Plot as CSV… . To recreate the results of simulations stored in a workbook, select the appropriate analysis tab in the Simulator window and run the simulation again ( or Simulation → Run Simulation). Running the available analysis types: OP — DC Operating Point DC — DC Sweep Analysis AC — AC Small-signal Analysis TRAN — Transient Analysis PZ — Pole-zero Analysis NOISE — Noise Analysis SP — S-parameter S-parameter Analysis FFT — (Fourier Transform) Frequency-content Analysis These analysis types are explained in detail in the ngspice documentation. Another way to configure a simulation is to type SPICE directives

Plot as CSV… . To recreate the results of simulations stored in a workbook, select the appropriate analysis tab in the Simulator window and run the simulation again ( or Simulation → Run Simulation). Running the available analysis types: OP — DC Operating Point DC — DC Sweep Analysis AC — AC Small-signal Analysis TRAN — Transient Analysis PZ — Pole-zero Analysis NOISE — Noise Analysis SP — S-parameter S-parameter Analysis FFT — (Fourier Transform) Frequency-content Analysis These analysis types are explained in detail in the ngspice documentation. Another way to configure a simulation is to type SPICE directives

Sim Command button ( ) and then selecting one of the available analysis types: AC DC Transfer Operating Point Transient Custom Analysis types are further explained in the ngspice documentation. An ). Ctrl R 140 AC analysis Calculates the small signal AC behavior of the circuit in response to a stimulus. Performs a decade sweep of stimulus frequency. To run an AC analysis, you must choose a 141 DC transfer analysis Calculates the DC behavior of the circuit while sweeping one or two sources (voltage or current), resistors, or the simulation temperature. To run a DC analysis, you must choose

Plot as CSV… . To recreate the results of simulations stored in a workbook, select the appropriate analysis tab in the Simulator window and run the simulation again ( or Simulation → Run Simulation). 运行仿真 the available analysis types: OP — DC Operating Point DC — DC Sweep Analysis AC — AC Small-signal Analysis TRAN — Transient Analysis PZ — Pole-zero Analysis NOISE — Noise Analysis SP — S-parameter S-parameter Analysis FFT — (Fourier Transform) Frequency-content Analysis These analysis types are explained in detail in the ngspice documentation. Another way to configure a simulation is to type SPICE directives

or the Sim Command button ( ) and then selecting one of the available analysis types: 交流 直流传输 Operating Point 瞬态 自定义 Analysis types are further explained in the ngspice documentation. An alternative ). Ctrl R 134 AC analysis Calculates the small signal AC behavior of the circuit in response to a stimulus. Performs a decade sweep of stimulus frequency. To run an AC analysis, you must choose a 135 DC transfer analysis Calculates the DC behavior of the circuit while sweeping one or two sources (voltage or current), resistors, or the simulation temperature. To run a DC analysis, you must choose

simulator interface has been expanded and overhauled. The simulator tool now supports several new analysis types (FFTs, noise simulations, pole-zero simulations, and s-parameter analyses). The simulator mathematical operations, and the cursor and waveform measurement tools have been improved. Operating point analysis results can be displayed on the schematic itself to show the simulated operating point of each

simulator interface has been expanded and overhauled. The simulator tool now supports several new analysis types (FFTs, noise simulations, pole-zero simulations, and s-parameter analyses). The simulator mathematical operations, and the cursor and waveform measurement tools have been improved. Operating point analysis results can be displayed on the schematic itself to show the simulated operating point of each

tab is used to assign a power or signal source model. There are two sections: DC/AC analysis and Transient analysis. Each defines source parameters for the corresponding simulation type. Source type option

tab is used to assign a power or signal source model. There are two sections: DC/AC analysis and Transient analysis. Each defines source parameters for the corresponding simulation type. Source type

tab is used to assign a power or signal source model. There are two sections: DC/AC analysis and Transient analysis. Each defines source parameters for the corresponding simulation type. Eeschema 153