Category: GE

The IC670MDL930 is a relay output module from GE Fanuc’s field control module series. The module features individually isolated channels, specifically six (6) Type A or Normally Open (N.O.) contacts and two (2) Type C Normally Open (N.O) and Normally Closed (N.C.) contact outputs.

Each output contact is rated at 5VDC / 24 VDC / 125 DC or 120 / 240 VAC nominal, with an actual voltage range of 0-130 VDC, 0-265 VAC, 47-63 Hz, and a maximum load current of 16 A per module.The modules are available in a fixed-coil, moving-armature relay type with a maximum current draw of 313 mA.

The module has typical isolation ratings between input-to-logic, user input-to-frame ground, and group-to-group isolation, specifically, 250 VAC continuous, 1500 VAC for 1 minute.

The module has a maximum current rating of 2.0 amps for resistive loads, a voltage range of 5 to 265 VAC; 5.30 amps for 2 to 0 VDC and 31.125 amps for 0 to 2 VDC, and a maximum inrush current of 5 A for 20 ms, with a maximum load current of 10 mA per input The module has a typical response time of 10 ms to ON and OFF signal transitions, and if used with inductive loads, the response time is 10 ms per input. The module’s response time to ON and OFF signal transitions is typically 10 ms, and when used with inductive loads, the maximum switching frequency is 20 cycles per minute per channel.

The IC670PBI001 is a Profibus interface unit that is part of the GE Fanuc field control family. This electrical device is mounted on the bus interface terminals and is powered by an external 24 VDC supply voltage. It allows field control I/O modules to exchange data with GE CPU modules over a Profibus network, enabling a high-speed distributed I/O architecture.

The IC670PBI001 is equipped with two (2) 9-pin D-shell connectors, one of which serves as a Hand Held Programmer (HHP) port for downloading and monitoring the IC670PBI001. while the other serves as a network interface port for data transfer at 9.6. 19.2. 93.75. 187.5. 500. 1500 Kbits, 3 Mbits, and 3 Mbits. The other port is used as a network interface port and communicates via the Profibus network at standard data rates of 9.6. 19.2. 93.75. 187.5. 500. 1500 Kbits, 3 Mbits 6 Mbit and 12 Mbits. This port requires shielded twisted pair or Belden #9463 cable as the physical medium for the Profibus network. The port supports linear Profibus topology or daisy-chain connections where the first and last nodes of the network are terminated by resistors. A single IC8PBI670 can host up to eight (001) field control I/O modules.

The Field Control IC670TBM001 Auxiliary Terminal Block is an auxiliary terminal block manufactured by GE Fanuc.

It provides additional terminals for analogue and high-density discrete I/O modules.

It also provides additional ground, return, or common connections. It comes with 9 barrier type terminals.

Each terminal accepts 1 or 2 AWG #14 gauge wire with a 2.1 mm2 cross section.

It can also be used to provide additional terminals for the shield during field wiring.

The IC670TBM001 Auxiliary Terminal Block’s connection point connection provides enough locations to easily terminate two wires from discrete I/O devices on the control panel.

The IC670TBM001 auxiliary terminal block can be connected to a properly installed DIN rail.

During installation, be sure to install the I/O terminal block first before inserting the auxiliary terminal block into the DIN rail.

The auxiliary terminal mounting lugs are positioned on the right side of the DIN rail.

During field wiring, the chassis ground of any module can be connected to the ground terminal of the auxiliary terminal block.

For 3-wire or 4-wire transmitters, an additional terminal strip with IC670TBM001 auxiliary terminal block must be used.

The module terminals are electrically connected together from the inside. If additional common terminals are required for efficient field wiring.

This optional terminal strip is an optimal solution for field control systems.

It can be connected as an additional device to the side of the I/O terminals in the field control station.

The GE Fanuc IC670TBM002 terminal block is an auxiliary I/O terminal block for devices in the GE Field Control product line, such as field control I/O modules.

The IC670TBM002 auxiliary I/O terminal block is typically used as an additional terminal block for I/O systems that require high-density discrete I/O modules and analogue modules.

It can also be used to make additional connections such as common connections, return connections and additional ground connections.

All terminals on the IC670TBM002 auxiliary I/O terminal block are internally and electrically interconnected.

Auxiliary I/O terminal blocks such as this one connect to the side of the host I/O terminal block, and they have panel-mounting feet that allow them to be mounted on a panel.

The GE Fanuc Field Control IC670TBM002 Auxiliary I/O Terminal Block has box-type terminals instead of the barrier-type terminals found on other auxiliary I/O terminals.

Its panel-mounting feet not only allow it to be panel-mounted, but also help it and its host device meet product vibration specification ratings, because they are as stable as possible during operation.

They also help it and its host device meet the product’s vibration specification ratings because they hold the Auxiliary I/O Terminal and its host device as stable as possible during operation.

The IC670TBM002 Auxiliary I/O Terminal Block can be field wired using instrumentation-grade shielded twisted-pair wire.

This wire is recommended because of its high noise immunity rating.

System Overview

The S2K Series is a family of high performance standalone brushless servo or stepper

amplifiers with integrated motion controllers and user configurable I/O functions.

Controllers are available in models configured for either resolver or serial encoder motor

feedback. Encoder-based S2K servo models can be used only with GE Fanuc S-Series

(SLM, SDM or SGM) servo motors. S2K resolver feedback servo controllers use GE

Fanuc MTR-Series (3N, 3S or 3T) servo motors or third-party motors with appropriate

ratings and resolver specifications. Please consult the factory for assistance in controlling non-GE Fanuc motors.

Servo models support continuous stall torque from 0.84–478 in-lb (0.095–54 Nm) while

the stepper model supports holding torque from 144–3.074 oz-in (16.3–21.7 Nm). Servo

controller models include four 230 VAC ratings of 4.3. 7.2. 16. and 28 amps continuous

and two 460 VAC ratings of 7.2 and 20 amps continuous (460 VAC models are only

available with resolver feedback). Peak currents of the 230 VAC servo models are two

times the continuous ratings while the 460 VAC servo models are 1.5 times the

continuous rating. The stepper controller has a rating of 5 amps.

Hardware Tips and Specifications

The DS200FCGDH1B is a door assignment and status card (FCGD). Developed by General Electric for its Mark V board family, the card can be installed in many GE-branded drives.

Once installed, the card acts as the interface system for a six-pulse phase control non-inverting bridge. the DSPC (Digital Signal Processing Card) relays information to the board for decryption.

This generates signals about diagnostic information and system feedback. This generates signals for diagnostic information and system feedback, which are then sent out using the drive’s integrated VME backplane.

This DS200FCGDH1B product collects a large amount of data from the drive’s integrated DSPC. The signals received by the board are converted to unit gating signals.

All system bridge pins receive this cell gating signal and return multiplexed cell status information to the card. the FCGD board also receives and scales feedback signals.

The three FGPA boards send feedback signals through fiber optic connections on the board. The included feedback includes frequency, voltage, and board status information.

The integrated IMOK LED status indicator provides the user with basic system status.

Board installation parameters provided by the manufacturer should be met to minimize the risk of equipment failure or error. Board functionality is dependent on proper wiring of the system.

An illustrated guide for wiring and installing the DS200FCGDH1B is provided in the equipment manual and data sheet. The entire Mark V series was originally powered by General Electric.

The above additional information for this DS200FCGDH1B printed circuit board product is largely reminiscent of the general Mark V Series instruction documentation and visual inspection of the DS200FCGDH1B unit itself.

This strategy was deemed necessary due to the legacy series status of this DS200FCGDH1B product and the concomitant lack of on-line instructional manual material that could be utilized for research purposes on this page.

With this in mind, the DS200FCGDH1B functional product number itself can be considered an important source of information on DS200FCGDH1B Board hardware components and component specifications.

About the DS200ITXDG1ABA

The DS200ITXDG1ABA board is labeled as a Dynamic Brake Buffer Board and is part of the Mark V Series manufactured by General Electric.

The Mark V Series, of which this DS200ITXDG1ABA product is a part, was one of the last of General Electric’s Mark product line to incorporate Speedtronic control system technology into its various products.

And since it was eventually discontinued many years after its initial release, it exists as a legacy product line.

This DS200ITXDG1ABA Printed Circuit Board, or PCB for short, is not an original development for its specific Mark V Turbine Control System family of functional roles; it is actually the DS200ITXDG1 Parent Dynamic Brake Buffer Board.

The DS200ITXDG1ABA PCB is conspicuously missing all three versions of the three important product versions of the DS200ITXDG1ABA PCB.

The assembly of this DS200ITXDG1ABA PCB has been specifically altered to utilize a Level A Major Function Revision, a Level B Minor Function Revision, and a Level A Drawing Configuration Revision.

Hardware Tips and Specifications

The required operation of the IXTD board is provided through the circuitry of the connected power supply/interface board (IMCP). When the IMCP and the IXTD board are connected, they are connected via a four-pin connector.

When the board is installed, it will be externally mounted and must be sized to meet the worst-case switching requirements of dynamically braked IGBTs.

The purpose of the snubber board is to be used to limit voltage transients at both ends of the IGBT and at all known operating conditions of the driver.

Another function of the DS200ITXDG1ABA board is to regulate the output of the IGBT gate driver board to match the electrical characteristics of the AT frame driver.

AT frame drivers are available in variable and constant torque applications. The drive output current rating for variable torque applications is 500 ARMS.

The DS200ITXDG1ABA board has three connector types: bus I/O connectors, input connectors for DBPL, and board pin connectors.

All of these connector types have different pin numbers, nomenclature, and descriptions, which are explained in depth and in detail in the DS200ITXDG1ABA instruction manual included above for your convenience.

Features

– High-speed, easy-to-use fiber optic network (170 Mbaud serial rate)

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

– Up to 2.000 meters between nodes, up to 256 nodes can be connected

– Data transfer rate of 6.2 Mbyte/s without redundancy

– Data transfer rate of 6.2 Mbyte/s without redundancy Data transfer rate of 3.2 Mbyte/s with redundancy

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

– Error detection – redundant transmission mode suppresses errors

– No processor overhead

– Processor is not involved in network operation

– Up to 1 Mbyte of reflected memory

– A24:A32:D32:D16:D8 Memory Access

– Single 6U VMEbus board

Product Overview

-The Reflective Memory concept provides a very fast and efficient way to share data between distributed computer systems.

VMIC’s VMIVME-5576 Reflective Memory interface allows data to be shared between up to 256 independent systems (nodes) at rates of up to 6.2 Mbyte/s. Each Reflective Memory board can be configured with up to 256 nodes.

Each Reflective Memory board can be configured with 256 Kbytes to 1 Mbyte of on-board SRAM. local SRAM allows fast reads of stored data.

Write data is stored in the local SRAM and broadcast to other Reflective Memory nodes via a high-speed fiber optic data path.

Data transfers between nodes are software transparent, so there is no I/O overhead.

Transmit and receive FIFOs buffer data during peak data rates to optimize CPU and bus performance and maintain high data throughput.

Reflective memory also allows interrupts to one or more nodes by writing to byte registers.

These interrupt (tertiary, user-definable) signals can be used to synchronize system processes or to follow any previous data.

Interrupts always follow the data to ensure that the data is received before the interrupt is acknowledged.

The IC694MDL940 is a PACSystem RX3i Discrete Output Module, formerly manufactured by GE Fanuc and now part of Emerson Automation.

The module has sixteen (16) normally open (N.O.) contacts divided into four (4) banks of four (4) outputs each.

Each contact output can operate at 5-30 VDC with a nominal voltage of 24 VDC; 5 – 250VAC at 47 to 63 Hz with a nominal input voltage of 120/240VAC.

Each channel is designed for a 2 Amp lead load, a maximum load per output and a maximum load of 4 Amps per common.

The module has a current draw of 7 mA with all outputs turned on by the 5 V bus on the backplane and 24 mA with all outputs turned on by the relay 135V bus on the backplane.

The IC694MDL940 is a sixteen (3) point relay output module for the Emerson Automation PACSystem RX16i series, formerly manufactured by GE Intelligent Platforms (GE IP).

The module has a single slot width, occupies a single slot on the backplane, and comes with four (4) output groups of four (4) relay outputs each.

The IC694MDL940 relay contacts are normally open (N.O.) contacts or type A contacts. Each output contact is rated for a maximum load of 2 amps pilot load.

Each output is rated for a maximum load, and each output group is designed to provide a maximum output current of 4 amps.

In addition, the module has a minimum load of 10 mA and a maximum inrush current of 5 amps. Each relay output channel has a response time of 15 ms.

For the maximum of two signal transitions, the module draws 7 mA @ 5VDC bus voltage and 24 mA for the relay 135V bus on the backplane.

These power ratings are based on all output channels energized.

The IC694MDL940 is equipped with sixteen (16) status LEDs, each representing an individual channel.

The energized LEDs indicate energized outputs and the de-energized LEDs indicate other outputs.

The module does not have a built-in mounted fuse for channel protection; therefore, the user may need to install an external fuse to protect the module.

This IC694MDL940 has 250 VAC continuous and 1500 VAC (1-minute isolation rating) from field to backplane and frame to ground.

And channel-to-channel isolation is 250 VAC continuous; 1500 VAC for 1 minute.

About the IC694MDL930

This IC694MDL930 is part of the PACSystem RX3i midrange programmable automation controller (PAC) platform.

It is designed for use as a relay output module with eight (8) independently isolated normally open (N.O.) or A-type contact outputs.

Each output contact essentially has a separate common and dry contact, allowing different voltage types and levels to be connected exclusively to the module.

i.e. 5-30 VDC (nominal 24 VDC) and 5-250VAC (nominal 120/240VAC).

The current capacity of each output channel is 4 amps www.cniacs.com per output when used with resistive loads and 2 amps per output when used with pilot load devices.

Current capacity is 2 amps per output channel. For UL installations, the maximum load current that the module can withstand is 30 amps and varies according to ambient temperature.

Conversely, the minimum load that the module can withstand is 10 mA, and the module’s output channels have a typical response time of 15 ms between on and off switching, while the module’s maximum backplane current is 2 amps.

The module’s maximum backplane current draw is 6 mA, and all outputs are energized by a 5 VDC bus on the backplane.

All outputs are energized by a relay 70VDC bus on the backplane and the maximum backplane current consumption is 24mA.

The module also supports mounting to 90-30 series backplanes. It can be used as a local output module, mounted on a central processing unit (CPU) chassis, or with an appropriate communications adapter.

It can also be mounted on an extended remote distributed I/O station with appropriate communication adapters.

It is classified as a high voltage module and has eight (8) status LEDs to characterize the energized state of each output channel.

The module does not come with channel protection such as fuses or RC buffer circuits.

The IC694MDL930 RX3i is a 3-channel relay output module for the GE Fanuc RX8i PACSystems discrete I/O PLC series.