoresistive Technology (TMR)
High sensitivity (200 mV/V/mT typical)
Wheatstone bridge magnetometer configuration
20 kiloohm device resistance for low power
±0.25 mT linear range
1.1 x 1.1 mm DFN4 package
–40 to 125°C
Applications:
Wearables
Proximity detection
Motion, speed, and position control
Non-contact current sensing
Mechatronics and robotics
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT002-14E Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
The ALT021 is an ultrahigh sensitivity Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for an opposite field polarity.
Features:
±0.25 mT linear range
Ultrahigh sensitivity (500 mV/V/mT typical)
Large output signal (200 mV/V/mT typical)
0 - 10 V power supply
Wheatstone bridge magnetometer configuration
20 kiloohm device resistance for low power
Up to 300 kHz frequency bandwidth
2.5 x 2.5 mm TDFN6 package
–40 to 125°C
Applications:
Motion, speed, and position control
Non-contact current sensing
Mechatronics and robotics
Navigation
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT021-10E ultrahigh sensitivity Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
A 0.5 x 0.3 inch (13 x 8 mm) evaluation board with the ALT021-10E ultrahigh sensitivity Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a sensor and a 5x amplifier to provide a 2.5 V/V/mT output.
The board can be powered by a 0.9 to 7 V supply or battery and provides a linear, single-ended output.
The ALT023-10E is a Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor
with extraordinary sensitivity. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for
an opposite field polarity.
Features:
±1 mT linear range
Large signal (200 mV/V typical)
Extraordinary sensitivity (200 mV/V/mT typical)
Wheatstone bridge magnetometer configuration
0 - 10 V power supply
20 kiloohm device resistance for low power
High linearity output (
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT023-10E high sensitivity Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
This evaluation board measures zero to one amp with just four connections--two for the power supply and two for a differential output. The board is based on the revolutionary ALT023-10E TMR magnetometer, which is ideal for noncontact current sensing. The current-over-trace configuration provides inherent isolation and is more efficient than a shunt.
The board has a sensor plus screw terminals for current connections, a standard 0.1-inch header for sensor connections, and a 1 mm pitch card-edge connector.
The board comes with a business-card size guide with pinouts and specifications. A QR code provides a link to the sensor datasheet.
The board measures 0.9" x 0.5" x 0.063" (22 x 12 x 1.6 mm)
This evaluation board measures zero to seven amps with just four connections--two for the power supply and two for a differential output. The board is based on the revolutionary ALT023-10E TMR magnetometer, which is ideal for noncontact current sensing. The current-over-trace configuration provides inherent isolation and is more efficient than a shunt.
The board has a sensor plus screw terminals for current connections, a standard 0.1-inch header for sensor connections, and a 1 mm pitch card-edge connector.
The board comes with a business-card size guide with pinouts and specifications. A QR code provides a link to the sensor datasheet.
The board measures 0.9" x 0.5" x 0.063" (22 x 12 x 1.6 mm)
This evaluation board measures zero to seven amps with just four connections--two for the power supply and two for a differential output. The board is based on the revolutionary ALT023-10E TMR magnetometer, which is ideal for noncontact current sensing. The current-over-trace configuration provides inherent isolation and is more efficient than a shunt.
The board has a sensor plus 1/4" screw terminals for current connections, a standard 0.1-inch header for sensor connections, and a 1 mm pitch card-edge connector.
The board comes with a business-card size guide with pinouts and specifications. A QR code provides a link to the sensor datasheet.
The board measures 2.0" x 1.9" x 0.63" (52 x 48 x 1.6 mm)
The ALT024-10E is a Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor
with high sensitivity and wide linear range. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for
an opposite field polarity.
Features:
±2 mT linear range
High sensitivity (120 mV/V/mT typical)
Wheatstone bridge magnetometer configuration
0 - 10 V power supply
20 kiloohm device resistance for low power
High linearity output (
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT024-10E high sensitivity Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
The ALT025 is a Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor
with an extraordinary amount of signal and linear range. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for
an opposite field polarity. The ALT025 has cross-axis sensitivity (across the pads).
Features:
High sensitivity (8 mV/V/mT typical)
Wheatstone bridge magnetometer configuration
0 - 10 V power supply
20 kiloohm device resistance for low power
±10 mT (±100 Oe) linear range
High linearity output (
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT025-10E Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
The ALT025-14E is an ultraminiature Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor
with an extraordinary amount of signal. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for
an opposite field polarity.
Features:
Tunneling Magnetoresistive Technology (TMR)
Large signals (22.5 mV/V/mT typical)
Wheatstone bridge magnetometer configuration
20 kiloohm device resistance for low power
±10 mT linear range
1.1 x 1.1 mm DFN4 package
–40 to 125°C
Applications:
Motion, speed, and position control
Non-contact current sensing
Mechatronics and robotics
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT025-14E Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
The ALT026 is a Tunneling Magnetoresistance (TMR) analog bridge magnetic sensor
with extraordinary signal amplitude and wide linear range. The differential bridge
output is bipolar, meaning it is positive for a positive field and negative for
an opposite field polarity. The ALT025 has cross-axis sensitivity (across the pads).
Features:
Large signal (200 mV/V)
Wheatstone bridge magnetometer configuration
0 - 10 V power supply
20 kiloohm device resistance for low power
±20 mT (±200 Oe) linear range
High linearity output (
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the ALT026-10E Tunneling Magnetoresistance (TMR) analog bridge magnetometer.
The board has a pre-soldered sensor and footprints for a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 0 to 10 V supply and provides a linear, differential output voltage.
ASR022 noncontact TMR encoder sensors provide precise pulses indicating angular motion, and is more accurate and smaller than other non-contact encoders.
An ABZ interface allows the ASR022 to replace legacy optical encoders.
The sensor combines precise, low-power Tunneling Magnetoresistance (TMR) sensing elements with sophisticated digital signal processing.
The sensor is factory calibrated, with coefficients stored in internal memory.
The ASR022 is designed for harsh industrial or automotive environments with ESD protection, and full −40 °C to 125 °C operating temperature range.
NVE's DB001-00E signal processing IC is designed to work with NVE's AD9xx series GMR switch with short circuit protection. This combination provides a high-current switched output that corresponds to the sensor input. The DB001-00E functions as the front end of a complete sensor assembly, and includes protection against short circuits and high voltage transients from capacitive and inductive loads. The parts also feature thermal shutdown circuitry and reverse battery protection. They provide a regulated output voltage for the sensor and other components in the assembly, and an LED driver to indicate an "ON" condition.
Features:
High Current Output
Reverse Battery and Transient Protection
LED Driver
Excellent Temperature and Voltage Performance
Small, Low Profile Surface Mount Packages
Note: Parts must be purchased in multiples of 100 when purchased in quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
NVE's DB002-02 signal processing IC is designed to work with NVE's AD1xx series GMR switch as well as any other current sourcing or CMOS/TTL digital output sensor element, such as an inductive sensor or a photo sensor. This combination provides a high current switched output that corresponds to the sensor input. The DB002-02 functions as the front end of a complete sensor assembly, and includes protection against short circuits and high voltage transients from capacitive and inductive loads.
The parts also feature thermal shutdown circuitry and reverse battery protection. It provides a regulated output voltage for the sensor and other components in the assembly, and an LED driver to indicate an "ON" condition.
Features:
High Current Output
Reverse Battery and Transient Protection
LED Driver
Excellent Temperature and Voltage Performance
Small, Low Profile Surface Mount Packages
Note: Parts must be purchased in multiples of 92 for quantities of 92 or more. Larger quantities are subject to NVE's standard lead times.
The DC001-10E 3.3 V regulator is designed for harsh, noisy environments where immunity to large voltage transients and high input voltages are required. These regulators protect the sensitive electronic components while providing a stable regulated supply. They are rated for high temperature operation, up to 175 degrees Celsius. The low profile, small footprint package features an exposed die-attach pad for direct heat sinking to the circuit board.
Features:
Input voltage to 36VDC
3.3V Regulated Output
Reverse Battery Protection
Excellent immunity to Transients and ESD
Small, Low Profile Surface Mount Packages
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is lead (Pb) free.
Lead-free
product information
The DC001-10E 5V regulator is designed for harsh, noisy environments where immunity to large voltage transients and high input voltages are required. These regulators protect the sensitive electronic components while providing a stable regulated supply. They are rated for high temperature operation, up to 175 degrees Celsius. The low profile, small footprint package features an exposed die-attach pad for direct heat sinking to the circuit board.
Features:
Input voltage to 36VDC
5V Regulated Output
Reverse Battery Protection
Excellent immunity to Transients and ESD
Small, Low Profile Surface Mount Packages
Note: Parts must be purchased in multiples of 100 for quantities of 100 or more. Larger quantities are subject to NVE's standard lead times.
This part is lead (Pb) free.
Lead-free
product information
The IL015E is a low-power, 3.3/5V, 10 Mbps, 100C Isolator. Typical total quiescent current is just 0.3 mA per channel. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL016E is a low-power, 3.3/5V, 10 Mbps, 100C Isolator. Typical total quiescent current is just 0.3 mA per channel. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL017E is a low-power, 3.3/5V, 10 Mbps, 100C Isolator. Typical total quiescent current is just 0.3 mA per channel. 3/1 channel configuration is ideal for isolating SPI. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL260-1E ultraminiature five-channel (all the same direction) QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest high-performance isolators.
The IL260-1E is an ultraminiature isolator with no performance compromises. 110 Mbps, 10 ns propagation delay, 3 ns pulse width distortion, 600 WV per VDE 0884-10, 2500 Vrms isolation and 50 kV/microsecond transient immunity, and 44000 year barrier life. 16-pin QSOP.
The "E" suffix indicates this part is lead (Pb) free.
The IL260-3E is a 3.3/5.0-volt, 5-channel isolated, 110 Mbps, CMOS-compatible logic buffers with 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin, narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL260E is a 3.3/5.0-volt, 5 channel isolated, 110 Mbps, CMOS-compatible logic buffers with 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 30 kV/microsecond transient immunity. 16-pin, wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL261-1E ultraminiature five-channel (four transmit, one receive) QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest high-performance isolators.
The IL261-1E is an ultraminiature isolator with no performance compromises. 110 Mbps, 10 ns propagation delay, 3 ns pulse width distortion, 600 WV per VDE 0884-10, 2500 Vrms isolation and 50 kV/microsecond transient immunity, and 44000 year barrier life. 16-pin QSOP.
The "E" suffix indicates this part is lead (Pb) free.
The IL261E is a 3.3/5.0-volt, 5-channel (4 transmit; 1 receive) isolated, 110 MBaud CMOS compatible logic buffers with 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 30 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL262E is a 3.3/5.0-volt, 5-channel (3 transmit; 2 receive) isolated, 110 MBaud CMOS compatible logic buffers with 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL3022E is a cost-effective isolated 4 Mbps RS-422 full-duplex transceiver, compatible with 3.3 V or 5 V input logic. 7 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The RS-485 QSOP Isolated Transceiver Evaluation Board provides a complete isolated RS-485 node using the world's isolated transceiver, the IL3085-1E. The board provides screw terminal and RJ45 connections, and demonstrates best layout practices.
Termination, pull-up, and pull-down resistors are easily changed to accommodate various fanouts and termination methods.
The transceiver delivers an exceptional 2.3 V differential output into a 54 Ohm load and data rates to 40 Mbps. The device is also compatible with 3.3 V input supplies, allowing interface to standard microcontrollers without additional level shifting.
The IL3085-3 is a cost-effective isolated 4 Mbps RS-485 transceiver, compatible with 3.3 V or 5 V input logic. 7 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin narrow-body (0.15''-wide) SOIC package (Pb-free).
The IL3085E is a cost-effective isolated 4 Mbps RS-485 transceiver, compatible with 3.3 V or 5 V input logic. 7 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The IL3085TE is an isolated 4 Mbps RS-485 transceiver with an extended temperature range. Compatible with 3.3 V or 5 V input logic. 16-pin wide-body SOIC package with True 8™ mm creepage.
Features include 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin narrow-body (0.15'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Features include 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin wide-body (0.3'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Features include 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin narrow-body (0.15'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Features include 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin wide-body (0.3'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Isolated 1/8 fractional load RS422 transceiver compatible with 3.3 V or 5.0 V input logic. Additional features include 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin narrow-body (0.15'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Isolated 1/8 fractional load RS422 transceiver compatible with 3.3 V or 5.0 V input logic. Additional features include 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin wide-body (0.3'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Isolated 1/8 fractional load RS485 transceiver compatible with 3.3 V or 5.0 V input logic. Additional features include 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin narrow-body (0.15'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
Isolated 1/8 fractional load RS485 transceiver compatible with 3.3 V or 5.0 V input logic. Additional features include 15 kV bus ESD protection, 5 Mbps data rate, and 20 kV per microsecond transient immunity. 16-pin wide-body (0.3') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
20 Mbps, 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, and 20 kV per microsecond transient immunity. 16-pin narrow-body (0.15'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
20 Mbps, 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, and 20 kV per microsecond transient immunity. 16-pin wide-body (0.3'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
20 Mbps, 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, and 20 kV per microsecond transient immunity. 16-pin narrow-body (0.15'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
20 Mbps, 3.3 V or 5.0 V input logic, 15 kV bus ESD protection, and 20 kV per microsecond transient immunity. 16-pin wide-body (0.3'') SOIC package.
This part is lead (Pb) free.
Lead-free
product information
The IL3522 is a galvanically isolated, high-speed differential bus transceiver, designed for bidirectional data communications on balanced transmission lines. The IL3522 offers an exceptional 2.3 V differential output into a 54 ohm load, over the supply range of 4.5 V to 5.5 V. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
This part is lead (Pb) free.
Lead-free
product information
The IL3522VE is a 6 kVrms isolated, high-speed differential bus transceiver, designed for bidirectional data communications on balanced transmission lines. The IL3522 offers an exceptional 2.3 V differential output into a 54 ohm load, over the supply range of 4.5 V to 5.5 V. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
This part is lead (Pb) free.
Lead-free
product information
The RS-485 Wide-Body Isolator Evaluation Board provides a complete isolated RS-485 node using the popular 0.3" (8 mm) creepage IL3585E isolated transceiver. The board provides screw terminal and RJ45 connections, and demonstrates best layout practices.
Termination, pull-up, and pull-down resistors are easily changed to accommodate various fanouts and termination methods.
The transceiver delivers an exceptional 2.3 V differential output into a 54 Ohm load and data rates to 40 Mbps. The device is also compatible with 3.3 V input supplies, allowing interface to standard microcontrollers without additional level shifting.
The RS-485 Narrow-Body Isolated Transceiver Evaluation Board provides a complete isolated RS-485 node using the unique 0.15"-wide IL3585-3E isolated transceiver. The board provides screw terminal and RJ45 connections, and demonstrates best layout practices.
Termination, pull-up, and pull-down resistors are easily changed to accommodate various fanouts and termination methods.
The transceiver delivers an exceptional 2.3 V differential output into a 54 Ohm load and data rates to 40 Mbps. The device is also compatible with 3.3 V input supplies, allowing interface to standard microcontrollers without additional level shifting.
The IL3585-3 is an isolated 40 Mbps RS-485 transceiver and is compatible with 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin narrow-body (0.15''-wide) SOIC package.
This part is lead (Pb) free.
Lead-free
product information
The IL3585 is an isolated 40 Mbps RS-485 transceiver and is compatible with 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
This part is lead (Pb) free.
Lead-free
product information
The IL3585VE is a 6 kVrms isolated 40 Mbps RS-485 transceiver and is compatible with 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
This part is lead (Pb) free.
Lead-free
product information
The IL3685-1 is the industry's fastest isolated RS-485 transceiver (40 Mbps) in the industry's smallest package (QSOP16). 3.3 V or 5 V input logic; fully PROFIBUS compliant; 15 kV bus ESD protection; 50 kV per microsecond transient immunity.
This part is lead (Pb) free.
The PROFIBUS Isolated Transceiver Evaluation Board provides a complete isolated PROFIBUS node using the unique 0.15" narrow-body IL3685-3E isolated transceiver. The board provides screw terminal and PROFIBUS DB9 connections.
Termination, pull-up, and pull-down resistors are typical PROFIBUS values, and easily changed for specific applications.
The transceiver provides data rates to 40 Mbps, and is fully PROFIBUS compatible, including the stringent bus differential specifications.
The IL3685-3 is an isolated 40 Mbps RS-485 transceiver that is fully PROFIBUS compliant. 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin narrow-body (0.15''-wide) SOIC package
This part is lead (Pb) free.
The IL3685 is an isolated 40 Mbps RS-485 transceiver that is fully PROFIBUS compliant. 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The IL3685 is an isolated 40 Mbps RS-485 transceiver for 3.3V buses. 1/5 unit load supports up to 160 nodes. 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
This part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards include an IL3685TE isolated RS-485 transceiver,
a termination resistors, power-supply bypass capacitors as recommended, screw
connections, provisions for header pins, and a DB9 bus connector for PROFIBUS.
The IL3685TE is the world's fastest isolated transceiver with data rates to 40 Mbps, is fully PROFIBUS compatible, including the stringent bus differential specifications, and is rated to a full 125C.
The IL3685 is an isolated 40 Mbps RS-485 transceiver with an extended temperature range. Over-temperature protection; fully PROFIBUS compliant; 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The IL3685 is a 6 kVrms isolated 40 Mbps RS-485 transceiver that is fully PROFIBUS compliant. 3.3 V or 5 V input logic. 15 kV bus ESD protection; 50 kV per microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
This part is lead (Pb) free.
The CAN Evaluation Board provides a complete isolated Controller Area Network node using the popular IL41050TA-3E isolated narrow-body isolated CAN transceiver.
The board is fully ISO 11898 CAN compliant and accommodates 3V - 5.5V supplies. It provides screw terminal connections, termination resistors, and pull-up resistors.
The QSOP isolated CAN Evaluation Board provides a complete isolated Controller Area Network node using the world's smallest isolated CAN transceiver, the IL41050TA-1E.
The board is fully ISO 11898 CAN compliant and accommodates 3V - 5.5V supplies. It provides screw terminal connections, termination resistors, and pull-up resistors.
The IL41050TA-1E is an ultaminiature isolated CAN transceiver with no performance compromises. High-speed; low-power; 125C; 180 ns typ. loop delay; ISO 11898 compliant; >110 node fanout; 1 Mbps; 3.3 V or 5.0 V input logic.
16-pin QSOP package--the world's smallest isolated transceiver.
The IL41050TA-3E is a high-speed, low-power isolated ISO 11898 compliant CAN transceiver. 125C; 180 ns typ. loop delay; ISO 11898 compliant; >110 node fanout; 1 Mbps; 3.3 V or 5.0 V input logic.
16-pin narrow-body (0.15'') RoHS SOIC package.
The IL41050TAE is a high-speed, low-power isolated ISO 11898 compliant CAN transceiver. 125C; 180 ns typ. loop delay; ISO 11898 compliant; >110 node fanout; 1 Mbps; 3.3 V or 5.0 V input logic.
16-pin wide-body (0.3'') RoHS SOIC package with full 8 mm creepage.
The isolated CAN FD Evaluation Board provides a complete isolated Controller Area Network node using the world's smallest isolated CAN FD transceiver, the IL41050TFD-1E.
The board is fully ISO 11898 CAN compliant and accommodates 3V - 5.5V supplies. It provides screw terminal connections, termination resistors, pull-up resistors, and a jumper to select normal or silent mode.
The IL41050TFD-1E is an ultraminiature isolated CAN FD transceiver with no performance compromises. 125C; 5 Mbps; 3.3 V or 5.0 V input logic.
16-pin QSOP package--the world's smallest isolated transceiver.
The IL41050TFDE is an isolated CAN FD transceiver. 125C; 5 Mbps; 3.3 V or 5.0 V input logic.
16-pin wide-body (0.3'') RoHS SOIC package with full 8 mm creepage.
This board provides a complete isolated Controller Area Network node using NVE's IL41050TTE isolated wide-body basic CAN transceiver.
The board is fully ISO 11898 CAN compliant and accommodates 3V - 5.5V supplies. It provides screw terminal connections, termination resistors, and pull-up resistors.
The IL41050TT is a low-cost, basic CAN transceiver without Vref output and silent mode input pins. 2.5kV isolation; 125C; 180 ns typ. loop delay; ISO 11898 compliant; >110 node fanout; 1 Mbps; 3.3 V or 5.0 V input logic.
16-pin wide-body (0.3'') RoHS SOIC package with full 8 mm creepage.
The IL41050TTVE is a low-cost, 5 kV basic CAN transceiver without Vref output and silent mode input pins. 125C; 180 ns typ. loop delay; ISO 11898 compliant; >110 node fanout; 1 Mbps; 3.3 V or 5.0 V input logic.
16-pin wide-body (0.3'') RoHS SOIC package with full 8 mm creepage.
The isolated CAN Evaluation Board provides a complete isolated Controller Area Network node using NVE's popular IL41050TAE isolated wide-body CAN transceiver with true 8mm creepage.
The board is fully ISO 11898 CAN compliant and accommodates 3V - 5.5V supplies. It provides screw terminal connections, termination resistors, and pull-up resistors.
Galvanically-isolated full-duplex RS 422 interface in a 0.3"-wide 16-pin SOIC package. 2500 Vrms isolation and 20 kV/microsecond transient immunity.
This part is lead (Pb) free.
Lead-free
product information
This Evaluation Board is a complete isolated RS-485 / RS-422 node using the IL4622E isolated transceiver with integrated isolated DC-DC convertor.
These 2 x 3.5-inch (50 x 90 mm) boards include screw terminals and test pads. LEDs indicate DC-to-DC convertor input and output power. A 2s2p board with vias optimizes thermal performance.
The IL4622E is a high-speed, fully-isolated, full duplex differential bus transceiver with an integrated
3.3-to-3.3 volt DC-DC convertor to provide a fully-isolated 3.3 volt bus supply using the controller supply. This level of integration dramatically reduces chip count and board area.
This Evaluation Board is a complete isolated RS-485 node using the IL4685E isolated transceiver with integrated isolated DC-DC convertor.
These 2 x 3.5-inch (50 x 90 mm) boards include screw terminals and test pads. LEDs indicate DC-to-DC convertor input and output power. A 2s2p board with vias optimizes thermal performance.
The IL4685E is a high-speed, fully-isolated, half-duplex differential bus transceiver with an integrated DC-to-DC convertor to create an isolated 3.3 volt bus supply using the 3.3 volt controller supply. This level of integration dramatically reduces chip count and board area.
This Evaluation Board is a complete isolated RS-485 node using the IL4822E isolated transceiver with integrated DC-to-DC convertor.
These 2 x 3.5-inch (50 x 90 mm) boards include screw terminals and test pads. LEDs indicate DC-to-DC convertor input and output power. A 2s2p board with vias optimizes thermal performance.
The IL4822E is a high-speed, fully-isolated, full-duplex differential bus transceiver with an integrated DC-to-DC convertor to create an isolated 5 volt bus supply using the 3.3 volt controller supply. This level of integration dramatically reduces chip count and board area.
Galvanically-isolated high-speed RS-485 differential bus transceiver with 2500 Vrms isolation, 2 kV Bus ESD, and 20 kV/microsecond transient immunity. The IL 485 has a 35 Mbd data rate and is Profibus recognized. Available in a 0.3"-wide 16-pin SOIC package.
Galvanically-isolated high-speed RS 485 differential bus transceiver with 2500 Vrms isolation, 2kV Bus ESD, and 20 kV/microsecond transient immunity. The IL 485 has a 35 Mbd data rate and is Profibus recognized. Available in a 0.3"-wide 16-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL485W performs the same EIA-485 and PROFIBUS functions as the IL485, but has an additional uncommitted isolation channel which is useful for fault detection in bus contention situations.
The IL485W performs the same EIA-485 and PROFIBUS functions as the IL485, but has an additional uncommitted isolation channel which is useful for fault detection in bus contention situations.
The "E" suffix indicates this part is lead (Pb) free.
The IL510-1 is a 3.3V/5V, single-channel, 2 Mbps DC-correct digital isolator, with optional external synchronization clock, output enable, 25 ns propagation delay, 10 ns pulse width distortion with 1 kVrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. Unique 8-pin MSOP.
The "E" suffix indicates this part is lead (Pb) free.
The IL510-3 is a 3.3V/5V, single-channel, 2 Mbps DC-correct digital isolator, with optional external synchronization clock, output enable, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL511-1 is a 3.3V/5V, dual-channel unidirectional 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 1 kVrms isolation and 50 kV/microsecond typical transient immunity, -40°C to 85°C. Unique 8-pin MSOP.
The "E" suffix indicates this part is lead (Pb) free.
The IL511-3 is a 3.3V/5V, dual-channel unidirectional 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 50 kV/microsecond typical transient immunity, -40°C to 85°C. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL514-3 is a 3.3V/5V, multichannel 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL514 is a 3.3V/5V, multichannel 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL515 is a 3.3V/5V, multichannel 2 Mbps DC-correct digital isolator, with output enable and optional external synchronization clock. 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL516 is a 3.3V/5V, multichannel 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL516 is a 3.3V/5V, multichannel 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity, -40°C to 85°C. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL521-3 is a 3.3V/5V, dual-channel bidirectional 2 Mbps DC-correct digital isolator, 25 ns propagation delay, 10 ns pulse width distortion with 2500 Vrms isolation and 50 kV/microsecond typical transient immunity, -40°C to 85°C. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL600-Series Isolator evaluation board lets you try a variety of NVE’s unique passive-input isolators.
The board has four IL600-Series isolators in four package types:
• IL613E (wide-body SOIC-16)
• IL614-3E (narrow-body SOIC-16)
• IL611-3E (SOIC-8)
• Open-drain IL610A-1E (MSOP-8)
A pushbutton and LED demonstrates the unmatched flexibility of these devices.
The award-winning IL600 and IL600A Series Isolators provide unique flexibility similar to LED-input optocouplers but with better performance and higher package density.
The IL610-1E is a 3.3/5V, single-channel, 100 Mbps isolated signal coupler with a CMOS output, which can be used to replace opto-couplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin MSOP package (the world's smallest packaged coupler).
This part is lead (Pb) free.
Lead-free
product information
The IL610-2E is a 3.3/5V, single-channel, 100 Mbps isolated signal coupler with a CMOS output, which can be used to replace opto-couplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin PDIP package.
This part is lead (Pb) free.
Lead-free
product information
The IL610-3E is a 3.3/5V, single channel, 100 Mbps isolated signal coupler with a CMOS output, which can be used to replace opto-couplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
Lead-free
product information
This 2 x 3.5-inch (50 x 90 mm) board showcases the unique IL610A-1E passive-input, open-drain isolator. A pushbutton and LED demonstrate the remarkable flexibility of this devices. The evaluation board also has an input resistor, input capacitor, power-supply bypass capacitor as recommended, as well as screw connections, test points, and provisions for header pins.
Award-winning IL600-Series Isolators provide unique flexibility similar to LED-input optocouplers but with better performance and higher package density. The MSOP package is the world's smallest isolator.
The devices are manufactured with NVE’s patented IsoLoop spintronic Giant Magnetoresistive (GMR) technology for small size, high speed, and low power.
The IL610A-1E is a 3.3/5V, single-channel, 10 Mbps isolated signal coupler with an open-drain output, which can be used to replace opto-couplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin MSOP package (the world's smallest packaged coupler).
This part is lead (Pb) free.
Lead-free
product information
The IL610A-2E is a 3.3/5V, single-channel, 10 Mbps isolated signal coupler with an open-drain transistor output, which can be used to replace opto-couplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin PDIP package.
This part is lead (Pb) free.
Lead-free
product information
The IL610A-3E is a 3.3/5V, single-channel, 10 Mbps isolated signal coupler with an open-drain output, which can be used to replace opto-couplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
Lead-free
product information
IL6xxCMTI-Series isolators are
optimized for driving MOSFETs either directly or with an
external gate driver.
Resistors set the input current, and five milliamps guarantees
switching. The inputs can be configured as non-inverting or
inverting.
CMTI-grade isolators are 100% tested to ensure each part has
at least 200 kV/µs minimum Common-Mode Transient
Immunity. Simple external deglitch circuitry can extend the
CMTI to an extraordinary 350 kV/µs typical.
The parts also have an extended supply range of up to 6.6 volts
for compatibility to directly drive a range of power
MOSFETs or gate driver ICs. The parts provide full 2.5 kV isolation.
The IL610CMTI-1E is a single-channel version in an ultraminiature MSOP8 package.
IL6xxCMTI-Series isolators are
optimized for driving MOSFETs either directly or with an
external gate driver.
Resistors set the input current, and five milliamps guarantees
switching. The inputs can be configured as non-inverting or
inverting.
CMTI-grade isolators are 100% tested to ensure each part has
at least 200 kV/µs minimum Common-Mode Transient
Immunity. Simple external deglitch circuitry can extend the
CMTI to an extraordinary 350 kV/µs typical.
The parts also have an extended supply range of up to 6.6 volts
for compatibility to directly drive a range of power
MOSFETs or gate driver ICs. The parts provide full 2.5 kV isolation.
The IL610CMTI-3E is a single-channel version in a SOIC8 package.
The IL611-1E is a 3.3/5V, dual-channel, 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin MSOP package (the world's smallest packaged couplers).
This part is lead (Pb) free.
Lead-free
product information
The IL611-2E is a 3.3/5V, dual-channel, 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin PDIP package.
This part is lead (Pb) free.
Lead-free
product information
These 2 x 3.5-inch (50 x 90 mm) boards have an IL611-3E two-channel (both the same direction) SOIC8 passive isolator, input resistors and capacitors, a power-supply bypass capacitor as recommended, screw connections, and provisions for header pins.
Award-winning IL600-Series Isolators provide unique passive inputs for flexibility similar to LED-input optocouplers but with better performance and higher package density. The devices are manufactured with NVE’s patented IsoLoop spintronic Giant Magnetoresistive (GMR) technology for small size, high speed, and low power.
The IL611-3E is a 3.3/5V, dual-channel, 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin MSOP package (the world's smallest packaged couplers).
This part is lead (Pb) free.
Lead-free
product information
The IL611A-1E is a 3.3/5V, dual channel, 10 Mbps isolated signal coupler with open-drain outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin MSOP package (the world's smallest packaged couplers).
This part is lead (Pb) free.
Lead-free
product information
The IL611A-2E is a 3.3/5V, dual channel, 10 Mbps isolated signal coupler with open-drain outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin PDIP package.
This part is lead (Pb) free.
Lead-free
product information
The IL611A-3E is a 3.3/5V, dual-channel, 10 Mbps isolated signal coupler with open-drain outputs which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin MSOP package (the world's smallest packaged couplers).
This part is lead (Pb) free.
Lead-free
product information
IL6xxCMTI-Series isolators are
optimized for driving MOSFETs either directly or with an
external gate driver.
Resistors set the input current, and five milliamps guarantees
switching. The inputs can be configured as non-inverting or
inverting.
CMTI-grade isolators are 100% tested to ensure each part has
at least 200 kV/µs minimum Common-Mode Transient
Immunity. Simple external deglitch circuitry can extend the
CMTI to an extraordinary 350 kV/µs typical.
The parts also have an extended supply range of up to 6.6 volts
for compatibility to directly drive a range of power
MOSFETs or gate driver ICs. The parts provide full 2.5 kV isolation.
The IL611CMTI-1E is a two-channel version in an ultramniature MSOP8 package.
The IL612-2E is a 3.3/5V, dual channel, 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace optocouplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop GMR technology giving exceptionally small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin DIP package.
This part is lead (Pb) free.
Lead-free
product information
The IL612-3E is a 3.3/5V, dual-channel, 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace optocouplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop spintronic GMR technology giving exceptionally small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
Lead-free
product information
The IL612A-2E is a 3.3/5V, dual-channel, 10 Mbps isolated signal coupler with open-drain transistor outputs, which can be used to replace optocouplers in many standard isolation functions. The device is manufactured with NVE's IsoLoop GMR Sensor technology giving exceptionally small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin DIP package.
This part is lead (Pb) free.
Lead-free
product information
The IL612A-3E is a 3.3/5V, dual-channel, 10 Mbps isolated signal coupler with open-drain outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
Lead-free
product information
These 2 x 3.5-inch (50 x 90 mm) boards have an IL613E three-channel (all the same direction) passive isolator, input
resistors and capacitors, a power-supply bypass capacitor as recommended, screw connections, and provisions for header pins.
Award-winning IL600-Series Isolators provide unique passive inputs for flexibility similar to LED-input optocouplers but with better performance and higher package density. The devices are manufactured with NVE’s patented IsoLoop spintronic Giant Magnetoresistive (GMR) technology for small size, high speed, and low power.
The IL613-3E is a 3.3/5V, 3-channel (all in same direction), 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop GMR Sensor technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 16-pin 0.15" SOIC package.
This part is lead (Pb) free.
Lead-free
product information
The IL613E is a 3.3/5V, 3-channel (all in same direction), 100 Mbps isolated signal coupler with CMOS outputs which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 16-pin 0.3" SOIC package.
This part is lead (Pb) free.
Lead-free
product information
These 2 x 3.5-inch (50 x 90 mm) boards have an IL614-3E three-channel (two transmit, one receive) passive isolator, input
resistors and capacitors, a power-supply bypass capacitor as recommended, screw connections, and provisions for header pins.
Award-winning IL600-Series Isolators provide unique passive inputs for flexibility similar to LED-input optocouplers but with better performance and higher package density. The devices are manufactured with NVE’s patented IsoLoop spintronic Giant Magnetoresistive (GMR) technology for small size, high speed, and low power.
The IL614-3E is a 3.3/5V, 3-channel (2 transmit, 1 receive), 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop spintronic GMR technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 16-pin 0.15" SOIC package.
This part is lead (Pb) free.
Lead-free
product information
The IL613-3E is a 3.3/5V, 3-channel (2 transmit, 1 receive), 100 Mbps isolated signal coupler with CMOS outputs, which can be used to replace opto-couplers in many standard isolation functions. The devices are manufactured with NVE's IsoLoop GMR Sensor technology giving exceptional small size and low power dissipation. The passive input structure allows direct interface to a very wide range of voltage inputs. A single resistor is used to set maximum current for input voltages above 0.5 V. 20 kV/microsecond transient immunity. 16-pin 0.3" SOIC package.
This part is lead (Pb) free.
Lead-free
product information
This evaluation board lets you try the worlds densest high-performance isolators.
The board includes five high-performance QSOP isolators:
- IL715-1E: 4-Channel (all same direction)
- IL716-1E: 4-Channel (2 each direction)
- IL717-1E: 4-Channel (3 transmit, 1 receive)
- IL260-1E: 5-Channel (all same direction)
- IL261-1E: 5-Channel (4 transmit, 1 receive)
IsoLoop QSOP isolators have best-in-class performance:
- 110 Mbps
- 2500 V isolation
- -40°C to +100°C
- 3 V to 5.5 V operation
- 44000 year barrier life
- True 4 mm creepage
The IL710-1 is a 3.3V/5V, single channel, 110 Mbps CMOS-compatible isolated buffer, with enable, 10 ns propagation delay, 3 ns pulse width distortion with 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
This part is lead (Pb) free.
The IL710-2 is a 3.3/5V, single-channel, 110 Mbps CMOS-compatible isolated buffer with automatic level shifting, output enable, 10 ns propagation delay, 3 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin PDIP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL710-3 is a 3.3V/5V, single-channel, 110 Mbps CMOS-compatible isolated buffer, with enable, 10 ns propagation delay, 3 ns pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL710S-1E 150 Mbps single-channel (all the same direction) ultraminiature MSOP8 isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest isolators.
The IL710S-1 is a 3.3V/5V, single channel, 150 Mbps CMOS-compatible isolated buffer, with enable, 10 ns propagation delay, 300 ps pulse width distortion with 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
This part is lead (Pb) free.
The IL710S-3 is a 3.3V/5V, single channel, 150 Mbps CMOS-compatible isolated buffer, with enable, 10 ns propagation delay, 300 ps pulse width distortion with 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
The IL710T-1 is a high temperature, 3.3/5V, single channel, 110 Mbps, CMOS compatible, isolated buffer with automatic level shifting, output enable, 10 ns propagation delay, 3 ns pulse width distortion, 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL710T-2 is a high temperature, 3.3/5V, single channel, 110 Mbps, CMOS compatible, isolated buffer with automatic level shifting, output enable, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin PDIP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL710T-3 is a high temperature, 3.3/5V, single channel, 110 Mbps, CMOS compatible, isolated buffer with automatic level shifting, output enable, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL711-2 is a 3.3/5V, dual-channel unidirectional 110 Mbps CMOS compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin PDIP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL711-3 is a 3.3/5V dual-channel unidirectional 110 Mbaud CMOS-compatible isolated buffer with 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL711S-1 is a 3.3/5V dual-channel unidirectional 150 Mbps CMOS-compatible isolated buffer with 10 ns propagation delay, 300 ps pulse width distortion, 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
This part is lead (Pb) free.
The IL711S-3 is a 3.3/5V dual-channel unidirectional 150 Mbps CMOS-compatible isolated buffer with 10 ns propagation delay, 300 ps pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
The IL711T-1 is a high temperature, 3.3/5V, dual-channel, unidirectional, 110 Mbps, CMOS compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL711T-2 is a high temperature, 3.3/5V, dual-channel, unidirectional, 110 Mbps, CMOS compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin PDIP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL711T-3 is a high temperature, 3.3/5V, dual-channel, unidirectional, 110 Mbps, CMOS compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL711V-1 is a dual-channel bidirectional, 110 Mbaud CMOS-compatible isolated buffer with full 2.5 kVrms isolation voltage in a unique 8-pin MSOP package. 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity.
The "E" suffix indicates this part is lead (Pb) free.
The IL711VE is a 6 kVrms isolation, 125C, 3.3/5V, two channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL712-3E two channel (one each direction) high-speed isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's best isolators.
The IL712-1 is a 3.3/5V, dual-channel bidirectional 110 Mbps CMOS-compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
This part is lead (Pb) free.
The IL712-2 is a 3.3/5V dual-channel bidirectional 110 Mbps CMOS-compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin PDIP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL712-3 is a 3.3/5V, dual-channel bidirectional 110 Mbps CMOS-compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL712S-1 is a 3.3/5V, dual-channel bidirectional 150 Mbps CMOS-compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 300 ps pulse width distortion, 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
This part is lead (Pb) free.
The IL712S-3 is a 3.3/5V, dual-channel bidirectional 150 Mbps CMOS-compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 300 ps pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
This part is lead (Pb) free.
The IL712T-1 is a high temperature, 3.3/5V dual-channel, bi-directional, 110 Mbps, CMOS compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 1 kVrms isolation and 20 kV/microsecond transient immunity. Unique 8-pin MSOP package.
This part is lead (Pb) free.
The IL712T-2 is a high temperature, 3.3/5V dual-channel, bi-directional, 110 Mbps, CMOS compatible isolated buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin PDIP package.
The "E" suffix indicates this part is lead (Pb) free.
The IL712V-1 is a dual-channel bidirectional 110 Mbaud CMOS-compatible isolated buffer with full 2.5 kVrms isolation voltage in a unique 8-pin MSOP package. 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715E four-channel (all the same direction) wide-body isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's best isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715-1E four-channel (all the same direction) ultraminiature QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest high-performance isolators.
The IL715-1 is an ultraminiature isolator with no performance compromises. 110 Mbps, 10 ns propagation delay, 3 ns pulse width distortion, 600 WV per VDE 0884-10, 2500 Vrms isolation and 50 kV/microsecond transient immunity, and 44000 year barrier life. 16-pin QSOP.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715-3E four-channel (all the same direction) narrow-body isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The boards let you evaluate the world's best isolators.
The Il715-3 is a 3.3/5V, multichannel isolated 110 Mbps CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL715 is a 3.3/5V, multichannel isolated CMOS-compatible logic buffers with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL715T-3 is a high temperature 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL715T is a high temperature, 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL715VE isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
V-Series isolators are rated at a best-in-class 7 kVrms (9.9 kVpeak) isolation voltage. The evaluation board demonstrates best practice for maintaining 8 millimeter creepage. The isolators are conformally-coated to minimize arcing around the part.
The IL715VE is a 7 kVrms isolation, 125C, 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL716E four-channel (two each direction) wide-body isolator, two bypass capacitors as recommended, screw connections, test pads, and header pins.
The boards let you evaluate the world's best isolators.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL716-1E four channel (two each direction) ultraminiature QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and header pins.
The boards let you evaluate the world's smallest high-performance isolators.
The IL716-1 is an ultraminiature isolator with no performance compromises. 110 Mbps, 10 ns propagation delay, 3 ns pulse width distortion, 600 WV per VDE 0884-10, 2500 Vrms isolation and 50 kV/microsecond transient immunity, and 44000 year barrier life. 16-pin QSOP.
The "E" suffix indicates this part is lead (Pb) free.
The IL716-3 is a 3.3/5V, multichannel isolated 110 Mbps CMOS-compatible logic buffers with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL716 is a 3.3-volt, multichannel isolated 110 Mbps CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL716T-3 is a high temperature, 3.3/5V, multi-channel, isolated 110 Mbps CMOS-compatible logic buffers with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL716T is a high temperature, 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffers with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL716VE isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
V-Series isolators are rated at a best-in-class 7 kVrms (9.9 kVpeak) isolation voltage. The evaluation board demonstrates best practice for maintaining 8 millimeter creepage. The isolators are conformally-coated to minimize arcing around the part.
The IL716VE is a 7 kVrms isolation, 125C, 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL717-1E ultraminiature four-channel (three transmit, one receive) QSOP isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
The board lets you evaluate the world's smallest high-performance isolators.
The IL717-1 is an ultraminiature isolator with no performance compromises. 110 Mbps, 10 ns propagation delay, 3 ns pulse width distortion, 600 WV per VDE 0884-10, 2500 Vrms isolation and 50 kV/microsecond transient immunity, and 44000 year barrier life. 16-pin QSOP.
The "E" suffix indicates this part is lead (Pb) free.
The IL717-3 is a 3.3/5V, multi-channel isolated 110 Mbps CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL717 is a 3.3/5V, multichannel isolated 110 Mbps CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL717T-3 is a high temperature 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 50 kV/microsecond transient immunity. 16-pin narrow-body (0.15"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL717T is a high temperature, 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 16-pin wide-body (0.3"-wide) SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
These 2 x 3.5-inch (50 x 90 mm) boards have an IL717VE isolator, two bypass capacitors as recommended, screw connections, test pads, and provisions for header pins.
V-Series isolators are rated at a best-in-class 7 kVrms (9.9 kVpeak) isolation voltage. The evaluation board demonstrates best practice for maintaining 8 millimeter creepage. The isolators are conformally-coated to minimize arcing around the part.
The IL717VE is a 7 kVrms isolation, 125C, 3.3/5V, multi-channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The "E" suffix indicates this part is lead (Pb) free.
The IL721-3 is a 3.3/5V, dual-channel bidirectional isolated buffer. The channel configuration is reversed from the IL712. CMOS-compatible with automatic level shifting, 110 Mbps, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The "E" suffix indicates this part is lead (Pb) free.
The IL721T-3 is a high temperature, 3.3/5V dual-channel, bi-directional isolated buffer. Channel configuration is the reverse of the IL712T. 110 Mbps, CMOS compatible with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, 2500 Vrms isolation and 20 kV/microsecond transient immunity. 8-pin SOIC package.
The IL721VE is a 6 kVrms isolation, 125C, 3.3/5V, two channel, isolated, 110 Mbps, CMOS-compatible logic buffer with automatic level shifting, 10 ns propagation delay, 3 ns pulse width distortion, and 50 kV/microsecond transient immunity. 16-pin wide-body SOIC package with True 8™ mm creepage.
The "E" suffix indicates this part is lead (Pb) free.
This Evaluation Board provides a complete isolated three-channel SPI node, plus an isolated 3.3 V to 3.3 V DC-to-DC convertor using an IL7614VE. It is ideal for half-duplex SPI applications.
These 2 x 3.5-inch (50 x 90 mm) boards also include screw terminal and test pads, and uses a 2s2p board with vias for optimal thermal performance. LEDs indicate DC-to-DC convertor input and output power.
The IL7614V is a high-speed, fully-isolated, data couplers with an integrated, one-quarter watt 3.3 V-to-3.3 V DC-to-DC convertor. This level of integration dramatically reduces chip count and board area.
This Evaluation Board provides a complete isolated four-channel SPI node, plus an isolated 3.3 V to 5 V DC-to-DC convertor using an IL7817VE.
The board provides screw terminals for connections, plus test points for checking voltages and I/O. There are also LEDs to indicate DC-to-DC convertor input and output power. It uses a 2s2p board with thermal vias for optimal thermal performance.
The IL7817V is a high-speed, fully-isolated, data couplers with an integrated, one-quarter watt 3.3 V to 5 V DC-to-DC boost convertor. This level of integration dramatically reduces chip count and board area.
The ILDC11-15E is a one-quarter watt fully-regulated 3.3V-to-3.3V DC-DC convertor in an ultraminiature 3 mm x 5.5 mm DFN6 package. The part can be used to generate an isolated 3.3-volt bus supply from a controller supply.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide full 2.5 kV isolation and virtually unlimited barrier life.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
These 2 x 3.5-inch (50 x 90 mm) boards contain your choice of ILDC1x-Series DC-to-DC
convertor, bypass capacitors as recommended, as well as test pads, screw terminals, and header pins. LEDs that show the DC-to-DC convertor is operating.
The boards follow best practices including 2s2p with thermal vias for optimal thermal
performance, and stitched ground planes to provide CISPR 32-compliant EMC mitigation with no external components. The boards have provisions for external components if additional EMC mitigation is desired.
The ILDC1x-Series are ultraminiature one-quarter watt DC-to-DC convertors that generate
fully-isolated, independent outputs from a 3.3-volt supply. 3.3, 5, and 6-volt output versions are available. No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads or other external components are generally not necessary for EMI mitigation.
The ILDC11V-15E is an ultraminiature, one-quarter watt fully-regulated 3.3V-to-3.3V DC-DC convertor in an ultraminiature 3 mm x 5.5 mm DFN6 package. The "V" suffix indicates an extended creepage package and full 2.5 kV isolation.
The part can be used to generate isolated RS-485 bus supplies or isolated analog supplies for ADC and DAC circuits.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide virtually unlimited barrier life.
The ILDC11VE is a miniature, one-quarter watt fully-regulated 3.3V-to-3.3V DC-DC convertor. The part can be used to generate an isolated 3.3-volt bus supply from a controller supply.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide best-in-class 6 kV isolation and virtually unlimited barrier life.
The unique True-8(TM) package provides true eight-millimeter creepage in accordance with IEC60601. Maximum 5 mV peak-to-peak ripple means low noise.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
The ILDC12-15E is a one-quarter watt fully-regulated 3.3V-to-5V DC-DC boost convertor in an ultraminiature 3 mm x 5.5 mm DFN6 package. The part can be used to generate isolated RS-485 bus supplies, or power high-side gate supplies in H-bridges.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide 1 kV isolation and virtually unlimited barrier life.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
These 2 x 3.5-inch (50 x 90 mm) boards contain your choice of ILDC1x-Series DC-to-DC convertor, bypass capacitors as recommended, as well as test pads, screw terminals, and header pins. LEDs that show the DC-to-DC convertor is operating.
The boards follow best practices including 2s2p with thermal vias for optimal thermal performance, and stitched ground planes to provide CISPR 32-compliant EMC mitigation with no external components. The boards have provisions for external components if additional EMC mitigation is desired.
The ILDC1x-Series are ultraminiature one-quarter watt DC-to-DC convertors that generate fully-isolated, independent outputs from a 3.3-volt supply. 3.3, 5, and 6-volt output versions are available. No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads or other external components are generally not necessary for EMI mitigation.
This Evaluation Board uses the 3.3-to-5 V version of world’s smallest isolated DC-to-DC convertor, the ILDC12-15E.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC12-15E plus the three required external bypass capacitors as well as LEDs to show the DC-to-DC convertor is operating. Screw terminals provide easy connections.
The ILDC12 is an ultraminiature one-quarter watt DC-to-DC boost convertor with 2.5 kV isolation that can be used to generate an isolated five-volt bus supply from a 3.3-volt controller supply.
No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
The ILDC12-15E is a one-quarter watt fully-regulated 3.3V-to-5V DC-DC boost convertor in an ultraminiature 3 mm x 5.5 mm DFN6 package. The "V" suffix indicates an extended creepage package and full 2.5 kV isolation.
The part can be used to generate isolated RS-485 bus supplies or to power high-side gate supplies in H-bridges.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide virtually unlimited barrier life.
The ILDC13VE is a miniature, one-quarter watt fully-regulated 3.3V-to-5V DC-DC boost convertor. The part can be used to generate isolated RS-485 bus supplies, or power high-side gate supplies in H-bridges.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide best-in-class 6 kV isolation and virtually unlimited barrier life.
The unique True-8(TM) package provides true eight-millimeter creepage in accordance with IEC60601. Maximum 5 mV peak-to-peak ripple means low noise.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
The ILDC13-15E is a one-quarter watt fully-regulated 3.3V-to-6V DC-DC boost convertor in an ultraminiature 3 mm x 5.5 mm DFN6 package. The part can be used to generate isolated high-side gate supplies for H-bridges.
NVE’s proven IsoLoop® isolation technology and a unique ceramic/polymer composite barrier provide 1 kV isolation and virtually unlimited barrier life.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.
Frequency hopping and shielding reduce EMI, and ferrite beads are not necessary for EMI mitigation.
A high-temperature process allows up to 175 °C junction temperature for full power up to 125 °C operating temperature with no derating. Integrated short-circuit protection avoids excessive power dissipation.
These 2 x 3.5-inch (50 x 90 mm) boards contain your choice of ILDC1x-Series DC-to-DC convertor, bypass capacitors as recommended, as well as test pads, screw terminals, and header pins. LEDs that show the DC-to-DC convertor is operating.
The boards follow best practices including 2s2p with thermal vias for optimal thermal performance, and stitched ground planes to provide CISPR 32-compliant EMC mitigation with no external components. The boards have provisions for external components if additional EMC mitigation is desired.
The ILDC1x-Series are ultraminiature one-quarter watt DC-to-DC convertors that generate fully-isolated, independent outputs from a 3.3-volt supply. 3.3, 5, and 6-volt output versions are available. No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads or other external components are generally not necessary for EMI mitigation.
These 2 x 3.5-inch (50 x 90 mm) boards contain your choice of ILDC1x-Series DC-to-DC
convertor, bypass capacitors as recommended, as well as test pads, screw terminals, provisions for header pins. LEDs that show the DC-to-DC convertor is operating.
The boards follow best practices including 2s2p with thermal vias for optimal thermal
performance, and stitched ground planes to provide CISPR 32-compliant EMC mitigation with no external components. The boards have provisions for external components if additional EMC mitigation is desired.
The ILDC1x-Series are ultraminiature one-quarter watt DC-to-DC convertors that generate
fully-isolated, independent outputs from a 3.3-volt supply. 3.3, 5, and 6-volt output versions are available. No additional regulation is required and there is no minimum load. Frequency hopping and shielding reduce EMI, and ferrite beads or other external components are generally not necessary for EMI mitigation.
The ILDC13V-15E is a one-quarter watt fully-regulated 3.3V-to-6V DC-DC boost convertor in an ultraminiature 3 mm x 5.5 mm DFN6 package. The "V" suffix indicates an extended creepage package and full 2.5 kV isolation.
The part can be used to power high-side gate supplies in H-bridges.
The device minimizes board space and parts count, requiring just three external capacitors. No additional regulation is required and there is no minimum load.