Emerson Process Management PAC ControlWave Digital Output Module, ControlWave Analog Input Module

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Product Data Document

420DS-1k

July 16, 2007 - Page

Bristol® ControlWave® PAC

supply for contacts

Power Consumption: 100 mA max @5V ( all LED’s on)

Status indication: LED per point status and module OK/FAIL LED

ControlWave Digital Output Module

Number of points: 16 or 32

16-bit wide bus access

Output type: solid state open source MOSFET

Operating voltage range: 10 - 31Vdc

Maximum operating frequency: 20 Hz

Current sink load capability: 500 mA at 31V

Electrical isolation: 1500 Vdc

Surge supression: 500 MOV to chassis

31 Vdc transob between signal and isolated ground

Status indicator: LED per point status and module OK/FAIL LED

Configurable Fail State ‘OFF’, or ‘Hold Last

Value’

Power consumption: 143 mA max @ 5 Vdc (all LEDs ON)

ControlWave Analog Input Module

Number of Channels: 8 or 16

A/D Resolution: 14 bit

Input Configuration: Isolated voltage input: 500

V per card to chassis 31 V per channel when externally sourced

Internally or externally sourced current Input:Single-ended inputs 4-20 mA

Voltage Input: Isolated Differential inputs 1-5 V dc

Externally sourced current loop with 1–5 V input module and 250 ohm resistor across the input terminals or 4-20 mA input module

Input Impedance: > 1 megOhm for 1-5 Vdc, 250 Ohm for 4-20 mA

Common Mode Rejection: 70 db

Normal Mode Rejection: 26 db

Input Filtering: 300 ms to 99.9% of input signal

Channel Settling Time: 680 microseconds

Conversion Time: 25 microseconds

Accuracy:

0.1% of span 25oC

0.2% of span -20 oC to 70 oC 0.3% of span -40 oC to 70 oC

Isolated Voltage Common Mode Range: 31 Vdc to isolated common

LED Indicators : Normal, Over-range/Under- range, module FAIL/OK

On board References: 1V, 5V

On-board isolated loop supply for internally powered AI

Surge Supression: 31 Vdc transorb across input signals and (-) input to chassis

500Vdc MOV isolated common to chassis

Thermocouple Input Module

Number of Channels: 6 AI

Input type: B, R, S, J, E, K, T, C, N, +/- 10 mV

AI Resolution: 16 bit

Input Configuration: Differential thermocouple

Voltage input Impedance: 10 megΩ

Channel data acquisition: 50 microsec

Conversion Time: 66 millisec for all 6 inputs

Input Accuracy: Varies by thermocouple type 0.025% of span at 25°C for 10 mV input 0.95% of span -25°C to 70°C for 10 mV input

Common Mode Rejection: 120 db

Remote Automation Solutions

Website: www.EmersonProcess.com/Remote

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Contents Product Data Document Hardware FeaturesRemote Automation Solutions Scalability ControlWave Designer with AccolPower Supply and Chassis SpecificationsEnvironmental Specifications CommunicationControlWave Digital Input Module FeaturesAll I/O Thermocouple Input Module ControlWave Digital Output ModuleControlWave Analog Input Module ControlWave Universal Digital Input Module and Counter UDI RTD Input ModuleControlWave Analog Output Module Cable Lengths Remote Termination ModulesAvailable Modules ControlWave I/O Expansion Rack Hardware FeaturesScalability Communication ProcessorOpenBSI ControlWave RedundancySimply Creative ControlWave Redundant SystemOpenBSI Utilities ActiveX Controls Real-time ActiveX ControlsRequired Software Historical Data CollectionHigh Historical Data Integrity OPC ServerControlWave Open Network Connectivity Modbus ProtocolCommunication Protocols Bsap ProtocolKey-Lock Security Multi-User Security AccessSecure Data Advantage Bridge Between SystemsO Module ControlWave Mounting Dimensions Bristol ControlWave PAC Bristol ControlWave PAC Detail CPU See Note Comm Port Configurations Note Internal Power Supply Sequencer Module PssmExpansion Rack CPU Comm Port Configurations Note Redundant I/O SystemRTD Local Termination I/O ModulesRemote Termination I/O Modules PC ControlWave I/O Modules and Termination BlocksControlWave I/O Modules and Termination Blocks Cont’d Dual Redundant CPUs Comm Port ConfigurationsChassis & Switcher Assembly

PAC specifications

Emerson Process Management's PAC, or Process Automation Controller, represents a significant innovation in the field of industrial process control. As industries increasingly seek to optimize efficiency, reduce costs, and enhance productivity, PACs have emerged as pivotal in achieving these goals. Emerson's PAC combines the reliability and precision needed for critical process control applications with flexible architectures that cater to diverse industrial environments.

One of the standout features of Emerson’s PAC is its robust architecture, which allows for the integration of various control strategies and protocols. This flexibility ensures that it can adapt to both continuous and batch processes, making it an ideal choice for a wide range of industries, including oil and gas, pharmaceuticals, food and beverage, and chemical manufacturing. The system supports multiple communication protocols, enabling seamless integration with existing systems, sensors, and devices.

In addition to its flexible architecture, Emerson's PAC is equipped with advanced software capabilities that enhance operational efficiency. The intuitive user interface is designed to simplify the user experience, allowing operators to easily navigate through complex control environments. The built-in analytics tools aid in real-time monitoring and performance evaluation, enabling prompt responses to any operational issues that may arise. Moreover, the system is designed with cybersecurity features to safeguard critical data and prevent unauthorized access, an essential consideration in today's interconnected industrial landscapes.

Emerson's PAC is powered by advanced technologies that provide high-speed processing and extensive data handling capabilities. This ensures that operators receive timely alerts and can perform quick analysis, leading to informed decision-making and improved productivity. The use of cloud computing further enhances the capabilities of PAC by enabling remote access and management, thereby eliminating the limitations of traditional onsite controls.

In summary, Emerson Process Management's PAC embodies cutting-edge technology tailored for modern industrial needs. Its main features, including flexible architecture, user-friendly software, high-speed processing, and robust security, position it as a reliable solution for enhancing process automation. As industries continue to evolve, Emerson’s PAC will undoubtedly play a critical role in shaping the future of process management, ensuring that organizations can operate efficiently and stay competitive in an increasingly complex market.