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.

About the IC200ALG262

The IC200ALG262 is a component module of the VersaMax I/O platform. It is an analog input module designed to support differential current wiring.

It has eight (8) analog input channels designed to receive standard current input signals such as 0-20 mA and 4-20 mA input signals.

This IC200ALG262 is currently manufactured by Emerson Automation. It is ideally suited for connection to analog signal generating instruments such as field transmitters.

for measuring pressure, level, flow, temperature, turbidity, viscosity, speed, and other types of transmitters; for integrating locally mounted panel meters to

remote display; for monitoring the speed output of variable frequency drives (VFDs); for monitoring the position of rotary and linear devices; and other applications.

The IC200ALG262 has a built-in analog-to-digital converter (ADC) circuit with 15-bit conversion resolution. The input channels are arranged in groups.

When configured to receive 4-20 mA, they are capable of detecting power loss and open circuit detection within the module. Each channel has an uplink rate of 7.5 ms.

Each channel has an uplink rate of 7.5 ms and a digital resolution of 0.5 μA (4-20 mA signal range) and 0.625 μA (0-20 mA signal range). The module has a maximum backplane current consumption of 5 mA at 200 VDC bus voltage.

Compatible configuration software and hardware firmware versions that can be used with this module include VersaPro software version 2.0 or later; VersaMax PLC CPU CPU version 2.0 or later; and VersaMax PLC CPU version 2.0 or later.

VersaMax PLC CPU firmware version 2.10 or higher; VersaMax Ethernet Network Interface Unit (NIU) firmware version 1.10 or higher.

It is also compatible with VersaMax DeviceNet, Profibus or Genius NIU modules.

This IC695RMX128 is a PACSystems RX3i redundant memory switching module manufactured by Emerson Automation (formerly GE Intelligent Platforms (GE IP)).

The module has 128MB of SDRAM user memory and supports operation as a reflective memory network or dedicated link between RX3i CPUs in a redundant configuration.

The module comes with single-mode fiber that supports 2.12 Gbaud fiber networks.

About the IC695RMX128

The IC695RMX128 is the PACSystems RX3i Redundant Memory Exchange Module.

The primary function of the module is to act as a single node on a reflective memory topology or as a dedicated memory module for redundant RX3i CPU pairs.

When used in a redundant CPU configuration, the IC695RMX128 reflects the contents of the IC695CMX128.

With a reflected memory link, any updates on one node are reflected and updated to all other nodes connected to the same network.

Connections are established over a fiber optic network supporting up to 256 nodes.

The module is equipped with 128 MB of reflective memory, and the fiber optic power supply requires an LC-type connector for transmission speeds up to 2.12 Gbaud.

The module operates on supplies of 580 mA @ 3.3 VDC and 220 MA @ 5 VDC.

The IC695RMX128 is intended for use in redundant systems and cannot be used to perform general purpose memory Xchange functions.

In addition, a full communication path must be established to complete the Memory Xchange network. The complete communication path consists of the primary RMX unit and the corresponding secondary RMX unit.

Two (2) high speed fiber optic cables must be connected www.cniacs.com to the RMX pair and must form a 2-node ring.

No other RMX or reflective nide may be used in any redundant controller design since a dedicated RMX module must be used for redundant controller configuration.

Configuration of the RMX nodes is done via programming software, not via jumper or DIP switch settings.

Features:

. Direction of each 8-bit port is individually programmable

.64 mA sink current capability (15 mA source) .

. Separate board address decoding for control and data registers .

. Built-in test logic for fault detection and isolation .

. Highly reliable DIN-type I/O connectors .

. 8-bit, 16-bit, 32-bit transfers

The VMIVME-2510B is a member of the VMIC Megamodule family, which is designed for universal programming.

The subsystem can be configured with consecutive I/O addresses to conserve memory.

These products (VMIVME-1110. VMIVME-2120. VMIVME-2130. and VMIVME-2510B) are designed with two sets of board address switches to provide efficient memory address mapping for CSR and I/O addresses.

The CSR address switches can be configured so that all CSRs on the various boards in the system can be mapped to contiguous memory locations.

Megamodule products are also designed to support 8-bit, 16-bit and 32-bit data transfers.

Specific hardware has been designed into the VMIVME-2510B to support the built-in test functions.

The VMIVME-2510B supports off-line and on-line fault detection and isolation. The front panel Fail LED is used to indicate when a fault exists on this board.

The LED is illuminated at power-up or reset. The LED can be turned off after successfully completing board level diagnostics.

Functional Features

Compatibility VMEbus-compliant dual high-profile I/O connector type: Dual 64-pin connector, DIN 41612

I/O Organization: Eight I/O ports; eight bits wide.

Addressable to any address within the short supervisory or short unprivileged I/O mapping.

Addressing scheme:

Eight ports can be individually addressed on 8-bit or 16-bit boundaries.www.cniacs.com Address DIP switches provide unlimited selection of short data I/O address mappings.

Built-in Tests

Output data can be read back in real-time or off-line mode. Offline mode can be enabled by writing to the Control and Status Register (CSR) to set the test mode bit.

When test mode is enabled, all outputs are tri-stated (TRI-STATE).

Two test mode bits are provided so that each connector I/O (32-bit) can be tested independently if necessary.