Capacitor 12000 uF 40v radial screw term
Aluminum electrolytic capacitor 12000 uF @ 40v radial screw terminals
- Capacitance: 12000uF
- Capacitance tolerance:+75, -10 %
- Working voltage, DC:40V
- Terminal type: radial screw terminal lead
- Series:36D
Reference:
- DCMX123U040AA2B
- 36D123G040BC2A
- CGS123U040V2C
CAPACITOR STORAGE AND USE GUIDELINES
To ensure a safe use and optimum performance, here are some tips for handling electrolytic capacitors.
OPERATING FREQUENCY: Capacitance decreases and dissipation factor increases as applied frequency increases. Be sure to check operating frequency.
STORAGE: Capacitors can be stored for long periods with little or no effect on capacitance or dissipation. However, leakage current increases and the capacitor's ability to withstand voltage may decrease. Any capacitors that have been stored for long periods of time should have DC voltage treatment applied.
USE OF BIPOLAR CAPACITORS: Use bipolar capacitors only in pulse circuits and polarity reversed circuits. Do not use them in pure DC or high ripple current circuits.
POLARITY: Be sure of the polarity. If reversed voltage is applied, it may cause a short circuit or damage the capacitor. In general, the polarity markings are on the side of the capacitor.
DC ELECTROLYTIC CAPACITORS: DC electrolytic capacitors can not be used for AC applications.
RATED VOLTAGE: Leakage current increases if the voltage applied exceeds the rated voltage. This will damage the capacitor. The recommended operating voltage is 70-80% of the rated voltage.
INSULATION OF THE CAPACITOR CASE: The cathode terminal and capacitor case connect through the electrolyte. To completely insulate the case, the insulation must be at the mounting point of the capacitor.
RIPPLE CURRENT: A higher ripple current greater than the rated value may cause heating of the capacitor. This may damage the capacitor and decrease capacitance. Ripple current should be at or below the allowable level (generally not more than 80% of the rated current).
RAPID CHARGE/DISCHARGE: In circuits where conditions include rapid charge and discharge, use specially designed capacitors to avoid damaged capacitors.
OPERATING TEMPERATURE: Capacitor characteristics are affected by operating temperature. At higher temperatures, the leakage current increases and the dissipation factor decreases.
CAPACITOR LIFE: The life expectancy of an electrolytic capacitor is directly related to the ambient temperature. Reducing the ambient temperature by 10ºC may double the life expectancy at its rated voltage.