This is a merged information page for Item #1119.
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Pololu item #:
1119
Brand:
PCX
Status:
Special Order Only
This 120:1 gearbox with brushed DC motor has a low-current motor and provides power and speed that is comparable to an RC servo at a fraction of the cost. It has a recommended operating voltage range of 3 V to 12 V.
Key specifications:
| voltage | no-load performance | stall extrapolation |
|---|---|---|
| 6 V | 85 RPM, 70 mA | 5.4 kg⋅cm (75 oz⋅in), 800 mA |
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Plastic gearmotor with offset output. |
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Plastic gearmotor with offset output. |
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Plastic gearmotor with offset output. |
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Rear view of the plastic gearmotor with offset output. |
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Side view of the plastic gearmotor with offset output. |
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Inside the gearbox of the 228:1 plastic gearmotor with offset output. |
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Dimensions of the 120:1 and 228:1 plastic gearmotors with offset outputs. Units are mm over [inches]. |
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Plastic gearmotor with offset output (item #1118 or #1119) mounted with Pololu stamped aluminum L-bracket. |
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Plastic gearmotor with offset output (item #1118 or #1119) mounted with Pololu extended stamped aluminum L-bracket. |
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Plastic gearmotor with offset output (item #1118 or #1119) mounted with Pololu extended stamped aluminum L-bracket. |
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Plastic gearmotor with offset output (item #1118 or #1119) mounted with Pololu extended stamped aluminum L-bracket. |
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Inside the gearbox of the 228:1 plastic gearmotor with offset output. |
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This 120:1 plastic gearmotor (gearbox with brushed DC motor) is a great low-cost alternative to modified hobby servos or Tamiya gearboxes. The low-current motor is a perfect match for our qik 2s9v1 dual serial motor controller, Baby Orangutan robot controller, or DRV8833 dual motor driver carrier, and the compact size makes this unit an attractive choice for small robot designs. The recommended operating voltage range for this motor is 3 V to 12 V.
This is a lower-torque, higher-speed version of the 228:1 plastic gearmotor offset output. At 6 V, the gearbox and motor provide approximately 75 oz-in of torque and 85 RPM. The free-running current is 70 mA, and the stall current is 800 mA. The gearbox is protected by a built-in safety clutch that will typically slip before gear teeth can shear.
This gearmotor comes pre-assembled, with the gears fully enclosed, and the output shaft is 6 mm long and 7 mm in diameter with two sides flattened. The output shaft is along the same axis as the motor shaft, but offset; we also sell a version of this gearmotor with a 90° output shaft.
There are two built-in mounting holes that work with our stamped aluminum L-bracket and extended stamped aluminum L-bracket, as shown in the pictures below:
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A custom-molded GMPW plastic wheel for this gearmotor is available in a variety of colors.
Exact gear ratio: ``(36×32×37×24) / (8×14×9×8) ~~ bb(126.86)``
This 120:1 gearbox with brushed DC motor has a low-current motor and provides power and speed that is comparable to an RC servo at a fraction of the cost. It has a recommended operating voltage range of 3 V to 12 V
Key specifications:
| voltage | no-load performance | stall extrapolation |
|---|---|---|
| 6 V | 85 RPM, 70 mA | 5.4 kg⋅cm (75 oz⋅in), 800 mA |
|
Dimensions of the 120:1 and 228:1 plastic gearmotors with offset outputs. Units are mm over [inches]. |
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This diagram is also available as a downloadable PDF (242k pdf).
| Size: | 42 x 22.7 x 47.8 mm1 |
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| Weight: | 33 g |
| Shaft diameter: | 7 mm |
| Typical operating voltage: | 6 V |
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| Gear ratio: | 120:1 |
| No-load speed @ 6V: | 85 rpm |
| No-load current @ 6V: | 70 mA |
| Stall current @ 6V: | 800 mA |
| Stall torque @ 6V: | 75 oz·in |
This MATLAB script, written by Ali Asgher Mansoor Habiby, plots speed, power, current draw, and efficiency as they vary with torque when you input the gearmotor specifications. It also prints the resistance of the motor, and the current draw and torque at which maximum efficiency and maximum power occur.
No; the information we have available for this motor can be found on its product page. However, you can approximate various additional motor parameters from the information found in the “Specs” tab.
The electrical resistance of the motor can be approximated by dividing the rated voltage by the stall current (at the rated voltage). The electromotive force constant (Ke) can be approximated by dividing the rated voltage by the free-run speed (at the rated voltage). To approximate the motor torque constant (Kt), you can divide the stall torque by the stall current.
For pretty much any DC motor, the current, speed, power, and efficiency curves as a function of torque will look like those in the graph below (assuming motor voltage and temperature are constant):
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The current and speed curves are approximately linear, and the product pages for our motors provide the approximate end points for these lines: (0 torque, no-load current) and (stall torque, stall current) for the red line, and (0 torque, no-load speed) and (stall torque, 0 speed) for the blue line.
The orange output power curve is the product of the speed and the torque, which results in an inverted parabola with its peak at 50% of the stall torque.
The green efficiency curve is the output power divided by the input power, where the input power is current times voltage. The voltage is constant, so you can divide the output power curve by the current line to get the general shape of the efficiency curve, which in turn lets you identify the torque, speed, and current that correspond to max efficiency.
There are many programs out there that you can use to generate these curves. For example, if you have access to MATLAB, you can use this customer-created MATLAB script to generate these motor plots for you from the specifications we provide for each gearmotor.
Note: A good general rule of thumb is to keep the continuous load on a DC motor from exceeding approximately 20% to 30% of the stall torque. Stalling gearmotors can greatly decrease their lifetimes, occasionally resulting in immediate damage to the gearbox or thermal damage to the motor windings or brushes. Do not expect to be able to safely operate a brushed DC gearmotor all the way to stall. The safe operating range will depend on the specifics of the gearmotor itself.
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