CanEasy

基于软件的残余总线仿真和分析工具
适用于CAN, CAN FD, LIN 和 Automotive Ethernet



了解CanEasy支持的PC接口的更多信息   用于CAN (FD) 和LIN的Ixxat PC接口

CanEasy

 


CanEasy是一个基于Windows的CAN (FD)、LIN和汽车以太网的分析和测试环境。该工具模拟总线交通流量,自动化程度高,可以通过插件方便地配置和扩展。CanEasy可以在整个开发过程中使用,从测试到调试。

借助CanEasy真实和模拟的电子控制单元[ECU]根据通信矩阵残余总线仿真通过不同的总线进行通信。支持UDS和XCP/CCP诊断功能,支持读取CDD、ODX/PDX、ELF、A2L和MAP文件。可以直接导入ASC/LOG和BLF等跟踪文件进行分析。由于自动生成面板,高度自动化和可编程性,CanEasy可以非常快速和灵活地使用。与常用的开发工具相比,它节省了工作、时间和成本。

 

CanEasy for device simulation
CanEasy for device simulation

 

亮点:

  • 支持各种CAN, CAN FD, LIN接口,如HMS, Ixxat, Vector等
  • 简单的处理
  • Drag & Drop      
  • 清晰和合乎逻辑的安排
  • 易于扩展(插件)


CANEASY 适用于以下领域:



Simulation

仿真

Analysis

分析

Test

测试

Diagnosis

诊断

 


特点和功能


用户界面

  • 富有吸引力的图形 RichPanels
  • 数据库编辑器
  • 自动生成的面板

自动化

  • 集成任何框架(机器人框架,Matlab/Simulink)
  • 动态过程编程
  • 用于创建序列的调度程序

残余总线仿真

  • 导入通信矩阵 (DBC, ARMXL, LDF)
  • 不存在的控制单元的仿真
  • 支持各种协议 (ISO-TP, UDS, KWP, XCP)
  • 信号调制和算术功能
  • 调度程序作为LIN发送控制器

分析

  • 记录和回放功能
  • 触发和报警功能
  • 总线负载和周期时间分析
  • 测量信号值的绘图
  • 用于日志分析的跟踪

诊断

  • 支持UDS、KWP2000和XCP/CCP
  • 导入CDD、ODX、PDX、ELF、MAP和A2L文件
  • 故障记忆窗
  • 读写ECU变量(通过XCP和UDS)
  • 参数和服务编辑

兼容性

  • 导入完整的CANoe配置
  • 使用 CANoe面板
  • 将CAPL节点转换为CanEasy插件
  • 执行CAPL测试模块
  • 支持文件格式 CFG, BLF, ASC, CAN, XVP, CNP

扩展

  • 用单独的控件扩展RichPanels
  • 用任何编程语言创建用户插件
  • 可直接在VBA和VSTA中编程

硬件

  • 支持多种硬件适配器,如 Ixxat, Vector Informatik, National Instruments等

订货号

货号 产品名称 通道数 CAN (FD) / LIN Automotive Ethernet Rich-Panel visualization Diagnostics (UDS) Fault memory window CAPL converter
1.04.0144.00001 CanEasy Standard 99
Yes No No No No No
1.04.0144.00002 CanEasy Standard Plus 99
Yes No Yes Yes No No
1.04.0144.00000 CanEasy Professional 99 Yes Yes Yes Yes Yes  Yes



比较不同的软件版本
点击查看更多...


  • CanEasy
    Standard     
  • CanEasy
    Standard Plus
  • CanEasy
    Professional
CanEasy
Standard
CanEasy
Standard Plus
CanEasy
Professional
Channels
Number of CAN / FD Channels (max.) 99
99
99
Number of LIN Channels (max.) 99
99
99
Number of Ethernet Channels (max.) 0 0 99
Number of FlexRay Channels (max.)* 1 1 1
Supported Hardware Interfaces
Ixxat VCI devices like USB-to-CAN, PC cards CAN-IB, CAN@net NT
Ixxat VCI devices CANnector / FRC-EP170 / FRC-EP190
Vector
Further vendors
Functions
CAN/CAN FD/LIN Analyzing
XCP/CCP Protocol
FlexRay Analyzing/Gateway*
Residual Bus Simulation (RBS) PC based
Database Editor (DBC, Autosar [ARXML], LDF)
Search Function (ECU, Messages, Signals, Variables, Attributes, …)
Recording (ASC, BLF, MDF, binary)
Replay
Trigger
Scheduler/Sequenzer
Trace-Window
Signal-Plots/ Signal-Monitors
User-Panels
Automated Panels (Signals, Cycle-Time, Messages)
Snapshots
Standard-Plug-Ins (Modulator, Statistics, Formular, …)
Integrated Development Envirorment Visual Basic for Application
Integrated Development Envirorment Visual Studio für Application C#/.net
Programming
Matlab/ Simulink Support
Environment Variables
RichPanel Visualisation
UDS Diagnose (Import CDD, PDX, ODX)
Fault Memory Windows

Automotive Ethernet Analyzing

SOME/IP / Automotive Ethernet

Vector CANoe CAPL Converter


*only with Gateway/Generic Ethernet functionality of Ixxat FRC-EP170/190

详细功能概述
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Automotive Bus Systems
Up to 99 configurable CAN / CAN FD channels
Up to 99 configurable LIN channels
Up to 99 (Automotive) Ethernet channels

Vehicle Description Files and Editors
DBC file importer/editor/exporter for CAN / CAN FD
LDF file importer/editor (text based) / explorer for LIN
ARXML AUTOSAR System Descriptions (CAN, CAN FD, Ethernet, FlexRay)
Display of AUTOSAR files for CAN, CAN FD and FlexRay

Supported Hardware
HMS Ixxat
Vector
Intrepid
Peak
Softing
Melexis
Kvaser
MHS
National Instruments

Functions for bus analysis and monitoring
Central configuration of analysis windows and logging
Reuse of measurement setups from other CANalyzer or CANoe configurations
Trace Window: Detail, Difference and Statistics views for displaying the time flow of events
Display bus statistics at the node or frame level (CAN, CAN FD, LIN)
Display bus statistics on channel level
Display bus statistics in histogram representation and statistics report (CAN, CAN FD, LIN, ISO11783 [ISOBUS], J1939)
Trigger: Control data logging (CAN, CAN FD, LIN, ISO11783 [ISOBUS], J1939)
Symbol mapping: Link system variables/environment variables/signals
Momentary display of bus signals, environment and system variables
Graphic display of signal responses
Display of physical bus level and logical interpretation (CAN, CAN FD, LIN)
Display of system states, discrete values and CAN frames/bursts
Trace Window Temporarily reduce the displayed data
Channel Filter: Reduction of the displayed data
Variables Filter: Reduction of the displayed data
Signal Filter: Reduction of displayed data
Offline Mode: Replay a logged measurement
Data Export: Use the logged data in other programs

Functions for simulation and modeling
Automated remaining bus simulation
Interactive Generator (CAN, CAN FD, LIN, etc.)
Interactive Generator (Ethernet)
Signal Generator (CAN, CAN FD, LIN, Ethernet (AUTOSAR PDUs))
Graphically create command sequences for stimulation and testing
Generate messages for sending (CAN, CAN FD, LIN)
Macros: Tool automation
Start Value Window: Predefined values for system variables/environment variables/signals, which are used for measurement start
.NET Snippets Tool automation
LIN Interactive Master (LIN)
LIN Node Simulation (Master/Slave)
Replay a logged measurement in parallel to a running simulation
Variables with global validity, can be applied to all analysis windows and logging
Symbolic display of the network
Simulation Setup: Filters for messages and channels, dependent on bus systems
Define/access Environment Variables
Model design/generation/execution out of the network description (CAN, CAN FD, LIN, ISO11783 [ISOBUS], J1939)
Execute simulation models
Modeling libraries (e.g. transport protocol, interaction layer, network management), OEM-specific extensions

Integrated or external programming capabilities
Visual Basic for applications
CAPL functions for bus access (CAN, CAN FD, LIN, ISO11783 [ISOBUS], J1939)
Visual Sequencer
C-API for developing application-specific code
.NET programming (C#) for implementing simulated network nodes, test modules or Snippets
Ethernet TCP/IP stack support (Ethernet)
Central database with events
Changing communication matrix at simulation time
Create panels via API
Run as windows service

Panels for extending the graphic user interface
Create/execute display panel elements
Create/execute control panel elements
ActiveX panel elements (OCX, .NET)
Auto generated panels
Graphically accelerated panels
Ability to extend panels by own controls

Integration of other interfaces or additional options
Implement your own functions in C
Link analog/digital measurement hardware from third-party suppliers
COM Server: Automation interface for remote control
Integrate Simulink models in the simulation
Data exchange with LabVIEW
AMD/XCP Read or write to memory locations in the ECU and analysis of ECUs
Signal protocol DLL (Ethernet): Interpret signals in proprietary protocols
TCP/IP socket access with CAPL
RS232 access with CAPL

AMD/XCP
XCP/CCP Window for configuration
Online access to internal ECU values in RAM over XCP on CAN(FD), XCP on Ethernet (TCP and UDP), XCP on LIN and CCP
Writes scalar, multi-dimensional, and complex variables to the ECU's RAM via Download
Supports ASAM MCD-2 MC (A2L) databases
Support of scalar CCP/XCP data types ((UBYTE, SBYTE,…)
Secure access via Seed & Key
Parallel access to multiple ECUs
Address Update for ECU symbols from Linker Map file

Diagnostic Feature Set
TP Observer (CAN, FlexRay, J1939, ISO11783)
TP Observer (Ethernet)
Diagnostic Observer: Symbolically interpret diagnostic messages
Diagnostic Tester: Consists of Diagnostic Console and Fault Memory Window
Diagnostics Parameters Window
UDS/KWP2000 support
Diagnostics with CAPL
Basic Diagnostics: Diagnostic support without description file
Display diagnostic description files (ODX/CDD)
.NET diagnostics scripting
Diagnose Simulation

XCP Details
Online calibration via CCP, XCP
Online calibration of hex and other binary files
Diagnosis via KWP2000, UDS, DoIP
Support of CDD and ODX files
Offline data analysis
Run-time environment for "Software in the Loop"
Automation interface (via C-API, COM, ASAP3, ASAM MCD-3 MC, iLinkRT)
Function library, e.g. for calculating several signals or filtering noisy signals
Visualize Simulink and Stateflow models
Creation and integration of user-specific display and operating elements
Recording CAN bus data
Analysis of bus communication in the trace window
Triggering options for targeted data recording
Standalone data logger
CCP and XCP measurements incl. Seed & key handling
Support the buses CAN (FD), Ethernet, Broad'R Reach, SOME/IP, FlexRay, LIN, SAE J1939, CANopen, GMLAN, K-Line
Signal display over time or in XY display
Automatic evaluation of measured data
Export sequences from measurement files with synchronous video editing
Characteristic variable adjustment parallel to the measurement data acquisition
Offline mode for ECU parameters
Editors for ASAP2, DBC
Viewer for Fibex, LDF, ODX, CDD, ARXML

Diagnostic Functions
Import and export from/to different exchange formats (ODX, AUTOSAR DEXT, CSV, RTF, HTML, A2L, XML, CDI)
Supports document templates
Support of different protocols on different networks (UDS, KWP2000, OBD, WWH-OBD, CAN, CAN FD, LIN, DoIP)
Comparison views between two versions
Documentation and display of descriptions of DTCs at the error memory processing
Different views of diagnostic trouble codes
Structured operation concepts
Single source data base
Simple editing of Text-ID (TID)
Graphical telegram overview for request and response data for visualization of bit and byte positions

Diagnostic Data Exchange
Import of layers and services from ODX descriptions (data presentation with ODXStudio View)
Diagnostic specification export (RTF, HTML)
Service overview export (CSV)
Import of signals and conversions from an AUTOSAR System Description
Import of data in A2L-format