CP390 Active PMC Carrier Board for CompactPCI Applications Manual ID 19976, Rev. Index 0200 Jan 00 The product described in this manual is in compliance with all applied CE standards.
Preface Chapter CP390 0 Preface Preface Table of Contents.............................................0 - 4 Chapt Chapter 1 1. Introduction 1.1 Overview .................................................................1 - 2 1.2 Board Interfaces .....................................................1 - 3 1.3 Block Diagram ........................................................1 - 4 1.4 Board Layout ..........................................................1 - 4 1.5 Front Panels .......................
CP390 Chapter Preface 3 3. Configuration 3.1 Pinouts .................................................................... 3 - 2 Chapter 4 4. Hotswap 4.1 Technical Background of CompactPCI Hotswap .... 4 - 2 4.2 Design Implementation on the CP390 .................... 4 - 4 Appendix A CompactPCI System Notes A System Overview .................................................... A - 2 B System Components .............................................. A - 3 ID 19976, Rev.
CP390 Preface Chapt Chapter 1 0 Preface Table of Contents......................................................... 0 - 2 Revision History ........................................................... 0 - 5 Trademarks .................................................................. 0 - 5 Explanation of Symbols ............................................... 0 - 6 For Your Safety............................................................ 0 - 7 High Voltage Safety Instructions ............................
Preface CP390 Revision History Revision History Manual/Product Title: CP390 Manual ID Number: 19976 Rev. Index Brief Description of Changes Board Index Date of Issue 0100 Initial Issue 1000 Apr. 99 0200 Hotswap chapter added, description of CompactPCI and PMC connectors added, deletion of I/O voltage switching description 2000 Jan. 00 This document contains information proprietary of PEP Modular Computers.
CP390 Preface Explanation of Symbols CE Conformity This symbol indicates that the item described in this manual is in compliance with all applied CE standards. See also the section “Applied standards” of this manual. Caution! This symbol and title warn you of hazards due to electrical shocks (> 60 V) when touching products or parts of them. The non-observance of the measures indicated and/or prescribed by the law may cause harm to your product and/or life/health.
Preface CP390 For your safety Your new PEP product has been developed and carefully tested in order to provide all the features necessary to ensure full compliance with all electrical safety requirements. It has also been designed for a long fault-free life. However, the life expectancy of your product will be drastically reduced by improper treatment during unpacking and installation.
CP390 Preface General Instructions on Usage $ In order to maintain PEP’s product warranty, this product must not be altered or modified in any way. Changes or modifications to the device, which are not explicitly approved by PEP Modular Computers and described in this manual or received from PEP Technical Support as a special handling instruction, will void your warranty.
Preface CP390 Two Years Warranty PEP Modular Computers grants the original purchaser of a PEP product a TWO YEAR LIMITED as described in the following. However, no other warranties that may be granted or implied by anyone on behalf of PEP are valid unless the customer has the express written consent of PEP Modular Computers.
CP390 Introduction Chapter 1 Introduction 1.1 Overview ............................................................................. 1 - 2 1.2 Board Interfaces .................................................................. 1 - 3 1.3 Block Diagram ..................................................................... 1 - 4 1.4 Board Layout ....................................................................... 1 - 4 1.5 Front Panels .....................................................................
CP390 Introduction 1. Introduction 1.1 Overview PMC modules are renowned for their flexibility and versatility of use. They afford the user wide ranging system independent solutions by means of easily interchanged or upgraded mezzanine add-on modules. The PEP CP390 has been designed to maximize the advantages provided by PMC modules in a 3U environment. Flexibility, versatility, convenience and ease of use have been keynotes throughout the design process.
CP390 Introduction 1.2 Board Interfaces CompactPCI Interface The CompactPCI interface connector J1 (CON1) provides all the necessary signals for data transfer as defined by PCI Specification Rev. 2.1. The CP390 is routed to the CompactPCI backplane by means of the Intel 21150 PCI-toPCI bridge which interfaces the board with a data path width of 32-bit and a speed up to 33MHz.
CP390 Introduction 1.3 Block Diagram Figure 1-1: Block Diagram Hotswap Control and Status Register PCI - PCI Bridge Serial Term Hotswap Power Control 1.4 Board Layout The CP390 has two connectors onboard which provide all the PCI signals and the power supply for the PMC-Module.
CP390 Introduction 1.5 Front Panels Standard Hotswap CP 390 CP 390 Hot Swap HS The CP390 front panel is provided with a window for the insertion of a PMC module bezel. ID 19976, Rev.
CP390 Introduction 1.6 Technical Specifications Table 1-1: CP390 Specifications CP390 Specifications PCI-Standard Compliant with PCI 2.1 Signaling Voltage CPCI-Side: 3.3V / 5V tolerant PMC-Side: 5V signaling Driver Support A software driver is not required Connectors PMC Jn1 (CON2) and Jn2 (CON3) connectors Mechanical Compliance IEEE 1101.10 CMC IEEE P1386/Draft 2.0 (with minor exceptions) Power 3.3V / 0.
CP390 Introduction 1.7 Applied Standards 1.7.1 CE Compliance The PEP Modular Computers’ CompactPCI systems comply with the requirements of the following CE-relevant standards: • • • Emission Immission Electrical Safety 1.7.2 • EN50081-1 EN50082-2 EN60950 Mechanical Compliance Mechanical Dimensions 1.7.3 IEEE 1101.10 Environmental Tests • Vibration/Broad-Band Random Vibration IEC68-2-6 IEC68-2-64 (3U boards) • • Permanent Shock Single Shock IEC68-2-29 IEC68-2-27 1.
CP390 Installation Chapter 2 Installation 2.1 Board Installation ................................................................. 2 - 2 2.1.1 ID 19976, Rev. 0200 CPCI Signaling Voltage ..............................................
CP390 Installation 2. Installation 2.1 Board Installation Caution! If you are using the non-hotswap version of the CP390, please switch off the target system before installing the board in a free slot. Failure to do so could endanger your life/health and may damage your board or system. ESD Equipment! Your carrier board and PMC module contain electrostatically sensitive devices. Please observe the necessary precautions to avoid damage to your board: • Discharge your clothing before touching the assembly.
CP390 Installation Figure 2-1: Installation Diagrams PMC module CP390 Front Panel 2 1 CP390 PMC bezel 10mm stand-off 3 3 *M2.5 *6mm screws 2.1.1 CPCI Signaling Voltage The primary side of the PCI-to-PCI bridge, i.e. the CPCI side, has buffers for 3.3V signaling but works equally well in a 5V signaling environment. ID 19976, Rev.
CP390 Configuration Chapter 3 Configuration 3.1 Pinouts ................................................................................ 3 - 2 3.1.1 Jn1 (CON2) Pin Assignment ....................................... 3 - 2 3.1.2 Jn2 (CON3) Pin Assignment ....................................... 3 - 3 ID 19976, Rev.
CP390 Configuration 3. Configuration 3.1 Pinouts 3.1.
CP390 Configuration 3.1.2 Jn2 (CON3) Pin Assignment Table 3-2: Jn2, 32-bit PCI Pin Number Signal Name Signal Name Pin Number 1 +12V TRST# 2 3 TMS TDO 4 5 TDI Ground 6 7 Ground PCI-RSVD* 8 9 PCI-RSVD* PCI-RSVD* 10 11 BUSMODE2# +3.3V 12 13 RST# BUSMODE3# 14 15 3.3V BUSMODE4# 16 17 PCI-RSVD* Ground 18 19 AD[30] AD[29] 20 21 Ground AD[26] 22 23 AD[24] +3.3V 24 25 IDSEL AD[23] 26 27 +3.
CP390 Hotswap Chapter 4 Hotswap 4.1 Technical Background of CompactPCI Hotswap ................. 4 - 2 4.1.1 Hotswap System ......................................................... 4 - 2 4.1.1.1 The Hotswap Backplane ......................................... 4 - 3 4.1.1.2 The System Host (System Controller) .................... 4 - 3 4.1.1.3 The Hotswap Board ................................................ 4 - 4 4.1.1.4 Software and Operating System ............................. 4 - 4 4.
CP390 Hotswap 4. Hotswap 4.1 Technical Background of CompactPCI Hotswap In many modern application systems downtime is costly and/or unacceptable. Server applications, telecommunications networks and automated systems requiring continuous monitoring call for a system design in which a single card can be inserted or extracted without affecting the rest of the system.
CP390 Hotswap 4.1.1.1 The Hotswap Backplane The hotswap backplane has staggered pins to ensure defined power sequencing. Figure 4-1: Illustration of Staggered Pinning on the Hotswap Backplane BACKPLANE BOARD Step 3 Step 2 Step 1 EARLY POW ER * BACK END POW ER * PCI SIGNALS ENUM # HEALTHY# * BD_SEL# EXPLANATORY KEY *EARLY POW ER: a part of VCC, 3.3V, V(I/O) and GND *BACK END POW ER: the m ain part of VCC, +3.
CP390 Hotswap 4.1.1.3 The Hotswap Board To ensure that a board may be removed and replaced in a working bus without disturbing the system it requires the following additional features. • • • • • precharge power ramping hotswap Control and status register bits automatic interrupt generation whenever a board is about to be removed or replaced. an LED to indicate that the board may be safely removed. 4.1.1.
CP390 Hotswap 4.2.4 ENUM# Interrupt The onboard logic generates a low active interrupt signal to indicate that the board is about to be extracted from the system or inserted into the system. 4.2.5 Hotswap Control and Status Register / Statemachine All hotswap peripheral boards provide a HotSwap Control And Status Register which provides information on the current state of the board.
CP390 Hotswap Figure 4-2: Hotswap State Machine Power on Slot empty EXT: 0 INS: 0 ENUM#: 1 DISCONNECT#: 1 LED#: 1 EXT: 0 INS: 0 ENUM#: 1 DISCONNECT#: 1 LED#: 1 HANDLE: closed EIM: 0 LOO: 0 FFs valid: 0 Handle: open EIM: 0 LOO: 0 FFs valid: 0 Insertion EXT: 0 INS: 1 ENUM#: 0 DISCONNECT#: 1 LED#: 1 Toggle EIM and LOO Toggle EIM and LOO EXT: 0 INS: 0 ENUM#: 1 DISCONNECT#: 1 LED#: 1 Handle: closed EIM: 0 LOO: 0 FFs valid: 1 Close Handle Extraction armed Disconnected Handle: closed EIM: 0 LOO: 0
CP390 4.2.6 Hotswap Programming the GPIO’s This sub-chapter provides information for programming the GPIO’s (General Purpose I/O’s) of the PCI-to-PCI bridge. 4.2.6.1 GPIO: Output Enable Control Register - Offset 66h This section describes the GPIO for the Output Enable Control Register.
CP390 Hotswap 4.2.6.3 GPIO Output Data Register - Offset 65h This section describes the GPIO output data register. Dword address = 64h Byte enable p_cbe_1<3:0> = xx0xb Table 4-5: GPIO Output Data Register - Offset 65h Dword Bit 11:8 Name GPIO output enable write1-to-clear R/W R/W1TC Description The gpio<3:0> pin output data write-1-to-clear. Writing 1 to any of these bits drives the corresponding bit low on the gpio<3:0> bus if it is programmed as bi-directional.
CP390 CompactPCI System Notes Appendix A CompactPCI System Notes A B System Overview .................................................................. A - 2 1 Note on CompactPCI ........................................................ A - 2 2 Main Features of CompactPCI Systems ........................... A - 2 System Components ............................................................. A - 3 ID 19976, Rev.
CP390 CompactPCI System Notes CompactPCI System Notes A System Overview The PEP Modular Computers CompactPCI systems described in this chapter operate with the PCI bus architecture to support additional I/O and memory-mapped devices as required by various industrial applications. In the following you will find the most important information on all system relevant CompactPCI features.
CP390 B CompactPCI System Notes System Components PEP Modular Computers have devised their CompactPCI systems as a comprehensive open solution for industrial environments, offering different workstation configurations which are capable of including all the components necessary to fulfill the requirements of virtually all existing system functionalities. CompactPCI Backplane(s) • • • • 4-slot backplane; 6-slot backplane; 8-slot backplane; 16-slot (2 × 8) backplane.
CP390 CompactPCI System Notes System Hardware The PEP CompactPCI system hardware includes housings, storage devices, power supply units, network adapters etc. The most important system hardware elements with which to configure your CompactPCI system are as follows: Multiprocessor In a CompactPCI multiprocessor system, a system controller communicates with other CPU’s through a non-transparent PCI / PCI bridge.
CP390 CompactPCI System Notes Form Factors PEP Modular Computers CompactPCI boards are available in different form factors, mainly as 3U (single-height) and 6U (double-height) boards and as 4HP (single-width), 8HP (double-width), and 12HP (triple-width) boards. Please note that the following units of measurement are used to express the dimensions of PEP CompactPCI card slots: • • Height: 1 U = 44.45 mm Width: 1 HP = 5.
W W W Server Computer Add-ons HDD FDD Host Computer Host Computer CD-ROM Graphics Fieldbus COM PanelLink SERCOS LPT VGA PROFIBUS Communic. Keyboard LVDS CAN ImageControl Industrial I/O F.Ethernet RGB Digital I/O SYNC Analog I/O CPCI Backplane CompactPCI Workstation ID 19976, Rev.
