Category: Uncategorized

Application flexibility

• PGC5000B Smart Ovens target basic applications

with a fixed set of features

• PGC5000C Smart Ovens target complex

applications requiring multiple detectors for high

application density

• PGC5007 oven targets flare gas monitoring and

total sulfur process applications

• PGC5009 oven designed for fast temperature

programmed simulated distillation analysis

—

Specification

Master controller

Environmental (enclosure)

Protected from weather

IP 54. (NEMA 3 equivalent)

Ambient temperature range

0 to 50° C (32 to 122° F)

Humidity

95% relative humidity, non-condensing

Dimensions (W x D x H)

596.9 mm x 419.1 mm x 256.5 mm

(23.5 in. x 16.5 in. x 10.1 in.)

Weight

20 kg (44 lbs) (minimum, configuration dependent)

Mounting

Wall: 33 mm (1.3 in.) from wall with brackets

Floor

Optional dolly with casters

EMI / RFI considerations

Conform to class A industrial environment

Electrical entries

Top

Technical Information

 Conduction cooled single-width 32 bit PMC module

conforming to IEEE P1386.1. no front panel

 Target Chip: XR17D154 (Exar)

 PCI 2.3 compliant interface

 PCI I/O signaling voltage 5V and 3.3V

 Board size: 143.75 mm x 74 mm

 Asynchronous serial interface

 Quad UART: Exar XR17D154

 Programmable Interfaces:

 RS232

 RS422

 RS485 full duplex

 RS485 half duplex

 Programmable Termination for RS422/RS485

 Support of RxD, TxD, RTS, CTS and GND for each

RS232 channel; RxD+/-, TxD+/- and GND for each

RS422/RS485 FD channel; D+/- and GND for each

RS485 HD channel.

 Programmable baud rates:

RS232: up to 921.6 kbps

RS422/RS485: up to 5.5296 Mbps

 64 byte transmit FIFO per channel

 64 byte receive FIFO per channel

 Readable FIFO levels

 Global Interrupt Source Register

 General Purpose 16 bit Timer/Counter

 Galvanic isolation of each Transceiver Channel

 ESD protected transceiver (up to ± 15KV )

 Operating temperature -40°C to +85°C

 MTBF (MIL-HDBK217F/FN2 GB 20°C)

TPMC377-10R: 805000h

Power Conversion’s hydro power capabilities,

key products and system solutions

Our hydro power capabilities support electrifying

pumped storage and run-off river power plants.

Power Conversion’s Variable Speed Drive System (VSDS) can

increase productivity in a pumped storage power plant.

Our technology

• Our Voltage Source Inverter (VSI) technology

enables PSPP to significantly expand their capabilities

• Innovative AC-excitation technology is based on a

powerful, robust, and flexible solution of high-end VSDS

• Our Static Frequency Converters (SFC) start-up the

units sequentially in pump mode and launch them

to the grid within a few minutes

Our electrical solutions for diff erent

pumped storage power applications

Power Conversion offers integrated solutions for conventional

fixed speed, as well as variable speed doubly-fed (as 3kV or

6kV converter technology) or fully-fed systems, helping to

minimize cost, maximize energy output and provide optimal grid support.

Each pump storage project is unique

With our full range of water to wire solutions, we help you to

optimize your grid performance, reduce system and operating

cost, enhance energy output and lower overall project risk by

benefiting from our enterprise synergies.

We use leading technology based on standardized components

as building blocks for power generation, conversion and grid connection.

Configuring the Module

Configuration Parameters

The DIP switches allow you to configure the following items:

• Starting Logical Rack Number (Logical Rack) – is the 1747-ASB module’s

starting logical rack number in the scanner’s image.

• Starting Logical Group Number (Logical Group) – is the 1747-ASB

module’s starting logical group number within the scanner’s image.

• Baud Rate (Baud Rate) – is the 1747-ASB module’s RIO link communication

rate. The baud rate must be the same for all adapters on the RIO link.

• Primary/Complementary SLC Chassis (PRI/COMP) – determines

whether the 1747-ASB module appears to the scanner as a primary or

complementary chassis.

• Adapter Image Size (IMAGE SIZE) – indicates the I/O image size to be

reserved for the adapter. It can be any size between 2 and 32 groups in

2 logical group increments.

• Hold Last State (HLS) – determines whether the discrete output modules

are held in their last state when:

– RIO link communication with the 1747-ASB module is lost.

– The scanner inhibits the 1747-ASB module.

– The scanner sends Reset, Adapter Decide commands to the 1747-ASB module.

• Processor Restart Lockout (PRL) – determines whether the 1747-ASB

module automatically resumes RIO link communications if communication is

lost and then restored.

The 1784-PKTXD card is an Allen-Bradley network interface card.

The 1784-PKTXD network interface card is used to connect a PC to a PLC controller via a Data Highway Plus (DH+) or SLC processor and a DH485 network.

This allows the device to enable simpler and more efficient data acquisition processes, which are critical for industrial applications.

The 1784-PKTXD card has an I/O scanner function, which is also available on different cards for use with soft or embedded control engines.

The 1784-PKTXD card includes a generic PCI card as a standard feature. Therefore, the card is compatible with different operating systems.

The 1784-PKTXD card can be used in environments where general programming, configuration, and monitoring functions are required from industrial equipment or computer desktops.

The 1784-PKTXD card is ideally suited for use as a network interface card. Therefore, since it is a general purpose card for interconnecting peripheral components, it must be plugged into a PCI bus slot.

If the operator is using a general purpose card, it must be plugged into a PCI bus slot with either 3.3 volt or 5 volt signals.

The 1784-PKTXD card communicates with nodes on the Data Highway Plus network.

These include the PLC-5. PLC-5/250. and SLC 5/04 processors. This component performs data transfer, management, and local network diagnostics.

The 1784-PKTXD card and the host computer exchange data through a dual-port interface.

The dual-port interface requires up to 4 KB of memory starting at the base memory address that the PCI BIOS addresses for the card when booting the PC.

The RDIO400 is an interface module between the serial process bus and digital input or output signals.

Description

The Kongsberg Maritime Remote Input/Output System (RIO400) interfaces via the Serial Process Bus (SPBus)

connecting control computers in the process network with input and output (I/O) signals from remote devices such as valves, relays and temperature sensors.

The RDIO400 is an interface module between the SPBus and the digital inputs or outputs of eld devices.

The RIO400 system provides a cost-effective solution for connecting any number of inputs and outputs to the Kongsberg Maritime Automation system.

independent of the distance between the remote device and the controller computer.

Functionality

– Up to 32 independent go to 

– Dual serial process bus (SPBus) interfaces, allowing optional redundancy

– Each SPBus interface ensures electrical isolation from the control system.

– Easy to install and replace:

– DIN rail mounting

– Plug-in connection

– LED status indicator for normal operation or error status

– Loop checking and commissioning from the operating station and local data terminals possible

– Short-circuit proof loop current driver

– Safe start-up of outputs in case of dcs-sis.com communication breakdown

– Built-in tests for self-diagnosis and fault identification c

– SIL 1 compliant

– Line fault detection (LFD)

– Ground fault detection (EFD)

– Dual watchdog

The ModBus and Rack Interface Module is designed to provide high reliability for the plant’s most critical rotating machinery.

It reads parameters from all AMS 6500 modules and outputs them via ModBus TCP/IP and/or ModBus RTU (serial).

This 1-slot monitor can be used with other AMS 6500 monitors to form a complete API 670 machinery protection monitor.

Applications include steam, gas, compressor and hydraulic turbine machinery.

Operators have access to machinery health parameters in the control environment for seamless integration.

The module powers a local graphical display on the protection rack for reading machine and instrument information.

It can be configured with ModBus TCP/IP or ModBus RTU, or both with redundant paths.

The AMS 6500 is an integral part of PlantWeb® and AMS software.

PlantWeb combines the Ovation® and DeltaV™ process control systems to provide operators with an integrated view of machine health.

AMS software provides maintenance personnel with advanced predictive and performance diagnostic tools to accurately determine machine failures at an early stage.

3U-sized, 1-slot plug-in module reduces cabinet space requirements by half compared to traditional 6U cards

API 670-compliant hot-swappable modules

Password protected user configuration

Self-test features include monitoring of hardware, power inputs and hardware temperature

A6824 module can be used in multiple 19’ racks

A6824 is a 6TE wide module with no redundancy option for IMR6000 series 19’ racks

A6824R is a 4TE wide module with optional redundancy for IMR6500 series, 19’ racks

Data Outputs

ModBus RTU (serial): 19.2 kbaud

Data Bits 8

Parity Even

Stop Bit 1

Default address IP address 192.168.255.1

Subnet mask 255.255.255.0

ModBus Ethernet: RJ 45 socket, 10BaseT

Green LED: Power on

Handle: for easy removal of cards and boards

Module and sensor identification board

Example data types: speed, vibration (1/2x, 1x, etc.), gap value, dcs-sis.com alarm status, channel OK, phase

Environment, general

Module: IP 00. DIN 40050

Front plate: IP 21. DIN 40050

Climate: DIN 40040 class KTF

Operating temperature: 0° – 65°C (32° – 149°F)

Storage temperature: -30° – 85°C (-22° – 185°F)

Relative humidity: 5 – 95%, non-condensing

Vibration; IEC 68-2. Part 6

0.15 mm, 10 – 55 Hz

19.6 mm/s2. 55 – 150 Hz

Shock: IEC 68-2. Part 29

98 m/s2 peak, 16 ms

Electromagnetic compatibility: EN50081-1 / EN50082-2

Power consumption: 5 W max.

The CHB 1101 transmitter is an external bi-directional low frequency accelerometer for use with the PCH 1026 mk2 wind turbine and structural vibration monitor.

The external bi-directional accelerometer is used for advanced nacelle monitoring with distributed pick-up points.

Separate cables with integrated D-Sub and M12 connectors make installation and connection of the vibration monitor very simple.

Easy to install

The CHB 1101 has an internal memory chip which stores factory information: serial number, model number, sensitivity and self-test parameters.

When the CHB 1101 is connected, the monitor reads the dcs-sis.com information in the memory chip and automatically adapts to the settings of the particular sensor.

This means that the accelerometer can be freely replaced without having to manually change the parameters.

The monitor reads the chip every 30 seconds to verify that the accelerometer is still connected and recognised.

The monitor will stabilise for 20 seconds after power is applied.

The stabilisation time after disconnecting/connecting the CHB 1101 is 3 seconds. During settling, the PCH 1026 Mk2 will perform a self-test of the internal and external accelerometers.

Self-Test

The monitor will issue a system error message if the self-test fails or the accelerometer is disconnected.

Accelerometers must be specified in the PCH 1026 Vibration Monitor setup to use this feature.

The CHB 1101 accelerometer is an optional feature of the PCH 1026 Mk2 Wind Turbine and Structural Vibration Monitor.