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.
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.
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.
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 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
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 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.
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
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.
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, 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, 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 ILDC12V-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 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 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
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.
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).