Klima Running Capacitor CBB65 10µF 370-450VAC
Klima Running Capacitor CBB65 10µF 370-450VAC
T-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A run capacitor uses the charge in the dielectric to boost the current which provides power to the motor. It is used to maintain a charge. In AC units, there are dual run capacitors. One capacitor provides power to the fan motor. The other sends power to the compressor. Run capacitors measure in at approximately 7-9 micro-Farads. The value or rating of the run capacitor must be accurate. If the value is too high, the phase shift will be less than perfect and the winding current will be too high. If the capacitor value/rating is too low, the phase shift will be higher and the winding current will be too low. If run capacitors are not ideal, then the motor could overheat and the true torque will not be enough to drive current.
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Klima Running Capacitor CBB65 60+5µF 370-450VAC
Klima Running Capacitor CBB65 60+5µF 370-450VACT-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A run capacitor uses the charge in the dielectric to boost the current which provides power to the motor. It is used to maintain a charge. In AC units, there are dual run capacitors. One capacitor provides power to the fan motor. The other sends power to the compressor. Run capacitors measure in at approximately 7-9 micro-Farads. The value or rating of the run capacitor must be accurate. If the value is too high, the phase shift will be less than perfect and the winding current will be too high. If the capacitor value/rating is too low, the phase shift will be higher and the winding current will be too low. If run capacitors are not ideal, then the motor could overheat and the true torque will not be enough to drive current.
Klima Starting Capacitor 80µF
Klima Starting Capacitor 80µFT-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A start capacitor is found in the circuit of start windings when the motor is starting. This capacitor contains a higher capacitance than a run capacitor. It varies, but a start capacitor will measure between 70 and 120 micro Farads. The start capacitor provides an immediate electrical push to get the motor rotation started. Without a start capacitor when the voltage is applied, the motor would just hum. The start capacitor creates a current to voltage lag in the separate start windings of the motor. The current builds up slowly, and the armature has an opportunity to begin rotating with the field of current.
Klima Running Capacitor CBB65 7.5µF 370-450VAC
Klima Running Capacitor CBB65 7.5µF 370-450VAC
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Klima Running Capacitor CBB65 7.5µF 370-450VAC
Klima Running Capacitor CBB65 7.5µF 370-450VACT-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A run capacitor uses the charge in the dielectric to boost the current which provides power to the motor. It is used to maintain a charge. In AC units, there are dual run capacitors. One capacitor provides power to the fan motor. The other sends power to the compressor. Run capacitors measure in at approximately 7-9 micro-Farads. The value or rating of the run capacitor must be accurate. If the value is too high, the phase shift will be less than perfect and the winding current will be too high. If the capacitor value/rating is too low, the phase shift will be higher and the winding current will be too low. If run capacitors are not ideal, then the motor could overheat and the true torque will not be enough to drive current.
Klima Running Capacitor CBB65 35+5µF 370-450VAC
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Offer ends in:
Klima Running Capacitor CBB65 35+5µF 370-450VAC
Klima Running Capacitor CBB65 35+5µF 370-450VACT-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A run capacitor uses the charge in the dielectric to boost the current which provides power to the motor. It is used to maintain a charge. In AC units, there are dual run capacitors. One capacitor provides power to the fan motor. The other sends power to the compressor. Run capacitors measure in at approximately 7-9 micro-Farads. The value or rating of the run capacitor must be accurate. If the value is too high, the phase shift will be less than perfect and the winding current will be too high. If the capacitor value/rating is too low, the phase shift will be higher and the winding current will be too low. If run capacitors are not ideal, then the motor could overheat and the true torque will not be enough to drive current.
Klima Running Capacitor CBB65 50+5µF 370-450VAC
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Offer ends in:
Klima Running Capacitor CBB65 50+5µF 370-450VAC
Klima Running Capacitor CBB65 50+5µF 370-450VACT-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A run capacitor uses the charge in the dielectric to boost the current which provides power to the motor. It is used to maintain a charge. In AC units, there are dual run capacitors. One capacitor provides power to the fan motor. The other sends power to the compressor. Run capacitors measure in at approximately 7-9 micro-Farads. The value or rating of the run capacitor must be accurate. If the value is too high, the phase shift will be less than perfect and the winding current will be too high. If the capacitor value/rating is too low, the phase shift will be higher and the winding current will be too low. If run capacitors are not ideal, then the motor could overheat and the true torque will not be enough to drive current.
Klima Running Capacitor CBB65 35µF 370-450VAC
Klima Running Capacitor CBB65 35µF 370-450VAC
Hurry Up!
Offer ends in:
Klima Running Capacitor CBB65 35µF 370-450VAC
Klima Running Capacitor CBB65 35µF 370-450VACT-Max 21+85C 50/60Hz 25/85/21
100000 AFC
400V-DB HSFNT 450V-DB
Manufactured By Klima
DESCRIPTION
A run capacitor uses the charge in the dielectric to boost the current which provides power to the motor. It is used to maintain a charge. In AC units, there are dual run capacitors. One capacitor provides power to the fan motor. The other sends power to the compressor. Run capacitors measure in at approximately 7-9 micro-Farads. The value or rating of the run capacitor must be accurate. If the value is too high, the phase shift will be less than perfect and the winding current will be too high. If the capacitor value/rating is too low, the phase shift will be higher and the winding current will be too low. If run capacitors are not ideal, then the motor could overheat and the true torque will not be enough to drive current.
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