Egs002 Proteus Library -

The EGS002 Proteus library is a critical resource for engineers and hobbyists looking to simulate pure sine wave inverters within the Proteus Design Suite. Because the EGS002 driver board is not included in the standard Proteus component database, users must import external library files to accurately model its EG8010 control chip and IR2110S/IR2113 driver ICs. Understanding the EGS002 Driver Board

The EGS002 is a specialized SPWM (Sinusoidal Pulse Width Modulation) driver board designed for single-phase pure sine wave inverters. Its primary features include:

Core Logic: Powered by the EG8010 ASIC, which generates highly accurate 50/60Hz pure sine waves with low harmonic distortion.

Gate Driving: Uses IR2110S or IR2113 driver ICs to switch high-power MOSFETs or IGBTs in an H-bridge configuration. egs002 proteus library

Protection Suites: Built-in safeguards for overvoltage, undervoltage, overcurrent, and over-temperature.

Customization: Support for soft-start modes, dead-time adjustment, and serial communication for parameter tuning. How to Get the EGS002 Proteus Library

Since there is no "official" Labcenter-provided model, you can obtain the library through these methods: EGS002 Sinusoid Inverter Driver Board User Manual The EGS002 Proteus library is a critical resource

Key features & benefits

  • Time savings: Avoid recreating repetitive parts; reduces error risk in symbol-pin mapping and footprint mismatches.
  • Simulation-ready: Enables early verification of logic, timing, and basic electrical behavior in Proteus before hardware fabrication.
  • Manufacturing alignment: Footprints match typical vendor mechanical specs to prevent layout rework.
  • Educational clarity: Symbols and examples illustrate how to interface drivers/relays with microcontrollers safely.

Conclusion: Master Your Inverter Design with the Right Library

The quest for a working EGS002 Proteus library is a rite of passage for inverter designers. While the installation can be finicky, the payoff is enormous: you can debug MOSFET shoot-through, tune feedback loops, and verify dead-time settings—all before soldering a single component.

By following the steps laid out in this guide (downloading from trusted forums, manually installing to LIBRARY and MODELS, and configuring the FLT and VFB pins), you can unlock the full potential of Proteus for power electronics simulation.

Call to Action: Have you found a newer or more stable EG8010 model for Proteus 9? Share the link in the comments below to help the engineering community. For more tutorials on SPWM design and simulation, subscribe to our newsletter. Conclusion: Master Your Inverter Design with the Right

5. Where to Find a Decent Symbol (Non-simulating)

  • Proteus 8 Professional – Search EGS002 in Pick Devices (some custom libraries added by users)
  • GitHub – Search "EGS002 Proteus library" (check Proteus-Libraries repos)
  • The Engineering Projects (website) – Has a download link

⚠️ Always scan downloaded .IDX / .LIB files for malware.

Part 1: What is the EGS002? (A Refresher)

Before discussing the library, we must understand the hardware being simulated.

The EGS002 is a driver board that integrates three key components:

  1. EG8010: A CMOS LSI chip designed specifically for single-phase sine wave inverters. It outputs high-purity SPWM signals.
  2. IR2110S: Two high-low side gate driver ICs to boost the logic signals to 15V for driving MOSFET H-bridges.
  3. Onboard circuitry: Includes dead-time generation (2ns to 4.5µs), 5V voltage regulator, and current/voltage feedback loops.

Why simulate it? Without simulation, a mistake in an inverter design (e.g., shoot-through) can destroy a dozen MOSFETs instantly. Simulating the EGS002 in Proteus saves time, money, and components.