Technical Principle & Core Features
OWON's proprietary Real-Time Magnifier Function represents a breakthrough in signal observation technology for modern digital oscilloscopes. By integrating innovative software algorithms with advanced hardware architecture, this feature significantly enhances engineers' ability to capture and analyze intricate signal details.
Dual-Window Processing Architecture
Primary Window: Displays the full-scale waveform for context.
Magnified Window: Renders a high-precision zoom of the selected region, maintaining signal integrity without distortion.
High-Precision ADC Support
14-bit ADC (XDS Series): Delivers 64× higher vertical resolution than conventional 8-bit oscilloscopes.
Ultra-Fine Sensitivity: Down to 62.5μV/div, enabling accurate measurement of weak signals (e.g., power supply ripple, sensor noise).
Minimal Error: ±1.5% of full-scale vertical measurement error.
Intelligent Area Selection
Touchscreen Gesture Control: Drag to define the region of interest (ROI); pinch to adjust magnification.
Dynamic Resource Allocation: Automatically optimizes sample rate (up to 2.5GS/s) and memory depth (1Gpts) for the magnified zone.
Key Applications
Power Integrity Analysis
Simultaneously observe MOSFET switching (ns-level) and output ripple (μV-level).
Accurately measure RDS(on) by zooming into the Miller plateau region.
High-Speed Digital Signal Debugging
Maintain eye diagram overview while inspecting individual UI jitter.
Template testing with precise violation pulse timing.
Automotive Electronics Diagnostics
Analyze CAN/LIN physical-layer signals with synchronized views of message structure and bit-edge quality.
Detect 11V characteristic voltage during CAN bus sleep mode.
RF Characterization
Identify modulation anomalies in wide-span frequency sweeps.
Real-time spectrum analysis with 320MHz bandwidth.
Technical Advantages in English
"The OWON Real-Time Magnifier Function employs a dual-window architecture with dynamic resource allocation. When engineers select an Area of Interest (AOI) via touchscreen, the oscilloscope:
Prioritizes sample rate (2.5GS/s) and memory depth (1Gpts) for the magnified zone.
Preserves waveform fidelity via 14-bit ADC precision (62.5μV/div sensitivity).
Offers 256 grayscale levels and multi-trigger analysis for transient events.
