What is the value of 101 capacitor?

What is the value of 101 capacitor?

Capacitor Letter Codes Table

Picofarad (pF) Nanofarad (nF) Code
100 0.1 101
120 0.12 121
130 0.13 131
150 0.15 151

What does 101 on a capacitor mean?

100 pF
The resulting number is the capacitance in pF. 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.

How do you calculate 104 capacitor?

For code 104, the third digit is 4, so you have to write 0000 (4 zeros) after the 10 (first two-digit). So the capacitance value for 104 will be 100000 picofarads or 100 nanofarads or 0.1 microfarad.

What is 100pF capacitor?

This is a 100pF Ceramic Capacitor Use this capacitor for power decoupling, having a smooth power in your circuit, timing circuits etc. It is always a good idea to put one of these next to the power pins of a microcontroller.

How to read capacitor code value?

The number printed on the capacitor’s body represents the capacitance value in Pico Farads. For example,8 = 8PF

  • If the third number is zero,then the value is in Picofarad For example,100 = 100PF
  • For a 3-digit value,the third digit represents the number of zeros after the second digit For example,104 = 10 – 0000 PF
  • How do you replace a capacitor?

    Panasonic

  • LS Mtron
  • Skeleton Technologies
  • NEC TOKIN
  • Korchip
  • NICHICON
  • Rubycon
  • ELNA
  • Kemet
  • Shanghai Aowei Technology
  • How to read ceramic capacitor values?

    The first symbol shows minimum temperature. Z = 10ºC,Y = -30ºC,X = -55ºC.

  • The second symbol shows maximum temperature. 2 = 45ºC,4 = 65ºC,5 = 85ºC,6 = 105ºC,7 = 125ºC.
  • The third symbol shows variation in capacitance across this temperature range. This ranges from the most precise,A = ±1.0%,to the least precise,V =+22.0%/-82%.
  • What is the value of a capacitor?

    Capacitor values can be of over 10 9 range, and even more as super capacitors are now being used. To prevent confusion with large numbers of zeros attached to the values of the different capacitors the common prefixes pico (10-12), nano (10-9) and micro (10-6) are widely used. When converting between these it is sometimes useful to have a