Diameter 63mm brushed DC motors
The design of the DC motors diameter 63mm represents a consolidated standard in the market of brushed DC motors.
The differences can be in detail analyzed in the dedicated technical data sheets, where are indicated the electromechanical data for the standard supply tensions 12V and 24V.
Also for the DC motors diameter 63mm it’s possible to choose the preferred characteristic curve, through the interactive characteristic curves available in each datasheet, where, by writing in the apposite cells the desired value of No-load Rpm and supply tension, it is possible to visualize the relative characteristic curve.
Then, each characteristic curve offers the possibility to see for each point the values of torque, current, speed and efficiency.
The front and back flanges provide every possible connection versions, represented by the holes on the different diameters, necessary in each M63 electric motor.
The shafts and the EMC filters can be selected between the available and are part of the electric motor configuration.
Eventual requests of special shafts or particular cables can be attached to the “Request for quotation” at the end of each datasheet.
Unlike other DC motors diameter 63mm available in the market the RIDE DC brush motors offer the option of an in Motor-integrated encoder.
Without compromising the electric performances, it is provided the encoder equipment both for M63x25 and for M63x55 dc electric motors. In this case the M63 brush motors are called M63x25-H and M63x55-H.
The encoder is inside the motor and that allows avoiding the assembling of an external encoder, which would have the consequence of a larger need of space and higher production costs.
The ideal configuration can be selected between the proposed options in each datasheets.
The encoder can have one or two Hall sensors and the ring magnets can have two or more poles.
For a better clarity, are represented in each datasheet the pictures of the Hall sensor/s circuits, of the ring magnets with their different numbers of poles and the output signal diagram of the selected encoder.