Electric commuter vehicles with Curtis PMC Models 1231C 120V MOSFET electronic motor speed controllers
USD $50 - $90 /Piece
Min.Order:1 Piece
Suzhou Benign Intelligent Equipment Co., Ltd.
Curtis Series Controllers are available in a wide range of models, from simple analog controllers to sophisticated, microprocessor based controllers with CANbus communications and comprehensive diagnostics.
The Curtis PMC models 1231C and 1221C motor speed controllers provide smooth, silent, efficient and cost effective speed control for on-road electric vehicle applications. These controllers utilize power MOSFET technology, pioneered by Curtis PMC, to provide benefits unavailable with older speed control systems.
The Curtis PMC models 1231C and 1221C are high power, heavy duty MOSFET electronic motor speed controllers which are ideal for use in electric commuter vehicles, light delivery trucks, and other vehicles utilizing up to 144 volts.
Vehicle Type | On-Road EV |
Application | Traction |
Max Voltage [VDC] | 144 |
Armature Current (2 min) [A] | 500 - 550 |
Plug Braking | Yes |
Programmable Parameters | No |
Line Contactor Driver | No |
CANbus | No |
IP Rating | IP 65 |
Unit: mm
Model | Voltage (V) | CURRENT (amps ) | 2 MIN RATING (amps ) | 5 MIN RATING (amps ) | 1 HOUR RATING (amps ) | Voltage Drop @100A | UNDERVOLT CUTBACK (volts) |
1231C-86XX | 96-144 | 500 | 500 | 375 | 225 | .30 | 64 |
1231C-77XX | 72-120 | 550 | 550 | 375 | 225 | .30 | 43 |
1221C-74XX | 72-120 | 400 | 400 | 250 | 150 | .50 | 43 |
Company Name: Suzhou Benign Intelligent Equipment Co., Ltd.
Operational Address: 204A, Bldg. A, Founder Tech Park, No. 188, Suhong East Road, Suzhou, Jiangsu, China (Mainland)
Website: http://benign.en.china.cn
Contact Mr. Benign Chen
Department: Director/CEO/General Manager
Job Title: General Manager
Telephone: 86-0512-62890289
Mobile Phone: 18020285375
Fax: 86-0512-62890289
Zip: 215000
Shipping
EMS, TNT, UPS, FEDEX Courier for small quantity. Ocean transport for large quantity.
Our Services
Warranty: Two year limited warranty from time of delivery.