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 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.
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.
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.
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-6V DC-DC boost convertor. 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 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 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
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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.
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 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.
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 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 AG966-07E provides easy connections to an ASR012-10E I2C/PWM 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).
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.