FCC ID: S5751306799 Low Cost ISA 100 Radio Module (51306799-001)

 

Table of Contents CHAPTER 1 GENERAL. 1-1 1.1 Product Introduction. 1-1 1.2 Target Audience for this Manual . 1-2 CHAPTER 2 SAFETY . 2-1 2.1 Safety Conventions. 2-1 2.1.1 Warnings . 2-1 2.1.2 Cautions . 2-1 2.2 Safety Instructions for the WFI . 2-2 2.2.1 General . 2-2 2.2.1.1 EC declaration of conformity (for EU) . 2-3 2.2.1.2 Control Drawings for FM and CSA . 2-3 2.2.1.3 Users. 2-3 2.2.1.4 Additional information . 2-4 2.2.1.5 Environmental Conditions . 2-4 2.2.2 Personal Safety. 2-4 2.2.2.1 General . 2-4 2.2.2.1.1 Repairs and Maintenance. 2-4 2.2.2.1.2 Opening of the Device . 2-4 2.2.2.1.3 Tools . 2-5 2.2.2.1.4 Working Environment . 2-5 2.2.2.1.5 Required Skills . 2-5 2.2.2.2 Commissioning . 2-5 2.2.2.3 Maintenance and troubleshooting. 2-5 2.2.2.4 Grounding . 2-5 2.2.3 Electrical . 2-5 2.2.3.1 Safety Standards. 2-5 2.2.3.2 Accordance to Regulations . 2-6 2.2.3.3 Explosion Safety . 2-6 2.2.3.4 Compliance to FCC. 2-6 2.2.3.5 Low-Voltage Directive . 2-6 2.2.3.6 Reference of Applicable Standards. 2-6 2.2.3.7 WFI Labels . 2-7 2.3 Liability. 2-8 CHAPTER 3 SYSTEM DESCRIPTION . 3-1 3.1 Introduction . 3-1 3.2 System Architecture . 3-1 Part No.: Rev01 Wireless Field Interface Installation & Operation Manual i Table of Contents 3.3 FlexConn Modules. 3-1 3.3.1 General . 3-1 3.3.2 Grounding Concept. 3-3 3.3.3 Enclosure Earth Details. 3-4 3.3.4 Field Wiring . 3-5 3.3.5 PCB Details. 3-7 3.3.5.1 CAN-1WL Board . 3-7 3.3.5.2 CAN-BPM module. 3-8 3.3.5.2.1 Functions . 3-8 3.3.5.2.2 Terminal Descriptions . 3-9 3.3.5.3 FII-SMV (HMI-TSI) . 3-9 3.3.5.3.1 Functions . 3-9 3.3.5.3.2 Terminal Descriptions . 3-10 3.3.6 CAN-PSX module - Power Supply . 3-12 3.3.6.1 Functions. 3-12 3.3.6.1.1 Terminal Descriptions . 3-13 CHAPTER 4 INSTALLATION . 4-1 4.1 Mounting the Antenna. 4-1 4.2 Mounting Dimensions. 4-3 ii Wireless Field Interface Installation Manual Part No.: Rev01 General - Product Introduction CHAPTER 1 GENERAL 1.1 Product Introduction The Wireless Field Interface (WFI) adds a wireless capability to the existing servo or the radar gauge by supporting the GPU protocol which is compliant with the ISA100 standards. It consists of multiple electronic boards, an antenna cable, and an antenna. The WFI communicates with the servo or the radar gauge through the Honeywell Enraf field bus Bi-Phase Mark, processes the data, and forwards the information wirelessly to the Wireless Device Manager (WDM) which is compliant with the ISA100 standards. The complete network including the WFI is based on the ISA100 wireless field device network. Also, there are different ways of communication which are as follows:

The protocol tunnel (Engauge and Entis) Function blocks (Experion integration) FIGURE 1-1 Wireless Field Interface (WFI) Part No.: Rev01 Wireless Field Interface Installation Manual 1 - 1 General - Target Audience for this Manual 1.2 Target Audience for this Manual This manual is intended for engineers and technicians, who are assigned to install, commission, and service the WFI. Also, all Honeywell Enraf customers who use wireless. 1 - 2 Wireless Field Interface Installation Manual Part No.: Rev01 Safety - Safety Conventions CHAPTER 2 SAFETY 2.1 Safety Conventions 2.1.1 Warnings The following warning mark is used within this document to urge attention in order to prevent personal injuries or dangerous situations, further described in this document. Symbol Description General warning Remark Will always be explained by text. 2.1.2 Cautions The following caution mark is used within this document to urge attention in order to prevent damages to the equipment, further described in this document. Symbol Description General caution sign Electrostatic Discharge (ESD) sensitive device Part No.: Rev01 Wireless Field Interface Installation Manual 2 - 1 Safety - Safety Instructions for the WFI 2.2 Safety Instructions for the WFI The WFI device is used for converting the wired communication of various Honeywell Enraf equipment into a wireless transmission. FIGURE 2-1 Wireless Field Interface (WFI) 2.2.1 General WARNING! You must strictly follow instructions mentioned in this manual and the safety instructions shipped with the WFI device for installation, commis-

sioning, operation, and maintenance, for the safe operation of the WFI device. the safety 2 - 2 Wireless Field Interface Installation Manual Part No.: Rev01 Safety - Safety Instructions for the WFI The WFI may be located in explosion safety areas as follows:

USA (FM) and Canada (CSA) Canada (CSA) Remarks Safety level Class 1, Division 1 Class 1, Division 2 Remarks Safety level Zone 1 Zone 2 Safety level Zone 1 Zone 2 WARNING!

Do NOT open when an explosive atmosphere may be present. CAUTION!

Seal conduit within 18 inches. WARNING!

Do NOT open when an explosive atmosphere may be present. CAUTION!

Seal conduit within 18 inches. WARNING!

Do NOT open when an explosive atmosphere may be present. CAUTION!

Seal conduit within 18 inches. WARNING!

Do NOT open when an explosive atmosphere may be present. CAUTION!

Seal conduit within 18 inches. Rest of the World

(ATEX / IECEx) Remarks WARNING!

Do NOT open when an explosive atmosphere may be present. WARNING!

Do NOT open when an explosive atmosphere may be present. Safe Area

-

Safe Zone

-

Safe Zone

-

2.2.1.1 EC declaration of conformity (for EU) Refer to the EC declaration of conformity and the ATEX certificate(s), shipped with the WFI device for EC declarations. 2.2.1.2 Control Drawings for FM and CSA Refer to the control drawings shipped with the WFI for FM and CSA. 2.2.1.3 Users The mechanical and electrical installation must be performed only by trained people with the knowledge of the requirements for installation of explosion proof equipment in hazardous areas. The entire installation procedure for the WFI must be implemented in accordance with national, local, and company regulations. The entire electrical installation may be performed in accordance with the national requirements for electrical equipment to be installed in hazardous areas. Part No.: Rev01 Wireless Field Interface Installation Manual 2 - 3 Safety - Safety Instructions for the WFI NOTE: See EN IEC 60079-14 document for more infor-

mation. 2.2.1.4 Additional information For additional information about Honeywell Enraf solutions, see the back cover of its representative. to contact Honeywell Enraf or this manual 2.2.1.5 Environmental Conditions The environmental conditions regarding the permissible operating temperature for the WFI is -40 C to +65 C (-40 F to +149 F). The relative humidity is RH 5 to 95%, non-condensing. 2.2.2 Personal Safety WARNING!

In hazardous areas, it is compulsory to use personal protection and safety gear. Safety can be achieved by using the following equipment:

1. Safety helmet 2. Fire-resistive overall 3. Safety shoes 4. Safety glasses 5. Working gloves 6. LEL-meter Pay attention to the kind of product involved. If there is any danger to your health, wear a gas mask and take all the necessary precautions. WARNING! Take appropriate precautions when chemical or toxic

(compressed air, product vapors are present chemical protection suit, detection equipment). 2.2.2.1 General 2.2.2.1.1 Repairs and Maintenance WARNING! Any repairs or parts replacements must be performed by the manufacturer or its appointed repair agent. 2.2.2.1.2 Opening of the Device WARNING!

It is forbidden to open the WFI device within an explosive hazardous environment in power, unless otherwise stated on the safety label. WARNING! Treat the flange surface of the cover and the housing with care. Keep the flange surface free of dirt. The O-ring must be present and undamaged. 2 - 4 Wireless Field Interface Installation Manual Part No.: Rev01 Safety - Safety Instructions for the WFI 2.2.2.1.3 Tools WARNING! Use non-sparking tools and explosion-proof testers. Use suitable explosion-proof tools (for example, testing devices). 2.2.2.1.4 Working Environment WARNING! Avoid generation of static electricity. Make sure the explosive gas mixtures are not available in the working area. 2.2.2.1.5 Required Skills WARNING! The technician must have technical skills to be able to safely install the WFI device. The technician also must be trained to work in accordance with the national requirements for electrical equipment in hazardous areas. 2.2.2.2 Commissioning The commissioning of the device is conducted by qualified engineers trained by Honeywell Enraf and with the knowledge of the (local and national) requirements for electrical equipment in (potentially) explosive atmospheres. 2.2.2.3 Maintenance and troubleshooting If the WFI device does not function accurately, only a qualified service engineer, trained by Honeywell Enraf and with the knowledge of safety regulations for working in (potentially) explosive atmospheres are allowed to repair the WFI device. 2.2.2.4 Grounding Make sure the housing of the device is properly connected to ground reference. See FIGURE 3-5. Make sure the electrical resistance of the ground connections is below the maximum prescribed by local requirements. 2.2.3 Electrical 2.2.3.1 Safety Standards The entire electrical installation must be in accordance with the Inter-

national Standard EN IEC 60079-14 for electrical equipment in hazardous areas. The stopping plugs, cable glands, and reducers must be installed in accordance with the appropriate IP requirements. Use the bolts that are property class A2-70 or better captured types and are not user replaceable. Contact Honeywell Enraf if you need to replace the bolts. Use suitable flameproof (Ex d) compound cable glands or conduit seals. Part No.: Rev01 Wireless Field Interface Installation Manual 2 - 5 Safety - Safety Instructions for the WFI Improper installation of cable glands, threaded adaptors, stopping plugs, and their interface invalidates the Ex approval of the WFI device. Accurate dimensions of the flameproof joints must be used. Contact Honeywell Enraf for information regarding the dimensions of the flameproof joints. 2.2.3.2 Accordance to Regulations 2.2.3.3 Explosion Safety Approval ATEX IECEx FM Certificate no. Approval pending Approval pending Approval pending CSA Approval pending Type of protection identification II 2 G Zone 1 Class I, Division 1 Class I, Division 1 Zone 1 Ex d [ia] IIB T6 Gb group C, D T6 group C, D T6 Ex d [ia] IIB T6 Ta = -40 C ... +65 C

(-40 F ... +149 F) 2.2.3.4 Compliance to FCC This device complies with Part 15 of the FCC Rules. The WFI device does not cause any harmful interference and accepts any interference received. 2.2.3.5 Low-Voltage Directive The device is suitable for 2006/95/EC. The applicable standard value is IEC 61010-1 (3rd Edition). 2.2.3.6 Reference of Applicable Standards Standard ATEX 95 IECEx FM CSA Description Applicable for manufacturers of equipment used in places where explosion danger may exist. The IECEx System is an International Conformity System where a Mark of Conformity is granted by approved IECEx certifiers (ExCBs) located in IECEx participating countries for equipment that is covered by an IECEx Certificate of Confor-

mity and hence has been tested and manufactured under systems that are under ongoing surveillance by ExCBs. Factory Mutual Approvals Division The Factory Mutual Approvals Division determines the safety and reliability of equipment, materials, or services utilized in hazardous locations in the United States and elsewhere. Canadian Standards Association The standards generated by CSA are the cornerstone for determining a product's eligibility for certification in hazardous locations in Canada. 2 - 6 Wireless Field Interface Installation Manual Part No.: Rev01 Safety - Safety Instructions for the WFI 2.2.3.7 WFI Labels NOTE to FM label:

Ta = -40 F to +149 F FIGURE 2-2 Identification labels with Safety note on the WFI Part No.: Rev01 Wireless Field Interface Installation Manual 2 - 7 Safety - Liability 2.3 Liability The information in this installation guide is the copyright property of Honeywell International Inc. Honeywell International Inc. disclaims any responsibility for personal injury or damage to equipment caused by:

Deviation from any of the prescribed procedures. Execution of activities that are not prescribed. Neglect of the safety regulations for handling tools and use of elec-

tricity. The contents, descriptions, and specifications in this manual are subject to change without notice. Honeywell International Inc. accepts no responsibility for any errors that may appear in this manual. WARNING! Only certified technicians are authorized to make changes to the WFI configuration. All modifications must be in accordance with the guidelines as set forth by Honeywell International Inc. Modifications not authorized by Honeywell International Inc. inval-

idates the approval certificates. 2 - 8 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - Introduction CHAPTER 3 SYSTEM DESCRIPTION 3.1 Introduction 3.2 System Architecture The WFI is a box that can be installed next to an installed Servo/Radar gauge. The WFI retrieves the information from this gauge and sends the information wirelessly to the supervisory level. This is an ISA100 compliant solution that supports transducer blocks for transferring basic process values to the supervisory level and supports the GPU tunnel to connect to the Engauge (maintenance) and Entis

(inventory management package) systems. See FIGURE 3-1. Experion Entis CIU WDM FDAP WFI Servo Gauge ISA100 Wireless Interface BPM Interface Engauge service tool FIGURE 3-1 WFI architecture overview 3.3 FlexConn Modules 3.3.1 General One of the main characteristics of the FlexConn architecture is the placement flexibility of the FlexConn modules. The backbone of this Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 1 System Description - FlexConn Modules concept is the serial CAN1 bus to which each FlexConn module connects.

= terminating resistor FII-SMV/SPARE HCW-1WL FCW-BPM CAN-PSX FIGURE 3-2 FlexConn CAN bus concept CAN-L CAN-H Inside the enclosure, the following modules are available. FII-SMV or Spare Module HCW-1WL FCW-BPM The stack of modules are mounted on the DIN Rail and placed vertically inside the enclosure as illustrated in FIGURE 3-3. 1. Controller Area Network. 3 - 2 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - FlexConn Modules FII-SMV/SPARE Radio Board FCW-BPM CAN-PSX DIN rail FIGURE 3-3 FlexConn board sequencing Module Radio Board CAN-PSX CAN-BPM FII-SMV Description Includes the circuit of 1WL Main Board and Carrier Boards. It is assembled with DFSS Radio or LCRB and Barrier Boards. Generates the power of 15 V DC with auxiliary supply. Provides an interface to a BPM based Enraf field bus to communicate with Servo/Radar Gauge. Connects the display type SmartView with a standard CAN bus. 3.3.2 Grounding Concept Each printed circuit board has 2 grounding points. These grounding points are used to electrically connect every board with the metal housing. This is performed by means of metal spacers, which are pressed into the boards. See FIGURE 3-4. Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 3 System Description - FlexConn Modules Grounding points FIGURE 3-4 Grounding concept 3.3.3 Enclosure Earth Details Inside the enclosure, 2 Protected Earthing (PE) or Mains input earth points and 1 external point is available to connect to the field earth point. See FIGURE 3-5. 3 - 4 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - FlexConn Modules FIGURE 3-5 The grounding connections for the WFI 3.3.4 Field Wiring The mains input and the CAN-BPM signal lines enter the enclosure through different glands from one side of the enclosure. The mains input (Line and Neutral) cable wires terminate on the PSX module connector. The mains input earth wire terminates on one of the PE points provided inside the enclosure. From the PE point inside the enclosure, the PSX gets the PE connection through the wire terminated on the PSX connector. The CAN-BPM signals cable from the servo gauge enters the enclosure with the gland and terminates on the CAN-BPM module connector. The CAN-BPM module then gets the earth wire from the PE point inside the enclosure. See FIGURE 3-6. Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 5 System Description - FlexConn Modules FII-SMV cable Antenna Coaxial Cable Ground Points BPM Interface cable Field Earth

(External) Mains Input FIGURE 3-6 Field wiring 3 - 6 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - FlexConn Modules 3.3.5 PCB Details 3.3.5.1 CAN-1WL Board The CAN-1WL board is used to interface data between a FlexConn system and the OneWireless network (including the antenna). The 1WL main board occupies a single slot in the FlexConn rail and the other three boards (1WL carrier board, 1WL radio board, and 1WL barrier board) are mounted together to form the second FlexConn board. See FIGURE 3-7. FIGURE 3-7 CAN-1WL board layout The functions of the CAN-1WL board are as follows:

1WL main board FlexConn electronics Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 7 System Description - FlexConn Modules 3V3 power supply SD card interface 5V / 3V3 level converter 1WL carrier board Filter the 3V3 power supply 1WL radio board OneWireless radio board 1WL barrier board Barrier board 3.3.5.2 CAN-BPM module 3.3.5.2.1 Functions The CAN-BPM module provides an interface to a BPM based Enraf field bus. It is a communication print that is based on Flexconn and can be installed in a SmartLink (new CIU) or in a new instrument such as a Flexconn based radar or servo gauge. The CAN-BPM print in a SmartLink is called FCM-BPM module. See FIGURE 3-8. FIGURE 3-8 CAN-BPM board layout 3 - 8 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - FlexConn Modules 3.3.5.2.2 Terminal Descriptions CN2 - BPM Pin no. 1 2 3 4 Name/Signal TL1 TL2 n.c/spare PE (optional) LEDs Items LE1 LE2 LE3 Description Error indication Follows TxD on BPM line (TXEFB1) Follows RxD on BPM line (RXEFB) 3.3.5.3 FII-SMV (HMI-TSI) 3.3.5.3.1 Functions The FII-SMV (HMI-TSI) module is intended to connect the display type SmartView with a standard CAN bus. The display is an intrinsic safe device. The interface module is located within an Ex d enclosure or in a safe area and provides intrinsic safe circuits for the supply and communication to the display module. See FIGURE 3-9. The module implements the following functions. Description Safe_+ = 10V for the SmartView display module, isolated (Ex certified) RS485 for the SmartView display module, isolated (Ex certified) Software, processing messages from/to the SmartView display unit and CAN-BUS Software, processing messages from/to the SmartView display unit and CAN-BUS Function Supply 10 V RS485 Local service Display interface Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 9 System Description - FlexConn Modules CN2 CN3 TR1 FIGURE 3-9 FII-SMV board layout CN1 3.3.5.3.2 Terminal Descriptions LE1 is connected to the Vdc output signal. Connectors Connectors CN1 CN2 CN3 CN4 Description CAN-BUS Display output Display output Program Header 3 - 10 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - FlexConn Modules Description Isolated secondary ground Isolated DC supply output Isolated RS485 A input/output Isolated RS485 B input/output CN1 Pin no. Name/Signal 1 2 3 4 5 W&M CAN_H CAN_L Vdc = + 15 V GND CN2 Pin no. Name/Signal 1 2 3 4 SGND Vsafe_+

Safe_A Safe_B CN4 Pin no. Name/Signal 1 2 3 4 5 6 7 8 9 10 P00 P01 MD0 MD2 RST SIN0 SOT0 SCK0 Vcc GND LEDs Items LE1 LE2 LE3 Description Error indication Application specific Application specific Jumpers Items JP1 JP2 JP3 Description W&M entities protection Password read protection Write protection all entities Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 11 System Description - FlexConn Modules Items JP4 JP5 JP6 Description Spare Spare Termination of CAN-bus 3.3.6 CAN-PSX module - Power Supply 3.3.6.1 Functions The CAN Power supply (+15V DC) is intended to power up the FlexConn modules. It can be used within the application and also within an Ex-d enclosure. See FIGURE 3-10. The module implements the following specifications. Item AC Input Voltage Range Input Frequency Input Fuse Value Isolation Voltage DC Input Voltage Range Output Voltage Continuous current Specification 65 V - 240 V AC (+10% to -15%) 50 Hz to 60 Hz 10%

1.25 A 4.3 KV 24 V - 65 V DC (+10% to -15%) 15 V DC 4%

1 A 3 - 12 Wireless Field Interface Installation Manual Part No.: Rev01 System Description - FlexConn Modules CN2 Switch board TX1 Main board Boost coil Heatsink Storage FIGURE 3-10 CAN-PSX board layout 3.3.6.1.1 Terminal Descriptions LE1 is connected to the Vdc output signal. Connectors Connectors CN1 CN2 CN3 Description CAN-BUS Mains/DC input Not placed CN1 Pin no. Name/Signal 1 2 3 4 5 n.c. CAN_H CAN_L Vdc = + 15 V GNDa Description Interconnected by 120 1206 Internally connected to CN2, earth PE Part No.: Rev01 Wireless Field Interface Installation Manual 3 - 13 System Description - FlexConn Modules a. CN1 pin 5 may not be used as an extension on the protective earth. However, it may be used as a functional earth pin. CN2 (AC/DC input) Pin no. Name / signal 1 2 3 4 Vin_a Vin_b PE n.c Description Mains or DC + / - input Mains or DC + / - input Earth = PE = GND 3 - 14 Wireless Field Interface Installation Manual Part No.: Rev01 Installation - Mounting the Antenna CHAPTER 4 INSTALLATION 4.1 Mounting the Antenna The antenna is placed on top of the WFI enclosure as shown in the following figure. FIGURE 4-1 WFI antenna To mount the communication antenna on the WFI device, screw the communication antenna clockwise on the lightning arrestor. See FIGURE 4-2. Part No.: Rev01 Wireless Field Interface Installation Manual 4 - 1 Installation - Mounting the Antenna FIGURE 4-2 Mounting the communication antenna NOTE: The lightning arrestor protects the inside electronics from the lightning damage. Although it protects against multiple discharges, it can be replaced as a preventive maintenance action. Preventive main-

tenance interval depends on the location, position of the equipment, grounding, and other protection measures installed. 4 dBi and 8 dBi integral antennas are supported in WFI. For more information about the antenna types supported, refer to the SmartRadar FlexLine Service Manual. 4 - 2 Wireless Field Interface Installation Manual Part No.: Rev01 Installation - Mounting Dimensions 4.2 Mounting Dimensions NOTE: This section will be updated when the mounting dimensions for the WFI is finalized. Part No.: Rev01 Wireless Field Interface Installation Manual 4 - 3 Installation - Mounting Dimensions 4 - 4 Wireless Field Interface Installation Manual Part No.: Rev01

 

 

___________________________________________________________________________ LowcostRFModule(LCRM)UserManual ProductManual ForRFModulepartnumbers, RadioAssembly:51306799 Printedwiringboardno:51306798 2.4GHz,802.15.4Module Copyright2013byHoneywellInternationalInc. Revision3,April28,2013 __________________________________________________________________________________________ LCRMUserManualPage1of11RevisionNo3.0April28,2013 ___________________________________________________________________________ DocumentRevisionHistory Date Feb22,2011 May30,2011 April28,2013 Antony Author Abhijit Biswas ModifiedafterReviewwithTUV Description/Changes Initial ReReleasedforC2PC Revision 1.0 2.0 3.0 __________________________________________________________________________________________ LCRMUserManualPage2of11RevisionNo3.0April28,2013 ___________________________________________________________________________ Contents 1. COMPLIANCESTATEMENTS:................................................................................................................4 1.1FCCCOMPLIANCESTATEMENTS.......................................................................................................................4 1.2ICCOMPLIANCESTATEMENTS..........................................................................................................................5 2. DESCRIPTION:.....................................................................................................................................6 3. FEATURES:..........................................................................................................................................6 4. ELECTRICALCHARACTERISTICS............................................................................................................6 5. PINOUTDETAILS.................................................................................................................................6 6. MECHANICALSPECIFICATION..............................................................................................................7 CONFIGURATIONSOFTWARE..............................................................................................................8 7. 8. APPROVEDANTENNATYPES/GAINS...................................................................................................8 SETTINGTXPOWER.............................................................................................................................9 9. 10. INSTRUCTIONTOOEMINSTALLER.....................................................................................................10 11. LIMITEDMODULARAPPROVAL.........................................................................................................11 12. AGENCYLABELINFORMATION..........................................................................................................11 __________________________________________________________________________________________ LCRMUserManualPage3of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 1. Compliance Statements:

1.1 FCC Compliance Statements This device complies with Part 15 of the FCC rules. Operation is subject to following two conditions:

1. 2. This device may not cause harmful interference and This device must accept any interference received including interference that may cause undesired operation of this device. The changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. To comply with the FCC RF exposure compliance requirements, this device and its antenna must not be co-located or operating to conjunction with any other antenna or transmitter, except if installed in compliance with FCC Multi Transmitter procedures. To inherit the modular approval, the antennas for this transmitter must be installed to provide a separation distance of 20cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter To OEM Installer:

2. 1. FCC ID on the final system must be labeled with Contains FCC ID: S5751306799 Or Contains transmitter module FCC ID: S5751306799. In the user manual, final system integrator must ensure that there is no instruction provided in the user manual to install or remove the transmitter module. 3. Transmitter module must be installed used in strict accordance with the manufacturers instructions as described in the user documentation that comes with the product. The user manual of the final host system must contain the following statements:

This device complies with Part 15 of the FCC rules. Operation is subject to following two conditions: 1. This device may not cause harmful interference and 2. This device must accept any interference received including interference that may cause undesired operation of this device. The changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. To comply with the FCC RF exposure compliance requirements, this device and its antenna must not be co-located or operating to conjunction with any other antenna or transmitter, except if installed in compliance with FCC Multi Transmitter procedures. To inherit the modular approval, the antennas for this transmitter must be installed to provide a separation distance of at least 20cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter Note:

The buyer of the module who will incorporate this module into his host must submit the final product to the manufacturer of the module and the MANUFACTURER OF THE MODULE WILL VERIFY that the product is incorporated in host equipment in a way that is represented by the testing as shown in the test report. __________________________________________________________________________________________ LCRMUserManualPage4of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 1.2 IC Compliance Statements 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. Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. Conformment la rglementation d'Industrie Canada, le prsent metteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou infrieur) approuv pour l'metteur par Industrie Canada. Dans le but de rduire les risques de brouillage radiolectrique l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonne quivalente (p.i.r.e.) ne dpasse pas l'intensit ncessaire l'tablissement d'une communication satisfaisante. This radio transmitter has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. Le prsent metteur radio a t approuv par Industrie Canada pour fonctionner avec les types d'antenne numrs ci-dessous et ayant un gain admissible maximal et l'impdance requise pour chaque type d'antenne. Les types d'antenne non inclus dans cette liste, ou dont le gain est suprieur au gain maximal indiqu, sont strictement interdits pour l'exploitation de l'metteur. To inherit the modular approval, the antennas for this transmitter must be installed to provide a separation distance of at least 20cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter Note:

The buyer of the module who will incorporate this module into his host must submit the final product to the manufacturer of the module and the MANUFACTURER OF THE MODULE WILL VERIFY that the product is incorporated in host equipment in a way that is represented by the testing as shown in the test report. __________________________________________________________________________________________ LCRMUserManualPage5of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 2. Description:

Low Cost ISA100 Radio Module is 2.4GHz band 802.15.4 Radio. This module includes 16 Bit Microcontroller which is interfaced to a 802.15.4 compliant Radio Transceiver to provide Wireless communication over 15Channels of 2.4GHz band. The module also includes RF Power Amplifier and RF Low Noise Amplifier the range of Wireless communications. The Module can communicate with the target boards through its connector over SPI. It can send out or receive, data - sent by or sent to, the target board through this SPI connection. Protocol specific Modulation/De-Modulation is done in radio transceiver and the 802.15.4 packet is taken care by Radio Transceiver on the Module. to enhance 3. Features:

Operating frequency No. of channel Channel spacing Transmitted power Modulation Data rate

: 2.4 to 2.483GHz

: 15

: 5MHz (2405,2410,..2475)

: -7 to +20dBm (adjusted as per antenna)

: DSSS

: 250kbps 4. Electrical Characteristics Operating Voltage Operating Temperature : -40 deg C to +85 deg C. Current Consumption:

: 2.7V to 3.6V Receive Mode (Rx) Transmit Mode(Tx) Sleep Mode

: 33mA

: 220mA

: 13uA Absolute Maximum Ratings Voltage Applied 3.6

-50C to +105C Storage Temperature Operating Temperature

-40C to +85C 5. Pin out Details 2 GND 4 I/O 6 SPI_MISO 1 GND 3 I/O 5 SPI_CLK 7 SPI_MOSI 8 SPI_CS 9 VCC 10 VCC Table 1 Pin Out __________________________________________________________________________________________ LCRMUserManualPage6of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 6. Mechanical Specification __________________________________________________________________________________________ LCRMUserManualPage7of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 7. Configuration Software The radio platform can host multiple standard protocol stacks like ISA100, zigbee, 802.15.4 pt to pt and any proprietary protocol stack which could use the same hardware platform running on 802.15.4 physical layer. The configuration parameters for power level, frequencies are adjusted as per the antenna table used during compliance tests. For compliance tests, test software running hyper terminal is used to configure the power levels for the different antenna as per the Table 2. The commands shall be available through host application to communicate to the radio module for configuration of Tx power levels. The power levels are configured in the registers of radio transceiver used on the module and adjusted as per Table 2. The frequencies i.e 15 channels are pre-defined as per 802.15.4 arrangement in 2.4GHz band excluding the last channel i.e 16th channel, 2480MHz. 8. Approved Antenna Types/ Gains Antenna Number Antenna1 Make Model Hyperlink WHON5110001 Antenna2 AntennaFactor ANT2.4OEMHSC002V1 Antenna3 AntennaFactor ANT2.4OEMHSC001V1 Antenna4 AntennaFactor ANTDB1VDPRPS Antenna5 LCOM/Hyperlink HG2405RDRSP Antenna6 Centurion MAF94152 Antenna7 LCOM/Hyperlink HG2409RDRSP Antenna8 Hyperlink HGV2409U Antenna9 LCOM/Hyperlink HG2475URNJ Antenna10 Hyperlink HG2414P120 Antenna11 LCom HG2402RDRRSP Antenna12 LairdTech RD24585OTDRNM Antenna13 LairdTech OD24M5 AntennaGain

(dBi) PowerLevel Setting(dBm) 4 2.2 2.2 3.0 5.5 2.0 9.0 8.0 8.0 14.0 2.2 3.0 5.0 15 15 15 15 11 20 11 15 15 11 15 15 15 Table 2 Antenna Vs Transmit Power List Antenna2,3,4,5,7&11arewithReverseSMAconnector. Antenna1,8,9,10,12&13arewithNtypeconnector. Antenna6iswithMMCXtypeconnector. __________________________________________________________________________________________ LCRMUserManualPage8of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 9. Setting Tx Power Warning! The Low Cost ISA100 Radio Module must be Professionally Installed in accordance with the requirements specified in this document. Only the specified power Settings, antenna types and gains as outlined in this document are valid for Low Cost ISA100 Radio Module installation. The Tx power settings for the radio module are to be configured using a host interface with the module. The module has an SPI communication interface which can communicate to any host carrier. The power settings are provided as configurable parameter through host interface. The configurable parameter will be in terms of RF output power in dBm available at the connector output of the radio board as given in the figures below, Alternatively power levels can be preconfigured in LCRM RF module in factory as per the antenna combination being shipped out with the product. LCRM module can host different types of communication stack software like ISA100, Zigbee, 15.4 pt to pt etc..which can typically use 15.4 physical layer for the wireless communication. Irrespective of the communication stack being ported on the LCRM module, the basic configurations of channels and power levels as per the antenna shall remain same as given in the user manual. As explained above, this can be either done through a professional installation at the field or through a preconfigured power level with a particular antenna combination shipped out from factory. Professional installation has to be done by a person who has sufficient knowledge about settings of radio parameters of the module. It will void OEM installers authority to operate and sell the equipment if this is done incorrectly. __________________________________________________________________________________________ LCRMUserManualPage9of11RevisionNo3.0April28,2013 ___________________________________________________________________________ The power level configurable are given in Table 3 S.No Powerlevel 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 20dBm 19dBm 18dBm 17dBm 15dBm 14dBm 12dBm 11dBm 10dBm 6dBm 4dBm 3dBm 1dBm 0dBm 1dBm 5dBm Table 3 Power Level Supported by LCRM 10. Instruction to OEM installer OEM installer shall refer user manual for configuration of transmit power for type of antenna as given in Table 2. The antennas listed in Table 2 includes N type connector, Reverse SMA connector and MMCX connector. Installer shall use only the antennas which are listed in the table to comply with FCC regulations. Integrators of this module in their end product are instructed to glue the N type antenna connector to the socket of the final product. For the final product OEM installer must ensure that the power settings of the module are not end user accessible. When integrated into OEM products, fixed antennas require installation preventing end-users from replacing them with non-approved antennas. Antennas not listed in the tables must be tested to comply with FCC Section 15.203 (unique antenna connectors) and Section 15.247

(emissions). For non-approved antennas, each installation of the module in the host must be approved by a class II permissive change by the TCB/FCC through Honeywell. __________________________________________________________________________________________ LCRMUserManualPage10of11RevisionNo3.0April28,2013 ___________________________________________________________________________ 11. Limited modular approval This is an RF module approved for limited modular use limited to OEM installation for mobile and fixed applications only. Final antenna installation in the product and operating configurations of the transmitter including antenna gain and cable loss shall comply with FCC regulations. Honeywell must coordinate with OEM integrators to ensure the end-users and installers of products operating with the module are provided with operating instructions to satisfy RF exposure requirements. Integrators are instructed to ensure the end-user has no manual instructions to remove, adjust or install the device. 12. Agency Label Information FCC/ICLabels RF MOD 51306799-001 FCC ID: S5751306799 IC ID: 573I-51306799 __________________________________________________________________________________________ LCRMUserManualPage11of11RevisionNo3.0April28,2013

 

 

Table of Contents CHAPTER 1 Introduction . 1-1 1.1 About this guide . 1-1 1.2 Intended audience . 1-1 1.3 Prerequisite skills . 1-1 1.4 Required Honeywell documentation . 1-1 1.5 What is new in this controlled release . 1-2 1.6 Overview of Wireless Field Interface devices. 1-2 CHAPTER 2 Configuration . 2-1 2.1 Configuring OneWireless infrastructure . 2-2 2.1.1 Configuring WDM using the First Time Configuration Wizard . 2-2 2.1.2 Provision the devices using over-the-air provisioning method . 2-8 2.1.2.1 Removing the provisioning key from Wireless Field Interface gauge . 2-12 2.2 Configuring Wireless Field Interface device . 2-14 2.2.1 Loading the Device Description file . 2-14 2.2.2 Configuring routing assignment . 2-14 2.2.3 Configuring Wireless Field Interface device channels . 2-15 2.2.3.1 Configure Mode and Scale . 2-15 2.2.3.2 Add channels to publication groups. 2-16 2.2.3.3 Remove channels from publication groups . 2-16 2.2.4 Activating Wireless Field Interface device in OneWireless Network . 2-17 2.2.4.1 Activate ENRAF Ethernet UDP interface on the OneWireless user interface . 2-

17 2.2.4.2 Configure CIU Prime and CIU Plus using the Ensite Pro configuration tool 2-18 2.2.4.3 Monitor performance of ENRAF interface . 2-19 2.2.5 Configuring field devices . 2-19 2.2.5.1 Configure field device properties . 2-19 2.2.5.2 Configure publication rate . 2-19 2.3 Configuring the protocol tunneling . 2-22 2.3.1 Configure Wireless Field Interface device interface . 2-23 2.3.2 Configure ENRAF serial interface . 2-23 2.3.2.1 Serial interface connection . 2-24 2.3.3 Configure ENRAF Ethernet/UDP interface . 2-26 2.3.3.1 Install and configure the Lantronix device . 2-26 2.3.3.2 Assign IP address to the Lantronix device . 2-27 2.3.3.3 Configure Standard Serial Tunnel settings on the Lantronix device . 2-28 CHAPTER 3 Firmware Upgrade . 3-1 3.1 Upgrading the WDM firmware . 3-1 3.2 Verifying the WDM firmware revision . 3-2 3.3 Upgrading the Wireless Field Interface device firmware. 3-3 3.4 Upgrading the FDAP/access point firmware. 3-4 3.5 Upgrading the Wireless Field Interface device firmware using the Engauge service tool3-5 Part No.: Rev01 Wireless Field Interface Users Manual 1 - 1 Table of Contents CHAPTER 4 Operations . 4-1 4.1 Reading the Wireless Field Interface device information from SmartView 4-2 1 - 2 Wireless Field Interface Users Manual Part No.: Rev01 Introduction - About this guide CHAPTER 1 INTRODUCTION The following topics describe what is new in the controlled release and the overview of the Wireless Field Interface device. 1.1 About this guide This document describes how to provision, configure, operate, and monitor an ISA100 wireless interface network using the Wireless Field Interface devices. This guide assists you in understanding, and planning the standalone OneWireless Network. 1.2 Intended audience is for Service Engineers, Operators, and This guide intended responsible for planning, configuring, Technicians who are administering, and operating the Wireless Field Interface devices using the OneWireless Network. 1.3 Prerequisite skills It is assumed that you are familiar with the operation of the OneWireless Network. 1.4 Required Honeywell documentation The following documents and sources contain additional information required for deploying OneWirelessNetwork. It is recommended to have these documents readily available for reference. Document ISA100 SmartRadar FlexLine Users Guide OneWireless Wireless Device Manager User's Guide Ensite Pro Configuration Tool Description This document provides the information about provisioning, configuring, operating, and monitoring an ISA100 wireless field device network using the SmartRadar FlexLine field devices. This document describes the procedures to provision, configure, operate, and monitor an ISA100 Wireless wireless field device network using the Wireless Device Manager. This document describes how to work with the configuration tool Ensite Pro. You can download Honeywell documentation from http://www.honeywellprocess.com. You can download Honeywell ENRAF documentation from http://www.honeywellenraf.com. Part No.: Rev01 Wireless Field Interface Users Manual 1 - 1 Introduction - What is new in this controlled release 1.5 What is new in this controlled release This release supports the following enhancements in Wireless Field Interface field devices. Provides the ability to configure the publishing rate of the transducer blocks. Provides the ability to support deployment of the security keys to the Wireless Field Interface field devices, using over-the-air provisioning. Provides the ability to upgrade the Application Firmware on the CAN-

1WL board using the over-the-air firmware upgrade feature. Provides the ability to support GPU and FlexConn protocol tunnel support with Engauge service tool. Supports Honeywell Enraf 854 ATG servo gauge for reading level of the process value. 1.6 Overview of Wireless Field Interface field devices The Wireless Field Interface is a box that can be installed next to an installed Servo/Radar gauge. The Wireless Field Interface retrieves information from this gauge and sends it wirelessly to the supervisory level. 1 - 2 Wireless Field Interface Users Manual Part No.: Rev01 Configuration -

CHAPTER 2 CONFIGURATION The following topics describe how to configure the OneWireless infrastructure, the Wireless Field Interface devices, and the protocol tunneling. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 1 Configuration - Configuring OneWireless infrastructure 2.1 Configuring OneWireless infrastructure 2.1.1 Configuring WDM using the First Time Configuration Wizard After installing the WDM, you need to configure the WDM to enable it to function in the OneWireless Network. The First Time Configuration Wizard guides you through the initial configuration of the WDM. The First Time Configuration Wizard appears ONLY when you log on to the OneWireless user interface for the first time or after the WDM is deleted (returning to factory defaults). Considerations The following are some of the network configuration rules that you must follow while configuring the network properties. FDN and PCN must be on separate subnets. FDN IP address must be outside the FDAP IP address range. FDN subnet mask must include FDN IP address and FDAP IP address range. Default PCN gateway must be on the same subnet as PCN. If you are performing a migration, skip this section and proceed with the tasks available in the OneWireless Migration Users Guide. To configure WDM using the First Time Configuration Wizard 1. Log on to the OneWireless user interface using the default User ID and Password. The First Time Configuration Wizard appears. 2. On the Welcome page of the First Time Configuration Wizard, click Next. WARNING!

2 - 2 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring OneWireless infrastructure 3. On the Wireless Device Manager Configuration page, click Configure New Wireless Device Manager and click Next. 4. On the Wireless Device Manager Settings page, type the WDM Tag Name and the Description. The Tag Name is the unique name that is used to identify the WDM. It can be up to 16 characters long and must begin with an alphabetic character. Do not use special characters in the Tag Name; underscore is the only acceptable character. After completing the initial configuration, you cannot change the WDM name. The Description can be up to 255 characters long. 5. If you need to configure redundant WDM, then under Redundancy Config-

uration, configure the following:

a) Select Enable redundancy for this Wireless Device Manager check box. b) Click the Redundancy Role, as required. You can select either Primary or Secondary option depending on the redundancy role. c) In the Partner PCN IP Address box, type the IP address of the partner WDM. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 3 Configuration - Configuring OneWireless infrastructure WARNING! When redundancy is enabled, the primary WDM is assigned physical ID A and the secondary WDM is assigned physical ID B. The physical IDs are displayed in the UI during normal operation. Tagging the physical hardware with matching labels makes it easy to distinguish the WDMs later. 6. Click Next. The Location Settings page appears. WARNING!

If you have selected the Redundancy Role as Secondary in the Wireless Device Manager Settings page, then the Location Settings page options are disabled. 7. Under Location, select the Country Code. The country code is used to define any location-specific settings within the OneWireless Network. For example, radio frequency options are location dependent and vary depending on the country code setting. After completing the first time configuration, you cannot modify the Country Code. 8. Under ISA 100 Network ID, type the Network ID. The ISA100 Network ID is the unique identifier for the network. It must contain a value between 2 (default) and 65535. After completing the first time configu-

ration, you cannot change the Network ID. 9. Click Next. The Network Settings page appears. 10. Under Field Device Network (FDN), configure the network settings for the wireless field device network as follows. a) Field Device Network IP Address: These settings are used to configure the wireless field device network Ethernet connection for the WDM. This is used for communication with FDAP. WARNING! After completing the initial configuration, you cannot change the Field Device Network IP Address specified in the First Time Configuration Wizard. b) Subnet Mask: A subnet mask identifies the bits of an IP address that are reserved for the network address. For example, if the IP 2 - 4 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring OneWireless infrastructure address of a particular node is 192.168.2.3 with a subnet mask of 255.255.255.0, the subnet mask indicates that the first 24 bits of the address represent the network address. The last 8 bits can be used for individual node addresses on that network. c) Assign Addresses to Field Device Access Points (Enable DHCP Server): Select this check box to enable the WDM to act as the DHCP Server. Ensure you do not select the check box if the network has another DHCP Server. It is recommended to enable the WDM to act as the DHCP Server. d) Field Device Access Point IP Address: This option is enabled only if you have selected the Enable DHCP Server check box. Accept the default range or configure the IP address range according to the network settings in the plant network. The WDM that acts as the DHCP Server assigns IP addresses based on the range specified. Ensure that the IP addresses of the Access Points are not within the DHCP address range. If you do not enable DHCP Server during the first time configu-

ration, it is possible to enable this at a later stage using the Property Panel. WARNING! DHCP server configuration option is disabled on a secondary WDM. 11. Under Process Control Network (PCN), configure the process control network settings as follows. Process Control Network IP Address: The process control network settings are used to configure the process control network Ethernet connections for the WDM. This is used for communication with moni-

toring applications and external controllers. Subnet Mask Default gateway: Used to access the subnets outside the PCN subnet. This is an optional configuration option. 12. Click Next. The Network Time page appears. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 5 Configuration - Configuring OneWireless infrastructure WARNING! The network time settings configuration is disabled on the secondary WDM. Upon synchronization, the secondary WDM syncs time from primary over the FDN interface. WARNING! Network time settings configuration is disabled on the secondary WDM. Upon synchronization, the secondary WDM syncs time from primary over the FDN interface. 13. Click Use NTPServer or Use System Time, as required. You can use either the NTP server or system time to configure the network time of the OneWireless Network. NOTE: By default, the network time is configured as the system time. Consider the following while configuring an external NTP server. NTP server should be on the PCN or FDN. NTP server IP address must be within FDN or PCN subnet unless a default gateway has been configured on the PCN subnet and the NTP server is accessible through the default gateway. NTP server IP address should not overlap with the FDN and PCN IP addresses. NTP server IP address should not overlap with FDAP IP address range, if DHCP Server is enabled. 14. If you are selecting NTP server, enter the NTP Server IP Address and click Next. The Administrator Information page appears. 15. Type the user name and password in the Administrator Name, New Password, and Confirm Password fields. The default user name configured for the WDM is administrator. You can change the default user name in the First Time Configuration Wizard, if required. However, you cannot change the user name after completing the initial configuration. The password must contain at least one character and can contain up to 32 characters. It should not start or end with a space and must not contain single quote (). 2 - 6 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring OneWireless infrastructure 16. Click Next. The Configuration Summary page appears which displays the summary of all the configuration information specified in the First Time Configuration Wizard. An incorrect entry is indicated by a warning icon. Hovering the mouse over the icon displays a tooltip with the information about the incorrect entry. 17. Verify the WDM settings, correct errors if any, and then click Finish. If there are any errors in the configuration information that you have provided, then the system does not allow you to click Finish. 18. On the Browser Redirect dialog box, click OK. The wizard redirects the Web browser to the revised process control network IP address. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 7 Configuration - Configuring OneWireless infrastructure WARNING!

If you are configuring the WDM to use the same process control network IP address, then the wizard redirects the Web browser. If you have configured the WDM using a different PCN IP subnet than the computer, then you need to reconfigure the network settings of the computer to access the user interface using the IP address on the new subnet. 2.1.2 Provision the devices using over-the-air provisioning method the Devices in the OneWireless Network can be provisioned using over-the-

air provisioning method. WDM provisions the access points and the access points that are enabled to function as provisioning devices can provision field devices. To enable over-the-air provisioning capability, you must enable this feature in the user interface. Any access point that is in the factory default state, when connected to the OneWireless Network can join the network as an unprovisioned device. In this state, the WDM contains only the basic details about the device such as the Tag Name, EUI64, and Radio Revision. Also, there is no active data communication between the WDM and the device in the unprovisioned state. You can accept or reject an unprovisioned device using the user interface. If accepted, the WDM sends the provisioning data to the device and the device transitions to provisioning state. A device with the new security data sends join request to the WDM. To provision the access points using over-the-air provisioning method 1. On the Selection Panel, select the WDM. 2. On the Property Panel, expand System Manager. 2 - 8 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring OneWireless infrastructure 3. Under ISA100 Network Provisioning, in the Over the Air Provisioning group, select Enabled. The WDM is enabled for over-the-air provisioning support. 4. Click Apply. The unprovisioned access points start appearing in the Selection Panel. You can filter the device list to view only the unprovisioned access points in the network. 5. On the ribbon bar, in the Filter group, click Device Status > Un-Provi-

sioned. 6. Expand the extended Selection Panel to view the available device parameters. 7. Select the required access point in the Selection Panel or the map view and then click Accept on the ribbon bar. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 9 Configuration - Configuring OneWireless infrastructure NOTE: You can select multiple access points using the Selection Panel or the map view. Use SHIFT+click to select multiple items in a successive list. Use CTRL+click to select multiple items not in succession. It is recommended that you select and accept only 10 devices at a time. The Accept Over the Air Devices dialog box appears. The dialog box displays all the unprovisioned access points that you have selected for enabling over-the-air provisioning. 8. Click Accept. The Progress column displays the status as In Progress, Provi-

sioning, and then Completed when complete. Do not close the dialog box when over-the-air provisioning is initiated for devices. 9. Click Close. The Accept Over the Air Devices dialog box closes. WARNING! R220 Wireless Field Interface devices can only be provisioned using the over-the-air provisioning method. To provision Wireless Field Interface devices using over-the-air provisioning method 1. On the Selection Panel, select the access point. 2. On the Property Panel, expand Device Management. 2 - 10 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring OneWireless infrastructure 3. Under Over The Air Provisioning, click Enable for 60 Minutes. The access point functions as a provisioning device for 60 minutes. The unprovisioned Wireless Field Interface devices that are in the factory default state start appearing in the Selection Panel. Note that if you do not accept or reject the devices within 60 minutes, the devices automatically disappear from the user interface. 4. To filter the Wireless Field Interface device list:

On the ribbon bar, in the Filter group, click Device Status > Un-Provi-

sioned. The unprovisioned devices appear in the Selection Panel. The extended Selection Panel enables you to view the available device parameters. The device establishes a communication link with the access point after it attains the unprovisioned state. This link persists even if the device is not provi-

sioned using the connected access point. If the device needs to be provisioned using a different access point, reject the device and then delete it from the user Part No.: Rev01 Wireless Field Interface Users Manual 2 - 11 Configuration - Configuring OneWireless infrastructure interface, so that the device can rejoin through a different access point for provi-

sioning. 5. Select the required Wireless Field Interface device in the Selection Panel or the map view and then click Accept on the ribbon bar. NOTE: You can select multiple access points using the Selection Panel or the map view. Use SHIFT+click to select multiple items in a successive list. Use CTRL+click to select multiple items not in succession. It is recommended that you select and accept only 10 devices at a time. The Accept Over the Air Devices dialog box appears. The dialog box displays all the unprovisioned devices that you have selected for enabling over-the-air provisioning. NOTE: To reject a device from joining the network using over-the-

air provisioning method. Select the required device and click Reject in the ribbon bar. The Reject Over the Air Devices dialog box displays. Click Reject. The Progress column displays the status as In Progress, and then Completed, when complete. Click Close. The Reject Over the Air Devices dialog box closes. 6. Click Accept. The Progress column displays the status as In Progress, Provi-

sioning, and then Completed, when complete. Do not close the dialog box when over-the-air provisioning is initiated for devices. 7. Click Close. The Accept Over the Air Devices dialog box closes. All the field devices that you have selected for over-the-air provisioning are provisioned. NOTE: By default, the selected Wireless Field Interface devices are provisioned and joined as line powered routers. Select Device Management > Routing Assignment > Routing Disabled to disable the routing field devices to function as line powered routers. 2.1.2.1 Removing the provisioning key from Wireless Field Interface gauge To enable the Wireless Field Interface gauge to join another network, you must remove the security configuration on the device and then reprovision the device using over-the-air provisioning. To remove the provisioning key from Wireless Field Interface gauge 1. On SmartView, press the UP ARROW and DOWN ARROW simultaneously

(MENU push buttons) to view the menu items on the display. 2 - 12 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring OneWireless infrastructure 2. On the display, scroll to the commands item using the MENU buttons. 3. Press the LEFT ARROW and RIGHT ARROW (SELECT push buttons) simulta-

neously. You are prompted to enter the password. The default password for SmartView is AAAAAA. 4. Use the MENU push buttons to enter the password and then press the SELECT push buttons. The list of commands appears. 5. Scroll to select the CAN-1WL FlexConn board name and then press the SELECT push buttons. 6. Scroll to select board and then press the SELECT push buttons. 7. Scroll to select Restore Default then press the SELECT push buttons. The provi-

sioning key on the Wireless Field Interface gauge is now removed. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 13 Configuration - Configuring Wireless Field Interface device 2.2 Configuring Wireless Field Interface device 2.2.1 Loading the Device Description file A Device Description (DD) file is usually a zip file that is available on the disk supplied in the Honeywell Process Solutions website. It contains information about the device type, commands that are supported by the device, and other device-specific data. A DD file for a particular field device is used to describe the device and to interpret messages and the device status. WARNING! To ensure consistency in the channel names, load the DD files before the device joins the network. To load the Device Description file 1. On the ribbon bar, in the Maintenance group, click Templates. The Load DD File dialog box appears. 2. Click Load DD File. 3. Browse to the directory location of the DD file. 4. Select the DD file and click Open. 5. The DD file is uploaded to the WDM and an upload success message appears. 6. Click Close to close the Load DD File dialog box. 7. Repeat steps to load the DD files for all the device types. 2.2.2 Configuring routing assignment After joining the network for the first time, a field device capable of operating as a router and an I/O device initializes its routing assignment based on the current default routing policy. It is possible to override the default routing policy by configuring routing assignment for field devices. Configuring device routing assignment results in restarting the device with a new role. Considerations Device routing assignment can be configured only for devices that are capable of operating as routers and I/O devices. To configure routing assignment 1. On the Selection Panel, select the field device. 2. On the Property Panel, expand Device Management. 3. Select Routing Assignment, as appropriate. The following are the Routing Assignment options available. Routing Disabled Disables the ability of a routing field device to function as a router. The field device can function only as an I/O device. 2 - 14 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring Wireless Field Interface device Routing Enabled Enables the routing field device to function as a router and an I/O device. The default join policy configured is Follow System Manager Policy. Not Applicable Does not apply to devices that are capable of operating as access points. Does not apply to devices that are only capable of operating as routers. 4. Select one of the following Join Assignment options, as required. The Join Assignment overrides the system manager join policy. This is applicable only for routing field devices. Join Disabled Disables device-join through this device. Join Enabled Enables device-join through this device. Follow System Manager Policy Enables the device to follow the system manager join policy. Device-join through this device depends on the configured system manager join policy. The Join Status is a read-only parameter that indicates the resultant join state for all the devices. Access Points, FDAP access points, and FDAP routers have the Join Assignment permanently set to Join Enabled. Non-routing field devices have the Join Assignment permanently set to Join Disabled. Routing field devices have the default Join Assignment set to Follow System Manager Policy. By default, the selected Wireless Field Interface devices are provisioned and joined as line powered routers. Select Device Management > Routing Assignment > Routing Disabled to disable the routing field devices to function as line powered routers. 5. Click Apply. 2.2.3 Configuring Wireless Field Interface device channels 2.2.3.1 Configure Mode and Scale To configure Scale 1. On the Selection Panel, select the Wireless Field Interface device channel. 2. On the Property Panel, expand Process Variable to view the following read-only parameters in the OneWireless user interface. WARNING! The configuration of the engineering units should be performed using the Engauge tool only. The parameter values of the sensor cards get reflected in the OneWireless user interface as read-only parameters. EU at 100%: Specifies the high range PV value in Engineering Units. EU at 0%: Specifies the low range PV value in Engineering Units. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 15 Configuration - Configuring Wireless Field Interface device Units Index: Specifies the unit of the measurement value. The value varies according to the sensor type selected for a channel. For example, the process value of the TII-XR sensor card is displayed as CH01_AI_1 and the Units Index is set to m. 3. Click Apply. NOTE: After applying the changes, the newly configured values appear under the Scale panel. To configure Mode 1. On the Property Panel, expand Mode. 2. 3. The mode types available are Normal, OOS, and Auto. 4. Click Apply. In the Target list, select the mode as required. 2.2.3.2 Add channels to publication groups Perform the following steps to enable/disable the PV publication capability of field devices. To add channels to publication groups 1. On the Selection Panel, select the Wireless Field Interface device channel. 2. On the Property Panel, expand Input Publication panel. 3. In the Channel drop-down list, select the channels for which data publication needs to be enabled. NOTE: To disable data publication, select None in the Channel list. 4. Click Apply. 2.2.3.3 Remove channels from publication groups To remove channels from publication groups 1. On the Selection Panel, select the Wireless Field Interface device channel. 2. On the Property Panel, expand Input Publication. 3. For the channel to be deleted from the publication group, click None in the Channel drop-down list. 4. Click Apply. 2 - 16 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring Wireless Field Interface device 2.2.4 Activating Wireless Field Interface device in OneWireless Network The ISA100 Wireless field devices maintain a database of process configuration, identification, and diagnostic information in memory. WDM allows accessing this information from the Wireless Field Interface client applications (CIU Prime hardware or Engauge software). This enables monitoring the ISA100 Wireless field devices like any other field device. OneWireless Network uses serial communication interface to support data transmission between the applications and the WDM. It also uses Ethernet/UDP interface for data transmission. 2.2.4.1 Activate ENRAF Ethernet UDP interface on the OneWireless user interface To activate ENRAF Ethernet/UDP interface on the OneWireless user interface 1. On the Selection Panel, expand the WDM icon and select ENRAF. 2. On the Property Panel, expand Configuration panel. 3. In the Interface list, click Ethernet/UDP Interface. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 17 Configuration - Configuring Wireless Field Interface device 4. Under the Ethernet/UDP Interface Options, the UDP port number of the port on which the WDM is connected is displayed. 5. Click Apply. 2.2.4.2 Monitor performance of ENRAF interface To monitor performance of ENRAF interface 1. On the Selection Panel, select the ENRAF interface. 2. On the Property Panel, expand Statistics. 3. Verify the following attributes to monitor the performance of the ENRAF interface. Message Rate: Number of messages processed by the interface, per second. Message Rate Max: Maximum number of messages processed by the interface, per second. 4. Click Reset Statistics to reset all the ENRAF interface statistics. 2.2.5 Configuring field devices 2.2.5.1 Configure field device properties To configure tag name and description 1. On the Selection Panel, select the field device. 2. On the Property Panel, expand Field Device Summary. 3. Type the required Tag Name. NOTE: You can change the Tag Name by double-clicking the field device name in the Selection Panel. 4. Type the required Description. 5. Click Apply. 2.2.5.2 Configure publication rate The publication data for input and output field devices can be configured using the Input Publication panel in the Property Panel. Depending on 2 - 18 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring Wireless Field Interface device the device type, a field device can have an Input Publication panel. This is determined by the DD file for the field device. The Input Publication panel contains the following configuration options. Contract Status A contract is a communication resource

(bandwidth) allocation between two devices on the ISA100 network. The following are the status values that are displayed depending on the status of the contract. Not Configured - No contract established due incorrect configuration of the device. to Activating - Contract establishment is in progress. Active- Contract is active. Active, Negotiated Down - If a device requests a contract for periodic publications at a fast rate (such as 1 second) and if the communication resources are not available, the contract is negotiated down to a slower publication period (such as 5 seconds). Terminating - Contract termination is in progress. Failed - Contract establishment is failed. Inactive - Contract is inactive. Rate The rate at which a field device publishes data. NOTE: Honeywell recommends that you set the Rate as 10 seconds. Stale Limit Defines the maximum number of stale input values that can be received before the input status is set to Bad. It is recom-

mended that for 1 second publication period, the stale limit should be set to 15 seconds. For all other publication periods (5 seconds, 10 seconds, 30 seconds, and 1 minute), the stale limit should be set to 5 Destination Destination of publication for output devices . Channel The list of channels for which the publication configuration applies. NOTE: When a device joins the network, the WDM automatically configures its publication period as 30 seconds. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 19 Configuration - Configuring Wireless Field Interface device To configure publication rate and stale limit 1. On the Selection Panel, select the field device. 2. On the Property Panel, expand Input Publication. In the Rate field, select the publication rate, as appropriate. In the Stale Limit field, select the stale limit, as appropriate. 3. 4. 5. Click Apply. 2 - 20 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring the protocol tunneling 2.3 Configuring the protocol tunneling This release of ISA100 Flexline R220 supports integration with OneWireless R220. OneWireless R220 WDM supports GPU and Flexconn protocol tunnel. The Applications (Engauge tool/CIU Prime) that support GPU and Flexconn protocol tunnel, communicate with the WDM for configuring and monitoring the ISA100 Flexline R220 devices. Protocol tunneling can be established for the Wireless Field Interface device in the following two ways. 1. Serial tunneling through RS-232 or RS-485 2. Ethernet/UDP tunnelling The serial RS-232 is configured on COM1 of the WDM and serial RS-485 is configured on COM2 of the WDM. Redundancy is not supported with the serial RS-232 protocol tunneling. Multiple clients are supported with the Ethernet/

UDP. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 21 Configuration - Configuring the protocol tunneling 2.3.1 Configure Wireless Field Interface device interface To configure Interface Summary and Interface Object Parameters 1. On the Selection Panel, select the field device. 2. On the Property Panel, expand Interface Summary and Interface Object Parameters. 3. Under Interface Summary, enter the following read/write parameter details. a) Name Type the required name for the channel. b) Description Type the required description for the channel. 4. Under Interface Object Parameters, enter the following details. a) Flexconn Instrument Address Enter the address of the instrument for FlexConn messages. WARNING! Each instrument must have a unique FlexConn address b) GPU Instrument Address Enter the address of the instrument for GPU messages . WARNING! Each instrument must have a unique GPU address. c) CIU Address Emulation Select Enabled or Disabled from the drop-

down list. d) CIU Instrument Address Enter the CIU instrument address. 2.3.2 Configure ENRAF serial interface To access the field device data, you need to configure the Enraf interface from the OneWireless user interface. Prerequisites Ensure the following:

The Wireless Field Interface devices are connected to the WDM using a serial cable. The Wireless Field Interface devices are joined in the ISA100 Wireless network. 2 - 22 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring the protocol tunneling The GPU address and the FlexConn address configured for a Wireless Field Interface device should be unique for each device in the network. For more information regarding the GPU address and the FlexConn address, refer to the section Configure Wireless Field Interface device interface on page 29. If RS-232 serial communication is required, then connect the RS-232 serial cable between the COM1 port of the WDM and the client . If RS-485 serial communication is required, then connect the RS-485 serial cable between the COM2 port of the WDM and the client . To configure ENRAF serial interface 1. On the Selection Panel, expand the WDM icon and select ENRAF. 2. On the Property Panel, expand Configuration panel. 3. In the Interface list, click Serial Interface. 4. Configure the following under Serial Interface Options. Serial Port: Select the serial port on which the serial cable is connected. The available options are COM1 and COM2. Baud Rate: Select 19200 as the baud rate for ENRAF serial interface. Parity: This is a read-only parameter and displays the value as None. 5. Click Apply. 2.3.2.1 Serial interface connection For serial interface connection, connect a serial cable from the interface client to the serial port on the WDM. Rs-232 Part No.: Rev01 Wireless Field Interface Users Manual 2 - 23 Configuration - Configuring the protocol tunneling For RS-232, select the serial port on which the serial cable is connected as COM1. Signal Name Protective ground DCD RXD TXD DTR Signal ground DSR RTS CTS Pin number 9 pins Chassis 1 2 3 4 5 6 7 8 25 pins 1 8 3 2 20 7 6 4 5 RS-485 The Modbus, HART, and Wireless Field Interface (ENRAF) interfaces supports RS-485. For RS-485, select the serial port on which the serial cable is connected as COM2. Signal Name Protective ground RXA RXB TXA TXB Signal ground Pin number 9 pins Chassis 2 8 3 7 5 2 - 24 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring the protocol tunneling 2.3.3 Configure ENRAF Ethernet/UDP interface You can convert Ethernet/UDP interface by using a Lantronix device or a serial-to-Ethernet/UDP driver. Following are the high-level tasks to be performed. Install and configure the Lantronix device. Assign an IP address to the Lantronix device. Configure the Standard Serial Tunnel firmware settings on the Lantronix device. Activate ENRAF Ethernet/UDP interface on the OneWireless user interface. For more information, refer to section Overview of Wireless Field Interface devices on page 9. 2.3.3.1 Install and configure the Lantronix device Install the Lantronix DeviceInstaller software on the Wireless Field Interface client machine using the documentation and media packaged with the device. After installing the DeviceInstaller software, assign an IP address to the Lantronix device. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 25 Configuration - Configuring the protocol tunneling 2.3.3.2 Assign IP address to the Lantronix device Perform the following steps to assign or reassign an IP address to the Lantronix device. To assign or reassign an IP address to the Lantronix device 1. From the Start menu, open Lantronix DeviceInstaller. 2. Click Device > Assign IP Address. 3. When prompted for device identification, enter the MAC address of the Lantronix device and click Next. The MAC address is located on a sticker on the side of the device. 4. When prompted for the assignment method, choose Assign a specific IP address to assign a static IP address to the Lantronix device and click Next. 5. Enter the IP address, subnet mask, and default gateway for the Lantronix device and click Next. 6. Click Assign. The device now uses the new IP address and has network access. 2 - 26 Wireless Field Interface Users Manual Part No.: Rev01 Configuration - Configuring the protocol tunneling 2.3.3.3 Configure Standard Serial Tunnel settings on the Lantronix device Configure Standard Serial Tunnel firmware to enable it to properly tunnel Wireless Field Interface device messages from the RS-232 serial port to the Ethernet port of the WDM. To configure Standard Serial Tunnel settings on the Lantronix device 1. From the Start menu, open Lantronix DeviceInstaller. 2. In the Lantronix Devices tree on the left pane, select the Lantronix Xpress-

DR or Lantronix Xpress-DR-IAP device name. 3. On the Telnet Configuration tab, click Connect. 4. When prompted, press Enter to go to the setup mode. 5. On the Main menu, press 1 on the keyboard to configure channel 1 and set the configuration parameters as follows:

Baud Rate = 19200 I/F Mode = 4C Flow = 00 Port Number = 34568 Connect Mode = CC Datagram Mode = 01 The Remote IP Address can be entered only when the Datagram Mode is set to 01. Remote IP Address = IP Address of the WDM Remote Port = 55598 Packet Control = 00 Send Character 1 = 00 Send Character 2 = 00 6. Press 9 on the keyboard, to save and exit the Lantronix main menu. Part No.: Rev01 Wireless Field Interface Users Manual 2 - 27 Configuration - Configuring the protocol tunneling 2 - 28 Wireless Field Interface Users Manual Part No.: Rev01 Firmware Upgrade - Upgrading the WDM firmware CHAPTER 3 FIRMWARE UPGRADE The following topics describe how to upgrade the firmware of the WDM and the Wireless Field Interface field devices. 3.1 Upgrading the WDM firmware Download the latest OneWireless installation package (WDM firmware) from the Honeywell Process Solutions website. CAUTION! Upgrading the WDM firmware makes the WDM offline for some time. During this operation, all the devices drop and join the network again. Once initiated, you cannot terminate the firmware upgrade operation. The WDM must not be turned on while the upgrade is in progress. Prerequisites Ensure that the speed/duplex setting for the switch port to which the WDM is connected is set to Auto. To upgrade the WDM firmware 1. On the Selection Panel, select the WDM. 2. On the ribbon bar, in the Upgrade group, click Application. The WDM Update dialog box appears. 3. Click Browse to navigate to the directory location of the Platform firmware file and click Open. The WDM firmware file has a .tar.gz extension. Part No.: Rev01 Wireless Field Interface Users Manual 3 - 1 Firmware Upgrade - Verifying the WDM firmware revision The WDM Update dialog box displays the upload status. Once complete, the Firmware File box displays the uploaded firmware file 4. Click Update. The firmware upgrade starts and once complete, the user interface displays a message indicating the result of firmware upgrade operation. WARNING! At times, the update may take longer than expected and the result of the upgrade may not be displayed. Instead, a Page not available error may appear. In such cases, wait for a minute and then redirect the browser to https:// <ipaddress>/restartzfs.html for viewing the result. Do not remove or reboot the WDM during the upgrade process. After the WDM upgrade from R210 to R220 is complete, the WDM reboots automatically. 5. Close and restart the web browser. 6. Log on to the user interface again. 7. Verify the upgraded version of the WDM firmware as follows:

a) On the Selection Panel, select the WDM. b) On the Property Panel, expand Device Manager Summary. c) Under Identification, verify the Revision. 3.2 Verifying the WDM firmware revision To verify the WDM firmware revision 1. On the Selection Panel of the OneWireless user interface, select the WDM. 2. On the Property Panel, expand Device Manager Summary. 3. Under Identification group, review the firmware version displayed in the Revision field. 3 - 2 Wireless Field Interface Users Manual Part No.: Rev01 Firmware Upgrade - Upgrading the Wireless Field Interface device 3.3 Upgrading the Wireless Field Interface device firmware The devices at the farthest hop level must be upgraded first. CAN-1WL FlexConn board firmare 1. On the Selection Panel of the OneWireless user interface, select the field device. You can select multiple devices of the same type using the Selection Panel or the map view. Use SHIFT +click to select multiple items in a successive list. Use CTRL+click to select multiple items not in succession. 3. 2. On the ribbon bar, in the Upgrade group, click Application. The Application Firmware Upgrade dialog box appears. In the Available Firmware Files list, select the required firmware upgrade files. By default, the firmware upgrade file appears in the list. If the file is not available in the list, perform the following steps to open the firmware file. a) Click Add to browse to the directory location of the firmware upgrade file. b) Click Open. 4. Click Upgrade. The Application Firmware Upgrade dialog box appears. The Firmware Upgrade Status dialog box displaying the status of the upgrade appears. Closing the dialog box allows the upgrade operation to run in the background. The upgrade status is displayed in the status bar. Click the firmware upgrade status box to open the dialog box again. If multiple users are simultaneously upgrading different device firmware, all the users can view the progress of all the device upgrades. 5. Close the Firmware Upgrade Status dialog box. 6. Verify the upgraded version of the firmware is as follows:

a) On the Selection Panel of the OneWireless user interface, select the field device. b) On the Property Panel, expand Device Manager Summary. c) Under Identification group, review displayed in the Sensor Revision field. the firmware version Part No.: Rev01 Wireless Field Interface Users Manual 3 - 3 Firmware Upgrade - Upgrading the FDAP/access point firmware Radio firmware 1. On the Selection Panel of the OneWireless user interface, select the field device. You can select multiple devices of the same type using the Selection Panel or the map view. Use SHIFT +click to select multiple items in a successive list. Use CTRL+click to select multiple items not in succession. 3. 2. On the ribbon bar, in the Upgrade group, click Radio. The Radio Firmware Upgrade dialog box appears. In the Available Firmware Files list, select the required firmware upgrade files. By default, the firmware upgrade file appears in the list. If the file is not available in the list, perform the following steps to open the firmware file. a) Click Add to browse to the directory location of the firmware upgrade file. b) Click Open. 4. Click Upgrade. The Radio Firmware Upgrade dialog box appears. The Firmware Upgrade Status dialog box displaying the status of the upgrade appears. Closing the dialog box allows the upgrade operation to run in the background. The upgrade status is displayed in the status bar. Click the firmware upgrade status box to open the dialog box again. If multiple users are simultaneously upgrading different device firmware, all the users can view the progress of all the device upgrades. 5. Close the Firmware Upgrade Status dialog box. 6. Verify the upgraded version of the firmware is as follows:

a) On the Selection Panel of the OneWireless user interface, select the field device. b) On the Property Panel, expand Device Manager Summary. c) Under Identification group, review displayed in the Sensor Revision field. the firmware version 3.4 Upgrading the FDAP/access point firmware Download the latest OneWireless installation package from the Honeywell Process Solutions website. 3 - 4 Wireless Field Interface Users Manual Part No.: Rev01 Firmware Upgrade - Upgrading the FDAP/access point firmware To upgrade the FDAP/access point firmware 1. On the Selection Panel, select the FDAP/access point. You can select multiple devices using the Selection Panel or the map view. Use SHIFT+click to select multiple items in a successive list. Use CTRL+click to select multiple items not in succession. 2. On the ribbon bar, in the Upgrade group, click Radio. The Radio Firmware Upgrade dialog box appears. 3. In the Available Firmware Files list, select the required firmware upgrade file. By default, the firmware upgrade file appears in the list. If the file is not available in the list, perform the following steps to open the firmware file. a) Click Add to browse to the directory location of the firmware upgrade file. b) Click Open. 4. Click Upgrade. The Firmware Upgrade Status dialog box appears. The Progress column displays the progress of the upgrade. NOTE:

To abort any firmware upgrade operation, click the Abort Upgrade icon adjacent to the upgrade status. To remove the devices for which the firmware upgrade has been completed, click the Clear Upgrade icon adjacent to the upgrade status. 5. Close the Firmware Upgrade Status dialog box. Part No.: Rev01 Wireless Field Interface Users Manual 3 - 5 Firmware Upgrade - Upgrading the Wireless Field Interface device 3.5 Upgrading the Wireless Field Interface device firmware using the Engauge service tool The Engauge service tool is used for upgrading the Wireless Field Interface device firmware. For more information regarding the Engauge service tool, refer to the Service Manual SmartRadar FelxLine. Perform one of the following methods to upgrade the firmware based on the boards which need to be upgraded:

1. The sensor boards (HCM-BPM, FII-SMV) can be upgraded through the Engauge tool using the protocol tunnel. 2. HCI-1WL (CAN-1WL) board can also be upgraded through the OneWireless user interface through the Application Firmware Upgrade. WARNING! The HCI-1WL (CAN-1WL) board should not be upgraded using the Engauge tool. This results in the Wireless Field Interface device dropping from the network permanently and it also damages the card. Considerations Following are some of the considerations for upgrading the device firmware. You can upgrade only the application firmware or radio firmware of a device at a time. You can upgrade only the firmware of three devices simultaneously from the OneWireless user interface. Starting the radio firmware upgrade operation of lower hop and upper hop devices simultaneously, results in the failure of upgrade operation of the lower hop device. When the devices are in different hops, it is recommended to perform the upgrade of only one device at a time. Upgrading the radio firmware of a device, which routes communi-

cation between other devices, results in communication failure . To upgrade the Wireless Field Interface device firmware for the cards using Engauge service tool 1. Double-click the module icons in the Engauges explorer, to select each FlexConn module. The board descriptor is then loaded with the tab pages. Select the tab pages, to enter the settings of the specific module. 2. On the Engauge service tool explorer, select the required FlexConn module on the left panel. 3. Right-click the FlexConn module and choose Firmware Update. 3 - 6 Wireless Field Interface Users Manual Part No.: Rev01 Firmware Upgrade - Upgrading the Wireless Field Interface device The FlexConn Firmware Update Engauge dialog box appears. 4. Depending on the firmware type, the available upgrade files appear by default. Select the required file from the list of upgrade files. If the file is not available in the list, perform the following steps. a) Click Browse to browse to the directory location of the firmware upgrade file. b) Click Open. 5. Click Start. The upgrade status is displayed in the status bar. 6. Close the FlexConn Firmware Update Engauge dialog box. 7. Enter the Time Out value in the Engauge tool as 9999 ms. Part No.: Rev01 Wireless Field Interface Users Manual 3 - 7 Firmware Upgrade - Upgrading the Wireless Field Interface device 3 - 8 Wireless Field Interface Users Manual Part No.: Rev01 Operations -

CHAPTER 4 OPERATIONS The following topic describes how to read the Wireless Field Interface field device information from SmartView. Part No.: Rev01 Wireless Field Interface Users Manual 4 - 1 Operations - Reading the Wireless Field Interface field device information 4.1 Reading the Wireless Field Interface field device infor-

mation from SmartView To read the Wireless Field Interface field device information from SmartVie. 1. On SmartView, press the UP ARROW and DOWN ARROW simulta-

neously (MENU push buttons) to view the menu items on the display. 2. On the display, scroll to the commands item using the MENU buttons. 3. Press the LEFT ARROW and RIGHT ARROW (SELECT push buttons) simultaneously. You are prompted to enter the password. The default password for SmartView is AAAAAA. 4. Use the MENU push buttons to enter the password and then press the SELECT push buttons. The list of commands appears. 5. Scroll to select the CAN-1WL FlexConn board name and then press the SELECT push buttons. 6. Scroll to select board and then press the SELECT push buttons. 7. Scroll to select Read Dev Param then press the SELECT push buttons. 8. On the display, scroll to the commissioning item using the MENU buttons. 9. Scroll to select the CAN-1WL FlexConn board name and then press the SELECT push buttons. The details available on the SmartView are as follows:

Board Serial No Network Address Device revision CAN-1WL Build Tx Power Level Radio Mode SD Card Status Key Tx Status Radio Diag1 Radio Diag2 Device Diag1 Device Diag2 Connected Gauge status Connected Gauge type 4 - 2 Wireless Field Interface Users Manual Part No.: Rev01

 

 

Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR Series m WARNING PERSONAL INJURY DO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury. Failure to comply with these instructions could result in death or serious injury. Issue 1 32309669 m WARNING The WMPR must be installed in accordance with the requirements specified in this document in order to comply with the specific Country Communication Agency requirements

(i.e., FCC, IC, ETSI, ACMA, etc.). See Section 3 as this requires choosing the correct Country Use Code and thus allowable antenna and/or cable usage.

, CAUTION Power to the WMPR should not be applied during installation of an antenna as damage could occur to the WMPR electronics. m WARNING The cable length of the customer-supplied dc power source to the WMPR supply terminals cannot exceed three

(3) meters. The WMPR must be used indoors. The WMPR must be used inside a cabinet and can only be accessed during set-up or maintenance. m WARNING Honeywell does not recommend using devices for critical control applications where there is, or may be, a single point of failure or where single points of failure may result in an unsafe condition. It is up to the end-user to weigh the risks and benefits to determine if the products are appropriate for the application based on security, safety and performance. Additionally, it is up to the end-user to ensure that the control strategy results in a safe operating condition if any crucial segment of the control solution fails. Honeywell customers assume full responsibility for learning and meeting the required Declaration of Conformity, Regulations, Guidelines, etc. for each country in their distribution market. Failure to comply with these instructions could result in death or serious injury. m WARNING RF EXPOSURE To satisfy FCC RF exposure requirements for mobile transmitting devices, a separation distance of 20 cm or more should be maintained between the antenna of this device and persons during device operation To ensure compliance, operation at closer than this distance is not recommended. The antenna used for this transmission must not be co-located in conjunction with any other antenna or transmitter. Failure to comply with these instructions could result in death or serious injury. Sensing and Productivity Solutions 5 SETUP AND ELECTRICAL CONFIGURATIONS . 13 System Set Up . 13 5.1.1 WMPR EDS File . 13 5.1.2 WMPR Object Model . 13 EtherNet/IP Output Connection. 13 5.2.1 Description . 13 Power Supply Connections . 13 5.3.1 Description . 13 5.1 5.2 5.3 6 LCD/MENU/MODE OPERATION . 14 6.1 Start-up or Re-start-up Mode . 14 6.1.1 Zero Switches or Sensors Paired . 14 6.1.2 One or More Switches or Sensors . 14 6.2 Main Menu . 15 6.2.1 Menu Status . 15 6.2.2 EtherNet/IP Connection. 15 6.2.3 Node Information . 16 6.3 Node Status . 16 6.3.1 Node Status Menu . 16 6.4 Action Menu . 16 6.4.1 Action Menu . 16 6.5 Node Detail. 17 6.5.1 Node Detail Menu, Screen 1 . 17 6.5.2 Node Detail Menu, Screen 2 . 17 6.5.3 Node Detail Menu, Screen 3 . 18 Configuration Menu . 18 6.6 Receiver Detail . 19 6.7 Pair Mode . 19 6.8 6.9 Purge Mode . 20 Node Update Rate Mode . 21 6.10 Node LCD Display Mode . 22 6.11 6.12 Factory Reset Receiver Mode . 23 7 ANTENNA, CABLING, & MOUNTING . 24 Approved Antenna Options . 24 7.1 TABLE OF CONTENTS 1 PRODUCT DESCRIPTION. 1 General. 1 Principle of Operation. 1 Product Nomenclature . 2 Abbreviations & Definitions . 3 Symbols & Definitions. 4 1.1 1.2 1.3 1.4 1.5 2 SPECIFICATIONS, CERTIFICATIONS, AND APPROVALS . 5 Intended County Usage . 5 2.1 Certifications and Approvals . 6 2.2 Radio Module Specifications . 6 2.3 Electrical Specifications . 6 2.4 Operational Characteristics . 6 2.5 2.5.1 Update Rate vs. Node Quality . 6 2.5.2 Update Rate vs. RF Lost Indication . 7 EMC Specifications . 7 2.6 2.7 Environmental Specifications . 7 2.8 Weight. 7 Antenna Connection. 7 2.9 2.10 Agency Compliance Statements . 7 2.10.1 FCC Compliance Statements . 7 2.10.2 IC Compliance Statements. 8 2.10.3 RF Safety Statements (FCC & IC). 8 2.10.4 European Restrictions . 8 2.10.5 European Declaration of Conformity Statements . 9 2.10.6 R&TTE Directive . 9 3 WMPR FEATURES. 10 LED Indicator . 10 Limitless Switch and Sensor Buttons . 11 3.1 3.2 4 R.F. INTERFERENCE CONSIDERATIONS 12 RF Interference Considerations . 12 4.1.1 General. 12 4.1.2 WiFi Networks. 12 4.1.3 Smart Phone Apps. 12 4.1.4 Bluetooth Devices. 12 4.1.5 Wireless Video Camera & Links . 12 4.1.6 Microwave Ovens. 12 4.1.7 Cordless Phones/Baby Monitors . 12 4.1 ii sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8 ANTENNA SELECTION, ADJUSTMENT & MOUNTING . 26 8.1 Warnings. 26 Antenna Designs & Considerations . 27 8.2 8.2.1 Omni-directional Antenna Design . 27 Antenna Mounting & Considerations . 28 8.3 8.3.1 Mounting to RF Signal . 28 Antenna Options. 29 8.4 Antenna Connections & Options . 30 8.5 8.5.1 Antenna Connection. 30 8.5.2 Cable Requirement. 31 8.5.3 Antenna Styles & Mounting Options. 31 8.5.4 Antenna Adjustment Considerations . 32 8.5.5 Grounding Remote Antennas. 33 8.6 Antenna Environmental Usage . 34 8.6.1 Meet Application Exposure Conditions 34 8.6.2 Protection of Antenna Connections . 34 8.6.3 Outdoor Antenna Installations . 35 8.6.4 Lightning Arrestor. 35 8.6.5 Site Selection . 35 8.6.6 Mounting in Respect to Location . 35 8.7 Gain with Acceptable Fade-Margin . 36 9 WMPR MOUNTING . 37 Din-Rail Mounting . 37 Tab Mounting . 37 9.1 9.2 10 INSPECTION AND MAINTENANCE . 37 10.1 WMPR Inspection and Replacement . 37 Antenna Inspection and Replacement. 37 10.2 11 CHOOSING A CATALOG LISTING . 38 12 QUICK START UP AND INSTALLATION. 38 13 ACCESSORIES . 39 14 INSTALLATION DRAWING . 41 Honeywell Sensing and Productivity Solutions iii Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Figure 54. Magnetic Mount Antenna . 32 Figure 55. Thru-hole Mount Antenna . 32 Figure 56. Highest RF Signal Diagram . 33 Figure 57. Application of Protective Tape . 34 Figure 58. Limitless WMPR Din-Rail Bracket . 37 Figure 59. Limitless WMPR Mounting Plate . 37 Figure 60. WMPR Series Nomenclature . 38 Figure 61. WMPR Dimensions . 41 List of Tables Table 1. Abbreviations . 3 Table 2. Symbol Definitions . 4 Table 3. North America: Country Code Use A . 5 Table 4. Asia Pacific: Country Code Use B . 5 Table 5. European Union: Country Code Use B . 5 Table 6. Other European Countries: Country Code Use B . 5 Table 7. Communication Approvals and Standards . 6 Table 8. Radio Module Specifications . 6 Table 9. Electrical Specifications . 6 Table 10. WPS Series Sensors Update Rate . 6 Table 11. WBX Series Switches Update Rate . 6 Table 12. Update Rate vs. RF Lost Indication . 7 Table 13. Environmental Specifications . 7 Table 14. LED Indicators . 11 Table 15. Node Display and Indication . 16 Table 16. Node Display and Indication, Screen 1 . 17 Table 17. Node Display and Indication, Screen 2 . 17 Table 18. Node Display and Indication, Screen 3 . 18 Table 19. Receiver Detail and Display, Screen 1 . 19 Table 20. Receiver Detail and Display, Screen 2 . 19 Table 21. Pair Mode . 20 Table 22. Country Code Use A Options . 24 Table 23. Country Code Use B Options . 25 Table 24. Antenna Options . 29 Table 25. Grounding the Antenna . 33 Table 26. Suggested Start-Up Sections to Review . 38 Table 27. Limitless Antennas . 39 Table 28. Limitless Cables . 40 Table 29. Limitless Base Accessories . 40 List of Figures Figure 1. WMPR Series Nomenclature . 2 Figure 2. Limitless WMPR with Callouts . 10 Figure 3a. Limtless WBX Function Button and LED . 11 Figure 3b. Limtless WLS Function Button and LED . 11 Figure 3c. Limtless WPS Reset Button and LED . 11 Figure 4. Honeywell Splash Screen . 14 Figure 5. EtherNet/IP MAC ID & IP Address . 14 Figure 6. Main Menu . 14 Figure 7. Honeywell Splash Screen . 14 Figure 8. System Start Up. 14 Figure 9. EtherNet/IP MAC ID & IP Address . 15 Figure 10. Main Menu . 15 Figure 11. Main Menu . 15 Figure 12. Main Menu - Ethernet Lost . 15 Figure 13. Main Menu - RF Lost Screen Display . 16 Figure 14. Node Status . 16 Figure 15. Action Menu . 16 Figure 16. Node Detail Menu . 17 Figure 17. Node Detail, Screen 1 . 17 Figure 18. Node Detail, Screen 2 . 17 Figure 19. Node Detail, Screen 3 . 18 Figure 20. Configuration Menu . 18 Figure 21. Configuration Menu, continued . 18 Figure 22. Receiver Detail Menu . 19 Figure 23. Receiver Information, Screen 1 . 19 Figure 24. Receiver Information, Screen 2 . 19 Figure 25. Pair Mode . 19 Figure 26. Pairing in Progress . 20 Figure 27. Join Network Notice (switch) . 20 Figure 28. Join Network Notice (Analog sensor) . 20 Figure 29. Purge Mode . 20 Figure 30. Purge Mode - Purge Update Sent . 21 Figure 31. Purge Mode - Single Node Being Purged . 21 Figure 32. Purge Mode - Multiple Nodes Being Purged . 21 Figure 33. Node Update Rate Mode . 21 Figure 34. Node Update Rate - Update Rate in Progress . 21 Figure 35. Node Update Rate - Update Rate Displayed . 22 Figure 36. Node Update Rate - Changed Update Rate . 22 Figure 37. Node LCD Display Mode . 22 Figure 38. Node LCD Time . 22 Figure 39. Node LCD Time - Time Displayed . 22 Figure 40. Node LCD Time - Updated LCD Time . 23 Figure 41. Factory Reset Mode . 23 Figure 42. Reset of Receiver . 23 Figure 43. Network Start Notice . 23 Figure 44. Radiation Pattern/Omni-directional Antenna . 27 Figure 45. LOS Free From Obstacles . 28 Figure 46. LOS Affected by Obstacles . 28 Figure 47. Limitless RP-SMA Connection, Direct . 30 Figure 48. Limitless RP-SMA Connection, Remote . 30 Figure 49. Adhesive Mounting Steps . 31 Figure 50. Mast Mount Antenna . 32 Figure 51. Mast Mount Antenna, Side View . 32 Figure 52. Magnetic Base Mount Antenna . 32 Figure 53. Magnetic Mount Antenna . 32 iv sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 1 | PRODUCT DESCRIPTION 1.1 | General The Limitless Series uses the latest commercial off-the-

shelf wireless technology that can be used in a wide variety of applications. This is especially beneficial for remote monitoring applications where previous wiring installation or wire maintenance was not physically possible or economically feasible. This document will provide installation instructions to properly install a Limitless Wireless Multi-Protocol Receiver WMPR, as well as a detailed understanding of its functions. 1.2 | Principle of Operation A Limitless input sends an RF signal to the WMPR when the Limitless digital or analog input changes state. There may be up to 14 Limitless digital or analog inputs that communicate and indicate their state to a single WMPR. The WMPR receiver is menu driven through the use of function buttons and a easy to read LCD display. The menu allows you to see status of the nodes, configure nodes, and update receiver functionality. A change of state of a Limitless input will cause a corresponding change in output of the particular node to be output via an EtherNet/IP output. The WMPR indicates low battery conditions, lost RF links, as well as other diagnostic and functional operations described in further detail throughout this manual. Intended Audience This guide is intended for people who are responsible for plan-

ning, configuring, administering, and operating the Limitless Network. Prerequisite Skills It is assumed that you are familiar with the operation of Limit-

less Networks. About this Document This document outlines professional installation requirements for the Limitless Receiver, WMPR Series. Professional installation is required to comply with certification agency and legal require-

ments. This document must be adhered to for all installations of the Limitless Receiver, WMPR Series. These devices are not intended for critical control where there is a single point of failure or where single points of failure result in unsafe conditions. As with any process control solution, it is the end users responsibility to weigh the risks and benefits to deter-

mine if the products used are the right match for the application based on security, safety, regulations, and performance. Revision Information Document name Document ID Publication Installation and Technical Manual for the Limitless Receiver, WMPR Series New 32309669 Date July 2015 32309669 Issue 1 July 2015 References The following list identifies all documents that may be sources of reference for material discussed in this publication. Document title WMPR3000700100100.eds Limitless WMPR Series Wireless Multi-Proto-

col Receiver EtherNet/IP Object Model Document No. Contact Honeywell 32308916 Honeywell Sensing and Productivity Solutions 1 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 1.3 | Product Nomenclature This document is valid for the Limitless Receiver, WMPR Series in the following variations. Figure 1. Limitless Receiver, WMPR Series Nomenclature WMPR 1 A 00 A 1 A 1 Antenna type code 00 No antenna; RP-SMA connector jack 02 2.2 dBi omni w/receiver mount; tilt/swivel A B Country use code US, Canada All other approved countries Output code Seal code 1 EtherNet/IP A IP20 Specials Mounting code Mounting plate, epoxy coated CRS DIN bracket, aluminum 1 2 Receiver type WMPR Series Multi-Protocol Receiver GEN code 1 Version 1 RF code A 2.4 GHz;

IEEE 802.15.4 2 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 1.4 | Abbreviations and Definitions Table 1. Abbreviations ACMA CRS dB dBi dBm DSSS EIRP EMC ETSI EU FCC ft-lb GHz IC ICES IEEE IP ISO kbps LED MAC ID MHz MPE NA NEMA R&TTE RP-SMA RF RSS TX WBX WDRR WGLA WLS WMPR WOI WPS Australian Communications and Media Authority Cold-rolled steel Decibel Decibel Isotropic Decibel above or below 1 milliwatt Direct Sequence Spread Spectrum Equivalent isotropic radiated power Electromagnetic Compatibility European Telecommunications Standards Institute European Union Federal Communications Committee Foot-pounds GigaHertz Industry Canada Industry Canada Electrical Specification Institute of Electrical and Electronics Engineers Internet Protocol International Organization of Standardization KiloBits Per Second Light Emitting Diode Media Access Control address MegaHertz Maximum Permissible Exposure North America United States of America and Canada National Electrical Manufacturers Association Radio and Telecommunications Terminal Equipment Reverse Polarity SMA connector Radio Frequency Radio Standards Specifications Transmit Power Wireless Hazardous Area Limit Switch Wireless Din-Rail Receiver Wireless Global Limit Switch Series Wireless Limit Switch Wireless Multi-Protocol Receiver Wireless Operator Interface Wireless Pressure Sensor Honeywell Sensing and Productivity Solutions 3 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 1.5 | Symbol Definitions The following table lists those symbols used in this document to denote certain conditions. Table 2. Symbol Definitions Symbol Definition

, CAUTION m m m m ATTENTION: Identifies information that requires special consideration. TIP: Identifies advice or hints for the user, often in terms of performing a task. Indicates a situation which, if not avoided, may result in equipment or work (data) on the system being damaged or lost, or may result in the inability to properly operate the process. CAUTION: Indicates a potentially hazardous situation which, if not avoided, may result in minor or moder-

ate injury. It may also be used to alert against unsafe practices. CAUTION symbol on the equipment refers the user to the product manual for additional information. The symbol appears next to required information in the manual. WARNING: Indicates a potentially hazardous situation, which, if not avoided, could result in serious injury or death. WARNING symbol on the equipment refers the user to the product manual for additional information. The symbol appears next to required information in the manual. WARNING, Risk of electrical shock: Potential shock hazard where HAZARDOUS LIVE voltages greater than 30 Vrms, 42.4 Vpeak, or 60 Vdc may be accessible. ESD HAZARD: Danger of an electrostatic discharge to which equipment may be sensitive. Observe pre-

cautions for handling electrostatic sensitive devices. Protective Earth (PE) terminal: Provided for connection of the protective earth (green or green/yellow) supply system conductor. Functional earth terminal: Used for non-safety purposes such as noise immunity improvement. NOTE:

This connection shall be bonded to Protective Earth at the source of supply in accordance with national local electrical code requirements. Earth Ground: Functional earth connection. NOTE: This connection shall be bonded to Protective Earth at the source of supply in accordance with national and local electrical code requirements. Chassis Ground: Identifies a connection to the chassis or frame of the equipment shall be bonded to Pro-

tective Earth at the source of supply in accordance with national and local electrical code requirements. C-Tick Mark. The C-Tick Mark is a certification trade mark registered to ACMA (Australian Communica-

tions and Media Authority) in Australia under the Trade Marks Act 1995 and to RSM in New Zealand under section 47 of the NZ Trade Marks Act. The mark is only to be used in accordance with conditions laid down by ACMA and RSM. This mark is equal to the CE Mark used in the European Union. Notified Body. For radio equipment used in the European Union in accordance with the R&TTE Directive, the CE Mark and the notified body (NB) identification number is used when the NB is involved in the con-

formity assessment procedure. The alert sign must be used when a restriction on use (output power limit by a country at certain frequencies) applies to the equipment and must follow the CE marking. 4 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 2 | SPECIFICATIONS, CERTIFICATIONS, AND APPROVALS 2.1 | Intended Country Usage Table 3. North America; Country Code Use A Country UNITED STATES CANADA ISO 3166 2 letter code US CA Table 4. Asia Pacific; Country Code Use B Country AUSTRALIA ISO 3166 2 letter code AU Table 5. European Union; Country Code Use B ISO 3166 2 letter code Country Austria AT BE Belgium BG Bulgaria CY Cyprus Czech Republic CZ DK Denmark EE Estonia Finland FI FR France DE Germany GR Greece Hungary HU IE Ireland Italy IT Country Latvia Lithuania Luxembourg Malta Netherlands Poland Portugal Romania Slovak Republic Slovenia Spain Sweden United Kingdom Table 6. Other European Countries; Country Code Use B Country Bosnia and Herzegovina Croatia Iceland Liechtenstein Macedonia ISO 3166 2 letter code BA HR IS LI MK Country Norway Russian Federation Serbia Switzerland Turkey ISO 3166 2 letter code LV LT LU MT NL PL PT RO SK SI ES SE BG ISO 3166 2 letter code NO RU RS CH TR

, ATTENTION Contact Honeywell before use of the WMPR is countries not listed in Tables 3 through 6. Honeywell Sensing and Productivity Solutions 5 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 2.4 | Electrical Specifications Table 9. Electrical Specifications Specification Item 10 Vdc to 30 Vdc Supply voltage Supply current 500 mA max. EtherNet/IP Output type Termination Cage-clamp connector block m WARNING The cable length of the customer-supplied dc power source to the WMPRs supply terminals cannot exceed three (3) meters. 2.5 | Operational Characteristics 2.5.1 | Update Rate vs. Node Quantity To ensure suitable performance the tables below define the maximum number of nodes that are allowed with all nodes being at the defined Update Rate:

Table 10. WPS Series Sensors Update Rate Update Rate (seconds) 0.1 0.25, 0.5

> 1

# of Nodes 4 6 14 Table 11. WBX Series Switches Update Rate Update Rate (seconds)

> 1

# of Nodes 14 Limitless WLS, WGLA, WOI Series switches cannot have the update rate changed and are factory set at 30 seconds; number of nodes: 14. 2.2 | Certifications and Approvals See product labels for applicable approvals and ratings. Table 7. Communication Approvals and Standards Approval/Item Enclosure type Federal Communications Commission

(FCC) Ratings/Description IP20 FCC Part 15.247:

2014 Canadian RSS-210:

2010 Industry Canada (IC) European Telecommunications Stan-

dards Institute (ETSI) Australian Communications and Media Authority (ACMA) CE mark C-Tick mark m WARNING The WMPR must be installed in accordance with the requirements specified in this document in order to comply with the specific Country Communication Agency requirements. (i.e. FCC, IC, ETSI, ACMA, etc.) See Section 3 as it requires choosing the correct Country Use Code and thus allowable antenna and/or cable usage. m WARNING The cable length of the customer-supplied dc power source to the WMPR supply terminals cannot exceed three

(3) meters. The WMPR must be used indoors. The WMPR must be used inside a cabinet and can only be accessed during set-up or maintenance. 2.3 | Radio Module Specifications Table 8. Radio Module Specifications Item Radio module Specification Honeywell RF-PCBa WPAN IEEE 802.15.4 Direct Sequence Spread Spectrum (DSSS), 2.4 GHz 250 kbps ISM 2.4 GHz Country use code A Power level, 11 dBm Country use code B Power level, 6 dBm

-100 dBm Up to 14 Limitless inputs can be paired to a single WMPR Wireless standard Data rate Operating frequency Module transmit power Receive sensitivity

(typ.)

# of pairing (max.) 6 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 2.5.2 | Update Rate vs. RF Lost Indication Table 12 displays the approximate amount of time it takes for the WMPR to indicate a Node Lost RF with respect to the Update Rate that the Node is set to. 2.9 | Antenna Connection Antennas connect to an RP-SMA male connector on the upper surface of the WMPR. Alternatively, a remote antenna and/or a lightning arrestor may be connected to the RP-SMA connector;

when ordered without any antenna fitted to the WMPR product. Table 12. Update Rate vs. RF Lost Indication Update Rate (sec) 0.1 0.25 0.5 1 5 10 30 90 RF Lost Indication (approx. sec) 0.5 1 2 5 18 45 120 360 2.6 | EMC Specifications The latest applicable EMC Standards are as follows:

EN 300 328, V1.8.1 EN 61326-1 (2013) EN 301 489-1, V1.9.2 EN 301 489-17, V2.2.1 2.7 | Environmental Specifications Table 13. Environmental Specifications Item Operating temperature Storage temperature Operating humidity Specification

-20 C to 70 C [-4 F to 158 F]

-20 C to 70 C [-4 F to 158 F]

0 %RH to 100 %RH IEC 60068-2-27; half sine, 10 g, 6 ms, 3 axis IEC 60068-2-6; 10-500 Hz w/ 0.35 mm peak-to-peak, 58-500 Hz 5 g Shock Vibration 2.8 | Weight All versions of the WMPR Series Receiver have an approximate weight of 215 g [7.5 oz]. This weight does not include mounting brackets/plates, remote cables, or antennas. 2.10 | Agency Compliance Statements 2.10.1 | FCC Compliance Statements This device complies with Part 15 of FCC Rules and Regulations. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference and

(2) This device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with these instructions, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his/her own expense. Intentional or unintentional changes or modifications must not be made to the WMPR unless under the express consent of the party responsible for compliance. Any such modifications could void the users authority to operate the equipment and will void the manufacturers warranty. Honeywell Sensing and Productivity Solutions 7 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Statements (FCC & IC) 2.10.3 | Radio Frequency (RF) Safety To comply with FCCs and Industry Canadas RF exposure requirements, the following antenna installation and device operating configurations must be satisfied. Remote antenna for this unit must be fixed and mounted on outdoor permanent structures with a separation distance between any other antenna(s) of greater than 20 cm [7.87 in] and a separation distance of at least 20 cm [7.87 in] from all persons. Furthermore, when using an direct-mount antenna with the WBX, it must not be co-located with any other antenna or transmitter device and it must have a separation distance of at least 20 cm [7.87 in] from all persons. 2.10.4 | European Restrictions Information regarding national restrictions can be found in document: Annex 1: Non-specific Short Range Devices, page 6; Oct 07. Documentation may be found in the document database in the European Communications office. http://www.erodocdb.dk/doks/dochistory. aspx?docintid=1622 2.10.2 | Industry Canada (IC) Compliance Statements To reduce potential radio interference to other users, the antenna type and its gain should be chosen so that the equivalent isotropic radiated power (EIRP) is not more than that permitted for successful communication. 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. This Class A digital apparatus has been tested and found to comply with Canadian RSS-210:2010. This radio transmitter (identify device by certification number) has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissiable gain indicated. Antenna types not included in this list, have a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device

- Antenna type approved for use: Omni

- Antenna gain (max.): 9 dBi Pour rduire les interfrences radio potentielles aux autres utilisateurs, le type dantenne et son gain doivent tre choisis de telle sorte que lquivalent isotrope puissance rayonne (PIRE) ne est pas suprieure celle permise pour une communication russie. Son fonctionnement est soumis aux deux conditions suivantes:

(1) ce dispositif ne doit pas causer dinterfrences et

(2) cet appareil doit accepter toute interfrence, y compris les interfrences qui peuvent causer un mauvais fonctionnement de lappareil. Cet appareil numrique de classe A est conforme avec Industrie Canada RSS 210: 2010. Cet metteur radio (appareil identifi par numro de certification) a t approuv par Industry Canada pour fonctionner avec les types dantenne rpertoris ci-dessous et prsentant le gain maximal admissible indiqu. Utiliser des types dantennes non mentionns dans cette liste ou prsentant un gain suprieur au maximum indiqu pour ce type est strictement interdit.

- Type dantenne approuv : Toutes directions

- Gain dantenne (max.) : 9 dBi 8 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 2.10.5 | European Declaration of Conformity Statements This section contains the European Declaration of Conformity (DoC) statement for the radio used in the Limitless WMPR receiver. European Declaration of Conformity (DoC) 2.10.6 | For more information about the R&TTE Directive The following website contains additional information about the Radio and Telecommunications Terminal Equipment (R&TTE) directive:

http://ec.europa.eu/enterprise/sectors/rtte/faq/

Honeywell Sensing and Productivity Solutions 9 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 3 | WMPR FEATURES Figure 2. Limitless WMPR Multi-Protocol Receiver with location call-out 3.1 | LED Indicator The WMPR LED operates as follows (see Figure 2 7):

Table 14. LED Indications Indication LED Function Solid green Power supplied, system functioning normally 1 or more nodes with low battery Flashing blue 1 or more nodes with lost RF Solid blue EtherNet/IP lost connection Flashing red Solid red System fault 10 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 3.2 | Limitless Switch and Sensor Function Buttons Figure 3c. Limitless WPS: Reset Button and LED Figure 3a. Limitless WBX: Function Button and LED Figure 3b. Limitless WLS: Function Button and LED 7 7 8 Honeywell Sensing and Productivity Solutions 11 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 4 | R.F. INTERFERENCE CONSIDERATIONS However, if a suspected interference source causes a large re-

duction in consumer WiFi download speed, it is likely it could also cause interference to the 802.15.4 data used by the WMPR. 4.1 | R.F. Interference Considerations 4.1.1 | General The 802.15.4 specification provides a high resistance to inter-

ference. Within the 2.4 GHz band, there are 16 channels, each using approximately 2 MHz of bandwidth. The channel used may be rapidly changed depending on the presence of other signals sensed in that channel. Thus narrow band interfering signals may have no effect, while broadband noise sources may cause loss. The effect of light to moderate interference is not to make the sys-

tem fail, but to increase the rate of lost packets of data. These lost packets are simply retransmitted as needed, so the user may not notice any problem. More serious interference can cause loss of more data updates, and error messages reported by the WMPR, as well as shorter battery life. 4.1.2 | WiFi Networks Most WiFi (WLAN) networks operate in the same 2.4 GHz range and use wider bands within that range. Also, the faster protocols

(802.11N or AC), may utilize multiple channels. Factors affecting R.F. interference would be channel separation, distance separa-

tion, and duty cycle. Channel separation: Studies have shown that a channel separation of 7 MHz will make interference less likely. WiFi routers can be set to use different channels as needed, and auto channel modes can be disabled. If possible, switching to a 5 GHz-only protocol (using 802.11N or AC), would elimi-

nate any possibility of 2.4 GHz interference. Distance separation: A physical separation of 10 meters or more will reduce possibility of interference. Duty Cycle: Generally the duty cycle of WiFi routers is very low for simple uses as e-mailing, messaging, most web browsing, and voice protocols. However, a video camera or multiple users streaming video would cause a significant increase in bandwidth usage and increase the possibility of interference, making channel or distance separation more desirable. Regarding the WiFi client (laptop, smartphone, tablet), they are much less of a problem as they generally operate with a much reduced duty cycle (most data is received by the device), and may operate with much lower transmit power 4.1.3 | Smart Phone Apps Smart phone apps are available to display consumer WiFi signal strengths or download/upload speeds. These apps will not display the 802.15.4 signals as the packet format is different. 12 sensing.honeywell.com 4.1.4 | Bluetooth Devices Bluetooth interference is less of an issue, due to the very narrow bandwidth of Bluetooth signals, the low transmit power, and the rapid frequency hopping of the signals. If the 802.15.4 device misses a packet of data due to a Bluetooth burst of data, the re-transmission of the 802.15.4 data will likely succeed, as the Bluetooth will have hopped to a different channel by then. 4.1.5 | Wireless Video Camera and Video Links Wireless video links operating in the 2.4 GHz band can cause se-

rious interference as they are operating continuously, use a wide

(6 MHz) bandwidth), and may be more powerful. Interference from wireless video could cause the NO RF indication in severe cases. As mentioned, frequency and/or distance separation may be required. Frequency Separation: Many video links have four or more channels selectable. Changing channels may help. Addition-

ally, wireless video links are available in the 900 MHz band, and the 1.2 GHz band. Switching to one of those would elimi-

nate interference issues with 802.15.4 (and 802.11x). Distance Separation: Separating the video link sensor from the WMPR would be very desirable. Alternatively, utilizing directional antennas on the WMPR, and /or on the wireless video link would help greatly. 4.1.6 | Microwave Ovens Microwave ovens operate in the 2.4 GHz range, they are power-

ful, and a high-duty cycle. However, they may not be a problem to a modern 802.15.4 network. The magnetron in a microwave oven is driven by half-wave rectified AC, so the R.F. output is ac-

tually off for one half of the 60 Hz or 50 Hz power line cycle (8.33 msec or 10.0 msec). During that part of the cycle, the packets of 802.15.4 data may succeed. However, close to half of the packets may require retransmission, so data throughput could be greatly reduced. 4.1.7 | Cordless Phones/Baby Monitors/

Intercoms A 2.4 GHz cordless phone in very close proximity to a wireless sensor could cause lost packets, while the phone is in use, but is not a very likely cause. If suspected interference, a simple remedy is to switch to a DECT 6.0 cordless phone operating on 1.9 GHz. Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 5.2 | EtherNet/IP Output Connection 5.2.1 | Description The Limitless WMPR Series has a RJ45 ethernet jack on the housings bottom left which needs to be connected to Cat5e or Cat 6 cable (dependant n application conditions) that then con-

nects to the EtherNet/IP compliant Master device. Refer to the EtherNet/IP Media Planning and Installation Manual (Pub 148) for more information at www.odva.org.

, NOTICE Power needs to be applied after the EtherNet/IP connection has been made and is active. 5.3 | Power Supply Connections 5.3.1 | Description m WARNING The cable length of the customer-supplied dc power source to the WMPR supply terminals cannot exceed three (3) meters. Refer to Figure 2. The Limitless WMPR Series has two (2) cage clamp connectors on the housings bottom left. A regulated voltage supply of 10 Vdc to 30 Vdc needs to be connected to the power supply terminals identified as + and - . Power needs to be applied after the EtherNet/IP connection has been made and is active.

, ATTENTION Power needs to be applied after the EtherNet/IP connection has been made and is active. 5 | SETUP AND ELECTRICAL CONNECTIONS m WARNING RISK OF ELECTRICAL SHOCK Potential shock hazard where HAZARDOUS LIVE voltages greater than 30 Vrms, 42.4 V peak, or 60 Vdc may be accessi-

ble. Failure to comply with these instructions could result in death or serious injury. m WARNING Pay attention to ESD discharge at dc-in port.

, ATTENTION Do not run the electrical wires in parallel and close proximity to the antenna or antenna cable. 5.1 | System Set Up 5.1.1 | WMPR EDS File The WMPR Series needs to connect to an EtherNet/IP compli-

ant Master device and thus the Electronic Data Sheet will need to be uploaded to the Master device (Contact Honeywell for this file). This file allows the unique MAC ID of the WMPR to be associated to the parameters in this file. To view and obtain the MAC ID of your device refer Section 6.1.1, Figure 5. 5.1.2 | WMPR Object Model The WMPR Object Model describes the different object models sup-

ported as well as bytes and attributes in detail. (Contact Honeywell for this file). The key attributes that most customers are interested in are Digital Input State, Analog Input Value with Unit Type, Battery Level and Radio Signal Strength. The descriptions relative to Limitless Series of product are as follows for each:

Digital Input State: The wireless switch actuation state is either ON or OFF for a WLS, WGLA, WOI and WBX Series switch. Analog Input Value with Unit Type: Pressure reading from a WPS Series sensor in psi, bar, mbar, Pa or kPa. Battery Level: The battery condition is either OK or LOW. A LOW condition normally indicates the battery life is coming to an end and the battery should be replaced as soon as possible. Radio Signal Strength: This attribute identifies the level of signal strength between the WMPR and the Limitless switch or sensor. Honeywell Sensing and Productivity Solutions 13 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 6 | LCD/MENU/MODE OPERATION Figure 6. Main Menu 6.1 | Start-up or Re-start Sequence Mode

(EtherNet/IP Active Connection and Power Supplied to WMPR) 6.1.1 | Zero Switches or Sensors Paired Zero switches/sensors paired to the WMPR: EtherNet/IP ac-

tive connection is made and then applying power to the WMPR will result in the LCD Menu sequencing through the following displays before entering the Main Menu. to WMPR Figure 4. Honeywell Splash Screen (momentarily shown) EtherNet/MAC ID screen appears (see Figure 5). (Record the MAC ID, IP Address, and then touch the Next function button to move to the Main Menu). Figure 5. Ethernet/IP MAC ID & IP Address 14 sensing.honeywell.com 6.1.2 | One or More Switches or Sensors Paired to WMPR One or more switches/sensors paired to the WMPR: EtherNet/

IP active connection is made and then applying power to the WMPR will result in the LCD Menu scrolling thru the following dis-

plays before entering the Main Menu:

Figure 7. Honeywell Splash Screen (momentarily shown) System start-up screen (see Figure 8) will take up to two (2) minutes before displaying EtherNet/IP MAC ID & IP address (see Figure 9) screen. Figure 8. System Start Up Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 EtherNet/MAC ID screen appears (see Figure 9). (Record the MAC ID, IP Address, and then touch the Next function button to move to the Main Menu) (see Figure 10). Figure 9. EtherNet/IP MAC ID & IP Address 6.2 | Main Menu 6.2.1 | Menu Status The Main Menu (see Figure 11) allows you to see the status at-a-glance of the EtherNet/IP connection and information of ALL the Nodes currently paired to the WMPR. It also allows you to choose the Node Status menu for quick access to further in-

formation about each node or Actions that routes you to several other different modes. Figure 11. Main Menu Figure 10. Main Menu

, ATTENTION If there are multiple WMPRs being used in the application, apply power to previously paired WMPRs first (if any) and then to one WMPR at a time. Allow time for each WMPR to complete its start-up sequence before applying power to the next WMPR. There is a maximum of five WMPRs that can be used in the same localized area. Contact Honeywell Application Engineering at 800-537-6945 if more than five WMPRs are desired to be used in the same localized area. 6.2.2 | EtherNet/IP Connection EtherNet/IP connection: The Main Menu display will indicate Ethernet Lost (see Figure 12) if the connection is not allowing a good signal to reach the WMPR; no indication means the connec-

tion is good. Figure 12. Main Menu - Ethernet Lost Honeywell Sensing and Productivity Solutions 15 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 6.2.3 | Node Information Node Information: The Main Menu will display RF Lost and Low Battery (see Figure13) for a single node or multiple nodes based the conditions occurring. Figure 13. Main Menu - RF Lost Screen Display 6.3 | Node Status 6.3.1 | Node Status Menu Figure 14. Node Status The NODE STATUS menu (see Figure 14) can be accessed by touching the Node Status function button as displayed in the Main Menu (see Figure 11). Once you are in the NODE STATUS menu you can scroll thru all 14 node/device address locations by scrolling Up or Down. A description of the information is as follows:

16 sensing.honeywell.com Table 15. Node Display and Indication Display Not Paired Output:

RSSI:

Battery RF Lost Indication Limitless switch or sensor is not paired to this Device Address location ON or OFF status for a Digital input-Limit-

less switch Pressure value and Unit type for Analog sensor-Limitless pressure sensor Received Signal Strength Indication-Sig-

nal strength between the WMPR and the Limitless switch or sensor displayed as EXCELLENT, VERY GOOD, GOOD, LOW, or POOR Indicates battery condition as OK or LOW; A LOW condition normally indicates the battery life is coming to an end and the battery should be replaced as soon as possible. RF Signal between WMPR & Limitless switch or sensor does not exist Note: If the particular Node # that you are trying to obtain status on is not paired, the screen will display Not Paired. 6.4 | Action Menu 6.4.1 | Action Menu Figure 15. Action Menu The ACTIONS MENU (see Figure 15) can be accessed by touching the Actions function button as displayed in the Main Menu (see Figure 11). Once you are in the ACTION MENU you can choose between several different actions: A description of the actions are as follows:

Node Detail: Node specific information including (as applicable) Output status or value, RF Signal strength, Battery condition, Up-

date Rate, Sensor Range, Serial Number and Diagnostic condition. Functionality described in Tables 16 to 18. Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Configuration Menu: Allows you to take action to Pair or Purge Nodes, Change Update Rate or Node LCD Display Time, or Reset to WMPR to Factory Defaults. Functionality described in Section 8.6 Receiver Detail: Receiver information specific the WMPR device which includes WMPR FirmWare revision, Part Number, Radio Firm-

Ware revision, Radio MAC ID, and Radio Transmit Power. Function-

ality described in Section 8.7 6.5 | Node Detail Figure 16. Node Detail Menu Table 16. Node Display and Indication (Screen1) Display Not Paired Output:

RSSI:

Battery RF Lost Indication Limitless switch or sensor is not paired to this Device Address location ON or OFF status for a Digital input-Limitless switch Pressure value and Unit type for Analog sen-

sor-Limitless pressure sensor Received Signal Strength Indication-Signal strength between the WMPR and the Limit-

less switch or sensor displayed as EXCEL-

LENT, VERY GOOD, GOOD, LOW, or POOR Indicates battery condition as OK or LOW; A LOW condition normally indicates the battery life is coming to an end and the battery should be replaced as soon as possible. RF Signal between WMPR & Limitless switch or sensor does not exist 6.5.2 | Node Detail Menu, Screen 2 Figure 18. Node Detail, Screen 2 The NODE DETAIL menu (see Figure 16) can be accessed by touching the Node Detail function button as displayed in the Action Menu (see Figure 15). Once you are in the Node Detail menu you can choose any of the 14 node numbers by scrolling Up or Down to the desired Node number and then touching Enter. You will be able to view three screens of Node Detail information by touching Next or Prev. 6.5.1 | Node Detail Menu, Screen 1 Figure 17. Node Detail, Screen 1 A description of the Node Detail screen 1 information (see Figure 17) is as follows:

A description of the Node Detail screen 2 information (see Figure 18) is as follows:

Indication Update rate of Limitless switch or sensor Low output value of a Limitless sensor High output value of a Limitless sensor Serial number of Limitless switch or sensor Information not available Information available*

Table 17. Node Display and Indication (Screen 2) Display Rate R_Lo R_Hi S/N N/A Not Read Yet

*Information needs to be read from Node: Operator will need to scroll to Prev or Next screen and then back to this screen to allow updating of information. This action may need to be repeat-

ed to allow time for information to be displayed. Honeywell Sensing and Productivity Solutions 17 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 6.5.3 | Node Detail Menu, Screen 3 Figure 19. Node Detail, Screen 3 MORE: Moves to next screen where there are more modes to choose (see Figure 21). Figure 21. Configuration Menu, continued A description of the Node Detail screen 3 information (see Figure 19) is as follows:

Table 18. Node Display and Indication (Screen 3) Display Diagnostic Node Type Indication OK or if an Error Code- Refer to WPS Series Installation and Technical Manual (32305925) for Sensor Error Code definitions Limitless switch or sensor series (i.e., Switch, WBX, WPS) 6.6 | Configuration Menu Figure 20. Configuration Menu The CONFIGURATION MENU (see Figure 20) can be accessed by touching the Configration Menu function button as displayed in the Action Menu (see Figure 15). Once you are in the CONFIGURA-

TION MENU you can choose between several different modes. A description of the modes are as follows:

PAIR: Pairing mode is required to initiate and establish an RF communication link between each WMPR and a Limitless input. Functionality described in Section 6.8. PURGE: Purge mode is used to remove a Limitless switch or sensor from the WMPR that is no longer needed in service. Func-

tionality described in Section 6.9. 18 sensing.honeywell.com A description of the Configuration Menu (cont.) modes are as follows:

NODE UPDATE RATE: The Node Update Rate is the communica-

tion rate of an analog sensor (i.e. pressure sensor) with the WMPR receiver. The Node Update Rate for a Limitless switch is more unique as it is the frequency at which the Limitless switch will au-

tomatically communicate with the WMPR receiver when the switch is not being actuated/de-actuated. If the operator is cycling the switch faster than what the update rate is set, the auto communication will not occur. The update rate clock will also be reset upon an actuation/de-actuation of the switch so communication will happen at the next switch activation or update rate time; whichever occurs first. An advantage of increasing the update rate frequency is allowing a faster indication of a lost RF signal between the switch/sensor and WMPR which is important in some applications; see Section 2.5.2 for Update Rate vs. RF Lost Indication. A disadvantage of increasing the update rate is that it can decrease the battery life in the Limit-

less switch or sensor as increasing the frequency of communica-

tion consumes more battery power. Note: Some Limitless Series of switches do not have the capability to allow changing of the Node Update Rate. The rate is adjustable based on the capability of the specific switch or sensor being used. NODE LCD DISPLAY: The Node LCD Display mode allows you to change the ON/OFF time of the Node LCD display. Note: Applica-

ble to only Limitless product that has this capability. Functionality described in Section 6.11. FACTORY RESET RCVR: The Factory Reset Receiver mode is used to remove/un-pair all Limitless inputs that were previously paired to the WMPR and thus it is being returned to the as-manu-

factured condition. Functionality described in Section 6.12. Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 6.7 | Receiver Detail Figure 22. Receiver Detail Menu Table 20. Receiver Information, Screen 2 Display WMPR REV IP Address Enternet IP/

MAC ID Indication Firmware version of WMPR main processor Internet Protocol address EtherNet/IP Media Access Control address Figure 24. Receiver Information, Screen 2 The RECEIVER DETAIL (see Figure 22) can be accessed by touch-

ing the RECEIVER DETAIL function button as displayed in the Action Menu (see Figure 15). Once you are in the RECEIVER DETAIL you can choose between several different modes. A description of the modes are as follows:

CHANNEL: The Channel displays which channel in the 2.4 MHz range that the WMPR is operating at. PAN ID: The PAN ID displays the Personal Area Network identifica-

tion number assigned to the WMPR. RECEIVER INFO: The Receiver Information contains the following detail about the WMPR (see Figure 23). 6.8 | Pair Mode Figure 25. Pair Mode Indication Part Number of WMPR Firmware version in WMPR radio Table 19. Receiver Detail Display & Indication, Screen 1 Display P/N Radio FW Rev Transmit power

(Power level setting) MAC Transmit power of the WMPR:

North America = 11 dBm; International = 6 dBm MAC ID of WMPR radio Figure 23. Receiver Information, Screen 1 The PAIR MODE (see Figure 25) can be accessed by touching the PAIR function button as displayed in the Configuration Menu (see Figure 20). Once you are in the PAIR MODE you can choose any of the 14 node numbers to pair by scrolling Up or Down to the desired Node number. The screen will display the next sequential Node# available to Pair and if a chosen node has already been paired the screen will display Node Paired. Follow the Pairing Pro-

cedure below to properly Pair a Node to the WMPR:

Honeywell Sensing and Productivity Solutions 19 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Table 23. Pair Mode Step Action Completely read this procedure before starting in order to understand the timing of events that need to be performed. Limitless switch: Remove (if required) the screws on then housing cover and then the cover of the Limit-

less switch and locate the function button 8 (see Figure 3a or b) to be used in Step 4. Limitless analog sensor: Remove (if required) the screws on the housing cover and then the cover of the Limitless sensor and locate the function button 8

(see Figure 3c) to be used in Step 4. WMPR (at PAIR MODE screen): Touch the Start Function button on the WMPR (see Figure 25) at which time the display will show the following indicating it has entered the pairing mode. Figure 26. Pairing In Progress Limitless switch or analog sensor: Within a 30 second interval of Step 3, depress the function button 8 and hold depressed for more than five seconds but less than 12 seconds at which time the orange or green 7 LED turns on (see Figure 3a, b, or c). While in pairing mode, the orange or green led will flash. 1 2 3 4 WMPR: Successful pairing will be indicated by the screen displaying the following:

Figure 27. Join Network Notice (switch) If it is a Analog sensor; wait up to 45s for the indication that the Node LCD screen has been verified as indicat-

ed by the screen displaying the following:

Figure 28. John Network Notice (analog sensor) You then must touch the HOME function button to return to the CONFIGURATION MENU. WMPR: Unsuccessful pairing will be displayed on the screen as Node Pairing Failed! or Not Paired!

You will need to navigate to the Node Status or Node Information menus to confirm proper pairing between the Limitless switch or analog sensor and WPMR. Repeat Steps 2-7 to add additional Limitless switch-

es or analog sensors. Up to 14 Limitless switches or analog sensors can be paired to a single WMPR. 5 6 7 6.9 | Purge Mode Figure 29. Purge Mode 20 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 The PURGE MODE (see Figure 29) can be accessed by touching the PURGE function button as displayed in the Configuration Menu (see Figure 21). Once you are in the PURGE MODE you can choose ALL or any of the 14 node numbers to purge by scrolling Up or Down to the desired Node number and then touching Start. The screen will display the following; Figure 30:

Figure 30. Purge Mode - Purge Update Sent 6.10 | Node Update Rate Mode Figure 33. Node Update Rate Mode After successful purging the screen will display the following; Figures 31 & 32:

Figure 31. Purge Mode - Single Node Being Purged The NODE UPDATE RATE MODE (see Figure 33) can be accessed by touching the NODE UPDATE RATE function button as dis-

played in the Configuration Menu (see Figure 21). Once you are in the NODE UPDATE RATE MODE you can choose any of the 14 node numbers to update by scrolling Up or Down to the desired Node number and then touching Enter. The screen will display the following; Figure 34:

Figure 34. Node Update Rate - Update Rate in Process Figure 32. Purge Mode - Multiple Nodes Being Purged. Example #2 and #5 Nodes Being Purged The screen will then change to show the current Update Rate that is being used in the Limitless switch or analog sensor (see Figure 35). The update rate options for the different Series are as follows:

WPS Series: 0.1s, 0.25s, 0.5s, 1s, 5s, 10s, 30s, or 90s WBX Series: 1s, 5s, 10s, 30s, or 90s You can then scroll Up or Down to the desired Node Update Rate and touch Start to initiate the change in Rate which will lead to the display in Figure 36 momentarily before returning to the previ-

ous screen display with the updated Rate; Figure 35:

You must touch the HOME function button to return to the CON-

FIGURATION MENU. Honeywell Sensing and Productivity Solutions 21 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Figure 35. Node Update Rate - Update Rate Displayed The NODE LCD DISPLAY TIME Mode (see Figure 37) can be ac-

cessed by touching the NODE LCD DISPLAY function button as displayed in the Configuration Menu (see Figure 21). Once you are in the NODE LCD TIME Mode you can choose any of the 14 node numbers to update by scrolling Up or Down to the desired Node number and then touching Enter. The screen will display the following (see Figure 38):

Figure 38. Node LCD Time - Update of Time In-Process Figure 36. Node Update Rate - Changed Update Rate In-Process The screen will then change to show the current LCD Time that is being used in the Limitless analog sensor (see Figure 39). The LCD Time options are as follows:

WPS Series: 0%; 99%; 60s, Off 60s; 30s, Off 30s; 15s, Off 15s;

10s, Off 10s; 5s, Off 5s You can then scroll Up or Down to the desired LCD Time and touch Start to initiate the change in LCD Time which will lead to the display in Figure 40 momentarily before returning to the previous screen display with the updated LCD Time; Figure 39:

Figure 39. Node LCD Time - LCD Time Displayed (i.e., 0%) Note: If the particular Node # that you are trying to update does not have update rate capability, the screen will display Node Rate N/A. 6.11 | Node LCD Display Mode Figure 37. Node LCD Display Mode 22 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Figure 40. Node LCD Time - Updated LCD Time Dis-

played (i.e., 5s, Off 5s) Figure 42. Reset of Receiver In-Process Note: If the particular Node # that you are trying to update does not have an LCD display, the screen will display Node LCD N/A. Figure 43. Network Start Notice 6.12 | Factory Reset Receiver Mode Figure 41. Factory Reset Receiver Mode You must touch the HOME function button to return to the CON-

FIGURATION MENU. The Factory Reset Mode (see Figure 41) can be accessed by touch-

ing the FACTORY RESET RCVR function button as displayed in the Configuration Menu (see Figure 21). The Factory Reset Mode will purge all nodes from the WMPR and reset to Factory settings. Touching the Start function button will initiate the Factory Reset process and lead to the display in Figure 42 momentarily before displaying the Receiver information; Figure 43:

Honeywell Sensing and Productivity Solutions 23 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 7 | ANTENNA, CABLE, & MOUNTING OPTIONS 7.1 | Approved Antenna Options This section defines the antenna options that can be used in a particular country of interest; reference Section 2.1 for a list of Countries per Country Use Code. It is important to determine the country the WMPR will be used in. Thereby, noting the correct Country Use Code in the WMPR nomenclature will help ensure proper selection of antenna and/or cable options. The direct antenna mounts directly to the WMPR RP-SMA jack while the remote antenna mounts to the WMPR RP-SMA jack via a cable assembly (see Section 8.5.1). Further technical information on the WAN Series antennas, WAMM Series magnetic mounts and WCA Series cable assemblies can be found in Section 8.5.3.

, ATTENTION The antenna cables should not be modified (i.e. cut short and/or re-terminated) as it may affect communication agency approval. m WARNING The WMPR must be installed in accordance with the requirements specified in this document in order to comply with the specific Country Communication Agency requirements.

(i.e. FCC, IC, ETSI, ACMA, etc.) See Section 3 as it requires choosing the correct Country Use Code and thus allowable antenna and/or cable usage.

, CAUTION Power to the WMPR should not be applied during installation of an antenna as damage could occur to the WMPR electronics. Table 22. Country Code Use A Antenna/Cable/Mounting Options ANTENNAS FOR USE IN COUNTRY CODE A

(Note: all columns are independent of each other) Antenna Type Code (antenna pro-

vided with product) Direct-Mount Antennas (allowed for use) Remote Mount Antennas (al-

lowed for use) Magnetic Remote Mount Assemblies/

Antennas WAMM100RSP-005 WAMM100RSP-010

(allowed for use) 00 02 WAN01RSP WAN02RSP WAN04RSP WAN05RSP WAN03RSP WAN06RNJ WAN09RSP WAN10RSP WAN11RSP WAN01RSP WAN02RSP WAN04RSP WAN05RSP Extension Cable As-

semblies/Antennas for Remote Mount WCA200RNPRSP-002 WCA200RNPRSP-010

(allowed for use) WAN06RNJ Extension Cable As-

semblies/Antennas for Remote Mount WCA200RSJRSP-002 WCA200RSJRSP-005 WCA200RSJRSP-010 WCA200RSJRSP-015 WCA200RSJRSP-020

(allowed for use) WAN01RSP WAN02RSP WAN03RSP WAN04RSP WAN05RSP WAN09RSP WAN10RSP WAN11RSP Note:

Direct mount: Antennas have an RP-SMA plug that connects directly to the WMPR RP-SMA jack Remote mount: Remote mount antenna uses a cable with a RP-SMA plug that connects directly to the WMPR RP-SMA jack 24 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Table 23. Country Code Use B Antenna/Cable/Mounting Options ANTENNAS FOR USE IN COUNTRY CODE B

(Note: all columns are independent of each other) Antenna Type Code (antenna pro-

vided with product) Direct-Mount Antennas (allowed for use) Remote Mount Antennas (al-

lowed for use) Magnetic Remote Mount Assemblies/

Antennas WAMM100RSP-005

(allowed for use) Extension Cable As-

semblies/Antennas for Remote Mount WCA200RSJRSP-010

(allowed for use) 00 02 WAN01RSP WAN02RSP WAN03RSP WAN09RSP WAN10RSP WAN01RSP WAN02RSP WAN01RSP WAN02RSP WAN04RSP Extension Cable As-

semblies/Antennas for Remote Mount WCA200RSJRSP-005 WCA200RSJRSP-010 WCA200RSJRSP-015 WCA200RSJRSP-020

(allowed for use) WAN01RSP WAN02RSP WAN03RSP WAN09RSP WAN10RSP WAN11RSP Note:

Direct mount: Antennas have an RP-SMA plug that connects directly to the WMPR RP-SMA jack Remote mount: Remote mount antenna uses a cable with a RP-SMA plug that connects directly to the WMPR RP-SMA jack

, ATTENTION If using the WMPR in a portable application (for example, the WMPR is used in a handheld device and the antenna is less than 20 cm from the human body when the device is in operation): The integrator is responsible for passing additional SAR

(Specific Absorption Rate) testing based on FCC rules 2.1091 and FCC Guidelines for Human Exposure to Radio Frequency Electromagnetic Fields, OET Bulletin and Supplement C. The testing results will be submitted to the FCC for approval prior to selling the integrated unit. The required SAR testing measures emissions from the module and how they affect the person. Note for Section 7.1, Tables 22 and 23:

1. Industry Canada Compliance Statement: This device has been designed to operate with the antenna types listed in this document, and having a maximum gain of 9 dBi. Antenna types not included in this list or having a gain greater than 9 dBi are strictly prohibited for use with this device. The required antenna impedance is 50 Ohm. Honeywell Sensing and Productivity Solutions 25 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8 | ANTENNA SELECTION, ADJUSTMENT, AND MOUNTING 8.1 | Warnings 8.1.1 General Installation Warnings

, ATTENTION Professional Installation is required to ensure conformity with Federal Communications Commission (FCC) in the USA, Industry Canada (IC) in Canada and the Radio and Telecommunications Terminal Equipment Directive, 1999/5/

EC (R&TTE), in the European Union (EU). Professional installation is required for the selection and installation of approved antennas and setup of the maxi-

mum allowable radiated power from the Limitless WMPR Series as configured for the particular installation site. The antenna used for this sensor must be installed to provide a separation distance of at least 20 cm [7.87 in]

from all persons and must not be co-located or operating in conjunction with any other antenna or sensor. For remote antenna, see antenna installation requirements to satisfy FCC RF exposure requirements.

, ATTENTION Federal Communications Commission (FCC):

The Limitless WMPR Series complies with part 15 of the FCC rules. Operation is subject to the following two condi-

tions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Industry Canada (IC):

Linstallateur de cette radio doit sassurer que lantenne est situe ou oriente de manire ne pas mettre de radiofrquences excdant les limites permises par Sant Canada pour la population gnrale. Veuillez consulter le Code de scurit 6 de Sant Canada au www.hc-sc.gc.ca/

rpb. 8.1.2 Outdoor Installation Warnings m WARNING LIVES MAY BE AT RISK!

Carefully observe these instructions and any special instructions included with the equipment being installed. 26 sensing.honeywell.com m WARNING CONTACTING POWER LINES COULD BE FATAL Look over the site before beginning any installation and anticipate possible hazards, especially these:

Make sure no power lines are near where possible contact can be made. Antennas, masts, towers, guy wires, or ca-

bles may lean or fall and contact these lines. People may be injured or killed if they are touching or holding any part of equipment when it contacts electric lines. Make sure there is NO possibility that equipment or personnel can come in contact directly or indirectly with power lines. Assume all overhead lines are power lines. The horizontal distance from a tower, mast, or antenna to the nearest power line should be at least twice the total length of the mast/antenna combination. This will ensure that the mast will not contact power if it falls during either installation or later. m WARNING TO AVOID FALLING, USE SAFE PROCEDURES WHEN WORKING AT HEIGHTS ABOVE GROUND Select equipment locations that will allow safe, simple equipment installation Dont work alone. A friend or co-worker can save a life if an accident happens. Use approved, non-conducting ladders and other safety equipment. Make sure all equipment is in good repair. If a tower or mast begins falling, dont attempt to catch it. Stand back and let it fall. If anything such as a wire or mast does come in contact with a power line, DONT TOUCH IT OR ATTEMPT TO MOVE IT. Instead, save a life by calling the power compa-

ny. Dont attempt to erect antennas or towers on windy days. m WARNING MAKE SURE ALL TOWERS AND MASTS ARE SECURELY GROUNDED, AND ELECTRICAL CABLES CONNECTED TO ANTENNAS HAVE LIGHTNING ARRESTORS. This will help prevent fire damage or human injury in case of lightning, static build up, or short circuit within equipment connected to antenna. The base of the antenna mast or tower must be connected directly to the building protective ground or to one-or-more approved grounding rods, using 1 AWG ground wire and corrosion-resistant connectors. Refer to the National Electrical Code for grounding details. Lightning arrestors for antenna feed coaxial cables are available from electrical supply houses. Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 m WARNING If a person comes in contact with electrical power, and cannot move DO NOT TOUCH THAT PERSON OR RISK ELECTROCUTION. Use a non-conductive dry board, stick, or rope to push, pull, or drag them so they no longer are in contact with electrical power. Once they are no longer contacting electrical power, administer CPR if certified, and make sure emergency medical aid has been requested. 8.2 | Antenna Designs and Considerations 8.2.1 Omni-directional Antenna Design The Limitless Series omni-directional antennas were chosen for their ability to be used in applications where transmit-and-receiver antennas may be moving with respect to each other or could be stationary. These monopole and dipole antennas radiate power

(power from the internal radio of the WMPR monitor) in a 360 out-

ward pattern in a plane perpendicular to the length of the antenna element. The term omni may suggest that the antenna radiates power in all directions, but that is not the case. The actual anten-

na radiation pattern looks more like a toroid (doughnut-shape) as shown in Figure 44. Figure 44. Radiation Pattern of an Omni-directional Antenna Toroid Radiation Pattern - Pattern is 360 degrees in the vertical plane, but not the horizontal plane 2.0 dBi RF Antenna Pattern - Hori-

zontal 2.0 dBi RF Antenna Pattern - Vertical The antenna radiates virtually zero power in the Z axis and most of the power in the X and Y axis. Increasing the antennas gain will increase the power only in the X and Y axis. As a result, the radiation pattern becomes narrower. For instance, this is analogous to the reflector in an automobiles headlight. The reflector does not add light or increase the luminous intensity of the light bulb, rather it simply directs all the light energy in the forward direction where the light is needed most. Honeywell Sensing and Productivity Solutions 27 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8.3 | Antenna Mounting and Considerations 8.3.1 Antenna Mounting Location with Respect to RF Signal m WARNING RF EXPOSURE To satisfy FCC RF exposure requirements for mobile transmit-

ting devices, a separation distance of 20 cm [7.87 in] or more should be maintained between the antenna of this device and persons during device operation. To ensure compliance, operation at closer than this distance is not recommended. The antenna used for this transmission must not be co-located in conjunction with any other antenna or transmitter. Failure to comply with these instructions could result in death or serious injury. There are several environmental factors to consider when deter-

mining antenna location during installation. These factors can affect the radio frequency (RF) signal strength being both transmitted and received by the Limitless input and corresponding WMPR. It is desirable for the antenna to be mounted in a place that will limit exposure of adjacent materials/objects between the Limitless switch and WMPR, as they have an effect on RF signal strength. If the mounting location for an omni-directional antenna is on the side of a building or tower, the antenna pattern will be degraded on the building or tower side. Obstacles that affect antenna patterns and RF signal strength:

Indoor: Concrete, wood, drywall, metal walls, etc. Outdoor: Vehicles, buildings, trees, structures, topology, weath-

er conditions, chain link fence, major power cables, etc. The best performance is achieved when both the Limitless input and WMPR antennas are mounted at the same height and in a di-

rect line of sight (LOS) with no obstructions. Generally, the higher the antenna is above ground, the better it performs. Another concern is RF interference, discussed in Section 8.4.3. Figure 45. Limitless Input to WMPR with RF Signal Line of Sight (LOS) Free From Obstacles Figure 46. Limitless Input to WMPR with RF Signal Line of Sight (LOS) Affected by Obstacles 28 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8.4 | Antenna Options The following chart lists the antenna options along with the various characteristics that will be referenced throughout this section. This section is intended to assist an end user in determining which antenna(s) are worth investigating and subjecting to application requirements for proof of suitability. Table 26. Antenna Options Ant. type code Part number Replacement antenna mount or cable Ant. gain

(max.) Design/

Style Mount Cable Length Environmental usage**

Dimensions 01 WAN01RSP N/A 2.2 dBi Omni/

Straight Direct N/A Indoor or outdoor use 02 WAN02RSP N/A 2.2 dBi 03 WAN03RSP N/A 3.0 dBi 04 WAN04RSP WAMM100R-

SP-005 base with 1,52 m [5 ft]

of cable 05 WAN04RSP WAMM100R-

SP-010 base with 3,05 m [10 ft] of cable 06 WAN05RSP WAMM100R-

SP-005 base with 1,52 m [5 ft]

of cable 5.5 dBi 5.5 dBi 9.0 dBi Omni/

tilt &

swivel Omni/

flat Omni/

tilt &

swivel Omni/

tilt &

swivel Omni/

tilt &

swivel Remote with adhesive mount Remote with magnetic mount Remote with magnetic mount Remote with magnetic mount 09 WAN06RSP WCA200RN-

PRSP-010 coax cable assembly 3,05 m [10 ft]

8.0 dBi Omni/

straight 10 WAN02RSP WAMM100R-

SP-010 2.2 dBi Omni/

straight Remote with mast mount Remote with magnetic mount n/a WAN09RSP N/A 3.0 dBi n/a WAN10RSP N/A 5.0 dBi n/a WAN11RSP N/A 4.0 dBi Omni/

low profile straight Omni/

straight Omni/

low profile dome Remote with magnetic mount Remote with magnetic mount Remote with mobile thru-hole screw mount Direct N/A Indoor or outdoor use 2,99 m [9.8 ft]

Indoor or outdoor use 1,52 m [5 ft]

3,04 m [10 ft]

1,52 m [5 ft]

Indoor or limited outdoor exposure. Protect against direct rain, salt, snow, ice, etc. Indoor or limited outdoor exposure. Protect against direct rain, salt, snow, ice, etc. Indoor or limited outdoor exposure. Protect against direct rain, salt, snow, ice, etc. 3,35 m [11 ft]

Indoor or outdoor use 3,04 m [10 ft]

Indoor or limited outdoor exposure. Protect against direct rain, salt, snow, ice, etc. 4,57 m [15 ft]

Indoor or outdoor use 4,57 m [15 ft]

Indoor or outdoor use Cable material/

type Mount material N/A N/A N/A N/A UV stable PVC/

RG-174 coax N/A UV stable PVC/

RG-174 coax UV stable black ABS UV stable PVC/

RG-174 coax UV stable black ABS UV stable PVC/

RG-174 coax UV stable black ABS UV stable PVC/

RG-316 coax, UV stable Polyeth-

ylene/200 Series coax 300 series SST aluminum alloy UV stable PVC/

RG-174 coax UV stable black ABS An-

tenna mate-

rial UV stable LG Key flex BT-

1040D UV stable LG Key flex BT-

1040D UV stable ABS UV stable molded polyure-

thane UV stable molded polyure-

thane UV stable molded polyure-

thane UV stable fiber-

glass UV sta-

ble LG Keyflex BT-

1040D UV stable ABS plastic 115 mm L x 22,1 mm W x 4,57 mm D [4.53 in L x 0.87 in W x 0.18 in D] 3 m [9.8 ft] cable 12,7 mm x 208,28 mm L [ 0.50 in x 8.20 in L]

12,7 mm x 208,28 mm L [ 0.50 in x 8.20 in L]

12,7 mm x 384,05 mm L [ 0.50 in x 15.12 in L]

33,5 mm x 427,9 mm L

[ 1.32 in x 16.85 in L]

76,2 mm x 230,1 mm L

[ 3.0 in x 9.06 in L]

4,57 m [15 ft] cable UV stable black PVC Nick-

el-plated steel UV stable black PVC UV stable black PVC UV stable black PVC Nickel-

plated steel Nickel-

plated steel Nickel-

plated steel 4,57 m [15 ft]

Indoor or outdoor use 39 mm x 42,4 mm L

[ 1.54 in x 1.67 in L ]

*Reference Limitless nomenclature (i.e. WMPR Series, WDRR Series, WPMM Series, WGLA Series, etc.)

**Reference Limitless Environment Usage section 8.4 for further details Honeywell Sensing and Productivity Solutions 29 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669, CAUTION Power to the WMPR should not be applied during installation of an antenna as damage could occur to the WMPR electronics. 8.5.1 Antenna Connection Physical connection of the antenna to the WMPR is accom-

plished by using mating RP-SMA connectors: plug and jack. Di-

rect-mount antennas have an RP-SMA plug that connects directly to the WMPR RP-SMA jack. The remote mount antenna uses a cable with a RP-SMA plug that connects directly to the WMPR RP-SMA jack allowing the antenna to be remotely mounted away from the WMPR. Mounting options are based on user preference, communication agency approvals, WMPR mounting location, and obstacles as discussed in Section 8.3.1. A direct- or remote-mount antenna can be easily mounted by threading the mating RP-SMA plug of the antenna to the WMPRs RP-SMA jack. Reference section 8.6 for further details on extra environmental protection of RP-SMA connections. Tighten the RP-

SMA connection until finger tight. See Figures 47 and 48.

, ATTENTION The antenna cables should not be modified (i.e. cut short and/

or re-terminated) as it may affect Communication Agency approval. m WARNING The WMPR must be installed in accordance with the require-

ments specified in this document in order to comply with the specific Country Communication Agency requirements. (i.e. FCC, IC, ETSI, ACMA, etc.) See Section 3 as it requires choos-

ing the correct Country Use Code and thus allowable antenna and/or cable usage. 8.5 | Antenna Connection, Styles, and Mounting Options m WARNING RF EXPOSURE To satisfy FCC RF exposure requirements for mobile transmitting devices, a separation distance of 20 cm [7.87 in] or more should be maintained between the antenna of this device and persons during device operation. To ensure compliance, operation at closer than this distance is not recommended. The antenna used for this transmission must not be co-located in conjunction with any other antenna or transmitter. Failure to comply with these instructions could result in death or serious injury. Figure 47. Limitless WMPR RP-SMA Connection, Direct-Mount Figure 48. Limitless WMPR RP-SMA Connection, Remote-Mount 30 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8.5.2 | Cable Requirement Some remote mount antennas have an antenna cable perma-

nently attached, with an RP-SMA plug, that is simply connected to the jack on the WMPR. Other remote mount antennas do not include cable, and require the use of an extension cable. This extension cable will normally need to have one end with an RP-

SMA plug (inside threads), which will connect to the sensor, and one end with an RP-SMA jack (outside threads). The jack of the extension cable will mate with the antenna or the lightning arres-

tor. If a lightning arrestor is connected this way, the antenna may be directly connected to the arrestor. Note that at 2.4 GHz., typical antenna cables types have 0.5 dB of loss per meter (almost 5 dB for a ten meter cable, plus con-

nector losses). Excessively long cable runs should be avoided if possible. Refer to Section 7 for approved antenna and cable options. 8.5.3 | Antenna Styles and Mounting Options Choosing an antenna mounting style depends on application conditions, antenna benefits and/or features, and user prefer-

ence. The antennas gain (discussed further in Section 8.5) to some extent determines physical size. Another consideration is the amount of room available in the application. Straight or Tilt/Swivel: A benefit of the straight antenna is rigid design and resistance to being repositioned (shock, vibration, wind, etc.) when compared to a tilt-and-swivel design. It is more resistant to weather conditions as theres no swivel-joint connec-

tion for contaminants to enter. A benefit of the tilt & swivel design is that it allows easier positioning in relation to other antenna(s) to obtain a suitable RF signal. Catalog listings:WAN01RSP, WAN02RSP WAN01RSP Straight wireless antenna with 2.2 dBi gain, reverse polarity SMA plug, connector mount

(RP-SMA) WAN02RSP Tilt/swivel wireless antenna with 2.2 dBi gain, reverse polarity SMA plug, connector mount

(RP-SMA) Adhesive mount: The benefit of a remote adhesive mount antenna is mounting flexibility to a number of surfaces and in various orientations. Remember, the surface an antenna is being mounted to will affect the radiation pattern. Use masking tape to temporarily attach the antenna. Perform fade-margin testing, as described in Section 8.7 before permanently mounting. Catalog listing: WAN03RSP Permanent mounting: Pre-clean the antennas mounting surface with an alcohol wipe. Peel paper protection from adhesive strip and mount to the cleaned surface. Figure 46. Adhesive Mounting Steps Adhesive Mount Antenna Step 1. Pre-clean the surface Adhesive Mount Antenna Step 2. Peel Protection from Adhesive Strip Adhesive Mount Antenna Step 3. Mount the Antenna Honeywell Sensing and Productivity Solutions 31 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Use Magnetic Mounts with the following antenna catalog listings:

WAN01RSP, WAN02RSP,WAN04RSP, and WAN05RSP Figure 52. Mag-

netic Mount Base with Antenna Mounted on Steel Surface Figure 53. WAN09RSP Magnetic Mount Antenna Figure 54. WAN10RSP Magnetic Mount Antenna Mast mount: The benefit of the mast-mount antenna is its rigid design and resistance to displacement when subjected to shock, vibration, wind, etc. It can be easily mounted high above the ground to obtain greater RF signal performance and it withstands winds up to 100 mph. Catalog listing: WAN06RNJ Mast-mount bracket (Included with the 8 dBi antenna): Attach antenna to its mounting bracket. Tighten nut. Assemble two U-clamps around mast and tighten nuts. Ensure provided lock washers are compressed to a flat condition. Figure 50. Mast Mount Antenna Tighten nut on mounting bracket Figure 51 Mast Mount Antenna Side View with Attach-

ment to Pipe Thru-hole mount: The benefit of the thru-hole mount antenna is it allows the cable to run thru the mounting surface. There is also an adhesive material between the antenna housing and the mounting surface for seal protection. This is a very low profile, rugged design [approximately 30 mm (1.18 in) height] when mounted and can also can be used in mobile applications. Catalog listing: WAN11RSP Figure 55. Thru-hole mount antenna WAN11RSP 8.5.4 | Antenna Adjustment Considerations The antennas of the Limitless input and WMPR receiver should be oriented in parallel as best as possible. This will, in most cases, allow the longest range and highest RF signal. The least RF signal is normally in-line with the top of the antenna, so avoid having the antennas pointed directly toward or directly away from each other. Magnetic mount: The benefit of the magnetic-mount antenna is its ability to mount on any ferrous-metal surface and in various orientations. A smooth metal surface is preferred to allow the best attraction of the magnet to the surface. First, determine if the magnetic attraction is sufficient to hold the antenna in the desired position (i.e., shock, vibration, etc. in the application). Placing the antenna in a location where it cannot be inadvertently displaced may help. Catalog listings: WAMM100RSP-005 & WAMM100RSP-010:

These magnetic-mount bases are not designed for mobile appli-

cations. Catalog listings: WAN09RSP & WAN10RSP: These magnet-

ic-mount antennas are designed for mobile applications and can withstand winds at >150 mph. 32 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Figure 56. Highest RF signal when antennas are as parallel to each other as possible (parallel arrangement shown with the Limitless WMPR monitor and WPS sensor) 8.5.5 | Grounding the Remote Antenna Follow these guidelines to ground the antenna in accordance with national electrical code instructions. Table 25. Grounding the Antenna Step 1 2 3 4 Action Use No. 10 AWG copper or No. 8 or larger copper-clad steel or bronze wire as ground wires for both mast and lead-in. Securely clamp the wire to the bottom of the mast. Secure the lead-in wire to a lightning arrestor (i.e., part number AL6-RSPRSJBW-9, manufactured by L-COM Global Connectivi-

ty) and mast ground wire to the building with stand-off insulators spaced from 1,2 m [4 ft] to 1,8 m [8 ft] apart. The lightning arrestor must be bonded to earth ground in order to function properly. Due to the small diameter coaxial cables used with the RP-SMA connectors, the lightning arrestor must be grounded independant of the antennas, using number 10 solid wire. This wire must be connected directly to a solid ground. It may be the same ground as is used for the antenna tower. Drill a hole in the buildings wall as close as possible to the equipment to which you will connect the lead-in cable. Use a rubber grommet or feedthru tube to protect the cable from abrasion. m CAUTION There may be wires in the wall. Before drilling check that the area is clear of any obstructions or other hazards. 5 Pull the cable through the hole and form a drip loop on the outside close to where the cable enters the building. The drip loop should have a radius of at least 30 cm [11.81 in]. To lightning arrestor and antenna Cabinet lead-in area 30 cm

[12 in]

Drip loop 6 7 Thoroughly waterproof the cabinet lead-in area. Connect the lead-in cable to the WMPR and tighten cables by hand only; do not use tools or you could overtighten and dam-

age the RF cable on the WMPR. Honeywell Sensing and Productivity Solutions 33 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8.6 | Antenna Environmental Usage/Concerns 8.6.1 | Choosing an Antenna/Cable to Meet Application Exposure Conditions There is no antenna or cable design impervious to every environ-

mental condition it could be exposed to. Review the application environment as follows:

Step 1 2 3 Action Determine where the antenna will be installed and the application conditions: indoor, outdoor, or limited outdoor exposure. Even if the antenna is going to be used indoors, an outdoor antenna may be more suit-

able (i.e., resistant to fluids, rigid construction, etc.) Determine what the antenna may be subjected to (i.e., fluids, chemicals, oils, wind, shock, vibration, etc.) A. Review antenna and/or cable materials (listed in Section 8.1) with respect to resistance of chem-

icals and fluids in the application. If choosing an adhesive mount, adhesive resistance testing may be necessary. If shock, vibration, wind, rain, sleet/snow, etc. are in the application, choose an antenna rated for out-

doors and has a rigid design as defined in Sections 8.1 and 8.3.3.2. B. 4 This step may be required to provide an extra level of protection, especially if the application may be sub-

jecting antennas and cables to liquids. The RP-SMA connections, tilt/swivel joints, and cable entrances are potential leak paths that could lead to corrosion. The following procedure is one way to provide extra protec-

tion to these connections and joints. Ensure the area applying tape to is clean from contam-

inants by first cleaning it with mild detergent/water and completely dry. Follow with an isopropyl alcohol wipe of the area. (See Figure 54). Layer 1: Wrap a layer of polyvinyl chloride insulat-

ing tape Layer 2: Wrap a layer of rubber splicing tape i.e. Scotch 23 Layer 3: Wrap a layer of UV stable polyvinyl chlo-

ride insulating tape Layer 1 allows the user to remove Layer 2 for con-

nector inspection, antenna replacement, reposi-

tioning of the tilt/swivel antenna, etc. In the end, the antenna/cable choice may need to be tested in the actual application conditions to prove suitability. 8.6.2 | Protection of Antenna Connections If the antenna and connectors are not protected by the radome, the connector and threads should be protected from the elements thorugh an application of protective tape. A recommended protective tape is COAX-SEAL #104 Hand Moldable Plastic Weatherproofing Tape, available from electrical supply houses. Also acceptable is Scotch Premium Vinyl Electrical Tape 88-Super tape, available from 3M. Figure 57. Application of Protective Tape Step 1 - Remove radome. Step 2 - First apply 1/2 inch wide COAX-

SEAL (flexible and moldable material) Step 3 - Secondly, apply 3M Scotch Premium Vinyl Electrical Tape 88-Super Ultimately, the antenna/cable choice may need to be tested in the actual application conditions to prove suitability for the environment. 34 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 2 Add this length to the length of the tower or mast and then double this total for the minimum recommended safe distance. Generally speaking, the higher the antenna is above the ground, the better it performs. Good practice is to install your antenna about 1,5 m to 3 m [5 ft to 10 ft] above the roof line and away from all power lines and obstructions. If possible, find a mounting place directly above the wireless device so the lead-in cable can be as direct as possible. 8.6.6 | Antenna Mounting Location with Respect to Antenna Location There are several environmental factors to consider with respect to antenna location during installation. These factors can affect the radio frequency (RF) signal strength being both transmitted and received by the Limitless switch or sensor and the Wireless Multi-Protocol Receiver (WMPR). It is desirable for the antenna to be mounted to limit exposure of adjacent materials/objects between the Limitless switch or sensor and the WMPR, as they will have an effect on RF signal strength. If the mounting location for an omni-directional antenna is on the side of a building or tower, the antenna pattern will be degraded on the building or tower side. Obstacles that affect antenna patterns and RF signal strength:

Indoor: Concrete, wood, drywall, and metal walls, etc. Outdoor: Vehicles, buildings, trees, structures, topolo-

gy, weather conditions, chain link fence, major power cables, etc. Rain and moisture: Wireless sensors compliant with IEEE 802.15.4 operate in a 2.4 GHz band. As the peak absorption frequency of water molecules is approximately 22 GHz, the total signal attenuation due to rain, fog or moisture is negligable (less than 0.1 dB/mile for a heavy downpour). 8.6.3 | Outdoor Antenna Installations - Lightning Concerns Outdoor antenna installations can lead to the possible damage caused by nearby lightning strikes that induce charges or surges on the antenna and/or antenna extension cables. A lightning arrestor such as the AL6-RSPRSJBW-9 from L-COM Global Connectivity can be reviewed against application require-

ments.

, ATTENTION National, local, and/or regulatory agencies may require the use of a lightning arrestor and possibly other requirements for an antenna system installation. It is recommended that the cus-

tomer review and adhere to these requirements. 8.6.4 | Lightning Arrestor The lightning arrestor may be mounted directly on the sensor, or at the far end of the antenna cable, mounted to a sheet of metal in a through-hole. Generally, the choice should be made based on having the shortest, most direct path to a good, solid ground. If the lightning arrestor is mounted directly on the sensor, use caution when attaching a grounding wire to the arrestor to avoid putting undue stress on the sensors antenna connector. If the coax cable is to enter a building, then the lightning arrestor should be mounted as close as possible to where the lead-in wire enters the building. The lightning arrestor recommended by Honeywell (AL6-RSPRSJBW-9 from L-COM Global Connectivity) features a bulkhead RP-SMA connector with a rubber O-ring seal which can be used for mounting through an enclosure wall. Both connector ports of the lightning arrestor provide equal pro-

tection no matter which way it is installed. Either port can face the antenna and either port can face the sensor. 8.6.5 | Site Selection Before attempting to install your antenna, consider the best place to install the antenna for safety and performance. Follow these steps to determine a safe distance from wires, pow-

er lines, and trees. Step 1 Action Measure the height of the antenna. Honeywell Sensing and Productivity Solutions 35 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 8.7 | Choosing an Antenna Gain (dBi) with Acceptable Fade-Margin There are several different Limitless Series antenna gain options to choose from. This section helps determine the antenna version(s) that will provide suitable RF signal performance for specific applica-

tions. The Limitless Series antennas actual gain is measured by how much of the input power from the WMPRs internal radio is concen-

trated in a particular direction. The WMPR antenna transmits RF signals, and also receives RF signals from a Limitless input. In a particular application, transmit signal strength may be better than the receive signal strength or vice versa. The intent is to choose an antenna with the optimum gain relative to application conditions for both transmitting and receiving. Fade-margin is the amount of excess power available above and beyond what is necessary to maintain a reliable RF signal between the transmitter and receiver. Normally, an acceptable threshold of excess power to ensure effective operation in a variety of environ-

mental conditions is 10 dB. A simple way to determine if the signal strength is sufficient is to temporarily install a 10 dB attenuator*

between the RP-SMA plug of the antenna or remote cable and WMPRs RP-SMA jack. This should be completed in an operating application environment with good nominal environmental condi-

tions. Starting with the antenna chosen in Section 3 & 8.3, install the attenuator and operate the system until exposure of all normal application conditions is completed while monitoring the Lost RF Signal Output. If the fade-margin is unacceptable, the lost RF signal output changes state) indicating the antenna position on the Limit-

less switch and/or WMPR receiver will need to be changed and/

or another antenna type should be chosen. The RF Signal indication within the Node Status menu or Node Information Menu is useful in indicating the RF Link Strength; refer to Sections 6.3 or 6.5 for more information. Try several mounting locations and/or antennas along with retest-

ing each with the attenuator to determine the optimal set-up that provides an acceptable fade-margin. Remove the attenuator after testing is completed.

*Suggested sources/part numbers RP-SMA female to SMA male connector adaptor (i.e. Connec-

10 dB attenuator (i.e. Crystek Part number: CATTEN-0100) tor City Part number : ADP-SMAM-RPSF) RP-SMA male to SMA female connector adaptor (i.e. Connec-

tor City Part number : ADP-RPSM-SMAF) 36 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Figure 59. Limitless WMPR Mounting Plate 9 | WMPR MOUNTING The WMPR is intended to be mounted to a Din-Rail or mounted via the mounting plate. 9.1 | Din-Rail Mounting The WMPR DIN-Rail bracket is supplied with the WMPR and can be snapped on to a 35mm DIN-RAIL. Figure 58. Limitless WMPR DIN-RAIL bracket 10 | INSPECTION AND MAINTENANCE 10.1 | WMPR Inspection and Replacement Periodic inspection Check the WMPR housing and connectors for signs of dam-

age. Replace if necessary Check the condition of the LCD display for signs of cracking or damage. Replace WMPR if necessary Check the proper operation of the Function Buttons and if found non-functional, replace WMPR 10.2 | Antenna Inspection and Replacement Check antenna or cable connection to WMPR connector to ensure it is tight and bear no signs of damage or corrosion. Replace if necessary per Section 8. 9.2 | Tab Mounting The WMPR has four tabs mounting holes intended to allow mounting with a #8 style screw. As there are many types of screw fasteners, care should be taken to not overtighten the fastener. Also, ensure that the housing is being mounted on a flat surface. Honeywell Sensing and Productivity Solutions 37 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 11 | CHOOSING A WMPR SERIES CATALOG LISTING This section is intended to be used for identifying a catalog listing from the WMPR nomenclature to determine suitability in a particular application. Figure 60. Limitless WMPR Nomenclature WMPR 1 A 00 A 1 A 1 Receiver type WMPR Series Multi-Protocol Receiver GEN code 1 Version 1 RF code A 2.4 GHz;

IEEE 802.15.4 Antenna type code 00 No antenna; RP-SMA connector jack 02 2.2 dBi omni w/receiver mount; tilt/swivel A B Country use code US, Canada All other approved countries Output code Seal code 1 EtherNet/IP A IP20 Specials Mounting code Mounting plate, epoxy coated CRS DIN bracket, aluminum 1 2 INSTALLATION 12 | QUICK START UP AND There are many sections in this manual that describe the consider-

ation, concerns, specifications, etc. with respect to country of use, antenna choices, environmental effects, etc. The following sections are useful for initially starting up the WMPR and associated Limit-

less input.

, ATTENTION Ensure that the country the product is being used in appears in the chart along with the correct Country Use Code on the WMPR label. Review Section 2.1 and 7.1 in this manual. If required, contact Honeywell before use of the WMPR in Countries not listed in Table 3 thru 6 in Section 2.1. Table 26. Suggested Start-Up Sections to Review Suggested Start-up Sections to Review Electrical Configurations/Connections Start-up or Restart Sequence Mode Main Menu > Action Menu > Pair Mode Antenna Connection, Styles, and Mounting Options Antenna Adjustment Considerations Antenna Environmental Usage/Concerns Choosing an Antenna Gain (dBi) with Acceptable Fade-Margin WMPR mounting 9 Section 5.1 to 5.3 6.1 6.8 8.5.3 8.5.4 8.6 8.7 The following procedure refers to appropriate sections in this manual to determine/build a WMPR listing. 1. Determine the country the product will be used in. Review Section 2.1 (Intended Country Usage) to determine the Country Use Code (A or B) in relation to the country the WMPR will be used in. 2. Determine the antennas and/or Antenna Type Codes allowable for use. Review Section 2 (ANTENNA OPTIONS ALLOWED PER COUNTRY USE CODE) to determine the antennas/cables allowed for use in a particular country (based on the Country Use Code determined in Step 1). Some antenna/cable options can be ordered with the WMPR and some are ordered sepa-

rately. If an antenna is ordered separately, choose Antenna Type Code 00 (see product nomenclature). 3. Review Section 8.4 (Overview of Antenna Options) against the antenna list identified in Step 2. Initially, narrow options by choosing a desired antenna that can be used indoor/outdoor or indoor/limited outdoor exposure. 4. Review Sections 8.2 & 8.3 (Omni-directional Antenna Design &

Antenna Mounting and Considerations) for a background of an-

tenna design, considerations, warnings, etc. Choose a possible direct- or remote-mount antenna. 5. Section 8.4 helps to determine the antenna material most suitable for use based on the application environment. Also consider the effects of lightning or RF Interference (if applica-

ble). 38 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 13 | ACCESSORIES Table 27. Limitless Antennas Part Number Antenna Type Code

(if ordered with a wireless switch) Antenna Design Antenna Gain (dBi) Connector/

Mounting Dimensions WAN01RSP WAN02RSP WAN03RSP 01 02 03 04**

with a WAN04RSP*

WAMM100RSP-005 base with 1,52 m [5 ft] of cable 06**

with a WAN05RSP*

WAMM100RSP-005 base with 1,52 m [5 ft] of cable 05**

with a WAMM100RSP-010 base with 3,05 m

[10 ft] of cable 07**

with a WAMM100RSP-010 base with 3,05 m

[10 ft] of cable WAN06RNJ*

WAN09RSP WAN10RSP WAN11RSP*

08**

with a 09**

with a WCA200RNPRSP-002 coax cable assembly WCA200RNPRSP-010 coax cable assembly 0,682 m [2 ft]

3,05 m [10 ft]

straight 2.2 tilt/swivel 2.2 flat 3.0 tilt/swivel 5.5 tilt/swivel 9.0 RP-SMA plug/direct mount RP-SMA plug/direct mount RP-SMA plug/adhe-

sive mount RP-SMA plug/direct mount RP-SMA plug/direct mount 9,91 mm x 112,78 mm L

[ 0.39 in x 4.44 in L]

9,91 mm x 112,78 mm L

[ 0.39 in x 4.44 in L]

7,87 mm x 22,1 mm W x 4,57 mm D

[ 0.31 in x 0.87 in W x 0.18 in D]

3 m [9 ft] cable 12,7 mm x 208,28 mm L

[ 0.50 in x 8.20 in L]

12,7 mm x 384,05 mm L

[ 0.50 in x 15.12 in L]

straight 8.0 RP-N jack/

bracket 33,5 mm x 427,9 mm L

[ 1.32 in x 16.85 in L]

low profile mobile 3.0 RP-SMA plug/mag-

netic 76,2 mm x 115 mm L

[ 3.0 in x 4.54 in L]

4,57 m [15 ft] cable straight 5.0 RP-SMA plug/mag-

netic 76,2 mm x 230,1 mm L

[ 3.0 in x 9.06 in L]

1,52 m [5 ft] cable low profile mobile dome 4.0 RP-SMA plug/th-

ru-hole screw 39 mm x 42,4 mm L

[ 1.54 in x 1.67 in L ]

* Not allowed for use with Country Use Code B Limitless products Honeywell Sensing and Productivity Solutions 39 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Table 28. Limitless Cables Part Number Description WCA200RNPRSP-002 Limitless Series wireless cable assembly wth 200 Series cable, 2 ft length, reverse polarity N plug to reverse polarity SMA plug, use only with WAN06RNJ antenna WCA200RNPRSP-010 Limitless Series wireless cable assembly wth 200 Series cable, 10 ft length, reverse polarity N plug to reverse polarity SMA plug, use only with WAN06RNJ antenna WCA200RNJRSP-002 Limitless Series wireless cable assembly wth 200 Series cable, 2 ft length, reverse polarity SMA jack to reverse polarity SMA plug WCA200RNJRSP-005 Limitless Series wireless cable assembly wth 200 Series cable, 5 ft length, reverse polarity SMA jack to reverse polarity SMA plug WCA200RNJRSP-010 Limitless Series wireless cable assembly wth 200 Series cable, 10 ft length, reverse polarity SMA jack to reverse polarity SMA plug WCA200RNJRSP-015 Limitless Series wireless cable assembly wth 200 Series cable, 15 ft length, reverse polarity SMA jack to reverse polarity SMA plug WCA200RNJRSP-020 Limitless Series wireless cable assembly wth 200 Series cable, 20 ft length, reverse polarity SMA jack to reverse polarity SMA plug Table 29. Limitless Base Accessories Part Number Description WAMM100RSP-005 Magnetic antenna base with 1,52 m [5 ft] of cable WAMM100RSP-010 Magnetic antenna base with 3,05 m [10 ft ] of cable 40 sensing.honeywell.com Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 14 | INSTALLATION DRAWING Figure 61. WMPR DImensions 41,4 mm

[1.63 in]

RP-SMA antenna connector jack EtherNet/IP RJ-45 connector 2,36 mm

[0.093 in]

thickness 4X 4,57 mm

[4X 0.18 in]

+ -

Power supply lever-actuated connector 159,51 mm

[6.28 in]

152,4 mm

[6.0 in]

88,9 mm

[3.5 in]

Mounting plate

(mounting code 1) Din bracket

(mounting code 2) 80,0 mm

[3.15 in]

7,87 mm

[0.31 in]

Honeywell Sensing and Productivity Solutions 41 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR SeriesISSUE 1 32309669 Installation and Technical Manual for the Limitless Multi-Protocol Receiver, WMPR Series ISSUE 1 32309669 SALES AND SERVICE Honeywell serves its customers through a worldwide network of sales offices, representatives and distributors. For application assistance, current specifications, pricing or name of the nearest Authorized Distributor, contact your local sales office or:

E-mail: info.sc@honeywell.com Internet: sensing.honeywell.com Phone and Fax:

Asia Pacific Europe Latin America USA/Canada

+65 6355-2828

+65 6445-3033 Fax

+44 (0) 1698 481481

+44 (0) 1698 481676 Fax

+1-305-805-8188

+1-305-883-8257 Fax

+1-800-537-6945

+1-815-235-6847

+1-815-235-6545 Fax WARRANTY/REMEDY Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywells stan-

dard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgment or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyers sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages. While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use. Notices and Trademarks While this information is presented in good faith and believed to be accurate, Honeywell disclaims the implied warranties of mer-

chantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agree-

ment with and for its customers. In no event is Honeywell liable to anyone for any indirect, special or consequential damages. The information and specifications in this document are subject to change without notice. Honeywell is a registered trademarks of Honeywell International Inc. Other brand or product names are trademarks of their respective owners. Sensing and Productivity Solutions Honeywell 1985 Douglas Drive North Golden Valley, MN 55422 honeywell.com 32309669-1-EN IL50 GLO Printed in USA. July 2015 2015 Honeywell International Inc. All rights reserved. COAX-SEAL is the registered trademark of Universal Electronics. Scotch is the registered trademark of 3M. EthernNet/IP is the registered trademark of ODVA, Inc.