: Built-in over-voltage, under-voltage, over-current, and over-heating protection. Essential Pin Functions VCC & GND : logic power supply input. VB & VS : High-side floating supply voltage pins. 1LO, 2LO : Low-side gate drive outputs. 1HO, 2HO : High-side gate drive outputs. IFB : Current feedback pin for over-current protection. VFB : Voltage feedback pin for output voltage regulation. TFB : Temperature feedback pin. 2. Acquiring the EGS002 Proteus Library
In a real-world circuit, the EGS002 connects to a power H-bridge to convert DC into AC. Simulating this before soldering prevents costly "magic smoke" moments. How to Install the EGS002 Proteus Library
Once your EGS002 symbol is available, it is time to wire it into a complete sine‑wave inverter. A typical EGS002 inverter design includes the following stages:
Link the gate drive outputs of your EGS002 model to the MOSFET gates: to Q1 Gate (High-side left) LO1 to Q2 Gate (Low-side left) HO2 to Q3 Gate (High-side right) LO2 to Q4 Gate (Low-side right) 4. Designing the LC Low-Pass Filter egs002 proteus library
+---------------------------------------------+ | EGS002 | | +------------+ +------------+ | | | EG8010 |--SPWM Out-->| IR2113S | | | | (MCU/ASIC) |<--Feedback--| (Gate Drv) | | | +------------+ +------------+ | +---------------------------------------------+ | | Control Pins Power Stage The EG8010 SPWM Controller
Link the H-Bridge output nodes to the input of your LC filter.
Connect a 4-channel virtual to track conversion stages: 1LO, 2LO : Low-side gate drive outputs
Close all active windows of Proteus and relaunch the software to re-index the library database. Setting Up the Simulation Circuit
Connect the control outputs to two or IR2110 device models found in the standard Proteus library.
This article provides a deep dive into what the EGS002 library is, how to install it, configure the EG8010 simulation model, and troubleshoot common errors. VFB : Voltage feedback pin for output voltage regulation
Restart Proteus and open the Pick Devices window ( P shortcut). Search for "EGS002" or "EG8010" to verify the installation. Alternative: Building a Functional Sub-Circuit Block
Before running simulations, it is vital to map the library's software pins to the physical module's functions. The EGS002 uses a 17-pin single-inline footprint. EGS002 Symbol, Footprint & 3D Model by EGmicro - SnapMagic
Since you cannot simulate the complete EGS002 module as a single black box, the most effective method is to accurately recreate its key functions using the individual components available in the Proteus library. This approach provides the best balance of simulation accuracy and practicality. The table below outlines your options, explaining the key details for each approach.
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