Category: Emerson

Product Description

The SD Plus controller executes control logic based on the process signals derived

from the I/O subsystem and provides communication to the rest of

the DeltaV control system for operator interaction and data collection.

Each controller node can be installed as a simplex or redundant node.

Redundancy is provided by adding a second controller and power supply

mounted adjacent to the primary controller.

The controllers are connected to the I/O carriers, which are mounted to the right of the controller carriers.

Up to 8 carriers with 8 cards each can be connected to the local bus I/O, for a total of 64 traditional I/O cards.

In addition to the 8 local I/O carriers, each controller can communicate

with an additional 16 Remote I/O units hosting traditional card based I/O.

In addition to traditional I/O cards, the local bus supports field bus technologies,

including Foundation fieldbus, Profibus DP, DeviceNet and AS-I protocols.

The I/O subsystem also supports Serial interface cards as well as the Ethernet I/O interface.

These various I/O products provide a wide range of interfaces to meet the needs of your control application.

The SD Plus also supports CHARMS and WirelessHART IO cards.

The CHARMS I/O card (CIOC) connects via the redundant Ethernet

ports of the controller and provide a highly distributed and flexible I/O solution called Electronic Marshalling.

 Scalable controllers

 Quick Assembly

 Easy to use

 Field Proven architecture

 Designed for Digital Marshalling

 Advanced Controls

Introduction

The DeltaV S-Series controllers provide communication and control functions and integrate

field devices and the other nodes on the control network.

The SX and SD Plus controllers provide a choice to match the controller capacity to the requirements of the process.

They also provide new ease of use features that eliminate mounting screws and accelerate cabinet assembly.

Control strategies and system configurations created on earlier DeltaV systems can be used with this controller.

The SD Plus Controller provides all the features and functions of the M-Series controllers with the added support for CHARM based Digital Marshalling.

The control languages executed in the controllers are described in the Control Software product data sheet

Benefits

Non-Intrusive DeltaV I/O simulation. Use the VIM2 in conjunction with the

MYNAH Technologies’ MiMiC Simulation Software to simulate your DeltaV M-Series I/O and digital bus field devices.

 Supports DeltaV I/O modules. Provides completely non-intrusive simulation of all DeltaV M-series I/O Modules.

Supports autosensing of I/O and accurate testing of controller loading.

DeltaV configuration can be fully tested without modifying the control strategies.

 Digital bus support. Provides simulation of all DeltaV Digital Busses and Foundation Fieldbus function blocks.

Supports Foundation Fieldbus control in the field configuration testing.

 Powerful simulation solution. Provides full simulation of up to 64 DeltaV I/O modules per controller.

Simulation execution is fast and efficient; the DeltaV controller thinks it’s talking with real IO.

Powerful integration solution. Use the VIM2 in conjunction with the MYNAH

Ethernet I/O drivers to integrate your DeltaV system with your Ethernet I/O device networks.

 Large device capacity. Each VIM emulates four DeltaV Serial Cards and support up

to 128 Serial Card Datasets of information from 32 network devices in simplex installations and 16 devices in redundant installations.

Communication over the Ethernet I/O device network is fast and efficient.

 Flexible networking. User configurable IP addressing allows the VIM2 to be used in almost any

plant environment regardless of networking scheme.

Introduction

The DeltaV M-series Virtual I/O Module 2 (VIM2) provides nonintrusive simulation of the

DeltaV M-series I/O Cards and digital bus field devices for process simulation

when used with MYNAH Technologies’ MiMiC Simulation Software.

DeltaV Control strategies and system configurations can be fully tested with this powerful simulation interface.

The VIM2 also provides an interface to Ethernet I/O networks and devices that

use the Modbus TCP/IP or Ethernet/IP protocol drivers.

DeltaV M-series controllers can read and write signals from plant floor devices connected

to Ethernet I/O networks such as PLC’s, Motor Control Centers, and Weigh Scales.

Powerful integration solution. Use the VIM2 in conjunction with the MYNAH

Ethernet I/O drivers to integrate your DeltaV system with your Ethernet I/O device networks.

 Large device capacity. Each VIM emulates four DeltaV Serial Cards and support up

to 128 Serial Card Datasets of information from 32 network devices in simplex installations and 16 devices in redundant installations.

Communication over the Ethernet I/O device network is fast and efficient.

 Flexible networking. User configurable IP addressing allows the VIM2 to be used in almost any

plant environment regardless of networking scheme.

Introduction

The MD Plus Controller provides communication and control between the field devices and the other nodes on the control network.

Control strategies and system configurations created on earlier DeltaV™ systems can be used with this powerful controller.

The MD Plus Controller provides all the features and functions of the M5 Plus Controller,

with plenty of memory for large batch and other memory-intensive applications.

The control languages executed in the controllers are described in the Configuration Software Suite product data sheet.

Benefits

Increases productivity

Faster. The MD Plus Controller is more than 400% faster than the M5 Plus Controller and over

3X the user configurable memory as the MD controller. The Ethernet ports are full duplex, 100MB/second maximum throughput.

The results are lower CPU utilization and higher capacity for control strategies.

Self-addressing. The DeltaV controller is unique in its ability to automatically identify itself to the DeltaV control network.

When the controller is powered up, it is automatically assigned a unique address—no dip switches, no configuring—just plug and play!

Self-locating. A controller’s physical location is easy to find. LEDs on the face of the controller can be made to flash, providing a strong visual clue.

Automatic I/O detection. The controller can identify all I/O interface channels located on the subsystem.

As soon as an I/O interface is plugged in, the controller knows the general characteristics of the field devices managed by that I/O interface.

This reduces the no value engineering associated with configuration — easy!

The S600+ supports an unprecedented number of global measurement standards including those covered by AGA, ISO, GPA, 

and GERG for gas applications, and API, ASTM, GPA, and NORSOK for liquid applications.

The S600+ uses distributed processing to achieve maximum performance. The S600+ contains a more powerful main processor than the original S600.

The new CPU incorporates a hardware floating point processor and performs faster calculations than before, minimizing uncertainty and maximizing control.

Each additional expansion module utilizes local processors. 

The local processors convert inputs from field instrumentation into engineering units and drive output signals for process control.

Background checks are performed continuously and locally in each module to assure operational validity.

All metering calculations are performed using 64-bit (double) precision floating point numbers for the highest accuracy and API compliance. 

Cumulative totals are stored in three separate memory locations (Tri-reg format) for maximum integrity. The LogiCalc

user language allows double precision mathematical functions to be performed on database objects.

Data logging and archiving capabilities have been significantly increased, and include an extended historian. 

A typical archive for a ten-stream application would include 333 days of monthly, weekly, daily and hourly reports; 

plus 50,000 events and 50,000 alarms. Support for FLOWCAL CFX files has been added for enhanced data integrity.

The S600+ includes an eight-line LCD display and a 29-key keypad. 

The display and keypad on the S600+ enable you to review or modify system parameters without the need for a PC. 

The display supports both English and Russian character sets.

The FloBoss™ S600+ Flow Computer (S600+) is a panel-mount fiscal flow computer designed specifically

for hydrocarbon liquid and gas measurement where versatility and accuracy are high priorities. 

The FloBoss S600+ builds on the success of its predecessor, the S600, which has been the market-leading panel-mount flow computer from Emerson Process Management.

The standard features of the S600+ make it ideal for the following applications:

▪ Fiscal flow measurement

▪ Custody transfer

▪ Pipeline measurement

▪ Batch loading

▪ Meter proving applications

▪ Single or multi-stream measurement

▪ Flow control

The S600+ supports multi-stream (up to ten with optional expansion modules), 

multi-station (up to two) applications that are configured for simultaneous metering of gas, wet gas, crude oil, refined products, LPG, NGLs, etc. 

The S600+ can accommodate both a liquid and a gas station simultaneously.

Supported flow meters or primary elements include turbine, ultrasonic, Coriolis, positive displacement, orifice, 

Venturi, Annubar, V-Cone®, and Rosemount conditioning orifice plate.

Hardware Specifications

General Environmental Specifications

Operating temperature -40 to +70°C (-40 to 158°F), linearly derated to 75% power at 60 to 70°C

Storage temperature -40 to +85°C (-40 to 185°F)

Relative humidity 5 to 95%, non-condensing

Protection rating IP20

Air Pollutant ISA-S71.04-1985 Air Pollutant Class G3. Conformal Coating

Shock 10(g) RMS, triaxial, 11ms per axis

Vibration 2.5(g) RMS, 10-2000 Hz (random); 3 axes, 20 minutes per axis – IEC 60068-2-6

Mounting Mount only on a horizontal DIN rail with the right side of the label text facing up.

About DeltaV™ High Capacity Power Supplies

Power – Without it, your system won’t work DeltaV™ High Capacity Power Supplies provide you 

with the most efficient and reliable power solutions available.

The DeltaV High Capacity Power Supply Kit provides power for your system electronics and in the field.

It’s all the power you need for your DeltaV system.

Advantages

. Easy to use, DeltaV High Capacity Power Supplies provide reliable 12 V and 24 VDC power for

DeltaV system power supplies and bus field power supplies.

They are easily mounted to T-shaped DIN rails!

. Increased availability. Redundant modules based on active MOSFET technology offer

higher efficiency and lower voltage drop than conventional diode modules.

This results in less heat dissipation and higher system reliability.

Flexible and cost-effective. Flexible and cost-effective DeltaV Bulk power supplies are flexible and

cost-effective because external redundant modules can be used, such as when load sharing is required.

Models are available with and without conformal coating.

. Small footprint.DeltaV Bulk Power Supplies take up little space and are highly competitive!

The PR 6423 is a non-contact eddy current sensor of rugged construction.

Designed for extremely critical turbomachinery applications such as steam, gas, compressor and hydraulic turbomachinery, blowers and fans.

The purpose of the displacement probe is to measure position or shaft motion without contacting the surface under test (rotor).

In sleeve bearing machines, there is a thin film of oil between the shaft and the bearing material.

The oil acts as a damper so that shaft vibrations and position are not transmitted through the bearing to the bearing housing.

The use of bearing box vibration sensors to monitor sleeve bearing machines is discouraged because vibration from shaft motion or position is greatly attenuated through the bearing oil film.

The ideal method of monitoring shaft position and motion is to measure shaft motion and position directly through the bearing or by installing a non-contact eddy current sensor inside the bearing.

The PR 6423 is commonly used to measure vibration in the following equipment

eccentricity, thrust (axial displacement), differential expansion, valve position and air gap.

Non-contact measurement of static and dynamic shaft displacements

– Axial and radial shaft displacement (position)

– Shaft eccentricity

– Shaft vibration (motion)