This board demonstrates an isolated, high-efficiency synchronous buck converter switch-mode
power supply (SMPS) using the world’s smallest isolators, NVE IsoLoop® MSOP Isolators.
The output is 3.3V at 750 mA.
The board has three channels of isolation to ensure the output is electrically isolated from the
input. A two-channel MSOP-8 isolator isolates synchronous rectification and a single-channel
MSOP-8 isolator isolates output-voltage feedback. MSOP isolators minimize board area.
Despite the compact components, the board has full 2.5 kV isolation and maintains 3 mm creepage.
This board demonstrates an isolated, high-efficiency synchronous buck converter switch-mode
power supply (SMPS) using the world’s smallest isolators, NVE IsoLoop® MSOP Isolators.
The output is 3.3V at 750 mA.
The board has three channels of isolation to ensure the output is electrically isolated from the
input. A two-channel MSOP-8 isolator isolates synchronous rectification and a single-channel,
failsafe, MSOP-8 isolator isolates output-voltage feedback. MSOP isolators minimize board area.
Despite the compact components, the board has 1.2 kV isolation and maintains 3 mm creepage.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the SM324-10E 0 to 1.5 mT precision Smart TMR magnetometer sensor.
The board has a pre-soldered sensor, a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 2.2 to 3.6 V supply and has a sophisticated I2C interface.
The SM324-10E Smart Magnetometer combines a Tunneling Magnetoresistance (TMR) sensor element with
sophisticated digital signal processing for unmatched accuracy and precision. An I²C interface provides data as well as an external programming interface, and a digital output provides precise, programmable thresholds.
Unlike awkward, old-fashioned Hall-effect sensors, TMR is sensitive in-plane for
optimal current sensing and easy mechanical interfaces. Key features include:
-2 to +2 mT
Detects polarity
Can detect magnets more than 50 mm away
I²C and digital threshold outputs
24-bit output resolution
In-plane sensitivity more usable than Hall effect sensors
Programmable offset and gain compensation
Calibrated internal temperature sensor
Internal temperature compensation
1.68 to 3.6 volt supply
Ultraminiature 2.5 x 2.5 x 0.8 mm DFN package
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the SM228-10E 0 to 1.5 mT Smart TMR magnetometer sensor.
The board has a pre-soldered sensor, a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 2.2 to 3.6 V supply and has an easy-to-use I2C interface and a digital threshold output.
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
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the SM225-10E 0 to 1.5 mT Smart TMR magnetometer sensor.
The board has a pre-soldered sensor, a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 2.2 to 3.6 V supply and has an easy-to-use SPI interface.
The SM225-10E Smart Magnetometer combines a Tunneling Magnetoresistance (TMR) sensor element with
sophisticated digital signal processing for a unique combination of speed and precision. An SPI 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
SPI interface
2% of full-scale accuracy for 0 to 125°C
Fast 15000 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 TDFN package
A 0.8 x 0.4 inch (21 x 10 mm) noncontact current sensor evaluation board with the SM223-10E 0 to 1.5 mT Smart TMR magnetometer sensor configured over a current-sensing circuit board trace.
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 2.2 to 3.6 V supply and provides an easy-to-use I2C interface as well as a magnetic threshold output.
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the SM223-10E 0 to 1.5 mT Smart TMR magnetometer sensor.
The board has a pre-soldered sensor, a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 2.2 to 3.6 V supply and provides an easy-to-use I2C interface as well as a magnetic threshold output.
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
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the SM125-10E 0 to 4 mT Smart GMR magnetometer sensor.
The board has a pre-soldered sensor, a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 2.2 to 3.6 V supply and provides an easy-to-use I2C interface as well as a magnetic threshold output.
The SM125-10E 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
0-4 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
A 0.8 x 0.4 inch (21 x 10 mm) breakout board with the SM124-10E 0 to 1 mT Smart GMR magnetometer sensor.
The board has a pre-soldered sensor, a standard 0.1" (2.54 mm) header and a common, 1 mm pitch card-edge connector.
The board can be powered by a 2.2 to 3.6 V supply and provides an easy-to-use I2C interface as well as a magnetic threshold output.
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
Arduino Shield02 demonstrates NVE ALT521 or AAT-, ADT- and ASR-Series angle/rotation sensors. The Shield connects via an edge connector to a sensor breakout board. Sixty LEDs indicate the angle, and colors indicate direction of rotation.
A diametrically-magnetized neodymium magnet is included, and a magnet fixture allows the magnet to be positioned on-axis or in one of three off-axis positions.
Arduino not included; breakout boards sold separately. The Shield is compatible with the following breakout boards:
ALT521-10E-EVB01:
Ultrahigh sensitivity analog angle sensor
AAT003-10E-EVB01:
Low output impedance analog angle sensor
AAT006-10E-EVB01:
High-sensitivity analog angle sensor
ADT002-10E-EVB01:
Digital output quadrature rotation sensor
ASR002-10E-EVB01:
SPI interface factory-calibrated angle sensor
ASR012-10E-EVB01:
I²C interface factory-calibrated angle sensor
ASR022-10E-EVB01:
ABZ Encoder Sensor
Arduino Software and detailed documentation can be downloaded from NVE's GitHub repository.
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
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 ILDC1xV-15 Series are ultraminiature one-quarter watt DC-to-DC convertors that generate independent outputs with 2.5 kV isolation 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.