Honeywell 50025034 50025034 User Manual WCX Series Valve Position Sensor

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Application ID	TVy/zDMP5qo6yV+kWzdgmQ==
Document Description	User Manual
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Document Type	User Manual
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Date Submitted	2009-05-18 00:00:00
Date Available	2009-05-18 00:00:00
Creation Date	2009-03-31 09:54:43
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Document Lastmod	2009-03-31 09:55:31
Document Title	WCX Series Valve Position Sensor
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Document Author:	Frank Longmore

OneWireless
XYR 6000 Wireless Valve Position Sensor
Model: WCX Series
User's Manual
50040849
Revision 1
1/15/09
Notices and Trademarks
Copyright 2009 by Honeywell International Inc.
Revision 1 Jan. 15, 2009
While this information is presented in good faith and believed to be accurate, Honeywell disclaims the implied
warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may
be stated in its written agreement 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, PlantScape, Experion PKS, and TotalPlant are registered trademarks of Honeywell International Inc.
Other brand or product names are trademarks of their respective owners.
Automation and Control Solutions
Sensing and Control
Honeywell
1985 Douglas Drive North
Minneapolis, MN 55422
www.honeywell.com/sensing
ii
OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
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About This Document
This document describes preparation, operation and maintenance of the WCX Series Valve Position Sensor and
antennas. Mounting and installation are covered in other documents.
Honeywell does not recommend using devices for critical control where there is a single point of failure or where
single points of failure result in unsafe conditions. OneWireless is targeted at open loop control, supervisory
control, and controls that do not have environmental or safety consequences. As with any process control solution,
the end-user must weigh the risks and benefits to determine if the products used are the right match for the
application based on security, safety, and performance. Additionally, it is up to the end-user to ensure that the
control strategy sheds to a safe operating condition if any crucial segment of the control solution fails.
Revision Information
Document Name
Document ID
XYR 6000 Wireless Valve Position Sensor,
Model WCX Series User's Manual
50040849
Revision
Number
Publication
Date
1/15/09
References
The following list identifies all documents that may be sources of reference for material discussed in this
publication.
Document Title
XYR 6000 Wireless Valve Position Sensor, Model WCX Series Quick Start Guide
Getting Started with Honeywell OneWireless Solutions
OneWireless Wireless Builder User’s Guide
OneWireless Builder Parameter Reference
Support and contact info
WARNING
Risk of death or serious injury from explosion or fire.
If sensor is to be returned to Honeywell for any reason, both batteries MUST
be removed prior to shipping. Dispose of used batteries promptly per local
regulations or the battery manufacturer’s recommendations. Keep away from
children. Do not disassemble and do not dispose of in fire.
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OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
iii
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: www.honeywell.com/sensing
Phone and Fax:
iv
Asia Pacific
+65 6355-2828
+65 6445-3033 Fax
Europe
+44 (0) 1698 481481
+44 (0) 1698 481676 Fax
Latin America
+1-305-805-8188
+1-305-883-8257 Fax
USA/Canada
+1-800-537-6945
+1-815-235-6847
+1-815-235-6545 Fax
OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
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Symbol Definitions
The following table lists those symbols used in this document to denote certain conditions.
Symbol
Definition
ATTENTION: Identifies information that requires special consideration.
TIP: Identifies advice or hints for the user, often in terms of performing a task.
CAUTION
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 moderate 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 electro-static discharge to which equipment may be
sensitive. Observe precautions 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 Protective Earth at the source of supply in accordance with
national and local electrical code requirements.
continued
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OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
Symbol
Description
Note: These are for reference only. See Section 2 for actual
approvals
The Canadian Standards mark means the equipment has been
tested and meets applicable standards for safety and/or
performance.
The Ex mark means the equipment complies with the requirements
of the European standards that are harmonised with the 94/9/EC
Directive (ATEX Directive, named after the French "ATmosphere
EXplosible").
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
conformity 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.
The C-Tick mark is a certification trade mark registered to ACMA
(Australian Communications 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.
N314 directly under the logo is Honeywell’s unique supplier
identification number.
vi
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Contents
Support and contact info........................................................................................................................iii
1.
INTRODUCTION .................................................................................................... 1
1.1
Purpose ..........................................................................................................................................1
1.2
Scope ..............................................................................................................................................1
1.3
OneWireless Network Overview ..................................................................................................1
1.4
About the Sensor ..........................................................................................................................1
Input .......................................................................................................................................................................1
2.
SPECIFICATIONS ................................................................................................. 3
2.1
European Union Usage .................................................................................................................3
2.2
Certifications and Approvals .......................................................................................................4
Sensor ....................................................................................................................................................................4
Authentication Device .............................................................................................................................................4
2.3
Agency Compliance Information .................................................................................................5
FCC compliance statements ..................................................................................................................................5
IC compliance statements ......................................................................................................................................5
Radio Frequency (RF) statement ...........................................................................................................................5
European Union restriction .....................................................................................................................................6
2.4
Honeywell European (CE) Declaration of Conformity (DoC) ....................................................6
European Declaration of Conformity statements ....................................................................................................6
For more information about the R&TTE Directive ...................................................................................................8
3.
PREPARATION ..................................................................................................... 9
3.1
Battery Connecting Procedure ....................................................................................................9
3.2
Installation ...................................................................................................................................10
3.3
Antenna Adjustment and Mounting ..........................................................................................11
3.4
Configuration ...............................................................................................................................13
3.5
Connecting to Network ...............................................................................................................13
3.6
Calibrating the Sensor ................................................................................................................13
Methods ................................................................................................................................................................14
Wireless Builder....................................................................................................................................................14
4.
FUNCTION BLOCKS ........................................................................................... 20
4.1
Introduction .................................................................................................................................20
4.2
Block Description ........................................................................................................................20
Block types ...........................................................................................................................................................20
Block diagram .......................................................................................................................................................20
4.3
Parameter Details ........................................................................................................................21
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vii
60BContents
5.
OPERATION ........................................................................................................ 22
5.1
Overview ......................................................................................................................................22
Display modes ..................................................................................................................................................... 22
Authentication Device .......................................................................................................................................... 22
5.2
Sensor Connection Status .........................................................................................................23
5.3
Sensor PV Display.......................................................................................................................23
5.4
Sensor Quick View of Parameters .............................................................................................26
5.5
Sensor Menu ................................................................................................................................28
Menu tree ............................................................................................................................................................. 28
5.6
Authentication Device Menus ....................................................................................................29
Overview .............................................................................................................................................................. 29
Main menu ........................................................................................................................................................... 29
Security and Node Deployment ........................................................................................................................... 30
Device Local Configuration .................................................................................................................................. 32
Read Node Information ........................................................................................................................................ 33
Advanced Options ................................................................................................................................................ 35
6.
MAINTENANCE/REPAIR .................................................................................... 36
6.1
Replacing Batteries .....................................................................................................................36
When to replace ................................................................................................................................................... 36
Tools required ...................................................................................................................................................... 36
Procedure ............................................................................................................................................................ 36
6.2
Replacing Antenna ......................................................................................................................41
Tools required ...................................................................................................................................................... 41
Procedure ............................................................................................................................................................ 41
viii
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60BContents
63BTables
Tables
Table 1 Battery Connecting Procedure .........................................................................................................9
Table 2 User Calibration ..............................................................................................................................15
Table 3 Calibration Error Messages ............................................................................................................17
Table 4 Restore Calibration .........................................................................................................................18
Table 5 Clear Calibration .............................................................................................................................19
Table 6 WCX Sensor Connection Status ....................................................................................................23
Table 7 PV Engineering Units......................................................................................................................24
Table 8 PV Status ........................................................................................................................................24
Table 9 Device Status..................................................................................................................................24
Table 10 Menu Tree ....................................................................................................................................28
Table 11 Buttons for Device Local Configuration ........................................................................................32
Table 12 Advanced Options ........................................................................................................................35
Table 13 Battery Replacement Procedure ..................................................................................................37
Table 14 Antenna Replacement Procedure ................................................................................................42
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ix
60BContents
64BFigures
Figures
Figure 1 WCX Series Valve Position Sensor Functional Diagram ...............................................................2
Figure 2 Battery connecting .........................................................................................................................10
Figure 3 Battery connecting detail ...............................................................................................................10
Figure 4 Elbow antenna adjustment ............................................................................................................12
Figure 5 Integral straight antenna ................................................................................................................12
Figure 6 Calibration Angles Permitted .........................................................................................................13
Figure 7 Block Diagram ...............................................................................................................................20
Figure 8 IR Sensor Locations ......................................................................................................................22
Figure 9 Main Menu .....................................................................................................................................29
Figure 10 Security and Device Deployment ................................................................................................30
Figure 11 Device Local Configuration Screen .............................................................................................32
Figure 12 Read Node Information ...............................................................................................................33
Figure 13 Advanced Options .......................................................................................................................35
Figure 14 Low Battery Warning ...................................................................................................................36
Figure 15 Battery Replacement ...................................................................................................................39
Figure 16 Battery Replacement Details .......................................................................................................40
Figure 17 Antenna Replacement .................................................................................................................43
Figure 18 Antenna Replacement Details .....................................................................................................44
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1. 0BIntroduction
1.1. Purpose
1. Introduction
1.1
Purpose
This manual describes the Honeywell OneWireless WCX Series Valve Position Sensor function, operation
and maintenance.
1.2
Scope
The manual includes:
•
•
1.3
Details of topics that relate uniquely to the Honeywell WCX Series Valve Position Sensor,
This manual does not cover installation, mounting, or wiring. See XYR 6000 Wireless Valve Position
Sensor, Model WCX Series Quick Start Guide (document 50040850).
OneWireless Network Overview
OneWireless is an all-digital, serial, two-way communication mesh network that interconnects industrial
field sensors to a central system.
OneWireless has defined standards to which field devices and operator stations communicate with one
another. The communications protocol is built as an "open system" to allow all field devices and
equipment that are built to OneWireless standard to be integrated into a system, regardless of the device
manufacturer. This interoperability of devices using OneWireless technology is to become an industry
standard for automation systems.
1.4
About the Sensor
The WCX Series Valve Position Sensor is furnished with OneWireless interface to operate in a compatible
distributed OneWireless system. The sensor will interoperate with any OneWireless-registered device.
The sensor includes OneWireless electronics for operating in a 2.4GHz network. It features function block
architecture.
Input
The WCX Series Valve Position Sensor supports no electrical signal inputs.
The sensor measures a mechanical angular position and transmits a digital output signal proportional to the
measured value. Figure 1 shows the functional diagram.
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OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
1. 0BIntroduction
1.4. About the Sensor
Figure 1 WCX Series Valve Position Sensor Functional Diagram
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2. 1BSpecifications
2.1. European Union Usage
2. Specifications
2.1
European Union Usage
This product may be used in any of the following European Union nations.
ISO 3166
ISO 3166
Country
Country
2 letter code
2 letter code
Austria
AT
Latvia
LV
Belgium
BE
Liechtenstein
LI
Bulgaria
BG
Lithuania
LT
Cyprus
CY
Malta
MT
Czech Republic
CZ
Netherlands
NL
Denmark
DK
Norway
NO
Estonia
EE
Poland
PL
Finland
FI
Portugal
PT
France
FR
Romania
RO
Germany
DE
Slovakia
SK
Greece
GR
Slovenia
SI
Hungary
HU
Spain
ES
Iceland
IS
Sweden
SE
Ireland
IE
Switzerland
CH
Italy
IT
United Kingdom
BG
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OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
2. 1BSpecifications
2.2. Certifications and Approvals
2.2
Certifications and Approvals
Sensor
See the product label for applicable approvals and ratings.
Approval / Item
Ratings / Description
cCSAus Explosion Proof
with IS outputs
Class I, Division 1, Groups A, B, C & D
Class II, Division 1, Groups E, F & G
Class III
ATEX Flameproof with IS
outputs
II 2 G Ex d [ia] IIB T4
II 2 D Ex tD A21 IP66 T85C
IEC Ex Flameproof with
IS outputs
Ex d [ia] IIB T4: DIP A21 IP66 T85C
Enclosure Type
Types 1, 3, 4, 4X, 6, 6P, 13 and IP66/67
Class II and III installations and for Type 4X/IP66 applications require that all cable and unused entries be
sealed with a Zone 1 certified seal fitting. Seal fittings are supplied by Honeywell.
For detailed sensor specifications see the following Specification and Model Selection Guide.
•
WCX Series Valve Position Sensor Installation Drawing
Authentication Device
Install the Authentication Device application on any PDA having
•
Windows Mobile version 4.2+
•
infrared port.
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2. 1BSpecifications
2.3. Agency Compliance Information
2.3
Agency Compliance Information
This section contains the Federal Communications Commission (FCC), Industry Canada (IC) and Radio
Frequency compliance statements for the OneWireless Multinode device.
ATTENTION
WCX Series Valve Position Sensor units must be professionally installed in
accordance with the requirements specified in the OneWireless XYR6000
Agency Compliance Professional Installation Guide.
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 A 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 radiofrequency 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 own expense.
•
Intentional or unintentional changes or modifications must not be made to the Multinode unless under
the express consent of the party responsible for compliance. Any such modifications could void the
user’s authority to operate the equipment and will void the manufacturer’s warranty.
IC compliance statements
•
To reduce potential radio interference to other users, the antenna type and its gain should be so chosen
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 complies with Canadian ICES-003.
•
French: Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
Radio Frequency (RF) statement
To comply with FCC’s and Industry Canada’s RF exposure requirements, the following antenna
installation and device operating configurations must be satisfied.
•
Remote Point-to-Multi-Point antenna(s) for this unit must be fixed and mounted on outdoor permanent
structures with a separation distance between the antenna(s) of greater than 20cm and a separation
distance of at least 20cm from all persons.
•
Remote Fixed Point–to-Point antenna(s) for this unit must be fixed and mounted on outdoor
permanent structures with a separation distance between the antenna(s) of greater than 20cm and a
separation distance of at least 100cm from all persons.
•
Furthermore, when using integral antenna(s) the Multinode unit must not be co-located with any other
antenna or transmitter device and have a separation distance of at least 20cm from all persons.
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2. 1BSpecifications
2.4. Honeywell European (CE) Declaration of Conformity (DoC)
European Union restriction
France restricts outdoor use to 10mW (10dBm) EIRP in the frequency range of 2,454-2,483.5 MHz.
Installations in France must limit EIRP to 10dBm, for operating modes utilizing frequencies in the range of
2,454 – 2,483.5MHz.
2.4
Honeywell European (CE) Declaration of Conformity (DoC)
This section contains the European Declaration of Conformity (DoC) statement, for the OneWireless product line.
R&TTE
Directive
1999/5/EC
LVD
Directive
2006/95/EC
EMC
Directive
2004/108/EC
ATEX
Directive
94/9/EC
Harmonized Standards
Emissions Specification and Method: EN 300 328 V1.7.1
Emissions Spec and Method: EN 301 893 V1.4.1
Immunity Specification: EN 301 489-17 V1.2.1
Immunity Method: EN 301 489-1 V1.6.1
Product Standard: IEC61326-1 (1st Edition, 2002-02, Industrial Locations)
EN 60079-0, "Electrical Apparatus for Potentially Explosive Atmospheres –
General Requirements"
EN 60079-15, "Electrical Apparatus for Potentially Explosive Atmospheres –
Type of Protection "n"
Manufacturer’s Name and
Address
Honeywell Sensing and Control
Compliance Statement
The product herewith complies with the harmonized standards listed above.
Typical product line systems and configurations have been tested, for
compliance.
11 West Spring Street Freeport, IL USA
European Declaration of Conformity statements
Language
Statement
Česky
(Czech):
Honeywell tímto prohlašuje, že tento Multinode je ve shodě se
základními požadavky a dalšími příslušnými ustanoveními směrnice
1999/5/ES.
Dansk
(Danish):
Undertegnede Honeywell erklærer herved, at følgende udstyr
Multinode overholder de væsentlige krav og øvrige relevante krav i
direktiv 1999/5/EF.
Deutsch
(German):
Hiermit erklärt Honeywell, dass sich das Gerät Multinode in
Übereinstimmung mit den grundlegenden Anforderungen und den
übrigen einschlägigen Bestimmungen der Richtlinie 1999/5/EG
befindet.
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2. 1BSpecifications
2.4. Honeywell European (CE) Declaration of Conformity (DoC)
Language
Statement
Eesti
(Estonian):
Käesolevaga kinnitab Honeywell seadme Multinode vastavust
direktiivi 1999/5/EÜ põhinõuetele ja nimetatud direktiivist tulenevatele
teistele asjakohastele sätetele.
English
Hereby, Honeywell, declares that this Multinode is in compliance with
the essential requirements and other relevant provisions of Directive
1999/5/EC.
Español
(Spanish):
Por medio de la presente Honeywell declara que el Multinode cumple
con los requisitos esenciales y cualesquiera otras disposiciones
aplicables o exigibles de la Directiva 1999/5/CE.
Ελληνική
(Greek):
ΜΕ ΤΗΝ ΠΑΡΟΥΣΑ Honeywell ΔΗΛΩΝΕΙ ΟΤΙ Multinode
ΣΥΜΜΟΡΦΩΝΕΤΑΙ ΠΡΟΣ ΤΙΣ ΟΥΣΙΩΔΕΙΣ ΑΠΑΙΤΗΣΕΙΣ ΚΑΙ ΤΙΣ
ΛΟΙΠΕΣ ΣΧΕΤΙΚΕΣ ΔΙΑΤΑΞΕΙΣ ΤΗΣ ΟΔΗΓΙΑΣ 1999/5/ΕΚ.
Français
(French):
Par la présente Honeywell déclare que l'appareil Multinode est
conforme aux exigences essentielles et aux autres dispositions
pertinentes de la directive 1999/5/CE.
Italiano
(Italian):
Con la presente Honeywell dichiara che questo Multinode è conforme
ai requisiti essenziali ed alle altre disposizioni pertinenti stabilite dalla
direttiva 1999/5/CE.
Latviski
(Latvian):
Ar šo Honeywell deklarē, ka Multinode atbilst Direktīvas 1999/5/EK
būtiskajām prasībām un citiem ar to saistītajiem noteikumiem.
Lietuvių
(Lithuanian):
Šiuo Honeywell deklaruoja, kad šis Multinode atitinka esminius
reikalavimus ir kitas 1999/5/EB Direktyvos nuostatas.
Nederlands
(Dutch):
Hierbij verklaart Honeywell dat het toestel Multinode in
overeenstemming is met de essentiële eisen en de andere relevante
bepalingen van richtlijn 1999/5/EG.
Malti
(Maltese):
Hawnhekk, Honeywell, jiddikjara li dan Multinode jikkonforma malħtiġijiet essenzjali u ma provvedimenti oħrajn relevanti li hemm fidDirrettiva 1999/5/EC.
Magyar
(Hungarian):
Alulírott, Honeywell nyilatkozom, hogy a Multinode megfelel a
vonatkozó alapvetõ követelményeknek és az 1999/5/EC irányelv egyéb
elõírásainak.
Polski
(Polish):
Niniejszym Honeywell oświadcza, że Multinode jest zgodny z
zasadniczymi wymogami oraz pozostałymi stosownymi
postanowieniami Dyrektywy 1999/5/EC.
Português
(Portuguese):
Honeywell declara que este Multinode está conforme com os
requisitos essenciais e outras disposições da Directiva 1999/5/CE.
Slovensko
(Slovenian):
Honeywell izjavlja, da je ta Multinode v skladu z bistvenimi zahtevami
in ostalimi relevantnimi določili direktive 1999/5/ES.
Slovensky
(Slovak):
Honeywell týmto vyhlasuje, že Multinode spĺňa základné požiadavky a
všetky príslušné ustanovenia Smernice 1999/5/ES.
Suomi
(Finnish):
Honeywell vakuuttaa täten että Multinode tyyppinen laite on direktiivin
1999/5/EY oleellisten vaatimusten ja sitä koskevien direktiivin muiden
ehtojen mukainen.
Svenska
(Swedish):
Härmed intygar Honeywell att denna Multinode står I
överensstämmelse med de väsentliga egenskapskrav och övriga
relevanta bestämmelser som framgår av direktiv 1999/5/EG.
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OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
2. 1BSpecifications
2.4. Honeywell European (CE) Declaration of Conformity (DoC)
Language
Statement
Íslenska
(Icelandic):
Hér með lýsir Honeywell yfir því að Multinode er í samræmi við
grunnkröfur og aðrar kröfur, sem gerðar eru í tilskipun 1999/5/EC.
Norsk
(Norwegian):
Honeywell erklærer herved at utstyret Multinode er i samsvar med de
grunnleggende krav og øvrige relevante krav i direktiv 1999/5/EF.
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/rtte/faq.htm
OneWireless XYR 6000 Wireless Valve Position Sensor User's Manual
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3. 2BPreparation
3.1. Battery Connecting Procedure
3. Preparation
3.1
Battery Connecting Procedure
WARNING
Risk of death or serious injury from explosion or fire.
Connection and disconnection of the batteries should be done only when the
area is non-hazardous.
WARNING
Risk of death or serious injury from explosion or fire.
If sensor is to be returned to Honeywell for any reason, both batteries MUST
be removed prior to shipping. Dispose of used batteries promptly per local
regulations or the battery manufacturer’s recommendations. Keep away from
children. Do not disassemble and do not dispose of in fire.
ATTENTION
Both batteries must be the same model from the same manufacturer. Mixing
old and new batteries or different manufacturers is not permitted.
Use only the following 3.6V lithium thionyl chloride (Li-SOCl2) batteries (nonrechargeable), size C. No other batteries are approved for use in WCX Series
Valve Position Sensors.
•
Xeno Energy XL-145F
•
Tadiran TL-5920/S
Table 1 Battery Connecting Procedure
(For item numbers, refer to Figures 2 and 3)
Step
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Action
If applicable, remove two T-15 TORX screws (1) and cover lock clamp (2).
If necessary, place a large screwdriver or other flat tool across the two tabs on the cover (3).
Unscrew and remove the cover.
Using two fingers, press down slightly on both battery tops (4) and remove battery insulator
(5). Insure that the batteries are properly seated and making good contact.
Replace cover, tightening hand tight. If applicable, replace cover lock clamp (2) and two T-15
TORX screws (1).
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3.2. Installation
Figure 2 Battery connecting
Figure 3 Battery connecting detail
3.2
Installation
Refer to the WCX Series Valve Position Sensor Quick Start Guide (document 50040850) for installation
and mounting of your WCX Valve Position Sensor.
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3.3. Antenna Adjustment and Mounting
3.3
Antenna Adjustment and Mounting
Requirements
•
Radio Installation Requirements
ATTENTION
Professional Installation is required to insure 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 maximum allowable radiated power from the WCX Series Valve Position Sensor
as configured for the particular installation site.
The antennae used for this sensor must be installed to provide a separation distance of at
least 20 cm (8 inches) from all persons and must not be co-located or operating in conjunction
with any other antenna or transmitter.
For remote antenna, see antenna installation requirements to satisfy FCC RF exposure
requirements.
ATTENTION
Federal Communications Commission (FCC):
The WCX Series Valve Position Sensors comply with part 15 of the FCC rules. 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.
Industry Canada (IC):
The installer of this radio equipment must ensure that the antenna is located or pointed such
that it does not emit RF fields in excess of Health Canada limits for the general population;
consult Safety Code 6, obtainable from Health Canada’s web site www.hc-sc.gc.ca/rpb.
Integral Antenna
WARNING
POTENTIAL ELECTROSTATIC CHARGING HAZARD
The integrally mounted antenna shroud is made of Teflon® and has a surface
resistance greater than 1Gohm per square. When the WCX Series Valve
Position Sensor is installed in potentially hazardous locations care should be
taken not to electrostatically charge the surface of the antenna shroud by
rubbing the surface with a cloth, or cleaning the surface with a solvent. If
electrostatically charged, discharge of the antenna shroud to a person or a
tool could possibly ignite a surrounding hazardous atmosphere.
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3.4. Configuration
•
Elbow
Figure 4 Elbow antenna adjustment
If your model has the integral elbow antenna you can adjust it to improve reception. The least signal
radiation is in a direction in line with the top (pointed end), so it is best to avoid having the antenna pointed
directly toward, or directly away from, the multinode. Typically, pointed straight up gives best
performance but your installation may vary. Loosen the 1.5mm (approx. 1/16") set screw located near the
antenna base. Rotate antenna for best reception. Do not rotate antenna more than 180 degrees either
direction or the internal antenna cable could be damaged. Tighten set screw.
•
Straight
Figure 5 Integral straight antenna
If your model has the integral straight antenna you can adjust its position by rotating the sensor housing.
(See section 2). Typically, pointed straight up gives best performance but your installation may vary.
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3.4. Configuration
3.4
Configuration
The WCX Valve Position Sensor contains a mechanical interface compatible for connecting to the
OneWireless network. An operator uses the Wireless Builder application to configure blocks, to change
operating parameters, and to create linkages between blocks that make up the sensor’s configuration.
These changes are written to the sensor when it is authenticated by a security key. See Section 5.
3.5
Connecting to Network
Use Authentication Device to connect your sensor to the OneWireless network. See Section 5.
3.6
Calibrating the Sensor
ATTENTION
The WCX Valve Position Sensor input shaft is connected to the potentiometer
through a slip clutch, limiting the rotation of the potentiometer to 312 deg.
However, due to nonlinearity at each end of the potentiometer rotation, the
actual usable range of rotation is 270 degrees. If the sensor has been
calibrated, and later, the input shaft may have been allowed to rotate past the
potentiometer end points (where the slip clutch must slip), then the "setting
the device angle" procedures must be repeated.
Figure 6 Calibration Angles Permitted
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3.6. Calibrating the Sensor
Methods
•
Connecting, commissioning and setting device angle (see Table 2)
The following optional calibration methods are available through the sensor menu.
•
•
•
Hi-Lo User Calibration (Table 3) - Calibrates the channel to the low and high range values for the
input.
Restore Calibration (Table 5) - constants for the channel 1 are restored to factory defaults.
Clear Calibration (Table 6) - FACTORY or USER Calibration constants for the channel can be
cleared.
Wireless Builder
Wireless Builder must be used to unlock and take the channel to be calibrated out of service.
The measurement update rate can be set from Wireless Builder; it cannot be set locally through the IR port.
Cal Unit (CAL_UNIT) can be set from Wireless Builder. This determines what the measurement will be
displayed as. The choices for the WCX Series are:
14
Deg.
Degrees of rotation (Default)
Max Range 270°
(may be 0-270° or -135° to +135° for example)
Percent
Percent of Max rotation
Max Range 0% to 100%
0% would be shaft fully CCW (looking at shaft)
Volts DC
Internal potentiometer Voltage
Max Range 0.0 v. to + 1.7 v. nominal
This is normally used for factory calibration.
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3.6. Calibrating the Sensor
Table 2 - Connecting, Commissioning, and Setting Angle
Step
Action
Connecting device to OneWireless network
1.1
If applicable, remove two T-15 TORX screws and cover lock clamp.
1.2
Using a screwdriver or other tool across the two tabs of the cover, unscrew and remove the
cover.
1.3
Using authentication device pointed at IR port, clear key and restart WCX transmitter.
1.4
After transmitter restarts, using authentication device, transmit key and connect transmitter.
1.5
Device will go through discovery mode, then secure itself to OneWireless network. After this
phase, transmitter will appear in Wireless Builder as an uncommissioned device.
Commissioning device in Wireless Builder
2.1
If this is not the first WCX Unit installed in this system, go to step 2.3, go to File->New>Type->Wireless Device, then find the path of the WCX DD Files.
2.2
Select the device that appears, then click OK, this creates a new device type in wireless builder.
2.3
In Wireless Builder: Offline Tab, right-click, go to New->Devices->(WCX_DD_FILE_NAME)
(this will create an offline configuration for the new device).
2.4
If device appears below “Unassigned” category, click and drag it into the wireless gateway.
2.5
Right-click on the newly created, offline device and go to Device Match.
2.6
In the device matching window, select both the offline device and uncommissioned device and
click “Match from Uncommissioned Device to Project Device”. (This allows the factory settings
to automatically overwrite the DD files.)
2.7
After device has been matched, click OK.
2.8
Right click on the offline device and click “Load”, Select all check boxes at the bottom of the
window, then click OK.
2.9
Now the device should be successfully loaded in Online mode and transmitting data.
ATTENTION
If the sensor or input linkage has been removed since the last successful calibration, and the
input shaft may have rotated past the potentiometer end points (where the slip clutch must slip),
then re-setting the device angle (steps 3-3.9) will be required (See Figure 2).
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Setting WCX Sensor to valve (after device has been commissioned)
3.1
In the Offline window, double-click on the WCX transducer block (small rectangle with a T
inside), the parameters page will open.
3.2
In the Configuration tab, note the current update rate setting. If it is set to the default value of 30
seconds, change the "Period" to 5 seconds. This will greatly speed up the calibration. Click OK.
Note that a period of 1 second would update faster but would also introduce noise, which would
make calibration more difficult.
3.3
In the Offline window, right-click on the WCX Main block and click Load…
3.4
Ensure that “State to Load” is set to OOS and “Post Load State” is set to Normal, and both
boxes at the bottom of the window are checked. This will change the update rate on the sensor
and re-load it.
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3.6. Calibrating the Sensor
Step
Action
ATTENTION
The sensor can read valve position in degrees from -135º at fully counter-clockwise to 135º at
fully clockwise, however, for more accurate performance, a range of -125º to 125º or less is
recommended.
Determine for the application what degree range the sensor will be required to read.
3.5
3.6
NOTE: Hi-Lo User Calibration (optional) may be performed at this time. (See Table 3)
Turn the sensor shaft counter-clockwise 360º or more (as viewed from the shaft end). This will
cause the slip clutch to slip, mechanically positioning the internal potentiometer with respect to
the input shaft.
While monitoring the sensor's LCD screen, turn the sensor shaft clockwise to obtain the desired
angle reading for the valve’s most CCW position.
3.7
NOTE: The sensor transmitter board is equipped with a filter to smooth values. This will slow
the response of the reading. If the sensor update period was set to 5 seconds (as described in
Step 3.2), readings may take 10 or more seconds to settle at the actual value. With the default
update period of 30 seconds, readings may take several minutes to settle.
3.8
Set the valve to the position which the sensor will be reading at the most CCW position.
3.9
Mount the sensor onto valve arm. Re-check that the readout is correct.
NOTE: If the valve is at position where the sensor will be reading fully CW, the above
instructions can be followed simply by replacing all "CCW"s with "CW"s.
16
Reset parameters
4.1
In the Offline window, double-click on the WCX transducer block (small rectangle with a T
inside), the parameters page will open.
4.2
In the Configuration tab, change “Period” to 30 seconds. Click OK. Note: If a different update
rate is required by the application, it should be selected at this time.
4.3
In the Offline window, right-click on WCX Main block and click Load…
4.4
Ensure that “State to Load” is set to OOS and “Post Load State” is set to Normal, and both
boxes at the bottom of the window are checked. This will change the update rate on the sensor
and re-load it.
4.5
In the Main tab, change “Actual Mode” to AUTO.
4.6
Unit is now calibrated and active.
Replace cover
5.1
Lubricate the threads and “O” ring with a silicone grease such as Dow Corning #55 or
equivalent.
5.2
By hand, screw on and tighten the cover.
5.3
If applicable, reinstall the cover lock clamp.
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3.6. Calibrating the Sensor
Table 3 - Hi-Lo User Calibration (Optional)
Step
Action
ATTENTION
If a numerical range other than -135º to 135º is desired, the Hi-Lo User Calibration instructions
may be performed to provide a numerical range other than the default
Example: Valve has 45º of Rotation and desired 0º point (closed) is actually at 35º
EU Value @ 0: -135 - 35 = -170
EU Value @ 100: -170 + 794 = 624
This will make the closed position 0º and the open position 45º (or vice versa depending on
application), and provide a total numerical range of -170º to 100º
Connect and Commission device to OneWireless network
1.1
If applicable, perform Steps 1 through 2.9 of Table 2
Set WCX Sensor to valve
2.1
If applicable, perform Steps 3.0 through 3.4 of Table 2
Perform Hi-Lo User Calibration
3.1
In the online window, double click on the WCX Transducer Block
3.2
In the Main Tab, set Actual Mode to OOS
3.3
In the Ranges Tab, Set EU Value @ 0 to -135 minus the desired 0º point (example is 35º)
3.4
Set EU Value @ 100 to: 794 plus the EU Value @ 0 (example is -170º)
3.5
In the Main Tab, set Actual Mode to Auto
Reset parameters, replace cover
4.1
As applicable, perform Steps 4 through 5.3 of Table 2
Table 4 - Calibration Error Messages
Message
CALIBRATION_FAIL
Meaning
1. Calibration gain is greater than 5%.
2. Calibration offset is greater than 5% of sensor span.
BAD_TRIM_POINT
CAL_POINT_HI is greater than sensor high range value OR
CAL_POINT_LO is less than greater than sensor low range value.
BAD_USER_CALIBRATION
CAL_SOURCE is user and user calibration constants contain invalid
values.
BAD_FACTORY_CALIBRATION
1. CAL_SOURCE is factory and factory calibration constants do not
contain valid values.
2. CAL_RESTORE command was issued but factory calibration
constants do not contain valid values.
BAD_SENSOR
1. Check connections to internal precision potentiometer.
2. Rotate shaft and observe proper operation of slip clutch.
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3.6. Calibrating the Sensor
Message
Meaning
BAD_UNITS
Units in CAL UNITS parameter are invalid or not supported by the
sensor type.
INTERNAL_ERROR
An error occurred during calibration that prevents calibration from
being completed successfully.
SUCCESS_WITH_EXCESS
The calibration succeeded but the calculated calibration values are
greater than 5 percent beyond the normal calibration values. Typically
this indicates that the applied calibration value was significantly
different from the expected value or that the sensor is not within
expected tolerances for the applied characterization.
Table 5 - Restore Calibration
Step
Action
If not already open, remove cover lock clamp (if applicable) and cover per previous Table 1.
In Wireless Builder, set sensor’s Write Lock to Unlocked.
In Wireless Builder, set the sensor’s channel to OOS (Out of Service).
Use Authentication Device’s Device Local Configuration buttons to navigate to the sensor’s
CAL menu.
If the sensor is locked a LOCKED message will be displayed. Go to step 1.
If CAL menu is passcode protected, enter the passcode.
If the channel is not out of service a WRONG MODE message will be displayed. Go to step 2.
• Select CAL RSTR by scrolling through menu.
• Press Enter to continue.
• Display will say BUSY, then SUCCESS.
• If calibration is unsuccessful an error message is displayed. See Table 3.
• Press Enter to return to PV display.
18
Exit the menu.
When ready, in Wireless Builder return the sensor’s channel to service and set Write Lock to
Locked.
Reinstall cover and cable lock clamp (if applicable) per previous Table 1.
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3.6. Calibrating the Sensor
Table 6 - Clear Calibration
Step
Action
If not already open, remove cover lock clamp (If applicable) and cover per previous Table 1.
In Wireless Builder, set sensor’s Write Lock to Unlocked.
In Wireless Builder, set the sensor’s channel to OOS (Out of Service).
Use Authentication Device’s Device Local Configuration buttons to navigate to the sensor’s
CAL menu.
If the sensor is locked a LOCKED message will be displayed. Go to step 1.
If CAL menu is passcode protected, enter the passcode.
If the channel is not out of service a WRONG MODE message will be displayed. Go to step 2.
• Select CAL CLR by scrolling through menu.
• Press Enter to continue.
• Display will say BUSY, then SUCCESS.
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Exit the menu.
Reinstall cover and cable lock clamp (if applicable) per previous Table 1.
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4. 3BFunction Blocks
4.1. Introduction
4. Function Blocks
4.1
Introduction
This section explains the construction and contents of the WCX Series Valve Position Sensor Function
Blocks.
4.2
Block Description
Block types
Blocks are the key elements that make up the sensor’s configuration. The blocks contain data (block
objects and parameters) which define the application, such as the inputs and outputs, signal processing and
connections to other applications. The WCX Series Valve Position Sensor contains the following block
types.
Block Type
Function
Device
Contains parameters related to the overall field device rather than a
specific input or output channel within it. A field device has exactly one
device block.
AITB
Contains parameters related to a specific process input or output
channel in a measurement or actuation device. An AITB defines a
measurement sensor channel for an analog process variable
represented by a floating-point value. There is one AITB per sensor.
Radio
Contains parameters related to radio communication between the
sensor and the multimode(s).
Block diagram
Figure 7 shows the blocks of the WCX Series Valve Position Sensor.
Transmitter
Sensor
Analog Input Transducer Block
(AITB)
Algorithm
Device Block
OUT
Read/
Write
Publish
Read/
Write
Communication Stack
Figure 7 Block Diagram
Each of these blocks contains parameters that are standard OneWireless-sensor defined parameters. The
AITB and device blocks contain standard parameters common to the WCX Series sensor models (that is,
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4. 3BFunction Blocks
4.3. Parameter Details
degrees of rotation, voltage, percentage). The radio block contains parameters for communication with the
wireless network.
4.3
Parameter Details
The sensor itself displays a few basic parameters, such as tag, serial number, device revision, build, device
address, WFN ID.
For more information on parameters, refer to the following documents.
•
OneWireless Wireless Builder User’s Guide
•
OneWireless Builder Parameter Reference
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5. 4BOperation
5.1. Overview
5. Operation
5.1
Overview
Display modes
The sensor has the following display modes.
•
Test. Appears briefly after power-up to self-test the display.
•
Connection status. Appears when sensor is not fully connected to the OneWireless network. See
section 5.2.
•
PV display. Default mode of the sensor displays the PV and any status messages. See section 5.3 on
page 23.
•
Quick view of sensor identification parameters. Displays read-only parameters then returns to PV
display. See section 5.4 on page 26.
•
Menu. See section 5.5 on page 28.
Authentication Device
To navigate the sensor displays and menus, remove cover and hold the Authentication Device no more
than 6” from the sensor and aim the infrared beam at the sensor display while tapping the Device Local
Configuration buttons (Table 12). You can also use the PDA’s buttons.
Figure 8 IR Sensor Locations
Authentication Device menus are described in section 5.6 starting on page 29.
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5.2. Sensor Connection Status
5.2
Sensor Connection Status
Table 7 WCX Sensor Connection Status
Displayed
status
Definition
What to do
NO KEY
Sensor needs a key from the Authentication
Device and is not transmitting.
Transmit a key to the sensor. See page 30.
NOT CONN
Sensor is in between discovery attempts.
If Sensor does not make a connection within
five minutes, do the following:
• Check that Key is correct for the network
you are trying to join.
• Check that Multinode(s) in the local area
are turned on and are already a secure
part of the network.
• Check if KeyServer is active.
• Check the KeyServer Event Log to see if
the Sensor is actively trying to join.
Errors in the Event Log show that the
Sensor is trying to join but that there are
problems. Consult the OneWireless
Wireless Builder documentation for
troubleshooting errors.
DISCOVER
Sensor has not made a connection to a
Multinode and is in discovery (searching for a
connection to a Multinode). Sensor will
automatically enter a power saving mode if it
cannot make a connection and will retry later.
Wait for connection. If Sensor does not
make a connection within five minutes, see
NOT CONN in this table.
SECURING
Sensor has connected with the network and
is validating its key.
Wait for connection. If Sensor does not
make a connection within five minutes, see
NOT CONN in this table.
CONNECTD
Sensor has validated the key and has made
a secure connection with at least two
Multinodes. Sensor should appear in
Wireless Builder as an uncommissioned
device.
No action required.
NO REDUN
No redundancy, that is, Sensor has
connected with only one Multinode.
No action required. The Sensor will
periodically look for a second Multinode in
order to form a redundant connection to the
network
5.3
Sensor PV Display
In PV display, the following information is displayed in sequence.
Item displayed
Channel number
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Example
Details
Channel number.
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5. 4BOperation
5.3. Sensor PV Display
PV value
50.0
Latest PV value.
PV engineering units
Deg., Volts DC, or
Percent
See Table 8.
PV status
BAD
See Table 9. If PV status is not displayed then
the PV value is good.
Device status
LOW BATT
See Table 10. If multiple device status
messages are in effect, they are displayed one
message per channel until all messages have
been displayed.
If no device status is displayed then the device
status is normal.
Table 8 PV Engineering Units
Engineering units
Description
Deg.
degrees of rotation (default units)
% (Percent)
Percent
Voltage (D.C. Voltage)
internal voltage measured
Table 9 PV Status
PV status
Cause - Action
(blank)
•
PV is normal – no action required
BAD
•
Possible calibration error – Clear calibration
•
AITB can not execute due to internal firmware state – Attempt cold restart of
device.
•
AITB can not execute due to hardware fault – Sensor module must be
replaced
•
UNC
•
Sensor failure – Check the following.
−
connection between sensor board and potentiometer
−
reference source connections on battery holder
−
proper engagement of input shaft to potentiometer shaft
Warning: Input inaccurate due to uncertain input data integrity.
Warning: Input inaccurate due to input conversion limitations or resolution.
Table 10 Device Status
Sensor display
24
Wireless Builder display
Definition
What to do
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5.3. Sensor PV Display
Sensor display
Wireless Builder display
Definition
What to do
OUT SVC
OOS
All channels are out of
service.
Restore mode to Auto in Wireless
Builder.
CAL ERR
Calibration Error
Calibration Data Invalid
or could not be read.
Use Cal Clear, Restore, or User
Calibrate.
CFG ERR
Configuration Error
Configuration Check
Error.
Database is corrupted. Cold start
and reload configuration.
LOW BAT
Low Battery
Battery Voltage Critically
Low
Replace batteries as soon as
possible. See page 36.
NO RADIO
Radio Interprocessor
Comm Error
Radio Board is not
accessible.
Restart both the radio and sensor.
If condition persists, sensor
module must be replaced.
BAD RADIO
SPI
Sensor Radio SPI
Communication Failure
Radio detected loss of
communication with
sensor board over the
inter-processor
communication link.
Restart both the radio and sensor.
If condition persists, sensor
module must be replaced.
BAD RADIO
EEPROM
EEPROM SPI
Communication Failure
Radio EEPROM SPI
Communication failure
The radio will not be able to
perform firmware upgrades but will
operate normally using installed
code. Sensor module should be
replaced.
RADIO WDT
RESET
WDT Reset Occurred
Radio Watch Dog
Timeout detected
Restart both the radio and sensor.
If condition persists, sensor
module must be replaced.
BAD RADIO
Radio Circuitry Failure
Radio circuitry has failed
The radio processor detected error
on internal radio circuitry. Sensor
module must be replaced.
The following status messages have multiple meanings. Refer to Wireless Builder Device Status for exact cause.
E FAIL
A/D Failure
Diagnostics detected
defect with Analog to
Digital Converter.
Sensor module must be replaced.
E FAIL
Electronics Failure
Electronic Failure
detected on Sensor
Board. Could be caused
by one of the status
items marked by *.
Restart both the radio and sensor.
If condition persists, sensor
module must be replaced.
E FAIL*
NVM Fault*
Startup diagnostics
detected defect in
Sensor Non-Volatile
Memory
Sensor module must be replaced.
E FAIL*
Program Memory Fault*
Startup diagnostics
detected defect in
Sensor Read Only
Memory
Sensor module must be replaced.
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5. 4BOperation
5.4. Sensor Quick View of Parameters
Sensor display
Wireless Builder display
Definition
What to do
E FAIL*
RAM Fault*
Startup diagnostics
detected defect in
Processor Random
Access Memory
INP FAIL
Input Failure
Input Error
Sensor module must be replaced..
Check potentiometer connections.
Verify that slip clutch is properly
engaged with input shaft. Check
slip clutch operation.
Restart the sensor. If condition
persists, sensor module must be
replaced.
INP FAIL
A/D Failure
Diagnostics detected
defect with Analog to
Digital Converter.
Sensor module must be replaced.
The following statuses are displayed only in Wireless Builder Device Status.
blank*
Device/Firmware
Mismatch*
Sensor Board Firmware
Error. The software did
not pass verification
tests.
Sensor module must be replaced.
blank*
Heap Memory Not
Available*
Heap Allocation Failure.
Software detected heap
shortage and some
communication packets
may have been dropped.
Clear by warm restart of device. If
condition persists contact
Honeywell service.
blank*
Watchdog Timer Error*
Sensor Watchdog
Timeout. The processor
was restarted due to
unexpected operation.
Clear by warm restart of device. If
condition persists contact
Honeywell service.
5.4
Sensor Quick View of Parameters
If you press the up or down arrow key during the PV display, the following quick view parameters are
shown sequentially, then the PV display resumes.
Parameter
26
Description
Sensor type
HONEYWELL WCX Valve Position
Sensor
Tag
The name given to this sensor
Serial number
Sensor serial number. This is the WBSN
on the sensor’s nameplate. Do not
confuse this with the other nameplate
item marked “Serial.”
Device revision
This parameter changes whenever
objects and parameters are added,
deleted, or the data type or range
changes. It does not change if the
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5.5. Sensor Menu
Parameter
Description
application firmware changes without
affecting the device description.
Build
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Sensor firmware number
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5. 4BOperation
5.5. Sensor Menu
5.5
Sensor Menu
Menu tree
At the PV display, press Enter to access the menus. To interact with the menus use the Device Local
Configuration onscreen buttons (page 32) or the buttons on your PDA.
Table 11 Menu Tree
Menu item
Description
CAL
Calibration menu. May be password-protected. See Table 12 on page 32 for
password number entry. See page 13 for calibration details.
CAL RESTR
Constants for the channel 1 are restored to factory defaults.
USER CAL
Calibrates the channel to the low and high range values for selected input
type.
CAL CLR
FACTORY or USER Calibration constants for the channel can be cleared.
RADIO
Radio menu
PRI RSSI
28
Primary receive signal strength. Read only. Signal strength 00 is too weak to
connect to the network.
Displayed Value
Value dBm
Rx Margin dB
00
< -86
< 10
01
-86 to -81
10 to 15
02
-80 to -75
16 to 21
03
-74 to -69
22 to 27
04
-68 to -63
28 to 33
05
-62 to -57
34 to 39
06
-56 to -51
40 to 45
07
-50 to -45
46 to 51
08
-44 to -11
52 to 85
09
≥ -10
Saturation
SEC RSSI
Secondary receive signal strength. Same as PRI RSSI. Read only.
WFN ID
Wireless Field Network ID. Read only.
DEV ADD
Device address. Read only.
TX POWER
Radio transmit power. Read only.
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5.6. Authentication Device Menus
5.6
Authentication Device Menus
Overview
Hold the Authentication Device no more than 6” (15 cm) from the sensor and aim the infrared beam at the
sensor display while tapping on the screen command or button.
Main menu
The main menu is shown below. Details start on the next page.
Figure 9 Main Menu
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5. 4BOperation
5.6. Authentication Device Menus
Security and Node Deployment
Use this to:
•
receive new security keys,
•
transmit security keys for connecting the sensor (or other nodes) to the OneWireless network,
•
clear all security keys from the PDA,
•
clear the sensor’s key and reset its configuration to factory default (such as for decommissioning).
Figure 10 Security and Device Deployment
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5.6. Authentication Device Menus
To connect your sensor to the OneWireless network perform the following steps.
Step
Action
If the PDA contains no keys, obtain new security keys from the PC
application Key Server Manager.
To do this, select Receive Security Keys. Keys can be received either
through Infrared (by aiming PDA at the infrared dongle) or through an
ActiveSync/USB connection. See Key Server Communication Method
under Advanced options on page 35 for details.
Important: The Comm Method settings must match in the PC’s Key Server
Manager and in the Authentication Device (both must be set to Infrared or
both to ActiveSync) in order for your PDA to receive security keys. See Key
Server Communication Method under Advanced options on page page 35
for details.
When the Authentication Device has valid unexpired keys, aim it at the
sensor and transmit a key to the sensor. The sensor will validate the key and
then use it to make a connection to the OneWireless Network. The Sensor
may continue to show the diagnostic message “NO KEY” for a brief time
while it validates the key before showing the “DISCOVER” message.
To verify your sensor has been authenticated, see the Connection prompt on
the Read Node Info screen (page 33).
To decommission your sensor from the OneWireless network, select Clear Key and Restart Node. This
clears the sensor’s key, network and security configurations, and resets the sensor to its factory default
settings. perform the following steps.
Select Clear Keys from Handheld (under Advanced Options) when:
•
The PDA has keys from one system, but you have moved your Authentication Device to another
system, or
•
You want to clear all keys so that you cannot deploy any more keys without going to the key server
manager and getting more.
For more details on keys, refer to Getting Started with Honeywell OneWireless Solutions.
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5. 4BOperation
5.6. Authentication Device Menus
Device Local Configuration
Use Device Local Configuration buttons (Table 12) to navigate the sensor menus (Table 11) and to make
selections and changes. You can also use the PDA buttons.
Figure 11 Device Local Configuration Screen
Table 12 Buttons for Device Local Configuration
Button
Function
• Enter the Menu Tree.
• Enter submenu of the menu that is appearing on the screen.
• Execute action.
• Submit the entered number while doing number entry.
• Read value of certain displayed parameters.
• Go to the next menu in the same level.
• View quick view parameters in Normal Display Sequence (PV Display).
• During number entry, increment the digit or change +/- sign.
• Go to the previous menu in the same level.
• View quick view parameters in Normal Display Sequence (PV Display).
• During number entry, decrement the digit or change +/- sign.
• Go to the upper menu level.
• When changing a number value, move cursor to the left/more significant digit, then
wrap around to the least significant digit.
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5.6. Authentication Device Menus
Read Node Information
Use this to read the sensor’s information shown in Figure 12. Similar to quick view parameters on the
sensor display. (See page 26.)
Figure 12 Read Node Information
Item
Description
Tag
The name given to this sensor
Serial
Sensor serial number. This is the WBSN on the sensor’s
nameplate. Do not confuse this with the other nameplate item
marked “Serial.”
NwAddr
Network Address of the device in hexadecimal.
DevRev
Device Revision. This parameter changes whenever objects
and parameters are added, deleted, or their data type or range
changes. It does not change if the application firmware
changes without affecting the device description. Range: 0 to
65535.
Build
Sensor firmware and radio firmware build numbers.
Radio
Hardware radio type, FHSS or DSSS
WFN ID: Wireless Field Network ID. Range: 0 to 255.
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5. 4BOperation
5.6. Authentication Device Menus
Item
FH Mode
Description
Frequency group or frequency channel selection used by the
wireless network of the device. The value must match the
value set in the gateway and interface nodes to allow
communication between the device and the wireless network.
Modes:
US Channel #1
US Channel #6
US Channel #11
US Guard Bands
EU Channel #1
EU Channel #7
EU Channel #13
EU Guard Bands
US/EU Spec Div A
US/EU Spec Div B
US/EU Channel #3
US/EU Channel #10
Complete Spectrum
Connection
The first line displays one of the following connection states.
No Security Key – No security key has been deployed to the
device or multinode. The user must give a security key to
the device or multinode before it will join the wireless sensor
network.
No Connection – A security key exists in the device or
multinode, but no connection has been formed. The device
or multinode is waiting to form a connection and will
automatically retry shortly. Users may transmit a new
security key in order to force the device or multinode to
immediately retry to form a connection.
Discovering – The device is attempting to form a connection
to the wireless sensor network. The device is discovering
multinodes and, if a multinode is found, will transition to the
securing state.
Securing – The device is attempting to form a connection to
the wireless sensor network. The device has discovered
one or two multinodes and is attempting to form a secure
session. If successful, the device will transition to the
connected state.
Connected – A secure connection is formed with one or two
multinodes.
The second line contains detailed state information useful for
problem reporting.
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Advanced Options
Advanced options are non-typical configuration commands.
Figure 13 Advanced Options
Table 13 Advanced Options
Item
Description
Key Server Communication
Method
Determines how the PDA will receive security keys from the PC’s Key Server
Manager application. From the Comm Method menu select one of the
following methods.
ActiveSync – Select this to receive keys over a USB connection, such as
while the PDA battery is being charged in its base.
Infrared – Select this to receive keys over the infrared port.
Important: The Comm Method settings match in the PC’s Key Server
Manager and in the Authentication Device (both must be set to Infrared or both
to ActiveSync) in order for your PDA to receive security keys.
Read Tracelog Flag
Not available for sensors. Used with multinodes. Reads conditional tracelog
flag value. Tracelog flags are used to enable and disable logging functionality
used for field support.
Write Tracelog Flag
Not available for sensors. Used with multinodes. Writes conditional tracelog
flag value. Tracelog flags are used to enable and disable logging functionality
used for field support .
Select Infrared Communication
Port
Overrides the detected infrared communication port detected on your PDA. If
infrared communication is not functioning, you can override the detected
settings using this option.
Read TX Power Level
Reads the transmission power level of the sensor radio.
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6. 5BMaintenance/Repair
6.1. Replacing Batteries
6. Maintenance/Repair
6.1
Replacing Batteries
When to replace
When the sensor displays a LOW BAT message you have 2-4 weeks to replace both batteries before they
expire. When batteries are removed or expired, all sensor data is retained in the Radio Board’s non-volatile
memory. All calibration data is retained in the Measurement Board's non-volatile memory, however, if the
sensor was physically removed and re-installed, the calibration must be re-checked.
Figure 14 Low Battery Warning
Tools required
•
T-15 Security TORX Screwdriver (Bit supplied with Product) (if applicable)
•
#2 Phillips Screwdriver or 1/4” Slotted Screwdriver
•
Torque Screwdriver
•
Large screwdriver or other flat tool
•
Heavy tweezers or needle-nose pliers
Procedure
ATTENTION
Batteries must be replaced only by a trained service technician.
WARNINGS
36
•
Risk of death or serious injury by explosion. Do not open sensor
enclosure when an explosive gas atmosphere is present.
•
Batteries must not be changed in an explosive gas atmosphere.
•
The batteries used in this device may present a risk of fire or chemical
burn if mistreated. Do not recharge, disassemble, heat above 100°C
(212°F), or incinerate.
•
When installing batteries, do not snag the battery terminal on the clip or
the battery may be damaged. Do not apply excessive force.
•
Do not drop. Dropping the battery may cause damage. If a battery is
dropped, do not install the dropped battery into the sensor. Dispose of
dropped battery promptly per local regulations or per the battery
manufacturer’s recommendations.
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6.1. Replacing Batteries
Table 14 Battery Replacement Procedure
(For item numbers, refer to Figure 9)
Step
Action
WARNING
Risk of death or serious injury from explosion or fire.
If sensor is to be returned to Honeywell for any reason, both batteries MUST be romoved prior
to shipping. Dispose of used batteries promptly per local regulations or the battery
manufacturer’s recommendations. Keep away from children. Do not disassemble and do not
dispose of in fire.
ATTENTION
You must replace both batteries. Both batteries must be the same model from the same
manufacturer. Mixing old and new batteries or different manufacturers is not permitted.
Use only the following 3.6V lithium thionyl chloride (Li-SOCl2) batteries (non-rechargeable),
size C. No other batteries are approved for use in WCX Series Valve Position Sensor.
•
Xeno Energy XL-145F
•
Tadiran TL-5920/S
Honeywell recommends that the sensor be removed from service and moved to a clean area
before servicing. Use care to avoid rotating the input shaft, causing the internal slip clutch to
slip.
If applicable, remove two T-15 TORX screws (1) and cover lock clamp (2).
If necessary, place a large screwdriver or other flat tool across the two tabs on the cover (3).
Unscrew and remove the cover.
Unplug cable from potentiometer (4) to Jack J2 on battery board (see Figure 10), by
compressing the locking clip and pulling outward.
Loosen the two battery holder retaining screws (5) (closest to the batteries). The screws are
captive.
Pull the sensor/battery module (6) out of the sensor.
ATTENTION
Do not pull on the antenna cable itself, as it will damage the cable.
If battery holder is to be completely removed, use tweezers or needle nose pliers to carefully
unplug the lower end of the antenna jumper cable from the right angle connector on the
antenna cable. See Figure 10.
If battery holder is not to be completely removed, place a clean antistatic bag or equivalent,
between the battery assembly and the housing.
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Remove the old batteries (7) from the battery holder. If needed, pry out the batteries by using a
slotted screwdriver as a lever in the holder’s side slots. See Figure 10.
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6. 5BMaintenance/Repair
6.1. Replacing Batteries
Step
Action
ATTENTION
Note that both batteries in the WCX Valve Position Sensor are installed with the same
orientation, with each positive terminal facing toward the sensor module.
Install batteries (7) as follows to avoid damage to the batteries and holder:
Do not attempt to bend the battery hold down tabs upward. Insert the battery negative end
under the hold-down tab, at an angle, and against the end of the spring. Simultaneously move
the negative end of the battery into position, compressing the spring, and angle the positive end
into the holder. See Figure 10.
Repeat this process for the second battery.
10
Insert the battery holder into the sensor. Reattach the captive screws (5) and tighten to 0,4 –
0,6 N-M (3.5 – 5.3 Lb-in).
11
Plug cable from potentiometer (4) into Jack J2 on battery board. Note that the potentiometer
cable goes to the outside of the antenna cable. See Figure 10.
12
If the antenna jumper cable was disconnected, use tweezers or needle nose pliers to grip the
right angle antenna connector, hold the lower end of the antenna jumper cable steady, and
carefully press the connectors together. A distinct click should be heard as the connector is fully
seated.
13
NOTE: Honeywell recommends lubricating the cover O-ring (8) and threads with a Silicone
Grease such as Dow Corning #55 or equivalent before replacing the cover.
Replace cover, tightening hand tight. If applicable, replace cover lock clamp and two T-15
TORX screws.
Re-install and return sensor to service.
38
14
If the unit removal or re-installation caused the input shaft to be rotated enough to make the
internal slip clutch slip, then re-setting the device angle must be performed (see section 3).
15
Dispose of used batteries promptly per local regulations or the battery manufacturer’s
recommendations. Keep away from children. Do not disassemble and do not dispose of in fire.
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6.1. Replacing Batteries
Figure 15 Battery Replacement
Remove J2 by pressing tab and pulling J2
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OPTIONAL - Disconnect RF cable
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6. 5BMaintenance/Repair
6.1. Replacing Batteries
Loosen two captive screws, remove assembly
Press top down, pull battery out on an angle
Replace batteries, install assy., tighten screws
Replace J2, check wire & cable routing
Figure 16 Battery Replacement Details
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6.2. Replacing Antenna
6.2
Replacing Antenna
Tools required
•
T-15 Security TORX Screwdriver (Bit supplied with Product) (if applicable)
•
#2 Phillips Screwdriver or 1/4” Slotted Screwdriver
•
Torque Screwdriver
•
Large screwdriver or other flat tool
•
Hex wrench, 1.5mm (Supplied with Product)
•
Heavy tweezers or needle-nose pliers
Procedure
ATTENTION
You must replace your antenna with the same type, elbow, or straight.
Stainless steel must be replaced with stainless steel, aluminum with
aluminum. Changing to a different antenna type is not permitted by approval
agencies.
CAUTION
Take precautions against electrostatic discharge to prevent damaging the
sensor module.
WARNING
POTENTIAL ELECTROSTATIC CHARGING HAZARD
The integrally mounted antenna shroud is made of Teflon® and has a surface
resistance greater than 1Gohm per square. When the WCX Valve Position
Sensor is installed in potentially hazardous locations care should be taken not
to electrostatically charge the surface of the antenna shroud by rubbing the
surface with a cloth, or cleaning the surface with a solvent. If electrostatically
charged, discharge of the antenna shroud to a person or a tool could possibly
ignite a surrounding hazardous atmosphere.
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6. 5BMaintenance/Repair
6.2. Replacing Antenna
Table 15 Antenna Replacement Procedure
(For item numbers, refer to Figure 10)
Step
Action
Honeywell recommends that the sensor be removed from service and moved to a clean area
before servicing. Use care to avoid rotating the input shaft, causing the internal slip clutch to
slip.
If applicable, remove two T-15 TORX screws (1) and cover lock clamp (2).
Place a large screwdriver or other flat tool across the two tabs on the cover (3). Unscrew and
remove the cover.
Unplug cable from potentiometer (4) to Jack J2 on battery board, by compressing the locking
clip and pulling outward. See Figure 12.
Loosen the two battery holder retaining screws (5) (closest to the batteries). The screws are
captive.
ATTENTION
NOTE: Use caution in disconnecting the antenna cable, as applying too much pressure can
damage the connectors.
NOTE: Antenna location 1 is illustrated. For sensors using antenna locationi 2, the antenna
cable routing will be through the opposite slot in lower mounting plate.
42
Remove the sensor/battery module (6) from the sensor body and carefully disconnect the
lower connector of the antenna jumper cable (7) from the right angle connector on the antenna
cable (8). See Figure 12.
Loosen two screws on lower mounting plate (9) and raise the plate sufficiently to allow the
release of the antenna's cable. See Figure 12. Lower the lower plate, insuring that the white
end bearing on the plate fits back into the shaft assembly. Temporarily tighten screws.
Using a 1.5 mm (approx. 1/16") allen wrench, loosen the locking set screw (10) at the antenna
base. Note that its position may differ from illustrated. Unscrew the antenna from the sensor.
Remove the antenna (11) and its connector from the sensor.
Lubricate the new antenna's threads and O-ring (12) with a Silicone Grease such as Dow
Corning #55 or equivalent. Feed the new antenna’s connector (8) through the antenna hole to
the front of the sensor. Do not connect to sensor module cable yet. Screw new antenna into
sensor body until finger-tight. For elbow type, back off 180 degrees to permit adjustment later.
10
Loosen two screws on lower mounting plate (9) and raise the plate sufficiently to allow the
insertion of the antenna's cable back into the notch in the plate. See Figure 12. Tighten
screws and torque to 0,4 – 0,6 N-M (3.5 – 5.3 Lb-in).
11
Use tweezers or needle nose pliers to grip the right angle antenna connector, hold the lower
end of the antenna jumper cable steady, and carefully press the connectors together. A distinct
click should be heard as the connector is fully seated.
12
Insert sensor/battery module. Tighten the two captive battery module screws. Torque screws
to 0,4 – 0,6 N-M (3.5 – 5.3 Lb-in).
13
Plug cable from potentiometer (4) into Jack J2 on battery board. Note that the potentiometer
cable goes to the outside of the antenna cable. See Figure 12).
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6.2. Replacing Antenna
Step
14
Action
NOTE: Honeywell recommends lubricating the cover O-ring (13) and threads with a Silicone
Grease such as Dow Corning #55 or equivalent before replacing the cover.
Replace cover, tightening hand tight. If applicable, replace cover lock clamp and two T-15
TORX screws.
Return sensor to service.
15
If the unit removal or re-installation caused the input shaft to be rotated enough to make the
internal slip clutch slip, then re-setting the device angle must be performed (see section 3).
16
For elbow type antenna, adjust antenna for best reception. Don’t rotate antenna more than 180
degrees either direction or you could twist and break the antenna wiring inside. Tighten the
antenna locking set screw (10).
Figure 17 Antenna Replacement
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6. 5BMaintenance/Repair
6.2. Replacing Antenna
Remove J2 by pressing tab and pulling J2
Disconnect RF cable to antenna
Release cable before unscrewing antenna
Loosen two captive screws, remove assembly
Loosen 2 screws on lower mounting plate
Install assy., check wire & cable routing
Figure 18 Antenna Replacement Details
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6.2. Replacing Antenna
Automation and Control Solutions
Sensing and Control
Honeywell
1985 Douglas Drive North
Minneapolis, MN 55422
www.honeywell.com/sensing
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