Honeywell ISM BAND XYR 5000 LINE- Manuals

Table of Contents TABLE OF CONTENTS ........................................................................................ V TABLE OF FIGURES.......................................................................................... VII 1 INTRODUCTION...................................................

6.3.6 Command 43- Read Device ID .......................................... 29 6.4 B ASE R ADIO H OLDING R EGISTERS ................................................... 29 6.4.1 Base Radio Device Type Registers ................................... 30 6.4.2 Base Radio Device Status Registers .............

Table of Figures Figure 2-1 Overall Wiring Schematic..................................................................... 3 Figure 3-1 General Layout..................................................................................... 6 Figure 3-2 Overall Wiring Schematic...............................

1 Introduction 1.1 Using this Manual This manual is designed to assist in installing, operating, and maintaining Honeywell Model WBR-AK Base Radios. The manual is broken into sections as follows: 2 Quick Start This section summarizes what must be done in order to get the device installed, configured...

The Honeywell Base Radio may be used to communicate with many Transmitters in various applications. You can use this device for long-term monitoring in remote locations, for short-term data gathering on process conditions, or to quickly test the economic viability of a new installation. The purpose ...

2 Quick Start This section summarizes what must be done in order to get the device installed, configured and in operation quickly. Additional detailed information is found throughout this guide. Steps 1-3 refer to the following diagram: Figure 2-1 Overall Wiring Schematic 1. Wire 24VDC power to the ...

5. The Base Radio RF settings should be configured as follows: Set the RF Channel to any available RF CHAN that matches the one used by the Transmitters you wish to communicate with (other than RF OFF). • • • • • • • Set the Baud Rate to 76.8 K or to the Baud Rate used by the Transmitters with which...

3 Installation This section discusses both the mechanical and electrical aspects of installation. It is divided into the following sections: 3.1: Mechanical Installation 3.2: Electrical Installation 3.1 Mechanical Installation In this section, the mechanical installation instructions are discussed f...

3.2 Electrical Installation In this section wiring instructions are discussed for the various setup capabilities of the Base Radio. The subsections are as follows: 3.2.1 Electrical Specifications 3.2.2: Wiring Power to the Base Radio 3.2.3 Wiring RS-485 to the Base Radio 3.2.4 Wiring the RS-485/232 ...

Figure 3-2 Overall Wiring Schematic Warning! Explosions may result in death or serious injury. Do not remove the instrument cover in explosive atmospheres when power and/or communications are on. To begin the electrical installation first remove the explosion proof housing cover from the Base Radio,...

Once you have located these terminal blocks you can wire the Base Radio accordingly. The best way to wire the Base Radio is to: Remove both terminal blocks from the jacks on the Base Radio • • • • Insert the wire through the conduit hole on the bottom right of the Base Radio Secure the wire into the...

software may require the use of an RS-485 to RS-232 converter, as most PCs cannot be wired directly to RS-485. To wire the RS-485 cable to the Base Radio we recommend using a 22AWG twisted pair shielded wire. Place one of the twisted pair wires in the “A” (Tx+/Rx+) slot of the same terminal block as...

3.2.6.1 Daisy-Chaining Power to Multiple Base Radios A consideration when daisy-chaining power to multiple Base Radios is the power draw at power supply. Each Base Radio will typically draw 200mA @ 24VDC. This means a single Base Radio will draw a typical average power of 4.2W. If using the supplied...

Figure 3-8 Daisy-Chaining RS-485 to Multiple Base Radios 3.2.7 Terminating Communications Wiring to the Base Radio RS-485 is capable of maintaining communications over a maximum distance of 4000 feet. In most (and we recommend all) situations the unit that comprises an “end” of an RS-485 network sho...

(recommended in section 3.2.1) the value of the resistor should be a 120 Ohm ¼ watt resistor. To terminate a Base Radio, place one end of the resistor in the open terminal block’s B slot and place the other end of the resistor in the open terminal block’s A slot. Doing so will place the resistor acr...

4 General Configuration This section discusses the generalities around configuring the Base Radio via the NEXT and ENTER buttons. The subsections are as follows: 4.1: Base Radio Displayed Messages 4.1.1: The Read Only Sequence 4.2: Overall Configuration Menu Map 4.3: Setting the User Password 4.1 Ba...

Figure 4-2 The Read Only Sequence 4.2 Overall Configuration Menu Map A complete Base Radio Menu Map is shown in Appendix B. Below is an overall view of the configuration menu to aid the user in setting up the Base Radio for proper operation. Figure 4-3 Overall Configuration Menu Map 17

Note The user must enter a four-digit password to enter the CONFIG and DIAGNSE. The FACTORY menu is for factory use only. The default user password is 0000. For more information on the password see Section 4.3. 4.3 Setting the User Password Each Base Radio has a password that will lock out undesired...

5 Configuring the RF Communications In order for the Base Radio and the Transmitter to communicate they must be on the same RF Channel, and must be transmitting at the same Baud Rate. All Transmitters and Base Radios are set to RF OFF default configurations at the factory, and must be field configur...

5.2 RF Baud Rate Selection The RF Baud Rate refers to the speed at which the Base Radio and Transmitters communicate. There are three selectable settings with the quickest update times and longest communication ranges listed below: • 4.8K — Rate of 4.8 Kbaud (Update every 20 seconds) — Range of 3000...

5.3 High RF ID Setting The Base Radio uses this parameter along with the RF CHAN and BAUD RT parameters to set up communication with Transmitters. This setting should be a number between 1 and 100 corresponding to the Transmitter with the highest RFID on the system. Any Transmitter with an RFID set ...

6 Configuring the Modbus Communications The subsections are as follows: 6.1: Base Radio Setup 6.1.1: Modbus Baud Rate Setting 6.1.2: Modbus Device ID Setting 6.1.3: Modbus Parity Setting 6.1.4: Modbus Mapping Mode Setting 6.2: Modbus Communication Protocol 6.3: Modbus Commands 6.3.1: Command 03-Read...

distance. If you encounter communication problems between the Base Radio and server computer or existing system, try a slower baud rate setting. Once you have determined the Modbus Baud Rate you wish to use, follow the Base Radio menu map shown in Figure 6-1 to configure the Baud Rate. The factory d...

Follow the Base Radio menu map, shown in Figure 6-4, to configure the mapping mode. The factory default is the Device ID mode. Figure 6-4 Menu Map to Modbus Mapping Mode Setting 6.2 Modbus Communication Protocol The Base Radio connects to the Host (Master) system using Modbus over a serial RS-485 li...

device ID. The Base Radio uses register addresses 1 through 10 with each subsequent group of 10 registers used by a Transmitter. The RF online/offline status of a Transmitter can be determined through a number of different sources. In the Base Radio holding registers, a count of the current number o...

6.3.6 Command 43- Read Device ID This command returns identification information relating to the device. The conformity level of this command is level 01, basic identification (stream access only). As with most of the other diagnostic commands, identical information is returned for any device ID tha...

10007 Online/Offline Status of Transmitters with RF IDs 33-48 (Mirrored from existing value at address 00007.) 10008 Online/Offline Status of Transmitters with RF IDs 65-80 (New information.) 10009 Online/Offline Status of Transmitters with RF IDs 65-80 (New information.) 10010 Online/Offline Status...

total from the subtraction and subtract the next largest number possible and so on until the result is zero. Each value that was used in the subtraction indicates that the Transmitter is online. For example: The On/Offline Status holding register contains the value 15. In this case the largest value...

00005 + (RF ID * 10) Primary Sensor Value 00006 + (RF ID * 10) Primary Sensor Value 32-Bit IEEE Floating Point 00007 + (RF ID * 10) Secondary Sensor Value 00008 + (RF ID * 10) Secondary Sensor Value 32-Bit IEEE Floating Point 00009 + (RF ID * 10) Tertiary Sensor Value 00010 + (RF ID * 10) Tertiary S...

6.5.4 Transmitter Device Status Registers The following are the values for the Device Status holding registers. These registers are bit field registers represented as a 32-bit floating point values for Transmitters. Value Transmitter Device Status 1 Transmitter Online 2 Low Battery Condition ► 4 Ala...

7 Technical Specifications Power Characteristics • 10VDC-30VDC, 24 VDC @ 200mA typical RF Characteristics • 902 MHz – 928 MHz Frequency Hopping Spread Spectrum (FHSS), FCC certified ISM license-free band • Up to 3000’ range to Transmitters with clear line of sight; 500’ to 1000’ range with obstructi...

Appendix B Base Radio Menu Map Figure A- 1 Base Radio Menu Map 37

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