The IL7811VE is a two-channel (both the same direction) 110 Mbps isolator with an integrated 3.3V-to-5V isolated DC-DC boost convertor.
The DC-DC convertor can output up to 250 mW, is fully regulated, and has built-in EMI mitigation.
4 kVRMS isolation; 125 C; 16-pin wide-body SOIC package with True 8™ mm creepage.
$11.16
The IL7815VE is a four-channel (all the same direction) 110 Mbps isolator with an integrated 3.3V-to-5V isolated DC-DC boost convertor.
The DC-DC convertor can output up to 250 mW, is fully regulated, and has built-in EMI mitigation.
4 kVRMS isolation; 125 C; 16-pin wide-body SOIC package with True 8™ mm creepage.
$12.40
The IL7816VE is a four-channel (two each direction) 110 Mbps isolator with an integrated 3.3V-to-5V isolated DC-DC boost convertor.
The DC-DC convertor can output up to 250 mW, is fully regulated, and has built-in EMI mitigation.
4 kVRMS isolation; 125 C; 16-pin wide-body SOIC package with True 8™ mm creepage.
$12.40
The IL7817VE is a four-channel (3 transmit, 1 receive) 110 Mbps isolator with an integrated 3.3V-to-5V isolated DC-DC boost convertor.
The DC-DC convertor can output up to 250 mW, is fully regulated, and has built-in EMI mitigation.
4 kVRMS isolation; 125 C; 16-pin wide-body SOIC package with True 8™ mm creepage.
$12.40
The IL817TE is NVE's top-of-the-line four-channel isolator (3 transmit, 1 receive), with best-in-class specifications:
• 125°C max. operating temperature
• 110 Mbps
• 10 ns propagation delay
• DC-correct; deterministic power-up
• 50 kV/µs typ.; 30 kV/µs min. transient immunity
• IEC 60747-5-5 (VDE 0884) certified—600 Vrms WV
• 44000-year barrier life
• Low EMC footprint
The part uses NVE's unique True 8 eight-millimeter creepage 16-pin wide-body SOIC package.
$8.38
This Evaluation Board uses the 3.3-to-3.3V version of the world’s smallest isolated DC-to-DC convertor, the ILDC11-15E.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC11-15E 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 ILDC11 is an ultraminiature one-quarter watt DC-to-DC convertor with 2.5 kV isolation that can be used to generate an isolated 3.3-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.
$49.95
This Evaluation Board uses the 3.3-to-3.3V version of our miniature DC-DC convertor, the ILDC11VE.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC11-15E 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 ILDC11VE is a miniature one-quarter watt DC-to-DC convertor with 4 kV isolation that can generate an isolated 3.3-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.
$49.95
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.
$49.95
This Evaluation Board uses the 3.3-to-5 V version of our miniature DC-to-DC convertor, the ILDC12VE.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC12VE 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 4 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.
$49.95
This Evaluation Board uses the 3.3-to-6 V version of the world’s smallest isolated DC-to-DC convertor, the ILDC13-15E.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC13-15E 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 ILDC13-15E is an ultraminiature one-quarter watt DC-to-DC boost convertor with 2.5 kV isolation that can be used to generate an isolated six-volt gate 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.
$49.95
This Evaluation Board uses the 3.3-to-6 V version of our miniature DC-to-DC convertor, the ILDC13VE.
The 1.75 by 1.75 inch (45 by 45 mm) board has an ILDC13VE 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 ILDC13VE is an miniature one-quarter watt DC-to-DC boost convertor with 4 kV isolation that can be used to generate an isolated six-volt gate 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.
$49.95
This Arduino Shield board implements an H-bridge power converter using four power MOSFETs, four IL610CMTI-1E
ultrahigh CMTI isolated MOSFET drivers, and two ILDC13-15E ultraminiature isolated DC-to-DC convertors.
The board is rated for 40 volts and 50 amps, to control
up to two-kilowatt loads.
Example programs are available via our GitHub Repository.
Key features of the board are:
• A Simple three-wire Arduino interface (PWM, Dir, and Enable)
• Heat-sinking and thermal vias
• Standard Arduino Shield form factor outline
• Easy connections with large screw terminals
Specifications:
• Max. load: 2 kW (40 V / 50 A)
• Load supply line: 8 to 40 V
• Arduino input supply: 5V or 7 V to 20 V, 500 mA max.
• Logic-to-load isolation: 2.5 kV per UL 1577
• Operating Temperature Range: -40 °C to 85 °C
• Dimensions: 2.1 in. by 2.7 in. (53.4 mm by 68.6 mm)
Applications:
• Motor speed and direction control
• Robotics
• DC-to-AC invertors
$195.95
The SM124-10E Smart Magnetometer combines an omnipolar GMR sensor element with
with easy-to-use digital signal processing.
A digital output provides precise, programmable thresholds.
An I²C interface provides magnetic field data, as well as a
calibration interface. The device is factory calibrated for accuracy. Calibration coefficients are stored in internal nonvolatile memory.
All commands, data, and coefficients are a single byte, and a
slick, elegant data structure lets you get up and running with
a minimum of firmware.
Key features include:
Can detect magnets more than 50 mm away
I²C and digital threshold outputs
0-1 mT linear range
8-bit / 1% output resolution
−40°C to +125°C operating range
5% FS accuracy for 0 to 85°C
10 kSps sample rate for fast response
6 mA typical supply current
In-plane sensitivity more usable than Hall effect sensors
Programmable offset and gain compensation
Optional magnet temperature compensation
2.2 to 3.6 volt supply
Ultraminiature 2.5 x 2.5 x 0.8 mm TDFN package
$5.16
The SM223-10E Smart Magnetometer combines a Tunneling Magnetoresistance (TMR) sensor element with
sophisticated digital signal processing for a unique combination of speed and precision. An I2C interface provides data as well as an external programming interface, and allows setting a versatile digital threshold output.
Unlike awkward, old-fashioned Hall-effect sensors, TMR is sensitive in-plane for
optimal current sensing and easy mechanical interfaces. Key features include:
0 to 1.5 mT linear range
Can detect magnets more than 150 mm away
Simple I2C interface
Programmable digital threshold output
2% of full-scale accuracy for 0 to 125°C
Fast 10000 sample-per-second update rate
Factory calibrated
Programmable offset and gain compensation
-40°C to +125°C operating range
Ultraminiature 2.5 x 2.5 mm DFN6 package
$5.84
The SM228-10E Smart Magnetometer combines a Tunneling Magnetoresistance (TMR) sensor element with
sophisticated digital signal processing for a unique combination of speed and precision. An I2C interface provides data as well as an external programming interface.
Unlike awkward, old-fashioned Hall-effect sensors, TMR is sensitive in-plane for
optimal current sensing and easy mechanical interfaces. Key features include:
0 to 150 Oe / 0 to 15 mT linear range
Can detect magnets more than 50 mm away
I2C interface
Programmable digital threshold output
2% of full-scale accuracy for 0 to 125°C
Fast 10000 sample-per-second update rate
Factory calibrated
Programmable offset and gain compensation
-40°C to +125°C operating range
Ultraminiature 2.5 x 2.5 mm DFN6 package
$5.84
Two dozen of NVE's most popular technical videos cover technology, NVE products, and practical application tips. Virtual actors Daniella, Jayne, Sandy, Dee, and N. V. e-Geek provide valuable information in a fun format.
So crank up the big screen, grab some popcorn, and invite some friends (98 minutes; NTSC format).
$14.95
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.
$75.00
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.
$129.00
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.
$95.00
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
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$12.00