PACSystems RX3i Bedienungsanleitung
PACSystems* RX3i
IC695RMX128-CG
GFK-2511H Redundancy Memory Xchange Module
July 2013
The PACSystems*Redundancy Memory Xchange (RMX) module
operates as a node on a reflective memory network or as a dedicated
link between CPUs in an RX3i Hot Standby CPU Redundancy system.
When the RMX is not being used as a link in a redundancy system, it
is functionally identical to the IC695CMX128 module. Each node in the
network can be any reflective memory device that is compatible with
the 5565 family. Whenever data is written to one node, all nodes on
the network are automatically updated with the new data.
When used as a node on a reflective memory network, the RMX
module provides deterministic sharing of data among PLCs and other
computing devices on a high-speed fiber optic network. A reflective
memory network can contain up to 256 nodes.
Each node in the reflective memory network is connected in a daisy-
chained loop using fiber optic cables. The transmitter of the first node
is tied to the receiver of the second. The transmitter of the second
node is tied to the receiver of the third node, and so on, until the loop is
completed at the receiver of the first node.
When used in a CPU redundancy system, the RMX modules provide a
path for transferring data between the two redundancy CPUs in the
redundant system. A complete communications path consists of one
RMX in the primary unit, one RMX in the secondary unit, and two high-
speed fiber optic cables connecting them to each other. This must be a
two-node ring: no other reflective memory nodes are allowed to be part
of this fiber optic network.
GE Intelligent Platforms strongly recommends two redundancy links
(a total of four RMX modules) be configured and installed. Optionally,
systems can be configured for a single redundancy link (a total of two
RMX modules).
When the RMX is being used as link in a redundancy system, it cannot
be used as a general-purpose Memory Xchange module. For details
on the operation of a PACSystems CPU redundancy system, refer to
the PACSystems Hot Standby CPU Redundancy User’s Manual,
GFK-2308.
A PACSystems RX3i main rack supports a maximum of six Memory
Xchange modules in any combination of RMX128 and CMX128
modules. A maximum of two RMX modules can be configured as
redundancy communication links.
*indicates a trademark of GE Intelligent Platforms, Inc. and/or its affiliates. All other trademarks are the property of their
respective owners. All rights reserved.
2 RX3i Redundancy Memory Xchange Module
GFK-2511H
Features
■PACSystems RX3i single slot form factor.
■128 Mbytes reflective memory.*
■Software configuration of all node parameters (no jumper or switch settings required).*
■High-speed easy-to-use 2.12 Gbaud fiber-optic network.
■No RX3i CPU processing required to operate the network.
■Network-compatible with VMIC 5565 family of reflective memory devices, including the RX7i CMX/RMX
module.
■Connection with multimode fiber up to 300m/984.25ft.
■Dynamic packet sizes of 4 to 68 bytes, controlled by the RMX128 module when configured to operate as
a CMX128 module.
■Maximum network transfer rate of 2.1 Gbyte/S programmable module interrupt output.
■Four general-purpose network interrupts with 32 bits of data each.*
■Network error detection.
■Up to 256 nodes per network.*
■Redundant transfer mode operation. This optional mode reduces the chance of a data packet being
dropped from the network.*
■Configurable network memory offset allows you to assign nodes on a network to groups according to the
16MB segment in the network address space that they use.*
The RMX128 module must be located in an RX3i Universal Backplane. The module can be hot-inserted and
removed following the instructions in the PACSystems RX3i System Manual, GFK-2314.
*Not available when operating as a redundancy link in a CPU redundancy system.
Specifications
Packet size
Dynamic, automatically controlled by RMX128 module
User memory
128MB SDRAM
Input power
(from RX3i power supply)
580 mA @ +3.3 VDC
220 mA @ +5 VDC
Connectors
■Fiber optic LC type, conforms to IEC 61754-20
■Zirconium ceramic ferrule
■Insertion loss: 0.35 dB (maximum)
■Return loss: -30dB
Refer to the PACSystems RX3i System Manual, GFK-2314, for product standards and general specifications.
Related Publications
Available at www.ge-ip.com/support
PACSystems CPU Reference Manual, GFK-2222
PACSystems RX3i System Manual, GFK-2314D or later
PACSystems Memory Xchange Modules User’s Manual, GFK-2300D or later
PACSystems RX3i Ethernet NIU User’s Manual, GFK-2439
PACSystems Hot Standby CPU Redundancy User’s Guide, GFK-2308C or later
RX3i Redundancy Memory Xchange Module 3
GFK-2511H
Ordering Information
Description
Catalog Number
Reflective Memory Xchange Module for RX3i
IC695RMX128
Fiber Optic Cables
VMICBL-000-F5-0xx,
where 0xx distinguishes different lengths
Reflective Memory Hub
VMIACC-5595
Installation in Hazardous Locations
EQUIPMENT LABELED WITH REFERENCE TO CLASS I, GROUPS A, B, C & D, DIV. 2
HAZARDOUS LOCATIONS IS SUITABLE FOR USE IN CLASS I, DIVISION 2, GROUPS A, B, C, D
OR NON-HAZARDOUS LOCATIONS ONLY
WARNING - EXPLOSION HAZARD - SUBSTITUTION OF COMPONENTS MAY IMPAIR
SUITABILITY FOR CLASS I, DIVISION 2;
WARNING - EXPLOSION HAZARD - WHEN IN HAZARDOUS LOCATIONS, TURN OFF POWER
BEFORE REPLACING OR WIRING MODULES; AND
WARNING - EXPLOSION HAZARD - DO NOT CONNECT OR DISCONNECT EQUIPMENT
UNLESS POWER HAS BEEN SWITCHED OFF OR THE AREA IS KNOWN TO BE
NONHAZARDOUS.
EMC Installation Requirements
To meet EN 55011 and FCC Class A radiated emissions, the Control system in which the
IC695RMX128 module is used shall be mounted in a metal enclosure. All surfaces of the enclosure
must be adequately grounded to adjacent surfaces to provide electrical conductivity. Wiring external
to the enclosure must be routed in metal conduit or the equivalent. The conduit must be mounted to
the enclosure using standard procedures and hardware to ensure electrical conductivity between the
enclosure and conduit.
Applications using this module outside a grounded metal enclosure may experience RF interference
at 956.24MHz, 3.08GHz, or 3.29GHz.
When installing, operating, or maintaining the IC695RMX128, personnel must insure any electrostatic
charge is discharged through the use of a grounded ESD strap or other means.
4 RX3i Redundancy Memory Xchange Module
GFK-2511H
Release History
Release
Version
Date
Comments
IC695RMX128-CG
2.00
Jul. 2013
This update prevents a rare memory read data
corruption issue from occurring.
IC695RMX128-BF
1.07
Feb. 2013
This firmware update enhances the data corruption
self-correcting mechanism to provide additional
detection and correction capability for memory
reads.
IC695RMX128-BE
1.06
Dec. 2012
This hardware update addresses a rare condition in
which some units may exhibit an impedance
between system 0V and earth ground that is lower
than the designed value.
IC695RMX128-AE
1.06
Oct. 2012
The mechanism used to report the memory read
data corruption via the parity error LISR bit and
interrupt has been removed in version 1.06 in favor
of a new self-correcting mechanism that is
transparent to the user application and handled
internally by the CPU (beginning with CPUv7.17).
IC695RMX128-AC
1.04
Aug. 2011
Increases the maximum packet size that can be
accepted and processed to 68 bytes when
configured to operate as a CMX128 module.
Adds the ability to detect and correct a rarely
occurring condition of corruption in data read
operations.
IC695RMX128-AB
1.01
Feb. 2009
Initial release.
Important Product Information for this Release
Upgrades
Caution
Do not install firmware version 2.00 or later on hardware versions –Ax or –Bx. This will render the unit
inoperable and will require the unit be returned to the factory.
Do not install firmware versions earlier than 2.00 on hardware versions –Cx or later. This will render the
unit inoperable and will require the unit be returned to the factory.
RX3i Redundancy Memory Xchange Module 5
GFK-2511H
Functional Compatibility
The RMX requires the following versions for configuration and operation.
Subject
Description
Programmer Version Requirements
PME version 5.90 SIM1 or later must be used for compatibility with the
RMX128 module.
RX3i CPU
RX3i CPU firmware 7.75 (or later) is required to be used with RMX128
hardware version –Cx and firmware version 2.00.
PACSystems RX3i CRU320 is required for use in a redundancy system.
RMX128 Versions
Firmware version 2.00 is not compatible with earlier hardware versions.
Firmware versions earlier than 2.00 are not compatible with 2.00 and later
(-Cx and later) hardware versions.
Rack Location
The RMX128 must be located in the main RX3i rack. IC695RMX128
modules require a PCI backplane, which is not available on
IC694CHSxxx expansion bases.
Problems Resolved by Release 2.00
Subject
Description
Memory Read Data Corruption
Revision -CG prevents the rare condition of corruption during a
memory read from occurring. This condition was seen by users as
a broken redundant link on an RMX128.
Restrictions and Open Issues in this Release
Subject
Description
RX3i RMX/CMX modules require
grounded ESD strap for EMC Installation
When installing, operating, or maintaining the IC695RMX128,
personnel must insure any electrostatic charge is discharged
through the use of a grounded ESD strap or other means to meet
IEC-61000-4-2 (ESD) requirements. A direct electrostatic discharge
event of 4kV or higher applied to the metal optical transceiver
housing may result in a lights out module requiring a power cycle to
recover.
RX3i RMX and CMX modules require a
metal enclosure to meet radiated
emissions requirements.
For installation requirements, see “Government Regulations” on
page 3.
6 RX3i Redundancy Memory Xchange Module
GFK-2511H
Subject
Description
RX3i CMX/RMX does not disable
transmitter when the CPU goes to
Stop/Halt mode.
For IC695CMX128 and IC695RMX128 modules not used as
redundancy links, the automatic transmitter disable feature
currently does not work correctly when a controller goes to
Stop/Halt mode. When the CPU goes to Stop/Halt mode or fails
and the automatic transmitter disable feature is enabled, the fiber
optic transmitter should be turned off, breaking the reflective
memory link. When the feature is disabled, the transmitter remains
ON and the reflective memory link will not be broken.
If this feature is enabled, the automatic transmitter disable feature
does not work when the CPU goes into Stop/Halt mode (such as
after a software watchdog trip or multi-bit ECC error detection)
leaving the fiber optic transmitter ON. The fiber optic transmitter is
properly disabled if the CPU fails or is lost (for instance the CPU
hardware is removed, the CPU experiences a hardware watchdog
event, or displays a blink code such as a page fault).
This user-configurable feature is enabled by default. The feature
may be disabled by clearing bit 12 with a BUS_WRITE to region 3,
offset 0x440.
Parity error received after extended run
on RMX module.
Infrequently, if parity is enabled on the RMX128 module when it is
not used as a Redundancy link, the module may intermittently
report a false parity error, although the associated data is valid.
The problem is more likely to occur when the same memory
locations are simultaneously and constantly accessed from both
the network and the RX3i backplane side.
The LCSR status bit is not turning ON
after LISR turns ON when Interrupt (Sync
Loss) is generated.
When a sync loss condition is detected the LISR bit is latched ON
but the LCSR sync loss bit is not latched ON (i.e. it remains OFF).
To check the sync loss status, monitor the sync loss bit in the LISR
register instead of the LCSR sync loss bit.
SVC_REQ 17 is not supported
SVC_REQ 17 is not supported to mask or unmask module
interrupts on RX3i CPUs. There is currently no way to identify
which module interrupt should be masked on RX3i. For RX7i this
was handled by a table of values, but this table of values is invalid
on RX3i. Instead the customer should simply turn off interrupts
using the normal interrupt disabling mechanism as described in the
user's manual.
Operational Notes
Bad Data Interrupt
To prevent continuous interrupts when the Bad Data Interrupt is
enabled, you may want to temporarily set bit 8 in the LIER to 0
when a sync loss condition is detected. If your application is also
using the Sync Loss Interrupt, you may also want to temporarily set
bit 11 in the LIER to zero when the sync loss condition is detected.
You can then re-enable the Bad Data Interrupt (and Sync Loss
Interrupt if it was also disabled) when the sync loss condition has
been corrected.
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