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 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.
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 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 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.
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.
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 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.
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.
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 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 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 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 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 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 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.
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.