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Opto 22 Procedures: Software Quality Assurance Plan
	ML20274A255
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Site:	University of Lowell
Issue date:	09/30/2020
From:	; Opto 22, Univ of Massachusetts - Lowell
To:	; Office of Nuclear Reactor Regulation
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{{#Wiki_filter:Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 1

Background

This plan establishes the responsibilities and processes for developing and modifying software for Opto 22 customers. Introduction Opto 22 develops commercial off-the-shelf software products, which are used in conjunction with its hardware products. Once initially released, these software products are usually updated periodically with new features, enhancements, and bug fixes. Multiple software products are typically bundled together to form a suite of products that are developed and released simultaneously. The purpose of a new software product, its required features, and any additions to an existing product, are decided by Opto 22 Management. Management decisions are made in consultation with Opto 22 Sales, Marketing, Product Support, and Engineering departments. Several unrelated projects are typically bundled together into a single release of new features. If time permits, engineers may implement smaller projects at their own discretion, usually from a list of existing customer requests or marketing ideas. Between major releases of software products, Opto 22 typically releases new minor versions (i.e. patches) that contain just bug fixes. Overview of the OptoTrac System Trac is an open source, third party, Integrated SCM and Project Management software package. Opto 22 uses Trac and refers to it as the OptoTrac system. All software projects are documented and tracked in the OptoTrac system. OptoTrac can manage both document and project tickets. Developers, Testers, the Documentation department, and Opto 22 Management, all use the OptoTrac system. OptoTrac is used to document the initial project ideas, requirements, and design decisions. It is also used to track the development, testing, and release phases. Individual software projects, or subcomponents of a larger project, are entered into OptoTrac as work tickets and/or web pages. These tickets can then be attached to a release milestone, assigned to engineers, updated with new information and notes, and assigned to other engineers or testers. Formatted reports can easily be configured to manage information.

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 2 Roles and Responsibilities Opto 22 Management is responsible for developing, revising, implementing, and ensuring compliance with this plan. Opto 22 Management ensures that a software management and control program is established according to this plan, and identifies the departments that must comply with this plan. Opto 22 Management designates individuals or groups responsible for implementing this procedure, and controlling software throughout its life cycle in a traceable, planned, and orderly manner. Opto 22 Department Leads ensure compliance with this plan through direct implementation, supplemented where necessary by department-level procedure(s). The Software Project Lead creates, reviews, and approves software management and control plans and procedures. The Q.A. Lead reviews the software project deliverables. The Q.A. Lead is assigned by Opto 22 Management and is not associated with the development or acquisition of the software. The Independent Tester performs acceptance testing of the software. The Independent Tester is assigned by Management and is not associated with the development or acquisition of the software. Risk Management The software will be designed to minimize or eliminate risk. The risks to be minimized include; the risk of sending, receiving, or displaying incorrect data, the risk of non-recoverable errors on the PC applications, the risk of firmware causing a controller reset, etc. Opto 22 makes every effort to assure that its products are of high quality and are reliable. Software Life Cycle The software life cycle defined in the following Procedure provides the basis for planning and implementing a software development and maintenance program. The Procedure sections identify the specific software activities, documentation, and reviews associated with each phase. The number of phases and relative emphasis placed on each phase of software development and maintenance depend upon the nature and complexity of the software. Not all phases apply to all software types; for example, embedded software and commercial off-the-shelf software (COTS) may be exempt from some phases.

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 3 Procedure Planning PhaseProject Initiation Opto 22 Management

1. Initiate software projects based on customer requests, suggestions from sales and marketing, or identification of internal department needs.

2. Assign Software Project Leads as appropriate for each project.

Software Project Lead

3. Prepare a Statement of Work (SOW). The SOW may be in various forms, such as a document, webpage, or email, and describes the scope of the project.

4. Request Management to review and approve the project, where appropriate.

If significant changes in scope occur during the life of the project, the SOW shall be revised to accurately reflect the current scope and details of the project. Opto 22 Management

5. Review the SOW, where appropriate.

6. If not approved, inform the Software Project Lead of the need to revise the SOW, or close the project.

7. If approved, inform the Software Project Lead of the approval and authorize the work to begin.

Software Project Lead

8. When the project is approved, create a unique project identification name/number and location in the Configuration Management System (CMS),

herein referred to as the OptoTrac system, for traceability. This project name and location shall be used to store subsequent documentation and configuration items.

9. Make sure the SourceSafe procedures are followed as outlined in Opto 22 Procedures: Building a Release (Opto 22 form #1615).

10. Maintain approved planning documents in the OptoTrac system or appropriate database.

Requirements Phase Software Project Lead

1. Revise the Statement of Work (SOW) to document specific software requirements in sufficient detail to design the software.

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 4 Opto 22 Management

2. Review requirements in the revised SOW where appropriate. Inform the Software Project Lead of approval, or of the need for further revision.

Software Project Lead

3. Maintain the revised (and approved, if applicable) SOW in the OptoTrac system under its established project name and location.

Design Phase Software Project Lead

1. Make the SOW available to the team of Opto 22 employees directly involved in software development and documentation, and in designing tests for the software.

2. Facilitate design review(s) by the team and independent technical reviewers, as applicable.

3. Revise the SOW to add design notes and design decisions made by the team.

4. Continue to maintain the revised SOW in its established location in the OptoTrac system.

Q.A. Lead

5. Review the software design information as specified in the OptoTrac system.

6. Design the software test cases and/or Test Suite, to verify that the software meets the design criteria as specified in the SOW stored in the OptoTrac System.

7. Provide space to record the test results for each test case.

8. Identify the assigned independent tester.

9. Store the Test Suite in the SourceSafe system or in the appropriate network location.

Implementation Phase NOTE: The Implementation Phase consists of generating software code, initial testing, and generating or supplementing user documentation. Software Project Lead

1. Work with the team of developers to write the software, per the specifications and requirements of the project as defined in the SOW contained in the OptoTrac system.

2. Perform testing and debugging as necessary to ensure functionality.

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 5

3. Work with Technical Publications to ensure that necessary user documentation is either developed or available, according to Opto 22 Procedures: Technical Documentation (Opto 22 form #1622).

4. If changes or additions are made during the Implementation Phase to the requirements or design elements, update the previous phases documentation to reflect the changes or additions.

Acceptance Testing: Newly Developed or Acquired Software NOTE: For acceptance testing of previously released software, see Acceptance Testing: Previously Released Software, below. Q.A. Lead

1. Establish a hardware/software environment for testing that is separate from the development environment and is representative of the production environment.

2. Install the software in the test environment.

Independent Tester

3. Create and/or perform acceptance tests to demonstrate, as appropriate, that the computer program adequately and correctly performs all intended functions, and does not perform any unintended functions.

4. If the software fails the acceptance tests, communicate the results and any notes and observations to the Software Project Lead.

5. If the software tests meet all the acceptance criteria, document the successful completion of the acceptance testing. Store the documentation of the test results in the SourceSafe system.

Software Project Lead

6. If the software test results fail to meet the acceptance criteria, determine the problem and correct the problem.

Acceptance Testing: Previously Released Software NOTE: This section applies to modifications to previously released software. For all other software types, see Acceptance Testing: Newly Developed or Acquired Software, above. Q.A. Lead

1. Establish a hardware / software environment for testing that is representative of the production environment.

2. Install the software in the test environment.

3. Run the test programs on the test candidate software.

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 6 Independent Tester

4. Create and/or perform acceptance tests of the modifications to previously released software by subjecting the software to regression testing (where possible) to:

Detect errors introduced during the modification of the software.
Verify that the modifications have not caused unintended adverse affects.
Verify that the modified software still meets specified requirements and corrects those bugs found and closed, as described in Opto 22 Procedures: Bug Reporting (Opto 22 form #1618).

5. If the software fails the acceptance tests, communicate the results and any notes and observations to the Software Project Lead.

6. If the software tests meet all the acceptance criteria, document the successful completion of the acceptance testing. Store the documentation of the test results in the SourceSafe system.

Software Project Lead

7. If the software test results fail to meet the acceptance criteria, determine the problem and correct the problem.

Software Documentation ReviewsIndependent Technical Reviews NOTE: Independent technical reviews are performed by individuals who are not associated with the development of the software project being reviewed. In those instances where this level of independence cannot be achieved, an individual associated with the development of the software may perform these activities. Independent Technical Reviewer

1. Receive and perform review of the submitted documentation in a timely manner. Such documentation shall include the following, as applicable:

2. Check for impacts, and verify adequacy, accuracy, and completeness.

3. Determine if the submitted documents are acceptable or if there are comments and/or recommended changes.

4. If the submitted documents are acceptable, return them to the document author.

5. If there are comments on the documents being reviewed, return them to the document author.

Document Author

6. Provide resolution to comments and revise documents accordingly.

Software Problem Reporting and Resolution See Opto 22 Procedures: Bug Reporting (Opto 22 form #1618).

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 7 Configuration Management and Change Control See Opto 22 Procedures: Building a Release (Opto 22 form #1615). Customer Training Software Project Lead

1. Notify the Training Lead and the Product Support Group Lead of changes to software.

Training Lead

2. Ensure that training requirements are updated, based on the changes or new features that were reported by the Software Project Lead.

Definitions Acceptance Test or Testing. The process of exercising or evaluating a system or system component by manual or automated means, to ensure that it satisfies the specified requirements, and to identify differences between expected and actual results in the operating environment. Computer Program. A combination of computer instructions and data definitions that enables computer hardware to perform computational or control functions. Condition Adverse to Quality. An all-inclusive term used to refer to any of the following: failures, malfunction, deficiencies, defective items, and non-conformances. Configuration. An items physical, functional, and operational characteristics. Configuration Management. The process that controls the activities and interfaces among design, construction, and maintenance to assure that the configuration is established, approved, and maintained. Configuration Management System. The collection of electronic and manual systems used to document software management and control per this plan. Customer. An organization or person that receives a product or service and that may define a feature request or performance requirement. Error. A condition deviating from an established baseline, including deviations from the current approved computer program and its baseline requirements. Manager. The head of an organization that is responsible for making important decisions about direction, focus, and general policy. Nonconformance. A deficiency in characteristic, documentation, procedures, or performance that renders the quality of an item or activity unacceptable or indeterminate. Operating Environment. A collection of software, firmware, and hardware elements that provide for the execution of computer programs.

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 8 Qualification. The process of ensuring that the product and all associated processes are capable of meeting customer requirements. For personnel, the characteristics or abilities gained through education, training, or experience, as measured against established requirements such as standards or tests that qualify an individual to perform a required function. Quality. The condition achieved when an item, service, or process meets or exceeds the users requirements and expectations. Quality Assurance. All those actions that provide confidence that quality is achieved. Regression Testing. The selective retesting of a software system that has been modified to ensure that any bugs have been fixed, that no other previously working functions have failed as a result of the modifications, and that newly added features have not created problems with previous versions of the software. Also referred to as verification testing, regression testing occurs after a programmer has attempted to fix a recognized problem or has added source code that may have inadvertently introduced errors. It is a quality control measure to ensure that the newly modified code still complies with its specified requirements and that unmodified code has not been affected by the maintenance activity. Software. Computer programs, procedures, associated documentation, and data pertaining to the operation of a computer system. Software covered by this document includes firmware, documentation, data, and execution control statements. Software Life Cycle. The activities that comprise the evolution of software from conception to retirement. The software life cycle typically includes software development phases and the activities associated with operation, maintenance, and retirement. Software Quality Assurance. Planned and systematic actions necessary to provide adequate confidence that a software product conforms to established requirements. Statement of Work (SOW). The definition or description of the goal or task to be accomplished, including requirements and design notes, if applicable. Test or Test Case. A set of test inputs, execution conditions, and expected results developed for a particular objective, such as to exercise a particular program path or to verify compliance with a specific requirement. Test Suite. A standardized collection of test programs (test cases) and documentation for them (where applicable).

Opto 22 Procedures: Software Quality Assurance Plan Form 1635-090202 Page 9 Title -z..-2.-ZdOf Date

~** .....,,).~*'*'"...,...... { 0 0PTD 22 DATA SHEET Fann 1106-990524 Description The SNAP-LCM4 is a powerful industrial controller that provides real-time control and communication to input/output (1/0) systems, serial devices, motion controllers, and networks. Opto 22's fastest controller to date, the SNAP-LCM4 takes advantage of the latest improvements in processor technology to fit today's demanding, high-speed application requirements. The SNAP-LCM4 modular controller features powerful communications capabilities, built-in diagnostics, a 32-bit processor, and a variety of expansion options. Opto 22 modular controllers are designed to take advantage of the Opto 22 intelligent distributed 1/0 architecture and provide a solid hardware foundation for Opto 22's FactoryFloor software suite. The SNAP-LCM4 provides power and performance in a package that integrates seamlessly with other Opto 22 SNAP products. Designed specifically for industrial applications, the CONTROLLERS SNAP page 1/7 Part Number Description SNAP-LCM4 SNAP Modular M4 Controller controller provides Ethernet, ARCNET. and serial communication options for unmatched flexibility. Serial ports provide an interface with Opto 22 1/0 and also with radio modems, cellular modems, and even satellite communications equipment, as well as any third-party serial device. The SNAP-LCM4 handles program control and host communications with a powerful 32-bit Motorola microprocessor. This processor board is combined with a 4-slot Opto 22 expansion bus (M4BUS). Standard on-board communication ports include the following:

One dedicated Opto 22 remote 1/0 port (2-wire RS-485 with interrupt capability)
Three RS-232 or RS-485 (2-wire or 4-wire) serial ports, with baud rates up to 115.2 kBd.

ADDRESS AND CONFIGURAT!Ot\\ JU\\1PERS EXPANSION CONNECTORS SERIAL BOARD PROCESSOR BOARD Opto 22

43044 Business Park Drive
Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-OPTO
Fax: (909) 695-3095
Internet: www.opto22.com lnsde Sales: (800) 452-0PTO
Product Support (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com, FaxBack: (800) 474-0PTO

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'o+ l *o PTO 22 CONTROLLERS DATA SHEET Form 1106-990524 Description (continued) Software The SNAP-LCM4 is designed to work with FactoryFloor, Opto 22's powerful suite of Microsoft Windows 32-bit software. FactoryFloor consists of four integrated components:

OptoControl'. a graphical, flowchart-based development environment for machine control and process applications
OptoDisplay', an intuitive, shared database, human-machine interface (HMI) and trending package, including alarming
OptoServer"". a robust, OPC-compliant data server that connects the controller network with the PC network
OptoConnect~ a bidirectional link between the Opto 22 database in the controller and Microsoft's SOL Server and Access databases.

The SNAP-LCM4 is configured using OptoControl on a PC workstation. OptoControl is an easy to use, self-documenting control environment that uses a plain English command set and a long tagname database that is shared by all FactoryFloor components. The SNAP-LCM4 controller also works with Opto 22's Classic 16-bit software: Cyrano, Mistie MMI, and Mistie Data Server (MOS). Interface Options (M4BUS Expansion Cards) The M4BUS has four expansion slots to accommodate a variety of communication interface cards. The following modular interface cards provide 1/0 or network connectivity: Interface Use Current Adapter Card Draw M4SARC High-performance coaxial ARCNET 200mA M4DUALARC Dual twisted-pair ARCNET (for HA brains) 150 mA M4SARCF Fiber Optic ARCNET 250 mA M4SARCFR Fiber Optic ARCNET with repeater 350 mA M4SENET-100 10/100 Mbps Ethernet (Category 5 UTP) 1.00A NOTE: Only one Ethernet card per controller is supported at this time. The Ethernet card currently accommodates 128 sessions. including FactoryFloor, Ethernet brains, and other Ethernet devices. SNAP page 2/7 SNAP-LCM4 Top Cover 0 0 @,-. BPTD 22 SNAP-LCM4 0 0 s:: QBATT 0 RXO QLINE TXO QsTAT 0 CD EJR 0 CD AUTO s:: CD XO ~ RX1 CD X1 TX1 CD HO CD H1 CD BO CD B1 0 CD B2 0 CD B3 s:: CD AO ts.) RX2 CD A1 TX2 CD A2 CD l>3 CD A4 CD A5 0 CD AS 0 CD A7 s:: RJ(3 w TX3 0 0 Opto 22

43044 Business Park Drive
Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-0PTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO, Product Support: (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800) 474-OPTO

,.,:.,*1:*'*"' *u"o*,..,., ... +.... * { 0 0PTO 22 DATA SHEET Form 1106-990524 Description (continued) 1/0 Connectivity CONTROLLERS SNAP page 3/7 Memory Any of the built-in RS-485/422 ports can be used as a serial link to communicate with Opto 22 remote digital and analog 1/0 units. Up to 4,096 1/0 points can be connected to each port. The RAM is used to store a user's control strategy(program) and data. The flash memory (EEPROM) stores the operating system firmware (kernel) and can also be used to store a control strategy. Memory is not expandable. Power Requirements RAM: 4 MB (not expandable) Flash EEPROM: 2 MB (not expandable) The SNAP-LCM4 requires only 5 voe power. which can be supplied by the Opto 22 SNAP-PSS power supply. The amount of current required depends upon the M4BUS expansion cards installed (see page 2); the controller itself requires 1.0 amp. Mounting For DIN-rail mounting. also order a DIN clip package, part number SNAP-LCM4DIN. Specifications Item Specification CPU 32-bit Motorola processor IEEE floating-point math co-processor Memory RAM 4 MB with battery backup (user programs and data), not expandable Flash EEPROM 2 MB (controller firmware and user programs), not expandable RAM/clock battery 3.6-volt lithium, non-rechargeable Communication, base unit Three RS-232 or RS-485 ports, one dedicated RS-485 remote 1/0 port with interrupt capability Real-time clock Clock/calendar, Epson 64613 with battery backup, Y2K compliant Power requirements SVDC +/-0.1 VDC at 1 Amp (maximum) without expansion cards Typical operating temperature 0° C to 70° C Storage temperature -40° C to 85° C Humidity 5% to 95% relative humidity, non-condensing Software FactoryFloor (OptoControl, OptoDisplay, OptoServer, and OptoConnect) and Classic software (Cyrano, Mistie MMI, and MOS) Hard system monitors (including Detect main power supply operation and proper microprocessor operation watchdog timer and voltage monitor) Soft system monitors Program/data corruption Host and 1/0 communication Opto 22

43044 Business Park Drive* Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-0PTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO
Product Support: (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com, FaxBack: (800) 474-0PTO

~** ,~-4,..,.1 9,\\,l,.L AUJ'o4r,. ,0 o f 0 DPTO 22 CONTROLLERS SNAP DATA SHEET Form 1106-990524 SNAP-LCM4 System Architecture The SNAP-LCM4 provides a variety of communication options, shown in the diagrams on this and the following page. Etha-nat:Network CROSSOVE. CABLE ~-~ -~

~ ! ~

SNAP-LCM4 ~' I ~ SNAP-LCM4 ~--?@5- ~ / ' SNAP-LCM4 Serial Direct Connection SING~:_::OP. RS-232 SNAP-LCM4 MULTI DROP ~ RS-485 ~* I I.___ ___ SNAP~LCM4 page 4/7 Opto 22

43044 Business Park Drive
Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-0PTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO
Product Support: (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800) 474-0PTO

CONTROLLERS SNAP DATA SHEET page 5/7 Form 1106-990524 SNAP-LCM4 System Architecture (continued) ARCNETNatwark TWISTED-PAIR, FIBER ~T~-r: * * ~ TWISTED-PAIR, FIBER ~' HUB~rili ~'~ SNAP-LCM4 HUB SNAP-LCM4 SNAP-LCM4 ,___ ___ SNAP-LCM4------ Ramot&Commwllcatlan SERIAL OR ETHERNET ~ RADIO MODEM WIRELESS LAN ADAPTER SERIAL OR ETHERNET SNAP-LCM4 Opto 22

43044 Business Park Drive* Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-0PTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO
Product Support: (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800) 474-OPTO

_.,.. -,*"*'"L AUJ"o*<t~ ._+... * * { 0 0PTO 22 DATA SHEET Form 1106-990524 CONTROLLERS SNAP page 6/7 SNAP-LCM4 Dimensions (Panel Mounted) TopVlew For installation instructions, see Opto 22 Form 1122, SNAP-LCM4 Installation Guide. SldeAVlew I 6 0 c=J C () i:i;cgg 6.20 (157.48mm) 5.70 (144.78mm) L C C r r r a;c;JII lljClilll 'r;tljlll G-0 () 0- 'r;tljlll I - .25 (6.35mm) ~ 580 (14732m m) 5.30 (134.62mm) L 25 (6.35mm) 6.50 MAX (156 1mm) Opto 22

43044 Business Park Drive
Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-OPTO
Fax (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO
Product Support: (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800) 474-OPTO

,~" *"*\\,l,.L AUy, 0.... .l',+"~ ""o* f 00PTD 22 CONTROLLERS SNAP DATA SHEET Form 1106-990524 SNAP-LCM4 Dimensions (DIN-Rail Mounted) SkleBView DIN-rail mounting requires a DIN clip package, part number SNAP-LCM4DIN (not included). For installation instructions. see Opto 22 Form 1122, SNAP-LCM4 Installation Guide. 6.50 MAX (156.1mm) 1 "M"" I I t DIN RELEASE TAB SWAP RACK DIN R.AJL ADAPTER J CLIP MOUNTING OPTION (LOW PROFILE) J 11 r - t CUSTOMER SUPPLIED 35mm DIN RAIL NOTE: BE SURE TO CONSIDER DIN RAIL DIMENSIONS. page 7(1 irgJJJ I I Opto 22

43044 Business Park Drive* Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-0PTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO
Product Support: (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800) 474-OPTO Dimension and specifications are subject_, change. All products and/or C0111>any names throughout this data sheet.re generaly rademaru or registered b"ademm of ther respective COIT1>8nies.

7

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,._+"",** ~ '"'o* f 0 DPTD 22 DATA SHEET Form 787-000718 Part Number 83000 Features

Convenient pluggable connector for removable top mounted field wiring.
Ready access to standard fuses.
Versatile DIN-rail or panel mounting.
Single distributed brain does it all -

analog, digital, or mixed 1/0.

Highly visible LED status indicator for each channel.
High-density digital 1/0 (Four channels per module).
Mix analog and digital modules on

(] the same rack.

High-density (dual channel inputs),softwareconfigurable, intelligent analog 1/0.
Handsome snap-on ID µiates for channel labels.
Quick and easy installation -

modules "SNAP" securely on racks, no screws required.

Factory Mutual approved.

Description BRAINS SNAP ANALOG AND DIGITAL page 1/19 Description SNAP Analog/Digital Brain Mistic/Optomux Protocol The B3000 is a high-performance brain used to remotely control a mix of both analog and digital 1/0 modules using Opto 22's Snap "B Series"l/0 mounting racks. The B3000 can be used with either an Opto 22 controller or a host computer. On-board intelligence enables many distributed control functions. Since SNAP analog and digital modules have the same footprint, the B3000 brain can be combined with Snap "B Series" racks to provide the world's most powerful and sophisticated 1/0 handling systems. The B3000 communicates with a host processor serially over RS485 twisted pair wiring and supports both the advanced Mistie protocol and the industry-standard Optomux protocol. Both protocols can support high-speed communication (115 Kbaud). Utilizing the Mistie protocol, advanced 1/0 processing - including PIO calculations (100 millisecond update), pulse width duration measurements (100 microsecond resolution}, and high-speed counting (20,000 Hz)-can all be accomplished on separate channels of the same 1/0 mounting rack. See page 3 for a complete list of mistic functions. Opto 22

43044 Business Park Drive
Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-OPTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800) 452-0PTO
Product Support (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800)474-0PTO

DATA SHEET Form 787-000718 In addition to providing input and output capability, the Optomux protocol also has the ability to perform count, latch, and pulse duration on digital input channels, as well as frequency and pulse functions on digital outputs. The Optomux protocol is also capable of providing input averaging and output waveform functions on analog channels. See page 4 for a complete list of Optomux functions. The 83000 is compatible with the classic B1 and B2 brains, with a few exceptions. The 83000 adds the ability to communicate with either a 2-wire or 4-wire configuration, at speeds of 115 Kbaud. Classic brains were restricted to 4-wire communications at up to 38.4 Kbaud. The B3000 now supports only the standard 2-pass method of communication with the Optomux protocol. By using the 83000 with the Mistie protocol and a Mistie controller, SNAP 1/0 customers can take advantage of FactoryFloor, Opto 22's impressive new suite of Windows 32-bit software that delivers total control to industrial automation customers. FactoryFloor consists of four integrated components: OptoControl"', a graphical, flowchart-based development environment for control solutions OptoDisplay', a graphical, multimedia operator interface package OptoServer', a robust data server that connects the controller network with the PC-based FactoryFloor network. Plus OptoConnect'. a drag-and-drop database utility that makes building SOL Server and Access databases a snap. BRAINS SNAP ANALOG AND DIGITAL page 2/19 OptoControl is the cornerstone of Opto 22's FactoryFloor software and is the programming environment that leverages all the power of Opto 22's distributed hardware platform. OptoControl utilizes the distributed control capability of the B3000 brain and takes advantage of the graphical Windows 95 or NT interface to make it easy to configure, design, and troubleshoot your control system. Opto 22's OptoDriver Toolkit' may be used for direct communications from a host PC to the 83000. The toolkit includes new 32-bit Windows drivers. Windows 16-bit drivers, and Opto 22's classic DOS drivers. The kit also provides the files, documentation, and real-world examples needed to write Microsoft Windows and DOS software applications. Programmers can access the Opto 22 1/0 hardware using high-level languages such as Microsoft Visual C++ ' or Microsoft Visual Basic. Opto 22

43044 Business Park Drive* Temecula, CA 92590
Phone (909) 695-3000 * (800) 321-OPTO
Fax: (909) 695-3095
Internet www.opto22.com Inside Sales: (800) 452-0PTO
Product Support (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
F axBack: (800) 47 4-0PTO

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DATA SHEET Form 787-000718 B3000 Mistie System Architecture PC WITH AC37 OPTO 22 CONTROLLER REMOTE BUS RS-485 SNAP-B8M BRAINS SNAP ANALOG AND DIGITAL page 3/19 SNAP 8 MODULE RACK WITH SNAP BRAIN Mistie Functions Digital Input latching (10 µsec) Timing (1 msec resolution) Counting (32 bit) Totalizing Output timing (1 msec resolution) Pulse generation (1 msec resolution) Time proportional output (100 msec minimum period) Frequency measurement (up to 20 Khz) Event reactions Pulse measurment Period measurement Analog Pl D loop control High/Low limit monitoring Thermocouple linearization Digital filtering Ramping Waveform generation Programable offset and gain Engineering unit scaling Square root extraction Event reactions Notes: SNAP-B12MC SNAP 12 MODULE RACK WITH SNAP BRAIN SNAP-B16M SNAP 16 MODULE RACK WITH SNAP BRAIN

1. PIO loops do not cross address boundaries.

2. PIO loops can only be configured on analog addresses.

There is a maximum of 8 PIO loops per analog address.

3. Event reactions do not cross address boundaries.

Opto 22

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~~'4. ~*'4.*\\*L AU to-,-

..,'O "o.,. { 0 DPTD 22 DATA SHEET Form 787-000718 B3000 Optomux System Architecture PC WITH AC24AT Optomux Functions Digital Input latching Time Delays (1 Oms resolution) LC4A Pulse Generation (1 Oms resolution) Counting (16 bit) Pulse Duration SNAP-B8M SNAP 8 MODULE RACK WITH SNAP BRAIN Analog Input Averaging High/Low Limit Testing Waveform Generation High/Low Limit Recording Programmable Offset & Gain BRAINS SNAP ANALOG AND DIGITAL SNAP-B12MC SNAP 12 MODULE RACK WITH SNAP BRAIN page 4/19 83000 L,,----,,iii~-=- _ I SNAP-B16M SNAP 16 MODULE RACK WITH SNAP BRAIN Opto 22

43044 Business Park Drive* Temecula, CA 92590
Phone: (909) 695-3000 * (800) 321-OPTO
Fax: (909) 695-3095
Internet: www.opto22.com Inside Sales: (800)452-0PTO
Product Support (800) TEK-OPTO * (909) 695-3080
Fax: (909) 695-3017
E-mail: support@opto22.com
FaxBack: (800) 474-0PTO

~* *1:*',-.1. """o.,.,.

,._-+"',*~ ,o l*oPTD 22 BRAINS SNAP ANALOG AND DIGITAL DATA SHEET page 5/19 Form 787-000718 Specifications General Operating Specifications Power Requirements Operating Temperature Communications Interface Data Rates Range: Multidrop LED Indicators Options: Jumper Selectable 5.o voe +/- 0.1 voe @ 1.oA max. 0° to 70°C, 95% humidity, non-condensing RS-485/422, 2-or 4-wire, twisted pair(s), with shield 300,600, 1200, 2400,4800, 9600, 19200, 38400, 57600, 76800, and 115200 baud Unlimited. (Up to 3,000 feet or 32 stations maximum between repeaters) RUN (Power On), RCV (Receive), XMT (Transmit), (IRQ) Interrupt, and (PGM) Program Address Communication baud rate CRC/Ched~sum Binary/ASCII Mistic/Optomux Emulation Connectors And Jumpers Top View: B3000 (cover removed) a z + ~ I I" PLUGGABLE TX/RX 1 1111:11 + 2 COMMUNICATIONS 0 (I) COM BAUD C I WIRING C + RX 1111:11 CONNECTOR ti. + C IRQ z BAUD en N

- i' N1 2

COMMUNICATION -~ ADDRESS t-:,~ I LEDs 0

ACOR BITS 0&1 =O 0 Opto 22
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BRAINS SNAP ANALOG AND DIGITAL DATA SHEET page 6/19 Form 787-000718 Specifications Serial Communication Cables The following cables are recommended for RS-485/422 serial communications. Although you may elect to use other cables, keep in mind that low capacitance (less than 15 pF/ft.) is important for high-speed digital communication links. The cables listed below are all 24-gauge, 7x32 stranded, with 100-ohm nominal impedance and a capacitance of 12.5 pF/ft. Select from the following two-, three-, and four-pair cables, depending on your application needs. All will yield satisfactory results. It is recommended that you choose a cable with one more pair than your application requires. Use one of the extra wires, rather than the shield, for the common. Two-Pair: Belden P/N 8102 (with overall shield) Belden P/N 9729 (individually shielded) Belden P/N 8162 (individually shielded with overall shield) Manhattan P/N M3475 (individually shielded with overall shield) Manhattan ?/N M39249 (individually shielded with overall shield) Three-Pair: Belden P/N 8103 (with overall shield) Belden P/N 9730 (individually shielded) Belden P/N 8163 (individually shielded with overall shield) Manhattan P/N M3476 (individually shielded with overall shield) Manhattan P/N M39250 (individually shielded with overall shield) Four-Pair: Belden P/N 8104 (with overall shield) Belden P/N 9728 (individually shielded) Belden P/N 8164 (individually shielded with overall shield) Manhattan P/N M3477 (individually shielded with overall shield) Manhattan P/N M39251 (individually shielded with overall shield) Opto 22

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DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 7/19 IMPORTANT! PLEASE NOTE: IF YOUR SNAP-BRAIN BOARD FEATURES A PLASTIC BASE, YOU MUST REMOVE THE PLASTIC INSULATOR FROM THE CIRCUIT BOARDS, AS SHOWN IN DIAGRAM BELOW. TO REMOVE INSULATOR FROM CIRCUIT BOARD Opto 22

43044 Business Park Drive* Temecula, CA 92590
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DATA SHEET Form 787-000718 Specifications Communication Jumpers/Wiring Communication Connector Pinout TX/RX+ TX/RX-COM -----' RX+-----' RX- ------' IRQ+ --____ __, IRQ--------' COMMUNIGATION Jumper Description 0 Pull-up for TX/RX+ Terminator for TX/RX Communication 2 Pull-down for TX/RX-Terminations/Biasing Schematic (RS-485) 3 Pull-up for RX+ + 4 Terminator for RX line TX/RX BRAINS SNAP ANALOG AND DIGITAL page 8/19 0 + 0

TX/RX 1

+ 2 COM 3 BAUD 4 + 5 RX 6 + 7 IRQ BAUD ADDRESS O* ADDR BITS 0&1 =O 0 +SV to +r (2-WIRE / 4-WIRE) 1 5 Pull-down for RX line 6 Pull-up for IRQ+ 7 Terminator for IRQ 8 Pull-down for IRQ-Note: When changing jumper settings, the new settings will not take effect until the next time the unit is powered up. + RX (4-WIRE) 3 2 4 5 + IRQ Opto 22

43044 Business Park Drive* Temecula, CA 92590
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-"'1."'*:.,,,.1. '"'"o., 'o* l *u PTO 22 DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 9/19 Mistie Communication Jumpers/Wiring STANDARD 2-WIRE CONFIGURATION OVERALL CABLE SHIELD HOST PC WITH AC37 REMOTE ADAPTER OR OPTO 22 CONTROLLER OPTIONAL (ONLY REQUIRED IF INTERRUPT CAPABILITY OF B3000 IS TO BE USED) NOTE: IN THIS EXAMPLE THE CABLE SHIELD IS lliU ELECTRICALLY CONNECTED TO THE RS-LBS COM (COMMON) TERMINALS COMMUNICATION CONNECTOR (J2), 7 TERMINAL 2.WIRE NON-TERMINATED (MIDDLE OF LINK) (Iliffi 012345678 COMMUNICATION JUMPERS 0-8 COMMUNICATION CONNECTOR (J2), 7 TERMINAL 2-WIRE TERMINATED (END OF LINK) (IDE 012345678 COMMUNICATION JUMPERS 0-8 In order to meet published specifications. the RS-485 serial link requires two terminations, one at each physical end of the serial link. Star configuration is not allowed. In orrler to use a star configuration. use Opto 22 Part No. AC38A/B. I JUMPER INSTALLED G) JUMPER REMOVED ALTERNATE 2-WIRE CONFIGURATION (ACCEPTABLE FOR MOST CONDITIONS) TX/RX+ (l) H"1..,_-. TX/RX- (l) 1-+t-+-~ COMMUNICATION CONNECTOR (J2), 7 TERMINAL 1*=-:=-----t--t-1'. 2 _ TX/RX COMMUNICATION CONNECTOR (J2), 7 TERMINAL 1+ 2_ TX/RX HOST PC WITH AC37 REMOTE ADAPTER COM (l) ~i-+------~ 3 COM ------ll---4------+-1 3 COM 4+ OR OPTO 22 CONTROLLER e; e; IRQ+ (l) i-r---~-....._,,.. IRQ- (l) I-+--.- OPTIONAL (ONLY REQUIRED IF INTERRUPT CAPABILITY OF 83000 IS TO BE USED) NOTE IN THIS EXAMPLE THE CABLE SHIELD IS CONNECTED TO THE RS-485 COM (COMMON) TERMINALS, BUT THE SHIELD IS lliU EARTH GROUNDED. 4+ 5_ RX &+IRQ 7-2-WIRE NON-TERMINATED (MIDDLE OF LINK) (Iliffi 0 1 23456 78 COMMUNICATION JUMPERS 0-8 SHIELD DRAIN WIRE NOTE: DO li.QI TIE TO EARTH GROUND 5-RX &+IRQ 7-2-WIRE TERMINATED (END OF LINK) ~ 0123 4 56 7 8 COMMUNICATION JUMPERS 0- 8 ~ JUMPER INSTALLED G) JUMPER REMOVED Opto 22

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Temecula, CA 92590
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~~"'..,*"'*'~",..., "o* ..,+*,+o ,..,.o* { 0 0 PTO 22 DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 10/1 9 Mistie Communication Jumpers/Wiring (Continued) STANDARD 4-WIRE CONFIGURATION OVERALL CABLE SHIELD HOST PC WITH AC37 REMOTE ADAPTER OR OPTO 22 CONTROLLER RX+ 0..--._, RX- 0 i,.+-l~_, IRQ+ 0 t-t--t---. IRQ- 0 i-1-+-__, j EARTH GND OPTIONAL (ONLY REQUIRED IF INTERRUPT CAPABILITY OF B3000 IS TO BE USED) NOTE IN THIS EXAMPLE THE CABLE SHIELD IS NOT ELECTRICALLY CONNECTED TO THE RS-485 COM (COMMON) TERMINALS COMMUNICATION CONNECTOR (J2), 7 TERMINAL COMMUNICATION CONNECTOR (J2), 7 TERMINAL 1*~TX~/R~X~--1--..._ n-1+ TX/RX 2-------- 'V 2-3 COM---------~0 3 COM 4+RX 0 4+RX 5-0 5-6+-----+---- 7_1RQ 4-WIRE NON-TERMINATED (MIDDLE OF LINK) aaaaaaaaa aaaaaaaaa 2345678 COMMUNICATION JUMPERS O. 8 I JUMPER INSTALLED 4-WIRE TERMINATED (END OF LINK) ~ 012345678 COMMUNICATION JUMPERS O. 8 G) JUMPER REMOVED In order to meet published specifications. the RS-485 serial link requires two terminations, one at each physical end of the serial link. Ster configuration is not allowed. In order to use a star configuration, use Opto 22 Part No. AC30 *A/B. ALTERNATE 4-WIRE CONFIGURATION (ACCEPTABLE FOR MOST CONDITIONS) OVERALL CABLE SHIELD HOST PC WITH AC37 REMOTE ADAPTER OR OPTO 22 CONTROLLER RX+ 0--- RX- 0 n-t:::::::.__J IRQ+ 0 1-+----. IRQ-0--- OPTIONAL (ONLY REQUIRED IF INTERRUPT CAPABILITY OF B3000 IS TO BE USED) NOTE IN THIS EXAMPLE THE CABLE SHIELD IS CONNECTED TO THE RS-485 COM (COMMON) TERMINALS, BUT THE SHIELD IS NOT EARTH GROUNDED. COMMUNICATION CONNECTOR (J2), 7 TERMINAL COMMUNICATION CONNECTOR (J2), 7 TERMINAL __,G,, 1 +-----1--A--. 1 + 2_T .:.;X.;;;/R;.;;X,;._ __ &.J...L.,_, 0 2_ TX/RX 3 COM---"'-'-~----~0 3 COM 4 +RX 0 4 +RX 5-0 5-6+ 0 6+ 7_ IRQ 0 7_ IRQ 4-WIRE NON-TERMINATED (MIDDLE OF LINK) aaaaaaaaa aaaaaaaaa 0 2345678 COMMUNICATION JUMPERS 0- 8 SHIELD DRAIN WIRE NOTE DO liQ.I TIE TO EARTH GROUND 4-WIRE TERMINATED (END OF LINK) ~ ~ 012345678 COMMUNICATION JUMPERS O

8 I JUMPER INSTALLED G) JUMPER REMOVED Opto 22
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Phone: (909) 695-3000 * (800) 321-OPTO
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,..,-...,*'"'" Au,-0.-, 1 44/'

0.

f 0 DPTD 22 DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 11/19 Optomux Communication Jumpers/Wiring STANDARD 2-WIRE CONFIGURATION HOST PC WITH AC37 NOTE ltl THIS EXAMPLE THE CABLE SHIELD IS.tiQI ELECTRICALLY CONNECTED TO THE RS-LeS COM (COMMON) TERMINALS COMMUNICATION CONNECTOR (J2), 7 TERMINAL 2-WIRE NON-TERMINATED (MIDDLE OF LINK} ~ 0123456 78 COMMUNICATION JUMPERS 0-8 I JUMPER INSTALLED COMMUNICATION CONNECTOR (J2), 7 TERMINAL 2-WIRE TERMINATED (END OF LINK} ~ 0 123 4 5678 COMMUNICATION JUMPERS 0-8 G) JUMPER REMOVED In order to meet published specifications, the RS-485 senal hnk requires two terminations, one at each phys,cat end of the serial link. Star cotlfig-io* is not allowed. In order to use a Star cont,guratoon, use Qpto 22 Part No. AC38A/B. ALTERNATE 2-WIRE CONFIGURATION (ACCEPTABLE FOR MOST CONDITIONS) OVERALL CABLE SHIELD - TX/RX+ 0 0 TX/RX- ~ COM 0 HOST PC 0 WITH AC37 0 IRQ+ 0 IRQ- 0 ~ NOTE Ill THIS EXAMPLE THE CABLE SHIELD IS CONNECTED TO THE RS-485 COM (COMMON) TERMINALS, BUT THE SHIELD IS.tiQI EARTH GROUNDED X'. I COMMUNICATION CONNECTOR 1 (J2). 7 TERMINAL r1/4 1+ ei~2_ TX/RX 0 ~3 COM 0 4+ 0 5_RX 0 &+IRQ 0 7-2-WIRE NON-TERMINATED (MIDDLE OF LINK} ~ 012345678 COMMUNICATION JUMPERS O -8 l SHIELD DRAIN WIRE NOTE: DO.tiQI TIE TO EARTH GROUND COMMUNICATION CONNECTOR I (J2), 7 TERMINAL rl 1+ 0 2_ TX/RX 0 3 COM 0 4+ 0 5_RX 0 &+IRQ 0 7-2-WIRE TERMINATED (END OF LINK) ~ 012345678 COMMUNICATION JUMPERS 0-8 I JUMPER INSTALLED G) JUMPER REMOVED Opto 22

43044 Business Pan< Drive
Temecula, CA 92590
Phone (909) 695-3000 * (800) 321-OPTO
Fax: (909) 695-3095
Internet www.opto22.com Inside Sales: (800) 452-0PTO
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DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 12/19 Optomux Communication Jumpers/Wiring (Continued) STANDARD 4-WIRE CONFIGURATION OVERALL CABLE SHIELD TO+ 0--- TO- 0.+f-t--. COMMUNICATION CONNECTOR (J2), 7 TERMINAL COMMUNICATION CONNECTOR (J2), 7 TERMINAL

~Tx:,R~x::::::~===~

0 :: TX/RX HOST PC WITH AC24AT OR AC422AT ADAPTER COM 0 1-++-I--~~-~ 3 COM -------------~0 3 COM OR LC4 CONTROLLER FO+ 0 >-+t,-+-- FO- 0--- 0 0 EARTH GND NOTE IN THIS EXAMPLE THE CABLE SHIELD IS NOT ELECTRICALLY CONNECTED TO THE RS-tBS COM (COMMON) TERMINALS 4+RX 0 4+RX 5-0 5-0 4-WIRE NON-TERMINATED (MIDDLE OF LINK) a a a a a a a a 0 2345678 COMMUNICATION JUMPERS 0-8 I JUMPER INSTALLED 0 4-WIRE TERMINATED (END OF LINK) WnID 012345678 COMMUNICATION JUMPERS O -8 G) JUMPER REMOVED In order to meet published specifications, the RS-485 serial link requires two terminations, one at each physical end of the serial link. Star configuration is not allowed, In order to use a star configuration, use Opto 22 Part No. AC30*NB. ALTERNATE 4-WIRE CONFIGURATION (ACCEPTABLE FOR MOST CONDITIONS) OVERALL CABLE SHIELD TO+ 0---- TO- 0 ~1-4-- COMMUNICATION CONNECTOR (J2), 7 TERMINAL COMMUNICATION CONNECTOR (J2), 7 TERMINAL 1+----...... -A-~ 1+ 2_ TX/RX. 0 2_ TX/RX HOST PC WITH AC24AT OR AC422AT ADAPTER COM 0 H-l-l--~~--1-1 3 COM-----~-'------~0 3 COM OR LC4 CONTROLLER FO+ 0---- FO- 0 rf""t::::__J 0 0 NOTE IN THIS EXAMPLE THE CABLE SHIELD IS CONNECTED TO THE RS-485 COM (COMMON) TERMINALS, BUT THE SHIELD IS NOT EARTH GROUNDED. 4+RX 0 4+RX 5-0 5-4-WIRE NON-TERMINATED (MIDDLE OF LINK) 0 2345678 COMMUNICATION JUMPERS 0- 8 SHIELD DRAIN WIRE NOTE DO liQl TIE TO EARTH GROUND 0 0 4-WIRE TERMINATED (END OF LINK) ~ ~ 012345678 COMMUNICATION JUMPERS O -8 I JUMPER INSTALLED G) JUMPER REMOVED Opto 22

43044 Business Park Drive* Temecula, CA 92590
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~** .. ~'( .'(.1fl,.L AU J' o- ,.,+*.,*-> "'o* [ 0 0PTD 22 DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 13/19 Baud/Address Jumpers, LED Descriptions Note: When changing jumper settings, the new settings will not take effect until the next time the unit is powered up. z ~ 1111 6 8 M 1111 ri. ~ en B3000 BRAIN 0 BAUD 0 1 2 3 4 5 6 7 o* 1* BAUD ADDRESS Table 1: Baud Rate Jumpers (0 - 3) JUMPER POSITION BAUD RATE 3 2 1 0 115.2 KBaud Ill Baud 4 (faclory default setting) 76.8 KBaud 1101 Binary I (Default) ASCII J (Required Setting 57.6 KBaud 1100 for Optomux) 38.4 KBaud 1011 Baud 5 Data v~rification CRC 16 I ( Default) 19.2 KBaud I O I Checksum Modulo 256 J (Required Setting 9600 Baud I DOi for Optomux) Baud § PrQtQ~QI 4800 Baud I D Mistie J (Default) 2400 Baud DIii Optomux I (Required Setting for Optomux) 1200 Baud 0110 Bill..1 Unused = 600 Baud DIDI RUN 2 3 4 5 6 7 ADDR LEDs ~ 300 Baud DI DO I =JUMPER INSTALLED 0

ADDR BITS 0&1 =0 0 Table 3: LED Description Table LED Description PGM LED will be on during Flash memory upgrade. Normally LED is off.

IRQ Processor interrupt request currently active. RCV Processor is currently receiving data on communication line. XMT Processor is currently transmitting data on communication line. RUN Power on Processor (at least 4.75 VDC) Table 2: Address Table 765432 0 4 DI 8 DID 12 II 16 DID 20 DIDI 24 II 28 DIii 32 DID 36 IDOi 40 DIDI 44 DDIDII 48 II 52 D01101 56 DIii 60 D1111 765432 64 DID 68 DIDDDI 12 IDOi 16 DlD11 so DIDI 84 DIDIDI 88 01D110 02 D10111 oo II 100 D11DI 104 D111D 1os D11011 112 DIii 116 D11101 120 D1111D 124 D11111 I = JUMPER INSTALLED Address Configuration Notes: 765432 128 lrn 132 ID[]JI 1361DCID 140 1[11 144 IDDIJD 148111 15210 1561DI 160 101[1] 164 101[1]1 16s lDl[ID m 1D1[11 116 IDIIJD 180 101101 1841D1 1ss lDlI 765432 1s211rn 196 IIITJDI 20011[1]1 20411[1]11 2osll[IDD 21211[11 216 IICIIO 22011[111 224111D 228 IIIJDI 2321111D 23611111 24011 2441101 248111D 2521111 D = NO JUMPER

1. Jumper positions O and 1 have no provision to install jumpers. These jumper positions are always set open by default.

2. See Figure 1-1 on page 18 for 83000 SNAP 1/0 mapping.

Opto 22

43044 Business Park Drive* Temecula, CA 92590
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,...,'i..,.1.,,.L Atir 0..,

4 > "'+ 'o+ f 0 0 PTO 22 DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 14/19 Jumper Examples.. Mistie & Optomux Note: When changing jumper settings, the new settings wi II not take effect until the next time the unit is powered up. Jumper Settings When Used As Mistie Brain Mistie 2-wire 115.2 Kbaud CRC-16 Binary Address 0 z = m C C C... m Ill. er z BAUD 0-3 "' 115.2 Kbaud 4"' Binary 5=CRC 16 6 = Mistie protocol 2-wiremode ~,:i(lc ::*i*: r 4.. 4 1----Address 0 ____ a-:.. QRcv :: ~ I~.. 0 XMT 7 This is the last unit on the communication link. I O RUN ADDR 0

ADDR BITS 0&1 =0 0 I JUMPER INSTALLED

~ JUMPER REMOVED Jumper Settings When Used As Optomux Brain Optomux 4-wire 38A kbaud checksum 256 Ascii address O 4-wiremode This is the last unit on the communication link. z = m C C C... m Ill. er z +

TX/RX

+ COM + RX + IRQ BAUD =:,~-1i~-i~: I ! : : 0 IRQ

: j 0 RCV

~ I~.-. 0 XMT 7 I O RUN ADDR 0

ADDR BITS 0&1 =0 Q 0-3 = 38.4 Kbaud 4 =ASCII 5 = Checksum 256 6 = Optomux protocol
Optomux protocol requires ASCII and checksum 256.

---Address 0 = JUMPER INSTALLED (;) JUMPER REMOVED Opto 22

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.,)~..,*~ -.,aL Au,-0 .. ~.,).~ ,._+,+ o f 0 0 PTO 22 DATA SHEET Form 787-000718 B3000 1/0 Mapping DIGITAL ADDRESS B3000 BASE + 0 DIGITAL ADDRESS BASE+ 1 0 2 3 4 5 6 7 I s 9 10 11 112 13 14 151 0 2 3 4 5 6 7 I s 9 10 11 112 13 14 151 Note: Base Address set by jumpers on brain board ,._....... d,,,. S ~~ O.L.110\\Wolr~ g: gg: g c=g, ! !~ I (} GPTG 22 INAPllOIOIIAJN iO ~ 1 1 ~ ;

; *;; j100e 00II e

oo <1) *ii**il!**,..**-* ~ i ! S?! o i i ! ~~ ~~ Cl! ji - * *-*,s --., Q 0 { r ~ 0 ° ~ 0 0 0 I-DIGITAU ANALOG 0 0 - I-DIGITAU ANALOG t 0 0 I-DIGITAUANALOG 0 0 I-DIGITAUANALOG...._, = 0 0 I-DIGIT AU ANALOG t 0 0 u, I-DIGIT AU ANALOG 0 0 a, I-DIGITAUANALOG 0 Etl 0.... I-DIGIT AU ANALOG.._ t -= 0 0 a, I-ANALOG ONLY 0 <D r ANALOG ONLY ...I 7 0 0 -0 I-ANALOG ONLY t 0 0 f-ANALOG ONLY.._,

,=

0 Et) 0 - ANALOG ONLY I-0 0 -"' I-ANALOG ONLY 0 0 -* I-ANALOG ONLY ,c 0 Et) 0 -u, L ANALOG ONLY...._ ...I ~ '::I Figure 1-1: SNAP 1/0 Rack BRAINS SNAP ANALOG AND DIGITAL page 15/19 I', 0 2 3 4 5 6 7 ANALOG ADDRESS BASE + 2 8 9 10 11 12 13 14 15 0 2 3 4 5 6 7 ANALOG ADDRESS BASE + 3 8 9 10 11 12 13 14 15 Opto 22

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"~1. ~*1.*'"'- AUto*,-

.'-+ ",+o 'o* { 0 0 PTO 22 DATA SHEET Fonn 787-000718 B3000 1/0 Mapping (Continued) The 83000 is connected to a SNAP 8 Series 1/0 rack, which can hold either 8, 12, or 16 SNAP modules. Digital modules (either input or output) contain four channels of I/

0. Analog input modules contain two channels and analog output modules currently contain two channels. Both analog and digital modules can be on the same rack.

A 83000 is capable of addressing a maximum of 32 channels of digital 1/0 and 32 channels of analog 1/0. However, the 1/0 mounting racks will not accommodate 32 channels of both digital and analog. The actual number of channels available depend on the combination of modules chosen. For example, the SNAP-816M rack can mount 16 modules. Up to eight of these modules can be digital, providing 32 channels of digital 1/0. The remaining eight module positions can be analog, providing up to 16 channels of analog 1/0. If all 16 modules are analog, up to 32 channels of analog 1/0 are available. 1/0 on the 83000 is divided into four addresses of 1/0 (two digital 1/0 and two analog 1/0). The digital addresses are base+0 and base+ 1. The analog addresses are base+2 and base+3. Therefore, if a SNAP brain is configured at address 12, the digital addresses would be 12 and 13 and the analog would be 14 and 15. BRAINS SNAP ANALOG AND DIGITAL page 16/19 First Four Module Positions (0-3): Each position can hold either a digital or an analog module. They can be all analog, all digital, or any mix of both. These four positions constitute the 16 digital channels of digital address base + 0, and the first eight analog channels of analog address base + 2. Second Four Module Positions (4* 7): Each position can hold either a digital or an analog module. They can be all analog, all digital or any mix of both. These four positions constitute the 16 digital channels of digital address base + 1, or the second eight analog channels of analog address base + 2. Third Four Module Positions (8-11 ): These positions can hold analog modules only. These four positions constitute the first eight analog channels of analog address base + 3. Fourth Four Module Positions (12-15): These positions can hold analog modules only. These four positions constitute the second eight analog channels of analog address base + 3. The layout Is Illustrated In Figure 1-1 on the previous page. Opto 22

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~..,"l..,*1.,,,.,L Aur0*~ ,.+*,o '"'o* { 0 0PTO 22 DATA SHEET Form 787-000718 BRAINS SNAP ANALOG AND DIGITAL page 17/19 OptoControl 83000 SNAP 1/0 Configuration If you configure a digital module on the digital address base + 0 at the first module location, that will preclude you from configuring an analog module on analog address base + 2 at the first module location, as analog channels O and 1 of analog address base + 2 overlap with digital channels 0, 1,2, and 3 of digital address base+ 0. This fact will be indicated in OptoControl by text in the Configure 1/0 Points dialog, which will display information in the Name field for analog channels 0 and 1 stating that those channels are used by a SNAP digital module, and will specify the name of that 1/0 unit address. Digital When configuring the unit. select 83000 Snap Digital as the Type in the Add 1/0 Unit dialog. The digital addresses are base+O and base+ 1. If the SNAP brain is configured at address 12 (base), the digital addresses would be 12 and 13. When a point is configured, OptoControl automatically creates and configures the other three points in the module. For example, if a digital SNAP point is added at channel 5, then identical points are created at channels 4, 6, and 7. Unique names are created for these new points, based on the name entered for the original point. You can then modify the name, as well as the description, features, default, and watchdog for each channel independently. If the module type of one digital point is changed, then the module type of all other points in that module are automatically changed. Analog When configuring the unit, select 83000 SNAP Analog as the Type in the Add 1/0 Unit dialog. The analog addresses are base+2 and base+3. If the SNAP brain is configured at address 12 (base), the analog addresses would be 14 and 15. Inputs: When an input is configured, OptoControl automatically creates and configures the other input channel on that module. The name of the other channel can then be modified, as well as the description, default, and watchdog fields. The module type and scaling cannot be modified. Outputs: Single-channel analog output modules use two analog channels, but they contain only one channel of output. Only the even-numbered channel is usable, e.g., 0, 2, 4, etc. The odd-numbered channel is not valid. Opto Z2. also produces 2-channel analog output modules. OtherNotes Event/reactions and PIO Loops can only operate on points in the same address group. They behave just like standard 1/0 in this sense, and cannot cross address boundaries. For example, a PIO loop cannot use an input on Address Base + 2, to control an output on Base + 3. Up to 127 event/reactions can be configured per SNAP address. Opto 22

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DATA SHEET Form 787-000718 Dimensional Drawings B3000 1/0 Processor 3.30 (83.82mm) (1.062 1 .57mm) l D DI I t 3.00 (76.31mm) 109 j (2 i7mm) TOP WIRE ENTRY NOTE CONSIDER NECESSARY -- DIMENSIONS PLUGGABLE FIELD CONNECTOR u ~ ~

c CJ i

0 :a;; ~ SNAP 1/0 CJ MODULE 0 3.55'"

a; (90.17mm) j 4 310" "

,109.47mm) FOR DIN CLIP ADD ADDITIONAL J 06" TO OVERALL HEIGHT SNAP RACK DIN RAIL ADAPTER CLIP MOUNTING OPTION I.LOW PROFILE) CUSTOMER SUPPLIED 35mm DIN RAIL NOTE BE SURE TO CONSIDER DIN RAIL DIMENSIONS. (DIN RAIL MUST BE MOUNTED HORIZONTALLY TO USE SNAP 1/0 WITHOUT MODULE HOLD-DOWN SCREWS\\ BRAINS SNAP ANALOG AND DIGITAL 1.82 (46.18mm) 1.75 (44.35mm) SNAP-B3000 1/0 PROCESSOR MODULE RETENTION RAIL z <i: a: a:, 3.62"* 3.62 (9195mm) u <C

r:

>--3: z ~ a:, (9195mm) t 4.3 U H (111mm) SNAP RACK LABEL HOLDER OPTION SNAP RACK BASE EXTRUSION TOLERANCE LEGEND

-I-.010"
- +/-.020"
  - +/-.030'
    - +/-.060" NO
REFERENCE ONLY page 18/19 Opto 22
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DAT A S H EET Form 787-000718 Assembly Brain To install brain onto B Series rack:

1.

Turn off power from rack assembly.

2.

Align brain connector with mating connector on rack.

3.

Seat brain onto connector.

4.

Use integral hold-down screw to secure in position. DO NOT OVERTIGHTEN! To remove brain from B Serles rack:

1.

Turn off power from rack assembly.

2.

Loosen integral hold-down screw on brain.

3.

Pull up on brain. BRAINS SNAP ANALOG AND DIGITAL page 19/19 Opto 22

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FaxBack: (800) 474-0PTO Dmension and specifica1ions are subject to change. Al products and/or company names throughout this data sheet are generally trademaru or regisered tademarks of their respecti'le companies.

OPTO 22 DATA SHEET Form 1144-010524 Description Opto 22 SNAP digital output modules are designed to work with SNAP 0-series or SNAP B-series racks. These modules are also compatible with SNAP Ethernet 1/0. Customers can choose from AC or DC models. SNAP digital's 4-channel-per-module packaging delivers high density. All solid-state modules provide 4,000 volts of optical isolation from the field side to the logic side. All SNAP digital modules have removable top-mounted connectors to provide easy access for field wiring. All operate on 5 VDC control logic. Each digital module features integral channel-specific LEDs for convenient troubleshooting and maintenance. SNAP digital 1/0 is 200 percent factory-tested and is UL and CE approved. In addition, part numbers ending in FM are Factory Mutual approved. SNAP output modules are used to switch up to four separate AC or DC loads. Output modules that are fused use a standard fuse with a convenient handle for easy replacement. DC outputs are available in either a source or sink configuration. AC outputs are zero voltage tum on and zero current tum off for transient-free switching. The dry contact modules allow switching of low power signals where signal integrity must be maintained, or where zero leakage current is a requirement. SNAP-OAC5MAand SNAP-ODC5MA are special modules featuring manual-on/manual-off/automatic switches, ideal for diagnostic testing of control applications. The switches override output from the application, so you can quickly check field device wiring. These modules each contain four isolated channels. The SNAP-OAC5-i, SNAP-ODC5-i, and SNAP-ODC5A-i modules provide four isolated output channels. Dry contact modules are not solid-state devices. They use reed relays, which are electro mechanical devices. These modules do not provide optical isolation. Current rating for dry contact modules depends on the voltage they are used with, as shown in the graph on page 10. 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 1/20 Part Numbers Description SNAP-OAe5 SNAP 4-<:hannel 12-250 VAe oulput, 5 voe logi: SNAP-OAe5MA* SNAP 4-<:hannel isolated 12-250 VAe output, 5 voe logic wlh manuaVauto switch SNAP-OAe5FM SNAP 4-<:hannel 12-250 VAe output, 5 voe logi: SNAP-OAe5-i* SNAP 4-<:hannel isolated 12-250 VAe output, 5 voe logic SNAP-OAe5-iFM SNAP 4-<:hannel isolated 12-250 VAe output, 5 voe logic SNAP-Ooe5SRe SNAP 4-<:hannel 5-{lO voe output, 5 VOe logic source SNAP-Ooe5SReFM SNAP 4-<:hannel 5-{lQ Voe output, 5 Voe logic source SNAP-Ooe5SNK SNAP 4-<:hannel 5-{lQ voe output, s voe logic sink SNAP-Ooe5SNKFM SNAP 4-<:hannel 5-{lO voe output, 5 voe logic sink SNAP-Ooe5R' SNAP 4-<:hannel dry contact output, normally open SNAP-Ooe5RFM SNAP 4-<:hannel dry contact output, normally open SNAP-Ooe5R5 SNAP 4-<:hannel dry contact output, normally dosed SNAP-Ooe5R5FM SNAP 4-<:hannel dry contact output, normally dosed SNAP-Ooe5MA' SNAP 4-<:hannel isolated 5-60 voe output, 5 voe logic w~h manuaVauto switch SNAP-OOe5-i SNAP 4-<:hannel isolated 5-60 voe outpu~ 5 voe logic SNAP-Ooe5-iFM SNAP 4-<:hannel isolated 5-60 voe outpu~ 5 voe logic SNAP-Ooe5A~* SNAP 4-<:hannel isolated 5-200 voe output, 5 voe logi: SNAP-Ooe5A-iFM SNAP 4-<:hannel isolated 5-200 voe output, 5 voe logi: SNAP-Ooe5ASNK* SNAP 4-<:hannel 5-200 voe outpu~ 5 voe logic sink SNAP-RETN4 SNAP 4-module retention rail (OEM) SNAP-RETN4B SNAP 4-module retention rail, 25-pack (OEM) SNAP-RETN6 SNAP 6-modute retention rail (OEM) SNAP-RETN6B SNAP 6-module retention rail, 25-pack (OEM) SNAP-FUSE4AB SNAP 4-amp fuse, 25-pack SNAP-MOOFUSEH SNAP digital output module fuse holder, 10-pack

UL approval pending Features
Four channels per module
Convenient pluggable wiring terminals
Powered by a single 5-volt supply
Channel-specific LEDs
Operating temperature: 0° to 70° C
UL and CE approved
Factory Mutual approved (part numbers ending in FM)

Pages 2, 4 2, 5 3, 4 2, 6 3, 6 7, 11 9, 11 7, 12 9, 12 7, 13 9, 13 7, 13 9, 13 8, 14 8, 15 10, 15 8, 15 10, 15 8, 12 Opto 22

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22 DATA SHEET Form 1144-010524 Specifications AC Output Modules SNAP-OACS AC OUTPUT MODULE Key Feature Field Side Ratings (each channel) Line Voltage - Maximum 250 VAC Line Voltage - Nominal 120/240 VAC Current Rating 3 amps per module o*c to 1o*c Ambient One Cycle Surge 80 amps peak (50/60Hz) Minimum Load Current 20mA Output Voltage Drop 1.6 \\Oils maximlXTl@ 0.75 amps Off-state Leakage at 2.5 mA @ 240 VAC Nominal Voltage - 60 Hz 1.25 mA@ 120 VAC Peak Blocking Voltage 500 volts Operating Frequency 25-65 Hz dV/ dl - Off-state 200 volts/msec dV/ dl - Commutating Snubbed for rated 0.5 power factor load Fuse 250 VAC - 4A 5x20 mm Fast-acting (Common to all Channels) Bell Fuse Part No. BEL 5HF4 Opto 22 Part No. SNAP-4A Channel-to-channel Isolation Not applicable Logic Side Ratings Pickup Voltage 4VDC@5.5 mA Dropout Voltage 1 voe @ <500 mA Control Resistance 220 ohms Logic Supply Voltage 5 voe +/- 0.25 voe Logic Supply Current 50 mA maximum Module Ratings Number of Channels Per Module 4 Turn-on nme 1/2 cycle maximum (zero volts crossover) Turn-off nme 1/2 cycle maximum (zero current crossover) Isolation 4,000 volts (transient) (Field Side to Logic Side) Temperature o* to 1o*c, operating -30° to as*c, storage 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 2/20 SNAP-OACSMA SNAP-OACS-i Diagnostic switches Four isolated channels Four isolated channels 250 VAC 250 VAC 120/240 VAC 120/240 VAC 3 amps per module 3 amps per module 80 amps peak (50/60Hz) 80 amps peak (50/60Hz) 20 mA 20 mA 1.6 volts maximum@ 0.75 amps 1.6 volts maximum @ 0. 75 amps 2.5 mA @ 240 VAC 2.5 mA@ 240 VAC 1.25 mA@ 120 VAC 1.25 mA @ 120 VAC 500 volts 500 volts 25-65 Hz 25-65 Hz 200 volts/msec 200 volls/msec Snubbed for rated 0.5 power Snubbed for rated 0.5 power factor load factor load Has four isolated channels. User Has four isolated channels. User must provide own fusing. must provide own fusing. 300 VAC (1500 V transient) 300 VAC (1500 V transient) 4 VDC@5.5 mA 4 VDC@5.5 mA 1 voe @ <500 mA 1 voe @ <500 mA 220 ohms 220 ohms 5 voe +/- o.25 voe 5 voe+/- 0.25 voe 50 mA maximum 50 mA maximum 4 4 1/2 cycle maximum 1/2 cycle maximum (zero volts crossover) (Zero Volts Crossover) 1/2 cycle maximum (zero current crossover) 1/2 cycle maximum (zero current crossover) 4,000 volts (transient) 4,000 \\Oils (transient) o* to 1o*c, operating o* to 1o*c, operating -30° to as*c, storage .30* to 85°C, storage Opto 22

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DPTO 22 DATA SHEET Form 1144-010524 Specifications 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 3/20 AC Output Modules - Factory Mutual Approved SNAP-OAC5-FM SNAP-OAC5~-FM AC OUTPUT MODULE Key Feature Factory Mutual approved Four isolated channels Factory Mutual approved Field Side Ratings (each channel) Line Voltage - Maximum 250 VAC 250 VAC Line Voltage - Nominal 120/240 VAC 120/240 VAC Current Rating 3 amps per module 3 amps per module o*c to 70'C Ambient One Cycle Surge 80 amps peak (50/60Hz) 80 amps peak (50/60Hz) Minimum Load Current 20 mA 20 mA Output Voltage Drop 1.6 \\Oils maximum@ 0.75 amps 1.6 \\Oils maximum@ 0.75 amps Off-state Leakage at 2.5 mA @ 240 VAC 2.5 mA @ 240 VAC Nominal Voltage - 60 Hz 1.25 mA@ 120 VAC 1.25 mA@ 120 VAC Peak Blocking Voltage 500 volts 500 volts Operating Frequency 25-65 Hz 25-65 Hz dV/ dt - Off-state 200 \\Olts/msec 200 \\Olts/msec dVI dt - Commutating Snubbed for rated 0.5 power factor Snubbed for rated 0.5 power load factor load Fuse 250 VAC - 4A 5x20 mm Fast-acting Has four isolated channels. User (Common to all Channels) Bell Fuse Part No. BEL 5HF4 must provide own fusing. Opto 22 Part No. SNAP-4A Channel-to-channel Isolation Not applicable 300 VAC (1500 V transient) Logic Side Ratings Pickup Voltage 4 VDC@5.5 mA 4 VDC @5.5mA Dropout Voltage 1 voe @ <500 mA 1 voe@ <500 mA Control Resistance 220 ohms 220 ohms Logic Supply Voltage 5VDC +/- o.25 voe 5VDC +/- 0.25 VDC Logic Supply Current 50 mA maximum 50 mA maximum Module Ratings Number of Channels per Module 4 4 Turn-on Time 1 /2 cycle maximum 1/2 cycle maximum (zero volts crossover) (zero volts crossover) Turn-off Time 1/2 cycle maximum 1/2 cycle maximum (zero current crossover) (zero current crossover) Isolation (Field Side to Logic Side) 4,000 volts (transient) 4,000 volts (transient) Temperature o* to 70'C, operating o* to 70'C, operating -30' to 85' C, storage -30' to 85'C, storage Oplo 22

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DPTO 22 DATA SHEET Form 1144-010524 Schematics SNAP-OAC5 Output Module 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 4/20 Part Number Description SNAP-OAC5 4-channel AC output 12-250 VAC 5 VDC logic SNAP-OAC5FM 4-channel AC output 12-250 VAC 5 VDC logic, Factory Mutual approved NOTE: See page 16 for FM modification. FIELD WIRING AC OUTPUT L1 L2 LOADl--------1 SNAP MODULE ~1---+---+--+-,__, FIELD CONNECTOR~!. C.HO. CH1 CH2 CH3 OPTO 22 PART # L 1 2 4 6 SNAP-FIELDCON ON BOAR6~~(:t:~~ "-.,,__"-' : 1/4*, ~,:.., FUSE HOLDER OPTo 22 SNAP 1/0 FIELD TERMINAL POSITIONS 1, 3, 5, AND 7 ARE INTERNAL it------1 BUSSED CONNECTIONS. SNAP AC OUTPUTS 5V+ DO D1 I I I __...J SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH ~ 19 17 15 13 11 9 7 5 20 18 16 14 12 10 8 6 4 2 03 02 01 DO PIN 1 (FIRST FORWARD PIN) SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) D2 D3 t CONTROL SIDE FIELD SIDE Opto 22

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DPTD 22 DATA SHEET Form 1144-010524 Schematics SNAP-OACSMA Output Module With Manual/Auto Switches FIELD WIRING AC OUTPUT OPTa 22 SNAP 1/0 ........ uu111111u11JWJ~ SNAP MODULE RELEASE LATCH ~~PIN 1 OPTO 22 PART # SNAP-MODLATCH l<Sl FORWARD PIN) §! + (!) ii; 19 17 15 13 11 9 7 5 3 1 PIN 1 1:1:1:1:-1:1:1:1:( 20 18 16 14 12 10 8 6 4 2 D3 D2 D1 DO SNAP DIGITAL MOOULE BASE CONTROL CONNECTOR (BOTTOM VIE\\\\? 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 5/20 Part Number Description SNAP-OAC5MA 4-channel isolated AC output 12-250 VAC, 5 VDC logic, with manual/auto switch OFF (CENTER) MANUAL ON }- AC LINE }- AC LINE AUTO SNAP AC OUTPUTS DO AUTO SV+ OFF ~ --------+-~ MANUAL ON D1 _..- AUTO OFF * --.....---+---+-,

. MANUAL ON OFF

~ ------+--~ l MANUAL ON CONTROL SIDE NOTE: User must provide own fusing. t FIELD SIDE, Opto 22

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DPTO 22 DATA SHEET Form 1144-010524 Schematics S N AP-OAC5-i I solated Outpu t Module AC LINE-( AC LINE-( FIELD WIRING AC OUTPUT ~l~r-,@-

ftcHO-CH1 CH2 CH3:

1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 6/20 Part Number Description SNAP-OAC5-i 4-channel isolated AC output 12-250 VAC, 5 voe logic SNAP-OAC5-iFM 4-channel isolated AC output 12-250 VAC, 5 voe logic, Factory Mutual approved NOTE: See page 16 for FM modification. ]- AC LINE ]- Ac LINE L1 2 3 4 __ s s 1 a _J,.... -----------------------. SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH IIPTa 22 SNAP 1/0 19 17 15 13 11 9 7 5 3 20 18 16 14 12 10 8 6 4 2 D3 D2 D1 DO PIN 1 SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) SV+ DO D1 D2 D3 t CONTROL SIDE SNAP AC OUTPUTS FIELD SIDE NOTE: User must provide own fusing. I I I I I _J Opto 22

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DPTD 22 DATA SHEET Form 1144-010524 Specifications DC Output Modules SNAP-OOCSSRC SOURCE AND SINK Key Feature Load sourcing Field Side Ratings (each channel) Une Voltage - Range 5-60VDC Une Voltage - Nominal 5-48VDC Current Rating 3 amps per module o*c to 7o*c Ambient Surge Current 5 amps peak for 1 second Minimum Load 20 mA Output Voltage Drop 1.6 volts maximum@ 0.75 amps Off-state Leakage 1 mA@60VDC Peak Blocking Voltage 60VDC Fuse 250 VAC - 4A 5x20 mm (Common to all Channels) Fast-acting Bell Fuse Part No. BEL 5HF4 Opto 22 Part No. SNAP-4A Channel-to-channel Isolation Not applicable Logic Side Ratings Pickup Voltage 4V@5.5 mA Dropout Voltage 1 VDC Control Resistance 220 ohms Logic Sup ply Voltage 5 VDC +/- 0.25 VDC Logic Sup ply Current 50 mA maximum Module Ratings Number of Channels Per 4 Module Turn-on Time 50 µsec Turn-off Time 100 µsec Isolation 4,000 volts (transient) (Field Side to Logic Side) Temperature o* to 70°C, operating -30° to 85°C, storage 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 7/20 SNAP-ODCSSNK SNAP-ODCSR SNAP-ODC5R5 Load sinking Dry contact Dry contact Normally open Normally dosed 5-60 VDC 0-100 VDC 0-100 VDC 0-130VAC* 0-130 VAC* 5-48 VDC 3 amps per module 0.5 amps switching* 0.5 amps switching* 5 amps peak for 1 second 1.5 amps carry@ 6.6 volts 1.5 amps carry@ 6.6 volts 20 mA 0mA 0mA 1.6 volts maximum@ 0.75 0volts 0 volts amps 1 mA@60VDC 0mA 0mA 60VDC 100 VDC / 130 VAC 100 VDC / 130 VPC 250 VAC - 4A 5x20 mm Has four isolated channels. Has four isolated channels. Fast-acting User must provide CM1n User must provide own Bell Fuse Part No. BEL 5HF4 fusing. fusing. Opto 22 Part No. SNAP-4A Not applicable 300 VAC (1500 V transient) 300 VAC (1500 V transient) 4V@5.5 mA 4V@5.5 mA 4 V@5.5 mA 1 VDC 1 VDC 1 VDC 220 ohms 220 ohms 220 ohms 5 VDC +/- 0.25 VDC 5 VDC +/- 0.25 VDC 5 VDC +/- 0.25 VDC 50 mA maximum 50 mA maximum 50 mA maximum 4 4 4 50 µsec 500 µsec 500 µsec 100 µsec 500 µsec 500 µsec 4,000 volts (transient) 1,500 volts (transient) 1,500 volts (transient) o* to 70°C, operating o* to 70°C, operating o* to 70°C, operating -30° to 85°C, storage -30° to 85°C, storage -30° to 85°C, storage

The power rating of the dry contact module must not exceed 10 VA under steady state or momentary in-rush conditions.

For voltages at or below 20 volts, the current limit is 0.5 amps. For voltages above 20 volts, the maximum allowable current is determined by the following equation: 10 VA = Current maximum. See rating curve on page 9. Voltage Oplo 22

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DPTO 22 DATA SHEET Form 1144-010524 Specifications DC Output Modules SNAP DIGITAL DC OUTPUT-LOGIC SNAP-ODCSMA SOURCE AND SINK Key Feature Diagnostic swilches Four isolated channels FIELD SIDE RATINGS (each channel) Line Voltage - Range 5-60 VDC Line Voltage - Nomnal 5-48 VDC Current Rating 2 Amps per Module o*c to 70'C Ambient 0.5 Amps per Channel Surge Current 1.5 Amps peak for 1 second Minimum Load 20mA Output \\bltage Drop 1.6 V max. @.75 Amps Off-State Leakage 1 mA @60VDC Peak Blocking Voltage 60VDC Has four isolated channels. Fuse (common to all User must provide own channels) fusing. Channel-to-channel 300VAC lsolaton (1500 V transient) LOGIC SIDE RATINGS Pickup Voltage 4 V@ 5.5mA Dropout Voltage 1 VDC Control Resistance 220 ohms Logic Supply \\,bltage 5 VDC +/- 0.25 VDC Logic Supply Current 50 mA maximum MODULE RATINGS Number of Channels per 4 Module Turn On Time 50 µsec Turn Off Time 100 µsec Isolation 4,000 Volts (transient) (Field Side to Logic Side) Temperature o*c to 70' C, operating -30' C to 85'C, storage 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 8/20 SNAP-ODCS-i SNAP-ODCSA-i SNAP-ODCSASNK Four isolated channels Four isolated channels Load sinking 5-60 VDC 5-200 VDC 5-200 VDC 5-48 VDC 5-200 VDC 5-200 VDC 3 Amps per Module 3 Amps per Module 3 amps per module 5 Amps peak for 1 second 5 Amps peak for 1 second 5 amps peak for 1 second 20 mA 20 mA 20 mA 1.6Vmax.@.75 Amps 1.6 V max. @.75 Amps 1.6 volts maximum @ 0. 75 amps 1 mA@60VDC 1 mA @200 VDC 1 mA@200VDC 60VDC 200 VDC 200VDC Has four isolated channels. Has four isolated channels. 250 VAC - 4A 5x20 mm User must provide own User must provide own Fast-acting fusing. fusing. Bell Fuse Part No. BEL 5HF4 Opto 22 Part No. SNAP-4A 300 VAC 300 VAC Not applicable (1500 V transient) (1500 V transient) 4V@5.5 mA 4 V@5.5mA 4 V@ 5.5 mA 1 VDC 1 VDC 1 VDC 220 ohms 220 ohms 220 ohms 5 VDC +/- 0.25 VDC 5 VDC +/- 0.25 VDC 5 VDC +/- 0.25 VDC 50 mAmaxmum 50 mA maximum 50 mA maximum 4 4 4 50 µsec 100 µsec 100 µsec 100 µsec 750 µsec 750 µsec 4,000 Volts (transient) 4,000 Volts (transient) 4,000 Volts (transient) o*c to 70'C, operating o*c to 70'C, operating 0'C to 70'C, operating -30'C to 85'C, storage -30'C to 85' C, storage -30'C to 85'C, storage Opto 22

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DPTO 22 DATA SHEET Form 1144-010524 Specifications 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 9/20 DC Output Modules (FM Models) SNAP-ODCSSRCFM SNAP-ODC5SNKFM SNAP-ODC5RFM SNAP-ODC5R5FM SOURCE AND SINK Key Feature Load sourcing Load sinking Dry contact Dry contact Factory Mutual approved Factory Mutual approved Normally open Normally closed Factory Mutual approved Factory Mutual approved Field Side Ratings (each channel) Line Voltage - Range 5-60 voe s-60 v oe 0-100 voe 0-100 voe 0-130 VN:,* 0-130 VAC" Line Voltage - Nominal 5-48 voe 5-48 v oe Current Rating 3 amps per module 3 amps per module 0.5 amps switching* 0.5 amps switching" o*c to 1o*c Ambient Surge Current 5 amps peak for 1 second 5 amps peak for 1 second 1.5 amps carry@ 6.6 volts 1.5 amps carry @ 6.6 volts Minimum Load 20 mA 20 mA 0mA 0mA Output Voltage Drop 1.6 volts max.@ 0.75 amps 1.6 volts max.@ 0. 75 amps 0 volts 0 volts Ott-state Leakage 1 mA@60 voe 1 mA@60VDC 0 mA 0mA Peak Blocking Voltage 60VDC 60VDC 100 voe/ 130 VAC 100 v o e 11 30 vAc Fuse 250 VAC - 4A 5x20 mm 250 VAC - 4A 5x20 mm Has four isolated channels. Has four isolated channels. (Common to all Channels) Fast-acting Fast-acting User must provide own User must provide own Bell Fuse Part No. BEL 5HF4 Bell Fuse Part No. BEL 5HF4 fusing. fusing. Opto 22 Part No. SNAP-4A Opto 22 Part No. SNAP-4A Channel-to-channel Isolation Not applicable Not applicable 300 VAC (1500 V transient) 300 VAC (1500 V transient) Log ic Side Ratings Pickup Voltage 4 V@5.5 mA 4 V @ 5.5 mA 4 V@5.5 mA 4 V@5.5 mA Dropout Voltage 1 voe 1 voe 1 v o e 1 v oe Control Resistance 220 ohms 220 ohms 220 ohms 220 ohms Logic Supply Voltage 5 v o e +/- 0.25 voe 5 voe +/- 0.25 voe 5 v oe +/- 0.25 v oe 5 v oe +/- 0.25 v o e Logic Supply Current 50 mA maximum 50 mA maximum 50 mA maximum 50 mA maximum Module Ratings Number of Channels Per 4 4 4 4 Module Turr"\\-on Time 50 µsec 50 µsec 500 µsec 500 µsec Turn-off Time 100 µsec 100 µsec 500 µsec 500 µsec Isolation 4.000 volts (transient) 4.000 volts (transient) 1.500 volts (transient) 1.500 volts (transient) (Field Side to Logic Side) Temperature o* to 70°C, operating o* to 70°C, operating o* to 1o*c, operating o* to 70°C, operating -30° to 85°C, storage -30° to 85°C, storage -30° to 85°C, storage -30° to 85°C, storage

The power rating of the dry contact module must not exceed 10 VA under steady state or momentary in-rush conditions.

For voltages at or below 20 volts, the current limit is 0.5 amps. For voltages above 20 volts, the maximum allowable current is determined by the following equation: 10 VA = Current maximum. See rating curve on page 9. Voltage Opie 22

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OPYD 22 DATA SHEET Form 1144-010524 Specifications DC Output Modules (FM Models) SOURCE AND SINK SNAP-ODCS-iFM Key Feature Four isolated channels Factory Mutual approved Field Side Ratings (each channel) Line Voltage - Range 5-60 voe Line Voltage. Nominal 5----48 VDC Current Rating 3 amps per module o*c to 70' C Ambient Surge Current 5 amps peak for 1 second Minimum Load 20 mA Output \\\\:Jltage Drop 1.6 volts max.@ 0.75 amps Off-state Leakage 1 mA@60VDC Peak Blocking Voltage 60VDC Fuse Has bur isolated channels. User (Common to all Channels) must provide own fusing. Channel-to-<:hannel Isolation 300 VAC (1500 V transient) Logic Side Ratings Pickup Voltage 4 V@ 5.5mA Dropout Voltage 1 VDC Control Resistance 220 ohms Logic Supply \\\\:J ltage 5 voe +/- 0.25 voe Logic Supply Current 50 mA maximum Module Ratings Number of Channels Per 4 Module Turn-on Time 50 µsec Turn-off Time 100 µsec Isolation 4,000 volts (transient) (Field Side to Logic Side) Temperature 0' to 70' C, operating -30' to 85' C, storage 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 10/20 SNAP-ODC5A-iFM Four isolated channels Factory Mutual apprcwed 5-200 VDC s-200 voe 3 amps per module 5 amps peak for 1 second 20mA 1.6 volts max.@ 0.75 amps 1 mA@ 200VDC 200VDC Has four isolated channels. User must provide own fusing. 300 VAC (1500 V transient) 4 V@5.5 mA 1 VDC 220 ohms 5 voe +/- 0.25 voe 50 mA maximum 4 100 µsec 750 µsec 4,000 volts (transient) 0' to 70' C, operating -30' to 85' C, storage Opto 22

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DPTD 22 DATA SHEET Form 1144-010524 Schematics SNAP-0D CSSRC Output Module - Sourcing 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 11/20 Part Number Description SNAP-ODC5SRC 4-channel DC output 5-60 VDC logic source SNAP-ODC5S RCFM 4-channel DC output 5-60 VDC logic source, Factory Mutual approved NOTE: See page 16 for FM modification. FIELD WIRING DC-SOURCING OUTPUT + CHO CH1 CH2 CH3 I FIELD TERMINAL POSITIONS 1, 3, 5, AND 7 ARE INTERNAL _, BUSSED CONNECTIONS.

COMMUTATING DIODE MUST BE USED ON INDUCTWE LOADS. (TYPICAL 1 N4005) 2 4 6 8 '--------------------~

SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH DPTO 22. SNAP 1/0 + i;; 19 17 15 13 I 20 18 16 14 12 10 8 6 4 2 03 02 01 DO PIN 1 (FIRST FORWARD PIN) SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) SNAP DC OUTPUT SOURCING 5V+ DO D1 D2 D3 t CONTROL SIDE t FIELD SIDE POSITIVE COMMON I I I I J Opto 22

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OPTO 22 DATA SHEET Form 1144-010524 Schematics SNAP-ODCSSNK and SNAP-ODCSASNK Output Module - Sinking 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 12/20 Part Number Description SNAP-ODC5SNK 4-channel DC output 5--60 VDC logic sink 4-channel DC output 5--60 SNAP-ODC5SNKFM voe logic sink, Factory Mutual approved SNAP-ODC5ASNK 4-channel DC output 5--200 voe logic sink NOTE: See page 16 for FM modification. FIELD WIRING DC-SINKING OUTPUT + FIELD TERMINAL POSITIONS 1, 3, 5, AND 7 ARE INTERNAL ru-e---l BUSSED CONNECTIONS.

COMMUTATING DIODE ~UST BE USED ON INDUCTIVE LOADS. (TYPICAL 1N4005)

OPTO 22 SNAP 1/0 PIN 1 SNAP MODULE RELEASE LATCH (FIRST OPTO 22 PART # SNAP-MODLATCH FORWARD PIN) ~ 19 17 15 13 11 9 7 5 3 1 PIN 1 20 18 16 14 12 10 8 6 4 2 D3 D2 D1 DO SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW} 5V+ DO 01 D2 03 ~ CONTROL SIDE Vi. FIELD SIDE I I I I I I Opto 22

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DPTD 22 DATA SHEET Form 1144-010524 Schematics SNAP-ODC5R Dry Contact Module FIELD VV'IRING DRY CONTACT OUTPUT SNAP "OOULE RELEASE lATCH OPTO 22 PART I SNAP-MODlATCH I DPTO 22 SNAP 1/0 20 13 16 14 12 10 I 6 4 2 03 D2 D1 00 SNAP DIGITAL MOOULE BASE CONTROL CONNECTOR !BOTTOM VIEW) D1 D2 D3 t 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 13/20 Part Number Description SNAP-ODC5R 4-channel dry dontact output, normally open SNAP-ODC5R5 4-channel dry contact output, normally closed SNAP-ODC5RFM 4-channel dry contact output, normally open, Factory Mutual approved SNAP-ODC5R5FM 4-channel dry contact output, normally dosed, Factory Mutual approved NOTE: See page 16 for FM modification. CONTROL FIELD SIDE SIDE 10 VA RATING FOR REED RELAY (DRY CONTACT) MODULES 600 500 \\ \\ \\. '\\ ~ ~ ...__, ---. ~ 100 10 20 30 40 50 60 70 90 Field Voltage (AC or DC) 100 110 120 130 Current Limit at Key Voltages V mA 5 500 12 500 24 416 1001 100 120 83 1302 76 Note 1: Maximum DC voltage is l00VDC. Note 2: Maximum AC voltage is 130 VAC. Opto 22

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DPTO 22 DATA SHEET Form 1144-01 052 4 Schematics 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 14/20 Part Number Description SNAP-ODC5MA 4-channel isolated DC output 5-60 voe, 5 VDC logic, with manual/auto switch SNAP-ODC5MA Output Module With Manual/Auto Switches OFF {CENTER) AUTO FIELD WIRING DC OUTPUT SNAP MODULE FIELD CONNECTOR OPTO 22 PART # SNAP-FIELDCON ~ SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH IIPTa 22 SNAP 1/0 20 18 16 14 12 10 8 6 4 2 D3 D2 D1 DO PIN 1 (FIRST FORWARD PIN) SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) EACH OUTPUT MUST BE FUSED 0.SA MAX. CHO CH1

COMMUTATING DIODE MUST BE USED ON INDUCTIVE LOADS. (TYPICAL I N4005)

D1 D2 D3 CONTROL SIDE TYPICAL WIRING EXAMPLES

COMMUTATING aooE UUST BE USl'D 00 lt!JlCTIVE LOADS. {TYPICAL IN400~

SNAP DC OUTPUT + SINKING OUTPUT SOURCING OUTPUT t FIELD SIDE NOTE: User must provide own fusing. Oplo 22

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OPTD 22 DATA SHEET Form 1144-010524 Schematics SNAP-ODC5-i and SNAP-ODCSA-i I solated Output Module NOTE: See page 16 for FM modification. 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 15/20 Part Number Description SNAP-OD CS-i 4-channel isolated DC output 5-60 VDC, 5VDC logic SNAP-ODC5A-i 4-channel isolated DC output 5---200 voe, 5VDC logic SNAP-OD CS-iFM 4-channel isolated DC output 5-60 voe, 5 VDC logic, Factory Mutual approved SNAP-ODC5A-iFM 4-channel isolated DC output 5---200 voe, 5 VDC logic, Factory Mutual approved TYPICAL WIRING EXAMPLES CHO SINKING OUTPUT FIELD WIRING OUTPUT EACH OUTPUT MUST BE FUSED 0.75A IMX. CH1 SOURCING OUTPUT +

-l@Li_+-+-+-l£j

-a=rrcb CH1 CH~ t COMMUTATING ~ODE MUST llt USED ON INDUCTIVE LOADS. (TYP'CAL IN~

COi/MUTATING m:oe LIJST BE USED 00 IND\\.CTl'IE LCIIDS. (TYPIC'.11. 1~00~

2 3 4 5 6 7 8...., - --~--+-4--+-+-t-J SNAP MODULE FIELD CONNECTOR OPTO 22 PART # SNAF-FIELDCON SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH IIPTo 22 SNAP 1/0 + i;; PIN 1 (FIRST FORWARD PIN) 19 17 15 13 11 9 7 5 3 1 PIN 1 20 18 16 14 12 10 8 6 4 2 03 D2 01 DO SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) t CONTROL SIDE SNAP DC OUTPUT t FIELD SIDE NOTE: User must provide own fusing. Opto 22

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DPTO 22 DATA SHEET Form 1144-010524 Factory Mutual Modification 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 16/20 All modules with part numbers ending in FM are Factory Mutual approved with the installation ofthe FM Module Clamp, as shown below. Opto 22

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DPTD 22 DATA SHEET Form 1144-010524 Dimensional Drawing All Models Except MA 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 17/20 Top View of Module f 1-1 * - -- - - 3.25"' (82.55mm)------_, (9 . 72m (18.29mm) T~~~~~~ PLUGGABLE FIELD CONNECTOR FUSE PULLER (NOT PRESENT ON INPUT MODULES) ~ DD DD .36 (9.1 4mm) F 7 ~ 3.55'" 0.17mm) 2.75 (69.85mm) r I l 1 ~ SNAP LATCH MODULE BASE CONTROL CONNECTOR CONNECTOR RELEASE LATCH SIDE VIEW OF MODULE ~ .72... (18.29mm) TOLERANCES LEGEND

+/- 010'
- +/-.020*
  - +/-.030" **** +/-.060' NO
REFERENCE ONLY Opto 22
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DPTD 22 DATA SHEET Form 1144-010524 Dimensional Drawing All MA Models 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 18/20 Top View of MA Module TOP VIEW OF MODULE ~ 3.25"' (82.55mm) 3.55"' (90.17mm) .72"' (18.29mm) t .27 (6.8mm) 2.75 (69.85mm) PLUGGABLE FIELD CONNECTOR DD ~ SNAP LATCH MODULE BASE CONTROL CONNECTOR CONNECTOR RELEASE LATCH SIDE VIEW OF MODULE ~ .72"' (18.29mm) TOLERANCES LEGEND

+/-.010'
- +/-.020"
  - +/-.030' **** +/-.060' NO
REFERENCE ONLY Opto 22
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DPTD 22 1/0 MODULES SNAP DIGITAL OUTPUT MODULES DATA SHEET page 19/20 Form 1144-010524 Dimensional Drawing All Models Bottom View of Module Base g.g-g..~is g~-g~ -- -- ---r-ilx~I~6~ULE LOCATION I I TYPICAL I -r-- -- 1 NOTE: CONNECTOR IS CENTERED WITH SCREW HOLE CENTERLINE 4-40 THRU HOLE (2 EACH) AVAILABLE HOLDDOWN FOR 3/8", 7/16', or 1/2' LENGTH, 4-40 THREAD SCREW FASTENER

=:=::J=.----l. ____

..J __ _..:::.i.::::..1:-------------- PIN 1 20 PIN BOX HEADER ,-t-----2.95'* (74.93mm)------1 ,_,.,__ __ ~ 3.25'H OA (82.55mm)1--------1 IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. PIN 1 PIN SPACING .100 CTR-CTR 45' (1143mm) TOLERANCES

+/-.010'

'* +/-.020' ... +/-. 030" NO

REFERENCE ONLY

.05' (1.27mm) .15 TYP. (3.81mm) Opto 22

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DPTD 22 DATA SHEET Form 1144-010524 Dimensional Drawing All Models 1/0 MODULES SNAP DIGITAL OUTPUT MODULES page 20/20 SNAP Digital Module Mounted on SNAP Rack TOP WIRE ENTRY NOTE CONSIDER NECESSARY --- DIMENSIONS PLUGGABLE--i-- ---=-d FIELD l=====:::::!!::::::::;i (_} <C a:::

r::

~ LU __J

=,

0 0 ::.; 4.310**** (109.47mm) CONNECTOR LU __J

=,

0 0 ::.; SNAP 1/0 3.55*** MODULE (90.17mm) t§ .75*** ~ (19.05mm) FOR DIN CLIP ADD ADDITIONAL J .06" TO OVERALL HEIGHT SNAP RACK DIN RAIL ADAPTER CLIP MOUNTING OPTION (LOW PROFILE) t CUSTOMER SUPPLIED 35mm DIN RAIL NOTE: BE SURE TO CONSIDER DIN RAIL DIMENSIONS. (DIN RAIL MUST BE MOUNTED HORIZONTALLY TO USE SNAP 1/0 'MTHOUT MODULE HOLD-OO'AN SCREWS) SNAP-B3000 1/0 PROCESSOR MODULE RETENTION RAIL SNAP RACK BASE EXTRUSION (_} <C a:::

z

r::

~ co

=

~ co 3.62*** (91.95mm) ~ 4.3.... (111mm) TOLERANCE LEGEND

+/-.010"
- +/-.020"
  - +/-.030"
    - +/-.060" NO* REFERENCE ONL' Opto 22
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OPYD 22 DATA SHEET Form 773-010206 Description SNAP digital input modules are designed to work with SNAP O-series or SNAP B-series racks and can sense either AC or DC signals. All SNAP digital input modules are compatible with SNAP Ethernet 1/O'. SNAP digital's 4-channel-per-module packaging delivers high density with 4,000 volts of optical isolation from the field side to the logic side. All SNAP digital modules have removable top-mounted connectors to provide easy access for field wiring. All operate on 5 VDC control logic. Each digital module features integral channel-specific LEDs for convenient troubleshooting and m::iintenance. SNAP digital 1/0 is 200 percent factory-tested and is UL and CE approved. In addition, part numbers ending in FM are Factory Mutual approved. SNAP input modules are used to sense the on or off status for AC or DC voltages from such sources as proximity switches, push buttons, or auxiliary contacts. The SNAP-IDC5-SW and SNAP-IDC5-SW-NC modules supply power to an external dry contact switch and sense switch closure (SNAP-IDC5-SW) or opening (SNAP-IDC5-SW-NC). SNAP-IAC5MA and SNAP-IDC5MA are special modules featuring manual-on/manual-off/automatic switches, ideal for diagnostic testing of control applications. The switches override input from field devices, so you can quickly determine whether a problem lies in the application or in the device. Features

Four channels per module
4,000-volttransient isolation
Convenient pluggable wiring terminals
Powered by a single 5-volt supply
Channel-specific LEDs
Operating temperature: 0° to 70° C
UL and CE approved Part Number SNl'.P-IAC5 SNAP-IAC5A SNAP-IAC5MA SNAP-IAC5FM SNAP-IAC5AFM SNAP-IDC5 SNAP-IDC51J SNAP-IDC5-FAST SNAP-IDC5-FAST-A SNAP-IDC5MA SNAP-IDC5-SW' SNAP-IDC5-SW-NC' SNAP-IDC5FM SNAP-IDC5DFM SNAP-RETN4 SNAP-RETN4B SNAP-RETN6 SNAP-RETN6B SNAP-FUSE4AB
UL approval pending
Factory Mutual approved (part numbers ending in FM) 1/0 MODULES SNAP DIGITAL INPUT MODULES page 1/11 Description SNAP 4-channel 90-140 VAC input, 5 VDC logic SNAP 4-channel 180-280 VAC input, 5 VDC logic SNAP 4-channel isolated 90-140 VAC input, VDC logic, with manual/auto switches SNAP 4-channel 90-140 VAC/DC input, 5 VDC logic SNAP 4-channel 180-280 VAC input, 5 VDC logic SNAP 4-channel 10-32 VDC input, 5 VDC logic SNAP 4-channel 2.5-28 VDC input, 5 VDC logic SNAP 4-channel high-speed 2.5-16 VDC input, VDC logic SNAP 4-channel high-speed 18-32 VDC input, 5 VDC logic SNAP 4-channel isolated high-speed 10-32 VAC input, 5 VDC logic, with manual/auto switches SNAP 4-channel switch status input, normally open SNAP 4-channel switch status input, normally closed SNAP 4-channel 10-32 VDC input, 5 VDC logic SNAP 4-channel 2.5-28 VDC input, 5 VDC logic SNAP 4-module retention rail (OEM)

SNAP 4-module retention rail, 25-pack (OEM) SNAP 6-module retention rail (OEM) SNAP 6-module retention rail, 25-pack (OEM) SNAP 4-amp fuse, 25-pack Oplo 22

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OPYD 22 DATA SHEET Form 773-010206 Specifications AC Input Modules SNAP Digital SNAP-IACS AC Modules Key Feature Field Side Ratings (each channel) Nominal Input Voltage 120 VACNDC Channel-to-channel 300 VAC isolation (1,500 V transient) Input Voltage Range 90- 140 VACNDC Tum-on Voltage 90 VAC/VDC Tum-off Voltage 35VACNDC Input Resistance 169 K ohms (nominal) Logic Side Ratings Logic Output Voltage <.5 V max. (on) @ 2 mA sinking 2.7 V min. (off) @ 400 mA sourcing

.ogic Supply Voltage*

5 voe +/- 0.25 voe Logic Supply Current 50 mA maximum Negative True Logic TTL 74 Series= 1 UL Output Drive TTL 74LS Series= 5 UL Module Ratings Number of Channels Per 4 Module Tum-on Time 30 msec Tum-off Time 30 msec Optical Isolation 4,000 volts (transient) (Field Side to Logic Side) Temperature o*c to 70°C, operating -30°C to 85°C, storage 1/0 MODULES SNAP DIGITAL INPUT MODULES page 2/11 SNAP-IACSA SNAP-IACSMA Diagnostic switches 240VACNDC 120VACNDC 300VAC 300VAC (1,500 V transient) (1,500 V transient) 180-280 VAC/VDC 90-140 VACNDC 180VACNDC 90VACNDC 35 VACNDC 35 VACNDC 305 K ohms (nominal) 169 K ohms (nominal) <.5 V max. (on) <.5 V max. (on) @ 2 mA_ si~k~~g @ 2 mA sinking 2.7 V min. 10111 2.7 V min. (off) @ 400 mA sourcing @ 400 mA scurcing 5 voe+/- 0.25 voe 5 voe +/- 0.25 voe 50 mA maximum 50 mAma>dmum TTL 74 Series= 1 UL TTL 74 Series= 1 UL TTL 74LS Series= 5 UL TTL 74LS Series= 5 UL 4 4 30 msec 30 msec 30 msec 30 msec 4,000 volts (transient) 4,000 volts (transient) o*c to 70°C, operating -30°C to 85°C, storage o*c to 70°C, operating -30°C to 85°c, storage

When used in conjunction with a brain, the brain requires 5 VDC +/- 0.1 VDC.

Opto 22

4;ot4 Business Park Drive
Temecula, CA 92500
Phone: (009) 695--:nxJ * (800) 321-0PTO
Fax: (009) 695-:m5
Internet www.opto22.com Inside Sales: (800) 452-0PTO
Prodt.et Support (800) TEK-OPTO * (00:l) 695-~
Fax: (00:l) 695-JJ17
E-mail: suppor1@opto22.com
F axBock: (800) 47 4-0PTO

r OPYD DATA SHEET Form 773-010206 Specifications 22 1/0 MODULES SNAP DIGITAL INPUT MODULES page 3/11 DC Input Modules (except SNAP-IDCS-SW and SNAP-IDCS-SW-NC) See page 5 for SNAP-IDC5-SW and SNAP-IDC5-SW-NC specifications and wiring. ~ SNAP Digital V \\ AC & DC Modules SNAP-lDCS SNAP-I DC SD SNAP-IDCS-FAST * / SNAP~DCS-FAST-A ** SNAP~DCSMA Key Feature High-speed I Higl.-speed Diagnostic switches Field Side Ratings (each channel) I Nominal Input 24VACNOC 5VDC 5VOC 28VDC 2 VACNOC Voltage Channel-to-channel 300 VAC 300 VPC 300 VAC 300 VAC f!o VAC isolation (1,500 V transient) (1,500 V transient) (1,500 V transient) (1,500 V transienQ 1,500 V transient) Input Voltage Range 10- 32 VACNOC 2.s--2s voe 2.s--16 voe 18-32VOC 1 10-32 VPCNOC Turn-on Voltage 10VACNDC 2.5 voe 2.5 voe 18VOC I 10VACNDC Turn-off Voltage 3VACNOC 1 voe 1 voe 5VOC I 3VACN OC Input Resistance 15 K ohms (nominal) 3 K ohms (nominal) 440 ohms (nominal) \\ 8 K ohms (nominal)" 15 K ohms (nominal) Logic Side Ratings / ~ Logic Output Voltage <.5 V max. (on) <.5 V max. (on) ~ 2 mA sinking 7 V min. (off) @ 2 mA sinking 2.7 V min. (off) @ 0.4 mA sourcing @ 0.4 mA sourcing Lt;j1ic Supply Vo tage*** 5 voe +/- 0.25 voe 5 voe +/- 025 voe Lc,gic Supply 50 mA maximum 50 mA maximum C~rrent Negative True Logic TTL 74 Series = 1 UL TTL 74 Series= 1 UL Output Drive TTL 74LS Series = 5 UL TTL 74LS Series= 5 UL Module Ratings Number cJ; Channels 4 4 Per Module Turn-on Time 5msec 1 msec Turn-off T ime 15 msec 1 msec Optical Isolation (Field Side to Logic 4,000 >Olis (transient) 4,000 volts (transient) Side) Temperature o*c to 70' C, operating O' C to 70"C, operating -30' C to 85' C, storage -30' C to 85' C, storage

At 20kHz, 5Vp-p square wwe input, 50% duty cycle.

.. At 20kHz, 28Vp-p square wave input, 50% duty cycle. <.5 V max. (on) @ 2 mA sinking 2.7 V min. (off) @ 0.4 mA sourcing 5 voe +/- 025 voe 50 mA maximum TTL 74 Series= 1 UL TTL 74LS Series = 5 UL 4 .025 msec* .025 msec* 4,000 volts (transient) o*c to 70' C, operating -30'C to 85' C, storage

h When used in conjunction with a brain, the train requires 5 voe +/- 0. 1 voe.

<.5 V max. (on) <.5 V max. (on) @ 2 mA sinking @ 2 mA sinking Z7 V min. (off) 2.7 V min. (off) @ 0.4 mA sourcing @ 400 mA sourcing 5 voe +/- 0.25 voe 5 voe +/- 0.25 voe 50 mA maximum 50 mA maximum TTL 74 Series = 1 UL TTL 74 Series = 1 UL TTL 74LS Series = 5 UL TTL 74LS Series = 5 UL 4 4 .025 msec.. 5 msec .025 msec.. 15 msec 4,000 >Olis (transient) 4,000 volts (transient) o*c to 70'C, operating o*c to 70'C, operating -30'C to 85'C, storage -30' C to 85' C, storage Opto 22

43J44 Business Park Drive
Temecula, CA 92500
Phone (9J9) 695-3COJ * (800) 321-OPTO
Fax (9J9) 695-3'.J95
Internet www.opto22.com Inside Sales (800) 452-OPTO
Prodt..el Support (800) TEK-OPTO * (009) 695-3J80
Fax: (009) 695-Ii17
E-mail supporl@opto22 com
F axBack (800) 47 4-OPTO

OPTO DATA SHEET Form 773-010206 Specifications 22 1/0 MODULES SNAP DIGITAL INPUT MODULES page 4/11 AC and DC Input Modules (FM models) SNAP Digital SNAP-IACSFM SNAP-IACSAFM SNAP-IDCSFM SNAP-IDCSDFM AC & DC Modules Key Feature Factory Mutual approved Factory Mutual approved Factory Mutual approved Factory Mutual approved Field Side Ratings (each channel) Nominal Input Voltage 120 VAC/VDC 240VAC/VDC 24 VACNDC 5VDC Channel-to-channel 300 VAC 300VAC 300 VAC 300VAC isolation (1,500 V transient) (1,500 V transient) (1,500 V transient) (1,500 V transient) Input Voltage Range 90-140 VACNDC 180--280 VAC/VDC 1 0- 32 VACNDC 2.5-28 voe Turn-on Voltage 90 VACNDC 180VACNDC 10VACNDC 2.5 voe Turn-off Voltage 35 VACNDC 35VACNDC 3 VACNDC 1 voe Input Resistance 169 K ohms (nominal) 305 K ohms (nominal) 15 K ohms (nominal) 3 K ohms (nominal) Logic Side Ratings Logic Output Voltage <.5 V max. (on) <.5 V max. (on) <.5 V max. (on) <.5 V max. (on) @ 2 mA sinking @ 2 mA sinking @ 2 mA sinking @ 2 mA sinking 2.7 V min. (off) 2.7 V min. (off)

2. 7 V min. (off) 2.7 V min. (off)

@ 400 mA sourcing @ 400 mA sourcing @ 0.4 mA sourcing @ 0.4 mA sourcing Logic Supply Voltage* 5 voe+/- 0.25 voe 5 voe +/- 0.25 voe 5 voe +/- 0.25 voe 5 voe +/- 0.25 voe Logic Supply Current 50 mA maximum 50 mA maximum 50 mA maximum 50 mA maximum Negative True Logic TTL 74 Series= 1 UL TTL 74 Series= 1 UL TTL 74 Series= 1 UL TTL 74 Series= 1 UL Output Drive TTL 74LS Series= 5 UL TTL 74LS Series= 5 UL TTL 74LS Series= 5 UL TTL 74LS Series = 5 UL Module Ratings Number of Channels Per 4 4 4 4 Module Turn-on Time 30 msec 30 msec 5 msec 1 msec Turn-off Time 30 msec 30 msec 15 msec 1 msec Optical Isolation 4,000 volts (transient) 4,000 volts (transient) 4,000 volts (transient) 4,000 volts (transient) (Field Side to Logic Side) Temperature o*c to 70°C, operating o*c to 70°C, operating o*c to 70°C, operating o*c to 70°C, operating -30°C to 85°C, storage -30°C to 85"C, storage -30°C to as*c, storage -30°C to 85"C, storage

When used in conjunction with a brain, the brain requires 5 voe +/- 0.1 voe.

Opto 22

43'.J-44 Business Park Drive
Temecula, CA 925!:0
Phone: (9J9) 695-30Xl * (800) 321-0PTO
Fax: (9J9) 695-3)95
Internet www.opto22 com Inside Sales (800) 452-0PTO* ProdoctSupport (800) TEK-OPTO* (OCS) 005-nlO* Fax: (OCS) 005-3J17
E-mail: support@opto22.com
FaxBack (800) 474-0PTO

OPTO DATA SHEET Form 773-010206 22 1/0 MODULES SNAP DIGITAL INPUT MODULES page 5/11 SNAP-IDC5-SW and SNAP-IDC5-SW-NC Modules Description The SNAP-IDC5-SW and SNAP-IDC5-SW-NC modules provide four channels of contact status input. Each module supplies 15 volts of power to an external dry contact switch. The SNAP-IDC5-SW senses switch closure; the SNAP-IDC5-SW-NC senses switch opening. Each user-supplied switch is connected with two wires. Because these modules include power for the switch, they are particularly cost-effective when labor costs for wiring external power are high. Specifications Field Side Ratings (each channel) Open Circuit Voltage 15 voe typical (Switch Open) Short Circuit Current 7 milliamps nominal (Switch Closed) Minimum Off Resistance >20 K ohms Maximum Allowable On 500 ohms Resistance (Wire+ Contact Resistance) Logic Side Ratings Lo~ic Ou~ut Voltage for S AP-ID 5-SW <0.5 V max. (switch closed; LED on) @ 2 mA sinking (normally open) 2.7 V min. (switch open; LED off) @ 0.4 mA sourcing Logic Output Voltage for <0.5 V max. (switch open; LED off) SNAP-IDC5-SW-NC @ 2 mA sinking (normally closed) 2.7 V min. (switch dosed; LED on) @ 0.4 mA sourcing Maximum Operating Common 250V Mode Voltage (Field Term to Logic Connector) Power Requirements 5 voe (+/-0.25)@ 200 mA Module Ratings Number of Channels Per 4 Module Turn-on Time 5 msec Turn-off Time 25 msec Channel-to-channel Isolation None Input-to-output Isolation 1500 VAC/DC Temperature o*c to 70"C, operating -30"C to 85"C, storage Typical switches for use with these modules are switched status sensors (level sensors, pressure indicators, etc.), magnetic reed switches (used on doors or windows for burglar alarms), snap-action micro switches, the auxilliary switches on motor starters, and most relay contacts. CAUTION: The SNAP-IDC5-SW and SNAP-IDC5-SW-NC inputs are not intended to be used with contacts that are connected to any external user-supplied voltage or currents. SNAP-IDC5-SW and SNAP-IDCS-SW-NC Wiring Diagram DRY CONTACT SWITCHES CHO CH1 CH2 CHJ 12345678 IIPTQ 22 SNAP 1/Q SNAP MODULE RELEASE lATCH OPTO 22 PART # SNAP-MOOLATCH ~ + a; a; I 1 (FIRST FORl'IIRD PIN) 19 17 15 13 11 9 7 5 3 1 / PIN 1 1111*11111111*11* 20 18 16 14 12 10 8 6 4 2 03 02 01 00 SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) Oplo 22

43J44 Business Park Drive
Temecula, CA 9259'.J
Phone (009) 695-ml * (800) 321-0PTO
Fax: (009) 695-:m5
Internet www.opto22 com Inside Sales (800) 452-0PTO* Produ::t Support (800) TEK-OPTO * (00:l) 695-nlO* Fax: (00:l) 695-:JJ17
E-mail support@opto22com
FaxBock (800) 47 4-0PTO

OPYD 22 DATA SHEET Form 773-01 0206 Schematics Most AC and DC Input Modules See previous page for SNAP-IDC5-SW and SNAP-IDC5-SW-NC wiring diagram. See next page for Factory Mutual modification. AC/DC INPUT FIELD WIRING L1 L2 L1 SNAP MODULE FIELD CONNECTOR OPTO 22 PART # SNAP-FIELDCON SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH L1 ! UPTa 22 SNAP 1/0 L2 L1 PIN 1 (FIRST FORW'.RO PIN) 19 17 15 13 11 9 7 5 3 1 PIN 1 20 18 16 14 12 10 8 6 4 2 03 02 01 DO SNAP DIGITAL MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) L2 ! 1/0 MODULES SNAP DIGITAL INPUT MODULES 01 02 03 t page 6/11 MA Modules with ManuaVAuto Switches (Top View) OFF (CENTER) AUTO MUST OBSERVE POLARITY For SNAP-IDCS-FAST, SNAP-IDC5-FAST-A I __ _J CONTROL SIDE FIELD SIDE Opto 22

43044 Business Park Drive* Tem ecula, CA 92500
Phone (9)9) 695-300'.l * (800) 321-0PTO
Fax: (9)9) 695-3J95
Internet www.opto22.com Inside Sales (OCO) 452-0PTO* Product Support (OCO) TEK-OPTO
t,m) 695-XOO
Fax: t,m) 695-:rl17
E-mail support@opto22.com
FaxBack: (OCO) 47 4-0PTO

OPTO 2 2 DATA SHEET Form 773-010206 Factory Mutual Modification 1/0 MODULES SNAP DIGITAL INPUT MODULES page 7/11 All modules with part numbers ending in FM are Factory Mutual approved with the installation of the FM Module Clamp, as shown below. 'r I I..... Opto 22

43J44 Business Park Drive
Temecula, CA 925ffi
Phone: (009) 695-30CO * (800) 321-0PTO
Fax: (009) 6ffi-3J95
Internet www.opto22.com Inside Sales (00'.)) 452-0PTO
Produ:t Support (00'.)) TEK-OPTO * ~) 005-3'.JOO
Fax: ~) 005-:rl17
E-mail: suppor1@opto22.co m
FaxBack (00'.)) 47 4-0PTO

OPYD 22 DATA SHEET Form 773-010206 Dimensional Drawing All Modules Except MA 1/0 MODULES SNAP DIGITAL INPUT MODULES page 8/11 TOP VIEW OF MODULE 3 (90 J ..,I ~----3.25'" (82.55mm .72*** C"'),q" (18.29mm) """" N T PLUGGABLE FIELD CONNECTOR DD DD ~ r LJ .55"* 17mm) 2.75 (69.85mm) 11 I I f f SNAP LATCH MODULE BASE CONTROL CONNECTOR CONNECTOR RELEASE LATCH SIDE VIEW OF MODULE

. 72***

(1829mm) TOLERANCES LEGEND

+/-.01 0'
- +/-.020"
  - +/-.030" **** +/-.060" NO
RFFFRFNr.F ONIY Opto 22
4sJ44 Business Park Drive
Temecula, CA 9259:J
Phone (9J9) 695-300'.J * (80J) 321-0PTO
Fax (9J9) 695-nlS
Internet www.opto22.com Inside Sales (800) 452-0PTO
Product Support (800) TEK-OPTO * (Sm) 695-3J80* Fax: (Sm) 695-3'.l17
E-mail: support@opto22.com
FaxEack (800) 47 4-0PTO

OPYD 22 DATA SHEET Form 773-010206 Dimensional Drawing All MA Modules 1/0 MODULES SNAP DIGITAL INPUT MODULES page 9/11 TOP VIEW OF MODULE 3.55"' (90.17mm) .72'*' (18.29mm) .27 (6.8mm) 2.75 (69.85mm) SNAP LATCH PLUGGABLE FIELD CONNECTOR DD DD f MODULE BASE CONTROL CONNECTOR CONNECTOR RELEASE LATCH SIDE VIEW OF MODULE ~ .72"' (18.29mm) TOLERANCES LEGEND

+/-.010"
- +/-.020"
  - +/-.030" **** +/-.060" NO
REFERENCE ONLY Opto 22
43J44 Business Park Drive
Temecula, CA 92500
Phone (ro3) 695-30'.Xl * (800) 321-0PTO
Fax (ro3) 695-:rn5
Internet www.opto22.com Inside Sales (800) 452-0PTO
Product Support (800) TEK-OPTO * (rol) 695-3J80
Fax: (rol) 695-3:.J 17
E-mail support@opto22com
F axBack (800) 47 4-0PTO

OPYD 22 1/0 MODULES SNAP DIGITAL INPUT MODULES DATA SHEET page 10/11 Form 773-010206 Dimensional Drawing All Models RELEASE --- " SNAP LATCH r D J ~ Bottom View of Module Base I OOOOOOOOOCI,oo 0000000000 0000000000 .75 MIN TO b~;:;;;;;;;~----l..~-~=~---_-_-__ .:;:_..:;:J_ _ NEXT MODULE 0 0 0 0 0 0 0 0 O.J2

==----,_ __,------,---------., : LOCATION I TYPICAL I -r-- -- 1 NOTE: CONNECTOR IS CENTERED WITH SCREW HOLE CENTERLINE 4-40 THRU HOLE (2 EACH) AVAILABLE HOLDDOWN FOR 3/8", 7/16", or 1/2' LENGTH, 4-40 THREAD SCREW FASTENER 1-------------- 11!!1!!!....--__J---!,._ ___ __,,,,r---+-11 PIN 1 20 PIN BOX HEADER ,-----2.95** (74.93mm),-----, ,------3.25**' OA (82.55mm1------- IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. PIN 1 PIN SPACING --'---+---+--1 .100 CTR-CTR . 45' (1143mm) TOLERANCES

+/-.01 O'
- +/-.020'

... +/-.030" NO

REFERENCE ONLY

.os* (127mm) .15 TYP. (381mm) Opto 22

43J44 Business Park Drive
Temecula, CA 92500
Phone (!:09) 695-30XI * (800) 321-0PTO
Fax (!:09) 695-3)95
Internet www.op1o22.com Inside Sales (80)) 452-0PTO
Prodtx:t Support (80)) TEK-OPTO * (009) 695-3)8()
Fax (009) 695-3)17
E-mail support@opto22 com
F axBack (80)) 47 4-0PTO

DATA SHEET Form 773-010206 Dimensional Drawing All Models 1/0 MODULES SNAP DIGITAL INPUT MODULES page 11/11 SNAP Digital Module Mounted on SNAP Rack TOP WIRE ENTRY NOTE: CONSIDER NECESSARY -- DIMENSIONS PLUGGABLE-~====::::I FIELD t======!:::::::;I ~ 0::

r:

t-- ~ w => Cl 0

E 4.310**"

(109.47mm) CONNECTOR w => Cl 0

E SNAP 1/0 3.55***

MODULE (90.17mm) t5 .75'** ~ (19.05mm) FOR DIN CLIP ADD ADDITIONAL J .06" TO OVERALL HEIGHT SNAP RACK DIN RAIL ADAPTER CLIP MOUNTING OPTION (LOW PROFILE) CUSTOMER SUPPLIED 35mm DIN RAIL NOTE BE SURE TO CONSIDER DIN RAIL DIMENSIONS. (DIN RAIL MUST BE MOUNTED HORIZONTALLY TO USE SNAP 1/0 'MTHOUT MODULE HOLD-DOIAf-J SCREWS) SNAP-83000 1/0 PROCESSOR MODULE RETENTION RAIL SNAP 1/0 RACK BOARD SNAP RACK BASE EXTRUSION u <C 0:: z

r:

~ t-- a:, s: z ~ a:, 3.62*.. (91.95mm) ~ 4.3.... (111mm) TOLERANCE LEGEND

+/-.010"
- +/-.020"
  - +/-.030"
    - +/-.060' NO* REFERENCE ONL' Opto 22
4J:J44 Business Park Drive* Temecula, CA 92500
Phone (9J9) 695-3(0) * (00'.l) 321-0PTO
Fax (9J9) 695-JJ95
Internet www.opto22.com Inside Sales: (800) 452-0PTO* Product Support (800) TEK-OPTO * ~) 695-3:JOO
Fax: ~) 695-lJ17
E-mail support@opto22.com
FaxBack (800) 47 4-0PTO

OPYD 22 DATA SHEET Form 1065-010315 Overview The SNAP analog input modules are part of Opto 22's SNAP 1/0 system. All SNAP analog input modules are compatible with SNAP Ethernet 1/0. All two-channel modules can be used with SNAP 8-series mounting racks and SNAP brains. Four-channel modules can be used only with 8-series racks and SNAP Ethernet 1/0 and SNAP wireless LAN 1/0 brains. SNAP analog requires a minimum number of module types to support a full range of analog input requirements. These software-configurable modules handle a wide variety of signal levels. They provide high resolution (0.004% of nominal range) for precise signal levels, as well as two-or four-channel packaging for high density. All SNAP analog modules are factory calibrated and 200 percent tested. SNAP analog input modules have an on-board microprocessor to provide module-level intelligence, which makes them an ideal choice for Original Equipment Manufacturers (OEMs). For additional information about standalone operation of SNAP analog modules, please refer to Opto 22 form #876, SNAP 1/0 Module Integration Guide. For dimensional drawings, see pages 20-22. Transformer and Optical Isolation All SNAP analog input modules are transformer isolated as well as optically isolated from all other modules and from the SNAP brain. The channels on the modules in this data sheet are not isolated from each other, however. (If you need isolated modules, see Opto 22 form#1182.) Optical isolation provides 4,000 volts of transient protection for sensitive control electronics from real-world industrial field signals. Transformer isolation prevents ground loop currents from flowing between field devices and causing noise that produces erroneous readings. Ground loop currents are caused when two grounded field devices share a connection, and the ground potential at each device is different. IMPORTANT: Since these analog input modules provide two or four single-ended input channels with a common reference, the channels are not isolated from each other. (See Opto 22 form #1182 for isolated modules.} 1/0 MODULES SNAP ANALOG INPUT MODULES page 1/22 Part Number Description See page Two-Channel Modules SNAP-Al ARMS 2-channel 0 to 10 amp RMS AC/DC input 2 SNAP-AIVRMS 2-channel 0 to 250 V RMS AC/DC input 4 SNAP-AICTD 2-channel analog temperature input - ICTD 5 SNAP-Al MA 2-channe! analog current input 7 -20 mA to +20 mA SNAP-Al RATE 2-channel 0-25,000 Hz analog rate input 10 2-channe! analog type E, J, or K SNAP-Al TM thermocouple or-150 mV to +150 mV input 14 or -75 mV to +75 mV input 2-channe! analog type B, C, D, G, N, T, R, or SNAP-AITM-2 S thermocouple or -SO mV to +50 mV DC input or -25 mV to +25 mV DC input SNAP-AIRTD 2-channel 100-ohm platinum RTD input SNAP-AIV 2-channe! analog voltage input -1 0 VDC to +10 voe Four-Channel Modules SNAP-AICTD-4 4-channel analog temperature input - ICTD SNAP-AIMA-4 4-channel analog current input -20 mA to +20 mA SNAP-Al R40K-4 4-channel analog thermistor input SNAP-AIMV-4 4-channe! -150 mV to +150 mV input or -75 mV to + 75 mV input SNAP-AIMV2-4 4-channel -SO mV to +50 mV input or -25 mV to +25 mV input SNAP-AIV-4 4-channe! analog voltage input-10VDC to +10VDC Analog Input Modules

Resolution = 0.004%

of nominal range

Two or four single-ended inputs per module Features
Rugged packaging
Convenient pluggable wiring
Powered by a single 5-volt supply
Out-of-range indication
Operating temperature 0° to 70° C
Accepts upto 14AWG wire.
Factory calibrated, no user adjustment necessary 15 16 18 5

7 9 12 13 18 Opto 22

43)44 Business Park Drive* Temecula, CA 925ffi
Phone: (ffiS) 695-3aX) * (800) 321-OPTO
Fax: (ffiS) 695-:ms
Internet www.opto22.com Inside Sales: (OC(l) 452-OPTO
Prodt.et Support (OC(l) TEK-OPTO * (9'.E) 695-3000
Fax (9'.E) 695-3)17
E-mail: support@opto22.com
FaxBack: (OC(l) 47 4-OPTO

OPYD 22 1/0 MODULES SNAP ANALOG INPUT MODULES DATA SHEET page 2/'12 Form 1065-010315 Part Number Description 0 to 10 amp RMS AC/DC Input Module SNAP-AIARMS 2-channel O to 10 amp RMS AC/DC input Description The SNAP-AIARMS module provides an input range of Oto 10 amps RMS AC/DC. An ideal input is the 5-amp secondary of a standard current transformer used to monitor AC line current. The SNAP-AIARMS module may be used to monitor AC current to greater than a 100-amp range, using a current transformer of suitable ratio. Specifications Input Range 0 to 10 amp RMS AC/DC lmput Over Range To 11 amps Input Resistance 0.0050 Maximum Input 11 amps AC/DC Accuracy (AC) +/-8 mA and +/-0.2% reading Resolution 400 µA DC Reversal +/-16 mA (0.16%) Input Response Time 5% (12.5 V) in 1 oo ms (Step Change) 63.2% (158 V) in 200 mS 99% (248 V) in 1200 ms DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB at 60 Hz Maximum Operating Common Mode Voltage 250 VAC Power Requirements 5 voe (+/-0.15 V) at 170 mA Ambient Temperature: Operating o* C to 70° C Storage -25° c to as* c r h IMPORTANT: The mounting rack connector as 24 pms;the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the '- module during installation. Opto 22

43J44 Business Park Drive
Temecula, CA 9259J
Phone (9J9) 695-300'.l * (il(X)} 321-OPTO
Fax: (9J9) 695-~
Internet www.opto22.com lrside Sales (8CX)) 452-OPTO
Prod Let Support (8CX)) TEK-OPT O * (OC'e) 695-3080
Fax (OC'e) 695-~ 17
E-mail support@opto22com
F axBack (8CX)) 47 4-OPTO

OPYD 22 1/0 MODULES SNAP ANALOG INPUT MODULES DATA SHEET Form 1065-010315 0 to 10 Amp RMS AC/DC Input Module Wiring Diagrams Two possible wiring diagrams are shown. Terminals 3, 4, 7, and 8 share a common connection inside the module. Make sure you observe polarity when connecting the second channel. To avoid a potentially hazardous short, double-check wiring before turning on the current to be monitored. CHANNEL

0 CHANNEL
1 SNAP-AIARMS TWO CURRENT INPUTS I

I I I AC LINE

~~t-:, -------'\\

MEASURING AC LINE CURRENT WITH A CURRENT TRANSFORMER I } DASHEDLINES ARE ALTERNATE CONNECTIONS AC LINE I I TO MINIMIZE CHANNEL CROSS TALK, DO NOT SHARE TERMINAL BETWEEN CHANNELS SNAP MODULE PLUG IN !ERMINA CHANNEL

0 CHANNEL
1 page 3/22 SNAP-AIARMS TWO CURRENT INPUTS DASHED LINES 0 TO 10 AMP AC/DC

-,__ ARE ALTERNATE CONNECTIONS CH 0 CURRENT COMMON WIRE FOR BEST ACCURACY, RUN TWO SEPARATE COMMON \\'!RES. WHEN USING A SINGLE COMMON \\'!RE, THE 'COMMON TERMINALS' SHOULD BE JUMPERED AT THE CONNECTOR TO MINIMIZE CROSS TALK. DASHED LINES ,_.;-ARE ALTERNATE CONNECTIONS ~~-+-:,1 CH 1 CURRENT COMMON WIRE SNAP MODULE PLUG IN TERMINAL Opto 22

43)44 Business Park Drive* Temecula, CA 92500
Phone (fil:l) 695-30CO * (800) 321-OPTO
Fax: (fil:l) 695-3J95
Internet www.opto22.com Inside Sales ('OC()) 452-OPTO
Produ::I Support ('OC()) TEK-OPTO * (OCe) 695-3000
Fax (OCe) 695-3)17
E-mail: support@opto22 com
F axBack ('OC()) 47 4-OPTO

OPTO 22 DATA SHEET Form 1065-010315 1/0 MODULES SNAP ANALOG INPUT MODULES page 4/22 Part Number Description 0 to 250 Volt RMS AC/DC Input Module SNAP-AIVRMS O to 250 V RMS AC/DC CHANNEL

0 CHANNEL
1 SNAP-AIVRMS 2 VOLTAGE INPUTS 0 TO 25-0V AC/DC HOT WIRE COMMON WIRE COMMON WIRE SNAP MODU E PLUG IN TERMINAL Description The SNAP-AIVRMS module provides an input range of O to 250 volts AC or DC. The SNAP-AIVRMS module may be used to monitor 120/240-volt AC/DC and 12/24/48-volt AC/DC system voltage.

Terminals 3, 4, 7, and 8 share a common connection inside the module. Make sure you observe polarity when connecting the second channel. To avoid a potentially hazardous short, double-check wiring before turning on the voltage to be monitored. Specifications Input Range 0 to 250 V RMS AC/DC Input Over Range To 275 V Input Resistance 1 MO Accuracy +/-0.2 V and +/-0.2% reading Resolution 10 mV DC Reversal +/- 0.4 V (.16%) Input Response lime 5% (12.5 V) in 100 mS (Step Change) 63.2% (1 58 V) in 200 mS 99% (248 V) in 1200 mS DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maxi mum Operating Common 250VAC Mode Voltage Power Requirements 5 VDC (+/-0.15 V) at 170 mA Ambient TemperatLre: Operating 0° C to 70° C Storage -25' c to as* c IMPORTANT: The mounting rack connector has 24 pins;the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Opto 22

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OPYD 22 DATA SHEET Form 1065-010315 1/0 MODULES SNAP ANALOG INPUT MODULES page 5/22 Part Number Description ICTD Temperature Input Module SNAP-AICTD SNAP-AICTD-4 2-channel analog temperature input - ICTD 4-channel analog temperature input - ICTD SNAP-AICTD (Two channels} Description Four-channel module is shown on the following page. ICTO PROBE ICTO PROBE The SNAP-AICTD and SNAP-AICTD-4 modules provide temperature input data from any industry-standard Integrated Circuit Temperature Device (ICTD). The SNAP-AICTD has two channels. and the SNAP-AICTD-4 has four channels. The four-channel module can be used only with the SNAP-83000-ENET Ethernet brain. SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH WHT OPTQ 22 1 ~ + (FIRST FOR\\11\\RO PIN) a; a; 19 17 15 13 11 9 7 5 3 1 / PIN 1 11***1***1*1*1* 20 18 16 14 12 10 8 6 4 2 The simple two-wire connections are made to the pluggable terminal strip on top of the module. Up to 2,000 feet of ordinary hook-up wire is used to connect the sensor to the input terminal strip. Both modules are compatible with all industry-standard ICTD probes, including the AD-590 family from Analog Devices and Dpto 22's part number ICTD. Specifications Input Range with ICTD Probe -40° C to +100° C Resolution 0.017° C Accuracy with ICTD Probe +/-a.a* c Sensitivity 1.0 µA/° C DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB @ 60 Hz Maximum Operating Common 750 VDC or peak AC Mode Voltage Power Requirements 5 VDC (+/-.015 ) @ 150 mA Ambient Temperature : Operating o* c to 70° c SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW} Storage -25° c to as* c /"IMPORTANT: The mounting rack connector has 24 pins; the' module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Opto 22

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OPTO 22 1/0 MODULES SNAP ANALOG INPUT MODULES DATA SHEET Form 1065-010315 ICTD Temperature Input Module (continued) SNAP-AICTD-4 (Four Channels) Two-channel module is shown on the previous page. SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MODLATCH ICTO PROBE OPTO 22 ~PIN1 ICTO PROBE ~ + !FIRST FOR'MRD PIN) a,;;;; 19 17 15 13 11 9 1 5 3 1 / PIN 1 1:***:**:*:*:*:- 20 18 16 14 12 10 8 6 4 2 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) IMPORTANT: The mounting rack connector has 24 pins;the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. page 6/22 Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 Current Input Module -20mA to +20mA Part Number SNAP-Al MA SNAP-AIMA-4 Transmitter Loop Current Field Wiring SNAP-AIMA (Two Channels) Four-channel module is shown on the following page. EXTERNAL LOOP POWER SUPPLY SELF-POWERED (SELF.SOURCINGI TRAIISMITTERS m TRANSMJTID! IRAHSYTTER TIW<;YTID! fl fl TRANSMITTER ~J 1cJ FOR TRANSMITTERS 1 r- - --- - -1 NOTE: THE lV.U REFERENCE S!IARINGTliEPLus~oe, CHO CH1 :--oR--, cHo cH1

rrRM1NALs12AND6)ARE Of TliE LOOP SUPPiY TliE : 1 2 5 6,

1 2 5 6, CONNECTED INTERNALLY.

INPUT CURRENT WILL BE, __.__.T ___.__. __, ~--'-~--J'-~- -* READ AS A POSITIVE CURRENT

-*--* ~

t t [ CHO CH1 I L 1 2 LJ INPUT REF IJPIJT liEf SNAP MODULE FIELD CONNECTOR OPTO 22 PART # SNAP-FIELOCON SNAP MODULE RELEASE LATCH OPTO 12 PART I SNAP-MODLATCH 1917151311 9 7 5 3 I r PINI 1:1:111:1:1:1:1:1:- 20 18 16 14 12 10 8 6 4 2 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) ,..IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the ,module during installation. 1/0 MODULES SNAP ANALOG INPUT MODULES page 7/22 Description 2-channel analog current input -20mA to +20mA 4-channel analog current input -20mA to +20mA Description The SNAP-Al MA and SNAP-AIMA-4 modules provide an input range of -20mA to +20mA. The SNAP-AIMA has two channels, and the SNAP-AIMA-4 has four channels. The four-channel module can be used only with SNAP Ethernet 1/0 and SNAP wireless LAN 1/0 brains. These modules 00 NOT supply loop excitation current. Since all inputs share a common reference, the module must be installed at the beginning or end of a typical 4 to 20mA loop. If you are using both standard and self-sourcing transmitters, either put the transmitters on different modules, or use different power supplies. If you need channels that are isolated from each other on the same module, see Opto 22 form #1 182. Specifications Input Range -20mA to +20mA Resolution 0.8 µA Input Response Time 99.9 %/19.9mN10 mS (% of sparvdelta Vdelta time) DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB @ 60 Hz Maximum Survivable Input 36 mA or 9 VDC Maximum Operating Common 750 VDC or peak AC Mode Voltage (Field Term to Logic Connector) Accuracy 0.05% (10 µA) DRIFT: Gain Temperature 30 PPM/'C Coefficient DRIFT: Offset Temperature 15 PPM/"C Coefficient Power Requirements s voe (+/-0.15) @ 170 mA Input Resistance - Single 200 ohms Ended (each channel) Ambien1 Temperature: Operating o* c to 70° c S1orage -25° c to as* c Opto 22

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OPTO 22 1/0 MODULES SNAP ANALOG INPUT MODULES DATA SHEET Form 1065-010315 Current Input Module -20mA to +20mA (continued) Transmitter Loop Current Field Wiring SNAP-AIMA-4 (Four Channels) Two-channel module is shown on previous page. EXTERNAL LOOP EXTERNAL LOOP SELF-POWERED (SELF-SOURCING! POWER SUPPLY POWER SUPPLY TRANSMITTERS + + + page 8/22 rnffl] 11- ~~~~ FOR TRAN::T~ ~ -~- -- -~ -- T:~mR ~ YmR +r - -- : - -- -~- -- _+ -- -, T~ :::~ E REFERENCE SHARING THE Plus s1DE cHo cH1 cH2 cHJ , --oR-- : cHo cH1 cH2 CHJ : rERM1NALs (2. 4. s. AND a1 0\\N~~~~:i:~:l~~ l__L_2L-1 __ t._J __ _LJ_ _J __ ] u __ t __ 3 ___ LrJ_J __ 7 __ J_: :~;:l~;CTED READ ASA POSITIVE CURRENT I + - + - I + + CHO CH1 f CH2 CH3 j 3 4 5 6 7 8 SNAP MODULE FIELD CONNECTOR OPTO 22 PART # SNAP.flELDCON SNAP MODULE RELEASE LATCH OPTO 22 PART I SNAP-MOOLATCH IIPTG 22 1 /:= ~IRST FOR\\'l\\RD PINI ~~ 19 17 15 13 11 9 7 5 3 1/ PIN1 1:1:1:1:1:1:1:1:1:* 20 18 16 14 12 10 8 6 4 2 C t3 SNAP ANALOG MOOULE BASE CONTROL CONNECTOR (BOTTOM VIEW) r IMPORTANT: The mounting rack connector has 24 pins; the" module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the '-module during installation. Opto 22

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OPTD 22 DATA SHEET Form 1065-010315 1/0 MODULES SNAP ANALOG INPUT MODULES page 9/22 Part Number Description Thermistor Input Module SNAP-AIR40K-4 4-channel analog thermistor input 0-40 K, 0-20K, 0-10K, or 0-5 K Ohm Description SNAP-AIR40K-4 NOTE: RESISTANCE PROBES MUST BE ISOLATED. The SNAP-AIR40K-4 module provides four channels of analog to digital conversion, ideal for thermistors used in HVAC applications or for reading the resistance of potentiometer input. The module can be used only with SNAP Ethernet 1/0 and SNAP wireless LAN 1/0 brains. SNAP MODULE RELEASE LATCH OPTO 22 PART # SNAP-MOOLATCH l CHO CH1 CH2 !1 2 3 4 5 6 OPT11 22 PIN 1 ~ + (FIRST FORW\\RD PIN) a"-; ~ 19 17 15 13 11 9 7 5 3 1 r PIN 1 lili-lili-*i*i-- 20 18 16 14 12 10 8 6 4 2 C>

z "'

+ tu tu

z :z The default input range is Oto 40 K Ohms. The module can also be configured for Oto 20 K, 0 to 10 K, or Oto 5 K Ohms.

NOTE: Resistance probes must be isolated from each other. Specifications Input Range 0 to 40,000 Ohms 0 to 20,000 Ohms 0 to 10,000 Ohms 0 to 5,000 Ohms Resolution 1.6 Ohm @40 K Ohms 0.8 Ohm @ 20 K Ohms 0.4 Ohm@ 10 K Ohms 0.2 Ohm @ 5 K Ohms Input Filtering -3 dB@ 3.2 Hz DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maximum Operating 500 volts DC or peak AC Common Mode Voltage Acruracy 0.1% +/- 40 Ohms @40 K Ohms 0.1% +/- 20 Ohms @ 20 K Ohms 0.1% +/- 10 Ohms @ 10 K Ohms 0.1% +/- 5 Ohms @ 5 K Ohms DRIFT: Gain Temperature 30 PPM/ °C Coefficient SNAP ANALOG MOOULE BASE CONTROL CONNECTOR (BOTTOM VIEW) DRIFT: Offset Temperature 15 PPM/ °C Coefficient Power Requirements s voe (+/-0.15)@ 190 mA Ambient Temperature: Operating o* c to 70° c Storage -25° c to as* c / IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 0 to 2~.z000 Hz Analog Rate Input Module 1/0 MODULES SNAP ANALOG INPUT MODULES page 10/22 Part Number Description SNAP-AIRATE 0-25,000 Hz analog rate input Description The SNAP-Al RATE module provides two channels of frequency-to-digital conversion. The nominal input range is Oto 25,000 Hz with an over-range capability to 27,500 Hz. Nine volts through a 4.7 K ohm pull-up resistor are provided internally for use with devices that have open collector outputs. This feature eliminates the need for the user to provide the pull-up voltage supply and associated wiring, barrier strips, etc. The module works with TTL, CMOS, and open collector outputs. Truly a two-wire hookup, the SNAP-AIRATE module is ideally suited for use with a tachometer. Specifications Nominal Input Rang e O to 25,000 Hz Input Over Range To 27,500 Hz Resolution 1 Hz Input Response Time 10.0%/2,500 Hz/0.1 sec (% of span/ A Hz/ A time) 63.2% / 15.8 K Hz/ 0.9 sec 99.0% I 24.75 K Hz / 4.2 sec DC Common Mode Rejection > -120 dB AC Common Mode Rejection > -120 dB at 60 Hz Maximum Operating Common 250 VDC or peak AC Mode Voltage Accuracy (% full scale) +/-4 Hz or +/-0.5% of the input frequency (whichever is greater) Drift Gain Temperature Coefficient 200 ppm / °C Offset Temperature Coefficient 50 ppm/ 0C Input Parameters Coupling Single-ended AC (capacitor coupled) lnp ut Amplitude Sine wave 2.5 V to 24 V p-p Square wave 0.5 V to 24 V p-p Minimum Pulse Width 18 µsec Input Impedance 50 K ohms AC coupled (-input to +input) (Both inputs share the same reference point.) Pull-up Voltage 6 to 9 V Pull-up Resistor 4.7 K ohms Power Requirements 5 VDC (+/-0.15 V) at 190 mA Ambient Temperature: Operating 0° c to 70° c Storage -25° c to as* c Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 1/0 MODULES SNAP ANALOG INPUT MODULES page 11/22 0 to 25,000 Hz Analog Rate Input Module Wiring Diagrams TACHOMETER INPUT #1 TACHOMETER INPUT #2 SAMPLE WIRING DIAGRAM #1 TACH #1 TACHOME ER GROUND TACH #2 TACHOMETER GROUND JUMPER TO --PULL-UP RESISTOR TACHOMETER WITH OPEN COLLECTOR OUTPUT SNAP MODULE PLUG IN TERMINAL TACHOMETER IN PUT #1 TACHOMETER INPUT #2 SAMPLE WIRING DIAGRAM #2 6 I I I ENCODER GROUND I 1---------------- r--------------- 1 I I ENCODER GROUND TACHOMETER WITH TTL, ms, CMOS OUTPUT SNAP MODULE PLUG IN TERMINAL Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 Millivolt Input Module SNAP-AIMV-4 SNAP MOOIJlE RELEASE IATCH OPTO 22 PART I SNAP-UOOIATCH M PIH\\ ~... ~ (f lRSTFORV-W!D Pllf) r a; ~ 19171S 13 119 1 5 3 1r P1NI 1:1:1:1:1:1:1:1:1:- 20 18 16 1' 11 10 8 6 ' 1 ~ lji~ SNAP AN,11.0G UOIXJLE BASE CONTROl CONNECTOR {BOTTOM VIEW} IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. 1/0 MODULES SNAP ANALOG INPUT MODULES page 12/22 Part Number Description SNAP-AIMV-4 4-channel -150 to+ 150 mV input or -75 to +75 mV input Description The SNAP-AIMV-4 module provides four channels of analog to digital conversion. This module can be used only with SNAP Ethernet 1/0 and SNAP wireless LAN 1/0 brains. Each channel on the module can be configured for -150 mV DC to + 150 mV DC or -75 mV DC to +75 mV DC. Note that all inputs share the same reference terminal. Specifications hput Range From -150 mV to +150 mV From -75 mV to +75m V Resolution 6 µV fi"om -150 mV to +150 mV 3 µV fi"om -75 mV 1o +75m V hput Filtering -3 dB@ 7 Hz hput Response lime 632%/95 mV/23 ms (% of sparvdelta V/delta time) DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maximum Survivable lrput +/-15 volts Maximum Operating Common Mode Voltage (Field term to 500 volts DC or peak AC logic connector) Accuracy 0.06% (90 µV)@ 150m V (ful scale) 0.1% (75 µV)@ 75 mV (full scale) DRIFT: Gain Temperature 3µV /°C Coefficient DRIFT: Offset Temperature 2 µV /°C Coefficient Power ReqLiremerts 5 VDC (+/-0.15 )@ 170 mA hput Resistance - Single 100 M.0. (each cha me I) Ended Ambient Temperature: Operating o* c to 70° c Storage -25° c to 85° c Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 Millivolt Input Module SNAP J.IOOIILE RELEASE LATCH OPTO 12 PART I SNAP-MOOLATCH SNAP-AIMV2-4 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (80110\\I VIEW) UNIPOi.AR OR BIPOIAA MU~OI.T SOURCE IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. 1/0 MODULES SNAP ANALOG INPUT MODULES page 13/22 Part Number Description SNAP-AIMV2-4 4-channel -50 to +50 mV input or -25 to +25 mV input Description The SNAP-AIMV2-4 module provides four channels of analog to digital conversion. This module can be used only with SNAP Ethernet 1/0 and SNAP wireless LAN 1/0 brains. Each channel on the module can be configured for-50 mV DC to +50 mV DC or -25 mV DC to +25 mV DC. Note that all inputs share the same reference terminal. Specifications lnpu: Range From -50 mV to +50 mVDC From -25 mV to +25 mVDC Resolution 2 µV from -50 mV to +50 mV 1 µV from -25 mV to +25 mV lnpu: Filtering -3 dB @2.4 Hz lnpu: Response lime 63.2%/31.5 mV/66 mS (% of span/delta V/delta time) DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maximum Surnvable Input +/-15 Volts Maximum Operating Common Mode Voltage (Field term to 500 volts DC or peak AC logic connector) Accuracy 0.1% (50 µV)@ 50 mV (ful scale) 0.2% (50 µV)@ 25 mV (ful scale) DRIFT: Gain Temperature 5 µV / ' C Coefficient DRIFT: Offset Temperature 2 µV / ' C Coefficient Power Requirements 5 voe (+/-0.15)@ 170 mA lnpu: Resistance, Single Ended 100 M.n ( each cha me I) Ambient Temperature: Operating O' C to 70' C Storage -25' C to 85' C Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 Thermocouple/Millivolt Input Module Thermocouple Polarity and Range Type + Range E RED PURPLE -270"C to +1,000" C J RED WHITE -21 o*c to +1,200* c K RED YELLOW -270"C to +1,372" C SNAP-AITM "'~~.r1~=:,, ~~ NOTE: THE TWO NEGATIVE TERMINALS I CHO CH1 ARE CONNECTED INTERNALLY. I... 1 2 5 6 SNAP MODULE RELEASE LATCH Of'TO 22 PART I SNAP-MODLATCH + OPTQ 22 z ~ - ~ ~ 19 17 15 13 11 9 1 5 3 I r PIN 1 1:1:1:1:1:1:1:1:1:- 20 18 16 14 12 10 8 6 I 2 SNAP ANALOO MODULE BASE CONTROl CONNECTOR {BOTTOM V,EV/1 1/0 MODULES SNAP ANALOG INPUT MODULES page 14/22 Part Number Description 2-channel analog type E, J, or K SNAP-Al TM thermocouple or -1 50 mV to +150 mV input or -75 mV to +75 mV input Description The SNAP-AITM module provides two channels of analog to digital conversion. Each channel on the module can be configured for-150 mV DC to+ 150 mV DC or -75 mV DC to +75 mV DC, or for type E, J, or K thermocouple operation. Since both inputs share the same reference terminal, use isolated probes for thermocouple inputs. If you need isolated channels on the same module, see Opto 22 form #1182. Specifications hput Range From -150 mV to +150m V From -75 mV to +75 mV Resolution 6 µV from -150 mV to +150m V 3 µV from -75 mV to +75 mV Cold Junction Temperature ALtomatic when used with 83000 Compensation hput Filtering -3 d8@7 Hz hput Response Time 632%195 mVf23 ms (% of span/delta V/delta time) DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maximum Survivable Input +/-15 volts Maximum Operating Common Mode Voltage (Field term to bgic 500 volts DC or peak AC connector) Accuracy 0.06% (90 µV) @ 150 mV (tun scale) 0.1% (75 µV) @75 mV (fl.II scale) DRIFT: Gain Temperature Coefficient 5 µV/ "C DRIFT: Offset Temperature 2 µV/ "C Coefficient Thermocouple Accuracy rCJ (from factory) +/- 2.0 E, J, and K After user gain and offset commards +/- 0.8 Power Requiremerts s voe (+/-0.15 )@ 170m A hput Resistance - Single Ended 100 MO (each channe~ Ambient Temperature: Operating o* C to 70" C Storage -2s* c to as* c IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Opto 22

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22 DATA SHEET Form 1065-010315 1/0 MODULES SNAP ANALOG INPUT MODULES page 15/22 Part Number Description 2-channel analog type B, C, D, G, N, T, R, or S Thermocouple/Millivolt Input Module SNAP-AITM-2 thermocouple or -50 mV to +50 mVDC input Thermocouple Polarity and Range Type + Range B RED GRAY +42" C to +1,820' C C, D, G RED WHITE o* c to +2,320' c N RED ORANGE -270' C to +1,300' C R, S RED BLACK -50' C to +1,768' C T RED BLUE -270' C to +400' C SNAP-AITM-2 MILLIVOLT OR n n M LL OLT OR '"'"""""' SOO<elLll""'*'" """ NOTE THE TWO NEGATIVE TERMINALS r CHO CH1 j ARE CONNECTED INTERNALLY 1 2 5 6 I SNAP MODULE RELEASE LATCH OPTO 22 PART I SNAP-MODLATCH - + - IIPTa 22. z oc + a; a; M PIN1 ~ (flRSTfORVI.RDPIN) 1917 1513 11 9 7 5 J lr PINI 1:1:1:1:1:1:1:1:1:* 20 18 16 14 12 10 8 6 4 2 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) or -25 mV to +25 mVDC input Description The SNAP-AITM2 module provides an input range of +/-50 mV. +/-25 mV, or Type 8, C, D. G. N, T. R, or S thermocouple. Since both inputs share the same reference terminal. use isolated probes for thermocouple inputs. If you need isolated channels on the same module, see Opto 22 form #1182. Specifications Input Rarge From -50 mV to +50 mVDC From -25 mV to +25 mVDC Resolution 2 µV from -50 mV to +50 mV 1 µV from -25 mV to +25 mV Cold Jurction Temperatu-e Automatic when used with B3000 Compensation Input Filtering -3 dB@2.4 Hz Input Response lime 63.2%/31.5 mV/66 ms (% of sparvdelta V/delta time) DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maximu-n Survivable lrptt +/-15 Volts Maximu-n Operatirg Common Mode Voltage (Field term to 500 Volts DC or Peak AC logic comec1or) Accu-acy 0.1% (50 µV)@50 mV (full scale) 0.2% (50 µV)@ 25 mV {full scale) DRIFT: Gain Temperab.Jre 5 µV /'C Coefficient DRIFT: Offset Temperatu-e 2 µV /"C Coefficient Thermocouple Accuracy [' C] B, R, S C,D, G T, N (from factory) +/-5 +/-4 +/-3 After user gain and offset +/-3 +/-2 +/-2 commands Power Requirements s voe (+/-0.15)@ 170 mA Input Resistarce, Single Ended 100 Mn (each chamel) Ambiert Temperab.Jre: Operating o* c to 10* c Storage -25° c to as* c IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 RTD Input Module RTD Input Module See additional wiring details on the following page. 100 O PT 100 0 PT NOTE: USE ISOlATED RTD PROBES IIPTO 22 ~~ ~ PIN1 SNAP MODULE RELEASE lATCH ~!c::; (FIRST FORWIRO PIN) OPTO 22 PART I SNAP-MODlATCH a; ~ 19 17 15 13 11 9 7 5 3 1 / PIN 1 ~1:1:1:1:1:1:1:1:* 20 18 16 14 12 10 8 6 4 2 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) 1/0 MODULES SNAP ANALOG INPUT MODULES page 16/22 Part Number Description SNAP-AIRTD 2-channel 100-ohm platinum RTD input Description The SNAP-AIRTD module provides a nominal input range of - 200° to +850° C. Since both inputs share the same reference terminal, use isolated RTD probes. Specifications 3-wire RTD Input 100-ohm platinum oc = 0.00385 Input Temperature Range -200" to +850" C (-328" to +1,562" F) Span 400 ohms Resolution (average) 0.042" C (0.016 ohms) Input Filtering -3 dB @0.1 Hz Input Response Time 63.2 % I 598° C I 25 ms (% of span/delta temp/delta time) Lead Compensation Automatic when used with B3000 DC Common Mode Rejection > -120 dB AC Common Mode Rejection > -120 dB at 60 Hz Excitation (typical) 1.25 mA constant current Maximum Lead Resistance >40 ohms single wire (all leads to be equal resistance) Maximum Fault Voltage@ Input +/-15 volts DC or peak AC (Between any 2 Field Wires) Maximum Operating Common Mode Voltage (Field term to logic 500 volts DC or peak AC connector) Accuracy 0.6° C Power Requ irements 5 voe (+/-0.15) @ 190mA Ambient Temperature: Operating o* c to 10* c Storage -25" C to 85" C r ~ IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Opto 22

43'.l44 Business Park Drive
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Fax: (009) 695-3)95
Internet www.opto22.com Inside Sales (00)) 452-0PTO
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OPTO 22 DATA SHEET Form 1065-010315 S NAP AIRTD W irin g The SNAP-AIRTD is designed for three-wire connections, shown in the diagram at right. If you use a four-wire connection (shown in the diagram below), DO NOT connect the fourth wire, as it will cause errors in the readings. Two-wire connections are shown in the diagram below right. However, two-wire connections are NOT recommended, as they will degrade accuracy and stability. CHANNEL

0 CHANNEL
1 4-WIRE RTD WIRING

~~~=~~-~DO~N~o*T CONNECT THE 4 WIRE. IT Will CAUSE ERRORS H~-i ---#---4---, IN THE READINGS. SNAP MODULE PLUG IN TERMINAL 1/0 MODULES SNAP ANALOG INPUT MODULES CHANNEL

0 CHANNEL
1 CHANNEL
0 CHANNEL
1 3-WIRE RTD WIRING 2-WIRE RTD WIRING CAUTION: ACCURACY AND STABILITY Will BE DEGRADED USING A 1-WIRE RTD page 17/22 SNAP MODULE PLUG IN TERMINAL Opto 22

43'J44 Business Park Drive* Temecula, CA 9'2500
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OPTO 22 DATA SHEET Form 1065-010315 Voltage Input Module -10VDC to +10VDC or Part Number SNAP-AIV 1/0 MODULES SNAP ANALOG INPUT MODULES page 18/22 Description 2-channel analog voltage input -10 VDC to +10V DC -5VDC to +5VDC SNAP-AIV-4 4-channel analog voltage input-10 VDC to +10V DC SNAP-AIV (Two Channels) Four-channel module is shown on the following page. UNIPOlAR OR BIPOIAR ~I I - ~I I - UNIPOlAR OR BIPOIAR VOLTAGE SOURCE VOLTAGE SOURCE NOTE THE TWO REFERENCE TERMINALS ARE CONNECTED INTERNALLY i CHO CH17 ! 1 2 5 6 1

.._ -+---

IIJIUT Rff. ltllVT Rff. SNAP MODULE FIELD CONNECTOR ---M.'Ftl'l'M;7/"'"1:Jci OPTO 22 PART I SNAPf lELDCON SNAP MODULE RELEASE LATCH OPTO 22 PART I SNAP-MODLATCH OPTa 22 ~ ~ G'; 19171513 11 9 7 5 3 1r PIN1 1:1:1:1:1:1:1:1:1:- 20 18 16 14 12 10 8 6 4 2 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) ,..IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. Description The SNAP-AIV and SNAP-AIV-4 modules can be configured for either -10 voe to + 10 voe or -5 VOe to +5 VOe operation on each channel. The SNAP-AIV provides two channels, and the SNAP-AIV-4 provides four channels. The four-channel module can be used only with SNAP Ethernet 1/0 and SNAP wireless LAN 1/0 brains. Note that all channels share a common reference terminal. If you need two isolated channels on the same module, see 0pto 22 form #1182. Specifications lrput Range From -10 volts to +10 volts From -5 volts to +5 volts Resolution 0.4 mV when configL.-ed -10 volts to +10 ;olts 0.2 mV when configLred -5 volts to +5 volts lrput Filtering -3 dB @64 Hz lrput Response Time 632% 16.7 v 110 ms (% of span/ DV / Dt) DC Common Mode Rejection >-120 dB AC Common Mode Rejection >-120 dB@ 60 Hz Maximum Survivable lrput 220 VAC or 300 voe Maximum Operating Common Mode Voltage 500 volts DC or peak AC (Field term to logic connector) Accuracy 0.05%, s mv@ 10 voe 2.5 mV@ 5 voe Gain Temperatu-e Coefficient 30 PPMrc Offset Temperab.Jre Coefficiert 15 PPM/'C Power Requirements 5 voe (+/-0.15)@ 170 mA lrput Resistance - 1 M O (each channel) Single Ended (Both inputs st-are the same reference point.) Ambient Temperature: Operating o* c to 70° c Storage -25° c to as* c Oplo 22

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OPTO 22 1/0 MODULES SNAP ANALOG INPUT MODULES DATA SHEET Form 1065-010315 Voltage Input Module -10VDC to +10VDC or -SVDC to +SVDC (continued) SNAP-AIV-4 (Four Channels) Two-channel module is shown on previous page. UNIPOlAR OR BIPOIAR VOLTAGE SOURCE NOTE: All REFERENCE TERMINALS ARE CONNECTED INTERNALLY SNAP MODULE FIELD CONNECTOR - OPTO 22 PART f SNAP-FIELOCON SNAP MODULE RELEASE LATCH OPTO 22 PART f SNAP-MOOLATCH IIPTU 22 PIN 1

ec (F S FOl!WAROPIN)

"' + a; ;:;?; 19 17 15 13 11 9 7 5 3 1/ PINI 1:1:1:1:1:1:1:1:1:* 20 18 16 14 12 10 8 6 4 2 SNAP ANALOG MODULE BASE CONTROL CONNECTOR (BOTTOM VIEW) UNIPOLAR OR BIPOLAR VOLTAGE SOURCE IMPORTANT: The mounting rack connector has 24 pins; the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation. ,J page 19/22 Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 Dimensional Drawings All Modules 1/0 MODULES SNAP ANALOG INPUT MODULES page 20/22 Top and Side Views J i...I------3.25"' (82.55mm,1----~ (9 .72"' M ~ (18.29mm) """" N T-~ ~~==::!:::::===:!:::=.=::) PLUGGABLE FIELD CONNECTOR DD ~ DD 3.55**' 0.17mm) 2.75 (69 85mm) I I t t SNAP LATCH MODULE BASE CONTROL CONNECTOR CONNECTOR RELEASE LATCH SIDE VIEW OF MODULE ~ .72*** (18 29mm) TOLERANCES LEGEND

+I-.01 o*
- +/-.020"
- * +/-.030" ** ** +/-.060" NO
REFERENCE ONLY Opto 22
43)44 Business Park Drive
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Phone: (009) 695-3CO'.l * (OCO} 321-0PTO
Fax (009) 695-lJ95
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OPTO 22 1/0 MODULES SNAP ANALOG INPUT MODULES DATA SHEET page 21/22 Form 1065-010315 Dimensional Drawings All Modules (Continued) RELEASE -- SNAP LATCH 4--40 THRU HOLE (2 EACH) AVAILABLE HOLDDO'M'-J FOR 318", 7116', or 112" LENGTH, 4-40 THREAD SCREW FASTENER [ 0 J Bottom View of Module Base I OOOOOOOOOCI I~ 0000000000 NOTE CONNECTOR IS CENTERED WITH SCREW HOLE CENTERLINE b~;;;;;;;;~~---1.=====.=_=_= =_:;._.:;:.i_ _ NEXT MODULE

r~75 MIN TO LOCATION I

TYPICAL I 'T -- 1, _____________ _ -==-------1-----/,----l--1 I PIN 1 PIN 1 PIN SPACING - -'----+---+---1 20 PIN BOX HEADER .100 CTR-CTR ,-----2.95*' (74.93mm)-----1 ,-*t------3.25"' OA (82.55mm)1----**- .45' (1143mm) TOLERANCES

+/-.010'

'* +/-.020' ... +/-.030' NO

REFERENCE ONLY IMPORTANT: The mounting rack connector has 24 pins;the module connector has 20 pins. The extra pins on the mounting rack connector prevent misalignment of the module during installation.

.05* (127mm) .15 TYP. (3.81mm) Opto 22

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OPTO 22 DATA SHEET Form 1065-010315 Dimensional Drawings All Modules (Continued) 1/0 MODULES SNAP ANALOG INPUT MODULES pageW22 SNAP Analog Module Mounted on SNAP Rack TOP WIRE ENTRY NOTE CONSIDER NECESSARY - DIMENSIONS PLUGGABLE--..-=====:::I FIELD l======!===;i 4.310'*'* (109.47mm) LU Cl 0 CONNECTOR SNAP 1/0 3.55'** MODULE (OOr G .75'** ~ (19.05mm) FOR DIN CLIP ADD ADDITIONAL J .06' TO OVERALL HEIGHT SNAP RACK DIN RAIL ADAPTER CLIP MOUNTING OPTION (LOW PROFILE) CUSTOMER SUPPLIED 35mm DIN RAIL NOTE: BE SURE TO CONSIDER DIN RAIL DIMENSIONS. (DIN RAIL MUST BE MOUNTED HORIZONTALLY TO USE SNAP 1/0 'MTHOUT MODULE HOLD-OOv',N SCREWS\\ SNAP-B3000 1/0 PROCESSOR MODULE RETENTION RAIL SNAP RACK BASE EXTRUSION (_) a:: z

c

~ I-co ~ z ~ co 3.62*** (91.95mm) ~ 4.3.... (111mm) TOLERANCE LEGEND

+/-.010'
- +/-.020"
  - +/-.030"
- ** +/-.060' NO* REFERENCE ONLY Opto 22
4lM4 Business Park Drive
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Phone: (9)9) 695-30CO * (800) 321-0PTO
Fax: (9)9) 695-nl5
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Prodt.et Support ('8i'.XJ) TEK-OPT O * ~) 695-3000
Fax ~

) 695-:JJ 17

E-mail: support@opto22.co m
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Neutron Flux Monitoring Systems Instruction Manual: 1126 For UMASS Lowell Document number 1126 Rev. /

Neutron Flux Monitor Instruction Manual No. 1126, Rev./ UMASS Lowell July2019 Thermo Fisher Scientific 10010 Mesa Rim Road San Diego, CA 92121 Document Written by 'vfj fl) I {L. f'1 i( l&< __....::(i):JA r,, __ Program Manager Gz<,hr,'£;//C* MclZt{lfz, ~ Quality Assurance Manager (P,~ f..!:d,tJ.J41 & tO (Prim) (Sign) Date J /9 Date ----+-:z ____ ~/ /............,;.~ /1--4--2 _ Date 7 }_11 /,c;

Thermo Fisher SCIENTIFIC QUALITY ASSURANCE PROGRAM MANUAL Analytical Instruments Group Chemical Analysis Division Field and Safety Instruments Revision 22 October 11, 2018 10010 Mesa Rim Road © Copyright ThermoFisher 2019 San Diego, CA 92121-2912

ThennoFisher SECTION SCIENTIFIC QUALITY ASSURANCE REVISION PROGRAM MANUAL DATE PAGE TABLE OF CONTENTS SECTION TITLE REVISION COVER SHEET 22 II TABLE OF CONTENTS AND APPROVAL SIGNATURES 22 Ill POLICY STATEMENT 22 IV NUCLEAR SAFETY CULTURE POLICY 22 1 ORGANIZATION AND RESPONSIBILITIES 22 2 QUALITY ASSURANCE PROGRAM 22 3 DESIGN CONTROL 22 4 PROCUREMENT DOCUMENT CONTROL 22 5 INSTRUCTION

S. PROCEDURE

S ANO DRAWINGS 22 6 DOCUMENT CONTROL 22 7 CONTROL OF PURCHASED MATERIAL, EQIP, AND 22 SERVICES 8 IDENTIFICATION AND CONTROL OF MATERIALS ANO 22 9 CONTROL OF SPECIAL PROCESSES 22 10 INSPECTION 22 11 TEST CONTROL 22 12 CONTROL OF MEASURING AND TEST EQUIPMENT 22 13 HANDLING, STORAGE AND SHIPPING 13 14 INSPECTION, TEST AND OPERATING STATUS 12 15 NONCONFORMING MATERIALS PARTS OR COMPONENTS 22 16 CORRECTIVE ACTION 22 17 QUALITY ASSURANCE RECORDS 22 18 AUDITS 22 APPA CRITERIA FOR PROGRAMS UNDER CSA CAN3-Z299 3 12 APPB Cross Reference of APM Prepared & Approved By: ------==--------,1~--1,,,c__~?-------- Reviewed & I I 4 r d Approved By: L- ~I~; ¢-/p~( [I\\, ltt~cr,,\\\\. 6 General Manager/Site Leader II 22 10/11/2018 2 of43 DATE 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 10/11/18 06/11/2003 10/02/2000 10/11/18 10/11/18 10/11/18 10/11/18 10/02/2000 10/11/18 Date: L/ fvltYL / J Analytical Instruments Group Chemical Analysis Division Field and Safety Instruments 10010 Mesa Rim Road San Diego, CA 92121-2912 858-450-9811 858-882-9250 (fax) www.Thermofisher.com

-SCIENTIFIC The wo,ld leader 1n se1v1ng science June 27, 2019 University of Massachusetts at Lowell Pinanski 205 Riverside St Lowell, MA, 01854 Attention to: Lynne Winnett/ REGAN

Subject:

References:

Attachments: Certificate of Conformance Purchase Order: L000511734 Rev. 0. Thermo Fisher Scientific Sales Order No. 190408 Configuration Record Test Reports Thermo Fisher, San Diego certifies that the equipment listed on the attached Configuration Record complies with all requirements of the initial purchase order and applicable specifications. Final inspections and tests required to verify conformance have been performed according to Thermo Fisher Scientific, San Diego's Quality Assurance Program Revision 22, dated 10/11/2018. There are no limited shelf life items provided with this order and no other special in-storage maintenance is required. Please feel free to contact me if there are any questions. Q([) Gregory Hicks Quality Assurance (858) 882-1345 direct phone Greg.Hicks@thermofisher.com. Process Instruments 01"'1S>on Matenals and Minerals 10010 MeH R,m Road san O,ego. CA 92121 11se1 *so-!la 11 1ase1 452.9250 ro r:ww:,nrmotastJer com

Research Reactor Software Configuration Management Control Doc. No. AP-7-00 Procedure No.: AP-7 Revision: 0 Date Issued: xx/xx/2020 Page 1 of 2 1 Approval: Date: Approval: Date: PURPOSE: This procedure establishes a program for checking, documenting, and reviewing changes to instrumentation software and trip point settings. SCOPE: This procedure applies to the General Atomics NMP-1000 Linear Power Channels. RESPONSIBILITIES: A licensed reactor operator or senior reactor operator shall be responsible for checking software configuration and reporting changes in accordance with this procedure. REFERENCE DOCUMENTS:

1. UMLRR License Technical Specifications

2. Calibration Procedure CP-2: Linear Power Channel Check and Calibration

3. Administrative Procedure AP-6: 10CFR 50.59 Screenings and Evaluations ASSOCIATED MATERIAL:

CP-2 Check and Calibration Form PROCEDURE Any change in the software configuration of equipment covered by the scope of this procedure shall be treated as a design change and subject to 10CFR 50.59 review as required by Technical Specification (TS) 6.2.3.

1. The most current software version number shall be documented and maintained in the control room.

2. Following replacement, repair, or modification, a calibration shall be performed in accordance with Calibration Procedure CP-2 before the equipment is considerable operable and returned to service.

3. The software version shall be checked and verified against the documented current software version as part of a routine or non-routine Technical Specification required calibration of the equipment. The software version shall be noted on the CP-2 calibration form.

NOTE: Procedure forms are not considered part of the procedure and do not require review under TS 6.2.3. However, any change to the procedure form shall be reviewed and approved by the TS Level 2. University of Massachusetts UMASSLowell

Research Reactor Software Configuration Management Control Doc. No. AP-7-00 Procedure No.: AP-7 Revision: 0 Date Issued: xx/xx/2020 Page 2 of 2 2

4. For a discrepancy in the software version, the equipment shall be taken out of service and shall be immediately reported to the TS Level 2.

5. The Level 2 shall contact the manufacturer for all information related to the change.

6. The 10CFR 50.59 review shall be performed and documented in accordance with UMLRR Administrative Procedure AP-6.

7. If the review concludes a license amendment is not required, a channel calibration and channel test shall be performed.

8. Operations personnel shall receive training on the effects of the software change, if any, and such training shall be documented.

9. Instrumentation trip point settings shall be per Standing Order SO-5.

End of Procedure University of Massachusetts UMASSLowell

Reviewed 06/14/2005 lnitial/""L.._) STAN6f NG ORDER #5 SET POINTS FOR VARIOUS SCRAMS AND ALARMS Alarms and scrams are set at values more conservative than those required by Technical Specifications. The following are the settings for the various safety channels as presently set. If these settings need to be adjusted to some other value, permission from the Reactor Supervisor or CRO is required. Channel Alarm Scram LSSS normal values hi neutron flux <105% S120% 125% not to exceed 1 00% short period ~15 sec. ~7 sec. 3 sec. >30 seconds low pool level ~24.6 ft ~24.5 ft 24.25 ft (~5" below (6" below (9" below pool gutters) pool gutters) pool gutters) coolant flow ~1500 gpm ~1400 gpm 1170 gpm 1600 gpm core low flow >90% ~80% n/a 100% core inlet temp <100 F S104 F 108 F 70-90 F core outlet temp S104 F S108 F n/a 70-90 F pool temp S100 F S104 F 108 F 70-90 F hi voltage failure Pico's, LOGN ~700V 500V 800 V sue ~600V 500V 700 V conductivity s2.0 uMhos 5 uMhos/month-avg startup channel blade inhibit ~3 cps (LSSS 2 CPS)

1 Bobek, Leo From: Priddie, Gregg <Gregg.Priddie@ga.com> Sent: Wednesday, July 17, 2019 2:03 PM To: Bobek, Leo

Subject:

RE: RE: password

HiLeo,

InresponsetothetopiconthepasswordfortheTRIGAsystem.Asyounotedtheusernameandpasswordreferenced inthefirstpartofthisemailhastodowiththeconsolesoftwareandnothingtodowithanyindividualinstrument (specificallytheNMPhere).ThereisnopasswordassociatedwiththeNMPitself.Hopethatanswersyour inquiry.Anythingelsepleaseletmeknow.

GreggPriddie DirectorofEnergyProducts ProductLines GeneralAtomics ElectomagneticSystemsGroup(GAEMS) 8586767325workphone 8583862184mobilephone 8589647008workfax 16530ViaEsprillo SanDiego,CA92127

CONFIDENTIALITYNOTICE:Thiscommunicationisintendedtobeconfidentialtotheperson(s)towhomitisaddressed.Ifyouarenottheintendedrecipientorthe agentoftheintendedrecipientorifyouareunabletodeliverthiscommunicationtotheintendedrecipient,youmustnotread,useordisseminatethisinformation.If youhavereceivedthiscommunicationinerror,pleaseadvisethesenderimmediatelybytelephoneanddeletethismessageandanyattachmentswithoutretaininga copy.

GreggPriddie

From:Bobek,Leo<Leo_Bobek@uml.edu> Sent:Tuesday,July16,201910:48AM To:Priddie,Gregg<Gregg.Priddie@ga.com>

Subject:

EXTFW:RE:password

WARNING: This message is from an external source. Evaluate the message carefully BEFORE clicking on links or opening attachments. HelloGregg,

Perhapsthereisonequestionyoucananswerrightaway.SeediscussionbelowrelatedtotheNMP1000netburnerin oneofthedraftRAIs.IbelievetheuserIDandpasswordreferredtointheproceduretheymentionbelow(referenceto specificdocumentattached)isrelatedtotheGAConsoleandnottheNMP1000.

AmIcorrectinassumingtheNMP1000netburnerdoesnothaveauserIDandpassword?

2

Thankyou.

Leo

From: Hardesty, Duane [1] Sent: Tuesday, July 16, 2019 1:23 PM To: Bobek, Leo; Helvenston, Edward Cc: Muhlheim, Michael David

Subject:

RE: RE: password

Thanks for this Leo. The description of what the interface does is somewhat disconcerting. It talks about the main i/f to other NMP-1000 components, to the touch screen, and I/F to a remote maintenance computer. All access control issues. Please ask GA (and describe in RAI response) what is done with the USER ID/PW combination after the MOD54415 validation is complete and if there are potential adverse results if the PW is used by an end-user or unauthorized user) to access the stated functionality.

Thanks, Duane From:Bobek,Leo<Leo_Bobek@uml.edu>

Sent:Tuesday,July16,20191:12PM To:Hardesty,Duane<Duane.Hardesty@nrc.gov>;Helvenston,Edward<Edward.Helvenston@nrc.gov>

Subject:

[External_Sender]RE:password

Tookmeawhiletofindthesourceofwhatyousent,butlookstobefromoneoftheGAvalidationprocedures.Itisnot intheNMP1000UserManual,whichexplainswhyIwasnotawareofit.ThisisobviouslynotsomethingUMLstaff woulddo.Iassumeyoustillwantthequestionansweredeventhoughwehavenowayofperformingthisprocedure?

3 From: Hardesty, Duane [2] Sent: Tuesday, July 16, 2019 12:12 PM To: Helvenston, Edward; Bobek, Leo

Subject:

FW: password

+ G~NSRAI. Af'OMICS .,..C'fflOIIII~ StrSDIIIIS 1 INTR.OOUCTION Ne1Burner-M0D54415 Ethernet Core Modul Va,lidlltion Summary Report 20130207001-RPT, Revision 2 The purpose

1, documen
o presen, in summary, the results o et8umer-M0D54415 Module, vaJldal on efforts as ob a*ned by he execution of the 20 30207001 tBu ner-MOD54415 Module Validatio Plan Hev2.

2 TOOL OVERVIEW et8umer-M00544 5 Core l-4odule a single board oomptiter 6Ulemet connectivity from NetBumer Inc. The NelBume modv e is used a~ lhe main processor ich provides the di ii.al inler1aces too eroompooents

the GA-ESl's NLX-1000 and NMP*1000 Nuc ear lnstrume I Channe.

e Bumer mod is cilosen or its arie yo communicalion pro ocols off red. One of the MODS 15 rial pons is intended lo

ntertace e

P*1000's oud, screen dispay module. The other 0544 5 mod le's serl I port

int ed lo interface o a remote mainte nee corrp.iter or s~ aod programming lhe 1 00544 5. An Etneroe po is used o communicate Wl h emal cOl'ISO e. The

, etBumer other da l/0 inc ng t SPI and GPIO are intended as "p select for GPIO expansion and the ter or 8)11emal tc-hdog imer and external ADC ill)uts. o previous version of, 3 SCOPE The scope of h" valid tion ort includ d the testing ofapp icable eature of el81Jner-MOD54415 as descnbed by req men ed . h T abfe 3-1 ot lhe Validation P!an.

4

Michael D. Muhlheim, Ph.D. Reactor and Nuclear Systems Division Oak Ridge National Laboratory Oak Ridge, Tennessee 37831 865-574-0386

2. 72.6 PROCEDURE STEPS 2.72.6.1 Set Up SWLD.STP.01 2.72.6.2 Start None 2.72.6.3 Proceed and Measure CONS-16 Fail 1) Connect the hardware per the Block Diagram in Figure 2 in Appendix 1 of Console System TEST PLAN.

__ 2) Power up the UPS

__ 3) Verify CCS PC automatically boots. _ \\I_ 4) Verify UIT PC automatically boots. _\\1_ 5) Acknowledge error on chart recorded by pressing OK _ 6) Wait for applications to start. _ \\_ 7) Use using Alt-FB on the CCS to view the CCS application. Verify CCS ap __ 8) Use using Alt-F6 on the DAS to view the DAS application. Verify DAS apI __ 9) Verify UIT has started. _ \\ _ 10} From the operator menu, select Login and log in using the user name 'gc "gatriga". \\ 1_ 11 ) From the blue box located in the top right corner of the graphics display, is logged in and an appropriate user ID is identified. _ v_ 12) Use the Acknowledge button to clear all alert and alarm messages.

1 Bobek, Leo From: Gormley, Jerome <Jerome.Gormley@ga.com> Sent: Friday, July 14, 2017 5:09 PM To: Bobek, Leo Cc: Hardesty, Duane (Duane.Hardesty@nrc.gov); Regan, Thomas

Subject:

RE: Comment on T9S900D980-FME RevA NMP-1000 Failure Modes Effects Analysis.pdf IhaveverifiedwithmysoftwareteamthattheunusedcodewasremovedpriortofinalINLSWbuildandisthus removedinallproductreleasedcode,includingtheUMasssystem. Jerry

From:Bobek,Leo[3] Sent:Tuesday,July11,20179:28AM To:Gormley,Jerome<Jerome.Gormley@ga.com> Cc:Hardesty,Duane(Duane.Hardesty@nrc.gov)<Duane.Hardesty@nrc.gov>;Regan,Thomas <Thomas_Regan@uml.edu>

Subject:

EXTFW:CommentonT9S900D980FMERevANMP1000FailureModesEffectsAnalysis.pdf

Jerry,

PleaseseeDuanesquestionregardingaunusedcodethatwasdetectedandsubsequentlyremovedasnotedin4.2.1.2 ofthedocument:

T9S900D980FMERevANMP1000FailureModesEffectsAnalysis.pdf

DuanewouldliketoknowifthisunusedcodewasremovedfromsubsequentNMP1000units,specificallytheonesold toUMass.

Thanks.

Leo

From: Duane Hardesty [4] Sent: Thursday, July 06, 2017 11:12 PM To: Bobek, Leo

Subject:

Comment on T9S900D980-FME RevA NMP-1000 Failure Modes Effects Analysis.pdf To help protect your

privacy, Micro so ft Office prevented auto matic download of this picture from the Internet.

T9S900D980-FME RevA NMP-1000 Failure Modes Effects Analysis.pdf Comment by Duane Hardesty View in Dropbox unused codes were discovered. Duane Hardesty at 10:52 PM 101 ---------------

1 Bobek, Leo From: Gormley, Jerome <Jerome.Gormley@ga.com> Sent: Tuesday, June 20, 2017 3:16 PM To: Bobek, Leo Cc: Regan, Thomas

Subject:

RE: RE: RE: General Atomics NMP-1000 manual submission Attachments: NMP UMass mod.zip LeoandTom, JusttoclarifytheNMPconfiguration,theunitGAshippedtoUMassisidenticaltothemanualsandtheINLunit(except perhapsmaximumcompensatingvoltage,cantrememberwhichvariantyouhave).However,becauseUMasshas naturalandforcedcirculationmodes,weworkedwithTomtodevelopandtestonepossiblesolutiontoenablechanging thetripsetpoints,perattacheddocssent2/3/2014.ThisworkwasnotdoneatGAsoIamnotsureofthestatus,and thisworkisnotdocumentedinourmanualsatallandisuniquetoUMass. Jerry

From:Bobek,Leo[5] Sent:Monday,June19,20179:57AM To:Gormley,Jerome<Jerome.Gormley@ga.com> Cc:Regan,Thomas<Thomas_Regan@uml.edu>

Subject:

EXTRE:RE:RE:GeneralAtomicsNMP1000manualsubmission

Jerome,

Relatedtosame,Iunofficially(usingDropbox)providedNRCsDuaneHardestywiththeGA/INLdocumentsrelatedto theNMPandNLWinstallationatINL(seerelatedmessage10/18/16below).Duanehasfoundthisinformationtobe veryusefulforthepreliminaryreviews.

Thedocumentsinparticularinclude:

T9S900D980FMERevANMP1000FailureModesEffectsAnalysis NMP1000SRS NLX1000SRS T9S900D940SYR_RevANMP1000 T9S900D950SYR_RevANLX1000

Ialsoprovidedascannedcopyofthe1990sNMP1000manual(NMP1000LPCE1171017Rev1).

ToproceedwiththeNRCreviewoftheNMPandNLWthereareacoupleofactionitems.

(1) CouldyouletmeknowifGAwouldacceptUMassusingtheINLdocumentstoapplytoourlicensingapplication?

(2) CouldyoualsoindicatethatthesedocumentsareapplicabletoNMPandNLWunitsinpossessionbyUMass (i.e.,theunitsareidenticaltotheonesusedbyINL)?

IcanprovideyouaccesstotheDropboxsothatyoucanseeexactlywhichdocumentswereunofficiallyprovidedand couldbeusedintheformallicensingreview.

2 Mostofthedocumentsaremarkedproprietaryandareassumedtocontaintradesecretorconfidentialorprivileged commercialinformationthatshouldbewithheldfrompublicdisclosure.

(3) InorderforLowelltorequestaformalreviewandtohaveNRCwithholdthedocumentsunder10CFR2.390 wouldGAbewillingtodogenerateanaffidavitforwithholdingper10CFR2.390(oralternatelyaddthese documentstothecurrentaffidavit;GA/EMS4714,datedFebruary25,2016)?

IknowthismaytakesometimetogetthroughtheGAlegaldepartment.Obviously,thesoonerthebetter.Letmeknow ifmayprovideanythingthatcanassist.

Thankyou!

Leo

From: Bobek, Leo Sent: Monday, June 19, 2017 12:08 PM To: 'Gormley, Jerome'; Corey Hines (cchines@wsu.edu); Stephen Miller; Regan, Thomas; Yusuf, Siaka (SO)

Subject:

RE: RE: RE: General Atomics NMP-1000 manual submission

HellotoAll,

Ithasbeenawhilesincewelastcommunicatedonthis.Somebadnews,andsomebetternews.

Firstthebad.TheNRChasnotdoneanythingonthephase0.Thereanumberofreasonsforthisthataretoolengthy foranemail.

ThebetternewsisLowellsubmittedadescriptionoftheNMPandNLWunitsinourrelicensingSARsubmittedtoNRCin October2015,anticipatingwewouldhavetheOKtousetheunitsbythetimerelicensingwascomplete.Wecontinue touseouroldNMPandNLIamplifiers.However,anNRCrelicensingsitevisittoLowelllastFebruarytriggeredtheneed toreviewthenewNMPandNLWaspartoftherelicensing.NRCrecentlyhashiredacontractorfromOakRidgetoassist withthereviews.DuaneHardestyhasputthisonhisfrontburner.

InadditiontomakingthereviewandapprovalforLowell,DuanesgoalistoupdatetheI&CInterimStaffGuidance,using theexperiencefromLowelltohelpstreamlinetheprocessforotherfacilities.Ihavecommittedtoassisthimwiththis, butunfortunatelywithmyotherrelicensingRAIs,summertimeoff,etc.itmaybeseveralmonthsbeforeanythingis completeontheGAinstrumentationreviews.

Iwillkeepyouposted.

Asalways,50.59isanoptionshouldyouchoosethatmethod.

BestRegards,

Leo

LeoBobek UniversityofMassachusettsLowell RadiationLaboratory 1UniversityAvenue LowellMA01854 9789343365

3

From: Gormley, Jerome [6] Sent: Wednesday, October 19, 2016 12:52 AM To: Bobek, Leo; Andrew T Smolinski; Corey Hines (cchines@wsu.edu); Stephen Miller; Regan, Thomas; Yusuf, Siaka (SO)

Subject:

Re: RE: RE: General Atomics NMP-1000 manual submission

Excellent,thanksforthesupportall.ObviouslyGAwillsupportaspossible/necessaryoncetheNRCquestions startflying. Jerry

From:Bobek,Leo<Leo_Bobek@uml.edu> Sent:Tuesday,October18,20166:20AM To:Gormley,Jerome;AndrewTSmolinski;CoreyHines(cchines@wsu.edu);StephenMiller;Regan,Thomas;Yusuf,Siaka (SO)

Subject:

EXTRE:RE:RE:GeneralAtomicsNMP1000manualsubmission

Toupdateyou,INLhaspassedalongalltheirQAdocumentation(about350MBand26files).AndyandthefolksatINL wereverythorough.IllneedtosiftthroughandfilterthematerialforNRC,otherwiseitmaketakethemyearsto reviewit.IllmakethesubmittalthroughtheUMassdocketandkeepyouposted.

Leo

From: Gormley, Jerome [7] Sent: Tuesday, September 27, 2016 1:33 PM To: Bobek, Leo; Andrew T Smolinski; Corey Hines (cchines@wsu.edu); Stephen Miller; Regan, Thomas; Yusuf, Siaka (SO)

Subject:

RE: RE: RE: General Atomics NMP-1000 manual submission

HedoesntexplicitlysuggestbuthementionsaPhase0below;Iwouldgoforthat.

From:Bobek,Leo[8] Sent:Tuesday,September27,201610:31AM To:Gormley,Jerome<Jerome.Gormley@ga.com>;AndrewTSmolinski<andrew.smolinski@inl.gov>;CoreyHines (cchines@wsu.edu)<cchines@wsu.edu>;StephenMiller<stephen.miller@usuhs.edu>;Regan,Thomas <Thomas_Regan@uml.edu>;Yusuf,Siaka(SO)<SOYusuf@dow.com>

Subject:

EXTRE:RE:RE:GeneralAtomicsNMP1000manualsubmission

Jerry,

DidNRCsuggestthatalicenseeshouldrequestaformallicenseamendment,orthatalicenseeshouldrequestan informalphase0?

Thanks.

Leo From: Gormley, Jerome [9] Sent: Tuesday, September 27, 2016 1:18 PM

4 To: Andrew T Smolinski; Corey Hines (cchines@wsu.edu); Bobek, Leo; Stephen Miller; Regan, Thomas; Yusuf, Siaka (SO)

Subject:

FW: RE: RE: General Atomics NMP-1000 manual submission

All,

Perthreadbelow,thebureaucraticmorasscontinuestheNMP1000manualSTILLisnotintherighthandsforNRC review.Apparentlyweneedoneofyoufolks(someonewhohasalicenseandadocket)tovolunteertobethefirst,then therestcanjustreferencethesubmission.

ItshouldnotbemuchworksinceIwillsendinfollowingemailsalltheattachmentsanddocuments.Thereareafew largerfilesthatwouldnotgothroughtheNRCfilterswhenIfirsttriedtosendelectronicallysoIwillsendyou5emails withoneattachmenteach.

Anyvolunteers?

Also,IknowNRCsaidatTRTRthattheywouldlookattheINL/DOEdeploymentofsaiddevice;IbelieveUMass requestedandreceivedapileofdocumentsfromINLrelatedtothat.Ifanyoneelsewantsit,IguessstartwithAndyat INLorTomatUMass.

Thanksall,wellslowlystumbleforward

Jerry

From:Hardesty,Duane[10] Sent:Friday,September23,20162:08PM To:Gormley,Jerome<Jerome.Gormley@ga.com>

Subject:

EXTRE:RE:RE:GeneralAtomicsNMP1000manualsubmission

Glad that helped. I should also point out that the facility that does submit should also cc: their facility PM, too. Lowell-Spyros Traiforos WSU - Xiaosong Yin AFRRI - Cindy Montgomery From:Gormley,Jerome[11] Sent:Friday,September23,20165:03PM To:Hardesty,Duane<Duane.Hardesty@nrc.gov> Cc:Adams,Alexander<Alexander.Adams@nrc.gov>

Subject:

[External_Sender]RE:RE:GeneralAtomicsNMP1000manualsubmission

OK,great,thanksDuane,thathelpsalotasImanewbieatthisaspectoftheprocess.

IwillhavetogothroughmylicensingfolksfirstbutIthinkitmakessensetohaveanother(probablyUMass)submit.

Illkeepyouupdated.

Bestregards, Jerry

5 From:Hardesty,Duane[12] Sent:Friday,September23,20161:44PM To:Gormley,Jerome<Jerome.Gormley@ga.com> Cc:Adams,Alexander<Alexander.Adams@nrc.gov>

Subject:

EXTRE:RE:GeneralAtomicsNMP1000manualsubmission

Jerome: I received the following via email: (1) Request by GA to withhold information under 10 CFR 2.390 [4714 Letter for GA EMS Affidavit_JG_1.pdf] (2) 4714 Enc 2_Clean. Pdf (Proprietary version) (3) 4714 Enc 3_Marked (proprietary version marked for redaction) (4) 4714 Enc 4_Redacted Redacted version of item (2), above Because you addressed your initial submission to whom it may concern at the Document Control Desk without any reference to a docket number or indication of who the receiving individual (indicated by cc:) should be, I suspect this went into the dead letter office? You are correct in that GA has to initiate the request and affidavit for withholdingas the owner of the information, however, by you (GA) submitting it directly, you are, in a sense, asking for a tropical report (or standarddesignapproval) review, for which I must bill you NRC fees. I am fairly certain that was not your intention. The other problem is, as submitted, it appears to be unsolicited information. If this is for WSU, Lowell, and AFRRI, one of them should submit it to their docket. Their cover letter should state that they are submitting information to NRC for consideration in connection with NRC licensing or regulatory activities; i.e., a Phase 0 review, an amendment, etc., whatever it is intended to support. Note: All three facilities do not have to submitonly one. Once one of them submits it, the other two can simply reference the ADAMS accession numbers assigned to these submitted documents, when needed. So, my suggestion is to send the information you sent me to one of the named facilities (i.e., AFRRI, WSU, or Lowell) and have them associate it with their docket with a cover letter and reason for submittal and they send it to Document Control Desk. {You dont have to otherwise modify anything you did or wrote, so long as they put the facility-specific cover letter on it first when submitting (with me as cc:).} I hope that helps. If you have any questions, please feel free to contact me (301-415-3724) or Al Adams (301-415-1127). Thank you, Duane DuaneA.Hardesty Sr.ProjectManagerResearch&TestReactors U.S.NuclearRegulatoryCommission MSO12D20 Washington,DC20555 Phone:(301)4153724 fax:(301)4151032 From:Gormley,Jerome[13] Sent:Friday,September23,20162:26PM

6 To:Hardesty,Duane<Duane.Hardesty@nrc.gov>

Subject:

[External_Sender]RE:GeneralAtomicsNMP1000manualsubmission

Duane,

Canyouorotherstaffconfirmthatyoureceivedthereferencedmanual?Wehave3currentand2pendingcustomers waitingforreview

Thanks, Jerry

From:Gormley,Jerome Sent:Wednesday,August24,20163:09PM To:DuaneA.Hardesty(Duane.Hardesty@nrc.gov)<Duane.Hardesty@nrc.gov>

Subject:

GeneralAtomicsNMP1000manualsubmission

Duane,

Iwasjustinformedsecondhandthatyouhadnotreceivedourmanualsubmissionyetmyapologies,itlookslikeour bureaucraciesgotthebestofus.Perattachedwesentit,anditwasreceivedbyNRC,on3/1/2016letmeknowifyou needmoreinfotofindthepackageorneeditresent.

Thanks, Jerry

JeromeE.Gormley,Ph.D. GeneralAtomics ElectromagneticSystemsGroup(GAEMS) 8589646957workphone 8585249608mobilephone 16530ViaEsprillo SanDiego,CA92127

CONFIDENTIALITYNOTICE:Thiscommunicationisintendedtobeconfidentialtotheperson(s)towhomitisaddressed.Ifyouarenottheintendedrecipientorthe agentoftheintendedrecipientorifyouareunabletodeliverthiscommunicationtotheintendedrecipient,youmustnotread,useordisseminatethisinformation.If youhavereceivedthiscommunicationinerror,pleaseadvisethesenderimmediatelybytelephoneanddeletethismessageandanyattachmentswithoutretaininga copy.

DETAILED SPECIFICATIONS FOR NUCLEAR INSTRUMENTATION 1.0 Introduction The University of Massachusetts seeks to purchase the following Nuclear Instrument channel:

1.

Wide Range Neutron Flux Monitoring System: - Unguarded Fission Chamber Detector Assembly - Cables - Signal Processor/Monitor The channel shall include everything required for operation including connectors, pre-amplifiers, power supplies and all signal processing electronics. Specific requirements are presented below. Section 2.0 presents generic requirements for the system while Section 3.0 provides detailed specifications for the detector and cable assemblies and Section 4.0 provides detailed specifications for the Monitor. 2.0 Generic Requirements These requirements pertain to the system:

1.

Each system shall be composed entirely of analog circuitry. No micro-processor based circuits are allowed. With the exception of LCD displays, no digital signal processing will be considered. The bid shall have a statement to this effect.

2.

All electronics, including power supplies and preamplifiers, for each channel shall be contained in a single 19 inch wide instrument drawer.

3.

Compatible cables and connectors shall be provided to connect between the Unguarded Fission Chamber Detector Assembly and the Signal Processing Drawer described herein. The cables must reach at least 110 feet and transmit the signals and high voltage in a clean, noise free fashion.

4.

Spare connectors for each drawer connection are to be provided.

5.

The purchaser intends to install this equipment under

10CFR50.59. The manufacturer shall provide an explanation of the ability to satisfy this requirement.

6.

All equipment shall be powered by standard 117 volt unregulated AC power.

7.

Complete manuals and documentation shall be provided for each piece of equipment. The manuals shall include a complete description of the equipment, installation procedures, theory of operation, drawings and schematic diagrams, routine testing and calibration procedures, regular maintenance procedures, and proper use and operation procedures. Errors found in the manuals are to be remedied by the vendor. The manuals are to be clearly written and understandable to the purchaser and shall be in the English language.

8.

The vendor shall commit to providing earnest support with regard to equipment-related questions that may arise during the review and approval process for installing the new equipment. 3.0 Detailed Requirements for the Detector and Cable Assemblies A single unguarded fission chamber shall be housed in a water-tight aluminum housing designed specifically for mounting within a pool-type research reactor with stainless steel flexible metal conduit covering a standard organic insulated coaxial cable assembly. The detector housing and aluminum standpipe configuration will house the detector and coaxial signal cable to the top of the reactor pool. The detector assembly will be electrically isolated from plant ground with insulators. The specifications of the detector and cable assembly are provided below. Type: Fission Chamber, Unguarded Active Length: 8.8 inches Sensitivity: 0.18 cps/nv Detector Housing: 1.5" O.D., 31" length, Aluminum Cable: (110 feet to control room) Coaxial cable, housed in rigid Schedule 40 Aluminum Pipe, 1/2" diameter, 6 foot lengths, with flexible stainless steel hose protecting the cable at the top of the pool. 4.0 Detailed Requirements for the Wide Range Signal Processor The Wide Range Logarithmic Monitor shall be compatible with the Unguarded Fission Chamber Detector Assembly and

interconnecting cables to be provided as specified above. The unit shall monitor reactor power from a cold shutdown to 200% full power (approximately 10 decades). The channel shall also monitor reactor period. 4.1 General The drawer shall:

1) be powered from standard 117 VAC unregulated power.

(all UMLRR Nuclear Instrumentation is powered by Smart UPS).

2) contain all electronics required for operation including the fission chamber high voltage power supply and pre-amplification stages.

3)

Range: 10 decades minimum. 4.2 Monitored Parameters The drawer shall monitor the following parameters:

1)

Source Range Level from 0.1 to 105 cps and Reactor Period from -30 to +3 seconds.

2)

Wide Range Level from 10-8 to 200 % and Reactor Period from -30 to +3 seconds.

3)

Power Range Level (Linear) from 0 to 125% full power. 4.3 Displays The following parameters shall be displayed on the front panel of the instrument drawer:

1)

Source Range Level and Reactor Period

2)

Wide Range Level and Reactor Period

3)

Power Range Level (linear)

4)

Trip Setpoints Each parameter shall be clearly displayed and easy to read. The local displays shall be segmented LCD dual bargraph displays for the monitored variables and the alarm setpoints, and numeric (digital) LCD displays shall be provided on top of the appropriate bargraphs for the monitored variables only. The left bargraph shall show the magnitude of the measured variable and the right bargraph shall show the bistable trip setpoint. Detailed display requirements are presented in the subsections below.

4.3.1 Source Range Level a) The Source Range Level shall be clearly labeled on a Logarithmic Display over a range of 6 decades to ensure readability. The display shall cover the range of 0.1 to 105 cps. b) The Source Range Level display shall have resolution sufficient to clearly identify an approximate doubling in count rate within any decade. 4.3.2 Wide Range Level a) The Wide Range Level shall be clearly labeled on a Logarithmic Display over a range of 10 decades to ensure readability. The display shall cover the range of 10-8 to 200 %. b) The Wide Range Level display shall have resolution sufficient to clearly identify an approximate doubling in count rate within any decade. 4.3.3 Reactor Period a) The Reactor Period shall be clearly labeled to ensure readability. The display shall cover the range of -30 to +3 seconds. b) There shall be two separate period indications; one to cover the Source Range Level and the other to cover the Wide Range Level. (During start-ups, reactor power may be below the Wide Range Level, and the only reliable Period signal is coming from the Source Range Level.) 4.3.4 Power Range Level a) The Power Range Level shall be displayed on a linear scale over a minimum range of 0 to 125% full power. b) The Power Range Level display shall be clearly labeled to ensure readability. 4.3.5 Trip Setpoints a) Trip point(s) shall be displayed adjacent to its respective parameter and shall be labeled identical to the parameter (as described in the sections above) by

using dual bargraph displays. b) If more than one trip point is associated with a particular parameter, each trip point may be displayed (one at a time) for that parameter by depressing a switch to select which parameter trip point is to be displayed. c) A display to indicate drawer operate mode versus test mode shall be provided. 4.4 Outputs The following outputs shall be provided on the rear panels of the signal processing drawers:

1)

A 0 to 10 volt 4-20 ma analog output signal to drive strip chart recorders. This signal shall be proportional to the monitored parameter (Source Range Level and Period, Wide Range Level and Period, and Power Range Level). This output signal shall cover the entire range of the monitored parameter and shall be buffered. The actual voltage output span may be different provided an additional circuit is provided to convert the voltage span to the required 0 to 10 V necessary to run the strip chart recorders.

2)

Buffered TTL level pulse output shall be provided. This output shall provide one pulse out for each fission chamber pulse received (used to drive a Timer/Scaler or Audilble Count Rate Drawer).

3)

Trip signals (see 4.5 below).

4)

Three separate isolated outputs, to be used for experimental student data collection and research, shall be provided. The unit will have the capability of housing up to six isolators. The isolated outputs shall provide a 0 to 10 V 4-20 ma output. 4.5 Trips

1)

The Wide Range Log Monitor shall have room for four bistable trip circuits, or a total of eight trips (specify how many are needed).

2)

Bistable trip circuits shall be provided to handle the trip set points described in Item 4) below. These

trip circuits shall be jumper selectable and adjustable over the entire range of monitoring.

3)

Trips must be Form C relay contacts. Each trip relay must actuate upon a trip signal or loss of power. Relays shall be capable of handling 1/2 amp loads at 117 VAC.

4)

Adjustable bistable trip signals for the following parameters shall be provided and preset by the vendor. a) Count rate less than 3 counts per second. b) Forced convection Linear Reactor Power greater than 110 %. c) Forced convection Linear Reactor Power greater than 115 %. d) Reactor Period less than 15 seconds. e) Reactor Period less than 7 seconds. f) Non-operate (test mode) trip. g) Malfunction trip (loss of drawer power, loss of fission chamber high voltage, loss of drawer power supply). h) Intermediated Natural convection Linear Reactor Power greater than 11 %. (UML provides 5 volt ttl signal, normally closed, to initiate this mode).

5)

Clear written procedures shall be provided for setting and verifying the trip setpoints.

6)

Trip set points shall be conveniently set and verified.

4.6 Self-Test Circuitry

1)

Self-test circuitry and internal test signals shall be provided such that each trip set point may be easily verified during the daily pre-start-up instrument check.

2)

Self-test circuitry and internal test signals shall be provided such that the operability of each measured parameter may be easily verified by the introduction of a test signal. 4.7 Accuracy and Linearity

1)

Source Range Level = +/- 2%

2)

Wide Range Level = +/- 1%

3)

Reactor Period = +/- 2%

4)

Power Range Level = +/- 1% (All accuracies are stated as equivalent linear full scale.) 4.8 Temperature Drift

1)

Source Range Level = 0.05%/°C

2)

Wide Range Level = 0.04%/°C

3)

Reactor Period = 0.05%/°C

4)

Power Range Level = 0.04%/°C 4.9 Response Times

1)

Source Range Level: 0.1 to 1.0 CPS 28.0 Sec 1.0 to 10.0 CPS 5.6 Sec 10 to 100 CPS 1.1 Sec 100 to 1000 CPS 147.0 mSec 103 to 104 CPS 16.3 mSec 104 to 105 CPS 6.5 mSec

2)

Wide Range Level: 10-8 to 10-7% 28.0 Sec 10-7 to 10-6% 5.6 Sec 10-6 to 10-5% 1.1 Sec 10-5 to 10-4% 147.0 mSec 10-4 to 10-3% 16.3 mSec 10-3 to 10-2% 6.5 mSec 10-2 to 10-1% 9.1 mSec 10-1 to 10-0% 8.5 mSec 10+0 to 10+1% 9.5 mSec 10+1 to 10+2% 9.2 mSec

3)

Reactor Period = 3.2 sec

4)

Power Range Level = 50.0 msec

5)

Bistable Trip = 5.0 msec 5.0 SPARE PARTS TO BE INCLUDED

1) one Preamplifier board

2) one Bistable Trip board

3) one Analog Output board

TRP-1029-23 DE-FOA-0000322 NMP-1000 MUL Tl-RANGE LINEAR POWER MONITOR PRICE PROPOSAL Prepared for University of Massachusetts - Lowell Radiation Laboratory Lowell, MA from General Atomics Electronics Systems, Inc. (GA-ESI) TAIGA Reactors 28 SEPTEMBER 2010 + G*N*RAL ATOWlleS

u<<:n10111c.,,.,.,.,.

+ t:*N*IUU ATOMICS Sur:nlOIIIC SJ!SrSMS TRP-1029-23 28 September 2010 Radiation Laboratory University of Massacbusett Lowell 1 University Avenue Lowell, MA 01854 Attention: Mr. Tom Regan

Subject:

MP-1000 Multi-Ranger Linear Channel

Reference:

DOE funding opportunity: DE-FOA-0000322

Dear Mr. Regan:

General Atomic Electronic System, lnc. (GA-ESJ) i plea ed to ubmit th.is proposal in re pon e to the referenced funding opportunity. GA-E I propo e to supply the NMP-1000 MuJti-Ranger Linear Channel over a 12-month period under a finn-fixed-price (FFP) contract. The price for the propo ed NMP-1000 Multi-Ranger Linear Channel i ***

0.

Plea e contact the under igned~ Program Manager, at (858) 522-8229 (voice) or roy.ray@ga-e i.com (e-mail). Please direct question on cost or contractual matters to Jeanette Porter, Senior Contract Administrator, at (858) 522-8405 (voice) or jeanette.porter@ga-esi.com (e-mail). Sincerely ~ ~<i_. (

1 Roy E. Ray TRIGA Reactor Program Manager 4949 GREENCRAIG LANE, SAN DIEGO. CA 92123 (858) 522-8300

NMP-1000 SPECIFICATIONS NMP-1000 I General Atomics The NMP-1000 is an analog, wide range, linear current mode module with range switching. Ranges may be selected either manually or automatically, locally or remotely. Full scale sensitivities from 1 x 10*11 to 1 x 10-3 A are provided with indication of percent power on a front panel meter. as well as a front panel LED indication of each decade range. For remote operation, a separate panel assembly can be provided with identical range indicating LEDs, display of current and voltage, as well as channel self test functions. Compensation voltage as well as adjustable high voltage power supplies are provided in the module to allow operation with most existing current mode detectors. NMP-1000 LOG WIDE-RANGE CHANNEL 10-11 to 1 o-4 A or 10*10 A to 1 o-3 A in seven one decade ranges INPUT RANGE Self-bailing illuminated pushbutton or automatic range switching (manual or auto operator selected). Provision for remote range switching LINEARITY (LOG CONFORMITY) + +/- 1.0% of full scale upper 5 ranges; +/-2.5% of full scale lower 2 ranges 1% OF THE LINEAR il"EMPERATURE COEFFICIENT I+/- 0.15% per *c maximum over 10° to 55°C CALIBRATION/TEST 2 fixed currents for calibration, 1 adjustable current for multi-range function test and trip testing. HV trip test, test modes selected sequentially by front panel control RESPONSE TIME CONSTANTS 1 msec 1 o-a to 1 o-3 A, 1 o msec 10*9 to 1 o-a A; 100 msec to 10* 11 to 10*9 Remote Meter: 0- 10 V full scale Recorder: 0- 1.0 V full scale Remote Meter: 0- 1 mA full scale OUTPUTS Optional: 4.0-20 mA full scale Recorder: 0-0.1 V full scale High Voltage: +300 to +800 voe @2.6W Compensation: O to-1 50VDC High voltage Adjustable with BISTABLE TRIPS High power level +5 V logic level Low power level and two form C Period contacts per trip POWER REQUIRED 117 VAC +/- 10% 50/60 Hz @ 1.0 A INSTRUMENTATION www,ga.cornlnmp-1000

+ liSNSRAJ. Arownes l&IICTROIIIC ~-- 25 January 2011 University of Massachusetts/Lowell Purchasing Department Dugan 200 883 Broadway Street Lowell, MA 01854-5105 Attention:

Subject:

Ms. Lynne Winnett, Procurement Purchase Order 0005232150 Acceptance

Reference:

GA-ESI Rough Order Magnitude (ROM) TRP-1029-23 dated 28 September 2010

Dear Ms. Winnett:

General Atomics Electronic Systems, Inc. (GA-ESI) has reviewed the subject Purchase Order for components to the University of Massachusetts/Lowell for the Multi range Linear Channel and accepts the Purchase Order with the following exception: University of Massachusetts/Lowell PO Terms and Conditions as revised and attached as an enclosure to this correspondence letter. We request that you review and accept these terms, in writing, prior to GA-ESI processing this order. If you have any technical questions, please contact Roy Ray at 858-522-8229. If you have any questions regarding this matter, please contact me 858-522-8211 or e-mail at Debra.Dawson@ga-esi.com. Sincerely, !()_~ 4JaMNM-- Debra Dawson Contracts Administrator

Enclosure:

As Noted cc: R. Ray GENERAL ATOMICS ELECTRONIC SYSTEMS, INC. 4949 GREENCRAIG LANE, SAN DIE GO, CA 92123 18581 522-8300 f AX; 18581 522*8301

TRP-1129-21 NLl-1000 INTERMEDIATE RANGE POWER MONITORING CHANNEL NMP-1000 MUL Tl RANGE LINEAR POWER MONITORING CHANNEL ROUGH ORDER OF MAGNITUDE Prepared for University of Massachusetts - Lowell Radiation Laboratory Lowell, MA from General Atomics Electronics Systems, Inc. (GA-ESI} TAIGA Reactors 23 SEPTEMBER 2011

+ t:ISNISIUU. ATOMICS ~-IC~5 TRP-1129-21 23 September 2011 Radiation Laboratory Univer ity of Mas achusett Lowell 1 University A venue Lowell MA O 1854 Attention: Mr. Tom Regan

Subject:

NLI-1000 Intermediate Range Power Channel & NMP-1000 Multi Range Linear Power Channel D ar Mr. Tries: General Atomic Electroni Sy L m, Inc. G - I) i pleased to provide thi rough order of magnitude (ROM). GA-ESl propo e to upply the LI-1000 Intermediate Range Pow r Channel and NMP-1000 Multi Range Lin ar Channel within a 6 month period. The price i e timated to be $ Contact the undersigned, Program Manager at (858) 522-8229 (voice) or roy.ray@ga-e i.com (e-mail). Plea e direct que tions on co tor contractual matter to Y ette Lewi, Contracts Admini trator at (858) 522-8337 (voice) or Yvette.le i @ga.com e-mail). Thi is not an offer to contract, term and conditions will be negotiated. Sincerely, Roy E. Ray TRIGA Reactor Program Manager 4949 GREENCRAIG LANE, SAN DIEGO, CA 92123 (858) 522-8300

Purchase Order UMau Lowell Wannal.ancit Business Center, Rm. 415 One Un~ttv Av.nue Lowel MA 016.54 Unit~ Statee Vendor: 0000090767 GENERAL ATOMICS ELECTRONIC SYSTEMS &ii GREEHCRAIG LH SAN DIEGO CA 92123 043117352 1, 1 IIDlll-1000 JIDLTl IUJfCD LIDAll CDJDrn. (UPI TllP*102t-23) 2-1 IILl-1000 lllT&D&Dll.ff RA..a POWD CDllDL -P'O...-. ~~ d_b9_......,............,._prto,loalll,-nl. SEE REVERSE SIDE OR FAX COVER SHEET FOR UNIVERSITY TERMS AND CONDrrlONS CHANGE ORDER

REPRINT Dis Purcha.H Ordar Data 0052 21 0 U

6 Payment Terms F1**lght Tem,1 1f t 30 ConlHt: Phont WDOIS'n' L11UIS t?I tl,-l1,, Sblp To: Attn; ReMarch Admlni.v.tlon UMa1 Lowell

Pln1n1kl Building One Unlvwtlty Avenue 205 RJv..-.lde StrNt L-'IMA01654 Sulldlng:

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From: Gormley, Jerome <Jerome.Gormley@ga.com> Sent: Friday, February 14, 2014 11:13 AM To: Regan, Thomas

Subject:

FW: UMASS LOWELL

Tom, Your NMPs are on their way per below. Of course, given t he weather, who knows when they'll show up!

I'll have an RMA for you on the NLW+PA+FC soon. Stay warm and safe ! Jerry From: Browning, Linda Sent: Friday, February 14, 2014 7:55 AM To: Gormley, Jerome

Subject:

UMASS LOWELL TRACKING# lZ 976 972 03 5211 9603 UPS GROUND SHIPPED 2/13/2014 Linda Browning General Atomics Electronic Systems, Inc. (858) 522-8423 H nda. brownlng@ga-esl.com

Bobek,Leo From: Sent: To: Hines, Corey <cchines@wsu.edu> Wednesday, November 4, 2015 4:44 PM Bobek, Leo Cc: Wall, Donald

Subject:

RE: GA NMP1000

Leo, We would be interesting in pursuing Phase O review with you all and the NRC for the new GA channels. The new NMP-1000 seems as good a place as any to start.

We just found out at TRTR that the NMP-1000 is "half digital," whatever that means. I was under the impression we were getting direct replacements for our analog NMP-1000, but turns out that is not the case. We might need to get some more documentation from GA, including their (almost assuredly) proprietary software later down the road for the NRC to sign off on. In short, yes we would like to help as well in order to get these reviewed. Let us know how we can help going forward.

Thanks, Corey C. Corey Hines Assistant Director, Reactor Operations Nuclear Radiation Center Washington State University Pullman, WA 99164-1300 (509) 335-8317 From: Wall, Donald Sent: Tuesday, October 27, 2015 6:46 AM To: Hines, Corey <cchines@wsu.edu>

Subject:

FW: GA NMPl000 This could be useful for all of us. D. From: Bobek, Leo Bobek@uml.edu Sent: Tuesday, October 27, 2015 5:17 AM To: Wall, Donald; Miller, Stephen Cc: Regan, Thomas

Subject:

GA NMP1000 Don, Steve: 1

Are either of you interested in collectively approaching NRC for a "Phase 0" discussion to start the approval process for using the new GA NMP 1000 module? We have included the NMP 1000 in the updated SAR for our re-licensing application submitted to NRC last week. If history is a predictor, the re-licensing will take a year or two, or longer. I would like to have NRC look at the NMPs separately and perhaps issue an OK sooner in case we need to use them. Might be helpful and quicker if NRC knows there are multiple facilities trying to incorporate the new modules. Let me know your thoughts. Thanks. Leo Leo Bobek University of Massachusetts Lowell Radiation Laboratory 1 University Avenue Lowell MA 01854 978-934-3365 2

Bobek, Leo From: Sent: To: Cc:

Subject:

Hello Duane, Bobek, Leo Monday, November 9, 2015 8:48 AM 'Hardesty, Duane' Traiforos, Spyros RE: [TRTR-list] NRC Instrumentation and Control Kiosk at 2015 annual TRTR Meeting A few licensees (AFRRI, WSU, UMass) would like to update our General Atomics power monitors. {UMass is not a TRIGA, but we have used GA power monitors since the mid-1990's). The new version of the GA NMPlO00 Multi-Range Linear channel uses a microprocessor for automatic range switching. Both UM ass and WSU have received delivery of the new units; however, neither of us plan to install them until we have a "Phase-0" discussion. AFRRI has a meeting with GA this week and UMass Is looking to have a conference call with them. My question is what information do you need for a Phase-0 discussion/ meeting? Also scheduling? Thanks. Leo Leo Bobek University of Massachusetts Lowell Radiation Laboratory 1 University Avenue Lowell MA 01854 978-934-3365 From: trtr-list [14] On Behalf Of Hardesty, Duane Sent: Monday, September 28, 2015 5:23 PM To: trtr-list@ecn.purdue.edu

Subject:

[TRTR-list] NRC Instrumentation and Control Kiosk at 2015 annual TRTR Meeting For those attending the TRTR conference, Norbert Carte, Sr. Technical Reviewer in Division of Engineering, Instrumentation and Control Branch, will be sitting at a table in the exhibit area to answer questions on instrumentation and control updates, upgrades, modifications, etc. on Monday, Tuesday*, and Wednesday* during the TRTR conference. Please stop by and discuss the Interim Staff Guidance on instrumentation and control, pre-application (phase O) meetings, and other items of interest in the areas of instrumentation and control for your facility. Your questions will be useful to inform the larger audience on topics of interest and concern in l&C that we can discuss during the panel session on Tuesday. 1

The hour-long panel on Tuesday will be held during NRC-day for you to ask questions of Norbert, Duane, Al, John, and Patrick. Norbert and Duane have been the POCs for the ISG and Phase O reviews, Al will add the supervisory and historical perspective, Patrick will add his perspective as a PM currently managing an l&C upgrade, and John will provide the inspector perspective.

Except during NRC day presentations and public meeting Duane A. Hardesty Sr. Project Manager - Research & Test Reactors U.S. Nuclear Regulatory Commission 2}}

v t e Letter Sequence Request
EPID:L-2015-RNW-0001, Technical Specifications for the University of Massachusetts Lowell Research Reactor (Approved, Closed)
Initiation Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request, Request Acceptance... Supplement, Supplement Administration Withholding Request Acceptance Questions 7 November 2017 19 July 2019 5 November 2018 30 October 2019 13 January 2020 Answers Results Approval, Approval Other: ML18032A243, ML20021A315, ML20036E501, ML20114E059, ML20274A249, ML20303A305, ML21005A237, ML21007A172, ML21030A005, ML21042B857, ML21133A168, ML21168A053, ML21229A081, ML21302A055
MONTHYEAR2020-12-03 [Table View]

ML20274A255

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