Feature

●Suitable for starting 50Hz and 60Hz single phase motors. Can be used for air compressors, water pumps, high pressure washers, air conditioners, washing machines, motors, generators, HVACs, fans, drills, splitters, saws, grinders and more
●Model: CBB60; Material: Polypropylene film plastic shell; Terminal: U-terminal wire; Tolerance: ±5%; Rated Capacity: 20μF; Wire Length: 165mm/6.435I nch(+/-20mm); Climate Category: 40/70/21; Body Size (+/- 3 mm): 40 x 70mm/1.56 x 2.73I nch (Dia. ); Screw Size: M8 x1.25x12mm; Pack of 1 running condenser
●Advantage: This CBB60 running capacitor is small and lightweight, low loss, strong overload capacity, excellent electrical properties, reliable insulation performance, and good impact resistance
●User Manual: Capacity can not be separated into positive and negative state, can connect freely Good heat dissipation effect under high temperature
●Note: Please pay attention to over-current and over-voltage when using. Tolerances can be increased by factors such as testing conditions, instruments, and environment


Description

Suitable for starting 50Hz and 60Hz single phase motors. Can be used for air compressors, water pumps, high pressure washers, air conditioners, washing machines, motors, generators, HVACs, fans, drills, splitters, saws, grinders and more.

Specifications:
Model: CBB60; Material: Polypropylene film plastic shell; Terminal: U-terminal wire; Tolerance: ±5%; Rated Capacity: 20μF; Wire Length: 165mm/6.435I nch(+/-20mm); Climate Category: 40/70/21; Body Size: 40 x 70mm/1.56 x 2.73I nch(Diameter x Height); Thread Size: M8 x 1.25 x12mm; Pack of 1 Running Capacitor

Benefits:
This CBB60 running capacitor is small and lightweight, low loss, strong overload capacity, excellent electrical properties, reliable insulation performance, and good impact resistance.

User Manual:
Capacity can not be divided into positive or negative state, can be connected freely. It has good heat dissipation effect under high temperature and has high stability.

Note:
Please pay attention to over-current and over-voltage when using. Tolerances can be increased by factors such as testing conditions, instruments, and environment.