TSMaster Development from Beginner to Master

TSMaster Development from Beginner to Master

TSMaster Development from Beginner to Master

Book Name:TSMaster Development from Beginner to Master
Book number:9787302667193
Author:Yang Jinsheng Liu Chu Liu Gongshen
Pricing:99.80

TSMaster Development from Beginner to Master

This book aims to help the majority of R&D engineers in the automotive industry to quickly master the basic application of TSMaster, simulation development, diagnostics and automated test implementation and other practical skills to improve work efficiency and shorten the development cycle. Provides source code and QQ Q&A group.

Content

This book follows the principle of going from the shallow to the deep and divides the content into three parts in three chapters. The basic part firstly introduces the related knowledge of on-board network, and then introduces the TSMaster development environment and the use of common functions, so that beginners can master the use of TSMaster to carry out general bus simulation, testing and analysis; the introductory part firstly guides the readers to develop the first TSMaster simulation project, and then combines the examples to focus on the bus database, panel design, and C small The advanced chapter combines the technical difficulties that the majority of development engineers may face, and introduces some typical examples from simple to complex, in order to improve the readers' practical skills.

This book can be used as a reference material for teachers and students of vehicle engineering, electronic information, electrical engineering, automatic control and other related majors in ordinary colleges and universities, as well as a tool for those who are engaged in the development and testing of automotive electronic hardware and software.

Structure of the book
The book follows the principle of going from the beginning to the end and divides the contents into three parts:
Part I: The BasicsIt introduces the related knowledge of in-vehicle network, and then introduces the development environment of TSMaster and the use of common functions, so that beginners can master how to use TSMaster for general bus simulation, testing and analysis;
Part 2 is a primer, first guides the reader through the development of the first TSMaster simulation project, then focuses on bus databases, panel design, and C script programming fundamentals with examples;
The third part is advancedIt combines the technical difficulties that the majority of development engineers may face, and introduces some typical examples from simple to complex, involving applications such as testing, diagnosis, calibration and automation control, to improve the readers' practical skills.
Author's Profile
Yang Jin ShengMr. Wang graduated from Lanzhou University in 1998 with a Bachelor of Science degree in Radio Physics and received his Master of Science degree in Communication Engineering from Shanghai Jiaotong University in 2006. He has 20 years of development experience in the automotive industry and has participated in many global and local smart cockpit and smart driving development projects. He is currently working as a senior manager of testing department in a famous Fortune 500 automotive parts company. He is the author of the best-selling book "CANoe Development from Beginner to Master" in automotive industry, and is well versed in the theory and practical techniques of automotive software testing, focusing on technology sharing and talent cultivation in this field, and is the leading figure of automotive software testing in China.
Readership
  1. Hardware and software developer for the automotive industry. 
  2. Test and verification personnel in the automotive industry. 
  3. Faculty and students of universities and colleges majoring in automotive electronics related fields. 
  4. Engineers who want to work in automotive electronics development and testing. 
Sample Chapter
Catalog

Part I. Foundations

Chapter 1 In-vehicle Network Basics

1.1 Origins of in-vehicle networks

1.2 CAN bus overview

1.2.1 Brief history of the CAN bus

1.2.2 CAN bus characteristics

1.2.3 CAN bus main applications

1.2.4 Introduction to the CAN-FD Protocol

1.2.5 Introduction to the CAN-XL Protocol

1.3 LIN bus overview

1.3.1 Brief History of the LIN Bus

1.3.2 LIN bus characteristics

1.3.3 LIN bus main applications

1.4 FlexRay Bus Overview

1.4.1 Brief History of the FlexRay Bus

1.4.2 FlexRay bus characteristics

1.4.3 FlexRay bus main applications

1.5 Introduction to major in-vehicle networks

1.6 Development trend of in-vehicle network

Chapter 2 TSMaster Overview

2.1 Introduction to TSMaster

2.2 TSMaster Installation

2.2.1 System configuration requirements

2.2.2 Download path

2.2.3 Automatic updates

2.2.4 Installation process

2.3 About TSMaster Authorization

Chapter 3 Introduction to the TSMaster Development Environment

3.1 Introduction to the User Interface

3.2 TSMaster Main Menu

3.2.1 Menu options

3.2.2 New construction

3.3 Functional areas

3.3.1 Analyzing functional areas

3.3.2 Hardware Functional Area

3.3.3 Program Functional Area

3.3.4 Simulation Functional Area

3.3.5 Testing functional areas

3.3.6 Application functional areas

3.3.7 Engineering functional areas

3.3.8 Tools ribbon

3.3.9 Help ribbon

3.4 Common Shortcuts

3.5 General functions

3.5.1 Drag-and-drop functionality

3.5.2 Common Window Buttons

3.6 About the TSMaster Project

3.6.1 TSMaster Project Catalog

3.6.2 Release of works

3.7 About the classic example EasyDemo

Chapter 4 Hardware Configuration

4.1 Hardware Channel Mapping

4.2 Significance of TSMaster channel mapping

4.3 On virtual channels

4.4 Loading Hardware Drivers

4.5 Channel Configuration

4.5.1 Selecting a Hardware Channel

4.5.2 Bus hardware

4.5.3 Channel Mapping Editor

Chapter 5 Introduction to Bus Measurement and Analysis

5.1 Measurement settings window

5.1.1 Introduction to functions

5.1.2 Data stream filtering

5.1.3 Measurement filtering module

5.1.4 Enabling/Disabling Filtering Conditions

5.2 System Message Window

5.2.1 Toolbars

5.2.2 Message types

5.3 Real-time comment window

5.4 Message information window

5.4.1 Toolbars

5.4.2 Message filter settings

5.4.3 Message information list items

5.4.4 Display of signals

5.4.5 Shortcut menu

5.5 Message sending window

5.5.1 Toolbar

5.5.2 Message delivery list entries

5.5.3 Signal Lists and Data Bytes

5.5.4 Introduction to Signal Generators

5.6 Graphical windows

5.6.1 Toolbars

5.6.2 Toolbar display settings

5.6.3 Toolbar Setting Options

5.6.4 Signal List Bar

5.7 Numeric Display Window

5.7.1 Toolbar

5.7.2 Modifying signal display settings

5.8 Dashboard Window

5.8.1 Toolbar

5.8.2 Setting Signal Properties

5.9 Statistics window

5.9.1 CAN Statistics window

5.9.2 Toolbars

5.10 Bus Record Window

5.10.1 Toolbar

5.10.2 Shortcut menu

5.11 Bus Playback Window

5.11.1 Toolbar

5.11.2 Offline playback

5.11.3 Online playback

5.12 Record converters

5.13 Video Playback Window

Chapter 6 Introduction to the Basic Functions of Bus Emulation

6.1 System variables

6.1.1 System Variable Manager

6.1.2 Internal variables

6.1.3 User variables

6.2 Signal Mapping

6.2.1 Introduction to functions

6.2.2 Direct mapping

6.2.3 Expression Mapping

6.2.4 Mapping direction

6.3 Signal Excitation

6.3.1 Adding a Signal Excitation Window

6.3.2 Setting the excitation signal

6.4 Residual Bus Simulation

6.4.1 Residual Bus Simulation Overview

6.4.2 Configuration of Residual Bus Emulation

6.5 The "God's Eye" Mechanism for TSMasters

6.5.1 Degrees of freedom for applet scripts

6.5.2 Message reception event concepts for applets

Part II Getting Started

Chapter 7 Developing Your First TSMaster Simulation Project

7.1 Introduction to the first simulation project

7.2 New Simulation Project

7.3 Adding a CAN database

7.4 Creating panels

7.5 Writing C applets

7.6 Simulation scheme for the ECU to be tested

7.7 Running the test

Chapter 8 Introduction to Bus Databases

8.1 Basic Bus Database Concepts

8.2 CAN database window

8.2.1 Toolbars

8.2.2 Adding CAN database files

8.2.3 Channel assignment

8.2.4 CAN database information view

8.2.5 Database Field Definition View Area/Layout View Area

8.3 LIN Database Window

8.4 FlexRay Database Window

Chapter 9 Panel Design

9.1 Introduction to the Panel Design Window

9.2 Toolbar

9.3 Introduction to the TSMaster Control

9.3.1 Standard control list

9.3.2 Basic control operations

9.3.3 Introduction to Common Attributes

9.4 Introduction to Typical Controls

9.4.1 Text boxes

9.4.2 Input and output boxes

9.4.3 Buttons

9.4.4 Switches

9.4.5 Indicator lights

9.4.6 Image buttons

9.4.7 Path button

9.4.8 Instruments

9.4.9 Graphics

9.4.10 Pie charts

9.4.11 Relationship diagrams

9.4.12 Containers

9.4.13 Start Stop Button

9.5 Mechanisms for Panel Triggered Events and Displays

9.5.1 Trigger event mechanism

9.5.2 Mechanisms for displaying values

9.6 Multilingual Support Panel

9.6.1 Creating a panel

9.6.2 Activation of functions for multilingual support

9.6.3 Creating Multilingual Translation Files

9.6.4 Testing the Multilingual Panel

Chapter 10 C Code Programming Fundamentals

10.1 C Code Overview

10.2 C Code Editor

10.2.1 Toolbars

10.2.2 Object Browsing Area

10.2.3 Function Browsing Area

10.2.4 Attribute Edit Area

10.2.5 Code Edit Area

10.2.6 Real-time variable viewing area

10.2.7 Immediate Document Viewing Area

10.2.8 Compile Output Area

10.2.9 API Documentation Viewing Area

10.3 C code running mechanism

10.3.1 Step function

10.3.2 Timer Definitions and Trigger Events

10.3.3 CAN receive events

10.3.4 CAN transmit events

10.3.5 CAN pre-transmission events

10.3.6 LIN receive events

10.3.7 LIN send events

10.3.8 LIN pre-send events

10.3.9 Variable change events

10.3.10 Program startup events

10.3.11 Key events

10.3.12 Program stop event

10.3.13 Custom Functions

10.4 Common Variable Types and Structures

10.4.1 C Basic Data Types

10.4.2 Common TSMaster Data Types

10.4.3 TSMaster Common Structures

10.5 Applet Variables

10.5.1 Creating Applet Variables

10.5.2 Applet variable types

10.5.3 Monitoring of Applet Variables

10.5.4 Panel access to applet variable types

10.5.5 C applet access to applet variable types

10.5.6 Variable change events

10.6 Database signaling operations (database-based)

10.6.1 Reading signal values

10.6.2 Modifying signal values

10.7 Database signaling operations (based on residual bus simulation)

10.7.1 CAN residual bus simulation setup

10.7.2 Reading signal values

10.7.3 Modifying signal values

10.8 System Variable Access

10.8.1 Panel correlation system variables

10.8.2 Applets reading and writing system variables

10.9 Introduction to the TSMaster API Library Functions

10.9.1 The app function library

10.9.2 The com function library

10.9.3 The test library

10.9.4 Function Return Value Definitions

Chapter 11 C Code Programming Techniques

11.1 Zero-Code Paste Method

11.1.1 Code Generation via the Send Message Window

11.1.2 Code generation via the message information window

11.1.3 Code Generation via the Residual Bus Simulation Window

11.1.4 Code Generation via System Variable Manager

11.2 Quick Copy Signal Path

11.3 Online Help for TSMaster Library Functions

11.4 Calling the C++ Standard Library

11.4.1 Adding headers to global definitions

11.4.2 Adding String Handling Code

11.5 Calling Windows Library Functions

11.6 Common debugging methods for applets

11.6.1 Debugging Code with the System Message Window

11.6.2 Floating windows

11.6.3 Debugging Code with Applet Variables

11.7 Debugging Code in the Visual Studio Environment

11.7.1 Preparing Code for Debugging

11.7.2 Generating code to debug a project

11.8 Application of the applet library

11.8.1 Introduction to the Applet Library

11.8.2 Development of applet libraries

11.8.3 Use of applet libraries

11.8.4 Management of the applet library

Chapter 12 Introduction to Simulation Engineering Development - CAN/CAN FD

12.1 Bus Emulation Engineering Development Process and Strategy

12.1.1 Development process

12.1.2 Simulation Engineering Development Strategy

12.2 Introduction to Project Examples

12.2.1 Network Topology Diagram

12.2.2 Realization of functions

12.3 Project realization - IPC test environment simulation project

12.3.1 Creating a Simulation Project

12.3.2 Introduction and import of DBC files

12.3.3 CAN residual bus simulation setup

12.3.4 System variables

12.3.5 Panel design

12.3.6 C Code Implementation

12.4 Engineering Realization - IPC Simulation Project

12.4.1 CAN residual bus simulation setup

12.4.2 System variables

12.4.3 Panel design

12.4.4 C code implementation

12.5 Engineering Operational Tests

Chapter 13 Getting Started in Simulation Engineering Development - LIN

13.1 Common API Functions for the LIN Bus

13.2 Introduction to Project Examples

13.2.1 Network Topology Diagram

13.2.2 Realization of functions

13.3 Engineering Realization

13.3.1 Adding LIN bus support

13.3.2 Database LDF file imports

13.3.3 Adding system variables

13.3.4 Panel design

13.3.5 C Code Implementation

13.3.6 Setting the page layout

13.4 Engineering Operational Testing

Chapter 14 Introduction to Simulation Engineering Development - FlexRay

14.1 FlexRay Basics

14.1.1 Common Terms

14.1.2 Dynamic and Static Frames

14.1.3 FlexRay Cold Start Mechanisms

14.2 Common API Functions for the FlexRay Bus

14.3 Introduction to Project Examples

14.3.1 Network Topology Diagram

14.3.2 About FlexRay's Cold Start Node

14.4 Project Example Realization

14.4.1 Importing an XML database

14.4.2 Setting up hardware channels

14.4.3 Setting up residual bus emulation

14.4.4 Panel Design - Control

14.4.5 Panel Design - Display

14.4.6 C code implementation

14.5 Engineering Operational Tests

Part III Advancement

Chapter 15 Simulation Engineering Development Advanced Ⅰ - Testing

15.1 ECU Testing Overview

15.2 Testing API Functions in Detail

15.2.1 Error Detection Functions

15.2.2 Result Determination Functions

15.2.3 Signal Detection Functions

15.2.4 Log generation functions

15.2.5 Report Generation Functions

15.3 Introduction to Project Examples

15.4 Project Example Realization

15.4.1 Test Method Design

15.4.2 Creating a Test System Project

15.4.3 User rights management

15.4.4 Test system configuration

15.4.5 DUT parameter management

15.4.6 Test parameter management

15.4.7 Test Case Creation Methods

15.4.8 Simulation of the component under test

15.4.9 Test Case Execution and Debugging

15.4.10 Test Report Templates and Generation

15.4.11 Test Log View

15.5 Engineering Operational Tests

15.5.1 Normal mode

15.5.2 Error injection mode

Chapter 16 Advanced Simulation Engineering Development II - Diagnostics

16.1 Overview of Automotive Diagnostics

16.1.1 Diagnostic terminology

16.1.2 OBD Diagnostics and Enhanced Diagnostics

16.1.3 Diagnostic protocols

16.1.4 Diagnostic interface

16.1.5 Diagnostic cycle

16.1.6 UDS diagnostic services

16.2 Introduction to the TSMaster Diagnostic Function

16.2.1 Transport Layer (ISO TP) Parameter Configuration

16.2.2 Basic diagnostic configuration

16.2.3 Diagnostic console

16.2.4 Automated diagnostic processes

16.3 Introduction to Project Examples

16.4 Project Example Realization

16.4.1 Simulation of the measured part

16.4.2 Transport layer configuration

16.4.3 Creating Associated System Variables

16.4.4 Basic diagnostic configuration

16.4.5 Automated diagnostic process realization

16.4.6 Setting up the control panel

16.5 Engineering Operational Tests

Chapter 17 Simulation Engineering Development Advanced III - Calibration

17.1 ECU Calibration Overview

17.1.1 ASAM Standards Organization

17.1.2 Introduction to Diagnostic Protocols

17.1.3 XCP packet types

17.1.4 XCP data structure

17.1.5 On the measurement model

17.1.6 On A2L documents

17.2 Introduction to the TSMaster Calibration Function

17.2.1 TSMaster Main Calibration Functions

17.2.2 Calibration Window

17.2.3 Calibration Data Manager

17.2.4 A2L synchronization module

17.2.5 On TSMaster calibration authorization

17.3 Introduction to Project Examples

17.4 Project Example Realization

17.4.1 Creating an XCP Calibration Project

17.4.2 Importing databases

17.4.3 XCP Settings

17.4.4 DAQ Settings

17.4.5 Memory settings

17.4.6 Adding a list of measurements

17.4.7 Recording engine settings

17.5 ECU Simulation for Calibration

17.6 Engineering Operational Tests

17.6.1 Updating Simplex Calibration Parameters

17.6.2 Updating calibration parameters such as curve type and Map type

17.6.3 Viewing log files

17.7 On automated calibration techniques

Chapter 18 Advanced Programming for TSMaster - Python Calls to COM Interface Technology

18.1 Introduction to COM Interface Technology

18.2 Introduction to TSMaster COM Server

18.3 TSMaster COM Server Interface Functions

18.3.1 TSApplication class interface functions

18.3.2 TSFormManager Class Interface Functions

18.3.3 TSCOM Class Interface Functions

18.3.4 TSDB Class Interface Functions

18.3.5 TSLog Class Interface Functions

18.3.6 TSMP Class Interface Functions

18.4 Introduction to Project Examples

18.5 Project Example Realization

18.5.1 Manipulating the TSMaster Application APIs

18.5.2 Creating TSCOM Objects

18.5.3 Running and stopping the RBS

18.5.4 Sending asynchronous messages

18.5.5 Adding a periodic message

18.5.6 Reading and writing signal values

18.5.7 Reading and writing system variables

18.5.8 Outputting Logs in the System Message Window

18.5.9 Complete Code

18.6 Engineering Operational Tests

Chapter 19 Advanced Programming for TSMaster - Python Applet Development

19.1 Introduction to the Python applet development environment

19.1.1 Checking the Python development environment for TSMaster

19.1.2 Debugging Environment Settings

19.2 Introduction to Common Functions for Python Applets

19.2.1 Generic functions

19.2.2 app class functions

19.2.3 Common functions of the com class

19.2.4 Common functions of the test class

19.3 Common class definitions

19.3.1 RawCAN class

19.3.2 CANSignal class

19.4 Introduction to Engineering Examples

19.5 Project Example Realization

19.5.1 Implementation of EasyDemo

19.5.2 Adding Custom Functions

19.5.3 Calling Custom Functions

19.5.4 Python Complete Code

19.6 Engineering Operational Tests

Chapter 20 Advanced Programming for TSMaster - Toolbox-based Design Development Environment Development

20.1 Introduction to the Toolbox Design and Development Environment

20.1.1 Toolbox list page

20.1.2 Toolbox Code Design Page

20.1.3 Applet Module Page

20.1.4 Real-time Python command line

20.1.5 Toolbox Window Designer

20.1.6 Authorization on toolbox design

20.2 Introduction to Toolbox Control Properties, Events

20.2.1 The frmTSForm class

20.2.2 Button class

20.2.3 RawCAN class

20.2.4 Invoking the TSMaster resource

20.3 Introduction to Project Examples

20.4 Project Example Realization

20.4.1 Simulation environment for ECUs to be tested

20.4.2 Form design

20.4.3 Toolbox Form Initialization

20.4.4 Adding toolbar buttons

20.4.5 Adding event callback functions

20.4.6 Signal Parsing in RawCAN

20.4.7 Callback function implementation

20.5 Engineering Operational Tests

20.5.1 Running the Toolbox as a Standalone Application

20.5.2 Setting the toolbar position and running it

Chapter 21 Advanced Programming for TSMaster - Graphical Program Module

21.1 Introduction to the Graphics Program Module

21.1.1 Graphical program interface

21.1.2 Graphical program interface

21.1.3 Toolbars

21.1.4 Module column

21.1.5 Attribute column

21.1.6 Graphical Program Settings Window

21.2 Introduction to Project Examples

21.3 Realization of engineering examples

21.3.1 Adding variables

21.3.2 Creating Internal Functions

21.3.3 Creating a flowchart for a graphics program

21.4 Engineering Operational Tests

bibliography

Appendix A List of Abbreviations vs. Full Names

postscript

 

 

 

TSMaster Development from Beginner to Master
Another masterpiece by the author
TSMaster Development from Beginner to Master
The content of the above article is reprinted from Book Circle Public.

发表回复

en_USEnglish
×
×

产品入口: 产品添加到购物车

Download location

Please click the download button below to start experiencing the powerful TSMaster features. Thank you for your support!

Beta version updated weekly, full version updated monthly
Installation environment
  • 1
    Windows 7 SP1 or higher, supports Win10, and WIn11.

    Operating System

  • 2
    8GB

    random access memory (RAM)

  • 3
    At least 550MB of free space

    disk space

  • 4
    Dual-core (2-core) or higher

    CPU

Please ensure that your computer meets at least these requirements in order to install and run the TSMaster software successfully. If your computer does not meet these requirements, it may cause performance problems or not run the software properly. You may want to consider upgrading your hardware if you need smoother running features.
XML 地图