The pulse amplitude of the encoder’s output square wave signal is dependent on the voltage you supply the sensor. For example, if you provide 5V to Sensor Voltage +, then Channels A & B will have a pulse amplitude of 5V.
To enhance the resolution, the encoder is attached to the motor before the gearbox.
Gear train damage can occur if stalled (locked).
Output Shaft Style | D-shaft |
---|---|
Motor Type | Brushed DC |
Output Shaft Support | Dual Ball Bearings |
Gear Material | Metal |
Weight | 3.77 oz (107g) |
Voltage (Nominal) | 12V |
Voltage Range (Recommended) | 3V - 12V |
Speed (No Load @ 12VDC) | 195 rpm |
Current (No Load @ 12VDC) | 0.20A |
Current (Stall @ 12VDC) | 4.9A |
Torque (Stall @ 12VDC) | 94.4 oz-in (6.8 kgf-cm) |
Gearbox Style | Planetary |
Encoder: Cycles Per Revolution (Motor Shaft) | 3 |
Encoder: Countable Events Per Revolution (Output Shaft) | 739.908 |
Gear Ratio | 61.659:1 |
Encoder Type | Relative, Quadrature |
Encoder Sensor Type | Magnetic (Hall Effect) |
Encoder Sensor Input Voltage Range | 2.4 - 26V |
Encoder Sensor Output Pulse Amplitude | ~= Sensor Input Voltage |