UNI-T UT-M13X Oscilloscope Signal Protocol Demonstration Board - Complete Educational Training Solution
Transform your oscilloscope training with 40+ professional test signals in one compact, USB-powered demonstration board
Overview
The UNI-T UT-M13X Oscilloscope Signal Protocol Demonstration Board revolutionizes hands-on oscilloscope education by providing educators and trainers with a comprehensive library of real-world test signals. This compact, USB-powered device generates over 40 different signal types - from basic waveforms to complex automotive protocols - making it the ultimate tool for teaching oscilloscope fundamentals, advanced triggering techniques, and protocol analysis.
Whether you're training electrical engineers, automotive technicians, or electronics students, the UT-M13X eliminates the need for multiple signal generators, protocol analyzers, and complex test setups. Students can immediately see practical applications of oscilloscope features using professionally calibrated signals that mirror real-world scenarios they'll encounter in their careers.
The intuitive rotary interface and clearly labeled outputs make setup effortless, allowing instructors to focus on teaching concepts rather than equipment configuration. With signals ranging from 381 Hz to 25 MHz and amplitudes from 23 mVpp to 4.82 Vpp, the UT-M13X provides the signal diversity needed for comprehensive oscilloscope training programs.
Key Features
• 40+ Professional Test Signals - Complete library covering basic waveforms, modulated signals, rare events, and digital protocols • Plug-and-Play USB Power - No external power supplies needed, powered directly from oscilloscope or computer USB port • Multiple Signal Categories - Normal waves, rare signals, automotive protocols, audio formats, and video standards • Real-World Training Scenarios - Signals designed to teach practical oscilloscope applications and troubleshooting skills • Intuitive Rotary Control - Easy navigation through signal menu with clear LCD display • Four BNC Output Channels - Multiple simultaneous signals for advanced measurement training • Logic Analyzer Compatible - Dedicated LA connector for digital analysis training • Comprehensive Protocol Support - UART, I²C, SPI, CAN, LIN, FlexRay, and aerospace standards • Calibrated Signal Parameters - Professionally specified amplitudes, frequencies, and timing for consistent training results • Compact Educational Design - Desktop-friendly form factor perfect for classroom and lab environments • Single-Shot Capabilities - Trigger button for demonstrating single-shot and normal trigger modes • Video Signal Generation - PAL, NTSC, and HD video formats for broadcast equipment training
UNI-T UT-M13X Educational Applications
Fundamental Oscilloscope Training
The UT-M13X excels at teaching core oscilloscope concepts through hands-on demonstration. Students learn basic measurements using clean sine, square, triangle, and sawtooth waves with known parameters. The variety of frequencies and amplitudes allows instructors to demonstrate timebase and voltage scaling, while the different waveform types showcase how oscilloscopes handle various signal characteristics. This builds the foundation for more advanced topics.
Advanced Triggering Techniques
Modern oscilloscopes offer sophisticated triggering capabilities that can be challenging to demonstrate without proper test signals. The UT-M13X provides the exact signals needed to teach edge triggering, slope triggering, pulse width triggering, and setup/hold triggering. Students experience firsthand how different trigger settings affect waveform capture and stability.
Signal Integrity and Analysis
Real-world signals often contain noise, glitches, and distortions that students must learn to identify and analyze. The UT-M13X generates sine waves with controlled noise, signals with embedded glitches, harmonic distortion examples, and ringing effects. These signals teach students to recognize signal integrity issues and use oscilloscope features like peak detection, bandwidth limiting, and FFT analysis.
Protocol Analysis Training
Digital communication protocols are essential in modern electronics, but can be difficult to demonstrate without actual communicating devices. The UT-M13X generates authentic UART, I²C, SPI, CAN, LIN, and other protocol signals with real data patterns, allowing students to practice protocol decoding, trigger setup, and timing analysis on known data streams.
Automotive Electronics Education
The automotive industry relies heavily on specialized communication protocols. The UT-M13X includes authentic CAN, CAN-FD, LIN, FlexRay, and SENT signals that mirror actual automotive networks. Students learn to decode diagnostic data, analyze network timing, and troubleshoot automotive communication systems using the same signals they'll encounter in vehicle service.
Complete Technical Specifications
Normal Waveform Signals
| Signal Type |
Frequency |
Amplitude |
Applications |
| Sine Wave |
10 MHz |
3.25 Vpp |
Basic measurements, frequency response |
| Square Wave |
50 kHz |
3.88 Vpp |
Duty cycle analysis, rise time measurements |
| Triangle Wave |
381.46 Hz |
3.9 Vpp |
Slope triggering, linear measurements |
| Sawtooth Wave |
762.94 Hz |
3.9 Vpp |
Slope analysis, timebase calibration |
| ASK Modulation |
390 kHz |
3.9 Vpp |
Digital modulation analysis |
| PSK Modulation |
1.274 MHz |
3.9 Vpp |
Phase analysis techniques |
| FSK Modulation |
1.3125 MHz |
3.9 Vpp |
Frequency domain analysis |
Advanced Test Signals
| Signal Type |
Frequency |
Amplitude |
Teaching Focus |
| Sine with Noise |
855 kHz + 25 MHz noise |
1.28 Vpp + 350 mVpp |
Noise rejection, bandwidth limiting |
| Phase Shifted Sine |
245 kHz |
600 mVpp |
Phase measurements, timing analysis |
| Sine with Glitch |
122 kHz |
4.69 Vpp |
Peak sampling, anomaly detection |
| Harmonic Distortion |
244 kHz |
4.82 Vpp |
FFT analysis, spectral content |
| Real-Time Eye Diagram |
10 MHz |
4.35 Vpp |
Eye diagram analysis, jitter measurement |
| Pulse with Ringing |
610 kHz |
1.87 Vpp |
Overshoot, settling time analysis |
| Clock with Jitter |
5 MHz |
23 mVpp |
Jitter analysis, timing margins |
| Runt Pulses |
7.89 MHz |
950 mVpp |
Runt triggering, pulse analysis |
Protocol Signal Specifications
| Protocol |
Baud Rate |
Signal Levels |
Data Content |
| UART/RS232 |
115,200 |
Standard TTL |
ASCII "UNI-T" repeated |
| I²C |
Standard |
3.3V logic |
Multi-address transactions |
| SPI |
Variable |
CMOS levels |
8-bit data patterns |
| CAN |
250K |
Differential |
Standard/extended frames |
| CAN-FD |
500K/5M |
CAN levels |
Fast data phase |
| LIN |
20K |
12V automotive |
Wake/sleep/data frames |
| FlexRay |
5M |
Differential |
Automotive network data |
| SENT |
3μs clock |
Automotive |
Sensor data simulation |
| Manchester |
2.5M |
TTL |
Encoded data streams |
| MIL-STD-1553B |
1M |
Differential |
Military/aerospace data |
| ARINC429 |
100K |
Differential |
Aviation data format |
Video Signal Formats
- PAL (625 lines, 50 Hz)
- NTSC (525 lines, 60 Hz)
- 720p (24/25/30/50/60 Hz)
- 1080i (25/30 Hz)
- 1080p (24/25/30 Hz)
- Custom progressive formats
Physical Specifications
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Power Requirements: USB Type-C, 5V, 2A
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Signal Outputs: 4 BNC connectors (CH1-CH4)
-
Logic Analyzer: Dedicated LA connector
-
Control Interface: Multi-function rotary encoder with LCD display
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Control Buttons: HOME, INFO, RETURN, TRIG, CAPTURE RATE
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Dimensions: Compact desktop form factor
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Weight: Lightweight for portability
Professional Applications in Education
Electronics Engineering Programs
Electronics engineering students need extensive hands-on experience with oscilloscopes to understand signal behavior, measurement techniques, and analysis methods. The UT-M13X provides the controlled test environment necessary for building these skills progressively. Students start with basic waveform measurements and advance to complex protocol analysis, all using known reference signals.
Automotive Technology Training
Modern vehicles contain dozens of communication networks that automotive technicians must understand and troubleshoot. The UT-M13X's comprehensive automotive protocol support allows training programs to teach CAN bus diagnosis, LIN network analysis, and FlexRay troubleshooting using the same signal types found in actual vehicles.
Telecommunications and Communications Engineering
Digital communication systems rely on precise timing, signal integrity, and protocol adherence. The UT-M13X's modulated signals, eye diagrams, and jitter analysis capabilities provide telecommunications students with hands-on experience in signal quality assessment and communication system analysis.
Industrial Maintenance and Automation
Industrial systems increasingly rely on digital communication protocols for control and monitoring. Maintenance technicians trained on the UT-M13X learn to diagnose communication issues in PLCs, motor drives, and sensor networks using oscilloscope-based protocol analysis techniques.
Package Contents
- UNI-T UT-M13X Oscilloscope Signal Protocol Demonstration Board
- USB Type-C power/data cable
- Four BNC connection cables
- Quick start guide with signal reference
- Educational application manual
- Signal parameter reference card
Warranty and Support Information
Comprehensive Educational Support
- 1-year manufacturer warranty covering all components and functionality
- Free technical support for educational institutions
- Online resource library with lesson plans and lab exercises
- Regular firmware updates with new signal types and features
- Training webinars for instructors and program coordinators
UNI-T Quality Assurance As part of the renowned UNI-T family of test and measurement instruments, the UT-M13X meets the highest standards for accuracy, reliability, and educational effectiveness. UNI-T's ISO9001:2015 and ISO14001:2015 certifications ensure consistent quality and environmental responsibility in every product.
Frequently Asked Questions
Q: Can the UT-M13X work with any oscilloscope brand? A: Yes, the UT-M13X uses standard BNC outputs and generates industry-standard signal formats compatible with all oscilloscope brands including Tektronix, Keysight, Rigol, Siglent, and others.
Q: Is the device suitable for both beginner and advanced training? A: Absolutely. The UT-M13X scales from basic waveform measurements for beginners to advanced protocol analysis for experienced users. The progressive signal complexity allows instructors to match exercises to student skill levels.
Q: How many students can use one UT-M13X simultaneously? A: The four BNC outputs allow multiple measurement setups, and the signals can be split to multiple oscilloscopes. Additionally, the demonstration capability allows one instructor to teach larger groups using projection or shared displays.
Q: Are the protocol signals authentic enough for real-world training? A: Yes, all protocol signals conform to industry standards and contain real data patterns. Students learn genuine protocol decoding and analysis techniques that apply directly to field work.
Q: What support is available for curriculum development? A: UNI-T provides educational resources including suggested lab exercises, learning objectives, and assessment rubrics. Technical support is available to help instructors integrate the UT-M13X into existing curricula.
Q: Can the device generate custom signals or data patterns? A: The UT-M13X generates pre-programmed signals optimized for educational use. While custom programming isn't available, the extensive signal library covers virtually all educational scenarios for oscilloscope training.
Customer Testimonials
"The UT-M13X has transformed our electronics lab. Students now get hands-on experience with signals they'll actually encounter in industry. The automotive protocols are especially valuable for our technician training program." - Sarah M., Electronics Department Head
"We've used the UT-M13X in our engineering program for two semesters now. The variety of test signals allows us to demonstrate concepts that were previously theoretical. Students understand oscilloscope triggering and analysis much more quickly." - Roberto C., Professor of Engineering
"As an instructor, I appreciate how easy the UT-M13X is to use. Setup time is minimal, leaving more time for actual learning. The signal quality is excellent and the reference documentation is thorough." - Kim L., Technical Training Specialist
Order Your UNI-T UT-M13X Educational Demo Board Today
Enhance Your Oscilloscope Training Program
Transform your electronics education with the most comprehensive oscilloscope training tool available. The UNI-T UT-M13X provides everything needed to teach modern oscilloscope techniques, from basic measurements to advanced protocol analysis.
Volume Discounts Available for Educational Institutions
Contact our education sales team for special pricing on multiple units, complete lab packages, and curriculum support services.
The UNI-T UT-M13X - Where oscilloscope education meets professional reality.
