Completed Circuit Simulations

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PSpice to KiCad Converter

This feature converts a schematic file created using PSpice® to KiCad format. The converted schematic file is compatible with KiCad for PCB layout. You can also create a netlist and simulate using Ngspice. The source code for this converter is available here.

How to convert?

  1. Login to eSim website here.

  2. Upload the PSpice Schematic files by clicking here.    

  3. The PSpice schematic should be in standard format. Refer here, for a few PSpice schematic samples.

  4. Your files will be converted to the KiCad schematic format. Once the conversion is complete, you will be intimated through your registered email id.

  5. You can use the KiCad schematic further for Simulation and for PCB generation. Follow the instructions here.

  6. Converted files after verification are made available for download in the table below.

  7. We welcome your contributions to this page

NoName of the Circuit
117Voltage Regulator using LM7805 IC
116Clipper Circuit
115Characteristics of Capacitor Charging
114Current Controlled Voltage Source
113Current Controlled Voltage Source with RLC
112RLC circuit characteristics
111Diode VI charachteristics
110Cascaded BJTs
109Forward biased diode
108Fixed Biased Transistor
107Fixed Biased Transistor without Re
106Halfwave Rectifier
105Integrator using Opamp
104Integrator
103Inverting Amplifier using Opamp
102Low Pass Filter
101MOSFET Circuit
100MOSFET RLC Circuit
99Mutual Inductance
98Analysis and Calculation of Node voltages
97Analysis of Norton's Theorem
96Analysis of Ohm's Law
95Parallel RLC circuit combination
94Potential Difference Analysis
93Use of switch for circuit reset
92Precision Rectifier
91Q point calculation
90RC circuit
89Parallel RC circuit combination
88Parallel RC circuit combination with a switch
87RC circuit with sine as input
86Regulator using Zener Diode
85Resonance Circuit
84RLC circuit characteristics with AC input
83RLC circuit
82RLC circuit with DC input
81RL circuit characteristics
80RLC with PWL signal input
79Parallel RL circuit characteristics
78RL circuit characteristics with sine wave input
77Sample and Hold circuit
76Series RLC circuit characteristics
75Summing amplifier
74RC circuit with a switch
73Three Phase Power Supply
72Transformer Characteristics
71Characteristics of Transformer with Inductor
70Voltage controlled Current Source
69Voltage controlled Voltage Source
68Voltage controlled Voltage Source circuit analysis
67Voltage controller voltage source current measurement
663_PHASE_DIODE_BRIDGE_RECTIFIER
65AC_THROUGH_RL_SERIES_CIRCUIT
64AC_THROUGH_SERIES_RC_CIRCUIT
63ACTIVE_NOTCH_FILTER
62CE_AMPLI_ONE_STAGE
61Clipping_below_the_Reference_level
60CURRENT_DIVISION_THEOREM
59Diode_characteristics
58Diode_Clamping_Circuit
57DIODE_CLIPPING_CIRCUIT_ABOVE_REFERNCE_LEVEL
56DIODE_SHUNT_CLIPPING_CIRCUIT
55DOUBLE_ENDED_DIFFERENTIAL_AMPLIFIER_USING_BJT
54DOUBLE_ENDED_DIFFERENTIAL_AMPLIFIER_USING_JFET
53FIRST_ORDER_LOW_PASS_BUTTERWORTH_ACTIVE_FILTER
52First_order_HPF
51HALF_WAVE_CONTROLLED_RECTIFIER
50HALF_WAVE_CONTROLLED_RECTIFIER_WITH_R_LOAD
49IC-555_AS_ASTABLE_MULTIVIBRATOR_WITH_DUTY_CYCLE_CONTROL
48IC555_AS_MONOSTABLE_MULTIVIBRATOR
47Implementation_of_TTL_inverter_gate_using_BJTs
46Implementation_of_TTL_OR_NOR_logic_gate_using_BJTs
45OP-AMP_IC741_VOLTAGE_TO_CURRENT_CONVERTER
44PID_CONTROLLER
43PRECISION_FULL_WAVE_RECTIFIER
42PRECISION_HALF_WAVE_RECTIFIER
41RC_Integrator
40REALISATION_OF_SR_FLIP_FLOP_USING_NAND_GATES
39RECTIFIER_WITH_FILTER
38SECOND_ORDER_LOW_PASS_BUTTERWORTH_ACTIVE_FILTER
37Shunt_clipper
36SINGLE_ENDED_DIFFERENTIAL_AMPLIFIER_USING_BJT
35SINGLE_PHASE_FULLY_CONTROLLED_RECTIFIER_WITH_CENTER_TAP_TRANSFORMER
34STUDY_OF_3_BIT_RIPPLE_COUNTER_USING_JK_FLIP_FLOP
33Study_of_Basic_IC_Logic_gates
32Study_of_preemphasis_and_Deemphasis_circuit
31Study_of_Pulse_Position_Modulation
30STUDY_OF_COLLPITTS_OSCILLATOR
29STUDY_OF_HALF_and_FULL_ADDER
28STUDY_OF_SERIES_AND_PARALLEL_CONNECTION_OF_RESISTORS
27STUDY_OF_RLC_PARALLEL_CIRCUIT
26STUDY_OF_RLC_SERIES_CIRCUIT
25STUDY_OF_SUPERPOSITION_THEOREM
24TO_FIND_Z_PARAMETERS
23Summing_Ampifier
22Two_Level_Clipper
21WIDE_BAND_PASS_FILTER
20VERIFICATION_OF_KCL
19VERIFICATION_OF_KVL
18TWO_STAGE_TRANSISTOR_AMPLIFIER
17TWO_STAGE_TRANSISTOR_AMPLIFIER_with_Shunt_Series_Feedback
16TRANSISTOR_PHASE_SHIFT_OSCILLATOR
15TRANSISTOR_CLIPPER_CIRCUIT
14TO_DEMONSTRATE_AC_THROUGH_PURE_R_L_AND_C
13TO_DEMONSTRATE_SCR_CHARACTERSTICS
12TO_DEMONSTRATE_SOURCE_CONVERSION_TECHNIQUES
11TO_DEMONSTRATE_THEVENIN_THEOREM_FOR_DC
10TO_FIND_EQUIVALENT_RESISTANCE
9To_study_full_wave_Rectifier_with_L_and_LC_filter
8To_study_halfwave_Rectifier_with_and_without_capacitor_filter
7To_study_the_characteristics_of_Zener_Diode
6TO_STUDY_MESH_ANALYSIS
5TO_STUDY_NODAL_ANALYSIS
4TO_STUDY_NORTON_THEOREM_FOR_AC_CIRCUITS
3TO_STUDY_SUPERPOSITION_THEOREM_FOR_AC_CIRCUITS
2TO_STUDY_THEVENIN_THEOREM_FOR_AC_CIRCUITS
1TO_VERIFY_MAXIMUM_POWER_TRANSFER_THEOREM