FEATURES
author Matthias Luescher <ch1010472@ch10pc594>
Mon, 04 Jan 2010 11:27:37 +0100
changeset 1608 004a8b91e927
parent 1364 471cd0e77b55
child 1590 fc0754d91316
permissions -rw-r--r--
Fixed sdo request handling in case of failure
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This is the FEATURES file of the IgH EtherCAT Master.

$Id$

vim: spelllang=en spell

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General Features:

* EtherCAT master implementation conforming to IEC/PAS 62407.
  - Runs as kernel module for Linux 2.6.
  - Multiple masters possible on one machine.

* EtherCAT-capable versions of standard Linux drivers for wide-spread
  Ethernet devices.
  - Interrupt-less operation of Ethernet devices.
  - Easy implementation of additional Ethernet drivers through common device
    interface.
  - Operation possible with any device supported by the standard drivers,
    including PCMCIA devices.

* Supports any realtime environment through independent architecture.
  - RTAI, Xenomai, RT-Preempt, etc.
  - Operation possible without any realtime extension at all.

* Common API for Realtime-Applications in kernel- and userspace.
  - Requesting and releasing masters.
  - Dynamic slave configuration, even for slaves that are offline.
  - Detailed configuration of the slaves' PDOs and SDOs.
  - Creation of process data domains (see below). Registration of PDO entries
    for exchange within a domain.
  - Monitoring the states of masters, slave configurations and domains.
  - SDO handlers for application-triggered CoE transfers (see below).
  - VoE handlers for Vendor-specific mailbox protocols (see below).
  - Similar userspace implementation of the kernel API via a C-library.
  - Avoidance of unnecessary copy operations for process data.

* Separating slave groups through domains.
  - Handling of multiple slave groups with different sampling rates.
  - Automatic calculation of process data mapping, FMMU- and sync manager
    configuration within the domains.
  - Process data exchange can be monitored via a per-domain mechanism.

* Master finite state machine (FSM).
  - The same state machine runs both in idle mode and in realtime operation.
  - Bus monitoring: Slave states are read cyclically. Automatic scanning of the
    bus after a topology change.
  - Automatic configuration of slaves, if a application-layer state change is
    requested.

* Implementation of the "CANopen over EtherCAT" (CoE) mailbox protocol.
  - Configuration of CoE-capable slaves.
  - SDO information service (dictionary listing).
  - SDO transfers both via the application interface and the command-line tool.

* Implementation of the "Ethernet over EtherCAT" (EoE) mailbox protocol.
  - Virtual network interface for any EoE-capable slave.
  - Both a switched and a routed EoE network architecture is natively supported
    and configurable with standard tools.

* Implementation of the "Vendor-specific over EtherCAT" (VoE) mailbox protocol.
  - Communication with vendor-specific mailbox protocols via the API. 

* Implementation of the "File Access over EtherCAT" (FoE) mailbox protocol.
  - Loading and storing files via the command-line tool.
  - Updating a slave's firmware can be done easily.

* Userspace command-line tool 'ethercat'.
  - Detailed information about master, slaves, domains and bus configuration.
  - Setting the master's debug level.
  - Reading/Writing alias addresses.
  - Listing slave configurations.
  - Viewing process data.
  - SDO download/upload; listing SDO dictionaries.
  - Loading and storing files via FoE.
  - Access to slave registers.
  - Slave SII (EEPROM) access.
  - Controlling application-layer states.
  - Generation of slave description XML from existing slaves.

* Seamless integration in any GNU/Linux distribution.
  - "Linux Standard Base"-compatible init script for master control.
  - Master and Ethernet device configuration via sysconfig file.

* Virtual read-only network interface for debugging and traffic monitoring
  purposes (using Wireshark, etc.). No additional hardware necessary.

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