- Stock: In Stock
- Model: SCJ009514
- SKU: SCJ009514
Ask a Question About This Product
- Description
3 hp NEMA AC Induction Motor, Single Phase 230V, ODP/TEFC
Brief
Description
3 hp AC Induction Motor Features
- 3 hp 2 pole 1SF 182T frame NEMA design B AC induction motor or asynchronous motor
- Small single phase electric motor running @ 60Hz 230V AC, full load amps is 13.1A
- Available with open drip proof (ODP) enclosure motor and totally enclosed fan cooled (TEFC) enclosure motor
- Has aluminum windings for conductivity and energy efficiency and has a operating speed of 3450 rpm
- Double shielded bearings and Class F insulation
- Provides for fully automatic operations and excellent functionality
3 hp AC Induction Motor Specification
| Basics | Model | SCJ009514 | SOCOJERS32T01 |
| Enclosure | ODP | TEFC | |
| Type | General Purpose Asynchronous Motor | ||
| Item Weight | 81 Ibs | ||
| Motor Length | 18.8 inch | ||
| Frame | 182T Frame | ||
| Design | NEMA Design B | ||
| Certification | CE, UL | ||
| Motor Material | Roll Steel | ||
| Technical Parameters | Service Factor | 1.15 | 1 |
| Horsepower | 3 hp | ||
| Rated Frequency | 60 Hz | ||
| Phase | Single Phase | ||
| Pole | 2 pole | ||
| Voltage | 230V AC | ||
| Full Load Amps | 13.1A | ||
| Speed | 3450 RPM | ||
| Efficiency | 78% | ||
| Duty | Continuous | ||
| Isulation Class | Class F | ||
| Protection Class | IP54/ IP55 | ||
| Mounting Method | Foot Mounted | ||
| Environment | Ambient temperature | -15℃≤θ≤40℃ | |
| Altitude | Altitude should be lower than 1000 meters above sea level | ||
3 hp AC Induction Motor Dimension
Unit: inch
| Frame Size | AB | BA | Max A | Max B | C | D | E | 2F | H | N | N-W | O | P | R | S | U | Min V | Min ES | Min AA |
| 182T | 7.2 | 2.75 | 8.5 | 6.5 | 16.5 | 4.5 | 3.75 | 4.5 | 0.41 | 2.98 | 2.75 | 9.25 | 9.25 | 0.986 | 0.25 | 1.125 | 2.5 | 1.78 | 3/4 |
NEMA AC Induction Motor Connection Diagram
Details
Tips: The Application Difference between Synchronous Motor and Asynchronous Motor
Synchronous motor can adjust the power factors flexibly through excitation while the power factors of asynchronous motor are not adjustable. Therefore, in some big factories with high asynchronous motor application, one synchronous motor can be equipped for phase adjustment, so as to adjust the power factors between the factory and network interface. However, since synchronous motor has manufacturing cost and large maintenance work amount, capacitance compensation power factor is generally used now.
Because synchronous motor has field winding and slip ring, the operation workers are required to have a high level to control excitation. In addition, compared with the free-maintenance performance of asynchronous motor, the maintenance work amount is great. Therefore, when used as the motor, asynchronous motor is mostly used.
