IS215UCCAM03A - Compact PCI Processor Module

SPECIFICATIONS:

Part Number: IS215UCCAM03A
Manufacturer: General Electric
Series: Mark VIe
Product Type: Compact PCI Processor Module
Microprocessor: Intel Pentium M processor 1.6 GHz
Technology: Surface Mount
Operating System: QNX Neutrino
Programming: 16-bit signed integer
Power Requirements: +5 V dc
Memory: 256 MB
Common Mode Voltage Range: ±5 V
Dimensions: 11.00 x 9.00 x 3.00
Operating temperature: 0 to 60 °C
Primary Ethernet Interface: 10BaseT/100BaseTX
No.of Analog Voltage Inputs: 6
Repair: 3-7 Day
Availability: In Stock
Country of Origin: United States
Manual: GEH-6721L

FUNCTIONAL DESCRIPTION:

IS215UCCAM03A is a Compact PCI Processor Module manufactured and designed by General Electric as part of the VIe Series used in GE Distributed Control Systems. It is a single-slot board using a 650 MHz Intel Celeron processor. TM A 10BaseT/100BaseTX (RJ-45) Ethernet port provides connectivity to the Unit Data Highway (UDH). There are two PCI Mezzanine Card (PMC) sites and a watchdog timer. The processor board is the compute engine of the Mark VIe controller. The IS215UCCAM03 is a module assembly that includes the IS215UCCAH3 combined with 128 MB of flash memory, 128 MB of DRAM, and the IS200EPMC. Five communication ports provide links to I/O, operator, and engineering interfaces as follows:

• Ethernet connection for the Unit Data Highway (UDH) for communication with HMIs, and other control equipment
• Ethernet connection for the R, S, and T I/O network
• RS-232C connection for setup using the COM1 port

INSTALLATION:

The controller module contains (at a minimum) a controller and a four-slot CPCI rack with either one or two power supplies. The primary controller must be placed in the left-most slot (slot 1). A second, third, and fourth controller can be placed in a single rack. The CMOS battery is disconnected using a processor board jumper during storage to extend the life of the battery. When installing the board, the battery jumper must be reinstalled. Refer to the specific UCCx module drawing for the jumper location. The battery supplies power to the CMOS RAM settings and the internal date and real-time clock. There is no need to set CMOS settings since the settings are defaulted to the proper values through the BIOS. Only the real-time clock must be reset. The initial date and time can be set using a system NTP server or ToolboxST application. If the board is the system board (slot 1 board) and other boards are in the rack, the ejection of the system board will cause the other boards to stop operating. It is recommended that power be removed from the rack when replacing any board in the rack. Rack power can be removed by one of the following methods.

• In a single power supply unit, a switch is provided to disable the power supply outputs.
• In a dual power supply unit, both power supplies can be safely ejected to remove power.
• Unplug the bulk power input Mate-N-Lok connector(s) on the bottom of the CPCI enclosure.
• Use a remote disconnect switch.

OPERATION:

The controller is loaded with software specific to its application, which includes but is not limited to steam, gas, and land-marine aero-derivative (LM), or balance-of-plant (BOP) products. It can run rungs or blocks. The IEEE 1588 protocol is used through the R, S, and T IONets to synchronize the clock of the I/O packs and controllers to within ±100 microseconds.

• Process inputs/outputs to the I/O packs
• Internal state values and initialization information from the designated controller
• Status and synchronization information from both controllers

WOC has the largest stock of GE Distributed Control System Replacement Parts. We can also repair your faulty boards. WORLD OF CONTROLS can also supply unused and rebuilt backed-up with a warranty. Our team of experts is available round the clock to support your OEM needs. Our team of experts at WOC is happy to assist you with any of your automation requirements. For pricing and availability on any parts and repairs, kindly get in touch with our team by phone or email.

FREQUENTLY ASKED QUESTIONS:

What processor architectures are commonly used in CompactPCI Processor Modules?

Common architectures include Intel x86-based processors (such as Core i7) and PowerPC processors. The choice of architecture depends on factors like performance requirements and application compatibility.

What types of applications are CompactPCI Processor Modules used for?

CompactPCI Processor Modules are used in various industrial applications such as telecommunications, transportation systems, military equipment, industrial automation, and data acquisition systems.

Can CompactPCI Processor Modules support multiple operating systems?

Yes, depending on the processor architecture and board specifications, CompactPCI Processor Modules can support a range of operating systems including Windows, Linux, VxWorks, and others.