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Related Manuals for Curtiss-Wright GT200 VME
Summary of Contents for Curtiss-Wright GT200 VME
- Page 1 GT200 Hardware Reference Document No. G-T-MR-G1VME6U#-A-0-A2...
- Page 3 Curtiss-Wright Controls, Inc. reserves the right to make changes without notice. Curtiss-Wright Controls, Inc. makes no warranty of any kind with regard to this printed material including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose.
- Page 4 This product is intended for use in industrial, laboratory, or military environments. This product uses and emits electromagnetic radiation, which may interfere with other radio and communication devices. The user may be in violation of FCC regulations if this device is used in other than the intended market environments.
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Page 5: Table Of Contents
3.1 Overview ..........................3-1 3.2 Unpack the Card........................3-1 3.3 Inspect the Card........................3-1 3.4 Configure the GT200 VME Card ..................... 3-2 3.4.1 Configuration Switch (S2) ..................3-2 3.5 Configure the GT200 PMC Card....................3-3 3.5.1 Installing SFP Modules..................3-3 3.6 Install the Cards........................ - Page 6 4.4.3 10/100 Ethernet Interface..................4-9 4.4.4 10/100/1000 Ethernet Interface................4-9 4.4.5 GT200 VME Configuration................... 4-9 4.4.5.1 Configuring GT200 VME Via RS-232 (Serial) Console ....4-9 4.4.5.2 Configuring GT200 VME Via Ethernet..........4-10 4.4.5.3 Factory Default Configuration ............4-10 4.4.5.4 VME Address Window Configuration..........4-10 4.4.5.5 VME Slot Number Configuration .............
- Page 7 TABLE OF CONTENTS TABLES Table 3-1 Slot Configuration Switches ......................3-2 Table 3-2 System Control Switches ....................... 3-2 Copyright 2005 GT200 VME Hardware Reference...
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Page 9: Introduction
1.1 How to Use This Manual 1.1.1 Purpose This document is a reference manual for the GT200 VME card. It provides a physical and functional description of the GT200 VME card. The manual describes how to unpack, set up, install, and operate the hardware. -
Page 10: Quality Assurance
• Curtiss-Wright Controls, Inc web address: www.cwcembedded.com 1.3 Quality Assurance Curtiss-Wright Controls’ Corporate policy is to provide our customers with the highest quality products and services. In addition to the physical product, the company provides documentation, sales and marketing support, hardware and software technical support, and timely product delivery. -
Page 11: Technical Support
World Wide Web address: www.cwcembedded.com 1.5 Ordering Process To learn more about Curtiss-Wright Controls’ products or to place an order, please use the following contact information. Hours of operation are from 8:00 a.m. to 5:00 p.m. Eastern Standard/Daylight Time. •... - Page 12 INTRODUCTION This page intentionally left blank Copyright 2005 GT200 VME Hardware Reference...
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Page 13: Product Overview
Curtiss-Wright Controls GT200 VME card is a single-slot, single-card computer that utilizes a Motorola MPC8540 I/O processor, Tundra Tsi148 VME to PCI/X Bridge, 256 MB of DDR SDRAM and 128 MB of Flash memory. The GT200 VME card has one PMC slot in which a GT200 PMC card is installed. -
Page 14: Sfp Media Options
It is also suited for short reach intersystem connections (< 250 m). The SFP transceivers comply with the Small Form-factor Pluggable transceiver MultiSource Agreement (SFP MSA) to ensure compatibility between the different transceiver manufacturers. Copyright 2005 GT200 VME Hardware Reference... -
Page 15: Led Descriptions
2.2.1 LED Descriptions Six pairs of status LEDs along with RJ-45 connector LEDs are visible from the front panel of the GT200 VME card. The front panel LEDs are shown in Figure 2-3. From the left end of the panel: Power ON LED (Green) –... -
Page 16: Topologies
PRODUCT OVERVIEW 2.3 Topologies There are various topologies for the GT200 VME card. These topologies should cover most customer applications, though if another topology is desired contact Curtiss-Wright Controls, Inc. Technical Support to see if it is possible. The topologies are:... -
Page 17: Point-To-Point
A monitoring topology is a non-redundant ring with one of the nodes transmitting the data on its second transceiver to a monitoring node. The monitoring node can be used to watch the status of the ring and check the ring’s health. Copyright 2005 GT200 VME Hardware Reference... -
Page 18: Linkxchange Glx4000 Physical Layer Switch
• Fan tachometer monitor. For detailed information regarding the GLX4000 features and operation, contact Curtiss-Wright Controls, Inc. and request a copy of the GLX4000 Physical Layer Switch Hardware Reference Manual or visit our web site. Copyright 2005 GT200 VME Hardware Reference... -
Page 19: Vlx2500 Physical Layerswitch
• 32 KB Non-volatile SRAM (NVSRAM) For more detailed information regarding VLX2500 features and operation, contact Curtiss-Wright Controls, Inc. and request a copy of the LinkXchange VLX 2500 Physical LayerSwitch Hardware Reference Manual or visit our web site. Copyright 2005... -
Page 20: Switch Ring
Control Station 3 Control Station 4 Figure 2-4 Switch Ring Any node can be the initiating node. Any data write by the host to the GT200 VME memory triggers a message to all nodes to replicate the new data. Copyright 2005... -
Page 21: Redundant Switch Ring
Transceiver 1 Switch 1 Switch 2 VLX2500 VLX2500 GT200 VME GT200 VME GT200 VME GT200 VME Transceiver 1 Transceiver 2 Transceiver 2 Transceiver 1 Control Station 4 Control Station 3 Figure 2-5 Redundant Switch Ring Copyright 2005 GT200 VME Hardware Reference... -
Page 23: Installation
Any optional equipment is shipped in separate cartons. 3.3 Inspect the Card The GT200 VME consists of a VME64x carrier card with a GT200 PMC installed. If the assembly was damaged in shipping, notify Curtiss-Wright Controls, Inc. or your supplier immediately. -
Page 24: Configure The Gt200 Vme Card
OPEN: If AUTO Slot ID feature is enabled, VME SYSFAIL* is asserted and then automatically cleared by hardware in the Tsi148. CLOSED: VME SYSFAIL* is de-asserted by the on-board GT200 VME processor after the card is initialized (default). Position 3: VME AUTO Slot Enable (ASIDEN) and Position 4: Geographical Slot ID Enable (GSIDEN) –... -
Page 25: Configure The Gt200 Pmc Card
To insert an SFP module, hold the module with the PCB cutout facing downward toward the GT200 VME card and slide it into the receptacle cage on the card. There will be a small click as the module latches into place. The SFP module is designed to only fit into the receptacle cage a certain way. -
Page 26: Connect The Fiber Optic Cables
Attach the fiber-optic cables to the connectors on the GT200 card. Figure 3-1 and Figure 3-2 depict the types of fiber-optic connectors needed for the GT200 VME card. Figure 3-1 Fiber-optic Simplex LC Connector Figure 3-2 Fiber-optic Duplex LC Connector Copyright 2005 GT200 VME Hardware Reference... -
Page 27: Troubleshooting
__________________________________________ Firmware Version*: __________________________________________ Configuration/Status Info*: __________________________________________ S2 Switch Settings: __________________________________________ Problem Reproducibility: __________________________________________ Problem Description: __________________________________________ * This information is available through the GT200 VME menu system see section 4.4.5 GT200 VME Configuration. Copyright 2005 GT200 VME Hardware Reference... - Page 28 INSTALLATION This page intentionally left blank Copyright 2005 GT200 VME Hardware Reference...
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Page 29: Operation
The GT200 VME product is a VME64x carrier card with a GT200 PMC card installed. The GT200 VME appears simply as a block of GT200 memory mapped as a VME slave device. The memory is accessible by VME master devices using a variety of slave access modes. -
Page 30: Ring Topology
It follows from above, that if two nodes on a ring share the same node ID, they will remove non-native packets from the ring. Copyright 2005 GT200 VME Hardware Reference... -
Page 31: Interface Standards
(corrected) in the retransmission process. The network also includes other error detection mechanisms, such as an invalid transmission word encountered during the decoding process. Network errors include CRC error, encoding error, framing error, and expired message error. Copyright 2005 GT200 VME Hardware Reference... -
Page 32: Latency
5 ns to a frame’s latency. A complete discussion of GT200 network latency is beyond the scope of this manual. For more information, see Curtiss-Wright Controls Technote G-T-ST-SCTN0138-A-0-A1, or consult with our Tech Support staff. 4.2.11 Message Ordering Host writes to the network progress in-order;... -
Page 33: Network Status Messaging
This guarantees that the data is available on all other nodes. WARNING: This mode is not recommended for applications that use duplicate node IDs or for open-ring topologies. Copyright 2005 GT200 VME Hardware Reference... -
Page 34: Tx Enable
Link Receiver Enable Enable Wrap Wrap Receiver 1 Link Laser 0 Link Select Receiver 0 Retransmit Enable Receive Foreign Enable MEMORY Native Write Me Last Transmit Enable Host Data In Figure 4-3 Configuration Switch Diagram Copyright 2005 GT200 VME Hardware Reference... -
Page 35: Gt200 Block Pmc Diagram
NET_STAT ....Network Status Look Up Table RX_FIFO....Receive FIFO. Buffers received data MEM_CTRL ..Memory Controller RAM.......Memory. 125 MHz 32-bit DDR SDRAM TXM_FIFO ....Transmit to Memory FIFO. Buffers transmit data RW_FIFO....Read/Write FIFO RC_CTRL ....Read Cache Controller Copyright 2005 GT200 VME Hardware Reference... -
Page 36: User Interfaces
OPERATION 4.4 User Interfaces 4.4.1 VME Interface 4.4.1.1 VME Slave The GT200 VME memory appears as a 128 MB VME slave window and supports the following types of accesses: • Address: A16, A24, A32, or A64 • Data: D8, D16, and D32 Single Cycle Transaction (SCT) •... -
Page 37: 10/100 Ethernet Interface
Configuration changes made using the menu system are stored in flash memory, and will be retrieved and restored each time GT200 VME is powered up. Changes also take effect real-time after the user gives confirmation, unless otherwise noted. For example, changes to the IP settings will be delayed until boot-up unless forced into effect when prompted. -
Page 38: Configuring Gt200 Vme Via Ethernet
Telnet connections provide the same menu interface as RS-232 connections. In order to connect, one must know the IP address of GT200 VME on the network. The Ethernet configuration settings, including IP address and MAC address, can be retrieved using an RS-232 connection. -
Page 39: Vme Slot Number Configuration
(A16 only provides 64 KB of addressable memory and A24 provides 16 MB). See also the note below regarding granularity. It is not required that more than one window be enabled. All 128 MB of GT200 VME memory can be mapped in a single window using A32 or A64 address spaces. -
Page 40: Ethernet Interface Configuration
For static boot protocol, the IP address, network mask, and gateway address should all be entered using dotted decimal notation, e.g. 192.168.1.1. If DHCP is preferable, your network DHCP server may be configured to provide a fixed IP address to GT200 VME based on MAC address, though this is not required. -
Page 41: Appendix A - Specifications
A. A - SPECIFICATIONS APPENDIX A SPECIFICATIONS... - Page 43 H- AS-G6V128SC-30-GT200, 1300 nm Long Wave Pluggable Transceiver ......98,607 H- AS-G6V128SC-33-GT200, 1300 nm Long Wave Pluggable Transceiver (x2)..... 95,410 The MTBF numbers are based on calculations using MIL-HDBK-217F, Appendix A, for a ground- benign environment at 85° C. Copyright 2005 GT200 VME Hardware Reference...
- Page 44 1300 nm: Media........9 µm single-mode fiber Maximum Fiber Length: ..10 km Transmit Wavelength: ..1285 to 1330 nm Transmit Power: ....-9.5 to 0 dBm Receive Wavelength:...1100 to 1600 nm Receive Sensitivity: ....-19 to -3 dBm Copyright 2005 GT200 VME Hardware Reference...
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Page 45: Appendix B - Ordering Information
B. ORDERING APPENDIX B ORDERING INFORMATION... - Page 47 ORDERING INFORMATION B.1 Part Number Ordering Information B.1.1 GT200 VME PMC Ordering Information Table B-1 -GT200 VME Order Number Description H- AS-G6V128SC-00 GT200, No Media H- AS-G6V128SC-20 GT200, 850 nm Short Wave Pluggable Transceiver H- AS-G6V128SC-22 GT200 , 850 nm Short Wave Pluggable Transceiver (x2) H- AS-G6V128SC-23 GT200, (x1) 850 &...
- Page 48 Cable End 2 Part Number Part Number FHAC-S1SCLC01-00 FHAC-S2SCLC01-00 1 meter FHAC-S1SCLC03-00 FHAC-S2SCLC03-00 3 meters FHAC-S1SCLC05-00 FHAC-S2SCLC05-00 5 meters FHAC-S1SCLC10-00 FHAC-S2SCLC10-00 10 meters FHAC-S1SCLC20-00 FHAC-S2SCLC20-00 20 meters FHAC-S1SCLC30-00 FHAC-S2SCLC30-00 30 meters FHAC-S1SCLCxx-00 FHAC-S2SCLCxx-00 Custom Copyright 2005 GT200 VME Hardware Reference...
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Page 49: Glossary
GLOSSARY... - Page 51 DCD------------------------------- RS-232 line indicating. Data Carrier Detect deterministic ---------------------- Completely predictable message transit time from application to application. DHCP------------------------------ Dynamic Host Configuration Protocol. A protocol for assigning dynamic IP addresses to devices connected to the network. Copyright 2005 GLOSSARY-1 GT200 VME Hardware Reference...
- Page 52 ------------- The time required for a GT200 card to process an incoming frame and retransmit it on the network. point-to-point topology---------- A network topology in which one node connects directly to another node. Copyright 2005 GLOSSARY-2 GT200 VME Hardware Reference...
- Page 53 96-pin connector. system clock driver -------------- A functional module that provides a 16 MHz timing signal on the utility bus. Tx ---------------------------------- Abbreviation for transmit or transmitter. TxData----------------------------- RS-232 Transmission Data line Copyright 2005 GLOSSARY-3 GT200 VME Hardware Reference...
- Page 54 GLOSSARY This page intentionally left blank Copyright 2005 GLOSSARY-4 GT200 VME Hardware Reference...
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Page 55: Index
INDEX... - Page 57 2-2, 2-7, 3-3 HSSDC copper..........2-1 HSSDC2 receptacle ........2-2 receive sensitivity ........A-2 receive wavelength ........A-2 receptacle cage..........3-3 inspect ..........3-1, 3-2, 3-3 receptacles empty ............3-3 retimed port........... 2-7 Copyright 2005 INDEX-3 GT200 VME Hardware Reference...
- Page 58 SFP receptacle cage ........3-3 shared memory....... 4-1, 4-4, 4-5 unpack............3-1 replicated memory........4-4 status indicator heartbeat............2-7 watchdog timer ..........2-7 power on ...........2-7 write-me-last mode ........4-5 signal detect ..........2-7 transmitter on ..........2-7 Copyright 2005 INDEX-4 GT200 VME Hardware Reference...
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