RAYMING Eye Diagram Testing – Signal Quality Analysis

Comprehensive Digital Signal Integrity Verification for High-Speed Communication Systems

Our Eye Diagram Testing solution provides advanced signal quality analysis capabilities essential for validating high-speed digital communication systems. This sophisticated testing methodology visualizes signal integrity by overlaying multiple data transitions, creating the characteristic “eye” pattern that reveals critical performance parameters.

Key Features

Real-Time Signal Analysis

• Captures and analyzes high-speed digital signals up to 100 Gbps
• Simultaneous multi-channel testing for complex system validation
• Sub-picosecond timing resolution for precise measurements

Comprehensive Eye Pattern Metrics

• Eye height and width measurements for amplitude and timing margins
• Jitter analysis including random, deterministic, and total jitter characterization
• Rise/fall time measurements and overshoot/undershoot detection
• Signal-to-noise ratio (SNR) and bit error rate (BER) correlation

Advanced Measurement Capabilities

• Automated mask testing against industry standards (PCIe, USB, Ethernet, SATA)
• Statistical eye analysis with confidence intervals
• Stress testing under various environmental conditions
• Crosstalk and inter-symbol interference (ISI) evaluation

Applications

High-Speed Digital Design Perfect for validating SerDes interfaces, high-speed backplanes, and gigabit Ethernet implementations. Essential for ensuring signal integrity in data centers, telecommunications infrastructure, and high-performance computing systems.

Compliance Testing Streamlines certification processes for industry standards including PCI Express, USB 3.x/4.0, DisplayPort, HDMI, and automotive Ethernet protocols.

Manufacturing Quality Control Enables production testing of high-speed digital products, ensuring consistent signal quality across manufacturing batches.

Technical Specifications

• Bandwidth: DC to 70 GHz (model dependent)
• Sample Rate: Up to 200 GSa/s
• Vertical Resolution: 8-12 bits
• Trigger Sensitivity: Down to 10 mV
• Analysis Memory: Up to 2 Gpts per channel

Benefits

• Reduce Development Time: Quickly identify signal integrity issues early in the design cycle
• Ensure Compliance: Automated testing against industry standards reduces certification risks
• Optimize Performance: Detailed analysis enables fine-tuning of signal parameters for maximum data throughput
• Cost Effective: Prevent costly redesigns by catching signal quality issues before production

Ideal for R&D engineers, signal integrity specialists, and test engineers working on next-generation high-speed digital systems where signal quality is paramount to system performance and reliability.