Telemetry Standards and IRIG 106-23 Training by Tonex
This course provides an in-depth exploration of telemetry standards, with a specific focus on IRIG Standard 106-23. Participants will gain a thorough understanding of telemetry principles, data acquisition, encoding, and compliance with industry standards.
Participants will work on a final project that involves implementing telemetry standards and practices based on IRIG 106-23. This project will assess their understanding and application of the course material.
Learning Objectives:
Upon completing this course, participants will be able to:
- Learn the fundamentals of telemetry and its significance in data acquisition.
- Comprehensively grasp the IRIG 106-23 standard and its relevance in telemetry.
- Design telemetry systems that comply with IRIG 106-23 standards.
- Implement best practices for telemetry data acquisition and communication.
- Troubleshoot and maintain telemetry systems with proficiency.
- Apply telemetry standards to diverse industry scenarios effectively.
Target Audience:
This course is designed for:
- Telemetry engineers and technicians
- Aerospace and defense industry professionals
- Data acquisition specialists
- Telecommunications engineers
- System architects and designers
- Professionals involved in telemetry system procurement and management
Course Outline:
Introduction to Telemetry
- What is Telemetry?
- Importance of Telemetry in Various Industries
- Telemetry Components and Concepts
Telemetry Standards Overview
- The Role of Standards in Telemetry
- Overview of IRIG Standards
- Common Telemetry Standards Worldwide
IRIG Standard 106-23
- Introduction to IRIG Standard 106-23
- History and Evolution of IRIG 106
- Chapter 1 Introduction
- Chapter 2 Transmitter and Receiver Systems
- Chapter 3 Frequency Division Multiplexing Telemetry Standards
- Chapter 4 Pulse Code Modulation Standards
- Chapter 5 Digitized Audio Telemetry Standard
- Chapter 6 Recorder & Reproducer Command and Control
- Chapter 7 Packet Telemetry Downlink
- Chapter 8 Digital Data Bus Acquisition Formatting Standard
- Chapter 9 Telemetry Attributes Transfer Standard
- Chapter 10 Digital On-board Recorder Standard
- Chapter 11 Recorder Data Packet Format Standard
- Chapter 12 Randomization Methods for Telemetry Systems
- Chapter 21 Telemetry Network Standard Introduction
- Chapter 22 Network-Based Protocol Suite
- Chapter 23 Metadata Configuration
- Chapter 24 Message Formats
- Chapter 25 Management Resources
- Chapter 26 TmNSDataMessage Transfer Protocol
- Chapter 27 Radio Frequency Network Access Layer
- Chapter 28 Radio Frequency Network Management
Scope and Applications of IRIG 106-23
- Time Code Formats
- Understanding Time Code Formats
- IRIG Time Code Formats
- Practical Applications of Time Code Formats
- PCM Encoding and Data Formats
- Principles of PCM Encoding
- PCM Data Structures
- Error Detection and Correction in PCM
- Time Code Distribution and Synchronization
- Time Code Distribution Methods
- Synchronization Techniques
- Real-world Case Studies
- Calibration of Time and Frequency Systems
- Importance of Calibration
- Calibration Procedures
- Best Practices for Calibration
Compliance and Certification
- Ensuring Compliance with IRIG Standards
- Certification Processes
- Auditing and Quality Control
Case Studies and Practical Applications
- Telemetry Systems in Aerospace
- Telemetry in Industrial Applications
- Emerging Trends and Future Applications
Final Project and Assessment
By following this course outline, participants will gain a comprehensive understanding of telemetry standards, with a strong focus on IRIG Standard 106-23, and be well-prepared to apply this knowledge in practical settings within industries that rely on telemetry systems.