Pololu Metal Gearmotors » Micro Metal Gearmotors » 6V High-Power (HP) Micro Metal Gearmotors »
75:1 Micro Metal Gearmotor HP 6V with 12 CPR Encoder, Back Connector
This is a miniature brushed DC metal gearmotor with a gearbox cross section of 10×12 mm and a 9 mm long, 3 mm diameter D-shaped gearbox output shaft. Cables sold separately.
motor/brush type | gearbox | encoder | |
---|---|---|---|
HP 6V: high-power 6V with precious metal brushes | 75.81:1 with brass plates | 12 CPR incremental quadrature with back connector |
voltage | no-load performance | stall extrapolation* |
---|---|---|
6 V | 410 RPM, 100 mA | 1.3 kg⋅cm (18 oz⋅in), 1.6 A |
* Note: Stall torque and stall current specifications are theoretical values; stalls could damage the motor or gearbox. |
Alternatives available with variations in these parameter(s): gear ratio motor type encoder Select variant…
Compare all products in 6V High-Power (HP) Micro Metal Gearmotors.
Description | Specs (16) | Pictures (26) | Resources (3) | FAQs (2) | On the blog (0) | Distributors (14) |
---|
Dimensions
Size: | 10 × 12 × 32 mm1 |
---|---|
Weight: | 11 g |
Shaft diameter: | 3 mm2 |
General specifications
Gear ratio: | 75.81:1 |
---|---|
No-load speed @ 6V: | 410 rpm3 |
No-load current @ 6V: | 0.10 A4 |
Stall current @ 6V: | 1.6 A |
Stall torque @ 6V: | 1.3 kg·cm |
Max output power @ 6V: | 1.4 W |
Encoder: | 12 CPR encoder with back connector |
Motor type: | 1.6A stall @ 6V (HP 6V) |
Performance at maximum efficiency
Max efficiency @ 6V: | 40 % |
---|---|
Speed at max efficiency: | 340 rpm |
Torque at max efficiency: | 0.23 kg·cm |
Current at max efficiency: | 0.34 A |
Output power at max efficiency: | 0.80 W |
Notes:
- 1
- Output shaft adds 10 mm to the 32 mm length, and the encoder extends past the 10 × 12 gearbox cross section on three of the four sides. See dimension diagram for details.
- 2
- D shaft.
- 3
- Typical; ±20%.
- 4
- Typical, ±50%; no-load current depends on internal friction, which is affected by many factors, including ambient temperature and duration of motor operation.