Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged Owner's manual

Category
Gateways/controllers
Type
Owner's manual

Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged

The Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged is a powerful tool for measuring the conductivity, resistivity, total dissolved solids, or custom curve variables of a liquid. It is also capable of transmitting data wirelessly with a radio transceiver that uses the HART 7 communication protocol. The instrument has a local operator interface consisting of a keyboard and LCD display which can be used to observe process parameters or to configure the device.

Some of the key features of the Rosemount 6081-C include:

Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged

The Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged is a powerful tool for measuring the conductivity, resistivity, total dissolved solids, or custom curve variables of a liquid. It is also capable of transmitting data wirelessly with a radio transceiver that uses the HART 7 communication protocol. The instrument has a local operator interface consisting of a keyboard and LCD display which can be used to observe process parameters or to configure the device.

Some of the key features of the Rosemount 6081-C include:

Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
6081-C
Contacting Conductivity Transmitter
Essential Instructions – Read this before proceeding
Rosemount Analytical designs, manufactures, and tests its products to meet many national and international standards.
Because these instruments are sophisticated technical products, you must properly install, use, and maintain them to
ensure they continue to operate within their normal specications. The following instructions must be adhered to and
integrated into your safety program when installing, using, and maintaining Rosemount Analytical products. Failure
to follow the proper instructions may cause any one of the following situations to occur: Loss of life; personal injury;
property damage; damage to this instrument; and warranty invalidation.
• Read all instructions prior to installing, operating, and servicing the product. If this Instruction Manual is not the correct
manual, telephone 1-800-654-7768 and the requested manual will be provided. Save this Instruction Manual for future
reference.
• If you do not understand any of the instructions, contact your Rosemount representative for clarication.
• Follow all warnings, cautions, and instructions marked on and supplied with the product.
• Inform and educate your personnel in the proper installation, operation, and maintenance of the product.
Figure 1. 6081-C
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6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
• Install your equipment as specied in the Installation Instructions of the appropriate Instruction Manual and per
applicable local and national codes. Connect all products to the proper electrical and pressure sources.
• To ensure proper performance, use qualied personnel to install, operate, update, program, and maintain the product.
• When replacement parts are required, ensure that qualied people use replacement parts specied by Rosemount.
Unauthorized parts and procedures can affect the product’s performance and place the safe operation of your process
at risk. Look alike substitutions may result in re, electrical hazards, or improper operation.
• Ensure that all equipment doors are closed and protective covers are in place, except when maintenance is being
performed by qualied persons, to prevent electrical shock and personal injury.
Note
The Rosemount 6081 and all other wireless devices should be installed only after the 1420 Wireless Gateway has been installed
and is functioning properly. Wireless devices should also be powered up in order of proximity from the 1420 Wireless Gateway,
beginning with the closest. This will result in a simpler and faster network installation.
Note
Shipping considerations for wireless products (Power Modules):
The unit was shipped to you without the power module installed. Please remove the power modules from the unit prior to
shipping.
Primary lithium power modules are regulated in transportation by the U. S. Department of Transportation, and are also covered
by IATA (International Air Transport Association), ICAO (International Civil Aviation Organization), and ARD (European Ground
Transportation of Dangerous Goods). It is the responsibility of the shipper to ensure compliance with these or any other local
requirements. Please consult current regulations and requirements before shipping.
The power module with the wireless unit contains two “C” size primary lithium/thionyl chloride power sources.
Each power module contains approximately 5 grams in each pack. Under normal conditions, the power module
materials are self-contained and are not reactive as long as the power modules and the pack integrity are maintained.
Care should be taken to prevent thermal, electrical or mechanical damage. Contacts should be protected to prevent
premature discharge.
Power module hazards remain when cells are discharged. Power modules should be stored in a clean and dry area. For
maximum power module life, storage temperature should not exceed 30 °C
WARNING
Use only with Rosemount Smart Power Module PN 701PBKKF or PN 00753-9220-0001
WARNING
Potential Electrostatic Hazard – The plastic antenna may present a potential electrostatic ignition hazard and must not be rubbed
or cleaned with a dry cloth.
WARNING
Mechanical Spark Hazard – The 6081 enclosure is made of aluminum alloy and given a protective polyurethane paint nish.
However, care should be taken to protect it from impact or abrasion if located in Zone 0.
This applies to any Intrinsically Safe installation, whether the Class, Division or Zone system is used.
Essential Instructions (continued)
3
Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
Quick Start Guide - 6081 Contacting Conductivity Transmitter
1. Install the Power Module inside the rear enclosure. Follow the installation instructions on p.9 “Power Module
Installation”.
2. Wire the sensor to the transmitter. Refer to the sensor instruction sheet for details.
3. Once the connections are secure and veried, install the Power Module to power to the transmitter.
4. When the transmitter is powered up for the rst time, Quick Start screens appear. Using Quick Start is easy.
a. A blinking eld shows the position of the cursor.
b. Use the or key to move the cursor left or right. Use the or key to move the cursor up or down or to
increase or decrease the value of a digit. Use the or key to move the decimal point.
c. Press ENTER to store a setting. Press EXIT to leave without storing changes. Pressing EXIT also returns the display
to the previous screen.
5. Choose a local language.
6. Choose measurement: Sensor type: 2-Electrode, 4-Electrode.
7. Select measurement: conductivity, resistivity, TDS, salinity or one of the % concentration choices.
8. Enter cell constant: for the sensor. Refer to the tag attached to the sensor.
9. Select wireless update rate. Select ENTER to choose the default update rate of 60 seconds or enter a value from 1
second to 3,600 seconds (60 minutes).
10. Choose temperature units: °C or °F
11. Choose Yes to Setup the Wireless Network or No if the Network ID and the Join Key have already been entered.
12. Enter the 5-digit Wireless Network ID. This ID number must match the Network ID of the 1420 Wireless Gateway.
13. Enter the 8-digit Network Join Key number 1 of 4 to match the 1420 Wireless Gateway. See the Note below for
clarication.
14. Enter the 2nd, 3rd, and 4th set of Network Join Key numbers, to match the Model 1420 Wireless Gateway.
15. The transmitter will exit Quick Start and display the live measurement screen.
16. To change the Network ID or Join Key, HART address, or measurement-related settings from the default values, and to
set security codes, press MENU. Select Program and follow the prompts. Refer to the appropriate menu tree.
17. To return the transmitter to default settings, choose Reset Analyzer in the Program menu.
Note regarding Wireless Device Configuration
In order to communicate with the 1420 Wireless Gateway, and ultimately the Information System, the transmitter must
be congured to communicate with the wireless network. This step is the wireless equivalent of connecting wires from a
transmitter to the information system. Using a Field Communicator or AMS, or the local keypad on the device, enter the
Network ID and Join Key so that they match the Network ID and Join Key of the gateway and other devices in the network.
The Network Join Key consists of four (4) blocks, each with an eight digit code. The code of each block must match
its corresponding block in the 1420 in order for the 6081 to join the network. If the Network ID and Join Key are not
identical, the transmitter will not communicate with the network. The Network ID and Join Key may be obtained from the
1420 Wireless Gateway on the Setup>Network>Settings page on the web server. The nal device network conguration
piece is the Update Rate. This is 60 seconds by default. This may be changed at commissioning, or at any time via AMS
or the 1420 Wireless Gateway’s web server. The Update Rate should be between 1 second and 3,600 seconds. When
device conguration is completed, remove the power module and replace the rear cover of the transmitter until the time
of actual live installation in the process. Properly tighten the screws and install plugs or cable gland ttings in the conduit
openings to prevent the entry of moisture during storage.
Note
For installation and operation at high elevations, slight convex bulging of the front keypad overlay is possible. If bulging occurs, it
is recommended to unscrew the two Philips head screws that faster the front cover to the central housing to release any internal
pressure. This will equalize the device’s internal pressure to the ambient atmospheric pressure. Re-tighten the two Philips head
screws to secure the front cover before device installation or operation. Make sure to perform the pressure equalization in a clean,
dry area.
4
6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
Figure 2. Menu Tree for 6081 Contacting Conductivity Wireless Transmitter
5
Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
Product Description
When used with appropriate sensors, the 6081-C can measure conductivity, resistivity, total dissolved solids or custom curve variables
in the range of 0–600 mS/cm of a liquid and transmit data wirelessly with a radio transceiver which uses HART 7 communication
protocol. The instrument has a local operator interface consisting of a keyboard and LCD display which can be used to observe process
parameters or to congure the 6081. This instrument is available with approvals for use in hazardous areas.
General Specifications
Enclosure: Cast aluminum. NEMA 4X. IP66
Dimensions: 6.55” x 5.40” x 5.15” (166mm x 137mm x 131mm).
Conduit Openings: 3/4” FNPT
Ambient Temperature: -4 to 149 °F (-20 to 65 °C)
Storage Temperature: -22 to 158 °F (-30 to 70 °C)
Relative Humidity: 0 to 95% (non-condensing)
Weight/Shipping Weight: 7 lbs/8 lbs (3.2/3.6 kg)
Digital Communications: HART 7 Wireless HART
TM
Wireless Specifications
Output: Wireless HART V7
Transmit Rate: User selectable, 1/sec. to 1/60 min (via Smart Wireless Gateway or AMS™)
Measurement update rate: 1/sec. to 1/60 min
Antenna: PBT/PC integrated omni-directional antenna
Radio Frequency: 2.4 GHz DSSS
Transmission distance - line of sight: about 600 ft (ideal RF conditions and power module condition)
Power: Lithium thionyl chloride long life power module
Power Module Life (estimated): Four years at once per minute update rate, 25 °C ambient, and minimum display usage.
Functional Specifications
Measurements: conductivity in the range 0 to 600,000 μS/cm (600mS/cm). Measurement choices are conductivity,
resistivity, total dissolved solids, salinity, and %concentration. The % concentration selection includes the choice of ve common
solutions (0–12% NaOH, 0–15% HCl, 0–20% NaCl, and 0–25% or 96–99.7% H2SO4).
Input filter: time constant 1–999 sec, default 2 sec.
Response time: 3 seconds to 100% of nal reading
Salinity: uses Practical Salinity Scale
Information and Status: Information screens display cell constant, zero offset in air, zero offset in water, RTD offset, faults and
warnings, ambient temperature, radio transmission status, network ID number, Power Module voltage and estimated life,
transmitter model, and software version.
The conductivity concentration algorithms for these solutions are fully temperature compensated. Three temperature
compensation options are available: manual slope (X%/°C), high purity water (dilute sodium chloride), and cation conductivity (dilute
hydrochloric acid). Temperature compensation can be disabled, allowing the analyzer to display raw conductivity.
Note
Selected 4-electrode, high range contacting conductivity sensors are compatible with 6081-C.
Display: 2-line, 16 character display supports display of μS/cm, mS/cm, MΩ-cm, % concentration, and ppm units. Display shows
temperature.
Recommended Sensors:
140 Retractable Conductivity
141 Insertion High Conductivity
142 Insertion Low Conductivity
150 Insertion/Submersion Conductivity
400/VP Screw-In Low Conductivity
401 Screw-In High Conductivity
402/VP Retractable Conductivity
403/VP Sanitary Conductivity
404 Low Flow Conductivity
410/VP Four Electrode Sensor
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6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
Diagnostics: The internal diagnostics can detect:
CPU Error
RTD Error
Temperature High Warning
Temperature Low Warning
Sense Line Open Warning
Negative Reading Warning
Out of Range Warning
% of Range Warning
Need Factory Cal Warning
Need Curve Setup Warning
Battery V Low Warning
EE Chksum Error
EE Write Error
Keyboard Stuck Warning
Once a fault or warning is detected, the display will show a message describing the problem.
Sensor Temperature Range: -10 to 200 °C (PT1000)
Approvals:
RFI/EMI:
EN-61326
EN 301 489-1 V1.2 2002
EN 301 489-17: V1.4.1 2002
EN 60950-1: 2001
EN 300 328 V 1.6.1 (2004-11)
Hazardous Location Approvals
Intrinsic Safety:
Special Conditions of Use:
1. The 6081 enclosure is made of aluminum alloy
and given a protective polyurethane paint nish; however,
care should be taken to protect it from impact or abrasion
if located in zone 0. This applies to any Intrinsically Safe
installation, whether the Class, Division or Zone system is used.
2. Potential Electrostatic Hazard – The plastic antenna may
present a potential electrostatic ignition hazard and must not
be rubbed or cleaned with a dry cloth.
Intrinsically Safe,
Class 1, Division 1
Groups ABCD/T4
Ta = -20 °C to +65 °C – 1400322;
IP66
Class 1 Zone 0, AEx ia IIC T4
Ta = -20 °C to +65 °C – 1400322;
IP66
Non-Incendive
Nonincendive, Class I, Division 2,
Groups A-D/T4
Ta = -20 °C to +65 °C
Class I, Division 2, Groups A, B, D
Dust Ignition Proof
Class II, Division 2, Groups F & G
NEMA 4/4X Enclosure
T4 Tamb : -20 to +65 °C
Complies with FM standards:
FM3600:1998
FM3610: 2010, ISA60079-0:2009, ISA60079-11:2009.
FM3611: 2004
FM3810: 2005
ANSI/IEC 60529:2004
Class I, Division 1, Groups A/B/C & D
Class II, Division 1, Groups E/F& G
Class III
T4 Tamb : -20 to +65 °C
Type 4x, IP66
CE 1180 II1G
Baseefa 10 ATEX 0149X
Ex ia IIC T4 Ga (-20°C ≤ Ta ≤
+65°C
(source CE cert-6081 Baseefa)
Complies with Standards: EN
60079-0:2009, EN 60079-11:2007
Environmental: The operating atmosphere of the transmitter
must be consistent with the appropriate hazardous location
certications.
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Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
Contacting Conductivity
Temperature Specifications - Two Electrode Sensors
Temperature Range 0–200 °C
Temperature Accuracy Pt-1000, 0–50 °C ± 0.1 °C
Temperature Accuracy Pt-1000, Temperature > 50 °C ± 0.5 °C
Recommended Sensors for Conductivity
All Rosemount Analytical ENDURANCE 400 series conductivity sensors (Pt 1000 RTD) and PUR-Sense 410VP sensor.
Figure 4. ENDURANCE series of conductivity sensors
Figure 3. PUR-SENSE family 4-electrode sensors
Performance Specications
Two-Electrode Contacting Conductivity Linearity
Cell Constant Loop Range µS/cm Loop Linearity (@ 25 °C ambient)
0.01 0.01 to 0.03 1.5% of reading +/- 0.0005 μS/c+m
0.01 0.03 to 6.0 3% of reading
0.1 0.5 to 50 1.5% of reading
0.1 50 to 600 3% of reading
1.0 50 to 6000 0.5% of reading
1.0 6000 to 20,000 3% of reading (with capacitance correction OFF: default)
1.0 6000 to 50,000 3% of reading (with capacitance correction ON)
Four Electrode Contacting Conductivity Linearity
Loop Range µS/cm Loop Linearity (@ 25 °C ambient)
0.03 μS/cm to 600 mS/cm +/- 4% of reading +/- 1 μS/cm
Contacting Conductivity Calibration Procedure
Entering the Cell Constant
All cell constants can be located on the cable label of the conductivity probe.
1. Press MENU to light up the display. Press MENU again. The main menu appears. Choose Calibrate. Press ENTER.
2. Choose Conductivity. Press ENTER.
3. Scroll right with the right arrow key.
4. Choose Enter Cell Constant.
5. Enter the actual cell constant as printed on the sensor tag attached to the sensor cable.
6. Press ENTER. All conductivity readings will reference this sensor-specic cell constant.
7. Press EXIT once.
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6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
Note
The cell constant you have entered is changed after the Standardizing Conductivity procedure is performed. For contacting
sensors that only show nominal cell constants, do not change it back to the value as shown on the probe label.
Zeroing the Instrument
This procedure is used to compensate for small offsets to the conductivity signal that are present even when there is no
conductivity to be measured. This procedure is affected by the length of extension cable and should always be repeated
if any changes in extension cable or sensor have been made. Electrically connect the conductivity probe as it will actually
be used and place the measuring portion of the probe in air. Complete the following procedure. Verify that the sensor is
actually in air. If the displayed value is not very close to zero, then press ENTER. The transmitter will establish a new zero.
1. If continuing from the previous procedure, the screen on the left will appear.
2. Choose Conductivity. Press ENTER.
3. Choose Zero. Press ENTER.
After a few seconds, the display will return to a value of 0 μS/cm and may then change slightly. A slight variation from
zero is to be expected, and the procedure may be repeated several times, if necessary. A successful zero is indicated
with a message of “Updated Zero Offset”.
An unsuccessful zero will result if the conductivity reading is more than 1000 μS/cm or if the reading is too unstable.
The “Sensor Zero Fail, Offset too high” message indicates the reading is too high for the zero routine. If repeated
attempts do not result in an acceptable zero, there is a good chance that there is a wiring problem.
4. After electronic zeroing, the Conductivity menu screen will appear.
Sensor Wiring
Note
For additional wiring information on this product, including sensor combinations not shown here, please refer to either our online
wiring programs or the Manual DVD enclosed with each product.
1056, 1057, 56, 5081, 6081, 54e, and XMT :
http://www3.emersonprocess.com/raihome/sp/liquid/wiring/XMT/ 1066 and sensors with SMART preamps:
http://www2.emersonprocess.com/en-US/brands/rosemountanalytical/Liquid/Sensors/Pages/ Wiring_Diagram.aspx
1055:
http://www3.emersonprocess.com/raihome/sp/liquid/wiring/1055/
General Information
The 6081-C is compatible with Rosemount Analytical 2-electrode and 4-electrode contacting conductivity sensors
from Emerson Process Management.
Sensor Wiring
To assist in sensor wiring, please refer to the one of the following resources:
1. Sensor Instruction Sheet – provided with each shipped sensor. Detailed wiring drawings show terminal block
connections for each sensor lead.
2. Online wiring program available at http://www.emersonprocess.com/raihome/liquid/products/wiring/Xmt displays
wiring schematics for all compatible pH sensors.
Note
All sensor wiring must be rated for ≥70 °C.
9
Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
The following drawing identies each terminal block lead position for pH sensors.
Figure 5. 6081-C Sensor Wiring & Connection Points for Contacting Conductivity
Power Module Installation / Replacement
The expected power module (PN 701PBKKF or PN 00753-9220-0001) life is four years at reference conditions. This
section describes the procedure for initial installation and replacement of the power module (PN 701PBKKF or PN 00753-
9220-0001). The new power module should be stored in a safe place with a controlled environment until the 6081 is
ready for live operation. Note that the power module is packed separately from the 6081 wireless transmitter upon
delivery and must be installed initially.
For initial installation or replacement of the power module, follow these steps using a Philips-head screwdriver:
1. Unscrew the two long machine screws to remove the rear cover of the 6081. Separate the rear cover from the central
housing by manually prying the sections apart. Do not use screwdrivers or tools to separate these housing parts. The
parts are sealed with an o-ring.
2. Before installation, note the safety warning, disposal instructions and part information on the connection side label of
the power module.
3. With the 6081 front display section facing away from you, align the power module pack with the curved surface of
the pack facing towards you and the small protruding connector facing away from you. Make sure to align the power
module and its keyed connector with the connection receptacle in the middle of the instrument’s terminal block area.
4. With gentle pressure, insert the keyed connector on the power module into the receptacle (labeled Power Module
Connection on the drawing). The power module seats in the connection receptacle with an o-ring.
5. Conrm that the power module is fully inserted in the receptacle and properly aligned with the surrounding terminal
block.
6. Replace the rear cover of the 6081 with the two screws to secure it to the central housing. Tighten screws and verify
operation. Correct installation the rear cover will ensure that the power module is properly secured to power the
transmitter.
7. DO NOT RETURN SHIP THE USED POWER MODULE to Rosemount Analytical. Dispose of spent power modules as a
hazardous material in accordance with government regulations.
WARNING
Use only with Rosemount SMART Power Module (PN 701PBKKF or PN 00753-9220-0001)
10
6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
Mounting
Mounting on a Flat Surface
Figure 6. Wall Mounting Installation for 6081.
Use Pipe/Wall Mounting Bracket Kit, PN23820-00
Note: PN 23820-00 mounting bracket kit includes mounting hardware for pipe mounting only. Wall mounting hardware to be provided by
customer. Only use suitable fasteners and hardware to securely fasten the bracket and transmitter to the wall surface
11
Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
Pipe Mounting
The pipe mounting kit (PN 23820-00/01) accommodates 1–½ in. pipe
Figure 7. Pipe Mounting Installation for 6081.
Use Pipe/Wall Mounting Bracket Kit, PN23820-00
12
6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
RELEASE DATE
REV
NOTES: UNLESS OTHERWISE SPECIFIED
1
A
B
2
3
4
5
8
7
6
8
7
6
5
4
3
2
1
A
B
C
D
C
D
1700672
ECO NO
DRAWN
CHECKED
ENG APPR
B. JOHNSON
APPROVALS
TITLE
SCAL E:
WEIGHT:
SHEET 1 OF 1
DATE
ROSEMOUNT
ANALYTICAL
Emerson
PROCESS MANAGE MENT
FINISH
MATERIAL
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES
MACHINE FILLET RADII .020 MAX
NOMINAL SURFACE FINISH: 125
ANGLES ± 1/2°.
.XX ± .03 .XXX ± .010
THIS FILE CREATED USING
SOLID EDGE
THIS DOCUMENT IS
CERTIFIED BY
REV
REV
REV
REV
REV
REV
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
SIZE
D
DWG NO
1700672
REV
D
5-1-08
J. PERKINS
S. PACIS
4-30-10
4-30-10
CERT PROD, MODEL
6081 XMTR I.S. (FM)
APR 29, 10
LQD10112
C
1:1
LTR ECO DESCRIPTION
BY
DATE
REVISION
CHECKED/APPROVED
D
LQD10215 SEE ECO CH
5-18-11
JP/ SP
MARKED AS 6081-A-BB-CCC
WHERE:
A = P (pH) OR C (CONDUCTIVITY)
BB = 67 (FM APPROVED)
CCC = ANY 3 DIGIT NUMBER (COUNTRY CODE)
APPROVED MODELS
OVERALL DIMENSIONS
2X NEOPRENE O-RING
PN 9550344
(Mc MASTER-CARR PART NO. 4679T281
MADE OF BLACK BUNA-N,
-65°C TO +275°F COT)
DISPLAY INTERFACE PCB
PN 24298-00
FRONT NORYL LCD FRAME
PN 34163-00
RETAINER, LCD
PN 34254-00
POLYCARBONATE
14 PIN RBBON CABLE
PN 24224-00
ALUMINUM BASE
PN 34181-00
NEOPRENE
O-RING
PN 9550343
POLYCARBONATE
ADAPTER
PN 9160629
NORYL
PIN GUIDE
PN 34148-00
3/4 -14NPT
ALUMINUM
REAR COVER
PN 34182-00
POLYCARBONATE
ANTEENA
PN 9160628
6.55
166.44
O
4.80
121.92
1. PCB MATERIALS HAVE CTI > 175. ALL OTHER INSULATING MATERIALS HAVE CTI >100.
NEOPRENE SPACER RING
PN 34149-00
POLYURETHANE
RING PN 9160626
ALUMINUM WAVE RING
PN 9160627
POLYCARBONATE
INSULATOR
PN 34183-00
SILICONE PIN SEAL
PN 34150-00
POWER MODULE
PN 00753-9220-0001
NORYL BUSHING
PN 9160630
NORYL TERMINAL
INSULATOR
PN 34146-00
MYLAR WIRING DIAGRAM LABEL
PN 9241688-00
LCD MODULE
PN 9010443
A
GENCY CERTIFICATION LABEL
3. ENCLOSURE MEETS THE REQUIREMENTS OF IP66.
THIS DRAWING HAS BEEN SUBMITTED
FOR HAZARDOUS LOCATION
APPROVAL. ANY CHANGES TO THIS
DRAWING REQUIRE AGENCY
APPROVAL.
2 ALUMINUM FRONT COVER, ALUMINUM BASE AND ALUMINUM REAR COVER ARE MADE OF ALUMINUM
356C OR ALUMINUM ALLOY A413.0 OR ALUMINUM ALLOY A3600.0. THESE MATERIALS CONTAIN LESS THAN
6 % MAGNESSIUM. PAINT MANUFACTURER: CADINAL, PART NO. 6442, BLUE.
WIRELESS PCB W/2.4 GHz
HART 7 RADIO
PN 24295-00 OR
PN 24296-00
INTERFACE PCB
PN 24356-00 OR
PN 24357-00
2X NEOPRENE
O-RING
PN 9550342
WINDOW, FILLER
PN 34255-00
NORYL DISPLAY
FRAME PN 34175-00
POLYESTER AGENCY
CERTIFICATION LABEL
PN 9241685-01
NORYL TERMINAL
BLOCK PN 34145-00
ALUMINUM
FRONT COVER
PN 34180-00
2
2
2
D1
D2
POLYESTER
KEYPAD/OVERLAY
PN 34259-00
OPTIONALLY INSTALLED ALUMINUM
OR BRASS PLUG WITH TEFLON TAPE
(2X)
4. THE PAINT ON THE OUTER SURFACE OF THE ENCLOSURE IS LESS THAN 0.2mm THICK.
OPTIONAL
SPECTRUM APPROVAL
INFORMATION
ASSEMBLY LOCATION
('ASSEMBLED IN MEXICO'
OR 'MADE IN USA')
MODEL NUMBER
SERIAL NUMBER INCLUDES DATE CODE
Figure 8. FM IS Installation
13
Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
RELEASE DATE
REV
NOTES: UNLESS OTHERWISE SPECIFIED
1
A
B
2
3
4
5
8
7
6
8
7
6
5
4
3
2
1
A
B
C
D
C
D
1700673
ECO NO
DRAWN
CHECKED
ENG APPR
J. PERKINS
APPROVALS
TITLE
SCAL E:
WEIGHT:
SHEET 1 OF 1
DATE
ROSEMOUNT
ANALYTICAL
Emerson
PROCESS MANAGE MENT
FINISH
MATERIAL
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES
MACHINE FILLET RADII .020 MAX
NOMINAL SURFACE FINISH: 125
ANGLES ± 1/2°.
.XX ± .03 .XXX ± .010
THIS FILE CREATED USING
SOLID EDGE
THIS DOCUMENT IS
CERTIFIED BY
REV
REV
REV
REV
REV
REV
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
SIZE
D
DWG NO
1700673
REV
D
5-5-08
C. HOANG
D, CROWLEY
5-5-10
5-9-10
CERT PROD, MODEL
6081 XMTR I.S.(CSA)
MAY 21, 10
LQD10154
C
1:1
LTR ECO DESCRIPTION
BY
DATE
REVISION
CHECKED/APPROVED
D
LQD10215 SEE ECO CH
5-18-11
JP/DOC
APPROVED MODELS
POLYCARBONATE
14 PIN RBBON CABLE
ALUMINUM BASE
2X NEOPRENE
O-RING
NEOPRENE
O-RING
POLYCARBONATE
ADAPTER
NORYL
PIN GUIDE
OVERALL DIMENSIONS
6.55
166.44
O
4.80
121.92
1. PCB MATERIALS HAVE CTI > 175. ALL OTHER INSULATING MATERIALS HAVE CTI >100.
NEOPRENE
SPACER RING
POLYCARBONATE
INSULATOR
THIS DRAWING HAS BEEN SUBMITTED
FOR HAZARDOUS LOCATION
APPROVAL. ANY CHANGES TO THIS
DRAWING REQUIRE AGENCY
APPROVAL.
AGENCY CERTIFICATION LABEL
3. ENCLOSURE MEETS THE REQUIREMENTS OF NEMA 4X AND IP66.
6081-P-69-XXX
WHERE XXX=COUNTRY CODE
EXAMPLE:108=BRAZIL
WIRELESS PCB
W/2.4 GHz
HART 7 RADIO
PN 24295-00 OR
PN 24322-00
6081-C-69-XXX
ALUMINUM
REAR COVER
POLYURETHANE
RING
ALUMINUM
WAVE RING
NORYL BUSHING
MYLAR WIRING
DIAGRAM LABEL
NORYL TERMINAL
BLOCK
NORYL TERMINAL
INSULATOR
SILICONE
PIN SEAL
POLYESTER AGENCY
CERTIFICATION LABEL
3/4-14NPT
INTERFACE PCB
PN 24356-00 OR
PN 24357-00
POLYCARBONATE
ANTENNA
POWER MODULE
PN 00753-9920-0001
DISPLAY INTERFACE PCB
PN 24298-00
LCD MODULE
FRONT NORYL
LCD FRAME
2X NEOPRENE O-RING
ALUMINUM
FRONT COVER
NORYL
DISPLAY
FRAM E
RETAINER, LCD
PN 34254-00
WINDOW, FILLER
PN 34255-00
2 MATERIAL: ALUMINUM ALLOY CONTAINING LESS THAN 6% BY WEIGHT OF MAGNESIUM.
2
2
2
D1
D2
POLYCARBONATE
OR POLYESTER
KEYPAD/OVERLAY
OPTIONALLY INSTALLED ALUMINUM
OR BRASS PLUG WITH TEFLON TAPE
(2X)
9241685-02/B
S/N: SW VER#
°CT4 Tamb = 65
DUST IGNITION PROOF CLASS II AND III, DIVISION 1, GROUPS E, F & G
NON-INCENDIVE CLASS I, DIVISION 2 GROUPS A, B, C & D
HAZARDOUS AREA WHEN CONNECTED PER DWG
GROUPS A, B, C, D, E, F & G
INTRINSICALLY SAFE FOR CLASS I, II & III, DIVISION 1,
MODEL 6081
OUTPUT: WIRELESS HART (2.4 GHz) FCC ID: LW 2RM2510 / IC ID: 2731A-RM2510 IS CONTAINED WITHIN.
OR SUITABILITY FOR DIVISION 2
WARNING: COMPONENT SUBSTITUTION MAY IMPAIR INTRINSIC SAFETY
ENCLOSURE TYPE: NEMA 4/4X IP66
SUPPLY: USE ONLY WITH ROSEMOUNT SMART POWER MODULE P/N 753-9220-0001
-LR 34186
DWG 1700673
®
2:1
IN THIS AREA, PRINT:
1400335 IF 6081P,
1400336 IF 6081C
D3
Figure 9. CSA IS Installation
14
6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
RELEASE DATE
REV
NOTES: UNLESS OTHERWISE SPECIFIED
1
A
B
2
3
4
5
8
7
6
8
7
6
5
4
3
2
1
A
B
C
D
C
D
1700674
ECO NO
DRAWN
CHECKED
ENG APPR
C. HOAN G
APPROVALS
TITLE
SCAL E:
WEIGHT:
SHEET 1 OF 1
DATE
ROSEMOUNT
ANALYTICAL
Emerson
PROCESS MANAGE MENT
FINISH
MATERIAL
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES
MACHINE FILLET RADII .020 MAX
NOMINAL SURFACE FINISH: 125
ANGLES ± 1/2°.
.XX ± .03 .XXX ± .010
THIS FILE CREATED USING
SOLID EDGE
THIS DOCUMENT IS
CERTIFIED BY
REV
REV
REV
REV
REV
REV
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
SIZE
D
DWG NO
1700674
REV
D
7-20-10
J. PERKINS
D. CROWLEY
8-9-10
8-9-10
CERT PROD, MODEL
6081 XMTR I.S.(ATEX)
AUG 10, 2010
LQD10235
D
1:1
LTR ECO DESCRIPTION
BY
DATE
REVISION
CHECKED/APPROVED
APPROVED MODELS
POLYCARBONATE
14 PIN RBBON CABLE
WIRELESS PCB
W/2.4 GHz
HART 7 RADIO
PN 24295-00 OR
PN 24296-00
ALUMINUM BASE
2X NEOPRENE
O-RING
NEOPRENE
O-RING
POLYCARBONATE
ADAPTER
NORYL
PIN GUIDE
1. PCB MATERIALS HAVE CTI
> 175. ALL OTHER INSULATING MATERIALS HAVE CTI >100.
OVERALL DIMENSIONS
6.55
166.44
O
4.80
121.92
3/4-14NPT
2 MATERIAL: ALUMINUM ALLOY CONTAINING LESS THAN 6% BY WEIGHT OF MAGNESIUM.
2
2
2
INTERFACE PCB
PN 24356-00 OR
PN 24357-00
SILICONE
PI N SEAL
POLYCARBONATE
INSULATOR
6081-P-73-XXX
WHERE XXX=COUNTRY CODE
EXAMPLE:108=BRAZIL
3. ENCLOSURE MEETS THE REQUIREMENTS OF NEMA 4X AND IP66.
THIS DRAWING HAS BEEN SUBMITTED
FOR HAZARDOUS LOCATION
APPROVAL. ANY CHANGES TO THIS
DRAWING REQUIRE AGENCY
APPROVAL.
6081-C-73-XXX
ALUMINUM
REAR COVER
POLYURETHANE
RING
ALUMINUM
WAVE RING
NORYL BUSHING
NEOPRENE
SPACER RING
POWER MODULE
PN 00753-9220-0001
NORYL TERMINAL
BLOCK
MYLAR WIRING
DIAGRAM LABEL
POLYESTER AGENCY
CERTIFICATION LABEL
(SILVER POLYESTER
THERMfilm SELECT 22970)
NORYL TERMINAL
INSULATOR
DISPLAY INTERFACE PCB
PN 24298-00
LCD MODULE
FRONT NORYL
LCD FRAME
2X NEOPRENE O-RING
ALUMINUM
FRONT COVER
NORYL
DI SPLAY
FRAME
RETAINER, LCD
PN 34254-00
WINDOW, FILLER
PN 34255-00
POLYCARBONATE
OR POLYESTER
KEYPAD/OVERLAY
OPTIONALLY INSTALLED ALUMINUM
OR BRASS PLUG WITH TEFLON TAPE
(2X)
POLYCARBONATE
ANTENNA
NOTE: THE STATIC GUARD LAYER GROUNDING TAB IS SECURED
TO THE HOUSING USING INDICATED SCREW. THE STATIC GUARD
LAYER MUST BE < 0.2mm FROM TOP SURFACE OF OVERLAY.
ANY VOID AREA IN THE STATIC GUARD LAYER MUST BE < 4 c
OMIT THE IECEx NUMBER IF ONLY
ATEX APPROVAL IS WANTED.
OPTIONAL
SPECTRUM APPROVAL INFORMATION
ASSEMBLY LOCATION
MODEL NUMBER
SERIAL NUMBER INCLUDES DATE CODE
AGENCY CERTIFICATION LABEL
Figure 10. ATEX IS Installation
15
Instruction Manual 6081-C
LIQ_MAN_ABR_6081-C February 2014
6081-C Instruction Manual
February 2014 LIQ_MAN_ABR_6081-C
Rev. C
Credit Cards for U.S. Purchases Only.
Emerson Process Management
2400 Barranca Parkway
Irvine, CA 92606 USA
Tel: (949) 757-8500
Fax: (949) 474-7250
rosemountanalytical.com
© Rosemount Analytical Inc. 2014
©2014 Rosemount Analytical, Inc. All rights reserved.
The Emerson logo is a trademark and service mark of Emerson Electric Co. Brand name is a mark of one
of the Emerson Process Management family of companies. All other marks are the property of their
respective owners.
The contents of this publication are presented for information purposes only, and while effort has been
made to ensure their accuracy, they are not to be construed as warranties or guarantees, express or
implied, regarding the products or services described herein or their use or applicability. All sales are
governed by our terms and conditions, which are available on request. We reserve the right to modify
or improve the designs or specications of our products at any time without notice.
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Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged Owner's manual

Category
Gateways/controllers
Type
Owner's manual

Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged

The Rosemount 6081-C Wireless Contacting Conductivity Analyzer Abridged is a powerful tool for measuring the conductivity, resistivity, total dissolved solids, or custom curve variables of a liquid. It is also capable of transmitting data wirelessly with a radio transceiver that uses the HART 7 communication protocol. The instrument has a local operator interface consisting of a keyboard and LCD display which can be used to observe process parameters or to configure the device.

Some of the key features of the Rosemount 6081-C include:

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