+27 (0)11 022 5323 +27 (0)72 435 0005
R
- -
MagnifierSearch:
BI Hall click (Go to Parent Category)

BI Hall click Bi Hall click is a simple solution for adding a bipolar Hall switch to your design. It carries the Melexis US2882 bipolar Hall-effect switch and a 74LVC1T45 single bit, dual supply transceiver. A bipolar Hall effect sensor is sensitive to both north and south pole magnetic fields. Bi Hall click outputs a HIGH logic level when exposed to a south pole magnetic field, and a LOW logic level when exposed to a north pole magnetic field. When removed from a magnetic field, the logic level stays in its previous state. The US2882 IC integrates a Schmitt trigger with hysteresis, thus preventing output oscillation near the switching point between alternating magnetic poles. Bi Hall click communicates with the target board through the mikroBUS INT line. It's designed to use either a 3.3V or a 5V power supply.
R185  Qty:
Est. Weight: 20g. Stock: Available in 5-10 working days [i]. mikroE Icon
Accessory Boards > Environment Measurement > Magnetics 
Boards which use Hall as well as other types of sensors for measuring magnetic fields.
UNI Hall click
UNI Hall click UNI HALL click is a simple solution for adding an unipolar Hall switch to your design. It carries the Melexis US5881 unipolar Hall-effect switch and a 74LVC1T45 single bit, dual supply translating transceiver. The unipolar Hall effect sensor on UNI HALL click is sensitive to north pole magnetic fields—when exposed to such a field, it outputs a LOW logic level. Otherwise the output is a HIGH logic level. It can be employed in a wide variety of scenarios—anywhere where a magnet can be used to infer speed, position, or other properties of the target object. UNI HALL click communicates with the target board through the mikroBUS INT line. It's designed to use either a 3.3V or a 5V power supply.
R185  Qty:
Est. Weight: 20g. Stock: 1 available immediately [i]. mikroE Icon
LIN Hall click
LIN Hall click LIN HALL click carries an MLX90242 linear Hall sensor IC (with built-in active error correction circuitry) and an MCP3201 12-bit ADC. It outputs a signal that is proportional to the flux density of a magnetic field—a north magnetic field will increase the output value while a south magnetic field will cause it to decrease. The ratiometric output allows you to infer the linear or rotary position of a target object by placing magnets on it. LIN HALL click communicates with the target board through the mikroBUS SPI lines (CS, CSK, MISO). The board is designed to use either a 3.3V or a 5V power supply.
R260  Qty:
Est. Weight: 20g. Stock: 1 available immediately [i]. mikroE Icon
Angle click
Angle click Angle click carries an A1332 contactless magnetic angle position sensor. The sensing circuitry relies on the Hall Effect to detect the vector of a nearby magnetic field in a 360° two-dimensional plane parallel to the surface of the chip. It's intended for use with a rotating bipolar magnetic target. The device also includes EEPROM for storing calibration parameters. With a refresh rate of 32 micro seconds and a 12-bit resolution, the A1332 delivers precise angle measurements. Furthermore, you can configure the output dynamic range, output scaling and filtering to adjust it for specific use. The board communicates with the target MCU through the mikroBUS I2C interface (SCL, SDA). Designed to use either a 3.3V or a 5V power supply.
R245  Qty:
Est. Weight: 20g. Stock: 1 available immediately [i]. mikroE Icon
3D Hall Click
3D Hall Click 3D Hall click carries the MLX90333 Triaxis Hall sensor, capable of detecting the position of any magnet in nearby space. It does so by being sensitive to three components of flux density (BX, BY, BZ). The chip functions as a contactless position sensor for any type of magnet, capable of measuring its rotational, linear and 3D displacement with a high degree of precision. Contactless coupling ensures resistance against wear and environmental contaminants such as dirt and dust. The on-chip signal processing circuitry simplifies integration. The board communicates with the target MCU through the mikroBUS SPI interface (CS, SCK, MISO, MOSI). The board is designed to use a 5V power supply only.
R385  Qty:
Est. Weight: 20g. Stock: Available in 5-10 working days [i]. mikroE Icon
Magneto click
Magneto click Magneto click carries an AS5048A contactless magnetic angle position sensor. The sensing circuitry relies on the Hall Effect to detect the vector of a nearby magnetic field in a 360° two-dimensional plane parallel to the surface of the chip. AS5048A delivers precise angle measurements down to 0.05° in 14-bit resolution. Its accuracy is not impeded (up to a point) by misalignment, air gap variations, temperature variations, even stray magnetic fields. The PWM outputs the absolute position information. Additionally, the magnet's zero position is programmable (via SPI). Magneto click communicates with the target MCU through the mikroBUS SPI interface (CS, CLK, MISO, MOSI). Designed to use a 5V power supply.
R555  Qty:
Est. Weight: 20g. Stock: Available in 5-10 working days [i]. mikroE Icon
Magneto 2 click
Magneto 2 click Magneto 2 click is a mikroBUS™ add-on board with Melexis's MLX90316 monolithic rotary position sensor. Sensing flux density with the IC surface of the MLX90316 allows the click to decode the absolute rotary (angular) position from 0 to 360 degrees. In combination with the correct library, the magnetic flux density of a small magnet (diametral magnetisation) rotating above the IC can be measured in a non-contacting way. The sensor enables the design of novel generation of non-contacting rotary position sensors that are frequently required for both automotive and industrial applications. Magneto 2 click communicates with the target MCU through the mikroBUS™ SPI bus. The board is designed to use a 5V power supply only.
R445  Qty:
Est. Weight: 20g. Stock: Available in 5-10 working days [i]. mikroE Icon