Introduction, 1 system overview, Introduction - 3 – Kontron VSBC-32 User Manual

VSBC-32

Introduction

ID 21168, Rev. 04

Page 1 - 3

©

PEP Modular Computers GmbH

1. Introduction

1.1 System Overview

The

PEP Modular Computers product described in this chapter operates with the

VMEbus architecture. In addition, some products also support the CXC and/or
Enhanced CXC (eCXC) local mezzanine interface standards which represent a stream-
lined variant of the VMEbus standard itself. Thus a wide range of I/O functions for indus-
trial applications are supplied. Some of the major advantages of the VMEbus standard
are:

•

internationally accepted VITA standards (VMEbus, CXC, eCXC);

•

broad range of available VMEbus solutions

•

scalable processor performance

In addition, in combination with (e)CXC technology the VMEbus equipment offers the
following advantages:

•

lower costs and optimized reliability thanks to reduced design complexity;

•

compact I/O sub-systems thanks to easier I/O wiring.

For detailled information concerning the VMEbus and (e)CXC standards, please consult
the VMEbus and CXC Specifications which are available via the

VMEbus International

Trade Association (VITA): http://www.vita.com

.

Many system-relevant features that are specific for VMEbus systems can be found in
the ANSI/VITA VME64 Standard and in the VITA/

PEP CXC MPI Specification which,

despite its name, applies also to VMEbus MPI carriers.

The VME64 Standard includes the following information:

•

VMEbus Specification

•

Signal Lines, Bus Modules, Typical Operation

•

Electrical Specifications

•

Mechanical Specifications

The CXC MPI Specification includes the following information:

•

Mechanical dimensions

•

Electrical specifications

•

Interface description

•

ID Byte assignment

With reference to the (e)CXC aspects of mixed VMEbus+CXC systems please refer
also to the

PEP CXC Reference Manual.