Opto 22

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800-321-OPTO (6786)

SNAP-PAC-S1

SNAP PAC S-series Programmable Automation Controller for Ethernet Networks

$1,195.00 USD

Price in USA and Canada Only

Availability: In Stock

DescriptionSpecificationsDocumentsDownloadsAccessories

**Compatible with new groov--the easy way to build effective operator interfaces and view them on any device, any size, any manufacturer, using just a web browser.**

The SNAP-PAC-S1 programmable automation controller provides powerful, real-time control and communications to meet your industrial control, monitoring, and data acquisition needs.

One of the four components of the SNAP PAC System, the SNAP-PAC-S1 is fully integrated with PAC Project software, SNAP PAC brains, and SNAP I/O modules to form a complete control system. The SNAP PAC System includes digital and analog control, serial string handling, PID loops, and enterprise connectivity.

Programming
The SNAP-PAC-S2-W is programmed using the included PAC Control software. PAC Control is a flowchart-based tool for developing control applications, or strategies. You create and debug the strategy on your computer and then download it to the PAC, where it runs independently.

You can build full-featured operator interfaces (HMIs) using the included PAC Display software, which taps the same tagname database you've already developed in PAC Control. OR take advantage of Opto 22's new groov to quickly build and view HMIs you can use on virtually any computer, tablet, or smartphone—any screen size, from any manufacturer—using just a modern web browser (like Firefox or Chrome). Learn more at groov.com.

Networking
The controller is compact and industrially hardened. It includes two independent Ethernet network interfaces with separate IP addresses, which can be used to segment the control network from the company network or for redundant Ethernet links. You can also set up a system with redundant controllers using two identical S-series controllers, the SNAP PAC Redundancy Option Kit, and PAC Project Professional 9.0.

The SNAP-PAC-S1 also has three serial ports: an RS-232 port with full hardware handshaking, ideal for PPP communication using a modem; another RS-232 port for connecting directly to serial devices; and an RS-485 port for connecting to SNAP PAC Serial brains or to legacy mistic I/O units. (Note: If you are using the S1 with misticI/O units, use the legacy versions of the PAC Control, PAC Display, and PAC Manager guides.)

If you need Factory Mutual approval, see the SNAP-PAC-S1-FM.

If you need a similar PAC that also communicates wirelessly, see the SNAP-PAC-S1-W.

For more details, see the Specifications tab and the data sheet under the Docs & Downloads tab. To compare controller features, see the SNAP PAC Controller and Brain Comparison Chart.

Processor	266 MHz 32-bit ColdFire^® 5475 with integrated floating-point unit (FPU)
Memory Total RAM Battery-backed RAM Flash	Wired+Wireless: 128 MB; other models 32 MB. (16 MB for PAC Control strategy) 8 MB 16 MB (7.5 MB available for PAC Control strategy; 4 MB available for file storage)
Removable storage	(Models manufactured November 2008 and later; requires firmware R8.4 or higher) MicroSD card slot: supports MicroSD card up to 2 GB maximum
Backup battery	SNAP-PAC-S1s with serial number 625654 or higher and all SNAP-PAC-S2s: Rechargeable (recharges whenever the brain has power), 1-year power-off data retention SNAP-PAC-S1s with serial number 625653 or lower: User-replaceable 3.6-volt TL 5242 /W lithium, 10-year minimum power-off data retention (replacement part number: G4BATT32)
Ethernet Communication (wired) to host and I/O	Two independent 10/100 Mbps Ethernet network interfaces (RJ-45 connectors). Each interface has a separate IP address (separate subnet).
Ethernet Communication (wireless)* Topologies Security Frequency 802.11a Frequency 802.11b/g Transmit Power Antenna Connector Roaming	Wireless LAN interface with separate IP address. Infrastructure, Ad-Hoc 802.11i: AES - Compatible with WPA2 Personal, TKIP - Compatible with WPA Personal, WEP. Note: TKIP/AES security is not supported in Ad-Hoc mode. 5.180–5.240 GHz, 5.745–5.825 GHz 2.412–2.472 GHz, 2.484 GHz 15 dBm maximum Reverse polarity SMA (RP-SMA or RSMA) Supported within an SSID (Service Set Identifier) only
Serial Communication
SNAP-PAC-S1 RS-232 serial RS-485 serial	Two RS-232 serial ports (one DB-9 and one pluggable connector); one port has full handshaking. PPP is supported only on port 0. Buffer size: 512 bytes each for RX and TX. One RS-485 serial port (pluggable connector); two-wire RS-485; optional mistic signal interrupts. Range (serial multidrop): 32 stations maximum on a segment (including PC, controller, and I/O units); up to 3000 ft (914 m) on a segment. Buffer size: 512 bytes each for RX and TX.
SNAP-PAC-S2	Four serial ports that can be used as general purpose ports or for serial I/O units; each port is software configurable as either RS-232 (Tx, Rx, COM, DTR, DCD, RTS, CTS) or as RS-485 (2-wire, 4-wire, optional termination, optional biasing); optional mistic signal interrupts. Buffer size: 512 bytes each for RX and TX.
I/O unit compatibility Ethernet-based I/O units Serial-based I/O units	Opto 22 SNAP PAC R-series, SNAP PAC EB-series, SNAP SIO, SNAP EIO, and SNAP UIO brains SNAP PAC SB-series, Serial B3000, SNAP-BRS, B100/B200, mistic remote bricks (G4D16R, G4D32RS, G4A8R)
Power requirements	8–32 VDC ±0.5, 11.3 VA maximum (SNAP-PAC-S1 controllers with serial numbers below 500,000 use 8–24 VDC)
Operating temperature Storage temperature Humidity	0 °C to 60 °C -40 °C to 85 °C 0% to 95% relative humidity, non-condensing
Software PAC Project Basic PAC Project Professional	Includes programming, HMI software, and configuration software; included with purchase of controller. PAC Project Basic plus OPC 2.0-compliant OPC server, OptoControl strategy and OptoDisplay project importing, support for serial mistic I/O units, and Ethernet link redundancy support.
Number of charts that can run simultaneously	32
Other features	Multiple protocol support including TCP/IP, FTP, SNMP v2.0c (with firmware 8.2a), Modbus/TCP, EtherNet/IP™, and OptoMMP™. Real-time clock FTP server/client with file system (in RAM and in removable storage) Ethernet link redundancy or network segmenting
Agency certifications	(-W models only) U.S., FCC Part 15 Subpart C; Canada, IC RSS-210 (-FM models only) Factory Mutual approved All models: CE, RoHS, DFARS
Warranty	30 months from date of manufacture
* Requires a Wired+Wireless model (SNAP-PAC-S1-W or SNAP-PAC-S2-W)

1584	SNAP PAC S-Series Controllers Data Sheet Details This data sheet describes Opto 22's SNAP PAC S-series programmable automation controllers. SNAP PAC S-series controllers are standalone industrial controllers that are used as part of an Opto 22 SNAP PAC System.
1592	SNAP PAC S-Series Controllers User's Guide Details This user's guide shows you how to install and use Opto 22's SNAP PAC S-series programmable automation controllers. SNAP PAC S-series controllers are one of four components of the SNAP PAC System. These controllers work with PAC Project software, SNAP PAC brains, and SNAP I/O modules to form an easy-to-use system for remote monitoring, industrial control, and data acquisition. SNAP PAC controllers are programmed with PAC Control Basic or PAC Control Professional, Opto 22's flowchart-based development software, which is part of the PAC Project software suite.
1909	IO4AB User's Guide Details This guide provides instructions on how to set up EtherNet/IP messaging between an Allen-Bradley® Logix™ controller and Opto 22’s SNAP PAC I/O using Opto 22’s EtherNet/IP Configurator as well as Allen-Bradley’s RSLogix™ 5000 software.
2037	SNAP PAC Controller Comparison Chart Details This chart compares details for all SNAP PAC programmable automation controllers: SoftPAC software controller, SNAP PAC S-series standalone controllers, and SNAP PAC R-series rack-mounted controllers.
1704	PAC Manager User's Guide Details This guide shows you how to use PAC Manager, part of the PAC Project Software Suite, to assign IP addresses, configure I/O, and inspect and maintain Opto 22 SNAP PAC hardware.
1677	SNAP PAC Controller and Brain Comparison Chart Details This document compares features of SNAP PAC hardware controllers (SNAP PAC S-series and R-series) and SNAP PAC brains, all part of the SNAP PAC System.
1569	SNAP PAC System Product Guide Details This document lists and describes all Opto 22 SNAP PAC System part numbers, including PAC Project software, SNAP PAC controllers, SNAP PAC brains, and SNAP I/O modules of all kinds. SNAP PAC mounting racks and SNAP power supplies are also listed.
1696	SNAP PAC System Specification Guide Details This guide is a comprehensive introduction to the SNAP PAC System. The guide describes the system's four components (software, controllers, brains, and I/O); shows how to build a basic system and how to expand it; and includes installation instructions, wiring diagrams, dimensional drawings, and specifications for parts.
RM_PAC_PROJ	PAC Project Readme Notes Details Latest Readme for PAC Project Basic and Professional. Includes information on new features, enhancements, and bug fixes for each PAC Project application: PAC Control, PAC Display, OptoOPCServer, PAC Manager, and Tools. Also see form 2039, the PAC Project 9.3 Release Notes, which include important information on installation and use.
RM_SNAP_PAC_FW	SNAP PAC Controllers and Brains Firmware README Details This README file lists revision changes made to the firmware used in the SNAP PAC S-series and R-series controllers, and SNAP PAC EB-series brains.
1724	6 Reasons to Consider the SNAP PAC System for Your Next Project Details This short document suggests six reasons why you should consider the SNAP PAC System for your next automation project.
1736	Software for Programmable Automation Controllers Details This white paper explores some important features of programming software for a programmable automation controller (PAC). For additional white papers on PACs, see the Guide to PACs.
1733	Considerations for Choosing a Programmable Automation Controller (PAC) Details This white paper compares programmable automation controllers (PACs) with other automation technologies and suggests several considerations to keep in mind when choosing PACs for your industrial control or monitoring application. For additional white papers on PACs, see the Guide to PACs.
1634	Understanding Programmable Automation Controllers (PACs) in Industrial Automation Details This white paper describes the advent of the programmable automation controller (PAC) and its use in modern industrial applications. For additional white papers on PACs, see the Guide to PACs.
1736C	Software for Programmable Automation Controllers (Chinese) Details This document is written in Chinese. This white paper explores some important features of programming software for a programmable automation controller (PAC). For additional white papers on PACs, see the Guide to PACs.
1634C	Understanding Programmable Automation Controllers (PACs) in Industrial Automation (Chinese) Details This document is written in Chinese. This white paper describes the advent of the programmable automation controller (PAC) and its use in modern industrial applications. For additional white papers on PACs, see the Guide to PACs.
1793	Case Study: Hong Kong Power Plant Details The Lamma Power Station in Hong Kong is using Opto 22 SNAP PAC standalone controllers to control heat, pressurization and other critical processes. The Opto 22 PACs connect to weigh scales, conveyors, pressure transducers, and thermocouples to ensure that the coal burning operations taking place at Lamma are executed safely and optimally. For example, analog I/O modules wired to scales measure the weight of the coal prior to its delivery to the furnaces and sends these figures to the controller. Based on these readings—and whether they're low or high—the controller then instructs the conveyors delivering the coal to the furnaces to speed up or slow down appropriately, so the furnaces generate the proper amount of heat needed to spin turbines that produce the power. At the same time, integrated circuit temperature derivative probes (ICTDs) connected to thermocouple analog input modules monitor the actual furnace temperatures, which are then used in PID calculations to regulate the temperature via analog output modules.
1729	Case Study: Ballarat Health Services Details Ballarat Health Services in Victoria, Australia is a major health care organization comprising two hospitals, convalescent homes, psychiatric services, six nursing home hostels, and rehabilitation centers. Ballarat uses Opto 22 SNAP PAC Systems (generations 2 and 3) for equipment automation and building management. This encompasses an incredibly broad set of applications including remote monitoring, alarming, process and discrete control, and data acquisition for performance optimization, energy management, and regulatory compliance reporting.
1671	Caso: Henkel Capital México (Spanish) Details Caso sobre la automización de una empresa de adhesivos en la ciudad de Salamanca, Guanajuato, México. (Case study of how an adhesives manufacturer in Salamanca, Guanajuato, México, was automated.)
1793C	Case Study: Hong Kong Power Plant (Chinese) Details This document is written in Chinese. The Lamma Power Station in Hong Kong is using Opto 22 SNAP PAC standalone controllers to control heat, pressurization and other critical processes. The Opto 22 PACs connect to weigh scales, conveyors, pressure transducers, and thermocouples to ensure that the coal burning operations taking place at Lamma are executed safely and optimally. For example, analog I/O modules wired to scales measure the weight of the coal prior to its delivery to the furnaces and sends these figures to the controller. Based on these readings—and whether they're low or high—the controller then instructs the conveyors delivering the coal to the furnaces to speed up or slow down appropriately, so the furnaces generate the proper amount of heat needed to spin turbines that produce the power. At the same time, integrated circuit temperature derivative probes (ICTDs) connected to thermocouple analog input modules monitor the actual furnace temperatures, which are then used in PID calculations to regulate the temperature via analog output modules.
1724S	6 Razones Para Considerar el Sistema SNAP PAC Details Este documento corto sugiere seis razones porqué debe de considerar el Sistema SNAP PAC para su siguiente proyecto de automatización.
1747	EtherNet/IP Implementation in SNAP PAC Products Details This technical note summarizes EtherNet/IP technology and how SNAP PAC devices can be integrated into an EtherNet/IP environment to send data to EtherNet/IP enabled devices such as Allen-Bradley PLCs.
1770	EtherNet/IP for SNAP PAC Protocol Guide Details This guide provides detailed descriptions of the EtherNet/IP commands that can be accessed when using remote Opto 22 I/O with an Allen-Bradley controller.
1678	Modbus/TCP Protocol Guide Details This document shows you how to set up communication between Ethernet-based Modbus systems (using Modbus/TCP) and the SNAP PAC System. In addition to the SNAP PAC System (SNAP PAC S-series and R-series controllers and SNAP PAC brains), the guide also covers Modbus/TCP communication with older Opto 22 Ethernet-based devices, including SNAP Ethernet, SNAP Simple, and SNAP Ultimate I/O; and E1 and E2 brain boards.
1465	OptoMMP Protocol Guide Details This guide is for programmers who are writing custom applications to communicate with Opto 22 memory-mapped devices. These devices include SNAP PAC controllers and SNAP PAC EB and SB brains; SNAP Ultimate, SNAP Ethernet, and SNAP Simple I/O; E1 and E2 brain boards, and SNAP-LCE controllers. The guide describes how to use the OptoMMP Communication Toolkit or the IEEE 1394-based OptoMMP memory-mapped protocol for programming. The guide also contains the complete memory map for all Opto 22 memory-mapped devices. NOTE: This guide replaced previous individual programming guides for SNAP Ultimate I/O (form #1312) and SNAP Ethernet I/O (form #1227). This document was formerly called the "SNAP Ethernet-Based I/O Units Protocols and Programming Guide."
0959	SNAP-PSDIN Installation Note Details This document describes how to install a SNAP DIN-RAIL mounting assembly.
1789	Updating the Loader on a SNAP Device Details It is rarely necessary to update the loader in a SNAP PAC controller or brain, but if you need to, this document shows you how. Always contact Opto 22 Product Support before beginning.
1646	SNAP PAC Memory Usage Technical Note Details This technical note shows how SNAP PAC memory, both volatile and non-volatile, is used. It compares memory available in the standalone SNAP PAC S-series and on-the-rack SNAP PAC R-series controllers, and it also shows differences between wired Ethernet PACs and Wired+Wireless™ PACs.
2018	Using microSD with Older Controller Firmware Technical Note Details SNAP PAC controllers manufactured in November 2008 and later have a microSD card slot in the top of the controller’s case. Behavior for the microSD card has changed since the first release. This technical note describes behavior with controller firmware versions older than 9.0. If you are running controller firmware 9.0 or newer, use instructions in the controller user’s guide; do not use this technical note.
2011	Using Modbus Devices with Opto 22 Products Technical Note Details This technical note introduces the Modbus protocol and gives you basic information for using it to communicate between Opto 22 products and other devices. Because Modbus and Modbus/TCP are handled differently by various manufacturers, the tech note describes specific areas that may be a concern and includes troubleshooting suggestions.
1679	SNAP-PAC-S1 Voltage Notice Details
2062	Building a groov HMI for Allen-Bradley Logix Systems Details Opto 22’s browser-based groov makes it simple to build and deploy effective operator interfaces for your system. These interfaces can then be viewed and used on any modern browser-enabled device—computers, tablets, smartphones, even HDTVs—regardless of screen size or manufacturer. Although the first release of groov is designed to work intuitively with Opto 22 SNAP PAC Systems and OptoEMU Sensor energy monitoring units, you can also build groov HMIs to Allen-Bradley Logix systems by adding a SNAP PAC controller as an intermediary. This technical note introduces groov and walks you through a step-by-step example for building a simple HMI to your A-B system. NOTE: To save steps, use the EtherNet/IP Gateway Strategy for groov, which provides a pre-built PAC Control strategy with a tag database correlated to RSLogix data.
2076	EtherNet/IP Gateway Strategy for groov Technical Note Details The EtherNet/IP Gateway Strategy for groov makes it easier to build operator interfaces for Rockwell/Allen-Bradley PLC systems using groov. Opto 22’s groov simplifies the building of HMIs, and the HMIs you build with groov can be viewed on any device with a modern web browser, no matter its screen size or manufacturer. This technical note shows you how to use groov with A-B PLC systems by employing an Opto 22 SNAP PAC controller as an intermediary gateway and linking tags in the controller to tags in RSLogix5000.
1693	Legacy and Current Product Comparison and Compatibility Charts Details This document compares SNAP PAC System hardware and software with legacy Opto 22 systems and provides compatibility information in a series of detailed charts. Customers combining SNAP PAC System components with older hardware and software should also consult form #1688, the SNAP PAC System Migration Technical Note.
RM_ALL_ENET_FW	SNAP Legacy Firmware README Details This README file lists revision changes made to the firmware used in SNAP PAC family controllers before Version 8.0a, the SNAP-LCE controller, and SNAP Ultimate, Ethernet, and Simple brains.
1714	Legacy Edition, PAC Manager User's Guide Details This document is the Legacy Edition of the PAC Manager User's Guide. It includes information about both SNAP PAC hardware and older hardware. Use this guide if you are using any legacy hardware (SNAP Ultimate, SNAP Ethernet, and SNAP Simple I/O, E1 and E2 brain boards) with PAC Manager. If you are using SNAP PAC controllers and SNAP PAC brains only, use form #1704 instead of this guide.
1811	Gathering SNAP PAC System Troubleshooting Information Details This document provides step-by-step instructions for creating important diagnostic files for troubleshooting a SNAP PAC System, as well as instructions for sending the files to Opto 22 Product Support.

Firmware for all SNAP PAC products

Details

Firmware for all SNAP PAC products (single download)

SNAP-PAC-S1 Bootloader Upgrade Firmware

Details

This download contains special firmware for the SNAP-PAC-S1 controller that upgrades the controller's bootloader.

SNAP-PAC-S1 Controller Firmware

Details

This download contains current firmware for the SNAP-PAC-S1 controller. Current firmware for all SNAP PAC brains and controllers is available in a single download here.

CAD Drawing: SNAP-PAC-S1 and SNAP-PAC-S1-FM Standalone Industrial Controller

Details

This CAD file includes drawings of the SNAP-PAC-S1 programmable automation controller, a standalone industrial controller.

The drawing also applies to the SNAP-PAC-S1-FM, which is Factory Mutual approved.

Allen-Bradley DF1 Integration Kit for ioControl

Details

The Allen-Bradley DF1 Integration Kit (Part # OPTOINTAB-IOC) provides users of Opto 22’s ioControl software (version 6.0 and above) an easy method of communicating with Allen-Bradley drivers or PLCs using the DF1 protocol. Opto 22 controllers can act as either a “master” or a “slave” device. They can be connected directly to the serial port on an Allen-Bradley PLC or to Data Highway networks using standard Data Highway interface devices.

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