Magnetic Flux Density Sensors

Description: Features 3D magnetic flux density sensing of ±160mT Programmable flux resolution down to 65µT (typ.) X-Y angular measurement mode Power down mode with 7nA (typ) power consumption 12-bit data resolution for each measurement direction plus 10-bit

• RoHS Compliant: Yes
• Sensor Grade / Operating Range: Automotive
• Sensor Type: Magnetic Sensor

Description: . Summary of Features 3D magnetic flux density sensing of ±160mT Programmable flux resolution down to 65µT (typ.) X-Y angular measurement mode Power down mode with 7nA (typ) power consumption 12-bit data resolution for each measurement

• RoHS Compliant: Yes
• Sensor Grade / Operating Range: Industrial, Consumer
• Sensor Type: Magnetic Sensor

Description: XENSIV™ - TLE4927C E6547 differential Hall effect sensor with hidden adaptive hysteresis Infineon´s TLE4927C detects the motion and position of ferromagnetic and permanent magnet structures by measuring the differential flux density of the magnetic field. A self

• RoHS Compliant: Yes
• Sensor Type: Magnetic Sensor

Description: Summary of Features 3D (X, Y, Z) magnetic flux density sensing of ±160 mT Programmable flux resolution down to typ. 65 µT Extremely small form factor: typ. 1.13 mm * 0.93 mm * 0.59 mm X-Y angular measurement mode Power down mode with 7 nA (typ

• RoHS Compliant: Yes
• Sensor Grade / Operating Range: Industrial, Consumer
• Sensor Type: Magnetic Sensor

Description: Description The TMR9082 linear sensor utilizes a unique push-pull Wheatstone bridges composed of four highly sensitive TMR sensor elements. With low noise, high sensitivity, and a compact package, the TMR9082 is designed for detecting weak magnetic fields such as geomagnetic or

• Technology: Magnetoresistive Linear Position Sensor/Switch

Description: electronically by providing an output voltage proportional to magnetic flux density. As implied by its name, this device relies on the Hall effect. The Hall effect is the development of a voltage across a sheet of conductor when current is flowing and the conductor is placed in

• Device Type: Magnetic Field Sensor
• Form Factor: Handheld
• Number of Axes: 1
• Operating Temperature: -40 to 100 C

Description: Magnetic Guide Tape for AGV Sensors MGR series are magnetic guide tape for MACOME guide sensors. Magnet: Anisotropic strontium ferrite (Binder; Chlorinated polyethylene polymer alloy) Residual magnetic flux density; Br 230~255mT (2300~2550G)

• Adhesive: Pressure Sensitive (PSA)
• Features: Single-Sided
• Materials of Construction: Plastic / Polymer, Specialty / Other
• Temperature Resistance: -20 to 60 C

Description: Magnetic Guide Tape for AGV Sensors MGL series are magnetic guide tape for MACOME guide sensors. Magnet: Anisotropic strontium ferrite (Binder; Chlorinated polyethylene polymer alloy) Residual magnetic flux density; Br 230~255mT (2300~2550G)

• Adhesive: Pressure Sensitive (PSA)
• Features: Single-Sided
• Materials of Construction: Plastic / Polymer, Specialty / Other
• Temperature Resistance: -20 to 60 C

Description: Magnetic Guide Tape for AGV Sensors MGR series are magnetic guide tape for MACOME guide sensors. Magnet: Anisotropic strontium ferrite (Binder; Chlorinated polyethylene polymer alloy) Residual magnetic flux density; Br 230~255mT (2300~2550G)

• Adhesive: Pressure Sensitive (PSA)
• Features: Single-Sided
• Materials of Construction: Plastic / Polymer, Specialty / Other
• Temperature Resistance: -20 to 60 C

Description: magnetic guide tape may cause reduction of magnetic flux density. Remove the adhesive ferrous powder from guige tape regularly. Each end of magnetic guide tape should be connected within 2 mm slit. Keep chemicals and solvent (acetone, thinner, etc.) away, since it

Description: MGT-50-25 Straight magnetic guide tape (flat type) MGT series magnetic guide tape are used for magetic guide sensors. specifications 1. Magnet: Anisotropic strontium ferrite (Binder; Chlorinated polyethylene polymer alloy) 2. Residual magnetic flux density;

• Thickness: 0.0472 inches

Description: Arnold PTM provides thin-rolled nickel iron alloy and soft magnetic materials used for efficient energy storage and transfer, including Invar 36 for OLED applications. Nickel-iron alloys are characterized by relatively high permeability and low core losses. Their overall high saturation

• Applications: Aerospace / Aircraft (AQ), Automotive / Vehicular, Battery / Fuel Cell, Biocompatible / Biomaterial, Oil and Gas
• Nonferrous Metals: Non-ferrous - Any Type, Nickel / Nickel Alloy (UNS N)
• Overall Thickness: 8.00E-5 to 0.0100 inch
• Overall Width / OD: 4 to 12.5 inch

Description: The Littelfuse 25236-00-01-01 current sensor utilizes open loop Hall Effect technology to provide dual channel, ratio-metric output signals proportional to the magnetic flux density generated by internal C-core concentrators. Open Loop Hall effect current sensor

Description: The Littelfuse 25236-00-02-01 current sensor utilizes open loop Hall Effect technology to provide dual channel, ratio-metric output signals proportional to the magnetic flux density generated by internal C-core concentrators. Open Loop Hall effect current sensor

Description: The Littelfuse 25236-00-03-01 current sensor utilizes open loop Hall Effect technology to provide dual channel, ratio-metric output signals proportional to the magnetic flux density generated by internal C-core concentrators. Open Loop Hall effect current sensor

Description: A linear output Hall Effect magnetic field sensor from Taiwan Semiconductor. The device produces a ratiometric output voltage proportional to the applied magnetic flux density over a range of ±800 Gauss. Supply voltage: 3.0 to 6.5V. Supply current: 2.2mA (typ).

• Input (Supply) Voltage: 3 to 6.5 volts
• Sensor Type: Proximity Sensor

Description: A linear output Hall Effect magnetic field sensor from Taiwan Semiconductor. The device produces a ratiometric output voltage proportional to the applied magnetic flux density over a range of ±800 Gauss. Supply voltage: 3.0 to 6.5V. Supply current: 2.2mA (typ).

• Input (Supply) Voltage: 3 to 6.5 volts
• Sensor Type: Proximity Sensor

Description: The SNDH-H Series Hall-Effect Speed Sensors use a magnetically biased Hall-effect integrated circuit to accurately sense movement of ferrous metal targets. The specially designed integrated circuit (IC) and a permanent magnet are sealed in rugged, probe-type packages. The flux

• Operating Temperature: -40 to 302 F
• Power Requirements: DC Powered

Description: The SNDH-H Series Hall-Effect Speed Sensors use a magnetically biased Hall-effect integrated circuit to accurately sense movement of ferrous metal targets. The specially designed integrated circuit (IC) and a permanent magnet are sealed in rugged, probe-type packages. The flux

• Operating Temperature: -40 to 302 F
• Power Requirements: DC Powered

Description: An improvement on the flux gate magnetometer, the DC Milligauss Meter measures magnetic fields (technically "flux density") up to several times the strength of the Earth field. It has a resolution of 0.01 milligauss (1nanotesla) and a range of +/-2000 milligauss (200

• Device Type: Gaussmeter (Tesla Meter)
• Flux Density Measurement: -2.00E9 to 2.00E9 microgauss
• Form Factor: Handheld
• Measurement Features: Magnitude Measurement

Description: The SNDH-H Series Hall-Effect Speed Sensors use a magnetically biased Hall-effect integrated circuit to accurately sense movement of ferrous metal targets. The specially designed integrated circuit (IC) and a permanent magnet are sealed in rugged, probe-type packages. The flux

• Operating Temperature: -40 to 302 F
• Power Requirements: DC Powered

Description: . Temperature-stable quiescent output voltage and sensitivity. Output voltage proportional to magnetic flux density. Low-noise output increases accuracy. Precise recoverability after temperature cycling. Ratiometric rail-to-rail output. Wide ambient temperature range: â??40°C to

• Input (Supply) Voltage: 4.5 to 5.5 volts
• Operating Temperature: -40 C
• Sensor Type: Proximity Sensor

Description: . Temperature-stable quiescent output voltage and sensitivity. Output voltage proportional to magnetic flux density. Low-noise output increases accuracy. Precise recoverability after temperature cycling. Ratiometric rail-to-rail output. Wide ambient temperature range: â??40°C to

• Input (Supply) Voltage: 4.5 to 5.5 volts
• Operating Temperature: -40 C
• Sensor Type: Proximity Sensor

Description: accomplished by superposition of magnetic fields of individual magnet segments. Features of this design are inherent flux straightness and uniform flux density in the gap, which are by-products of flux focusing. These features ensure tight control in magnetizing

• Magnet Type: Magnetic Assembly

Description: The SNG-S Series Speed Sensors use a magnetically biased Hall-effect integrated circuit (IC) to accurately sense movement of ferrous metal targets. The specially designed IC and a permanent magnet are sealed in rugged, probe-type packages. The IC detects the alteration of the magnet's

• Operating Temperature: -40 to 284 F

Description: Deals with electromagnetic fields up to 300 GHz and defines methods for evaluating the electric field strength and magnetic flux density around household and similar electrical appliances, including the conditions during testing as well as measuring distances and positions.

Description: the knee in its second quadrant demagnetization curve. For critical applications, Alnico magnets may be calibrated to an established reference flux density value. A by-product of low coercivity is sensitivity to demagnetizing effects due to external magnetic fields, shock, and

• Coercive Force, H_c: 560 to 2000 Oersted
• Geometry: Block / Bar, Rod, Round / Ring / Disc, Other
• Intrinsic Coercive Force, H_ci: 500 to 2170 Oersted
• Maximum Energy Product, BH_max: 1.3 to 10 MGOe

Description: Deals with electromagnetic fields up to 300 GHz and defines methods for evaluating the electric field strength and magnetic flux density around household and similar electrical appliances, including the conditions during testing as well as measuring distances and positions.