For engineers and students who design electric and electronic circuits

The calculable circuits are as follows:

 

1. Series Circuits

2. Parallel Circuits

 

All circuits are capable of calculating up to 4 capacitors.


  • Calculate divided capacitance values in entering a combined capacitance values
  • Display capacitance values corresponded to a selected E-series number (E6 ~ E24)
  • Only tap on a unit button directly when a unit of capacitance is changed (pF or nF or µF)
  • Correspond to specified capacitance values of less than 10pF by a selectable switch
  • Display current and power of each capacitor when input voltage is entered in the detail page

The calculable series circuits are 2, 3 and 4 capacitors.

 

Procedure of capacitance calculation (2 capacitors)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF of µF)

3. Display calculation result

* When you want to calculate 3 or 4 capacitors, you just swipe the middle of the page.


Procedure of capacitance calculation (3 capacitors)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF or µF)

3. Display calculation result

* When you want to calculate 2 or 4 capacitors, you just swipe the middle of the page.


Procedure of capacitance calculation (4 capacitors)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF or µF)

3. Display calculation result

* When you want to calculate 2 or 3 capacitors, you just swipe the middle of the page.


Procedure of capacitance calculation (Auto display page)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF or µF)

3. Display calculation result

 

The display switches from 2 capacitors to 4 capacitors according to result that reduce a tolerance of combined capacitance value (C0) to minimum.

* When you want to calculate fixed 2, 3 or 4 capacitors, you just swipe the middle of the page.


In the previous page, push "Details" button, and then move to this page.

In this page, display calculated C0, and calculate current and power of each capacitor when input voltage (Vin) and ESR (Equivalent Series Resistance) values.

 

Procedure of current and power calculation

 

1. Enter input voltage (Vin) in the frame and select unit button (µV or mV or V)

2. Enter ESR (Equivalent Series Resistance) values into each symbol (C1 or C2 or C3)

3. Display calculate current and power of each capacitor

* When you want to view voltage value of each capacitor, please push each symbol (P1 or P2 or P3).

* C1, C2 and C3 have set 100mΩ as ESR.

 


In this application, the following capacitance values of less than 10pF can be applied by a selectable switch.

 

Capacitance:

E6: 1pF, 2pF, 3pF, 5pF, 7pF

E12: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF

E24: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF, 9pF


  • Calculate divided capacitance values in entering a combined capacitance values
  • Display capacitance values corresponded to a selected E-series number (E6 ~ E24)
  • Only tap on a unit button directly when a unit of capacitance is changed (pF or nF or µF)
  • Correspond to specified capacitance values of less than 10pF by a selectable switch
  • Display current and power of each capacitor when input voltage is entered in the detail page

The calculable parallel circuits are 2, 3 and 4 capacitors.

 

Procedure of capacitance calculation (2 capacitors)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF of µF)

3. Display calculation result

* When you want to calculate 3 or 4 capacitors, you just swipe the middle of the page.


Procedure of capacitance calculation (3 capacitors)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF or µF)

3. Display calculation result

* When you want to calculate 2 or 4 capacitors, you just swipe the middle of the page.


Procedure of capacitance calculation (4 capacitors)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF or µF)

3. Display calculation result

* When you want to calculate 2 or 3 capacitors, you just swipe the middle of the page.


Procedure of capacitance calculation (Auto display page)

 

1. Select E-series number (E6 ~ E24)

2. Enter combined capacitance value (C0) in the frame and select unit button (pF or nF or µF)

3. Display calculation result

 

The display switches from 2 capacitors to 4 capacitors according to result that reduce a tolerance of combined capacitance value (C0) to minimum.

* When you want to calculate fixed 2, 3 or 4 capacitors, you just swipe the middle of the page.


In the previous page, push "Details" button, and then move to this page.

In this page, display calculated C0, and calculate current and power of each capacitor when input voltage (Vin) and ESR (Equivalent Series Resistance) values.

 

Procedure of current and power calculation

 

1. Enter input voltage (Vin) in the frame and select unit button (µV or mV or V)

2. Enter ESR (Equivalent Series Resistance) values into each symbol (C1 or C2 or C3 or C4)

3. Display calculate current and power of each capacitor

* When you want to view current value of each capacitor, please push each symbol (P1 or P2 or P3 or P4).

* C1, C2, C3 and C4 have set 100mΩ as ESR.

 


In this application, the following capacitance values of less than 10pF can be applied by a selectable switch.

 

Capacitance:

E6: 1pF, 2pF, 3pF, 5pF, 7pF

E12: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF

E24: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF, 9pF


Because standard capacitors are used and precision of calculation is ensured, the following restrictions are set up.

  • Range of capacitance value: 1pF ~ 100µF

"< 1pF" is displayed when capacitance value is less than 1pF, "> 100µF" is displayed when capacitance value is more than 100µF.

  • Range of capacitance ratio (C1/C2 or C1/C3 or C1/C4 or C2/C3 or C2/C4 or C3/C4) : 0.1 ~ 10

It has restricted so that it may become the above range automatically by the input text box.


Series Circuits


Selectable E-series number

E6, E12, E24


(Applied specified capacitance values of less than 10pF)

E6: 1pF, 2pF, 3pF, 5pF, 7pF

E12: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF

E24: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF, 9pF


Input range

Capacitance: 0.001pF ~ 99999µF


Details page

Voltage: 0.001µV ~ 99999V


Output range

Capacitance: 1pF ~ 100µF


Details page

Voltage: 0V ~ 99999V

Current: 0A ~ 99999YA

Power: 0W ~ 99999YW


Accuracy

2 capacitors

E6: ±6.30%

E12: ±2.05%

E24: ±0.858%


(Applied specified capacitance values of less than 10pF)

E6: ±9.10%

E12: ±9.10%

E24: +9.10%


3 capacitors

E6: ±2.64%

E12: ±0.568%

E24: ±0.149%


(Applied specified capacitance values of less than 10pF)

E6: ±2.97%

E12: ±1.66%

E24: ±1.63%


4 capacitors

E6: ±1.04%

E12: ±0.180%

E24: ±0.0184%


(Applied specified capacitance values of less than 10pF)

E6: ±1.60%

E12: ±0.604%

E24: ±0.348%


Parallel Circuits


Selectable E-series number

E6, E12, E24


(Applied specified capacitance values of less than 10pF)

E6: 1pF, 2pF, 3pF, 5pF, 7pF

E12: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF

E24: 1pF, 2pF, 3pF, 4pF, 5pF, 6pF, 7pF, 8pF, 9pF


Input range

Capacitance: 0.001pF ~ 99999µF


Details page

Voltage: 0.001µV ~ 99999V


Output range

Capacitance: 1pF ~ 100µF


Details page

Voltage: 0V ~ 99999V

Current: 0A ~ 99999YA

Power: 0W ~ 99999YW


Accuracy

2 capacitors

E6: ±6.30%

E12: ±2.08%

E24: ±1.05%


(Applied specified capacitance values of less than 10pF)

E6: ±11.2%

E12: ±5.27%

E24: ±4.77%


3 capacitors

E6: ±2.65%

E12: ±0.741%

E24: ±0.351%


(Applied specified capacitance values of less than 10pF)

E6: ±4.35%

E12: ±2.86%

E24: ±2.84%


4 capacitors

E6: ±1.23%

E12: ±0.322%

E24: ±0.209%


(Applied specified capacitance values of less than 10pF)

E6: ±2.71%

E12: ±1.97%

E24: ±1.91%