EPG SCIENTIFIC INSTRUMENTS
Scientific Instrumentation for Entomology
We design and manufacture high-resolution electrophysiology equipment specifically engineered for insect feeding behavior studies. Our systems are the global standard for researchers decoding the complex interactions between pests, host plants, and viral pathogens.
Explore our integrated systems and precision accessories below — your starting point for advanced behavioral phenotyping.
Key Product Lines
Explore our specialized range of electrophysiology instruments engineered for precision insect entomology research.
Complete EPG Systems
Integrated multi-channel setups designed for comprehensive behavioral screening and large-scale plant resistance studies.
Entry-Level Systems
Optimized 1-2 channel units providing high-fidelity signal acquisition for targeted insect-pathogen interaction research.
High-Throughput Platforms
Advanced automated platforms designed for screening insecticide efficacy across multiple insect cohorts simultaneously.
Educational Kits
Durable, simplified setups ideal for university teaching labs and introductory entomology electrophysiology courses.
Why Researchers Choose EPG Scientific
Unrivaled Signal Quality
Ultra-low noise amplification ensures the detection of minute feeding waveforms across diverse insect models.
Intuitive Lab Setup
Streamlined hardware interfaces allow new researchers to deploy and calibrate EPG systems with minimal downtime.
Global Scientific Trust
Adopted by the USDA and top-tier academic entomology labs globally for over four decades of research.
Reliable Reproducibility
Standardized recording protocols and precision hardware guarantee consistent, peer-review-ready results.
Broad Compatibility
Engineered for seamless integration with standard entomology models, including psyllids, aphids, and whiteflies.
Advanced Analytics
Native software compatibility ensures automated categorization of complex behavioral waveforms for efficient analysis.
Application Examples
Screening Plant Resistance
Quantify insect probing behavior on various cultivars to identify resistant traits. Our systems detect subtle shifts in feeding duration and phloem ingestion.
Studying Virus Transmission
Map the precise timing of salivation and ingestion to correlate EPG waveforms with viral inoculation and acquisition efficiency in vector insects.
Evaluating Insecticides
Analyze the sub-lethal effects of insecticides on feeding behavior and efficacy. Perfect for screening new compounds for anti-feedant activities.
Precision Results for Your Lab
Our team of engineers is ready to support your next research breakthrough with specialized instrumentation and technical expertise.