Aim Sports RPM-ECU Coil Adapter ARP03
RPM ECU coil adapter AiM is a filter that allows AiM units to sample RPM signal
from the coil and the ECU avoiding possible signal instabilities or wrong sampling.
Caused by electrical interferences that lead to voltage peaks – or to an RPM
signal whose square wave is not perfect. AiM adapter cleans the signal from
undesired peaks and squares the signal wave form.
Aim Sports RPM Coil Adapter For EVO4 ARP04
RPM coil adapter has been properly designed to be connected to EVO4. It filters the signal out coming
from the coil before it enters EVO4, reducing noise and generating the square wave. The output signal
is a square wave. Images here below show – on the left – RPM signal out coming from the coil and –
on the right – the signal filtered to square wave.
Aim Sports Magnetic Speed Sensor
This datasheet explains how to use AiM car/bike magnetic speed sensor. This is a non contact sensor
that needs a metallic trigger to pass in front of it. It is sold with a magnet and the needed locknuts and
is available in two versions: with plastic connector (Binder 719) and with metallic connector (Binder
713).
Ensure that the distance between sensor and magnet is between 8 and 20 mm
(0.31-0.78 inches)
Fix the sensor to the bracket
Connect the...
Aim Sports Magnetic Speed Sensor
This datasheet explains how to use AiM car/bike magnetic speed sensor. This is a non contact sensor
that needs a metallic trigger to pass in front of it. It is sold with a magnet and the needed locknuts and
is available in two versions: with plastic connector (Binder 719) and with metallic connector (Binder
713).
Ensure that the distance between sensor and magnet is between 8 and 20 mm
(0.31-0.78 inches)
Fix the sensor to the bracket
Connect the...
Aim Sports Spark Plug Inductive RPM Adapter ARP05
Spark RPM adapter has been designed for installation on single-cylinder 2 or 4 strokes engines. It is a
filter that converts RPM signal sampled by induction from the spark plug in a square wave signal.
Images here below show the signal sampled by induction on the left and the square wave signal on
the right.