0.00001µF = 0.01nF = 10pF Ceramic Capacitor (10pf)
Formula:
0.00001µF = 0.01nF = 10pF
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) nanoFarads (nF) picoFarads (pF)
0.000001µF = 0.00..
0.0001µF = 0.1nF = 100pF = 101pF Ceramic Bipolar Capacitor (100pf)For example, 101 represents 100 pF: the digits 10 followed by one additional zero. If there are only two digits listed, the number is simply the capacitance in pF. Thus, the digits 22 indicate a 22 pF capacitor.
Formula:
0.0001µF = ..
0.00022µF = 0.22nF = 22pF Ceramic Capacitor (22pf)
Formula:
0.00022µF = 0.22nF = 22pF
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) nanoFarads (nF) picoFarads (pF)
0.000001µ..
0.00027µF = 0.27nF = 27pF Ceramic Bipolar Capacitor (27pf)
Formula:
0.00027µF = 0.27nF = 27pF
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) nanoFarads (nF) picoFarads (pF)
0..
0.00033µF = 0.33nF = 33pF Ceramic Capacitor (33pf)
Formula:
0.00033µF = 0.33nF = 33pF
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) nanoFarads (nF) picoFarads (pF)
0.000001µ..
0.00039µF = 0.39nF = 39pF Ceramic Capacitor (39pf)
Formula:
0.00039µF = 0.39nF = 39pF
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) nanoFarads (nF) picoFarads (pF)
0.000001µ..
47 pF Ceramic Disc Capacitor (47)
47 pF Ceramic Capacitor (473)
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) nanoFarads (nF) picoFarads (pF)
0.000001µF = 0.001nF = 1pF..
0.001 µF Ceramic Disc Capacitor (102)
0.001 µF Ceramic Capacitor (102)
Formula:
102 = 0.001mfd = 10*102 = 103pf = 1kpf = 1nf
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
mic..
0.01 µF Ceramic Disc Capacitor (103)A ceramic capacitor is a fixed-value capacitor where the ceramic material acts as the dielectric. It is constructed of two or more alternating layers of ceramic and a metal layer acting as the electrodes. The composition of the ceramic material defines the electri..
0.1 µF Ceramic Disc Capacitor (104)
0.1 µF Ceramic Capacitor (104)
Formula:
104 = 0.1mfd = 10*104 = 105pf = 100nf
General Calculation:
The value of this unit is considered too basic, so the unit farad is reduced again to the units as follows:
microfarads (µF) na..
Electrolytic capacitors for usage in electrial and electronic circuits
If your requirement doesn't meet voltage stated above, still you can use this capacitor.
Example- Suppose you need 16volt or 25volt capacitor than you may also use 63volt capacitor. (not applicable in case of timer..
Electrolytic capacitors for usage in electrial and electronic circuits
If your requirement doesn't meet voltage stated above, still you can use this capacitor.
Example- Suppose you need 63volt capacitor than you may also use 63volt capacitor, in most of the cases. (not applicable in case o..