Embedded Files
- Tap in a space enabled in the circuit matrix
- Select the item type from the list
- The types of available elements are the following:
- Voltage Source
- Current Source
- Resistors
- Inductor
- Capacitor
- Resistor with Inductor in series
- Resistor with serial capacitor
- Closed circuit
- Open circuit
- In AC mode, complex numbers are used mathematically and certain values are entered as complex numbers
- Complex numbers are entered in their polar or rectangular notation
- In AC mode, each type of element requires different information:
- Enter a voltage source:
- If the type of coordinates is Rectangular enter the components Vx and Vy
- If the coordinate type is Polar enter the V module and the offset angle
- Define the polarity of the element with the polarity change button
- Define the type of coordinates with the coordinate change button
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Enter a current source:
- If the type of coordinates is Rectangular enter the components Ix and Iy
- If the coordinate type is Polar enter the V module and the offset angle
- Define the polarity of the element with the polarity change button
- Define the type of coordinates with the coordinate change button
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Enter a Resistance:
- Enter the value of the resistance in Ohms, this value is entered independent of the type of coordinates
- Define the type of coordinates with the coordinate change button
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Enter an Inductor:
- Enter the inductive reactance "Xl" in Ohms. This value is the same regardless of the type of coordinates configured
- The inductance "L" is calculated based on the inductive reactance and the frequency
- When switching the change button "Xl" to "L" it is possible to change the inductance "L" and the inductive reactance is calculated
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Changing the frequency changes the inductance "L" (inductive reactance "Xl" fixed) or the inductive reactance "Xl" (inductance "L" fixed), depending on the status of the frequency change function button
- Enter a Capacitor:
- Enter the capacitive reactance "Xc" in Ohms. This value is the same regardless of the type of coordinates configured
- Capacitance "C" is calculated based on capacitive reactance and frequency
- When switching the change button "Xc" to "C" it is possible to change the capacitance "C" and the capacitive reactance is calculated
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Changing the frequency changes capacitance "C" (fixed inductive reactance "Xc") or the inductive reactance "Xc" (fixed capacitance "C"), depending on the status of the frequency change function button
- Enter a Resistor in series with an Inductor:
- If the configured type of coordinates is rectangular, enter the resistance and the inductive reactance "Xl" in Ohms.
- If the configured coordinate type is polar, enter the module in ohms and the offset angle between "R" and "Xl"
- The inductance "L" is calculated based on the inductive reactance and the frequency
- When switching the change button "Xl" to "L" it is possible to change the inductance "L" and the inductive reactance is calculated
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Changing the frequency changes the inductance "L" (inductive reactance "Xl" fixed) or the inductive reactance "Xl" (inductance "L" fixed), depending on the status of the frequency change function button
- Enter Resistor in series with a Capacitor:
- If the configured type of coordinates is rectangular, enter the capacitive reactance "Xc" in Ohms. This value is the same regardless of the type of coordinates configured
- If the configured type of coordinates is polar, enter the module in ohms and the offset angle between "R" and "Xc"
- Capacitance "C" is calculated based on capacitive reactance and frequency
- When switching the change button "Xc" to "C" it is possible to change the capacitance "C" and the capacitive reactance is calculated
- It is possible to change the frequency of the circuit initially entered when creating the circuit
- Changing the frequency changes capacitance"C" (inductive reactance "Xc" fixed) or the inductive reactance "Xc" (capacitance "C" fixed), depending on the status of the frequency change function button
- Enter short circuit:
- Select the short circuit from the list of elements
- Connect the selected element nodes
- Enter an open circuit
- Select from the list of elements the open circuit
- The app only reconnects an open branch if it is selected explicitly. Do not connect elements it is considered that the circuit is not well formed
- After entering the data tap on the action button located in the upper right corner
- The element in the circuit will show the element in the previously selected space
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