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05 Short-Term Confidential User Manual 1 | Users Manual | 131.74 KiB | February 09 2023 / August 09 2023 | delayed release | ||
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05 Short-Term Confidential User Manual 2 | Users Manual | 3.85 MiB | February 09 2023 / August 09 2023 | delayed release | ||
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1 | 07 Confidential Block Diagram | Block Diagram | February 09 2023 | confidential | ||||
1 | 07 Confidential Block Diagram-RF | Block Diagram | February 09 2023 | confidential | ||||
1 | 08 Confidential Theory of Operation | Operational Description | February 09 2023 | confidential | ||||
1 | 08 Confidential Theory of Operation-Hopping | Operational Description | February 09 2023 | confidential | ||||
1 | 09 Confidential Schematics | Schematics | February 09 2023 | confidential | ||||
1 | 10 Confidential Parts List | Parts List/Tune Up Info | February 09 2023 | confidential |
1 | 05 Short-Term Confidential User Manual 1 | Users Manual | 131.74 KiB | February 09 2023 / August 09 2023 | delayed release |
Installation Instructions Original Instructions 58UHF RFID Long-range Transceiver Catalog Numbers 58UHF-TR-200-LR50US, 58UHF-TR-200-LR50EU WARNING: Never disassemble or modify the scanner. Doing so could result in an accident such as fire or electric shock. Features 865...868 MHz EU and UK model (CE) 902...928 MHz US and North America model (FCC) Global Ultra-High Frequency (UHF) RFID solution
Tag compatibility: ISO 18000-63 (EPC global Gen2) compliant Inventory speed up to 500 tags/sec (FCC) Sensing range up to 5 m (16.4 ft) Built-in status indicators for diagnostics All-in-one linear and circular antennas Excellent reliability in harsh environments EtherNet/IP and DLR support Typical Applications Asset tracking Data acquisition Product handling Automotive Food and pharmaceutical As part of track and trace solution Traceability control Gate control Location control (warehouse) Pallet and returnable package management (for sustainability) Specifications Attribute General Enclosure rating Value IP66/67 Operating temperature [C (F)]
-20+55 (-4+131) Storage temperature [C (F)]
-40+85 (-40+185) Relative humidity Vibration Shock resistance [g]
Tag compatibility Sensing distance, max (1) [m (ft.) Compliance Electrical Connector Operating: 35...95%
Storage: 25...85%
10 g at 10...500 Hz 50 ISO 18000-63 5 (16.4) FCC, UL, CE, UKCA, and IC EtherNet/IP: M12 4-pin plug DC micro Power and I/O: M12 4-pin socket DC micro Communication systems Supply voltage EtherNet/IP 19.226.4V DC Current consumption at 24V DC, max Supply: 1 A CLASS2/SELVS Input: 15 mA Output: 0.5 A Communication rate (host) [kbyte/sec]
0.125 Frequency 865.7867.5 MHz EU and UK model 902.75927.25 MHz US and North America model
(1) The setting limits depend on the country or the function. This reference value can vary depending on the operating environment. Status Indicator Functionality Name Description MOD Indicates status of the transceivers State Off Steady green Flashing green Flashing red Steady red Indicates No power Device operational Standby Major recoverable fault Major nonrecoverable fault Flashing green/red Self-test Link1/2 Indicates status of Ethernet (E1/E2) port NET Indicates status of the connections Off Steady green Steady yellow Flashing green Flashing yellow Steady red Off No link Link Port disabled Port activity Collision Major NIC fault No power Flashing green No connections Steady green Flashing red Steady red Connected Connection timeout Duplicate IP Flashing green/red Self-test Off No power Steady green Powered but idle R/W Indicates status of the read/write commands Flashing green Steady yellow Flashing yellow Transmitting RF carrier wave -
no tags detected Succeeded at tag operation -
tag read/write complete Failed at tag operation - tag read/write incomplete Flashing red RF transmit failure IMPORTANT Installation must be in accordance with local and/or national codes. Servicing energized industrial control equipment can be hazardous if not in accordance to recommended safety procedures. IMPORTANT This equipment complies with FCC radiation exposure limits for an uncontrolled environment and meets the FCC radio frequency (RF) Exposure Guidelines. When you install and operate this equipment, keep a minimum of 90 cm
(35.4 in.) between the radiator and a persons body. ISED Information This device complies with Innovation, Science and Economic Development Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference; and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. IMPORTANT This equipment complies with ISED radiation exposure limits for an uncontrolled environment and meets RSS-102 of the ISED radio frequency (RF) Exposure rules. Install and operate this equipment keeping a minimum of 90 cm
(35.4 in.) between the radiator and a persons body. Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non-contrl et respecte les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 90 cm (35.4 in.) ou plus entre le radiateur et le corps humain. Connector Pinouts Table 1 - EtherNet/IP (1) DC M12, D-coded, 4-pin Plug 4 1 3 2 Pin 1 Signal TxData +
2 3 4 Recv Data +
TxData -
Recv Data -
Color White/orange White/green Orange Green
(1) E1 - Standard right-angle Ethernet cables point left. E2 - Standard right-angle Ethernet cables point right. Table 2 - Power I/O DC M12, D-coded, 4-pin Socket 2 1 3 4 Pin 1 Signal
+24V DC 2 3 4 Input 0V DC Output Color Brown White Blue Black FCC Notice (For U.S. Customers) This transmitter must not be co-located or operated in conjunction with any other antenna or transmitter. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions: (1) This device will not cause harmful interference; and (2) this device must accept any interference received, including interference that may cause undesired operation of the device. Changes and modifications not expressly approved by Rockwell Automation can void your authority to operate this equipment under Federal Communications Commissions rules. This equipment is tested and found to comply with the limits for a Class A digital device, according to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. ATTENTION: This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, can cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case you must correct the interference at your own expense. Waste Electrical and Electronic Equipment (WEEE) At the end of life, this equipment should be collected separately from any unsorted municipal waste. Rockwell Automation maintains current product environmental compliance information on its website at rok.auto/pec. Your comments help us serve your documentation needs better. If you have any suggestions on how to improve our content, complete the form at rok.auto/docfeedback. For technical support, visit rok.auto/support. Rockwell Automation maintains current product environmental compliance information on its website at rok.auto/pec. Rockwell Otomasyon Ticaret A.. Kar Plaza Merkezi E Blok Kat:6 34752, erenky, stanbul, Tel: +90 (216) 5698400 EEE Ynetmeliine Uygundur Allen-Bradley, expanding human possibility, and Rockwell Automation are trademarks of Rockwell Automation, Inc. EtherNet/IP is a trademark of ODVA, Inc. Trademarks not belonging to Rockwell Automation are property of their respective companies. Publication 58UHF-IN002A-EN-P - December 2022 | - Month Year Copyright 2022 Rockwell Automation, Inc. All rights reserved. Printed in the Japan 10007114406 Ver 00
1 | 05 Short-Term Confidential User Manual 2 | Users Manual | 3.85 MiB | February 09 2023 / August 09 2023 | delayed release |
58UHF RFID Systems Bulletin Number 58UHF User Manual Original Instructions 58UHF RFID Systems User Manual Important User Information Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards. Activities including installation, adjustments, putting into service, use, assembly, disassembly, and maintenance are required to be carried out by suitably trained personnel in accordance with applicable code of practice. If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment. The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams. No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual. Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation, Inc., is prohibited. Throughout this manual, when necessary, we use notes to make you aware of safety considerations. WARNING: Identifies information about practices or circumstances that can cause an explosion in a hazardous environment, which may lead to personal injury or death, property damage, or economic loss. ATTENTION: Identifies information about practices or circumstances that can lead to personal injury or death, property damage, or economic loss. Attentions help you identify a hazard, avoid a hazard, and recognize the consequence. IMPORTANT Identifies information that is critical for successful application and understanding of the product. These labels may also be on or inside the equipment to provide specific precautions. SHOCK HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that dangerous voltage may be present. BURN HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that surfaces may reach dangerous temperatures. ARC FLASH HAZARD: Labels may be on or inside the equipment, for example, a motor control center, to alert people to potential Arc Flash. Arc Flash will cause severe injury or death. Wear proper Personal Protective Equipment (PPE). Follow ALL Regulatory requirements for safe work practices and for Personal Protective Equipment (PPE). The following icon may appear in the text of this document. Identifies information that is useful and can help to make a process easier to do or easier to understand. 2 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Introduction RFID Components Electrical Installation EtherNet/IP Addressing Mechanical Installation Add 58UHF Module to RSLogix5000 Table of Contents Purpose of this Manual. 5 Who Should Use this Manual . 5 Abbreviations . 5 Additional Resources . 6 Chapter 1 RFID Definition . 7 International Standard Compliance . 7 ISED Information . 8 System Setup . 9 Chapter 2 Transceivers . 11 Status Indicators Functionality . 11 Product Selection . 12 Main Components . 12 Accessories . 12 Chapter 3 Cable Overview . 13 Connections. 13 Power I/O Connection (on Transceiver) . 13 EtherNet/IP Connection (on Transceiver) . 13 Chapter 4 Star Topology . 15 Linear Topology . 16 Device Level Ring (DLR) Topology . 16 Set the Network Address . 17 Set IP Address . 18 Chapter 5 Mount the Transceiver . 21 Spacing . 21 Transceiver Field Maps . 21 Approximate Dimensions. 21 Chapter 6 Procedure . 23 General Tab . 24 IP Address . 25 Module Definition . 25 Connection Tab. 26 Module Info Tab. 26 Antenna Tab . 27 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 3 Table of Contents RSLogix 5000 Controller Tags RSLogix 5000 Code Examples Specifications Add-on Profile Troubleshooting Points Tab . 27 Filter Tab . 28 Good Read Condition Tab. 28 Internet Protocol Tab . 28 Port Configuration Tab. 29 Network Tab . 30 Chapter 7 Configuration Image Table and Tags . 32 Input Image Table and Tags . 34 Allowable Commands . 38 Output Image Table and Tags . 40 Chapter 8 Continuous Inventory . 43 Queued Command. 47 Get TID . 48 Appendix A General. 51 Connections. 51 Appendix B Install . 53 Appendix C RF Tags . 55 Index . 57 4 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Preface Purpose of this Manual This user manual assumes you are familiar with RSLogix software. This manual provides an example of steps to configure and make functional a 58UHF RFID system. See the appropriate user manuals for other details. Use this manual to accomplish the following:
Learn how to install and wire an example RFID system. Install and configure the module in an RSLogix 5000 program. Built a simple program to receive and transmit data to an RFID tag. Who Should Use this Manual Use this manual if you are responsible for design, installation, programming, or troubleshooting of control systems that use Bulletin 58UHF RFID products. You must have a basic understanding of electrical circuitry and familiarity with relay logic. If you do not, obtain the proper training before using this product. Abbreviations Abbreviation AFI AOI AOP CRD DFSID DHCP DLR Definition Application Family Identifier Add-On Instruction Add-on Profile Customer Requirement Document Data Storage Format Identifier Dynamic Host Configuration Protocol Device Level Ring DNS DoS EAS FE INT IEC Domain Name Server Disk Operating System Electronic Article Surveillance Functional Earth Signed, two-byte integer International Electrotechnical Commission Abbreviation Definition ISO JTC International Organization for Standardization Joint Technical Committee MAC address Media Access Control (Ethernet) address MACID QD RFID SB SINT UHF UII/EPC Media Access Control Identification Quick Disconnect Radio Frequency Identification Device Subcommittee Signed, single-byte integer Ultra High Frequency Unique Item Identifier/Electric Product Code Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 5 Preface Additional Resources These documents contain additional information concerning related products from Rockwell Automation. Resource 58UHF RFID Short-range Transceiver Installation Instructions, publication 58UHF-IN001 58UHF RFID Long-range Transceiver Installation Instructions, publication 58UHF-IN002 CIP Security with Rockwell Automation Products, publication SECURE-AT001 EtherNet/IP Network Devices User Manual, publication ENET-UM006 Allen-Bradley Industrial Automation Glossary, AG-7.1 EtherNet/IP Device Level Ring Application Technique, publication ENET-AT007 Industrial Automation Wiring and Grounding Guidelines, publication 1770-4.1 Product Certifications website, rok.auto/certifications Description Provides information that is required to install short-
range transceivers for both EU/UK and US/North America models. Provides information that is required to install long-
range transceivers for both EU/UK and US/North America models. Describes how to implement the Common Industrial Protocol (CIP) Security standard in your industrial automation control system (IACS). (1) This manual describes how to use EtherNet/IP communication modules in Logix 5000 control systems. A glossary of industrial automation terms and abbreviations. This publication describes DLR network operation, topologies, configuration considerations, and diagnostic methods. Provides general guidelines for installing a Rockwell Automation industrial system. Provides declarations of conformity, certificates, and other certification details.
(1) When using CIP Security, only use version 6.2 for FactoryTalk Policy Manager. You can view or download publications at rok.auto/literature. 6 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 RFID Definition International Standard Compliance Chapter 1 Introduction RFID (radio frequency identification) is a method to communicate information from one point to another point by the use of electromagnetic waves (radio waves). RFID has unique characteristics that make it attractive for use in industrial systems. For example, you must load a shipping carton with various goods to meet the specific purchase order of a customer. You can fill a tag with the specific items that the customer wants and attach the tag to the carton. Then, as the carton moves to the filling stations, each station places the required objects into the carton. If the tag does not require an item, the station is skipped. Each filling station has an RFID transceiver. The transceiver reads and writes to the tag. When the tag approaches the RFID transceiver, the transceiver reads the contents of the tag. Based on the information that is received, the packaging process adds items (or skips this step) and then writes to the tag that one or more items were added. The carton moves to the next filling station. This scenario is a common use of RFID technology. The Bulletin 58UHF product line is unique because of its conformance to the open international standards: ISO 18000-63 standard Type C (EPCglobal Gen2). Use the EPCglobal Gen2 (ISO 18000-63) standard. This standard is for transceivers and tags that operate within the 860960 MHz radio frequency range. Passive tags are tags that receive their power from the transceivers signal to function. These tags respond by backscattering this information to the transceiver. You can use different tag options from multiple vendors as long as the tags follow the same standard that is previously listed. The EPCglobal Gen2 (ISO 18000-63) standard specifies the requirements for the signaling layer of communications between transceivers and tags. This standard also specifies requirements for the operating procedures, for commands between transceiver and tag, and for air interference. Each country has their specific frequency band requirements. This device complies with Part 15 of the FCC Rules. Operation is subject to the following conditions:
1. 2. This device must not cause harmful interference, and This device must accept any interference received, including interference that can cause undesired operation. Changes and modifications that Rockwell Automation does not explicitly approve can void your authority to operate this equipment under the rules of the Federal Communications Commission. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 7 Chapter 1 Introduction ISED Information Short-range Model This device complies with the Innovation, Science, and Economic Development license-
exempt RSS Industry Canada license-exempt RSS standards. Operation is subject to the following two conditions: (1) this device may not cause interference; and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. IMPORTANT This equipment complies with ISED radiation exposure limits for an uncontrolled environment and meets RSS 102 of the ISED radio frequency (RF) Exposure rules. When you install and operate this equipment, keep a minimum of 35 cm (13.78 in.) between the radiator and a persons body. Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non-contrl et respecte les rgles dexposition aux frquences radiolectriques (RF) CNR 102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 35 cm (13.78 in.) ou plus entre le radiateur et le corps humain. Long-range Model This device complies with Innovation, Science, and Economic Development Canada license-
exempt RSS standards. Operation is subject to the following two conditions: (1) this device may not cause interference; and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. IMPORTANT This equipment complies with ISED radiation exposure limits for an uncontrolled environment and meets RSS-102 of the ISED radio frequency (RF) Exposure rules. When you install and operate this equipment, keep a minimum of 90 cm (35.4 in.) between the radiator and a persons body. Cet quipement est conforme aux limites dexposition aux rayonnements nonces pour un environnement non-contrl et respecte les rgles dexposition aux frquences radiolectriques (RF) CNR-102 de lISDE. Cet quipement doit tre install et utilis en gardant une distance de 90 cm (35.4 in.) ou plus entre le radiateur et le corps humain. 8 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 System Setup Figure 1 shows a simple RFID system. This user manual describes the setup, installation, and programming that is required for this system to run. Chapter 1 Introduction Figure 1 - RFID System 1756-L85E ControlLogix Controller 1 2 3 4 5 P W R T 5 0 S U
3 8 7 1 58UHF Tag 58UHF Transceiver Tracked Object Computer 1783-US05T Ethernet Switch Tags attach to objects that must be tracked. The tags hold important information about the object. An RF transceiver reads and/or writes information to the tags when the tag moves within the transmission envelope of the transceiver (dotted ellipse). The physical size of the transceiver directly relates to the size of the transmission field. The larger the transceiver, the longer and wider the antenna field. The transceivers connect to a PLC through an Ethernet connection and have an external power source. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 9 Chapter 1 Introduction Notes:
10 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 2 RFID Components Transceivers Status Indicators Functionality Table 1 - Status Indicators (1) Name Description MOD Indicates status of the transceivers Link1/2 Indicates status of Ethernet (E1/E2) port NET Indicates status of the connections R/W Indicates status of the read/write commands State Off Steady green Flashing green Flashing red Steady red Flashing green/red Off Steady green Steady yellow Flashing green Flashing yellow Steady red Off Flashing green Steady green Flashing red Steady red Flashing green/red Off Steady green Flashing green Steady yellow Flashing yellow Flashing red Indicates No power Device operational Standby (device has not been configured) Major recoverable fault Major nonrecoverable fault Self-test (power-up testing) No link Link Port disabled Port activity (data packets currently being exchanged) Collision Major NIC fault No power or powered on with no IP address No connections (IP address, but no CIP connections are established, and an exclusive owner connection has timed out) Connected Connection timeout Duplicate IP Self-test (power-up testing) No power Powered but idle Transmitting RF carrier wave - no tags detected Succeeded at tag operation - tag read/write complete Failed at tag operation - tag read/write incomplete RF transmit failure
(1) Status indicators are the same for short and long-range transceivers. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 11 Chapter 2 RFID Components Product Selection Table 2 and Table 3 show the catalog numbers for the components in the Bulletin58UHF product family. Main Components Table 2 - Transceivers (1) Cat. No. 58UHF-TR-100-SR15US 58UHF-TR-200-LR50US 58UHF-TR-100-SR15EU 58UHF-TR-200-LR50EU See Specifications on page 51 for more information. Description Short-range Long-range Short-range Long-range
(1) Dimensions [mm (in.)]
109 x 116 x 54 (4.3 x 4.6 x 2.1) 203 x 212 x 66 (8 x 8.3 x 2.6) 109 x 116 x 54 (4.3 x 4.6 x 2.1) 203 x 212 x 66 (8x 8.3 x 2.6) Sensing Distance [m (ft.)]
1.5 (4.92) 5 (16.4) 1.5 (4.92) 5 (16.4) Accessories Table 3 - EtherNet/IP (1) Cat. No. (2) Type/Style Connector Type No. of Pins Shield 1585D-M4TBJM-x EtherNet/IP DC Micro (M12) patchcords 889D-F4AC-x 889D-R4AC-x DC Micro (M12) cordset [power]
DC Micro (M12) cordset [power]
Straight plug Straight socket Right-angle socket 4 4 4 Wire Size
[AWG]
24 22 22
(1)
(2) The transceiver supports both shielded and unshielded Ethernet cords. x = 2 (2 m [6.6 ft]), 5 (5 m [16.4]), or 10 (10 m [32.8 ft]) for standard cable lengths. 12 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 3 Electrical Installation Cable Overview The Ethernet switch must mount inside a control panel. The Bulletin 58UHF transceivers can mount on the machine. Figure 2 - Transceiver Mounting Mounted in a Cabinet Mounted on the Machine 1 2 3 4 5 P W R T 5 0 S U
3 8 7 1 1783-US05T Ethernet Switch 58UHF Transceiver Connections Power I/O Connection (on Transceiver) Table 4 - Power I/O DC M12, D-coded, 4-pin Socket Pin Signal 1 4 2 3 1 2 3 4
+24V DC Input COM Output EtherNet/IP Connection (on Transceiver) Color Brown White Blue Black Table 5 - EtherNet/IP (1) DC M12, D-coded, 4-pin Plug 1 4 2 3
(1) E1 - Standard right-angle Ethernet cables point left. E2 - Standard right-angle Ethernet cables point right. Pin 1 2 3 4 Signal TxData +
Recv Data +
TxData -
Recv Data -
Color White/orange White/green Orange Green Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 13 Chapter 3 Electrical Installation Notes:
14 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 4 EtherNet/IP Addressing Star Topology The star topology consists of a number of devices that connect to the central switch. When you use this topology, only one Ethernet connection can be made to the Bulletin 58UHF transceiver interface block. Figure 3 - Star Topology 58UHF Transceivers 58UHF Transceivers Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 15 Chapter 4 EtherNet/IP Addressing Linear Topology The linear topology uses the embedded switching capability to form a daisy-chain style network that has a beginning and an end. Linear topology simplifies installation and reduces wiring and installation costs, but a break in the network disconnects all devices downstream from the break. When you use this topology, both Ethernet connections are used. The network connection to Link 1 or Link 2 is irreverent. Figure 4 - Linear Topology 58UHF Transceivers 58UHF Transceivers Device Level Ring (DLR) Topology A DLR network is a single-fault tolerant ring network that is intended for the interconnection of automation devices. DLR topology can tolerate a break in the network. If a break is detected, the signals are sent out in both directions. When you use this topology, both Ethernet connections are used. The network connection to Link 1 (E1) or Link 2 (E2) is irreverent. We recommend that you use no more than 50 nodes on one DLR, or linear, network. If your application requires more than 50 nodes, we recommend that you segment the nodes into separate, but linked, DLR networks. Smaller networks provide:
Better management of traffic on the network. Ease of maintenance. A lower likelihood of multiple faults. Additionally, on a DLR network with more than 50 nodes, network recovery times from faults are higher. The maximum cable length between devices cannot exceed 100 m (328 ft). For more information on DLR network design and configuration, see publication ENET-AP007. 16 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 4 EtherNet/IP Addressing Figure 5 - DLR Topology 58UHF Transceivers 58UHF Transceivers Set the Network Address Before you use the 58UHF transceiver in an EtherNet/IP network, configure an IP address, subnet mask, and optional gateway address. This section describes these configuration requirements and the procedures to provide them. Use the BootP/DHCP utility (version 2.3 or greater), which ships with RSLogix 5000 software to set the address. IP network addresses have a format of xxx.xxx.xxx.xxx. You must know what values are used for the network. Default mode for this device is DHCP. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 17 Chapter 4 EtherNet/IP Addressing Set IP Address See step 1step 7 for how to set the IP address for the 58UHF transceiver. 1. The default setting is DHCP, so the PLC cannot detect the 58UHF transceiver first. 2. Connect your PC to the 58UHF module by the Ethernet cable. Set the IP address of the 3. Ethernet port of your PC the same as the segment of static IP address that you want to set (for example, 192.168.1.200). Select BootP-DHCP-Tool.exe and start the program. Select Interface. Select the IP Address of the Ethernet port of your PC that connects to the 58UHF module and click OK. 4. The Boot DHCP window appears. After a few seconds, if the tool detects the MAC address of the connected 58UHF module, the MAC address appears in the Discovery History field. Select the MAC address, then click Add Relation. 18 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 5. The New Entry window appears. Set the Client IP Address the same as the Ethernet port segment of your PC and the PLC (for example, 192.168.1.123). Click OK. Chapter 4 EtherNet/IP Addressing 6. The new relation appears in the Entered Relation field of the Boot DHCP window. If applied correctly, the IP address appears in the Discovered History field after a few seconds. a. Click the MAC address in the Entered Relations field. b. The Disable BOOTP/DHCP button appears. Click the button; the success message appears at in the Errors and Warnings field. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 19 Chapter 4 EtherNet/IP Addressing 7. After you disable the BOOTP/DHCP, connect the PLC to the 58UHF module via the Ethernet port. Open the RSLinx window, right-click the PLC Ethernet, select Properties, and add the static IP address of the 58UHF module. If the IP address of the Ethernet port is the same segment (for example, 192.168.1.123), you see the 58UHF module icon. 20 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 5 Mechanical Installation IMPORTANT Each transceiver generates a similar, but unique, RF field. Mount the Transceiver For both models, attach the transceiver to a flat plate with VESA standard 75 mm, M4 screws. Spacing Transceiver Field Maps There is no minimum space requirement between transceivers. If you experience a problem with the interference, space the transceivers further apart. Operation of the transceivers in an area near metallic objects can impair communication performance. If you must mount the tags on metal surfaces, use tags designed for that application. The transceivers have a three-dimensional RF field that emanates from its sensing surface. The field does not change depending on the antenna polarity chosen (circular, vertical, or horizontal) within the AOP. However, the way a tag must go through the sensing zone to be read does change. If you use an antenna polarity other than circular, test the ability of the antenna to read the RFID and note the tag orientation before utilization. Tag reading is more reliable if utilized at less than the maximum sensing distance. Approximate Dimensions Figure 6 - Short-range Transceiver [mm (in.)]
119 (4.69) 75 (2.95) 106 (4.17) 116
(4.57) 103
(4.06) 8
(0.31) 75
(2.95) 107
(4.21) 4
(0.16) 4 x M4, L = 7 96 (3.78) 128 (5.04) Unit 113
(4.45) Status Indicators Cover Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 21 Chapter 5 Mechanical Installation Figure 7 - Long-range Transceivers [mm (in.)]
75 (2.95) 203 (7.99) 99
(3.90) 99
(3.90) 75
(2.95) 212
(8.35) 4 x M4, L = 7 Status Indicators 89 (3.50) 89 (3.50) Inside Cover 22 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 6 Add 58UHF Module to RSLogix5000 Procedure 1. Open Studio 5000 software and create new project. Select your controller. 2. 3. Name your project and click Next. 2 3 4. Configure the controller and click Finish. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 23 Chapter 6 Add 58UHF Module to RSLogix5000 5. Right-click the Ethernet port of the controller. 6. Click New Module. 5 6 7. Select the desired 58UHF module and click Create. General Tab The General tab describes the device, its definition, and its IP address. Make the changes that are shown Figure 8 and click OK. Figure 8 - General Tab 1 2 3 24 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 6 Add 58UHF Module to RSLogix5000 1. 2. 3. Enter a name for the module. In this example, the name is UHF_58. As you can have multiple modules, use a brief but descriptive name. The name that you assign to the module appears in the Controller Organizer navigation pane. The name also appears in the description of the tags (see Connection Tab on page 26). Enter a description of the module or its function. Set the MAC address for the module. In this example, the address is 192.168.1.123. IP Address When the controller is offline, you can set the IP address. Set the IP address in one of three ways:
When you use a Private Network, click Private Network. Enter a value for the last octet between 1254. Do not duplicate the address of an existing device. In this example, the address of the RFID block is 192.168.1.115. When multiple networks exist, you can elect to set the address to some other value. When offline, simply click IP address, enter the desired address, and click Apply. Click Host Name, type in the name of the host, and click Apply. In this example, the host name is QPACK4. Module Definition You do not need to change the default values. If necessary, click Change to change the Revision, Electronic Keying, Connection, and Mode. Connection is Data. Click OK to accept the changes (or Cancel to retain the original settings). Click Help for more info. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 25 Chapter 6 Add 58UHF Module to RSLogix5000 Connection Tab You do not need to change any settings on the Connection tab unless you must inhibit the module. Setting Requested Packet Interval (RPI) Inhibit Module Description Specify the number of milliseconds between requests for information from the controller to the unit. The unit can provide data on a shorter interval, but if no data is received, the controller asks the unit for a status update. Minimum setting is 10 (1). Maximum setting is 750. When checked, the unit is not pulled for information, and the controller ignores any information that is provided. Major Fault On Controller If Connection Fails While in Run Mode Connection Over EtherNet/IP Module Fault
(1) Check this box if a connection failure is considered a major fault. This uses Unicast connections that are point-to-point connections. Fault messages appear in this box. The minimum that is shown in the Connection tab is 3.0. Settings less than 10 result in an error. The minimum setting will change to 3 in a future release of the program. Module Info Tab IMPORTANT If you use the Immediate Output (IOT) instruction, you must add a minimum interval RPI before each execution of IOT. The Module Info tab contains read-only data that populates when the controller goes online (a program downloads to or uploads from the controller). In the left-side panel, the Add-on Profile (AOP) shows the vendor, product type, product name, catalog number, series, revision, product code, serial number, manufacture date, and warranty. In the right-side panel, the AOP shows the fault status, internal state (Run mode), and if the module is configured and owned, the module identity, and the protection mode. 26 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 6 Add 58UHF Module to RSLogix5000 The Refresh and Reset Module buttons are active when the controller is online. Refresh Click to refresh the data in the window. Reset Module This option disconnects the module momentarily and interrupts the control. The following warning window appears. Antenna Tab Changes to the fields on the Antenna Tab are not required for the Quick Start process. Click Yes or No as needed. Click Help for further information. Points Tab Changes to the fields on the Points Tab are not required for the Quick Start process. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 27 Chapter 6 Add 58UHF Module to RSLogix5000 Filter Tab Changes to the fields on the Filter Tab are not required for the Quick Start process. Good Read Condition Tab Changes to the fields on the Good Read Condition Tab are not required for the Quick Start process. Internet Protocol Tab For the purposes of this user manual, you are expected to use a Private Address, that is, an address of 192.168.1.xxx. This window automatically populates with the data. 28 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Port Configuration Tab Changes to the fields on the Port Configuration tab are not required for the Quick Start process. These fields are only active when the controller is online. The window always shows two ports. This example shows that Port 1 is active, while Port 2 is inactive. Chapter 6 Add 58UHF Module to RSLogix5000 Click the ellipsis () under the Port Diagnostics. The following window appears, which shows the communication that takes place between the controller and the transceiver that is connected to the port. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 29 Chapter 6 Add 58UHF Module to RSLogix5000 Network Tab Changes to the fields on the Network tab are not required for the Quick Start process. 30 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 7 RSLogix 5000 Controller Tags During the module installation, the UHF_58 tags automatically load as controller tags, which make the tags available to all programs. In the Controller Organizer, click the Controller Tags. Three categories of tags appear. The tag name is composed of the module name followed by:
:C for Configuration
:I for Input
:O for Output Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 31 Chapter 7 RSLogix 5000 Controller Tags Configuration Image Table and Tags to expand the UHF_58:C to show the configuration image table, which has the Click following tags:
Table 6 - Configuration Image Tags Tag PtInMode PtOutMode Input Off On Filter PtIn Input On Off Filter Description Depend on connection, select one of the following options:
Queued command (value: 0, 1, and 3) Single command (value: 0 and 3) Continuous inventory (value: 0, 2, and 3) Trigger input for commands. 0. General-purpose Input: Use the input point as general-purpose input only. 1. Trigger Single RFID Tag Command: If input signal level changed L->H, RFID Command prepared on Output tag queues to device. 2. Trigger Multiple RFID Tag Inventory: If the input signal level changed L->H, send the inventory command until the number of tags reach to O:RequestedRFIDTagCount. 3. Turn off antenna: When signal level is high, shut off the antenna (no command is sent from the antenna). Event for automatically change of Digital Output level from Low to High. Enable if each bit set to 1. Only one of the options from the list can be selected. Paired event cannot select in this field (bit 1 and 2). 0 - General-purpose output 1 - Antenna Off: If the antenna/reader turns off or shuts down. 2 - Antenna On: If the antenna/reader connects to power. 3 - RFID Tag present: If success response comes for the Query command. 4 - Bad/Incomplete response: If a Some command error happens. 5 - Reader Fault: If the reader fault has happened. The high wins. The output tag (O:PtOut.Data) can change this digital output level. If either condition for the selected event has happened or the output tag set to 1, output goes high. The interval applying level change of Digital Input from Off to On to avoid chattering. The InputFilterOffOn is used to determine the Off to On delay time for input point 0 before the interface considers the input point on or True. A value of 0 indicates that there is no delay from an off condition to an on condition; the only delay would be a hardware delay. 14: 2 ms 15: 5 ms 16: 10 ms (default) 17: 20 ms 18: 50 ms The interval applying level change of Digital Input from On to Off to avoid chattering. The InputFilterOnOff is used to determine the On to Off delay time for input point 0 before the interface considers the input point as off or False. A value of 0 indicates that there is no delay from an On to Off condition; the only delay would be a hardware delay. 14: 2 ms 15: 5 ms 16: 10 ms (default) 17: 20 ms 18: 50 ms 32 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 7 RSLogix 5000 Controller Tags Table 6 - Configuration Image Tags (Continued) Tag PtOut Program To Fault Enable Program Value -
Boolean Program Mode Fault Mode FaultValue -
Discrete Fault Value State Duration SignalReadPower SignalWritePower ChannelEnMask AntennaPolarity CollisionAvoidanceFactor FilterTimeout StopOnError Description Determines if an output transitions to the Fault mode if the connection faults while in Program mode 0 = stay in Program mode. 1 = Go to Fault mode. Defines the value that the output takes when the connection transitions to Program mode if the ProgMode bit is set to User-Defined Value. Selects the behavior that the output channel takes when transitioned into Program mode. Either hold the last state (1) or go to a user-defined value (0). ProgValue defines the value to go to when set to the user-defined value. Selects the behavior that the output channel takes if a communication fault occurs. Either hold the last state (1) or go to a user-defined value (0). FaultValue defines the value to go to when set to the user-defined value. Defines the value that the discrete output assumes if a communication fault occurs when FaultMode = 0, 0 = Off, 1 = On This value determines the length of time the Fault mode state is held before the FaultFinalState is applied. Default = 0 hold forever. Other enumeration values 1 = 1 second, 2 = 2 seconds, 5 = 5 seconds, 10 = 10 seconds. Long: Values of 100300 equate to 10.030.0dbm. Short: Values of 100240 equate to 10.024.0dbm. Drags in from AOP selection. Affected command: 1, 2, 3, 4, 5, 6 (multi), 7 (multi), 8 (multi) Long: Values of 100300 equate to 10.030.0dbm. Short: Values of 100240 equate to 10.024.0dbm. Drags in from AOP selection. Affected command: 6, 7, 8, 1232 The using Frequency Channels. The value is bit field format, each bit indicates 1 Frequency Channel. The valid channel depends on Region setting. Some regions, this setting is ignored. You can select multiple Ch (combination of Bits) from the following choices. IMPORTANT Because of FCC regulation, the U.S./North America model must use all 50 channels for short and long models. 58UHF-TR-100-SR15US (US/North America short-range model):
Fixed as 902.75...927.25 MHz 58UHF-TR-200-LR50US (US/North America long-range model):
Fixed as 902.75927.25 MHz 58UHF-TR-100-SR15EU and 58UHF-TR-200-LR50EU (EU/UK model):
Bit0: 865.7 MHz Bit1: 866.3 MHz Bit2: 866.9 MHz Bit3: 867.5 MHz Polarization of Antenna. Values of 0 (circular), 1 (vertical), 2 (horizontal). Drags in from AOP selection. Indicates the setting of tag response speed and collision avoidance. IMPORTANT Speed and accuracy are the trade-off. EU15 and US15:
0: Accuracy mode (fixed) EU50 and US50:
0: Accuracy mode 1: Balance mode 2: Performance (speedy) mode 02147483647, -1 Timer value for Duplicate Filter Timeout. This function is applied for Inventory or Read commands. Unit is 1 ms.
-1: Filter forever (never time out) 0: Instant timeout (default) 1 to any positive value: Duplicated filter time setting with ms unit If this feature is deactivated (value 0), the device tries to remember the RFID tag UII as much as possible. If the number of tags reach to the limit to memory (more than 100 tags), the oldest tag data is removed from the device to remember the new one. Behavior for large/multi read/write command when error is happened in the middle of sequence. 0: Continue sequence 1: Stop sequence Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 33 Chapter 7 RSLogix 5000 Controller Tags Table 6 - Configuration Image Tags (Continued) Tag SignalStrengthFilterType SignalStrengthFilterValue GoodReadSettings Description Select RSSI (Received signal strength indication) Filter type 0: No filter 1: RSSI Filter (High pass filter by RSSI Filter Value) 2: RSSI Difference Filter (High pass filter for Delta from Maximum RSSI in stored tag list by RSSI Filter Value)
-32768+32767 Value for RSSI (Received signal strength indication) Filter Type. RSSI Filter Type = 0: Not used RSSI Filter Type = 1: Used to discard data with lower RSSI power than this value. RSSI Filter Type = 2: Used to discard data with lower delta value from maximum RSSI power than this value. Select one or multiple conditions that filter the result of the inventory/read command I.GoodRead is set in the following conditions:
Bit0: Number of RFID Tags Condition: GoodRead if read tag number is over C.MinRFIDTagCount and under C.MaxRFIDTagCount, in multiple read/write/inventory commands, Bit1: Match Data: In the read command, GoodRead if Read data matches the O.Data with O.DataLength. Bit2: Match UII: In the read/inventory command, GoodRead if UII matches the O.UII masked O.GoodReadUIIMask. Bit3: Match SignalStrength: In the read/Inventory command, GoodRead If a tag RSSI value falls in between C.SignalStrengthUpperRangeLimit and C.SignalStrengthLowerRangeLimit. Bit4: Match SignalStrength Relative read/inventory command: GoodRead If a tag RSSI value is out of the range that C.RelativeSignalStrengthRange specifies from the largest RSSI range in the stored tag. Largest RSSI info is from Stored tag buffer in FW application. O.ClearStoredTagInfo can clear the stored tag buffer. Min RFID Tag Count Max RFID Tag Count Signal Strength UpperRange Limit Signal Strength LowerRange Limit Relative Signal Strength Range 1126 If the value is 0, the minimum limitation is deactivated. 2127 If the value is 0, the maximum limitation is deactivated.
-32767+32767 (must be larger than LowerRangeLimit)
-32768+32766 (must be smaller than LowerRangeLimit) 032767 (must be between Upper and Lower) Input Image Table and Tags Click to expand the UHF_58:I to show the input image table, which has the following tags:
Table 7 - Input Image Tags Tag RunMode ConnectionFaulted DiagnosticActive DiagnosticSequenceCount Description Indicates whether the device is in a Run or Program mode. 0: UHF Module is in Program mode 1: UHF Module is in Run mode When changed from 0 to 1, the Internal Buffer is cleared. The status of the Class1 IO connection between the device and the controller. 0: Connection established 1: Connection has failed Not used in this product Not used in this product 34 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Table 7 - Input Image Tags (Continued) Chapter 7 RSLogix 5000 Controller Tags Tag Busy DataLoss ParameterError Overflow ExecutedCommandNumber PtIn PtOut CommandResponse RFIDTag Description The status if the transceiver is processing any command 0: If not processing any command 1: If processing a command IMPORTANT This bit is not used for Queue and Continuous Inventory mode. An indication of a loss of a command response. It basically means that the internal buffer has overflown and the oldest data has been overwritten. When the internal buffer is full, the new response overwrites the old data and I.DataLoss is set to 1. 0: No data loss 1: Data loss (clear by power cycle, reset the module, or ladder download) IMPORTANT This bit is not used for Single mode. If the Request command parameter is illegal, this bit is set. Example: Set undefined number to O.Type(over 32), over 65,536 bytes to O.DataLength or set 0 to O.RequestedRFIDTagCount, and so on. 0: Command request with correct parameter. 1: Command request with illegal parameter. An indication of a loss of a command request. If the new request when the queue is full, this bit is set. 0: No command loss 1: Command loss (Cleared by next command request) IMPORTANT This bit is not used for Single and Continuous Inventory mode. The last command ID (refer to I.CommandNumberAck) that the module executed. At power-up, this value must be 0. This value is updated when command execution is finished, even if with the error response (HWFault, Timeout, CRCError, InvalidType, WriteVerificationFault, and so on) The physical state of the Digital Input 0: Digital Input is Low 1: Digital Input is High The physical state of the Digital Output 0: Digital Output is Low 1: Digital Output is High See Table 8 on page 36 See Table 9 on page 37 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 35 Chapter 7 RSLogix 5000 Controller Tags Table 8 - CommandResponse Tag Fault Uncertain Good Read Write Verification Fault Timeout Data Offset Error CRC Error Invalid Type Request Type Command Number Data Responses Remaining Data Response Number Description Set if any error condition occurs. Write Verification Fault Timeout Data Offset Error CRC Error Invalid Type Error response from RFID tag (example: Accessed bank is Locked) HW Error Not used in this product The status of a Good Read condition for the latest command result (set by config assembly). The GoodRead is described in the C.GoodReadCondition. This tag is updated when you get a command response. Single/Queue mode: each result of a command Continuous mode: AND result of 128 results 0: Selected Good read condition is not met for the latest command 1: Selected Good read condition is met for the latest command If the request command is Single/LargeWrite with O.WriteVerifyEn=1, this bit is set only when verification is failed. When O.WriteVerifyEn=0, this value always 0. This tag is updated when you get a command response. 0: Write verification has succeeded, or Write verify is not selected. 1: Write verification is failed. Set if no response comes back for a Command you trigger within the time the firmware defines. If the Tag response is lost in the middle, this error is set. This tag is updated when the requested command is timed out. Set if the access area targeted by O.DataOffset and O.DataLength is invalid and failed to access the target RFID tag. This tag is updated when you get a command response. Example: If there is no user bank in the UHF tag, but a command tries to access the user bank, this error is set to 1 Set if CRC error is happened for response packet. This tag is updated when a command response comes back. Set if the accessed RFID tag does not support the executed command. When a command to access to User Bank of Tag is not support User Bank and I.UserMemoryIndicator=0, this value set to 1. The command ID related to tag information current stored input tag. See Allowable Commands on page 38 Valid range: 132 Serial Number of requested command. (use O.CommandNumberAck) Usual command uses a designated sequence number in the consume tag. Input trigger and continuous inventory use fixed number. Continuous Inventory: 10001 Input triggered: 10002 Valid range: 010002 The number of the stored tag data in the transceiver currently. Number is increased if new response comes, decreased if stored response is sent to Logix by updating O.DataResponseNumberAck to the same number as I.DataResponseNumber. (Maximum number of stored tags is 500) Valid range: 0500 The number of sequences of the data stored in TagInformation currently. If O.DataResponseNumberAck is updated to the same number of I.DataResponseNumber, the stored response is pushed to Logix. Valid range: -32,768+32,767 36 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 7 RSLogix 5000 Controller Tags Table 9 - RFIDTag Tag Single/Queue Mode UIILength UII 061 UserMemoryIndicator EPCGlobalGS1 CRC SignalStrength Continuous Inventory Mode Valid UII Trancated UII Length UII Description The data length for UII/EPC. Valid range: 062 UII/EPC data of the detected tag. Unique item identifier 62 and 63 are not used. If the RFID tag supports XPC, UII, and UIILength, include XPC information. Indicates whether the accessed tag has user bank. 0: Not exist 1: User bank exists You can change this value in some RFID tags. Indicates whether the accessed tag is following EPC global. 0: Follow EPC global 1: Not follow EPC global You can change this value in some RFID tags. CRC of the detected tag reply. Signal strength that returns from the accessed tag. This value is typically negative. The status of a tag for Continuous mode. 0: There is not tag data present at the index. 1: Tag data have been detected at the index. The status of a tag for Continuous mode. 0: Read UII Length equal to 12 bytes or shorter. 1: Read UII Length longer than 12 bytes and they are truncated. Whole length of UII/EPC data of detected tag. Valid range: 062 12 byte UII/EPC data of the detected tag, from the top. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 37 Chapter 7 RSLogix 5000 Controller Tags Allowable Commands Table 10 - RequestedType Tags Value Command Inventory 1 Read Reserved 2 Read EPC 3 Read TID 4 Read User 5 Write Reserved 6 Write EPC 7 Write User 8 Virtual Tag Read 9 Virtual Tag Write 10 Flush Virtual Tag 11 Lock AccessPassword 12 Lock KillPassword 13 Lock EPC 14 15 16 17 18 19 Lock TID Lock User UnLock AccessPassword UnLock KillPassword UnLock EPC 20 UnLock TID Description Reads UII and RFID tag information Reads Reserved bank of RFID tag information Reads EPC bank of RFID tag information Reads TID bank of RFID tag information Reads User bank of RFID tag information Write Reserved bank of RFID tag information Write EPC bank of RFID tag information Write User bank of RFID tag information Reads Virtual Tag that Large Read command stores Write Virtual Tag that is used for Large Write command Clear Virtual Tag Lock Access Password area (cannot read/write without password) Lock Kill Password area (cannot read/write without password) Lock EPC bank (cannot write without password) Lock TID bank (cannot write without password) IMPORTANT Usually, the vendor locks the TID bank. Lock User bank (cannot write without password) UnLock Access Password area (can read/write without password) UnLock Kill Password area (can read/write without password) UnLock EPC bank (can write without password) UnLock TID bank IMPORTANT Usually, the TID bank cannot be unlocked. 21 22 23 24 25 26 27 28 29 UnLock User Permanent Lock AccessPassword (1) Permanent Lock KillPassword (1) UnLock User bank (cannot write without password) Lock Access Password area permanently (cannot read/write even if correct password) Lock Kill Password area permanently (cannot read/write even if correct password) Permanent Lock EPC (1) Lock EPC bank permanently (cannot write even if correct password) Permanent Lock TID (1) Permanent Lock User (1) Permanent UnLock AccessPassword Permanent UnLock KillPassword Permanent UnLock EPC 30 Permanent UnLock TID Lock TID bank permanently (cannot write even if correct password) IMPORTANT Usually, the vendor locks the TID bank. Lock User bank permanently (cannot write even if correct password) UnLock Access Password area permanently (cannot lock read/
write) UnLock Kill Password area permanently (cannot lock read/write) UnLock EPC bank permanently (cannot lock write) UnLock TID bank permanently IMPORTANT Usually, the TID bank cannot be unlocked. 31 32
(1) Permanent UnLock User Kill UnLock User bank permanently (cannot lock write) Kill RFID permanently (cannot access) Some RFID tags do not support an individual ParmanentLock command. 38 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Output Image Table and Tags Click tags:
to expand the UHF_58:O by to show the output image table, which has the following Chapter 7 RSLogix 5000 Controller Tags Table 11 - Output Image Tags Tag PtOut ClearStoredRFIDTags CommandRequest CommandNumberAck DataResponseNumberAck Description Level of Digital Output(HW). 0: Digital output become Low 1: If Digital output become High Tag for clearing stored tag information. If I:StoredTagNumber is not 0, you can clear information of stored tags by changing the value from 0 to 1. (Maximum number of stored tags is 500) See Table 13. The Serial Number of requested commands. Usual command uses a designated sequence number in the consume tag. In Continuous mode, Input trigger and continuous inventory use fixed number. Valid range: 010000 Number for next data tag request. If I.DataResponsesRemaining > 0, you can get data when O.DataResponseNumberAck is updated to the same number as I.DataResponseNumber. Valid range: -32,768+32,767 Table 12 - CommandRequest Tag Type ResetSession Description The next command ID for the transceiver to process. The transceiver runs the command once when this value changes. Valid range: 132 The inventoried flag Reset mode. Session flag is within each tag. If the inventoried flag is initialized, the Tag responds every command. If not initialized, Tag does not reply any response until the inventoried flag of the tag is cleared. Clear timing is dependent on each tag. For detail see Session 0: No action. 1: Clear inventoried flag B to A, every Query (ISO Command). The change of this bit is not applied during the process of executing. IMPORTANT For the Single Read/Write/Lock/Unlock command, the Inventoried Flag is not changed even if ResetSession=0 The selection of the ISO Write command. 0: Use Write (ISO Command) in all write operation. 1: Use BlockWrite(ISO optional Command) in all write operation. The change is not applied during the process of executing. BlockWriteEn IMPORTANT Block Write command is optional, not all tags can respond to this command (depends on tag specification). In some RFID tags, DataOffset and DataLength must keep 4-byte alignment. WriteVerifyEn The selection of Write Verify mode. 0: Not verify read after write operation. 1: Verify read after write operation. This function is applied for only Write, Large Tag Write commands(O.RequestRFIDTagCount = 1). Not applied for Multi-tag Write command
(O.RequestRFIDTagCount > 1). The change is not applied during the process of executing. This function only applicable for when SpecificRFIDTagEn=1. If SpecificRFIDTagEn=0, this field is ignored and the write command is not verified. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 39 Chapter 7 RSLogix 5000 Controller Tags Table 12 - CommandRequest (Continued) Tag SpecificRFIDTagEn RFIDFieldTagRange Session Password RequestRFIDTagCount DataOffset DataLength Data Description The Tag Selection mode for single tag/large tag commands. 0: The first reply tag 1: The specified tag Slot number of Query command (how many Query commands are sent one time). For smaller values, the operation is faster, but the tag collision rate is increased. For larger values, the tag collision rate is reduced, but the operation is slower. If you get no response to the queries, decrease the Q value. If you get multiple tags that respond, increase the Q value, which increases the range of numbers the tags can generate. See ISO 18000-63 for the details. Valid range: 07 Session of Query command you want to use. All sessions have Inventoried Flag (A or B). 0: S0, After RF carrier wave tune off, flag is cleared to A. 1: S1, After more than 500 ms from the tag reply, the flag is cleared to A. 2: S2, After more than 2 sec from RF carrier wave tune off, the flag is cleared to A. 3: S3, After more than 2 sec from RF carrier wave tune off, the flag is cleared to A. IMPORTANT For the Single Read/Write/Lock/Unlock command, the Inventoried Flag is not changed even if ResetSession=0 The Access or Kill Password (4-bytes data) Information. -For read/write/lock commands, this value is used as access password - For kill command, this value is used as kill password. IMPORTANT The read/write commands do not require the password if allowed by the lock status of the memory being accessed. Set all zero data when it is not required. And If execute kill command, the tag cannot be used. In the lock/kill commands, this value is always used. When the target bank is permanently locked:
Cannot read/write for Access/Kill Password area even if Password is correct. Cannot write for other bank even if Password is correct. The target number of tags that you want to read/write. If RequestRFIDTagCount>1, Command is finished when the transceiver gets the target number of reply. RequestRFIDTagCount = 1: Single/Large Read/Write/Inventory command RequestRFIDTagCount > 1: Multi Read/Write/inventory command Valid range: 1256 The address within the RFID tag that the command runs on. IMPORTANT If the Total number of DataOffset and DataLength exceed the size of the target area, I.DataOffsetError is set. Valid range: 065534 The Number of bytes to read/write, and virtual read/write. If the Read or Write command to O.Type, the specification is changed depend on the value of DataLength. The values must be even value (except 0), and up to follow maximum value. 164 for Write: Single Write (O.RequestRFIDTagCount=1, BlockWriteEn=0), Multi-Tag Write (O.RequestRFIDTagCount>1, BlockWriteEn=0) 6565536 for Write: Large Write (O.RequestRFIDTagCount=1, BlockWriteEn=0), 1256 for BlockWrite: Single Write (O.RequestRFIDTagCount=1, BlockWriteEn=1), Multi-Tag Write (O.RequestRFIDTagCount>1, BlockWriteEn=1) 25765536 for BlockWrite: Large Tag Write (O.RequestRFIDTagCount=1, BlockWriteEn=1) 1256 for Read: Single Read (O.RequestRFIDTagCount=1), Multi-Tag Read
(O.RequestRFIDTagCount>1) 25765536: Large Tag Read (O.RequestRFIDTagCount=1) The data is used to store information that is directed to the transceiver. Depends on the Data Format of each command. Some commands, such as reading, do not require the use of this data field. Writing to tags uses this information with the length field to inform the transceiver what values it must write. This data is also used for the condition of MatchData in C.GoodReadCondition. For the read command, the firmware judges if the response is matched to O.Data and O.DataLength. 40 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 7 RSLogix 5000 Controller Tags Table 12 - CommandRequest (Continued) Tag UIILength UII GoodReadUIIMask Run(ContinuousInventory Mode) Description The data length for Specified Tag UII/EPC (EPC bank). Transceiver can accept response that is a partial matched. Example: When you set O.UIILength=8, if the UII Length of the target RFID tag is 12 bytes, can accept response if read 7 bytes from the top is matched as O.UII[0][7], even if the remaining 4 bytes is not matched) Valid range: 062 UII/EPC data (EPC bank) of the specified tag. Also used for Match UII Condition of C.Good Read Condition. This command is masked O.GoodReadUIIMask to decide Comparison value. Example: When you set O.UIILength=8, if the UII Length of the target RFID tag is 12 bytes, can accept response if read 7 bytes from the top is matched as O.UII[0][7], even if the remaining 4 bytes is not matched Used for Match UII Condition of C.Good Read Condition. This mask O.UII to decide Comparison value. Selection for continuous inventory command (this bit is appeared only when Continuous Inventory mode). If this bit =1, the command is triggered by updating O.DataBufferSeqNum. 0: Not execute Continuous Inventory command 1: Execute Continuous Inventory command Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 41 Chapter 7 RSLogix 5000 Controller Tags Notes:
42 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Chapter 8 RSLogix 5000 Code Examples This section shows three examples of routines that run in the RSLogix 5000 program. Continuous Inventory Queued Command on page 47 Get TID on page 48 (unique tag identifier) The examples are written for an UHF RFID transceiver that connects to the E1 Ethernet port, the L8 Logix Controller, and a computer. In the examples, the unit is identified as US_Long_58. Continuous Inventory The following steps show how to set the Continuous Inventory AOP. 1. From the General tab of the RSLogix 5000 program, click Change to change the mode. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 43 Chapter 8 RSLogix 5000 Code Examples 2. Select Continuous Inventory from the pull-down menu and click OK. 3. The General tab shows the values in the following image. Select the Connection tab 4. If necessary, calibrate the unit. Calibration can be needed if the desired sensing distance is smaller than the maximum sensing distance. The device must first be in Rem Prog mode. a. Check the Inhibit Module box and click Apply. 44 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 b. Navigate to the Antenna tab and click Calibrate. Chapter 8 RSLogix 5000 Code Examples c. The Radio Frequency Calibration Wizard appears. Follow the prompts and click Finish when the calibration is complete. d. From the Antenna tab, click Apply. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 45 Chapter 8 RSLogix 5000 Code Examples e. Click Yes to apply changes. 5. Navigate to the Filter tab. 6. If desired, set the filter to ignore duplicate RFID tags. This configuration causes the unit to ignore duplicate tags as they travel through the sensing zone. Check the Ignore Duplicate RFID Tags box, then click Apply. If you do not set the filter to ignore duplicate RFID tags, the xx:I.CommandResponse.DataResponseRemaining value increases with the same tag. 7. To complete AOP setup for continuous inventory, click OK. 46 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 8. Chapter 8 RSLogix 5000 Code Examples Queued Command The following steps show how to set a Queued Command. 1. From the General Tab, follow step 1 and step 2 from Continuous Inventory on page 43 to change the mode to Queued Command. 2. Click Apply. No other changes to the AOP are necessary. See the following example routine. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 47 Chapter 8 RSLogix 5000 Code Examples Get TID The following steps show how to get the TID (unique tag identifier). 1. To change the mode to Single Command, follow step 1 and step 2 in Continuous Inventory on page 43. The Read TID command reads the TID bank of RFID tag information. This information is unique to each tag and cannot be written over. This identifier comes with the tag from the manufacturer. 2. Set the following values in the output image table:
- xx:O.CommandRequest.Type = 4
- xx:O.CommandRequest.RequestedRFIDTagCount = 1
- xx:O.CommandRequest.DataOffSet = 0256
- xx:O.CommandRequest.DataLength = 110 48 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023
- xx:O.CommandNumberAck = 1+n (for every command given, increase this tag by n=1) Chapter 8 RSLogix 5000 Code Examples If the module is running, you see:
- xx:I.CommandResponse.DataResponseRemaining = 1
- xx:I.CommandResponse.DataResponseNumber = 1 3. Now set the following value:
- xx:O.DataResponseAck = xx:I.CommandResponse.DataResponseNumber = 1 You see the following changes:
- xx:I.CommandResponse.RequestedType = 4
- xx:I.CommandResponse.CommandNumber = 1
- xx:I.CommandResponse.DataResponseRemaining = 0
- xx:I.CommandResponse.DataLength = 3
- xx:I.CommandResponse.Data[0] = #
- xx:I.CommandResponse.Data[1] = #
- xx:I.CommandResponse.Data[2] = #
Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 49 Chapter 8 RSLogix 5000 Code Examples Notes:
50 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Appendix A Specifications IMPORTANT Only a controller that is configured with the 58UHF transceiver secure zone can issue a factory default reset. If you lose connection to the controller, there is no way to restore the factory defaults setting. There is no physical factory defaults reset. General Table 14 - General Specifications Attribute Sensing distance, max (1)
[m (ft.)]
Tag compatibility Compliance Enclosure rating Operating temperature Storage temperature Relative humidity (2) Vibration Shock resistance [g]
(1)
(2) No condensation Short-range 1.5 (4.92) Long-range 5 (16.4) ISO 18000-63 FCC, UL/cUL, CE, ISED, and UKCA IP66/67
-20+55 C (-4+131 F)
-40+85 C (-40+185 F) Operating: 35...95%
Storage: 25...85%
10 g at 10500 Hz 50 The setting limits depend on the country or the function. This reference value can vary depending on the operating environment and tag type. Connections Table 15 - Connection Specifications Attribute Communication protocol Connector Frequency Short-range Long-range EtherNet/IP EtherNet/IP: M12 4-pin plug DC Micro Power and I/O: M12 4-pin socket DC Micro 865.7867.5 MHz EU and UK model (at 600 kHz intervals, 4 channels total) 902.75927.25 MHz US and North America model (at 500 kHz intervals, 50 channels total) Communication rate RFID: 2048 bps Ethernet: 10/100 Mbps, half or full-
RFID: 1024 bps Ethernet: 10/100 Mbps, half or full-
Supply voltage Current consumption at 24V DC, max duplex 19.226.4V DC Supply: 1 A Class 2 SELV Input: 15 mA Output: 0.5 A duplex Transmission output, max 1 W (1030 dBm) 0.25 W (1024 dBm) Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 51 Appendix A Specifications Notes:
52 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Install Appendix B Add-on Profile IMPORTANT The following AOP installation instructions are for Bulletin 56RF RFID systems. The installation steps are the same for 58UHF transceivers except that you must download the 58UHF AOP. This appendix goes through the Add-on Profile (AOP) of the RFID transceivers with the RSLogix 5000 program. AOPs are files that you add to your Rockwell Automation library. These files contain the pertinent information for configuring a device that is added to the Rockwell Automation network. The AOP simplifies the setup of devices. The AOP presents the necessary fields in an organized fashion, which allows you to create and configure your system in a quick and efficient manner. The AOP is a folder that contains numerous files for the device. It comes as an installation package. Follow the on-screen instructions to install the AOP. In the File Explorer, locate the directory where the installation files were extracted. 1. 2. Click MPSetup.exe 3. The window identifies the module profiles and the firmware revision. Click Next. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 53 Appendix B Add-on Profile 4. Accept the terms of the license agreement and click Next. 5. With Install selected, click Next. 6. The profile name appears in the left-hand box and its details appear in the right-hand box. Verify that the module name is correct. Click Install. 54 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 RF Tags Appendix C Troubleshooting If the RF tag cannot be read or written to:
Check Is the RF tag in position for reading/writing?
Is the RF tag at an angle against the antenna?
Are there metal objects or radio devices near the antenna?
Are there metal objects near where the RF tag is attached?
Is the RF tag, or the area attaches to, wet?
Did reading/writing fail, even though the tag is within the range to the antenna?
Action Move the RF tag into position. The transceiver cannot read the RF tag if its position is too far or too near. The writing distance can be shorter than the reading distance. Place the surface of the RF tag parallel to the surface of the antenna. The transceiver cannot read RF tags at an angle. Keep all metal objects and radio devices away from the antenna. Keep the RF tag a minimum of 150 mm (5.91 in.) from metal objects. Dry the RF tag and surrounding attachment area and attempt to read/write the tag again. The RF tag did not receive enough power from the transceiver to complete the transaction. Increase power, move RF tags closer, improve the environment, or break the transaction into multiple pieces to make the data length smaller. Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 55 Appendix C Troubleshooting Notes:
56 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Numerics 1585D-M4TBJM-x 12 58UHF add module 23 58UHF-TR-100-SR15EU 12 58UHF-TR-100-SR15US 12 58UHF-TR-200-LR50EU 12 58UHF-TR-200-LR50US 12 889D-F4AC-x 12 889D-R4AC-x 12 A abbreviation 5 accessory 12 accuracy mode 33 add-on profile introduction 53 address IP 25 advanced IP address 18, 20 AFI 5 antenna tab 27 AOI 5 AOP 5 audience 5 B balance mode 33 C cable overview 13 comments allowable 38 configuration image table and tag 32 configuration image table 32 tag 32 connection 13 EtherNet/IP 13 transceiver 13 connection tab 26 continuous inventory 37, 43 continuous inventory mode 35, 42 continuous mode 36, 40 controller tag, RSLogix 5000 31 CRD 5 Index D default fault value state duration 33 filter timeout 33 input off on filter 32 mode 17 setting 18 definition 5 module 25 device level ring topology 16 DFSID 5 DHCP 5 DHCP mode 17 dimensions 21 DLR 5, 16 DNS 5 DOS 5 E EAS 5 EtherNet/IP connection 13 F fault mode 33 FE 5 field map transceiver 21 filter tab 28 G general tab 24 good read condition tab 28 I IEC 5 image table configuration 32 input 34 output 40 indicator status 11 input image table and tag 34 INT 5 internet protocol tab 28 internet protocol tab 28 IP address 25 advanced 18, 20 ISO 5 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 57 points tab 27 port configuration tab 29 product selection 12 accessory 12 main components 12 program mode 33, 34 ptInmode 32 ptoutmode 32 Q QD 5 queue mode 35, 36, 37 R R/W 11 rem rrog mode 44 reset mode 40 RF tag 55 RFID 5, 7 run mode 26, 34 S SB 5 set network address 17 setup system 9 single command mode 48 single mode 35 singlemode 36, 37 SINT 5 spacing next to metal surface 21 transceiver 21 specifications connection 51 general 51 star topology 15 status indicator link 2 11 link1 11 MOD 11 NET 11 R/W 11 transceiver 11 system setup 9 Index JTC 5 J L linear topology 16 link 1 11 link 2 11 M MAC address 5 MACID 5 main components 12 metal surface spacing next to 21 MOD 11 mode accuracy 33 balance 33 continuous 36, 40 continuous inventory 35, 37, 42 DHCP 17 fault 33 performance 33 program 33, 34 ptIn 32 ptout 32 queue 35, 36, 37 rem rrog 44 reset 40 run 26, 34 single 35, 36, 37 single command 48 tag selection 41 write verify 40 module definition 25 module info tab 26 mount transceiver 21 N NET 11 network tab 30 network address set 17 O output image table and tag 40 output image table 40 tags 40 overview cable 13 P performance mode 33 58 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 Index T tab antenna 27 connection 26 filter 28 general 24 good read condition 28 internet protocol 28 module info 26 network 30 points 27 port configuration 29 tag configuration 32 input 34 output 40 tag selection mode 41 TID get 48 topology device level ring 16 linear 16 star 15 transceiver 11 connection 13 field map 21 mount 21 spacing 21 status indicator 11 troubleshooting 55 U UHF 5 UII/EPC 5 W write verify mode 40 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 59 Index Notes:
60 Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 58UHF RFID Systems User Manual Rockwell Automation Publication 58UHF-UM001A-EN-P - January 2023 61 Rockwell Automation Support Use these resources to access support information. Technical Support Center Local Technical Support Phone Numbers Technical Documentation Center Literature Library Product Compatibility and Download Center
(PCDC) Find help with how-to videos, FAQs, chat, user forums, Knowledgebase, and product notification updates. Locate the telephone number for your country. Quickly access and download technical specifications, installation instructions, and user manuals. Find installation instructions, manuals, brochures, and technical data publications. Download firmware, associated files (such as AOP, EDS, and DTM), and access product release notes. rok.auto/support rok.auto/phonesupport rok.auto/techdocs rok.auto/literature rok.auto/pcdc Documentation Feedback Your comments help us serve your documentation needs better. If you have any suggestions on how to improve our content, complete the form at rok.auto/docfeedback. Waste Electrical and Electronic Equipment (WEEE) At the end of life, this equipment should be collected separately from any unsorted municipal waste. Rockwell Automation maintains current product environmental compliance information on its website at rok.auto/pec. Allen-Bradley, ControlLogix, expanding human possibility, FactoryTalk, Logix 5000, Rockwell Automation, RSLinx, RSLogix, RSLogix 5000, and Studio 5000 are trademarks of Rockwell Automation, Inc. CIP, CIP Security, and EtherNet/IP are trademarks of ODVA, Inc. Trademarks not belonging to Rockwell Automation are property of their respective companies. Rockwell Otomasyon Ticaret A.. Kar Plaza Merkezi E Blok Kat:6 34752, erenky, stanbul, Tel: +90 (216) 5698400 EEE Ynetmeliine Uygundur Publication 58UHF-UM001A-EN-P - January 2023 Supersedes Publication XXX-XXXXXX-XX-X - Month Year Copyright 2023 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.
1 | 04 Short-Term Confidential Internal Photo | Internal Photos | 1.56 MiB | February 09 2023 / August 09 2023 | delayed release |
1 | 04 Short-Term Confidential External Photo | External Photos | 331.26 KiB | February 09 2023 / August 09 2023 | delayed release |
1 | 06 Label | ID Label/Location Info | 405.22 KiB | February 09 2023 |
Product Label/US Long CAT 58UHF-TR-200-LR50US SER A FW 1.011 SUPPLY : 24V 1A CLASS2/SELVS DIR/VER 10006964463/00 PN-678637 CIP 801FE418 2003259 Rockwell Automation, 1201 S 2ND St, Milwaukee, Wl 53204, USA PRODUCT OF JAPAN OUTPUT : 24V 0.5A MAX INPUT : 24V 15mA MAX SN DE0AA0AA FCC ID : USM-58UHF-LR IC : 26075-58UHFLR ITE E222552 YYYY/MM/DD CONFIDENTIAL item height[mm]
CAT 58UHF-TR-200-LR50US SER A FW 1.011 FCC ID:***
IC:***
SN ********
DIR/VER:***
PN-678637 CIP 801FE418 2003259 PRODUCT OF JAPAN Rockwell Automation, 1201 S 2ND St, Milwaukee, Wl 53204, USA SUPPLY : ***
INPUT : ***
OUTPUT : ***
YYYY/MM/DD ITE E222552 1.2 1.5 1.2 1.5 1.2 1.2 1.5 1.5 1.2 1.2 1.2 1.2 1.2 1.2 1.0 1.0 1.0 1.0 1.2 1.2 1.2
DENSO WAVE INCORPORATED All Rights Reserved. 4
1 | 06 Label and Location | ID Label/Location Info | 186.26 KiB | February 09 2023 |
All products have 2 kind of Label.
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Product Label MAC ID Label The labels are made from UL-rated materials and their durability is verified by accelerated life testing.
1 | 02 FCC 2.911[d][5] Attestation | Attestation Statements | 74.63 KiB | February 09 2023 |
Jim Dogul 2 Executive Dr Chelmsford MA 01824 Tel :978 446 3208 Email:jedogul@ra.rockwell.com CFR 47 2.911 (d)(5) Attestation Date: February-07-2023 FCC ID: USM-58UHF-LR To: Federal Communications Commission 45 L Street NE Washington, DC 20554 USA Rockwell Automation, Inc. (the applicant) certifies that the equipment for which authorization is sought is not covered equipment prohibited from receiving an equipment authorization pursuant to section 2.903 of the FCC rules. 1. Rockwell Automation, Inc. (the applicant) certifies that, as of the date of the filing of the application, the applicant is not identified on the Covered List as an entity producing covered equipment and is not an affiliate or subsidiary of an entity identified on the Covered List. Sincerely yours, Name:
James Dogul Job Title:
Continuation Engineer Company Name: Rockwell Automation, Inc.
1 | 02 FCC Agent for service Attestation from Applicant-as-Agent add FRN | Attestation Statements | 98.05 KiB | April 20 2023 / February 09 2023 |
Jim Dogul 2 Executive Dr Chelmsford MA 01824 Tel :978 446 3208 Email:jedogul@ra.rockwell.com CFR 47 2.911 (d)(7) Agent Designation Attestation Date: April-19-2023 FCC ID: USM-58UHF-LR To: Federal Communications Commission 45 L Street NE Washington, DC 20554 USA Rockwell Automation, Inc. (the applicant) as required by section 2.911(d)(7), will also serve as the agent for service of process for the above referenced FCC ID. The applicant acknowledges that they will maintain an agent for no less than one year after the grantee has terminated all marketing and importation or the conclusion of any Commission-related proceeding involving the equipment. The applicant further acknowledges their responsibility to inform the FCC whenever the agent information changes. James Dogul FRN: 0015553290 Rockwell Automation, Inc. 2 Executive Drive, Chelmsford, Massachusetts 01824, United States jedogul@ra.rockwell.com Sincerely yours, James Dogul Rockwell Automation, Inc. 2 Executive Drive, Chelmsford, Massachusetts 01824, United States jedogul@ra.rockwell.com Rockwell Automation Company 'Confidential'
1 | 02 FCC Authorization Letter | Cover Letter(s) | 246.05 KiB | February 09 2023 |
DENSO DENSO WAVE 58UHF-TR-200-LR50US FCC Authorization Letter November 21, 2022 Letter of Authorization Date: November 21, 2022 UL Verification Services Inc. 47173 Benicia Street, Fremont, CA 94538 Applicant: Rockwell Automation, Inc. FCC ID: USM-58UHF-LR To whom it may concern:
We, the undersigned, hereby authorize Shuichi Ohyama of Consumer, Medical & Information Technologies Division, UL Japan, Inc. to act on our behalf in all manners relating to application for equipment authorization, including signing of all documents relating to these matters. Any and all acts carried out by UL Japan, Inc. on our behalf shall have the same effect as acts of our own. We, the undersigned, hereby certify that we are not subject to a denial of federal benefits, that includes FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 862. This authorization is valid until further written notice from the applicant. The application for the subject equipment has not been submitted to another TCB for certification. Sincerely Yours, Taewota_luaghins Tatsuya Terashima DENSO WAVE Inc. Confidential. Copyright 2022 DENSO WAVE INCORPORATED All Rights Reserved. Version : <000.a>
1 | 02 FCC Request for Confidentiality Letter | Cover Letter(s) | 206.89 KiB | February 09 2023 |
Request for Confidentiality Date: February 3, 2023 UL Verification Services Inc. 47173 Benicia Street, Fremont, CA 94538 Applicant : Rockwell Automation, Inc. FCC ID : USM-58UHF-LR To whom it may concern:
Please be advised that the following information is to be held confidential on behalf of us, referring to the FCC rules 0.457 and 0.459:
Block Diagram Theory of Operation Schematics Parts list The application contains technical information which we deem to be trade secrets and proprietary. If made public, the information might be used to the disadvantage of the applicant in the market place. Thank you for your attention to this matter. Sincerely, Tatsuya Terashima DENSO WAVE Inc.
1 | 02 FCC Request for Short-term Confidentiality Letter | Cover Letter(s) | 202.70 KiB | February 09 2023 |
DENSO DENSO WAVE 58UHF-TR-200-LR50US FCC Request for Short-Term Confidentiality November 21, 2022 Request for Short-Term Confidentiality Date: November 21, 2022 UL Verification Services Inc. 47173 Benicia Street, Fremont, CA 94538 FCC ID : USM-S8UHF-LR Applicant: Rockwell Automation, Inc. To whom it may concern:
Please be advised that the following information is to be held in confidence for 180 days from the date of the Grant of Equipment Authorization based on the FCC rules 0.457 and 0.459:
External Photos Internal Photos Test Setup Photos User Manual The application contains technical information, which we deem to be trade secrets and proprietary. If made public, the information might be used to the disadvantage of the applicant in the market place. Thank you for your attention to this matter. Sincerely, Tatsuya DENSO WAVE Inc. Confidential. Copyright 2022 DENSO WAVE INCORPORATED All Rights Reserved. Version : <000.a>
1 | 02 FCC Special Power of Attorney | Cover Letter(s) | 341.29 KiB | February 09 2023 |
Rockwell Jim Dogul Automation 2 Executive Dr Chelmsford MA 01824 Tel 978 446 3208 Email: jedogulgra.rackwell-com Special Power of Attorney Date: November 2, 2022 Place: United States of America RE: FCC ID's: USM-S8UHF-SR, USM-58UHF-LR To whom it may concer:
| James Dogul of Rockwell Automation, Inc. (Grantee Code: USM) hereby appoint DENSO WAVE Inc. to represent me to act on my behalf to do any and all of the following:
Sign the following documents on my behalf and apply to FCC for the products
- Letter of agency and anti-drug e Confidentiality cover letters
- Any other application document that requires a signature by grantee. The rights, powers and authority in fact to exercise any and all of the rights and powers herein granted shall commence and be in full force and effective from 2 November 2022 unless specifically extended or terminated by either party. expanding human possibility 1201 S- SECOND STREET, MILWAUKEE, WI, USA53204 @ Allen-Bradley Oservices @ FactoryTalk
1 | 03 Short-Term Confidential FCC Test Setup Photo DSS | Test Setup Photos | 321.52 KiB | February 09 2023 / August 09 2023 | delayed release |
frequency | equipment class | purpose | ||
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1 | 2023-02-09 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
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1 | Effective |
2023-02-09
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Rockwell Automation, Inc.
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0015553290
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2 Executive Drive
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Chelmsford, Massachusetts 01824
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United States
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L******@ul.com
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1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
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app s | FCC ID | |||||
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USM
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1 | Equipment Product Code |
58UHF-LR
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1 | Name |
J****** D****
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1 | Title |
Design Engineer
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978-4********
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978-4********
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j******@ra.rockwell.com
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app s | Technical Contact | |||||
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UL Japan, Inc.
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1 | Name |
R**** Y****
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1 | Physical Address |
4383-326 Asama-cho, Ise-shi
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1 |
Mie-ken, 516-0021
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Japan
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1 | Telephone Number |
81-59********
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81-59********
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1 |
R******@ul.com
|
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app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 08/09/2023 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | UHF RFID Transceiver 58UHF Long US Band | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power listed is Conducted(Peak). The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 90 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter except the conditions shown in this filing and/or in accordance with FCC multi-transmitter product guidelines. End-users and installers must be provided with transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
UL Japan, Inc.(Ise)
|
||||
1 | Name |
T******** S********
|
||||
1 | Telephone Number |
81-59********
|
||||
1 | Fax Number |
81-59********
|
||||
1 |
T******@ul.com
|
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.75000000 | 927.25000000 | 0.8356000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC