The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and the locknuts.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and the locknuts required and are available in two versions: a plastic connector (Binder 719) and a metallic connector (Binder 712).
The Magnetic Wheel Speed Sensor can be mounted using a bracket (not supplied) and to sense a trigger magnet (included) as it rotates past. Suitable mounting positions may consist of the wheel, wheel hub, prop shaft or brake disc.
The sensor consists of a thin piece of metal that passes a continuous current through it. When the sensor is placed in a magnetic field, the electrons move to one side of the metal, and protons move to the other side of the plate. Then you will be able to get a voltage.
The sensor only produces around seven volts. When the electrons move to one side, a potential difference is created between the two sides of the metal.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and the locknuts.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and the locknuts required and are available in two versions: a plastic connector (Binder 719) and a metallic connector (Binder 712).
The Magnetic Wheel Speed Sensor can be mounted using a bracket (not supplied) and to sense a trigger magnet (included) as it rotates past. Suitable mounting positions may consist of the wheel, wheel hub, prop shaft or brake disc.
The sensor consists of a thin piece of metal that passes a continuous current through it. When the sensor is placed in a magnetic field, the electrons move to one side of the metal, and protons move to the other side of the plate. Then you will be able to get a voltage.
The sensor only produces around seven volts. When the electrons move to one side, a potential difference is created between the two sides of the metal.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and locknuts.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and the locknuts required and is available in two versions: a plastic connector (Binder 719) and a metallic connector (Binder 712).
The sensor consists of a thin piece of metal that passes a continuous current through it. When the sensor is placed in a magnetic field, the electrons move to one side of the metal, and protons move to the other side of the plate. Then you will be able to get a voltage.
The sensor only produces around seven volts. When the electrons move to one side, a potential difference is created between the two sides of the metal.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and locknuts.
AiM 712 Hall Speed Pick Up Sensor (2m cable). The output varies when it meets a magnetic field. The three-wire sensor produces a digital signal.
The sensor consists of a thin piece of metal that passes a continuous current through it. When the sensor is placed in a magnetic field the electrons move to one side of the metal and protons move to the other side of the plate. You will then be able to get a voltage.
The Hall Effect Sensor is a non-contact device that needs a metallic trigger to pass in front of it. Again, a bracket will usually need to be fabricated to mount the sensor in a suitable position. Please ensure that the distance between the sensor and trigger is in a 0.5 – 2.0 mm (0.007-0.07 inches) range.
The sensor only produces around Severn volts. When the electrons move to one side a potential difference is produced between the two sides of metal.
The AiM non-contact sensor needs a metallic trigger to pass in front of it. It comes with a magnet and locknuts.
AiM 712 Hall Speed Pick Up Sensor (2m cable). The output varies when it meets a magnetic field. The three-wire sensor produces a digital signal.
The sensor consists of a thin piece of metal that passes a continuous current through it. When the sensor is placed in a magnetic field the electrons move to one side of the metal and protons move to the other side of the plate. You will then be able to get a voltage.
The Hall Effect Sensor is a non-contact device that needs a metallic trigger to pass in front of it. Again, a bracket will usually need to be fabricated to mount the sensor in a suitable position. Please ensure that the distance between the sensor and trigger is in a 0.5 – 2.0 mm (0.007-0.07 inches) range.
The sensor only produces around Severn volts. When the electrons move to one side a potential difference is produced between the two sides of metal.
The AiM Hall Effect Sensor is a non-contact device that needs a metallic trigger to pass in front of it.
The Hall Effect Sensor is a non-contact device that needs a metallic trigger to pass in front of it. Again, a bracket will usually need to be fabricated to mount the sensor in a suitable position. Would you please ensure that the distance between the sensor and trigger is in a 0.5 – 2.0 mm (0.007-0.07 inches) range? Cable length approximately 2.0m. A higher-quality Honeywell ABS hall effect sensor is also available.
The 719 connection will suit the MXL2, all MX Series including Strada. Use with 719-719 patch lead.
Track your speed with the range of AIM speed sensors.