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March 19, 2025 BY
IN GE

IC693CHS398 5-Slot Expansion Baseboards

Product Description

The IC693CHS397 is a 5-slot expansion baseboard for the 90-30 Series Programmable Logic Controller (PLC) platform.

Formerly manufactured by GE Fanuc and now part of Emerson Automation, this baseboard has five (5) main I/O slots,

one (1) power slot, and one (1) expansion port. The module supports the installation of standard 90-30 series I/O modules and specialized modules.

It can be mounted directly to the panel dcs-sis.com using the supplied mounting tabs.

About the IC693CHS398

The IC693CHS398 is an expansion backplane for the 90-30 Series PLCs, formerly manufactured by GE Fanuc and now part of Emerson Automation.

The module can be paired with a CPU baseboard and connected through the expansion port on the CPU baseboard.

With the IC693CHS398. the central processing unit (CPU) module can control additional I/O modules.

The number of expansion boards (e.g., IC693CHS398) allowed per system varies depending on the type of CPU used.

Specifically, up to four expansion boards can be used simultaneously for any of the CPUs 331. 340. and 341. and up to four expansion boards can be used simultaneously for CPU 350 and above.

The IC693CHS398 is equipped with five (5) I/O slots for option modules.

These slots are uniquely sized to prevent improper module installation. This backplane requires a dedicated power supply module to operate.

The power supply is installed through a dedicated power supply slot located on the left side of the hardware. There is also an expansion baseboard port on the far right side of the hardware for connecting additional expansion baseboards.

The IC693CHS398 measures 10.43 x 5.12 x 5.59 inches (W x H x D) and has an internal power requirement of 170 mA at 5VDC.

To ensure continuous communication, the expansion system allows up to 50 feet or 15 meters of interconnecting cable.

This hardware does not support the installation of PCMs, ADCs, Bus Expansion Modules (BEMs), and CMM311 modules.

The IC693CHS398 baseboard, manufactured by GE Fanuc and part of the 90-30 series, is an expansion baseboard.

It can be used as part of a large industrial control system.The IC693CHS398 Expansion Baseboard must always be connected to a CPU baseboard in the PLC, but can only be connected to a total of one CPU baseboard.

However, it is possible to connect multiple expansion baseboards at the same time.
March 19, 2025 BY
IN Motorola

Motorola MVME147 Single-Board Computer Single-Board Computer

Functional Features:

16. 25 or 33.33 MHz MC68030 Enhanced 32-bit Microprocessor

16. 25 or 33.33 MHz MC68882 Floating Point Co-Processor

4. 8. 16 or 32MB of shared DRAM with programmable parity

4K x 8 SRAM and timing clock with battery backup

Four 28/32-pin ROM/PROM/EPROM/EPROM sockets, 16-bit wide

A32/D32 VMEbus master/slave interface with system controller function

Four EIA-232-D serial communication ports

Centronics compatible printer port

Two 16-bit timers and watchdog timer

SCSI bus interface with DMA

Ethernet transceiver interface

4-level requester, 7-level interruptor and 7-level interrupt handler for VMEbus

On-board debugger and diagnostic firmware

VMEbus single board computers without dcs-sis.com additional backplane modules

The MVME147 series is a family of VMEbus single board computers.

The on-board resources and peripheral controllers eliminate the need for additional modules on the VMEbus backplane, reducing costs and freeing up valuable bus slots for other functions.

The MVME147 series utilizes the MC68030 enhanced 32-bit microprocessor.

The MC68030 is the first general-purpose microprocessor to provide on-chip cache memory for instructions and data, increasing processor efficiency by 20 to 40 percent.

The MC68030 has a full Memory Management Unit (MMU) that provides software protection and virtual memory functions critical to many applications.
March 19, 2025 BY
IN Motorola

Motorola MVME172P4 VME Embedded Controller with 4 IP Slots

Functional Features:

Processor options: 60 MHz MC68060 enhanced 32-bit microprocessor with 16KB cache, MMU and FPU;

or 64 MHz MC68LC060 enhanced 32-bit microprocessor with 16KB cache and MMU

A32/D64 VMEbus master/slave interface with system controller functionality

16MB Configurable SDRAM

512KB SRAM with Battery Backup

2MB Flash for on-board monitor/debugger or user-installed firmware

8K x 8 NVRAM and time clock with battery backup

Two serial communication ports, EIA-232-D DCE for console port, second port

User configurable to EIA-232-D/EIA-422 (V.36) DTE/DCE

Four 16-bit or two 32-bit IndustryPack® ports, dcs-sis.com one DMA channel per port

Six 32-bit timers, one watchdog timer

Optional SCSI and Ethernet interfaces

One 32-pin JEDEC socket for EPROMs

Four-slot IndustryPack logic interface for embedded monitoring applications

The MVME172P4 allows users of VME embedded controllers to realize the price/performance ratio of the RISC architecture while maintaining the MC68000 target code.

while maintaining MC68000 target code compatibility.

By combining the superscalar performance of the MC68060 with a wide range of optional features and the IndustryPack interface, OEMs can customize the MC68060 for their applications.

OEMs can choose the right product for their application without having to pay for features they don’t need.

The new “Petra” application-specific integrated circuits (ASICs) replace features previously implemented in the IP2 chip, MC2 chip, and MCECC chip, improving the performance of the memory subsystem.

Memory configuration switches enable customers to customize memory sizes for applications requiring smaller memory configurations.
March 19, 2025 BY
IN ABB

ABB REF601 REJ601 REM601 Specialized Feeder Protection Relay

OVERVIEW

The REF601/REJ601 are specialized feeder protection relays for the protection of utility substations and industrial power systems in primary and secondary distribution networks.

Similarly, the REM601 is a specialized motor protection relay for the protection of medium and low voltage asynchronous motors in manufacturing and process industries.

The REF601/REJ601/REM601 is a member dcs-sis.com of the ABB Relion® product family, belonging to the 605 series.

The relays optimize the combination of protection, monitoring and control functions in a single unit.

It offers best-in-class performance and availability and is based on ABB’s in-depth knowledge of protection and digital technology.

Common features of the REF601/REJ601/REM601 include

 Compact and easy to use

 Standard 1A or 5A CT input for phase current measurement

 Alternate sensor input to support phase current measurements

 Measurement of earth current internally or externally via the CBCT

 Local and remote control of circuit breakers

 Trip circuit monitoring and relay internal monitoring

 Lockout function

 100 event records with date and time stamps

 Five analog fault records

 Non-resettable trip counter

 Primary on-line current measurement

 Comprehensive local HMI

 Universal auxiliary power supply

 Optional MODBUS RTU or IEC 60870-5-103 communication

 Non-volatile memory for setup and fault logging

 User-selectable nominal frequency 50 / 60 Hz

 Configurable binary input, output, and alarm LED indicators

 Local HMI with multi-language support

 Two setup groups

Protection features of the REF601/REJ601 include

 Three levels of overcurrent protection

 Two levels of ground fault protection

 Surge detection for stability during transformer charging

 Thermal overload protection

 Negative sequence overcurrent

 Phase discontinuity protection

 Circuit breaker fault protection

 Multi-shot automatic recloser function for overhead lines
March 19, 2025 BY
IN A-B

A-B 1336-FAN-SP5A Radiator Fan Replacement Kit

Description of the Allen-Bradley 1336-FAN-SP5A

The Allen-Bradley 1336-FAN-SP5A is an assembly for Bulletin 1336 drives.

This unit is a cooling fan that mounts on the side of the heat sink of the 1336 Plus, Plus II, Impact, and Force drives. For use with G and H model hard drives.

About the 1336-FAN-SP5A

The 1336-FAN-SP5A is a replaceable cooling assembly that installs on Allen-Bradley’s 1336 Plus,

Plus II, Impact, and Force adjustable frequency AC drives from Allen-Bradley. The fan is mounted on the heatsink side of the Frame H and G drives.

It is a Class 3 component of the 1336 drive and is labeled FAN in the Troubleshooting Symbols Guide. a C-HB1 cap is included.

Outputs 250 HP, 300 HP, 350 HP, 400 HP, 450 HP, 500 HP, 600/650 HP, or Frame G drives and 700 HP drives.

One (1) of these assemblies is used per drive for 250 HP, 300 HP, 350 HP, 400 HP, 450 HP, 500 HP, 600/650 HP, or Frame G drives and 700 HP, 800 HP, or Frame H drives.

Since the entire 1336 drive has been phased dcs-sis.com out, this component has also been declared obsolete.

Since Rockwell Automation no longer manufactures this product, this part is only available as a spare part.

Fans are an important part of almost all compact units. The power dissipation of Rack G and Rack H drives ranges from the relative parameters to the fan performance.

can be found under drive parameter 70 (heat sink temperature). The minimum value for this parameter is 0. The maximum value is 255 degrees Celsius, but the drives operate at temperatures from 0 to 50 degrees Celsius.

In addition to the integrated fan, the hard disk’s environment can be properly maintained at the specified operating temperature by following the required mounting clearances and installing an appropriate climate control device.

It is important to note that the fan exhausts air from the hard disk, which means that hot air from the hard disk remains in the case.

An enclosure fan can be installed to pull air from the enclosure to continuously remove hot air from outside the panel.

The Allen-Bradley 1336-FAN-SP5A Heatsink Fan Replacement Kit with Fan Capacitor is for the

Allen-Bradley 1336 Plus, Plus II, Force, Impact, and Force Frame G and

H adjustable AC drives (known as Fan 2). It provides cooling and temperature control for the drive.
March 19, 2025 BY
IN SST

SST 5136-PFB-VME Profibus Interface Card

Card Overview

The 5136-PFB-VME card can be used as a

– as DP slave

– as DP master

– Send and receive FDL (Layer 2) messages

The card supports simultaneous operation in all these modes.

The card supports the standard ProfiBus baud rates of 9.6K, 19.2K, 93.75K, 187.5K, 500K, and 187.5K,

187.5K, 500K, 750K, 1.5M, 3M, 6M and 12M baud rates.

The card has an onboard Intel i960 processor and 512 Kbytes of local RAM,

The card has an on-board Intel i960 processor and 512 Kbytes of local RAM, which handles the communication protocols and data formats into shared RAM.

The 5136-PFB-VME includes

a VME bus interface with functions as described in the “Specifications” section of this manual

Five registers in the VME short address space for controlling the card. The card also has a 256 kilobyte RAM that

It is shared with the host in either a single 256-kilobyte block (linear addressing mode) or one of sixteen 16-kilobyte pages (paged mode).

In paged mode, the host decides which page of the shared RAM to map into host memory by writing to a register on the card.

This block of memory contains all the tables and buffers used to pass information between the interface card and the application software running on the host.

Passing information between applications running on the host. This method ensures a quick and easy connection between the card software.

In addition, the interface card has 512 Kbytes of segmented flash memory for storing program and configuration data. Program and configuration data.

ProfiBus configuration information can also be stored in the flash memory.

Access rights

The 5136-PFB-VME provides 8-bit access to objects in the short address space and 8-bit and 16-bit access to objects in the standard address space.

The VME master selects whether a particular bus dcs-sis.com cycle accesses the short address space, the standard address space, or the long address space (extended address space) by using the address modifier code,

Extended Address Space, Standard Address Space, Extended Address Space, or Long Address Space (Extended Address Space and Long Address Space are not used by the 5136-PFB-VME) for a particular bus cycle, as well as the type of access.

The card decodes these address modifier codes and determines the object to be accessed.

In addition to selecting one of the four available spaces on the VME bus, the address modifier code selects

– Whether the master is performing supervised or unprivileged accesses

– Whether the access is to program space or data space (all accesses except short address space)

– Whether it is a single object access or a block access

The 5136-PFB-VME can respond to address modifier codes 3Dh, 39h, 2Dh, and 29h.

Regulatory or unprivileged data accesses can be made to the standard address space (3Dh and 39h, respectively).

Supervised or unprivileged access to the short address space (2Dh and 29h, respectively) is available.

Accessing the board with an unsupported address modifier code results in a VMEbus error.

Bit 7 of the board DIP switch is used to select whether to allow supervisory access only, or both supervisory and unprivileged access.
March 19, 2025 BY
IN A-B

A-B 1336E-B030-AN-EN-GM1-HA2-L7E Adjustable Frequency Inverter

About the 1336E-B030-AN-EN-GM1-HA2-L7E

The 30 hp 1336E-B030-AN-EN-GM1-HA2-L7E drive is an Allen-Bradley AC drive that is part of the Allen-Bladley 1336 IMPACT product family.

For the Rack C 1336E-B030-AN-EN-GM1-HA2-L7E drive, the outputs and inputs are connected to TB1. which is the 11-position terminal block on the gate drive board.

National wiring codes should be considered during wiring to minimize the risk of injury and equipment damage.

The drive control interface supports TTL dcs-sis.com contacts. Encoder feedback is also provided on the drive.

The 1336E-B030-AN-EN-GM1-HA2-L7E drive is available with an output power of 22 kW or 30 hp at 380 to 480 volts AC input voltage.

Output current and apparent power ratings are 48.2 amps and 38 kVA, respectively.

The 1336E-B030-AN-EN-GM1-HA2-L7E drive draws 49 amps and 32 to 41 kVA at the input.

The input and output frequency ranges are 47 to 63 Hz and 0 to 250 Hz, respectively.

The driver output is capable of sustaining 100% of the rated current continuously or 150% of the rated current for up to 1 minute.

The maximum short circuit rating is 200.000 amps RMS symmetrical. The HMI is part of the standard driver package, which includes the controller and programmer.

Digital potentiometers are also available on the driver. The drive has an English language module. For network communications, the drive has a single point remote I/O interface.

The 1336E-B030-AN-EN-GM1-HA2-L7E drive is an open drive with an IP00 enclosure.

The recommended operating ambient temperature range is 32 to 122 degrees Fahrenheit. The drive has a shipping weight of 38.6 kg.

The dimensions of the drive rack are 701 x 301.8 x 225.0 mm.

1336E-B030-AN-EN-GM1-HA2-L7E Technical Description

This 1336 PLUS II Adjustable Frequency AC Drive is a 380-480 VAC unit with 22 (30) kilowatts (horsepower) and has a(n) open (IP00) enclosure.
March 17, 2025 BY
IN GE

VMIVME-3122 High Performance 16-bit Analog-to-Digital Converter Boards

The following overview of key features illustrates the flexibility and performance of the VMIVME-3122:

– 16. 32. or 64 differential or single-ended analog inputs

– 16-bit A/D conversion

– Selectable sweep rates from 381 Hz to 100 kHz (high performance option), 381 Hz to 50 kHz (standard performance option)

– Programmable gain of x1 or x10

– A/D converter ranges of ±2.5 V, ±5 V, ±10 V, 0 to +5 V, 0 to +10 V

– Programmable channel gain

– 16- to 1.024-word dual-port data buffer

– Operates in short I/O (A16), standard (A24), or extended (A32) data spaces

– Programmable channel block size and buffer size

– Optional low-pass input filter

– Continuous and burst operation modes

– Free-run or external/internal trigger

– Bus interrupter for mid-scan or end-scan indication

– Programmable interval timer for timing data bursts

– Direct wiring from VMIC signal conditioning boards

– Initialized after reset in Auto Scan mode, gain = x1

Functional Description

The VMIVME-3122 is a high-resolution, 16-bit, 64-channel analog scan and digitizing input board for VMEbus system applications.

Dual-port data memory, on-board timers, automatic gain control, and programmable bus interrupters enable the VMIVME-3122 to support large amounts of analog input traffic with minimal host processor involvement.

Analog inputs are scanned and digitized sequentially. Digital values are stored in dual-port data buffers that are readily accessible from the VME bus.

The gain of each channel can be programmed individually or set by software to a fixed gain common to all channels. Channel gains are software selectable to x1 or x10.

The A/D converter voltage ranges are jumper-selectable to ±2.5 V, ±5 V, ±10 V, 0 to 5 V, and 0 to 10 V. The A/D converter voltage ranges can be set to ±1 or x10 by software.

Upon system or program reset, the board will initialize in 64-channel auto-scan mode at 100 KHz with all channel gains initialized to 1 (x1).

After the reset operation, the program can dcs-sis.com select timed burst or triggered burst mode and modify the block size, buffer size, and channel gains as desired.

The channel block can be adjusted to 1. 8. 16. 32. or 64 channels, and the data buffer size can be selected from 16 to 1.000 channels.

The data buffer size is selectable from 16 to 1.024 data words in binary increments.

In standard performance mode, the board must be reprogrammed after a reset to obtain a 50 kHz scan rate. The value of $00F7 must be written to relative address $0006.

Timed Data Bursts are controlled by an interval timer that provides repeat or single burst intervals of up to 687 seconds.

A burst can contain from 8 to 1.024 channel samples. A data ready flag can be used in the middle or at the end of a scan, and an interrupt request can be generated at the same time as the flag.

An interrupt can also be initiated after a specific number of samples have been acquired.
March 17, 2025 BY
IN GE

Fanuc VMIPCI-5565 Ultra High Speed Fiber Optic Reflective Memory

Functional Features

– High-speed, easy-to-use fiber optic network (serial rate of 2.12 Gbaud)

– Data written to the memory of one node is also written to the memory of all nodes on the network

– Up to 256 nodes

– Connections up to 300 meters to multimode fiber and up to 10 kilometers to single-mode fiber

– Dynamic packet size, 4 to 64 bytes of data

– Transfer rates 47.1MB/sec (4-byte packets) to 174MB/sec (64-byte packets)

– 64MB or 128MB SDRAM Reflective memory

– Two independent DMA channels

– Any node on the network can generate an interrupt in any other node on the network or in all network nodes with a single command

– Error Detection

– Redundant transfer mode for additional error suppression

– No processor overhead

– Processor is not involved in network operation

– PCI 64-bit 66MHz Transport

– Compliant with PCI Revision 2.2

– Includes VMISFT-RFM2g network and shared memory drivers.

Features

Description: The VMIPCI-5565 is the PCI member of the dcs-sis.com VMIxxx-5565 family of reflective memory (RFM) real-time networking products from GE Fanuc Embedded Systems.

Other members of this family include the VME-compatible board VMIVME-5565 and the PCI mezzanine card (PMC) VMIPMC-5565.

All three products are network compatible and can be integrated into a network in any combination.

This family of products allows computers, workstations, programmable logic controllers (PLCs) and other embedded controllers with different operating systems or no operating system at all to share data in real time.

Reflective Memory boards are like shared memory for local nodes.

Any level of software, including the application program itself, can write to or read from the memory.

Data written to one node’s Reflective Memory is transferred by the network hardware to all other nodes and placed in the same addresses on those nodes’ Reflective Memory boards.

This data transfer does not require the involvement of a processor on any node. With this system, all nodes on the network have a local copy of the shared data that is immediately accessible.
March 17, 2025 BY
IN GE

VMIVME-2127 128-bit Voltage Source Digital Output Board with Built-in Test Support

Functional Features

– 128-bit voltage output

– High current driver (350 mA current source)

– Heavy duty options available

– Automatic overcurrent shutdown protection

– Thermal shutdown protection

– Output fault indication provided in status register

– High breakdown voltage (35 V)

– Output clamp diode for inductive flyback protection

– Compatible with intelligent I/O controllers

– Built-in test logic for fault isolation

– Compatible with VME bus (ANSI/IEEE STD 1014-1987 IEC 821 and 297)

– A24:A16:D32/D16/D08 (EO): Slave 39/3D:29/2D:6U Form Factor

– Front Panel with Fault LED

– Preheat resistor sockets available, to be supplied by the user

– External power supply can be connected on the front panel (P3 to P4) or on P2.

Compliance: This product complies with the VMEbus specification (ANSI/IEEE STD 1014-1987 IEC 821 and 297) and uses the following mnemonics: A24:A16: D32/D16/D08 (EO): Slave: 39/3D:29/2D:6U form factor

Output Connector Types: Three types of female dcs-sis.com mating connectors are available for use with the P3 and P4 interfaces: 96-pin mass termination (IDC) connectors, 64-pin IDC connectors, and 96-pin discrete wire connectors.

Part numbers for ERNI IDC DIN 96-pin and 0.033-inch 30 AWG ribbon cable are

96-pin connector 913 031 (ERNI)

96-pin cable 913 049 (ERNI)

Part numbers for Panduit IDC DIN 64-pin connectors and 0.050-inch ribbon cable are

64-pin connector 120-964-435E (Panduit)

Strain Relief 100-000-032 (Panduit)

64-conductor cable 9V28064-XXX (Belden)

Harting discrete wire connectors consist of a contact housing with female crimp contacts.

Housing with female crimp contacts Harting part numbers are as follows

96-pin connector 09 03 096 3214 (Harting)

Female crimp 09 02 000 8484 (Harting)` Contacts

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