High-speed switching combined with inductive loads often causes convergence errors. To fix this, navigate to System -> Set Simulation Options and change the simulator mechanism from MIXED to DIGITAL if applicable, or relax the tolerances by increasing GMIN and ABSTOL settings slightly.
You cannot find "EGS002" in the component picker of Proteus 8 or Proteus 9 out-of-the-box.
Connect a resistor () across the capacitor to simulate your AC load. Analysis and Verification via Virtual Instruments
Integrated pins for over-voltage, under-voltage, over-current, and over-temperature feedback loops. egs002 proteus library
Proteus does not include a native, pre-installed EGS002 model in its default component library. You must install a custom library or build a schematic equivalent. How to Install Third-Party Models
If Proteus was open, close and restart it to refresh the component database. Simulating the EGS002: Step-by-Step
Connect the drains of top-side MOSFETs (Q1, Q3) to the positive DC bus. Connect a resistor () across the capacitor to
Download the zipped package containing the schematic symbol ( .idx / .lib ), footprint, and companion 3D model. Method 2: Manual Library Path Deployment EGS002 Symbol, Footprint & 3D Model by EGmicro - SnapMagic
Which or components have you chosen for your power stage?
Pack these components into a sub-circuit block to act as your modular EGS002 board. Step-by-Step Power Stage Simulation Circuit You must install a custom library or build
Select four N-channel Power MOSFETs, such as the (for low voltage) or IRF840 (for high voltage). Arrange them in a classic H-bridge layout:
Place an microcontroller model (or use a generic MCU like an ATmega328P programmed to output equivalent SPWM signals).