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The IC695CHS007 is a general purpose backplane that is part of the PACSystem RX3i platform, currently part of Emerson Automation and formerly manufactured by GE Intelligent Platforms (GE IP). The backplane has one (1) slot for the IC695 power supply (slot 0) and PCI/serial based IO slots (slots 1-5) and PCI only slot (slot 6). The backplane supports IC695. IC694. and IC693 I/O and option modules or RX3i and 90-30 series modules. The modules are equipped with isolated 24 VDC terminal blocks, grounding points, and internal ground strips.IC695CHS007 is a general purpose backplane for the PACSystem RX3i family of programmable automation controllers (PACs). This backplane is a seven (7) slot backplane reserved for power and I/O modules. It natively supports any IO and option modules of the PACsystem RX3i series as well as the 90-30 series I/O and option modules.

IC695CHS007 Slot 0 is reserved for the IC695 power supply. Slots 1-5 are dual connector slots that support Peripheral Component Interconnect (PCI)-type connectors used by PACSystem components, such as the IC695 module, and serial connectors www.cniacs.com used by the 90-30 series of modules, specifically the IC693 and IC694 modules. Slot 6. the rightmost and last slot, is PCI-only and is compatible with RX3i modules only.

The IC695CHS007 is ideal for applications with limited mounting space or for the implementation of remote I/O architectures. The module comes with a 24 VDC terminal strip located at the left end of the rack. Backplane grounding points and an integrated ground strip are provided for connecting the shielding and grounding connections of the rack-hosted module. The slot number is also clearly printed on this rack so that the module can be installed accordingly.

There are two (2) versions of this IC695CHS007. specifically the initial version, IC695CHS007-AA, and the subsequent version, IC695CHS007-BA, which include mechanical enhancements, specifically the chassis’ backplane PCI connectors.

This IC695CHS007 is for horizontal casting only. Other mounting orientations may affect airflow and ultimately system performance. This rack mounts directly to the chassis panel through the mounting holes provided in the chassis.

– 8 single-ended 4-20 mA input channels

– Non-Flammable Field Circuitry

– HART Direct

– HART variable and status reporting

– 2-wire or 4-wire transmitter

– Open and short circuit detection

– Requires 24 VDC bus field power

Inputs

Number of channels

– 8. single-ended

Nominal Signal www.cniacs.com Range (Scale)

– 4 to 20 mA

Full signal range

– 1 to 23 mA

Line Fault Detection

– Short circuit current – > 23.5 mA

– Open circuit current – < 0.5 mA

Output voltage (@ 20 mA)

-13.5 V (min.)

Output current

– 32 mA (max)

Accuracy (over temperature range)

– ± 0.1% of range

Resolution

– 16 bits

Repeatability

– 0.05 of range

Isolation

– Any channel to rail bus – 100 V ac

– Between channels – none

Configurable parameters

Alarms

– High, High-High, Low and Low-Low

Alarm deadband (hysteresis)

– User-defined values

Hardware Tips and Specifications

While there is not a great deal of factory-released original manual IS215SECAH1A information available online, there is not a great deal of original manual information about the printed circuit board, but some useful material suggests that its status as a solar MACC-BPPB-WEMD component is a strong starting point. Additional information on the series and individual product status of the IS215SECAH1A boards can be obtained by careful visual inspection with a supplementary breakdown of the individualised IS215SECAH1A product numbers. For the uninitiated, two of the more obvious hardware components integrated into the IS215SECAH1A PCB substrate can be recognised in the standard issue Ethernet ports, which are placed longitudinally across each other on the large printed circuit board. Although the IS215SECAH1A board itself contains no other Ethernet ports, the centre of the BPPB board to which it is attached has two identical Ethernet ports. The drive manager has access to eight other ports that connect to this IS215SECAH1A board. These ports are all female and are attached to the edges of the IS215SECAH1A board during factory installation by using screw brackets to improve connection efficiency.

In addition to the various female ports available to users of the IS215SECAH1A board, a series of integrated circuits are integrated into the design of this SECA module. Each of them should be labelled with an individual reference mark, and some of them appear to carry their own factory-applied reference labels with individual component specifications. The final obvious standout hardware feature for the IS215SECAH1A’s circuit board assembly is its series of factory drilled holes. These factory-drilled holes, which are used for mounting purposes, are insulated for complete surface and internal voltage protection, and they are present on the IS215SECAH1A board in a total of five.

While a litany of pertinent information about the IS215SECAH1A printed circuit board is apparent from a simple visual inspection, additional facts about the www.cniacs.com product can be obtained through a simple breakdown of the unique IS215SECAH1A part number, including its special assembly version, SECA functional acronym, and its chemically applied conformal PCB coating protection. Coating Styles.

This IS420YAICS1B modular assembly from General Electric was originally designed and manufactured with the specific functional role of analogue I/O packages in mind for placement within the larger Mark VIe family of turbine control systems.

As its full extended series name implies, the Mark VIe family to which this IS420YAICS1B modular assembly belongs is in the popular, General Electric-compatible wind,

management and control systems for gas and steam turbines.

This is an upgrade to the heavily relied upon Mark V series, which only has specific applications in gas and steam turbine components.

It is a fact that the Mark VIe series, to which this IS420YAICS1B product belongs, is also recognised as the ideal General Electric Mark product family.

This is because it is one of the final GE www.cniacs.com Mark product families to be developed, utilising the patented Speedtronic control system technology that first appeared in the Mark I family introduced in the mid to late 1960s.

Hardware Tips and Specifications

Analogue I/O Pack IS420YAICS1B is part of the Mark VIe series manufactured by General Electric.

This I/O pack allows connection between up to two Ethernet and one terminated analogue I/O board.

The kit can handle up to 10 analogue inputs, two of which can be configured as ±1 mA or 4-20 mA current inputs, and the remaining eight as ±5 V or ±10 V inputs, or 4-20 mA current loop inputs.

The kit can send and receive data over dual RJ45 Ethernet connectors.

For convenience, this IS420YAICS1B I/O package consists of two components; a general processor board and a data acquisition board, as described in the IS420YAICS1B instruction manual that accompanies our manual tab above.

The diagnostic fault detection process for this IS420YAICS1B product is handled entirely through its data acquisition board.

The relevant terminal boards employed in the ruggedly supported modular components of the YAIC analogue I/O kit are the TBAISIC and STAIS2A terminal boards, which are also considered components of the larger Mark VIe turbine control system family.

This IS420YAICS1B device is not actually an original development for its specific Mark VIe Turbine Control System family of features;.

This must be regarded as an IS420YAICS1 parent analogue I/O package, and notably it does not take advantage of the uniquely important Class B functional product revisions of this IS420YAICS1B product.

This DS200SIOBH1ABA General Electric printed circuit board was originally manufactured for General Electric’s Mark V series.

The Mark V series offered by General Electric has specific applications in the management and control systems of gas, steam and wind turbines and is known as the Mark V Turbine Control System Series.

The Mark V series, to which this DS200SIOBH1ABA printed circuit board belongs, is considered to be General Electric’s legacy series.

as it has been discontinued in the years since its original production. Although it is a legacy series of General Electric.

The Mark V series, to which the DS200SIOBH1ABA www.cniacs.com PCB belongs, is one of the most recently developed product lines, utilising GE’s patented Speedtronic technology.

This technology was first introduced in the late 1960’s with the introduction of the Mark I. This DS200SIOBH1ABA PCB is one of the most recently developed product lines. This DS200SIOBH1ABA printed circuit board, or PCB for short, is better known by its official functional product description.

This DS200SIOBH1ABA printed circuit board, or PCB for short, is better defined as a SC2000 VME I/O board by its official functional product description, as shown in the original General Electric and Mark V series instruction manual documentation.

Given this, this DS200SIOBH1ABA printed circuit board is not the original SC2000 VME I/O board that existed in the Mark V turbine control system family; it would be missing this DS200SIOBH1ABA printed circuit board.

This would be missing the extensive revision history of this DS200SIOBH1 parent product DS200SIOBH1ABA PCB.

The IS215VCMIH2C has four built-in port connections placed on its front panel.

These include an RS-232C serial port, D-plug connector, and three IONet 10Base2 Ethernet ports.

Each IONet connector is associated with three LEDs labelled TX/RX/CD.

The board has additional LEDs labelled Status, Fail, Run and 1. 2. 4 and 8.

The former is located above the reset switch (button) and the latter is located directly below the serial port.

Each control module in a Mark VI system typically contains an IS215VCMIH2C, these unique VCMI cards are used to execute data through the control system’s application software in communication with the main processor module.

Due to the critical nature of the VCMI modules, it is recommended that additional spares are kept on the shelf to avoid machine downtime situations.

The IS215VCMIH2CA is a VME communications interface card that is part of the GE Speedtronic Mark VI gas turbine control system. This PCB is used as a link between the I/O board and the controller.

It is also used as a communication interface to the IONet or system control network. A four-port connector is integrated into the front panel of the IS215VCMIH2CA.

An RS-232C serial port, a D-plug connector, www.cniacs.com and three IONet 10Base2 Ethernet connectors are among the features.

Three LEDs labelled TX/RX/CD are connected to each IONet port.Status, Fail, Run, and 1. 2. 4. and 8 are among the many LED indications on the board.

The former is located above the reset button (pushbutton) and the latter is located directly below the serial port. The design includes a TI 32-bit digital signal processor chip. There are three transformer assemblies in total.

The VMEbus host controller card contains more than 50 integrated circuits, including an oscillator chip, which reduces high-frequency noise on the board through the use of inductive beads.

The board has two backplane connectors, a 12-pin vertical connector and a range of other conductive connectors.

The voltage feedback scaling board DS200NATOG2A is used in conjunction with two other boards in the LS2100 series, a gate assignment status board and a VME backplane board.

This model has five string outputs connected to a single 20-pin ribbon connector.

The DS200NATOG2A NATO board is a voltage feedback scaling board manufactured by General Electric.

This model is part of the second set of variants. The purpose of this model is to attenuate the AC and DC voltages on the SCR bridge.

When the DS200NATOG2A model performs these functions, it will ensure accurate derivation of bridge voltage feedback.

As mentioned above, the DS200NATOG2A model is a G2 unit that will replace the two bottom resistors with two jumpers, giving the model four resistors per string.

The output of the board is via five strings connected to a 20-pin ribbon connector.

In addition, there are several MOVs (metal oxide varistors) www.cniacs.com that prevent the output voltage from being too high if the ribbon circuit is interrupted while the input voltage is present.

The load resistors required for operation are located on the connected gate distribution status board, not on the NATO board.

VOLTAGE FEEDBACK SENSING BOARD TYPE DS200NATOG2A The attenuator voltage is set by a stinger connector and jumper for the G2 variant of the NATO.

There are several VLG and VLL inputs, one VLL input is 2200. the VLG input is 1270.17. and the VLG output for these inputs is 1.905.

For these particular inputs, there are several wire jumpers, two resistors, and an input stab connector JxA.

The DS200NATOG2A model uses multiple agency approvals; these certifications are CSA, EC and UL standards for controlled and known transients.

Compatibility

The discrete contact input/output terminal boards TDBT for TMR PDIO applications and TDBS for individual PDIO applications are compatible with the PDIOH1A.

IS220PDIOH1A Installation

Securely mount the selected terminal block.

Connect the terminal board connectors directly to the PDIO I/O package.

Mechanically secure the pack using the threaded studs next to the Ethernet port. The studs slide into the mounting brackets made for the specific style of terminal board.

No right-angle force should be applied to the DC-62 pin connector between the battery pack and the terminal block by moving the position of the bracket. Only one adjustment is required during the life of the product.

Connect one or two Ethernet cables, depending www.cniacs.com on the machine setup. Either port will allow the battery pack to operate. When using a dual connection, it is customary to link ENET1 to the network connected to the R controller.

Connect the connector on the side of the battery pack to a power source to supply power to the battery pack. Since the I/O pack has an inherent soft-start feature that regulates current inrush in power applications, it is not necessary to turn off the power before plugging in the cables.

If necessary, use the ToolboxST* programme to set up the I/O pack.

IS220PDIOH1A Operation

Each Mark VIe Ethernet I/O package or module shares a processing board. It contains the following:

A fast CPU with flash memory and RAM.

Two 10/100 Ethernet ports, connected and completely independent.

Hardware reset circuitry and watchdog timer.

Internal temperature sensor.

Status LEDs.

Ability to electronically read IDs on other boards.

Input power connector with current limiter and soft start.

Local power supply with monitoring and sequencing.

I/O packages or modules functionally specific to the capture board connected to the processor board. When input power is applied, the soft-start circuitry ramps up the available voltage on the processor board. The processor reset is turned off and the local power supply is turned on sequentially. After completing the self-test procedure, the processor loads the application code from flash memory specific to the I/O package or module type. To verify that the application code, capture board, and terminal board are properly matched, the application code reads the board ID information.

When a good match is made, the processor initiates an Ethernet connection by requesting a network address. Dynamic Host Configuration Protocol (DHCP) (industry standard) and the unique identifier of the terminal board are used for the address request. After Ethernet is initiated, the CPU runs the application, programs the on-board logic, and allows the acquisition board to begin operation.