TIENet™ 360 LaserFlow™ Velocity Sensor
Contents
1. FOOT 2X FORCE lt Figure 2 15 Overall dimensions including temporary mounting hardware part 2 2 14 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 5 3 Sensor Positioningand Figure 2 16 at left shows constants that serve as reference Requirements points when planning the positioning of the sensor Figure 2 17 shows a typical LaserFlow manhole installation CAUTION For proper function the requirements listed here must be fol lowed exactly Requirements e Permanent Installation Install the wall bracket perpen dicular to the x axis Temporary Installation Install the cargo bar perpen dicular to the y axis e Always center the LaserFlow and middle laser beam relative to the pipe walls and always use the attached circular bubble level for vertical alignment e Mount the LaserFlow sensor with the bottom parallel with the water surface e Align the bottom of the LaserFlow with the top of the inside wall of the inlet pipe and as close as possible to the pipe mouth without obstructing the laser Center of the pipe To accomplish this refer to Figure 2 16 at left Figure 2 17 on the next page and the following important figures The point at which the laser exits the sensor mouth is 3 3 8 4 cm from2. 26 85 68 2 22 32 56 1 9 L l 22 13 MAX 56 2 32 44 MAX 82 4 33 26 MAX 84 3 LaserFlow SENSOR SPECIFICATIONS AREA VELOCITY SENSOR ASSEMBLY WEIGHT wis OPTIONAL CARGO BAR 48 55 1122 140 6 0 LBS 2 7 K6 1 SECONDARY DIMENSIONS IN BRACKETS ARE IN CENTIMETERS CM CARGO BAR 54 66 137 168 6 5 LBS 2 9 KG ANUESS OTRERR SE SREQIF ED CARGO BAR 63 84 160 213 1 4 LBS 13 4 K6 CARGO BAR 83 114 1211 290 SHOWN 9 0 LBS 4 1 KG OUNT 11 7 LBS 5 3 KG aserFlow SENSOR 10M 19 2 LBS 8 7 KG aserFlow SNSR AREA VELOCITY 20 LBS 9 KG FORCES TOTAL FORCE 350 LBS 158 8 KG AX LOAD 45 LBS 120 4 KG ENCLOSURE MATERIAL CARGO BA ALUMINUM ANDLE amp HYDRAULIC HOUSING WYLO oor RUBBER OUSING LaserFlow CONDUCTIVE CARBON FILLED ABS OUSING ULTRASONIC ANNODIZED ALUMINUM 6061 LTRASONIC SENSOR Kynar 340 RESIN PVDF GRADE OUNTING HARDWARE STAINLESS STEEL ALL OTHER EXTERIOR METAL PARTS STAINLESS STEEL Figure 2 14 Overall dimensions including temporary mounting hardware part 1 2 13 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation FORCE gt WOT A STEP pax Lone e powa ARE IN CENTIMETERS CM Y DIMENSIONS IN BRACKETS 0 e 98 HANDLE OTES 1 SECOND MOUNT LaserFlow
3. A 8 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts REPLACEMENT PARTS LIST SHEET 2 OF 2 TELEDYNE ISCO PART NUMBER DESCRIPTION 25 1 Soe SCRE EX 4 20X1 1 4 232914000 LOCK NU 32 NYLON INSERT SST 233112800 WASHE RING LOCK 1 4 SST 604363058 THREADED STANDOFF 6 32 236411214 ROLL PIN SPRING 3 16 X 7 8 4363026 TUBE COUPLING 4363027 BRACKET WALL UNT 4303029 LAMP VERTICAL U G TUBE 4363030 LAMP VERTICA U G TUBE 436303 CLAMP R 4363032 LAMP CO zZ oO D gt 65 Oo cry BR 69 4363033 LAMP CO 4363036 COUPLING 4368001 ALIG 4368008 ALIGNME L 4368009 ERTICAL WALL MOUNT W BRACKE 4368010 HORIZONTAL CARRIER TUBE 4364031 ANCHOR STUD W LOCK WSHR 3 8 16X3 SST 436 0 ALIGNMENT TAB WITH STANDOFF RIGHT 436 ALIGNMENT TAB WITH STANDOFF LEFT D1 DID 5 69 gt 4 65 gt DO NOTE l For current prices and quotations on parts contact Isco Service Department 2 This list is subject to change without notice
4. CAUTION Be sure the protective window cap is installed during cleaning storage or shipment Figure 1 3 Remove protective window cap before installation 1 8 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 1 Safety Before installing operating or maintaining this equipment it is imperative that all hazards and preventive measures are fully understood 2 1 1 Site Conditions Components are often installed in confined spaces Some examples of confined spaces include manholes pipelines digesters and storage tanks These spaces may become haz ardous environments that can prove fatal for those unprepared These spaces are governed by OSHA 1910 146 and require a permit before entering WARNING The installation and use of this product may subject you to hazardous working conditions that can cause you serious or fatal injuries Take any necessary precautions before entering a worksite Install and operate this product in accordance with all applicable safety and health regulations and local ordinances TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 2 Sensor Installation Considerations 2 2 1 Ultrasonic Beam Angle Measurement accuracy can be affected by a number of site factors that should be taken into consideration when selecting the location for the sensor These factors may affect the laser velocity or the ultrasonic lev
5. Any instrument that fails during the warranty period due to faulty parts or workmanship will be repaired at the factory at no charge to the customer Teledyne Isco s exclusive liability is limited to repair or replacement of defective instruments Teledyne Isco is not liable for consequential damages Teledyne Isco will pay surface transportation charges both ways within the 48 contiguous United States if the instrument proves to be defective within 30 days of shipment Throughout the remainder of the warranty period the customer will pay to return the instrument to Teledyne Isco and Teledyne Isco will pay surface transportation to return the repaired instrument to the customer Teledyne Isco will not pay air freight or customer s packing and crating charges This warranty does not cover loss damage or defects resulting from transportation between the customer s facility and the repair facility The warranty for any instrument is the one in effect on date of shipment The warranty period begins on the shipping date unless Teledyne Isco agrees in writing to a different date Excluded from this warranty are normal wear expendable items such as pH sensors charts ribbon lamps tubing and glassware fittings and wetted parts of valves and damage due to corrosion misuse accident or lack of proper maintenance This warranty does not cover products not sold under the Teledyne Isco trademark or for which any other warranty is spec
6. 5 ARBA O O O O O X Internal Cables N 2 2 ERRE O O O O O Line Cord 3 BAIL xX 0 0 0 0 x DC Motor BEX O O X O O O Connectors 5 x 0 0 0 Battery mnt ARS 5 5 35 55 Name and amount of Hazardous Substances or Elements in the product o RRBASAS REZ MAS AME PHS BYEST MEMENREZRAE O Represent the concentration of the hazardous substance in this component s any homogeneous pieces is lower than the ST standard limitation RRBZABRSWRELEBZRAHR HQRAAPHSSHUOST MEMEDREER ET HE DAA 01 A TEHA RHEE I Le ST OX X Represent the concentration of the hazardous substance in this component s at least one homogeneous piece is higher than the ST standard limitation Manufacturer may give technical reasons to the X marks ys REAR 8 TB FE The Environmentally Friendly Use Period EFUP was determined through experience E ARREARS IA WS URF AEH 207 KR 2007 F MBN 180 30 A HA 9 2 5 The date of Manufacture is in code within the serial number The first three numbers are the year of manufacture 207 is year 2007 followed by a letter for the month A is January B is February and so on Hazmat Table LaserFlow and Accessories 60 4362 020 Rev Teledyne Isco One Year Limited Factory Service Warranty This warranty exclusively covers Teledyne Isco instruments providing a one year limited warranty covering parts and labor
7. A 2 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts 604362011 REPLACEMENT PARTS LIST SHEET 2 OF 6 TELEDYNE ISCO REV B DESCRIPTION PART NUMBER 2100669 RING 6691D Via ROSS SECTION 2412 12 RING 2 1121D 03 SILICONE 3131014 REW SELF TA PP ING X3 8 2003076 UG FEMALE P ROBE 4363014 RN 4363024 BEL SET LAS ER WARNING 2003073 P MALE PROBE NOTE l For current prices and quotations on parts contact Teledyne Isco Service Department 2 This list is subject to c ange without notice A 3 TIENet 360 LaserFlow Velo Appendix A Replacement Parts 604362011 A 4 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts REPLACEMENT PARTS LIST SHEET 4 OF 6 TELEDYNE ISCO REV B PART NUMBER DESCRIPTION 10903084 PLUG DOME 75 DIAMETER 2090002 16 RETAINING RING EXTERNAL 2099099 SPRING PLUNGER PUSH FIT 231011404 SCREW FLATHEAD 6 32 X I 4 231115924 SCREW CAP 1 4 20 X lelve eal 9 SCREW CAP FLANGE BUTTON H ee los SCREW SeERPe TAPPING 8X3 8 2330110 WASHER FLAT 2631D X 5000D 2331128 SPRING LOCK WASHER 1 4 2332112 LOCK WASHER INTERNAL TOOTH 2362108 DOWEL PIN 13 X 8 239000 SHACKLE WITH SCREW PIN SST 604363 PLATE MOUNTIN
8. During setup for the optional surcharge functionality measure the distance from the bottom of the channel to the bottom of the LaserF low to set the initial level reading Refer to Figure 4 14 2100 Series Site Site 2100 Series Site Jump to measurement tab gt gt O48 PM Connected Site Info Devices Measurements Data 350 Level Alarms Wireless Power Control ADFM Modbus Modem TIENet Set up the measurement 000000 Set Up Data Storage Module name 2160 LaserFlow Module Diagnostics Measurement name 350 Level Measurement 0 471 meters 0 Hide in Measurements Level last adjusted 2 19 2014 9 52 26 AM Adjust level ata F DEFAULT Graph F3 W Apply F9 X Cancel 2 Help Figure 4 13 350 Level Measurement tab in Flowlink 4 14 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Bottom of LaserFlow gt iva mM 5 Figure 4 14 Submerged functionality Initial 350 Level setting Surcharge alarming It is recommended that the variable data storage rate function be used to trigger 350 velocity and level measurement based on a Level threshold Alarm setup and activation are explained in the Flowlink software user manual and help windows under Equation Builder Condition Builder and Threshold 4 15 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 L
9. Jump to measurement tab gt gt 2160 LaserFlow Module Flow Rate Flow Rate 2 Total Flow Total Flow 2 Input Voltage 360 Distance 360 Level 360 Velocity 360 Case Temperature 360 Laser Temperature 360 X Axis 360 Y Axis 360 Laser Diode Current 360 Ultrasonic Signal 360 Sense Voltage 360 Air Temperature 360 Doppler Power 360 Window Temp Combined Flow b 360 Distance 360 Laser Diode Current Distance between the bottom of the sen Current draw of the laser diode sor and the surface of the flow stream 360 Level 360 Ultrasonic Signal Level of the flow stream surface Strength of the ultrasonic return echo 360 Velocity Sense Voltage Average velocity of the flow stream Measurement of window clarity under 100 mV 360 Case Temperature 360 Air Temperature Internal temperature of the LaserFlow sen Temperature of surrounding ambient sor housing air 360 Laser Temperature 360 Doppler Power Temperature of the laser assembly Strength of the laser return Doppler signal 360 X Axis 360 Window Temp Tilt about the x axis roll Temperature of the window 360 Y Axis Tilt about the y axis pitch Figure 4 4 Drop down list of measurements for 2160 Module 4 4 Click on any parameter on the Measurements tab or in the Jump to Measurements tab list to open a dedicated tab to view details or set up data storage To prevent a parameter from being displayed on the Measure ments tab select the Hide in Me
10. 2 03 ft s 1 11 ft s 1 28 ft s 1 40 ft s 1 52 ft s M Syon 201411 1911aM M 2 20 201411 1920amM 2 20 201411 1924aM M 2 20 201411 1931aM M 2720 2014 11 19 41 AM B a 0 86 ft s E 2 E 2 6 2 20 2014 10 56 47 AM Laser off Advanced I Select All Positive Velocity Positive velocity true bd Zero Flow on Velocity Set flow rate to zero if no velocity data Disconnect F2 Retrieve Data F8 DEFAULT Graph F3 Apply F9 X Cancel Help Figure 4 7 360 Velocity Measurement tab in Flowlink TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module 4 2 3 Advanced Settings The LaserFlow Advanced Settings are pre programmed into the sensor However if your application requires the any custom con figuration the Advanced button opens the Velocity Coeffi cients window refer to Figure 4 8 i Velocity Coefficients lt Input Velocity Coefficients a fo A fos c fo Confirm x Warning Any changes to the Following data can adversely affect the performance of this instrument B Spectral Averages 0 0 0 Re home Count Do you wish to proceed Cancel Focus Learning Algorithm Peak Detect Adaptive Focus Remote Distance Measurement lt US Distance to Bottom 0 in LaserFlow Distance to Bottom 9 in Horizontal Mount LaserFlow Directional Velocity Fo Focus Downstream Maximum Distance 48 in Maximum Velo
11. My Network Places File name 0728 ddp v Data Dump Format ddp 0 Files of type Len 2 Figure C 1 Signature flow data Selecting the ddp file s A progress window will appear displaying the filename site name device type number of data types in the site file and progress of the download 6 When the two progress bars have completed click Done to close the window Sai mponenopness CURRENT File D0709 ddp Site 350 Device Signature Meter Data Types 0 274247 204789 Data Points Read Data Points Written Current File Overall Done C import Progress CURRENT File D0709 ddp Site 350 Device Signature Meter Data Types 13 274247 274247 Data Points Read Data Points Written toe Current File Overall Figure C 2 Signature flow data Importing the ddp file Upon completion a new site file will appear in the Flowlink workspace C 2 TIENet 360 LaserFlow Velocity Sensor Appendix C Velocity Error Codes C 3 Viewing Velocity Error In order to view error codes for velocity readings Codes in Flowlink 1 In the Flowlink workspace double click the 360 Velocity data set When the graph appears click the Table View button 2 When the table appears click the Edit View button Any error codes will appear in the 360 Velocity column following the words No Data Definitions of the error
12. Phone Repair service Fax 402 465 3001 Email October 11 2013 P N 60 1002 040 Rev H IscoService teledyne com a TELEDYNE ISCO Everywhereyoulook
13. ccc ce reee 5 7 5 7 Attach gas tubing to inlet 2 0 0 0 eee eee 5 8 5 8 Reassembling LaserFlow Tubing exits through cable slot 5 9 5 9 Prepare tubing gas connector for swaging 0 5 9 5 10 Swaging the gas connector on tubing 2 5 10 5 11 Swaged connector ready to attach to gas tank 0 0 eee eee 5 10 5 12 350 AV sensor with mounting plate 2220020022 5 11 5 13 Mounting the integrated 350 AV sensor on the LaserFlow 5 12 5 14 Connecting the 350 AV sensor to the LaserFlow 0 0 5 13 5 15 Reassembling the LaserFlow w AV sensor installed 3 5 14 C 1 Signature flow data Selecting the ddp file s 00 cece ene C 1 C 2 Signature flow data Importing the ddp file 0 C 2 C 3 Identifying error codes in the 360 Velocity data set 0 00000 aee C 3 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction 1 1 Description The TIENet 360 LaserF low sensor is an Area Velocity flow measurement device that remotely measures flow in open channels with non contact Laser Doppler Velocity Sensing and non contact Ultrasonic Level Sensing technologies The sensor uses advanced technology to measure velocity with a laser beam at single or multiple points below the surface of the wastewater stream Signature Meter 2160 Module AC Powered Sites Battery Powered Sites OR The LaserFlow sensor is ideal for a broad range of wastewater monitoring applications It is
14. compatible with both the Teledyne Isco Signature Flow Meter and the Teledyne Isco 2160 LaserFlow Module depending on the type of installation To operate with the LaserF low the Signature requires software version 1 21 or later Area Velocity 1 1 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction Figure 1 1 Basic LaserFlow system showing both AC and battery powered options 1 2 Design 1 2 1 Measurement Technology 1 2 2 Cabling 1 3 Operation The LaserFlow sensor consists of a housing with two mea surement technologies working together The laser velocimeter has a laser diode that serves as both transmitter and receiver of a laser light beam The Doppler shifted signal frequency is used to determine flow stream velocity The ultrasonic level transducer determines the stream s level by emitting an ultrasonic pulse and measuring the time it takes for the echo to return from the stream s surface The transducer is both pulse transmitter and echo receiver The LaserFlow sensor is available with a 10m or 23m standard length cable Custom cable length is also available For greater distances external connection via conduit and connection of additional TIENet devices the TIENet Expansion Box is available Distance can be increased by installing the TIENet Expansion Box closer to the installed sensor and adding a custom length TIENet cable between the box and the Signature flow
15. 1 With Signature Flow Meter 5 2 2 With 2160 LaserFlow Module 5 3 Cleaning the Sensor Housing 5 4 Accessing the LaserFlow s Nose Piece Tools required 5 2 When firmware updates become available they can be down loaded from www isco com or via email from the factory The TIENet device s firmware is updated via the USB port on the front panel of the Signature Flow Meter Step by step instruc tions for updating the firmware can be found in Section 2 of the Signature user manual The TIENet device s firmware is updated via the Update Isco Instrument Software tool from Flowlink for the 2160 module Step by step instructions for updating the firmware can be found in the Help text of the update application The LaserFlow sensor s outer housing and ultrasonic transducer can be cleaned with warm water mild soap and a soft lint free cloth Do not spray water on the laser window install the pro tective window cap prior to cleaning CAUTION Never use ordinary cloth or abrasives to clean the LaserFlow CAUTION Be sure the protective window cap is installed during cleaning storage or shipment refer to Section 1 7 1 Several procedures for maintenance and options require accessing the interior of the sensor by separating the nose piece from the body and subsequent reassembly Refer back to this section when performing these procedures WARNING Disconnect power from the LaserFlow sensor befo
16. 2 Preparation and Installation 2 5 Sensor Installation 2 5 1 Tools Required 2 5 2 Sensor and Mounting 2 10 Tools and Requirements Equipment Dimensions The Signature flow meter or 2160 LaserFlow Module does not have to be mounted near the flow stream The flow meter can be installed at a convenient protected location and the sensor cable can be routed through user provided conduit back to the flow meter Proper installation of the LaserF low is critical for accurate mea surement See Appendix B 2 Equipment and Recommended Tools Complete mounting assembly dimensions are provided in Figures 2 12 through 2 15 Refer to the appropriate drawing s when planning the instal lation and adjusting the mounting hardware TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation o 12 39 LONG EXTENSION TUBE 31 37 ORT EXTENSION TUBE lt s 5 13 8 22 32 156 71 lia 1 BRACKET ADJUSTABLE 0 V om Omit ae rt 14 500 MAX 136 83 13 875 90 35 24 recommended 128 21 11 93 130 31
17. 2172014807 204mM M 2 21 2014 8 07 28 8 M 2721 2014 8 07 34AM 2 21 2014 8 07 43 AM 1 39 ft s 1 26 ft s i 1 01 ft s 0 87 ft s M 322014 8 0749AM 272172014 8 0757AM M Invalid M 9 21 2014 8 05 36 4M 2721 2014 8 05 47 AM 1 26 ft s 2 83 ft s 0 97 ft s M Invalid 2 21 2014 8 08 32 49 M 372172014 8 08 40AaMm M Invalid M 5 21 2014 8 06 30 AM Laser on Laser off Advanced Select All gt Deselect Invalid and undesired points then click the Apply button Multipoint 1 39 ft s 1 26 ft s 1 16 ft s 1 02 ft s 0 87 ft s 2 2 2014 807214 M 2 2172014807 204M M 2 21 2014 8 07 28 0 M 2 21 2014 8 07 34 0 M 2721 2014 8 07 43 AM 1 01 ft s E 5 5 M 2 21 2014 80536 0 T 1 26 ft s 2 83 ft s 0 87 ft s 5 2 2 2014 8 08 32 8 M 2 21 2014 8 08 40 7 M 3 21 2014 8 06 30 AM Laser on Laser off Advanced Select All Figure 4 17 Selection of velocity measurement points 4 18 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 5 1 Maintenance The following tables are recommended maintenance checks to ensure proper operation As site conditions may vary increase the frequency of inspections as needed Action Recommended Frequency Location Check Ultrasonic level sensor built in or remote for obstructions e g spider webs debris Monthly On site Check Horn for obstructions 6 0 spider webs debris Check 350 Area Velocity senso
18. A 9 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts A 4 Temporary Mounting Hardware TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts REPLACEMENT PARTS LIST SHEET 2 OF 2 TELEDYNE ISCO PART NUMBER DESCRIPTION 209016710 E 3 4NPI X 24 304 SSI 20901671 CAP 3 4NPT 304 SST 231013910 EX SCREW 1 4 20X3 4 231113921 EX SCREW 1 4 20K1 25 232914000 LOCK NUT 6 32 NYLON INSERT SST 233112800 SPRING LOCK WASHER 1 4 SSI 604363058 THREADED STANDOFF 6 32 236411214 SPRING ROLL PIN 3 16 X 7 8 SST 604363031 CARRIER CLAMP 4363032 COUPLING TUBE TOP CLAMP 4363033 COUPLING TUBE BOTTOM CLAMP 4368007 RIGHT ALIGNMENT TAB 1368008 EFT ALIGNME AB 1368010 HORIZONTAL CARRIER UTUBE 1368013 COUPLER WELDED ASSEMB 1368014 STUD SPACER PLATE 1368015 KNUCKLE WELDED ASSEMB 36 0 ALIGNMENT TAB WITH STANDOFF 36 ALIGNMENT TAB WITH STANDOFF 65 CO gt 569 Ty 45 gt lt MD MD DO NOTE For current prices and quotations on parts contact
19. Isco Service Department 2 This list is subject to change without notice TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts A 5 Replacement Sensors TIENet 360 LaserFlow Sensor with Built in Ultrasonic LaserFlow Sensor 7 Call Factory LaserFlow Sensor 23m Cable 7 Call Factory LaserFlow Sensor 10m Cable w TIENet Plug 350 Surcharge Kit ccccccssseeceeeseees Call Factory LaserFlow Sensor 23m Cable w TIENet Plug 350 Surcharge Kit cccccssseceeeeesees Call Factory LaserFlow Sensor 10m Unterminated Call Factory LaserFlow Sensor 28m Unterminated Cable 0 Call Factory LaserFlow Sensor 10m Unterminated Cable 350 Surcharge Kit cccssccccsssseeeeeeeseees Call Factory LaserFlow Sensor 23m Unterminated Cable 350 Surcharge Kit Call Factory Includes TIENet 310 Ultrasonic Level Sensor LaserFlow Sensor with Remote 310 Ultrasonic 10m Cable w TIENet 1 Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 23m Cable w TIENet 1 Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 10m Cable w TIENet Plug 350 Surcharge Kit Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 23m Cable w TIENet Plug 350 Surcharge Kit Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 10m Unterminated 0281016 Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 23m Unterminated 0281016
20. LaserFlow Module 4 2 Measurement Display The Measurements tab in the Site window lists the data types and Settings being measured by the 2160 module and displays real time mea surements Site 2100 Series Site Jump to measurement tab gt gt 00 326 PM Connected Site Info Devices Measurements Data 360 Level Alarms Wireless Power Control ADFM Modbus Modem TIENet m Modules 2105 Interface Module 172 16 254 1 2160 LaserFlow Module Module Name 2160 LaserFlow Module Flow Rate 234 845 gpm Total Flow 421966 gal Input Voltage 12 291 volts 360 Distance 0 191 m 360 Level 0 400 m 360 Velocity 0 665 ft s 360 X Axis 0 525 Deg 360 Y Axis 44 894 Deg 360 Ultrasonic Signal 97 255 360 Doppler Power 75426 0 Gen Apply F9 Disconnect F2 Retrieve Data F8 DEFAULT Graph F3 Figure 4 3 Measurements tab Displays real time measurements 2 Help 4 3 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module To select and configure any parameter for your connected devices click the Jump to measurement tab button at the top of the Site window and hover over the 2160 LaserFlow Module If your system includes the optional submerged func tionality for redundant measurement additional parameters may appear for the connected TIENet 350 Area Velocity sensor Explanations for the listed measurements are provided in Figure 4 4
21. a free flowing outfall or in a drop manhole B 5 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist LaserFlow with Remote Ultrasonic Sensor When using the LaserFlow module with the remote ultrasonic sensor the LaserF low sensor can be installed in a free flowing outfall or in a drop manhole Horizontal Mounting Bracket LaserFlow Distance to Bottom Figure B 2 Correct setup when using the LaserFlow module with remote ultrasonic sensor and horizontal mount bracket Stream Level The stream level should be the same at both the laser and ultrasonic measuring points Less than 3 Correct placement with built in sensor Correct placement with built in sensor Ensure Adaptive Focus option is active Figure B 3 Placement of LaserFlow with built in sensor B 6 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist M Note If the stream level is less than 3 7 62 cm when using the LaserFlow with built in sensor ensure the Adaptive Focus option is active Refer to Section X X for details More than 3 Figure B 4 Placement of LaserFlow with remote ultrasonic sensor WM Note If the laser and ultrasonic measuring points differ at the stream level by more than 3 7 62 cm the remote ultrasonic sensor must be used Refer to Section X X for details B 7 TIENet 360 LaserF
22. are activated and deactivated with the arrow and Enter keys To save the measurement settings high light Update and press Enter As the LaserFlow begins to take readings the grid becomes pop ulated with a velocity reading and time stamp for each active measurement point points where a valid reading could not be obtained will display the word invalid Prior to operation the LaserFlow sensor must be set up for mea surement using the 360 Velocity grid Refer to Section 3 4 Configure Options 1 Site Setup 5 Data Storage Push Setup 2 Measurement Setup 6 Sampler Setup 3 Adjust 7 Outputs Alarms Setup 4 Equation Trigger Setup 8 Reset Totalizers 9 Reports History Setup Adjust 1 Level 2 Velocity Adjust Velocity 1 360 Velocity 360 Velocity Measurements are displayed in JOM 1 7 17 12 3 30 44 PM 3 31 01 PM Figure 3 9 360 Velocity grid 3 12 3 4 Sensor Positioning and Adjustment 3 4 1 Centering the LaserFlow Sensor Laser On 3 4 2 Laser Velocity Measurement Point Selection TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter Proper positioning of the LaserFlow sensor is critical for optimal velocity measurement In center position the laser beam must strike the flow stream precisely in the center The beam automatically moves to the top center position Select Laser On and press Enter This will keep the laser beam on continuo
23. ft Distance between bottom of sensor amp channel bottom m or ft Direction sensor is facing O Upstream O Downstream 12 13 14 Site IP Address Call In Window Start Stop Server Push Address B 3 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist 15 Software Revisions Flowlink Help gt About Flowlink LaserF low TIENet Configure 2160 Device Tab Signature Menu gt Admin gt Display Signature Information 16 Data Storage Rate B 4 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist B 4 Recommended The following basic parameters are used in almost every mea Essential Parameters surement site In the 2160 parameters are activated in the Jump to Measure ments tab In the Signature parameters are activated by going to Hardware Setup gt Configure Measurements 360 Distance 360 Level 360 Velocity 360 X Axis 360 Y Axis 360 Ultrasonic Signal 360 Doppler Power 360 Case Temperature 360 Air Temperature Flow Rate After programming Retrieve Data to download initial diagnostic data to verify that this data will be available if when needed B 5 Site Conditions LaserFlow with Built in Sensor When using the LaserFlow module with the built in sensor never install the LaserFlow in a free flowing outfall or in a drop manhole see Figure B 1 Figure B 1 Do not install LaserFlow with built in sensor in
24. place shown with the optional sensor retrieval arm described in Section 2 8 2 26 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 14 Using the bubble level on top of the sensor as a guide adjust the carrier by loosening the appropriate bolts in the sensor carrier clamp such that the bubble in the level falls within the concentric rings 15 Turn the laser on to make final adjustments so that the laser beam hits the flow stream at the exact center of the pipe refer to Section 3 4 for Signature or Section 4 3 for 2160 16 Following final adjustments ensure that all mounting bracket fasteners are tightened 2 7 2 Offset Carrier from For installations where the temporary mount assembly alone Cargo Bar cannot suspend the sensor directly over the center of the flow an optional elbow pipe is available to create an offset of 6 from the cargo arm Simply install it between the 24 pipe and the knuckle as shown below Figure 2 31 Temporary Mount Optional elbow pipe for offset 2 27 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 8 Optional Sensor Retrieval Arm Following initial installation and adjustment the sensor can be installed or removed as needed without manhole entry in most situations using the optional retrieval arm to grasp the handle See Figure 2 33 The sensor retrieval arm can extend to a maximum of 23 ft When usin
25. the top of the sensor and then enter the Slope Percentage in the field See Figure 4 12 By default this option is disabled Figure 4 11 LaserFlow placement using Parallel to Channel Slope option 4 12 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Figure 4 12 LaserFlow placement using Slope Percentage option Optical Clarity Sense voltage detects fog on the window of the Optical Clarity LaserF low sensor When the sense voltage is greater than 100 Active mV the defogger is activated The defogger is enabled from 1 to 5 Passive minutes depending on the severity of the fog H Optical Clarity K Note In locations with severe fogging potential Teledyne Isco rec ommends increasing battery capacity or monitoring the site more frequently To enable Optical Clarity click Active To disable Optical Clarity click Passive The default is Active 4 13 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module 4 2 4 350 Level Optional If your system includes the optional surcharge sensor it is also capable of measuring level with a pressure differential trans ducer To set an initial or new level enter the value in the Adjust level field After you click Apply the level you entered will appear in the Measurement field
26. threshold Alarm setup and activation are explained in the Signature user manual under Outputs Alarms Setup TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter Bottom of LaserFlow Initial 350 Level Figure 3 7 Submerged functionality Initial 350 Level setting 3 2 5 350 Velocity Optional If your system includes the optional submerged functionality or redundant measurement it is also capable of measuring velocity with a continuous wave Doppler sensor The Measure positive velocity only setting causes any negative readings to be discarded in the average velocity calculation If this is set to false both positive and negative readings are used 3 9 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter 3 10 3 2 6 350 Advanced Settings Optional The LaserFlow Advanced Settings are pre programmed into the sensor However if your application requires any custom con figuration the Advanced button opens the Advanced settings window refer to Figure 3 5 Input Velocity Coefficients The relationship of the three Input Velocity Coefficients A B and C can be expressed as V A offset B Measured Velocity C Measured Velocity Coefficient A is an additive offset value to correct the Measured Velocity for any additive bias The value for A must be expressed in units of meters second The default is 0 Coeffic
27. 0 27 PM 3 30 44 PM 3 31 01 PM 7 17 12 3 31 52PM 7 17 12 3 33 35 PM Figure 3 10 Selection of velocity measurement points 3 4 3 Ultrasonic Level Adjustment Level 0 00 Difference from bottom silt leve 3 14 Once the LaserFlow sensor is installed over the flow stream measure the present liquid level from the bottom of the channel if there is a difference between the bottom of the channel and zero level save this value for reference in flow calculation and enter this value for Level under Adjust options Then highlight Adjust and press Enter to confirm From this screen you can also update the display to show the current level of the stream M Note Level adjustment of a newly installed and activated sensor should be performed only after the sensor is allowed to stabi lize under site conditions allow approximately one hour per 10 F difference between storage and operating environments TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter Configure Options 1 Site Setup 5 Data Storage Push Setup 2 Measurement Setup 6 Sampler Setup 3 Adjust 7 Outputs Alarms Setup 4 Equation Trigger Setup 8 Reset Totalizers 9 Reports History Setup Adjust 1 Level 2 Velocity Adjust Level 1 360 Level 2 350 Level 360 Level LEVEL ADJUSTMENT Reset adjust Display current Last reading X XXX ft Update real time level Time of last
28. 000 Re home Count 100 default 100 Peak Detect Adaptive Focus Positive Downstream Maximum Distance Maximum Velocity 0 ft s Enable Slope Setting O Parallel to Channel Slope O Slope Percentage Figure 3 5 Measurement setup Advanced settings for LaserFlow sensor 3 7 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter 3 2 4 Adjust 350 Level Optional If your system includes the optional surcharge sensor it is also capable of measuring level with a pressure differential trans ducer The Level Adjustment screen is accessed via the Shortcuts menu on the Signature From this screen you can also update the display to show the current level of the stream Press SHORTCUTS EN and select Adjust Level 350 Level LEVEL ADJUSTMENT Last reading X XXX ft Update Time of last adjustment MM DD YYYY TT TT TT Figure 3 6 350 Level adjustment screen 3 8 To set an initial or new level enter the value in the field next to Level and select Adjust To update the current reading select Update Following installation measure the distance between the bottom of the channel and the bottom of the LaserFlow to obtain the initial value for 350 Level Figure 3 7 It is recommended that the variable data storage rate function be used to trigger 350 velocity and level measurement based on a Level
29. 2 Hide in Measurements Level last adjusted 2 19 2014 9 52 26 AM Adjust level Blanking Distance Min distance 0 00 m Max distance 350 m DEFAULT Graph F3 W Apply F9 x Cancel Help Figure 4 5 360 Level Measurement tab in Flowlink 4 5 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Bottom 5 The Minimum Blanking Distance is the distance from the bottom of the sensor to the liquid surface at the highest expected level Depending on the elevation of the sensor this value may be increased to help ensure that echoes read by the flow meter come only from the surface of the flow stream and not off the walls or sides of the channel The Maximum Blanking Distance is the distance between the bottom of the sensor and the bottom of the channel i e zero level A larger value than calculated can be entered If using the LaserFlow module with the 310 remote ultrasonic sensor and horizontal sensor mounting bracket the maximum blanking distance is the distance between the bottom of the mounting bracket and the bottom of the channel A Minimum Blanking y L 5 F Maximum Expected Level Maximum Blanking Figure 4 6 Blanking distance for LaserFlow with built in 4 6 sensor or 310 remote ultrasonic sensor TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module 4 2 2 360 Velocity The 360 V
30. 2160 LaserFlow Module For 2160 setup instructions refer to Section 4 For complete information about the Signature Flow Meter refer to the Signature Flow Meter user manual 3 1 Configuring the To configure the Signature flow meter for operation with the System LaserF low sensor press the Menu button B to access the top menu and then select Hardware Setup For all TIENet devices including the LaserFlow sensor select Smart Sensor Setup TIENet 3 1 1 Updating the Device When the LaserFlow sensor has been physically added to the List system select Perform Scan so that the flow meter detects it When the scan is complete the LaserFlow sensor model number 360 appears in the list of connected devices ready to be con figured with the steps shown in Figure 3 2 From the Hardware Setup menu Configure Measurements refers to defining and selecting the parameters for each con nected device The LaserFlow sensor parameters are 360 Distance Distance between the bottom of the 360 Level Level of the flow stream surface sensor and the surface of the flow stream refer to Section 3 2 2 360 Velocity Average velocity of the flow stream 360 Case Temperature Internal temperature of the LaserFlow sensor housing 360 Laser Temperature Temperature of the 360 X Axis Tilt about the x axis roll laser assembly 360 Y Axis Tilt about the y axis pitch 360 Laser Diode Current Curre
31. 3 22 32 in Cable Lengths 10 or 23m 32 8 or 75 5 ft The maximum recommended distance between the Laser Flow and the Signature flow meter is 45 7 meters 150 feet The maximum recommended distance between the LaserFlow and the 2160 LaserFlow module is 23 meters 75 5 feet Weight LaserFlow w built in sensor 10 m cable 8 7 kg 19 2 Ibs Sensor w o built in sensor 10 m cable 8 25 kg 18 2 Ibs LaserFlow w built in sensor 350 AV Sensor 9 kg 20 Ibs Materials Conductive Carbon Filled ABS Plastic SST Conductive Kynar Anodized Aluminum UV Rated PVC Enclosure self certified IP68 Submerged 2 m depth for 72 hrs Certifications CE EN61326 FDA CDRH 21CFR1040 IEC 60825 1 Laser Class Class 3R Laser Wavelength 655 nm Laser Exit Angle 45 3 Power from connected flow meter module Input voltage range 8 to 26VDC 12VDC Nominal Electrical Connections Signature Flow Meter Screw Terminal 2160 LaserFlow Module TIENet Plug Temperature Range Operating 20 to 60 C 4 to 140 F Storage 40 to 60 C 40 to 140 F Flow Accuracy 4 of Reading Typical under normal flow conditions Velocity Measurement Technology Non Contact Subsurface Laser Doppler Velocity U S patent 8 339 584 and patents pending Measurement Range 4 6 to 4 6 m sec 15 to 15 ft sec Number of velocity readings per measurement 1 to 15 selectable measurement points Maximum distance liquid surface to bottom of sensor 3m 10 ft Minimum depth for velocit
32. 3 Temp Mount Install coupler replace stationary 1006 2 22 2 24 Temp Mount Securing the coupler 0 0 2 23 2 25 Temp Mount Install sensor carrier knuckle onto 24 pipe 2 23 2 26 Installing the sensor carrier 00 cece eee eee eens 2 24 2 27 Temp Mount Place the sensor on the carrier 000 nnen 2 25 2 28 Turn the locking handle clockwise until sensor is locked into place shown with sen sor retrieval arm described in Section 2 8 0 0 cece ee eens 2 25 2 29 Temp Mount Optional elbow pipe for offset 00 2 26 2 30 Optional Sensor Retrieval Arm 0 cece cece eee eee 2 27 9 1 Character grid CER Eo ee a ARE Oa ee BRS Sede 3 2 3 2 Menu Tree LaserFlow Configuration 00 3 3 3 3 Measurement Setup Sensor input settings TIENet 360 LaserFlow Velocity Sensor Table of Contents optional 350 AV Sensor also shown 0 00 cece eee e cence eens 3 4 3 4 LaserFlow Ultrasonic Level Determine blanking distances 3 5 3 5 Measurement setup Advanced settings for LaserFlow sensor 3 7 3 6 350 Level adjustment screen 0 0 ect teen eens 3 7 3 7 Submerged functionality Initial 350 Level 0 5 5060 3 8 3 8 Measurement setup Advanced settings for 350 AV sensor 0005 3 9 3 9 560 Velocity orid lt 0 eee ee ee 3 10 3 10 Laser velocity adjustment and positioning
33. 64 6691 Performance Packaging A Fax 505 861 2355 ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Packaged Desiccant NOTE TO PHYSICIAN This product is a desiccant and generates heat as it adsorbs water The used product can contain material of hazardous nature Identify that material and treat accordingly SECTION VI REACTIVITY DATA Reactivity Silica gel is stable under normal temperatures and pressures in sealed containers Moisture can cause a rise in temperature which may result in a burn SECTION VII SPILL OR LEAK PROCEDURES Notify safety personnel of spills or leaks Clean up personnel need protection against inhalation of dusts or fumes Eye protection is required Vacuuming and or wet methods of cleanup are preferred Place in appropriate containers for disposal keeping airborne particulates at a minimum SECTION VIII SPECIAL PROTECTION INFORMATION Respiratory Protection Provide a NIOSH MSHA jointly approved respirator in the absence of proper environmental control Contact your safety equipment supplier for proper mask type Ventilation Provide general and or local exhaust ventilation to keep exposures below the TLV Ventilation used must be designed to prevent spots of dust accumulation or recycling of dusts Protective Clothing Wear protective clothing including long sleeves and gloves to prevent repeated or prolonged skin contact Eye Protection Chemical splash go
34. Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 10m Unterminated Cable 350 Surcharge Kit eS NE ES Call Factory LaserF low Sensor with Remote 310 Ultrasonic 23m Unterminated Cable 350 Surcharge Kit Call Factory Excludes TIENet 310 Ultrasonic Level Sensor LaserF low Sensor with Remote 310 Ultrasonic 10m Cable w TIENet Plug doses eave a TiGia Mar ces Call Factory LaserF low Sensor with Remote 310 Ultrasonic 283m Cable w TIENet Plug Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 10m Cable w TIENet Plug 350 Surcharge Kit Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 23m Cable w TIENet Plug 350 Surcharge Kit Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 10m Unterminated 0281016 Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 23m Unterminated 0281016 Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 10m Unterminated Cable 350 Surcharge Kit beens Wine Nets RS Call Factory LaserFlow Sensor with Remote 310 Ultrasonic 23m Unterminated Cable 350 Surcharge Kit Call Factory A 6 Sensor Accessories Laserklow Sunshade nonren a ohh ieee E as we eS aaa EE Eae EEDA TS 60 4364 080 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist B 1 Introduction This special appendix is to assist you in ensuring that you have all equipment supplies and site in
35. E f i L J foe 29 71 SHORT EXTENSION TUBE 75 4 Ja 37 21 LONG EXTENSION TUBE 194 5 1 10 30 126 2 OPTIONAL EXTENSION TUB Figure 2 12 Overall dimensions including wall mounting hardware part 1 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2X 1 00 X 40 W 2X LaserFlow SENSOR SPECIFICATIONS OUNT 11 5 LBS 5 2 K6 C 5 LBS LaserFlow SENSOR 10M 19 2 LBS 8 7 KG LaserFlow SNSR AREA VELOCITY 20 LBS 9 KG gt 0 lo ENCLOSURE MATERIAL HOUSING LaserFlow CONDUCTIVE CARBON FILLED ABS f HOUSING ULTRASONIC ANNODIZED ALUMINUM 6061 LTRASONIC SENSOR Kynar 340 RESIN PVDF GRADE OUNTING HARDWARE STAINLESS STEEL ALL OTHER EXTERIOR METAL PARTS STAINLESS STEEL ELECTRICAL POWER SUPPLY TIE BUS POWERED 8 26 VDC ELECTRICAL CONNECTIONS arn SREW TERMINAL CONNECTION TIENet DEVICE OR TIENet PLUG LASER CLASS CLASS 3R 7 0 Figure 2 13 Overall dimensions including wall mounting hardware part 2 2 12 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation
36. ESPIRABLE LIMIT NONE Silica TLV 5 HAZARD IRRITANT Synthetic amorphous silica is not to be confused with crystalline silica such as quartz cristobalite or tridymite or with diatomaceous earth or other naturally occurring forms of amorphous silica that frequently contain crystalline forms This product is in granular form and packed in bags for use as a desiccant Therefore no exposure to the product is anticipated under normal use of this product Avoid inhaling desiccant dust SECTION Ill PHYSICAL DATA Appearance and Odor White granules odorless Melting Point gt 1600 Deg C gt 2900 Deg F Solubility in Water Insoluble Bulk Density gt 40 Ibs cu ft Percent Volatile by Weight 1750 Deg F lt 10 D 2 TIENet 360 LaserFlow Velocity Sensor 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE ww Phone 505 864 6691 Performance Packaging LS Fax 505 861 2355 ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Packaged Desiccant SECTION IV FIRE EXPLOSION DATA Fire and Explosion Hazard Negligible fire and explosion hazard when exposed to heat or flame by reaction with incompatible substances Flash Point Nonflammable Firefighting Media Dry chemical water spray or foam For larger fires use water spray fog or foam Firefighting Nonflammable solids liquids or gases Cool containers that are exp
37. F low sensor or optional 350 Sensors AV sensor and to activate in Flowlink select the TIENet tab Figure 4 1 then highlight the appropriate LaserFlow module 2160 module and click the Configure button p Be 2100 Series Site bo la Site 2100 Series Site Jump to measurement tab gt gt 0S29AM Connected Site Info Devices Measurements Data Combined Flow Alarms Wireless Power Control ADFM Modbus Modem TIENet Configure Disconnect F2 Retrieve Data F8 DEFAULT Graph F3 2 Help Figure 4 1 Activate connected sensors in Flowlink 4 1 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module A box is displayed listing active and available TIENet Devices Click the Scan button to detect any newly connected LaserF low or 350 Area Velocity sensors Devices will appear in the Available TIENet Devices pane Highlight the appropriate device s and click the Add button to activate Active TIENet devices will appear in the Active TIENet Devices pane Click the OK button Active TIENet Devices 5 5 8 Device Name Firmware Rev 360 Isco LaserFlow Sensor 2 0 30 Remove Available TIENet Devices cs Device Name Firmware Rev Isco Area Velocity Sensor x Cancel Figure 4 2 Activating connected sensors in Flowlink 4 2 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160
38. G BLOCK 4363 LOCKING TAB A363 OUNTING SHAFT 4363 OUNTING HANDLE 4363 CROSS PIN TOP 4363020 CROSS PIN SIDE 3015700 WASHER FLAT 765 0 4363024 ABEL SET LASER WARNING 0 co 5 6 on 4 Ww 4363 ABEL LaserFlow SENSOR 4363 TG 05 Ma DM ABEL TELEDYNE ISCO LOGO NOTE For current prices and quotations on parts contact Teledyne Isco Service Department 2 This list is subject to change without notice A 5 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts REPLACEMENT PARTS LIST SHEET 6 OF 6 TELEDYNE ISCO REV B PART NUMBER DESCRIPTION 202100669 O RING 6691D 2 079 CROSS SECTION 231310140 SCREW SELF TAPPING 4X3 8 602003076 PLUG FEMALE PROBE NOTE For current prices and quotations on parts contact Teledyne Isco Service Department 2 This list is subject to change without notice A 7 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts on a2 SS E S g zT m gt J 99
39. Hazard Severity Levels to the safety alerts These three levels are described in the sample alerts below CAUTION Cautions identify a potential hazard which if not avoided may result in minor or moderate injury This category can also warn you of unsafe practices or conditions that may cause property damage WARNING Warnings identify a potentially hazardous condition which if not avoided could result in death or serious injury DANGER DANGER limited to the most extreme situations to identify an imminent hazard which if not avoided will result in death or serious injury Hazard Symbols Warnings and Cautions gt gt TIENet 360 LaserFlow Velocity Sensor Safety The equipment and this manual use symbols used to warn of hazards The symbols are explained below Hazard Symbols The exclamation point within the triangle is a warning sign alerting you of important instructions in the instrument s technical reference manual The lightning flash and arrowhead within the triangle is a warning sign alert ing you of dangerous voltage inside the product Symboles de s curit Ce symbole signale l existence d instructions importantes relatives au produit dans ce manuel A AN Ce symbole signale la pr sence d un danger d lectocution Warnungen und Vorsichtshinweise Das Ausrufezeichen in Dreieck ist ein Warnzeichen das Sie darauf aufmerksam macht daB wichtige Anleitun
40. Kimwipe tissue as previously described and spray the closed end of it with Rain X Spray this end with Rain X Figure 5 3 Cleaning the laser window Moisten Kimwipe tissue w Rain X 7 Apply the Rain X to the entire window surface using down ward strokes only After allowing 30 minutes for the Rain X treatment to dry wipe the window with another dry Kimwipe tissue as described in step 4 Carefully examine the window as previously described and continue polishing the surface with fresh dry tissues until no streaks or film are visible Reassemble the sensor following the steps provided in Section 5 4 2 Replacing the Nose Piece 5 6 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 5 7 Installing the Optional The submerged functionality consists of a TIENet 350 Area Submerged Velocity sensor mounted on the bottom of the LaserFlow sensor Measurement Kit This option is normally pre assembled and installed at the factory before shipment However it can also be installed by the user in existing systems Tools Required To install the submerged measurement kit you will need e Integrated 350 Kit from Teledyne Isco TIENet 350 AV Sensor with 28 cable Sensor mounting plate 2 Flathead screws 2 Lock nuts 2 Flat washers e 1 4 Nut driver or open wrench 5 7 1 Installation Procedure You must access the LaserFlow s interior to install this option Instructions for opening and reassemb
41. LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 6 1 Wall Mount Refer to the dimensions and requirements in Figure 2 17 while Installation performing the following steps Stud anchors for concrete are provided in the mounting kit It is recommended to drill a hole 2 5 08 cm deep leaving 1 2 54 cm of the stud exposed 1 Bolt or anchor the bottom angle bracket to the wall 2 Slide the mounting shaft into the bottom angle bracket and bolt or anchor the mounting shaft to the wall Mounting Shaft Tube 3 Insert either the long or Coupler short tube coupler into the hole formed by the vertical clamp Adjust the clamps to the desired height and cross tighten the four bolts evenly until the clamp and tube coupler are firmly attached Vertical Clamp Bottom Angle Bracket Figure 2 19 Wall Mount Vertical clamp and vertical clamp with tube coupler inserted 2 18 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 4 Push the sensor carrier Alignment clamp onto the tube coupler Tabs until the coupler appears on the other side of the clamp Align the carrier with both arms parallel to the flow sur face and cross tighten the bolts so the carrier is held firmly in position Ensure the alignment tabs are fac ing up see Figure 2 20 Sensor Carrier Clamp Note that some realignment will be necessary following installation of the LaserFlow
42. RF Immunity A1 2007 A2 2010 EN61000 4 4 2004 Electrical Fast Transient EFT on A1 2010 Mains and I O Level 2 1kV on AC lines EN61000 4 5 2005 Surge on AC Lines Level 2 1kV Line Common Mode A Level 2 0 5kV Differential Mode EN61000 4 6 2008 Conducted RF Immunity on Mains and 150 kHz to 80 mHz A VO Level 1 1V rms 80 Modulated EN61000 4 11 2004 Voltage Dips 0 during1 cycle and full cycle A 70 at 25 cycles CISPR11 RF Emissions Radiated below 1GHz Group 1 Class A Industrial Scientific and PASS EN 55011 2009 and Conducted AC Mains Medical Equipment A1 1020 EN61000 3 2 2005 AC Harmonics Flicker A1 2008 A2 2009 EN61000 3 3 2008 PASS We the undersigned hereby declare that the design of the equipment specified above conforms to the above Directive s and Standards as of September 21 2012 USA Representative Bb Rae Vikas V Padhye Ph D Vice President and General Manager 4700 Superior Street Lincoln Nebraska 68504 Phone 402 464 0231 Fax 402 464 0318 TELEDYNE ISCO Everywhereyoulook 60 4362 017 Rev A mt ERS SWART ANAMRES Name and amount of Hazardous Substances or Elements in the product ABARSYARLA RE Rp Hazardous Substances or Elements Component Name tR ta KIER BRRR SROKA Pb Hg Cd Cr VD PBB PBDE ye BEAR X O O O O X Circuit Boards zE 5 0 0 0 0 0 X Wiring
43. Rate Input Setup and Volume Input Setup Configure Options 5 Data Storage Push Setup 1 Site Setup 2 Measurement Setup 6 Sampler Setup 3 Adjust 7 Outputs Alarms Setup 4 Equation Trigger Setup 8 Reset Totalizers 9 Reports History Setup Measurement Setup 1 Level Input Setup 2 Velocity Input Setup 3 Flow Rate Input Setup 4 Volume Input Setup Velocity Input Setup 1 360 Velocity 2 350 Velocity Level Input Setup 1 360 Level Distance from bottom of sensor to maximum expected liquid level 360 Level LEVEL Blanking Distance Minimum Blanking Distance Maximum Distance from bottom of sensor to bottom of channel Figure 3 3 Measurement Setup Sensor input settings optional 350 AV Sensor also shown 3 4 360 Velocity VELOCITY O Measure positive velocity only O Set flow rate to zero if no velocity data 350 Velocity VELOCITY O Measure positive velocity only O Set flow rate to zero if no velocity data Press the Next button twice 3 2 1 360 Level TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter The Minimum Blanking Distance is the distance from the bottom of the sensor to the liquid surface at the highest expected level Depending on the elevation of your sensor this value may be increased to help ensure that echoes read by the flow meter come only from the surface of the flow stream an
44. Sensor Installation Considerations 00sec cee eee eens 2 2 2 2 1 Ultrasonic Beam Angle 0 ccc teen eens 2 2 22 2 High Water Levels s soit soe wath cha bodice acti Sa ees aoe a eas 2 2 2 2 3 Submersion and Fouling 0202 eens 2 2 2 2 4 ba Hee eb eed wet ees 2 2 22 5 Oura ce aer 0c nth ge eh ee Ae ed Oe Lins WEG Galea eyes Bat ge ele ge saae 2 3 2 2 6 Temperature os ccs ie cae ear eden ed Se aes E es 2 3 22h WNAV OS toi eaten eta Ws Dei wten ttle ol pct eaten be ated todas 2 3 22 8 Wind E E e E E E S 2 3 2 3 Installation Checklist occai Seeria rme ketea e a e a EN E een E 2 3 2 4 Connecting the Cable cres erso rooe hia eee a aG 2 3 2 4 1 Cable Connection Signature Flow Meter 0 0 00 c eee ees 2 3 2 4 2 Remote Ultrasonic Cable Connection 310 Ultrasonic Sensor 0 cece eens 2 8 2 4 3 Cable Connection 2160 LaserFlow Module 6 000000 2 9 2 5 Sensor Installation Tools and Requirements 0 2 10 2 5 1 Tools Required 5 s 28 siece Nae dg SERRES 2 10 2 5 2 Sensor and Mounting Equipment Dimensions 2 10 2 5 3 Sensor Positioning and Requirements 002 2 15 2 6 Wall Mounting Kit 20 0 0 tence ene nes 2 17 2 6 1 Wall Mount Installation 2 18 2 7 Temporary Mounting Kit 2 22 2 7 1 Temporary Mounting Installation 0002225 2 23 2 7 2 Offset Carrier from Cargo 2 27 2 8 Optional Sensor R
45. Signature 3 12 3 11 Selection of velocity measurement points 22022222 3 13 3 12 Ultrasonic level adjustment 0 0 00 teens 3 14 4 1 Activating connected sensors in Flowlink 0 4 2 4 2 Measurements Tab Displays all real time measurements 4 3 4 8 Drop down list of measurements for 2160 Module 000000 4 4 4 4 360 Level Measurement tab in Flowlink 22002220 4 5 4 5 360 Level Setting blanking distances 0 0 cece cece eens 4 6 4 6 360 Velocity Measurement tab in Flowlink 0000002225 4 7 4 7 360 Velocity Tab Advanced settings 000000202 4 8 4 8 350 Level Measurement tab in Flowlink 0 cece eee ee eee 4 9 4 9 Submerged functionality Initial 350 Level 0 800 nu 4 10 4 10 350 Velocity Measurement tab in Flowlink 0 0 00 cee ees 4 11 4 11 350 Velocity tab Advanced settings for optional TIENet 350 AV sensor 4 12 4 12 Laser velocity adjustment and positioning 2 160 sea 4 13 4 13 Selection of velocity measurement points 202020 4 13 5 1 Remove dome plugs Bolts located underneath 000 cee ee eee 5 2 5 2 Remove large screws and nose piece 3 on each 8166 000 cee 5 2 5 3 Location and orientation of cross pins for mounting block installation 5 3 5 4 Cleaning the laser window Moisten Kimwipe tissue w Rain X 5 5 5 5 Gas tubing Remove connector fitting 000 5 7 5 6 Unscrew cap from gas inlet 0 0
46. TIENet 360 LaserFlow Velocity Sensor Installation and Operation Guide TIENet aserHow Remote Sensing Everywhereyoulook 4 TELEDYNE ISCO Part 69 4363 043 Copyright 2012 All rights reserved Teledyne Isco Revision D February 201 Foreword This instruction manual is designed to help you gain a thorough understanding of the operation of the equipment Teledyne Isco recommends that you read this manual completely before placing the equipment in service Although Teledyne Isco designs reliability into all equipment there is always the possibility of a malfunction This manual may help in diagnosing and repairing the malfunction If a problem persists call or e mail Teledyne Isco technical support for assistance Simple difficul ties can often be diagnosed over the phone For faster service please have your serial number ready If it is necessary to return the equipment to the factory for service please follow the shipping instructions provided by technical support including the use of the Return Merchandise Authori zation RMA specified Be sure to include a note describing the malfunction This will aid in the prompt repair and return of the equipment Teledyne Isco welcomes suggestions that would improve the information presented in this manual or enhance the operation of the equipment itself Teledyne Isco is continually improving its products and reserves the right to change product specifi
47. The default is 0 Spectral Averages The value for Spectral Averages may be used to reduce noise and improve signal strength The default is 5000 If persistent low signal strength or velocity dropouts are indicated enter a high value such as 10000 If signal quality and measurement improve try entering a lower value such as 7500 observing the signal quality The lower the value for Spectral Average the less time required for each complete measurement reducing power usage Adjust the value to determine a number that balances power usage with satisfactory signal quality and readings Re home Count For testing purposes only For more infor mation contact Environmental Products Support Focus Learning Algorithm The Peak Detect function scans across the user defined row to locate the peak velocity To enable Peak Detect functionality select the Peak Detect check box Adaptive Focus enables the LaserFlow module to scan above and below the standard focus point then adjust the focus to the point with the best signal strength To enable Adaptive Focus function ality select the Adaptive Focus check box 4 9 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Remote Distance Measurement US Distance to Bottom 1 in LaserFlow Distance to Bottom 1 in T Horizontal Mount E Remote Distance Measurement Remote Distance Measurement The Remote D
48. Ultrasonic Sensor cap Figure 2 8 Preparing the LaserFlow connector receptacle 2 Remove the stainless steel cap from the 310 ultrasonic plug and push the protective caps from the LaserFlow module and ultrasonic together 3 Aligning the pins on the 310 ultrasonic plug with those in the connector receptacle push the ultrasonic plug into the receptacle until the spring release clicks Figure 2 9 Secure caps and connect 310 ultrasonic plug to LaserFlow To be certain that the connectors are locked lightly pull on the cable connector the cable should be held in place by the spring release clip 2 8 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 4 3 Cable Connection 1 Prepare the 2160 receptacle by removing the cap press 2160 LaserFlow down on the spring clip and pull out the cap Module Figure 2 10 Preparing the 2160 connector receptacle 2 Remove the cap from the LaserFlow TIENet plug and push the protective caps on the module and sensor together 3 Aligning the pins on the LaserFlow cable with those in the connector receptacle push the sensor connector into the receptacle until the spring release clicks Figure 2 11 Secure caps and connect LaserFlow to 2160 4 To be certain that the connectors are locked lightly pull on the cable connector the cable should be held in place by the spring release clip 2 9 TIENet 360 LaserFlow Velocity Sensor Section
49. adjustment MM DD YYYY TT TT TT Figure 3 11 Ultrasonic level adjustment 3 5 Contact Teledyne Isco If you have further questions about the installation operation and maintenance of your TIENet device please contact Environ mental Product Support at Teledyne Isco 4700 Superior St Lincoln NE 68504 Phone 866 298 6174 or 402 464 0231 Fax 402 465 3022 E mail IscoService teledyne com 3 15 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter 3 16 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module The LaserFlow sensor is compatible with both the Teledyne Isco 2160 LaserFlow Module and the Teledyne Isco Signature Flow Meter For Signature setup instructions refer to Section 3 The 2160 module is programmed and set up using Teledyne Isco Flowlink software This section of the manual describes acti vation of connected sensors and basic LaserF low and optional TIENet 350 level and velocity measurement setup This section of the manual assumes the 2160 site is already con figured in Flowlink and the 2160 module is connected to Flowlink Detailed Flowlink instructions are available in the Flowlink Windows Help and also in the Flowlink software user manual For complete information about the 2160 LaserFlow Module refer to the 2160 LaserFlow Module Installation and Operation Guide 4 1 Activating Connected To add an available connected Laser
50. an be purchased by contacting Teledyne Isco s Customer Service Department Teledyne Isco Customer Service Dept P O Box 82531 Lincoln NE 68501 USA Phone 800 228 4373 402 464 0231 FAX 402 465 3022 E mail IscoInfo teledyne com TIE Net Expansion BOX 20 ATRN EAEE ANRE EEE Ek 60 4307 023 Cord grip fitting 3 4 NPT for TIENet cable c cccecscscsssesescsesessssececsescscscsesvsvscscsesnsssececaees 209 0073 12 Integrated 350 AV Kit for surcharge functionality cccccccccsceessssececeecseeeeeeesseaeeeesesssaaees 60 4354 017 Signature Flow Meter Exterior desiccator required 60 4354 019 Silica gel desiccant 1 5 Ib 9 099 0011 03 M Note Guidelines for Area Velocity reference line support and net working with the expansion box can be downloaded in the Teledyne Isco application note Signature Flow Meter Expan sion Box available on the company website Contact the fac tory for more information LaserFlow Instruction Mantaal cccccessccessscecesesesescecceaeeeseaaeceeaeceseaaeccseeeeseaaeeeeeeeeeesaeeeeaes 69 4363 043 Signature Flow Meter Instruction Manual ccccccccccesssssceccesssseceecessseeeecesseseaeeeseeseeaaeeess 69 4303 070 Signature Bubbler Flow Meter Instruction Manual 69 4333 004 Permanent Wall Mounting Hardware Kit cccccccccccsssecessssececeeseseeecessseeeeeeeessesaeeeesesesaeess 60 4364 003 Refer to Section 2 6 1 Wall Mou
51. ance is equal Adjust the sensor TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter carrier as necessary By default this option is enabled when the Enable Slope Setting box is selected See Figure 4 11 in Section 4 Slope Percentage If the slope of the pipe is known mount the sensor level with the Earth using the bubble level mounted on the top of the sensor and then enter the Slope Percentage in the field By default this option is disabled when the Enable Slope Setting box is selected See Figure 4 12 in Section 4 Optical Clarity Sense voltage detects fog on the window of the LaserFlow sensor When the sense voltage is greater than 100 mV the defogger is activated The defogger is enabled from 1 to 5 minutes depending on the severity of the fog M Note In locations with severe fogging potential Teledyne Isco rec ommends increasing battery capacity or monitoring the site more frequently To enable Optical Clarity select Active To disable Optical Clarity select Passive The default is Active Warning Any changes to the following data can adversely affect the performance of this Instrument Select BACK to cancel or NEXT to continue A B v C v Input Velocity Coefficients A default 0 m s B default 0 9 0 9 C default 0 0 s m Spectral Averages 5000 default 5
52. and the liquid surface which is then translated into a level reading Because the speed of the pulse through the air varies with temperature compensation is built in A temperature sensor inside the TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction LaserFlow measures ambient temperature The microprocessor program automatically compensates for speed of sound changes caused by air temperature changes The LaserFlow operates with no deadband from the mea surement point for both level and velocity measurement 1 4 Optional Submerged During submerged conditions flow measurement continues Functionality without interruption with the optional TIENet 350 AV sensor which combines continuous wave Doppler to measure area velocity with a differential pressure transducer to measure level The 350 AV sensor is factory installed on the bottom of the LaserF low sensor and is also available as a kit for installation in an existing system Refer to Section 5 7 for kit installation instructions Area Velocity CWD C Level Q pressure transducer Figure 1 2 Optional submerged functionality 1 3 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction 1 5 Technical Table 1 1 provides technical specifications for the LaserFlow Specifications Table 1 1 LaserFlow Sensor Specifications Size H x W x D 38 01 26 21 56 7 cm 14 96 10
53. aserFlow Module 4 2 5 350 Velocity Optional If your system includes the optional submerged functionality or redundant measurement it is also capable of measuring velocity with a continuous wave Doppler sensor In the case of the submerged functionality measure the distance between the bottom of the channel and the face of the pressure transducer bottom of the LaserFlow to obtain the initial value for 350 Level Fe 2100 Series Site AA Site 2100 Series Site Jump to measurement tab gt gt 01520 00008066 Site Info Devices Measurements Data 350 Velocity Alarms Wireless Power Control ADFM Modbus Modem TIENet Set up the measurement 00000 Set Up Data Storage Module name 2160 LaserFlow Module Diagnostics Measurement name 350 Velocity Measurement 1 146 z Hide in Measurements Positive Velocity Positive velocity true lt i Zero Flow on Velocity Set flow rate to zero if no velocity data DEFAULT Graph F3 W Amba 26 Cancel 2 Figure 4 15 350 Velocity Measurement tab in Flowlink 4 16 The Positive Velocity setting when set to true the LaserFlow will not attempt to determine flow direction and negative readings are discarded in the average velocity calculation Selecting this setting will save power This setting is set to true by default The 350 Advanced Settings are pre programmed into the sensor However if your application
54. asurements box The settings for level and velocity input are defined on their respective tabs in Flowlink To save any changes made to the set tings click the Apply button TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module 4 2 1 360 Level The Measurement field displays the most recent level reading Ultrasonic Level Once the LaserFlow sensor is installed over the flow stream Adjustment measure the present liquid level from the bottom of the channel ae if there is a difference between the bottom of the channel and zero level save this value for reference in flow calculation Enter this value in the Adjust level field After the Apply button is clicked the level you entered will appear in the Measurement field Level A Note 24 Level adjustment of a newly installed and activated sensor Difference from bottom should be performed only after the sensor is allowed to stabi sift level lize under site conditions allow approximately one hour per 10 F difference between storage and operating environments 2100 Series Site Colea Site 2100 Series Site Jump to measurement tab gt gt 0 1043AM Connected Site Info Devices Measurements Data 360 Level Alarms Wireless Power Control ADFM Modbus Modem TIENet Set up the measurement Set Up Data Storage Module name 2160 LaserFlow Module Diagnostics Measurement name 360 Level Measurement 0 47
55. ationary end of the cargo bar Mobile Release Pump Stationary End Button Handle End o a ee c Figure 2 24 Temporary Mount Remove stationary foot 2 Slide the coupler onto the bar tightening the two coupler bolts see Figure 2 26 enough to prevent it from sliding around during the rest of the installation 3 Reinsert the foot in the stationary end of the cargo bar Figure 2 25 Temporary Mount Install coupler replace stationary foot 4 In the manhole or vault position the cargo bar for installa tion Place the mobile end against the wall and extend the stationary end as far as possible 5 Pump the handle fully up and down approximately 10 times until the hydraulic tension presses the stationary foot firmly against the opposite wall M Note To release the hydraulic pressure press the red rubber button next to the pump handle 2 23 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 6 Position the coupler over the center of the flow stream and tighten the coupler bolts on the back and bottom Tighten coupler bolts 2 Figure 2 26 Temp Mount Securing the coupler 7 Remove the end caps from the 24 pipe and slide one end through the knuckle on the sensor carrier 8 Reinstall the cap on the bottom end Turn the assembly top side up and slide the knuckle down to rest on the bot tom cap gt Figure 2 27 Temporary Mount In
56. can be expressed as V A offset B Measured Velocity C Measured Velocity 3 5 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter 3 6 Coefficient A is an additive offset value to correct the Measured Velocity for any additive bias The value for A must be expressed in units of meters second The default is 0 Coefficient B is a multiplicative scalar for correcting the Mea sured Velocity for any linear multiplicative bias The value for B is unitless The default is 0 9 Coefficient C is another scalar to correct the Measured Velocity for any nonlinear bias The value for C must be expressed in units of seconds meter so that the resulting value for the Reported Velocity Reading will be in units of meters second The default is 0 Spectral Averages The value for Spectral Averages may be used to reduce noise and improve signal strength The default is 5000 If persistent low signal strength or velocity dropouts are indicated enter a high value such as 10000 If signal quality and measurement improve try entering a lower value such as 7500 observing the signal quality The lower the value for Spectral Average the less time required for each complete measurement reducing power usage Adjust the value to determine a number that balances power usage with satisfactory signal quality and readings Re home Count For testing purposes only For more infor matio
57. cations replacement parts schematics and instructions without notice Contact Information Customer Service Phone 800 228 4373 USA Canada Mexico 402 464 0231 Outside North America Fax 402 465 3022 Email IscoCSR teledyne com Technical Support Phone Toll Free 866 298 6174 Samplers Flow Meters and Multi parameter Probes Toll Free 800 775 2965 Syringe Pumps and Liquid Chromatography Email IscoService teledyne com Return equipment to 4700 Superior Street Lincoln NE 68504 1398 Other Correspondence Mail to P O Box 82531 Lincoln NE 68501 2531 Email IscoInfo teledyne com Revised April 2014 TIENet 360 LaserFlow Velocity Sensor Safety General Warnings WARNING Caution Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure Wavelength 655 nm Maximum Power 5 mW Before installing operating or maintaining this equipment it is imperative that all hazards and preventive measures are fully understood While specific hazards may vary according to location and application take heed of the following general warnings WARNING Avoid hazardous practices If you use this instrument in any way not specified in this manual the protection provided by the instrument may be impaired lt TIENet 360 LaserFlow Velocity Sensor Safety vi Hazard Severity Levels This manual applies
58. city 1 ftis Steep Slope LaserFlow Focusing G Enable Slope Setting Parallel to Channel Slope C Slope Percentage Optical Clarity H Active Passive OK Cancel Figure 4 8 360 Velocity Tab Advanced settings Input Velocity Coefficients The relationship of the three Velocity Coefficients a Input Velocity Coefficients A B and C can be expressed as V A offset B Measured Velocity C Measured Velocity Input velocity Coefficients 2 fo Coefficient A is an additive offset value to correct the Measured OF Velocity for any additive bias The value for A must be expressed in units of meters second The default is 0 1 Cc Coefficient B is a multiplicative scalar for correcting the Mea A Input Velocity Coefficients sured Velocity for any linear multiplicative bias The value for B is unitless The default is 0 9 4 8 Spectral Averages 0 B Spectral Averages Re home Count 100 C Re home Count Focus Learning Algorithm Peak Detect Adaptive Focus D Focus Learning Algorithm TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Coefficient C is another scalar to correct the Measured Velocity for any nonlinear bias The value for C must be expressed in units of seconds meter so that the resulting value for the Reported Velocity Reading will be in units of meters second
59. codes are provided in Table C 1 Date Time 360 Velocity m s Edited 360 Velocity m s 10 4 2012 1 45 00 PM 10 4 2012 2 00 00 PM 0 601 0 601 10 4 2012 2 15 00 PM 2 251 2 251 10 4 2012 2 30 00 PM 2 154 2 154 10 4 2012 2 45 00 PM No Data 1 2 154 10 4 2012 3 00 00 PM 1 897 1 897 10 4 2012 3 15 00 PM No Data 1 0 694 10 4 2012 3 30 00 PM 5 195 5 195 10 9 2012 10 00 00 AM No Data 7 0 000 39 9 2012 7 45 Data 7 0 000 Error codes Figure C 3 Identifying error codes in the 360 Velocity data set Table 6 1 Definitions of 360 Error Codes Error Code Meaning Possible Solutions 1 Low Signal Power Error No laser Doppler signal peak or Ensure the protective window cap is removed Refer to sufficient strength is found Mini Section 1 7 1 Protective Window Cap mum is 1000 Ensure the location of the laser is correct Verify the distance is 0 to 10 ft from the bottom of the sensor Ensure the input voltage is 10V minimum Ensure the Y axis pitch is accurate greater or equal to 45 2 Flow Direction Error An error occurred while determin Call factory ing flow direction This error dis plays only if the Positive Velocity option is set to true in the Flow link application C 3 TIENet 360 LaserFlow Velocity Sensor Appendix C Velocity Error Codes Error Code 3 Ultrasonic Read Error Table 6 1 Definitions of 360 Error Codes Meaning An error occurr
60. ctions 0 0 c eee eee tenes 2 5 2 5 Attach wired terminal strip to case board socket 0 2 6 2 6 Insert the cable reference tubing into the case board reference port 2 6 2 7 Position and secure the 68216 220 2 7 2 8 Preparing the 2160 connector receptacle 2 eee eee eee eee ees 2 8 2 9 Secure caps and connect LaserFlow to 2160 0 2 8 2 10 Overall dimensions including wall mount hardware part 1 2 10 2 11 Overall dimensions including wall mount hardware part 2 2 11 2 12 Overall dimensions including temp mount hardware part 1 2 12 2 13 Overall dimensions including temp mount hardware part 2 2 13 2 14 Sensor installation constants 0 cece ccc eee eens 2 14 2 15 Typical manhole installation seasan sannara aaraa 2 15 2 16 Wall mounting kit Numbers correspond with Table 2 1 2 16 2 17 Wall Mount Vertical clamp and vertical clamp with coupler inserted 2 17 2 18 Wall Mount Sensor carrier installed on tube coupler 000 2 18 2 19 Wall Mount Place the sensor on the carrier 0 0 e eee eee eee 2 19 2 20 Turn the locking handle clockwise until sensor is locked into place shown with sen sor retrieval arm described in Section 2 8 5 2 20 2 21 Temporary mounting kit Numbers correspond with Table 2 2 2 21 2 22 Temp Mount Remove stationary foot 2022 2 22 2 2
61. d not off the walls or sides of the channel The Maximum Blanking Distance is the distance between the bottom of the sensor and the bottom of the channel i e zero level A larger value than calculated can be entered If using the LaserFlow module with the 310 remote ultrasonic sensor and horizontal sensor mounting bracket the maximum blanking distance is the distance between the bottom of the mounting bracket and the bottom of the channel A Minimum Blanking Maximum Expected Level Maximum Blanking Bottom of Channel y Figure 3 4 Blanking distance for LaserFlow with built in sensor or with remote ultrasonic sensor 3 2 2 360 Velocity 3 2 3 LaserFlow Velocity Advanced Settings When the Measure Positive Velocity only option is selected the LaserFlow will not attempt to determine flow direction and negative readings are discarded in the average velocity calcu lation Selecting this setting will save power By default this options is selected When the Positive Velocity option is deselected a second velocity measurement is taken to determine the direction of the flow The LaserFlow Advanced Settings are pre programmed into the sensor However if your application requires any custom con figuration the Advanced button opens the Advanced settings window refer to Figure 3 5 Input Velocity Coefficients The relationship of the three Input Velocity Coefficients A B and C
62. da Sea 4 7 4 2 3 Advanced Settings 000022022 eens 4 8 4 2 4 350 Level Optional 4 14 4 2 5 350 Velocity Optional 4 16 4 3 Sensor Positioning and Adjustment 4 17 4 3 1 Centering the LaserFlow Sensor 000 cece eee eens 4 17 4 3 2 Laser Velocity Measurement Point Selection 005 4 18 Section 5 Maintenance and Optional Kits eel lod ta Sah eek Sas 5 1 Maintenance 1 5 2 With Signature Flow Meter 0 0 ccc cece cence nee 5 2 5 2 1 With 2160 LaserFlow Module 0 0c cece eee eee eens 5 2 5 2 2 5 2 0202 8 1081 Cleaning the Sensor 5 3 Accessing the LaserFlow s Nose Piece 22022 lt 5 2 5 4 Removing the Nose Piece 0 ccc eects 5 3 5 4 1 Replacing the Nose Piece 0 0 ce ccc ee eee eens 5 4 5 4 2 Velocity Readings and the Laser Window 0 00 e cece cence eee 5 5 5 5 Cleaning the Laser Window 0 cece eee eee ens 5 5 5 6 Installing the Optional Submerged Measurement Kit 000 5 7 5 7 Installation Procedure 0 cece eee eee 5 7 5 7 1 Installing the Remote TIENet 310 Ultrasonic Level Sensor 5 10 5 8 Appendix A Replacement Parts A 1 Replacement Parts Diagrams and Listings 0 A 1 A 2 LaserFlow Sensor 0 cc cece eee A 2 A 3 Wall Mounting Hardware 0 ccc ete A 8 A 4 Temporary Mounting Ha
63. e concentric rings 8 Turn the laser on to make final adjustments so that the laser beam hits the flow stream at the exact center of the pipe refer to Section 3 4 for Signature or Section 4 3 for 2160 M Note Additional assistance in adjusting the sensor s position may be obtained by activating and observing the 360 X Axis roll and 360 Y Axis pitch parameters 9 Following final adjustments ensure that all mounting bracket fasteners are tightened 2 21 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 7 Temporary Mounting For temporary applications refer to the components listed in Kit Figure 2 23 and Table 2 2 and perform the steps that follow Parts can be ordered separately or as a kit Order numbers for parts and fasteners are provided in Appendix A Figure 2 23 Temporary mounting kit Numbers correspond with Table 2 2 Table 2 2 Temporary Mounting Kit Item Callout Description 1 Cargo Bar Coupler Assembly 2 3 Sensor Carrier 24 Pipe Cap 2 Knuckle Assembly 2 22 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 7 1 Temporary Mounting The temporary mounting kit is rated for up to 45 lbs 20 5 kg Installation When installing the sensor with the temporary mounting kit ensure that the sensor carrier is positioned for easy installation and removal of the sensor 1 Slide the foot out of the st
64. ed during an ultra sonic reading This includes com munication errors with the ultrasonic sensor Possible Solutions Ensure the blanking distance is correct Refer to Sec tion 3 2 Measurement Setup Ensure the placement of the sensor is accurate Refer to Section 2 5 3 Sensor Positioning and Require ments Verify there is no foam or extreme turbulence 4 Analog to Digital Con verter ADC Error An error occurred during an ADC reading Contact factory 5 Focus Error An error occurred while focusing the laser Ensure the input voltage is 10V minimum 6 Digital Signal Proces sor DSP Communication Error An error occurred during commu nication with the DSP Contact factory 7 Sensor not seen Error Code 1 Measurement Error Communication failed between flow meter and sensor This could be due to the sensor being dis connected losing power etc Ensure the sensor is connected to the flow meter Ensure the input voltage is 10V minimum Verify the battery is connected or charged Table C 2 Definitions 01 350 Error Codes Meaning Unable to generate valid velocity data set Possible Solutions Contact factory 3 Velocity Filter Error An error occurred while setting the filter clock Ensure there are uniform flow conditions at sensor location 5 Velocity Gain Error Unable to set gain after maximum attempts Ensure there is no debris on
65. el or both If the laser velocimeter or ultrasonic transducer cannot obtain a valid reading at any measurement point an asterisk will appear next to the displayed reading indicating there is an error The ultrasonic level transducer has a 10 beam angle 5 from center line forming a cone in which the apex is the transducer The transducer can only detect surfaces within this cone Figure 2 1 Ultrasonic level sensor beam angle 2 2 2 2 2 High Water Levels 2 2 3 Submersion and Fouling 2 2 4 Humidity The ultrasonic beam narrows as elevation decreases which can increase difficulty in detecting the return echo Narrow channels can result in false echoes and incorrect level readings from the walls and sides of the channel The beam widens as elevation increases If the beam is too wide the sensor may pick up signals from unwanted surfaces such as the walls of the channel In most open channel installations where the level may exceed one half of the full pipe mount the sensor as near as possible to the midpoint between the entrance and exit to measure over the least turbulent flow Fouling by grease or solids can cause the LaserFlow sensor to malfunction The LaserF low is sealed so unless it is exposed to corrosive substances submersion will not harm it Upon retrieval ensure that the surfaces of the laser window and ultra sonic sensor are clean Cleaning instructions are provided in Section 5 C
66. elocity measurement tab has a grid containing 15 pos sible measurement points The measurement points are acti vated and deactivated by selecting or deselecting the appropriate check box To save the measurement settings click the Apply button F9 As the LaserFlow begins to take readings the grid becomes pop ulated with a velocity reading and time stamp for each active measurement point points where a valid reading could not be obtained will display the word invalid Prior to operation the LaserFlow sensor must be set up for mea surement using the 360 Velocity grid Refer to Section 4 3 Sensor Positioning and Adjustment When the Positive Velocity option is true the LaserFlow will not attempt to determine flow direction and negative readings are discarded in the average velocity calculation Selecting this setting will save power The default is true When the Positive Velocity option is false a second velocity measurement is taken to determine the direction of the flow Ge 2100 Series Site Site 2100 Series Site Jump to measurement tab gt gt 0 TIA9AM Connected Site Info Devices Measurements Data 360 Velocity Alarms Wireless Power Control ADFM Modbus Modem TIENet Setup the measurement 0000008 Set Up Data Storage Module name 2160 LaserFlow Module Diagnostics Measurement name 360 Velocity Measurement 1 322 Hide in Measurements Multipoint
67. es are provided in Table C 1 For further assistance contact the factory Flow data can be downloaded from the Signature Flow Meter onto a USB flash drive in the form of a ddp Data Dump file To download the data 1 Connect a flash drive to the USB port on the front panel of the Signature flow meter From the USB Options menu select Retrieve Data 2 Select All data or specify a start date or date range and press NEXT The data will be stored on the connected flash drive in the ISCO folder 3 Connect the flash drive to a computer with Flowlink installed 4 Launch the Flowlink application 5 Copy the file using one of the methods below a Select File gt Import When the import window appears browse to the folder containing the desired ddp file Select the file and click Open b Select Signature Data Transfer from the File menu and then browse to the appropriate folder C 1 TIENet 360 LaserFlow Velocity Sensor Appendix C Velocity Error Codes Item Actions Database View ES fey New Open 0 Look in DDP xy gt amp e 5 2 Sn My Recent Quick Connect F11 Documents RTD Transfer D1037 ddp Signature Data Transfer 3 D1042 ddp Desktop D1111 ddp Export R i 01311 ddp 2 E D1342 ddp Print Ctri P Print Preview My Documents E D1400 ddp Print Setup D1430 ddp D1519 ddp Exit Alt F4 My Computer
68. es to the flow stream surface are more subject to distortion in strong winds Prior to installing the system ensure that you have all supplies and site information readily available To assist you in this preparation this manual includes the Installation Checklist page B 1 Teledyne Isco recommends that you print this appendix and fill in the relevant information The LaserFlow cable will have one of two different connector types Unterminated for the Signature Flow Meter Section 2 4 1 and TIENet plug for the 2160 LaserFlow Module Section 2 4 3 Distance can be increased by installing the TIENet Expansion Box closer to the installed sensor and adding a custom length TIENet cable between the box and the Signature flow meter The maximum recommended distance between the LaserF low and the Signature flow meter is 45 7 meters 150 feet The maximum recommended distance between the LaserFlow and the 2160 LaserFlow module is 23 meters 75 5 feet External TIENet devices such as the LaserF low sensor are con nected to the Signature flow meter in the same manner usually using conduit or cord grip cable fittings Multiple external TIENet devices can be connected simultaneously Refer to the Signature flow meter manual for instructions on accessing the instrument s interior components 2 3 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation WARNING Before proceeding ensure that the flo
69. etrieval Arm 2 28 2 9 Optional ees se ee ee ew ee aw lS 2 30 2 10 Remote TIENet Model 310 Ultrasonic Level 680 2 31 vii TIENet 360 LaserFlow Velocity Sensor Table of Contents Section 3 Setup with Signature Flow Meter viii 3 1 Configuring the System 0 0 een eens 3 1 3 1 1 Updating the Device 118 0 0 eee 3 1 3 2 Measurement Setup orein rs pe nsa A Ep EEE R 3 4 3 2 1 360 Level psicose py eed eta Sew 3 5 3 2 2 360 Velocity 5 t s te goats a Aare lest end pac gals thm a a 3 5 3 2 3 LaserFlow Velocity Advanced Settings 2 3 5 3 2 4 Adjust 350 Level Optional 3 8 3 2 5 350 Velocity Optional 1 0 0 0 kee 3 9 3 2 6 350 Advanced Settings Optional 0 3 10 3 3 360 Velocity Grid is sc 0ce ee esd IR eh Rie ie ER 3 12 3 4 Sensor Positioning and Adjustment 0 0 cc ccc teens 3 13 3 4 1 Centering the LaserFlow Sensor 0 00 cece eee eens 3 13 3 4 2 Laser Velocity Measurement Point 5616002 3 13 3 4 3 Ultrasonic Level Adjustment 3 14 3 5 Contact Teledyne Isco 20222 nee enas 3 15 Section 4 Setup with 2160 LaserFlow Module 4 1 Activating Connected Sensors 0000s 4 1 4 2 Measurement Display and Settings nennu saanee eneren 4 3 4 2 1360 Level ecru eh hE ee PE E E E BE Se ES 4 5 4 2 2 360 Velocity eed ee ee cee e
70. formation readily available prior to going to site for installation Print these pages and fill out all relevant information Once you have established that all of the items listed here are on hand take this printout to the site to assist in installation and setup B 1 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist B 2 Equipment and Recommended Tools B 3 Site Information B 2 O Laptop computer O LaserFlow Sensor O 2160 Module or Signature Flow Meter O Flowlink 5 1 Software and Communication Cable O Power source O Tape Measure O Level O Wall Mount Kit if mounting on wall O 716 Open or Socket Wrench O 16 Open or Socket Wrench O Hammer Drill O 8 Masonry Bit O Hammer O Temporary Mount Kit if application is temporary O 716 Open or Socket Wrench O Optional Sensor Retrieval Tool 1 Site Name 2 Meter O 2160 Module Serial Number O Signature Flow Meter Serial Number LaserFlow Sensor Serial Number 3 Meter Location 4 Channel Shape O Round O U Shaped O Rectangular O Trapezoidal O Elliptical 5 10 11 Number of Velocity Points TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist Channel Dimensions Expected Level m or ft Minimum Maximum Average Expected Velocity m s or ft s Minimum Maximum Average Distance between bottom of sensor amp Maximum Level m or
71. g temporary mounting hardware with the sensor retrieval arm Teledyne Isco recommends mounting the LaserFlow module at a 45 angle to lessen the effective rotational torque applied to the mounting feet of the cargo bar See Figure 2 32 DANGER Explosion hazard The retrieval arm is not intrinsically safe Do not use in hazardous locations DANGER Electrocution hazard Maintain a minimum of 10 feet from power lines Figure 2 32 Suggested placement of Laserflow sensor when using temporary mounting hardware and the 2 28 sensor retrieval bar TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation Figure 2 33 Optional Sensor Retrieval Arm 2 29 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 9 Optional Sunshade The sunshade is an optional accessory for use when the Laserflow sensor is installed in an outdoor location in direct sun light The purpose of the sunshade is to prevent sunlight from striking the case of the sensor directly and heating it to a higher temperature than that of the surrounding air This heating caused by the absorption of sunlight should be avoided as it introduces an error factor into the flow meter s level calculations 1 Loosen the four tee knobs two on each side of the sun shade and slide the two adjustable mounting blocks to the rear of the slots on each side of the sunshade 2 Position
72. gen zu diesem Handbuch geh ren gt gt Advertencias y Precauciones Der gepfeilte Blitz im Dreieck ist ein Warnzeichen das Sei vor gefahrlichen Spannungen im Inneren des Produkts warnt Esta se al le advierte sobre la importancia de las instrucciones del manual que acompa an a este producto gt gt Esta se al alerta sobre la presencia de alto voltaje en el interior del producto vii TIENet 360 LaserFlow Velocity Sensor Safety viii TIENet 360 LaserFlow Velocity Sensor Table of Contents Section 1 Introduction 1 1 1 2 1 3 1 4 1 5 1 6 1 7 Description i ogee acd kA Bed O OE 1 1 2 1 2 1 2 1 Measurement Technology 2020022222 eens 1 2 1 272 Calolim ate ccs ic te ek etd Sada AE Fea de Halas aww ae 1 2 Operation 0 cei Shan eae gee 1 2 Optional Submerged Functionality 0 0 00 1 3 Technical Specifications 2220020222 e nn eee 1 4 ACCESSOTICS in s ai raea pae a ae ae AE a hod Sea GOR aM Que RH gee cass 1 6 1 6 1 Ordering Information 0 0 cece eee eens 1 6 Unpacking Instructions 20000222 tenet nee e nee 1 8 1 7 1 Protective Window Cap 0 0 ccc cette eens 1 8 Section 2 Preparation and Installation 1 Safety esi ese nh sass eh dos RON wate belie Ge eed Note had Ga ee 2 1 2 11 Site Conditions hes Ss ee Le ee 2 1 2 2
73. ggles designed in compliance with OSHA regulations are recommended Consult your safety equipment supplier TIENet 360 LaserFlow Velocity Sensor 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE Phone 505 864 6691 Performance Packaging iy Fax 505 861 2355 ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Packaged Desiccant SECTION IX SPECIAL PRECAUTIONS Avoid breathing dust and prolonged contact with skin Silica gel dust causes eye irritation and breathing dust may be harmful No Information Available HMIS Hazardous Materials Identification System for this product is as follows Health Hazard 0 Flammability 0 Reactivity 0 Personal Protection HMIS assigns choice of personal protective equipment to the customer as the raw material supplier is unfamiliar with the condition of use The information contained herein is based upon data considered true and accurate However United Desiccants makes no warranties expressed or implied as to the accuracy or adequacy of the information contained herein or the results to be obtained from the use thereof This information is offered solely for the user s consideration investigation and verification Since the use and conditions of use of this information and the material described herein are not within the control of United Desiccants United Desiccants assumes no responsibility for injury to the user or
74. ient B is a multiplicative scalar for correcting the Mea sured Velocity for any linear multiplicative bias The value for B is unitless The default is 0 9 Coefficient C is another scalar to correct the Measured Velocity for any nonlinear bias The value for C must be expressed in units of seconds meter so that the resulting value for the Reported Velocity Reading will be in units of meters second The default is 0 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter The sensor is pre programmed at the factory with the Advanced Settings for your application Should your application require the addition of any correction factors the Advanced button opens the Advanced settings window Figure 3 8 Input velocity coefficients can be adjusted for A B and C where V A offset BV slope CV second order parameter Warning Any changes to the following data can adversely affect the performance of this Instrument Select BACK to cancel or NEXT to continue A B v C v Input Velocity Coefficients Figure 3 8 Measurement setup Advanced settings for 350 AV sensor TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter 3 3 360 Velocity Grid The 360 Velocity screen has a grid containing 15 possible mea surement points Use the Shortcuts gt Adjust function to navigate to this screen refer to Figure 3 9 The measurement points
75. ifically stated No item may be returned for warranty service without a return authorization number issued by Teledyne Isco This warranty is expressly in lieu of all other warranties and obligations and Teledyne Isco specifically disclaims any warranty of merchantability or fitness for a particular purpose The warrantor is Teledyne Isco 4700 Superior Lincoln NE 68504 U S A This warranty applies to the USA and countries where Teledyne Isco does not have an authorized dealer Customers in countries outside the USA where Teledyne Isco has an authorized dealer should contact their Teledyne Isco dealer for warranty service Before returning any instrument for repair please call fax or e mail the Teledyne Isco Service Department for instructions Many problems can often be diagnosed and corrected over the phone or by e mail without returning the instrument to the factory Instruments needing factory repair should be packed carefully and shipped to the attention of the service department Small non fragile items can be sent by insured parcel post PLEASE BE SURE TO ENCLOSE A NOTE EXPLAINING THE PROBLEM Shipping Address Teledyne Isco Attention Repair Service 4700 Superior Street Lincoln NE 68504 USA Mailing Address Teledyne Isco PO Box 82531 Lincoln NE 68501 USA 800 775 2965 lab instruments 866 298 6174 samplers amp flow meters Sales amp General Information 800 228 4373 USA amp Canada
76. istance Mea surement options are active only when the LaserFlow module is connected to the TIENet 310 remote ultrasonic sensor The US Distance to Bottom is the distance e g inches from the 310 remote ultrasonic sensor to the bottom of the channel See Figure 4 9 Units of measurement are based on user settings M Note When using the horizontal sensor mount bracket the US Dis tance to Bottom is measured from the bottom of the horizontal sensor mount bracket to the bottom of the channel See Figure Figure 4 10 The LaserFlow Distance to Bottom is the distance e g inches from the bottom of the LaserFlow sensor the bottom of the channel Units of measurement are based on user settings Select the Horizontal Mount check box if using the optional horizontal sensor mount bracket See Figure 4 10 LaserFlow Distance to Bottom Figure 4 9 Remote distance measurement with the 310 remote ultrasonic sensor 4 10 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Horizontal Mounting Bracket LaserFlow Distance to Bottom Figure 4 10 Remote distance measurement with the 310 remote ultrasonic sensor and horizontal sensor mount bracket TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module LaserFlow Directional Velocity Focus Downstream Maximum Distance 48 in Maximum Velocity 1 ftis F LaserFlo
77. lable on request For more information visit www FreeRTOS org 1 7 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction 1 7 Unpacking Instructions 1 7 1 Protective Window Cap When the system arrives inspect the outside packing for any damage Then carefully inspect the contents for damage If there is damage contact the delivery company and Teledyne Isco or its agent immediately WARNING If there is any evidence that any items may have been damaged in shipping do not attempt to install the unit Please contact Teledyne Isco or its agent for assistance When you unpack the system check the items against the packing list If any parts are missing contact the delivery company and Teledyne Isco s Customer Service Department When you report missing part s please indicate them by part number In addition to the main packing list there may be other packing lists for various sub components It is recommended that you retain the shipping cartons as they can be used to ship the unit in the event that it is necessary to transport the system Please complete the registration card and return it to Teledyne Isco Leave the protective window cap in place until the sensor is ready to be installed Before installation remove the cap The sensor will not be able to measure velocity with the cap in place Retain the cap for use during cleaning storage or shipment to protect the laser window from damage
78. ling the LaserFlow are provided in Section 5 4 Accessing the LaserFlow s Nose Piece WARNING Disconnect power from the LaserFlow sensor before opening the sensor housing CAUTION NEVER touch the window or get it dirty Figure 5 4 350 AV sensor with mounting plate 5 7 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 1 Using the flat washers and lock nuts attach the mounting plate to the rectangular mounting holes in the bottom of the LaserF low interior with the tip of the 350 sensor fac ing front Figure 5 5 Mounting the integrated 350 AV sensor on the LaserFlow 5 8 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 2 Prepare the LaserFlow recepta cle by removing the cap press down on the spring release and pull out the cap 3 Remove the cap from the 350 TIENet plug and push the pro tective caps of the two sensors together 4 Aligning the pins on the Laser Flow cable with those in the connector receptacle push the 350 connector into the recepta cle on the inner wall of the LaserF low until the spring release clicks Figure 5 6 Connecting the 350 AV sensor to the LaserFlow 5 9 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 5 Route the 350 sensor cable through the slot in the bottom of the nose piece Route the LaserF low cable through its slot in the top of the nose
79. low Velocity Sensor Appendix B Installation Checklist B 6 Sensor Positioning B 8 Foam or Steam Never install the LaserFlow over foam or steam For complete installation requirements refer to Sensor Posi tioning page B 8 Straight Runs For best performance place the sensor in the straightest possible run at a minimum of 5 channel diameters downstream from a bend and 2 channel diameters upstream from a bend TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist Center of Pipe Center the LaserFlow and middle laser beam relative to the pipe walls NO YES Parallel w Flow Install the LaserFlow parallel with the flow Never install it at an angle or perpendicular to the flow B 9 TIENet 360 LaserFlow Velocity Sensor Appendix B Installation Checklist 2 O g Incorrect Incorrect 8 J Correct TIENet 360 LaserFlow Velocity Sensor Appendix C Velocity Error Codes C 1 Introduction C 2 Importing Data Dump ddp Files Signature Only Erroneous flow data can result from a number of factors The LaserFlow system provides numbered error codes associated with the 360 Velocity data to assist in troubleshooting If using the 2160 LaserFlow module error codes are viewable using Teledyne Isco Flowlink software If using the Signature flow meter error codes are viewable in the bottom panel of the display Definitions of the error cod
80. meter The maximum recommended distance between the LaserF low and the Signature flow meter is 45 7 meters 150 feet The maximum recommended distance between the LaserFlow and the 2160 LaserFlow module is 22 9 meters 75 feet The laser velocimeter uses a laser beam to generate a source frequency light which is focused at points below the surface of the flow stream The light is scattered back to the laser The returned light is frequency shifted due to the Doppler effect and the motion of the flow The lens that focused the laser light below the surface of the flow stream now focuses the returned light back into the laser The source light and shifted light frequencies are mixed to determine a Doppler shift which is then used to cal culate flow stream velocity The LaserFlow is able to move the laser beam transverse to the flow in order to obtain readings at multiple points in the flow with automatic compensation to maintain precise focus at all times The ultrasonic level transducer emits multiple ultrasonic pulses per second Between pulses the transducer switches from transmitter to receiver When the transducer receives the echo from the water s surface the sound energy is converted into an electrical signal The signal is then amplified and processed by the flow meter into an echo received signal The time between the transmitted pulse and the echo received signal is propor tional to the distance between the transducer
81. n contact Environmental Products Support Peak Detect The Peak Detect function scans across the user defined row to locate the peak velocity To enable Peak Detect functionality select the Peak Detect box Adaptive Focus Adaptive Focus enables the LaserFlow module to scan above and below the standard focus point then adjust the focus to the point with the best signal strength To enable Adaptive Focus functionality select the Adaptive Focus box Positive Downstream Select the Positive Downstream box when the LaserF low sensor is pointed downstream Maximum Distance The Maximum Distance 18 the greatest distance e g inches the LaserF low sensor will take a direc tional velocity reading The default is 48 Units of mea surement are based on user settings Maximum Velocity The Maximum Velocity is the greatest velocity e g ft s the LaserFlow sensor will take a directional velocity reading The default is 1 Units of measurement are based on user settings Steep Slope LaserFlow Focusing If the pipe is on a slope greater than 1 select the Enable Slope Setting box By default this option is disabled Parallel to Channel Slope If the sensor is parallel to the channel slope select Parallel to Channel Slope Measure from the front of the sensor carrier to the bottom of the channel Then measure from the back of the sensor carrier to the bottom of the channel Ensure the dist
82. nding braided shield inside the cable jacket It is not neces sary to prevent the two braids from coming into contact with each other Shield YELLOW BROWN SHIELD Braid Drain RED BLACK BRAID DRAIN Figure 2 4 TIENet Device terminal connections 2 5 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation Figure 2 5 Attach wired terminal strip to case board socket 5 Insert the reference tubing into the REF AIR port on the case board pushing it down inside the silicon tubing Take precaution not to bend or kink the reference tubing 6 Gently tug the cable downward to remove any slack within the enclosure taking care not to put any stress on the con nections 2 6 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 7 Tighten the cord grip sealing nut Figure 2 7 Figure 2 7 Position and secure the cable CAUTION If using conduit instead of the cord grip fitting the conduit must be sealed to prevent harmful gases and moisture from entering the Signature enclosure Failure to seal the conduit may reduce equipment life 8 Close the front panel and fasten with the two Phillips screws 2 7 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 4 2 Remote Ultrasonic 1 Prepare the LaserFlow connector receptacle by removing Cable Connection the cap press down on the spring clip and pull out the 310
83. nt Installation for additional information Temp Mount Cargo Bar 48 55 0 87 60 4364 032 Temp Mount gt 3 gt 3 gt gt gt 97 60 4364 034 Temp Mount Cargo Bar 63 84 7 8 60 4364 035 Temp Mount Cargo Bar 83 114 Variable Range ccccccccccecssecceeceeseeeeceseaeeeeceseaeeeeensaaees 60 4364 036 Temp Mount Hardware 0 60 4364 038 Temp Mount Kit 48 55 Variable Range ccccsscccccsssssececsecneeceecsenseeeeceseaeeeecseaseeeeensaaees 62 4364 032 Temp Mount Kit 54 66 7 62 4364 034 Temp Mount Kit 63 84 Variable 7 8 62 4364 035 Temp Mount 62 4364 036 Temp Mount Elbow Pipe for Offset ccccscccesssssseceesseaececcseaseeeecseaseeecseesaesecessesaeeeeeneaaas 60 4368 016 Refer to Section 2 7 1 Temporary Mounting Installation for additional information Horizontal Sensor 60 4368 020 Sensor retrieval arm for sensor retrieval replacement and locking Maximum extension 60 4364 033 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction ProHanger SST Bracket for suspending equipment in manhole Op t0 24 inches sess tees eit gt asks Sh ee ciel telat aoe Met Le a lo 69 2003 599 M Note Teledyne Isco uses FreeRTOS version 5 4 2 in its TIENet devices In accordance with the FreeRTOS license FreeRTOS source code is avai
84. nt draw of the laser diode 360 Ultrasonic Signal Strength of the ultrasonic 360 Temperature Temperature of the window return echo 360 Sense Voltage Measurement of window 360 Air Temperature Temperature of surrounding clarity under 100 mV ambient air 360 Doppler Power Strength of the laser Dop 360 Window Temp Temperature of the window pler signal for velocity 3 1 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter If your system includes the optional submerged functionality for redundant measurement the TIENet 350 Area Velocity sensor is also displayed in the list of connected devices with its own list of parameters The name of any parameter can be customized by highlighting it and pressing the Enter button 5 to display the character grid Navigate the grid using the arrow keys Select characters by pressing the Enter button and clear characters by pressing the Delete button eS 6 Done Cancel A Figure 3 1 Character grid 3 2 360 Distance 360 Velocity 360 Laser Temperature 360 Level 360 Air Temperature 360 Y Axis TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter Menu 1 Hardware Setup 2 Configure Options 3 Administration 4 Home Hardware Setup 1 Smart Sensor Setup TIENet 2 SDI 12 Setup 3 MODBUS Input Se
85. onditions of extremely high or low humidity can cause ultra sonic level detection to occur either earlier or later than normal conditions A drop in water level normally compensated for by the sensor s interval based amplifier may produce errors in echo detection 2 2 5 Surface 2 2 6 Temperature 2 2 7 Waves 2 2 8 Wind 2 3 Installation Checklist 2 4 Connecting the Cable 2 4 1 Cable Connection Signature Flow Meter TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation Solids foam oil and turbulence can all absorb or weaken the ultrasonic and laser signals causing errors in detection Foam or oil on the surface of the stream can also produce false level readings Changes in ambient temperature significantly affect the velocity of sound If ambient temperature changes rapidly there may be a delay before the temperature sensor of the ultrasonic transducer can activate temperature compensation If the sensor will be installed outdoors in direct sunlight use a sunshade to prevent heating of the sensor housing Waves on the surface of the flow stream can deflect the ultrasonic signal causing erroneous readings or total loss of signal The flow meter software rejects occasional readings that deviate sub stantially from normal Strong winds can significantly reduce the strength of the ultra sonic return echo Narrow beams can result in the sound being blown away likewise greater distanc
86. osed to flames with water from the side until well after fire is out For massive fire in enclosed area use unmanned hose holder or monitor nozzles if this is impossible withdraw from area and let fire burn Withdraw immediately in case of rising sound from venting safety device or any discoloration of the tank due to fire SECTION V HEALTH HAZARD DATA Health hazards may arise from inhalation ingestion and or contact with the skin and or eyes Ingestion may result in damage to throat and esophagus and or gastrointestinal disorders Inhalation may cause burning to the upper respiratory tract and or temporary or permanent lung damage Prolonged or repeated contact with the skin in absence of proper hygiene may cause dryness irritation and or dermatitis Contact with eye tissue may result in irritation burns or conjunctivitis First Aid Inhalation Remove to fresh air immediately If breathing has stopped give artificial respiration Keep affected person warm and at rest Get medical attention immediately First Aid Ingestion If large amounts have been ingested give emetics to cause vomiting Stomach siphon may be applied as well Milk and fatty acids should be avoided Get medical attention immediately First Aid Eyes Wash eyes immediately and carefully for 30 minutes with running water D 3 TIENet 360 LaserFlow Velocity Sensor D 4 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE WW Phone 505 8
87. packing instructions 1 8 update device list 3 1 update firmware 5 2 v velocity grid 2160 4 18 Signature 3 12 3 13 velocity readings invalid or inconsistent 5 5 W wall mounting 2 17 dimensions 2 11 2 12 procedure 2 18 window cap 1 8 DECLARATION OF CONFORMITY Application of Council Directive Manufacturer s Name Manufacturer s Address Equipment Type Environment Trade Name Model No Year of Issue Standards to which Conformity is Declared 2004 108 EC The EMC Directive 2012 19 56 The WEEE Directive 2006 95 EC The Low Voltage Directive Teledyne Isco 4700 Superior Lincoln Nebraska 68504 USA Mailing Address P O Box 82531 Lincoln NE 68501 Phone 1 402 464 0231 FAX 1 402 465 3799 Laboratory Equipment for Light Industrial Commercial Environments 360 Laser Flow Sensor with 2160 Laser Flow Area Velocity Module and 2191 Battery Module 2012 EN 61326 2006 EMC Requirements for Electrical Equipment for Measurement Control and Laboratory Use EN 61010 1 2 edition Safety Requirements for Electrical Equipment for Measurement Control and Laboratory Use EN60529 Special Protection offered by the Signature s Enclosure P 66 Standard Description Severity Applied Performance Criteria EN61000 4 2 2008 Electrostatic Discharge Level 2 4kV contact discharge A Level 3 8kV air discharge 80 mHz to 2 7gHz 80 AM at 1 kHz Level 2 3V m EN61000 4 3 2006 Radiated
88. piece Taking care not to pinch or bind the cables bring the two sections of the sensor housing back together Figure 5 7 Reassembling the LaserFlow w AV sensor installed 6 Reassemble the LaserF low housing following the steps provided in Section 5 4 2 Replacing the Nose Piece CAUTION When reinstalling all self tapping screws avoid destroying the plastic threads First seat each screw in its hole and without pressing down rotate the screw counter clockwise until it falls into its thread groove with a click Then tighten the screw 5 8 Installing the Remote Refer to the TIENet 310 Ultrasonic Level Sensor Installation TIENet 310 and Operation Guide for details Ultrasonic Level Sensor 5 10 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts A 1 Replacement Parts Diagrams and Listings Replacement parts are called out in illustrations in this section Reference the call outs in the accompanying tables to determine the part number for the item Replacement parts can be purchased by contacting Teledyne Isco s Customer Service Department Teledyne Isco Customer Service Department P O Box 82531 Lincoln NE 68501 USA Phone 800 228 4373 402 464 0231 FAX 402 465 3022 E mail IscoInfo teledyne com 1 TIENet 360 LaserFlow Velocity Sensor Appendix A Replacement Parts A 2 LaserFlow Sensor 604362011
89. r if applicable for debris Monthly Monthly or following surcharge event On site On site Ensure suitable alignment check x axis roll and y axis pitch Check Doppler Power and assess historical trend Weekly Via Flowlink application or Signature flow meter Via Flowlink application or Signature flow meter Check Ultrasonic Signal and assess historical trend Via Flowlink application or Signature flow meter Table 5 2 Recommended Maintenance Difficult to Access Locations Action Recommended Frequency Location Check Ultrasonic level sensor built in or remote for obstructions e g spider webs debris Every 6 months or following surcharge event On site Check Horn for obstructions 6 0 spider webs debris Every 6 months or following surcharge event Check 350 Area Velocity sensor if applicable for debris Every 6 months or following surcharge event On site Ensure suitable alignment check x axis roll and y axis pitch Weekly Via Flowlink application or Signature flow meter Check Doppler Power and assess historical trend Weekly Via Flowlink application or Signature flow meter Check Ultrasonic Signal and assess historical trend Weekly Via Flowlink application or Signature flow meter 5 1 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 5 2 Firmware Updates 5 2
90. r from the LaserFlow sensor before opening the sensor housing CAUTION Do not attempt to clean the laser window without opening the sensor housing Serious damage can result 1 Remove the folded tissue from its package and use the cor ners to lightly brush any abrasive material from the sur face 1 Sight Savers is a registered trademark of Bausch amp Lomb Inc Kimwipes is a registered trademark of Kimberly Clark Corpo ration 3 Rain X is a registered trademark of Illinois Tool Works Inc N g a TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 2 Unfold the tissue and gently clean the surface with down ward strokes only keeping the tissue between your finger and the glass at all times Examine the window closely under good lighting from all directions to ensure there are no smudges streaks or film on the surface If the window is smudged streaked or still dirty get a fresh pre packaged tissue and repeat Next fold a clean dry Kimwipe tissue four times to rein force its thickness and gently clean the window surface with downward strokes only keeping the tissue between your finger and the glass at all times Examine the window closely under good lighting from all directions to ensure there are no smudges streaks or film on the surface If the window is smudged streaked or still dirty get a fresh pre packaged tissue and repeat Fold a fresh
91. rdware 0 cece cece eens A 10 A 5 Replacement Sensors areire raoin a A 12 A 6 Sensor Accessories 0 cece eee A 12 Appendix B Installation Checklist TIENet 360 LaserFlow Velocity Sensor Table of Contents Bel Introduction oi cia gee ca a eee bee Wa ee wh bd Beas BOE as B 1 B 2 Equipment and Recommended Tools 0 000 c cece e lt B 2 B3 Site ntorMa tion Gus ON else als Bek NG 4 wa Me aes B 2 B 4 Recommended Essential Parameters 0 ccc cece tee eee nee B 5 B 5 Site Conditions Se ei devine eel adobe ae od BS DUN ge ye ee a B 5 B6 Sensor Positioning 2255 cc2 cuts sos e eee aid sede hs Qu oats be ees ee a ae B 8 Appendix C Velocity Error Codes Cole Introduction isis ec PERE A WS EIN dw se a eS C 1 C 2 Importing Data Dump ddp Files Signattre Only 3 6 6 erai sia wae Boe ete Oe aa bee Bed C 1 C 3 Viewing Velocity Error Codes in Flowlink 2 C 3 Appendix D Material Safety Data Sheets List of Figures 1 1 Basic LaserFlow system showing both AC and battery powered options 1 1 1 2 Optional submerged functionality 20002 eens 1 3 1 3 Remove protective window cap before 118 81180 1 7 2 1 Ultrasonic level sensor beam angle 2002022 eens 2 2 2 2 TIENet Device terminal strips 0 0 cece ect eee 2 4 2 3 Installing cable with a cord grip fitting 0 2 4 2 4 TIENet Device terminal conne
92. re Opening the sensor housing e 2 Phillips straight screwdriver less than 4 right angled if available TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 5 4 1 Removing the Nose The screws that attach the nose piece to the body are difficult to Piece access with a straight screwdriver being somewhat obstructed by the mounting block 1 Remove the 6 large Phillips screws on the LaserFlow nose piece and separate the nose from the body Do not remove any other screws Figure 5 1 Remove large screws and nose piece 3 on each side 5 3 TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits 5 4 2 Replacing the Nose 1 Fasten the sensor back together by cross tightening the 6 Piece large Phillips screws in diagonal order until the two sec tions are flush against each other CAUTION When reinstalling all self tapping screws avoid destroying the plastic threads First seat each screw in its hole and without pressing down rotate the screw counter clockwise until it falls into its thread groove with a click Then tighten the screw 2 If applicable reinstall the mounting block ensuring that both flat and split washers are included Side cross pin 1 of 2 Center cross pin Figure 5 2 Location and orientation of cross pins for mounting block installation 5 4 5 5 Velocity Readings and the Laser Window 5 6 Cleaning the Laser Window Items
93. required for cleaning Procedure TIENet 360 LaserFlow Velocity Sensor Section 5 Maintenance and Optional Kits Invalid or inconsistent velocity readings may indicate debris or moisture condensation on the window protecting the laser The laser window is crucial for focusing and should never be touched Smudging or scratches can degrade the performance of the sensor For these reasons cleaning the window is NOT recommended unless absolutely necessary If cleaning must be performed follow the instructions provided in Section 5 6 exactly The laser window is crucial for focusing and should never be touched Smudging or scratches can degrade the performance of the sensor For these reasons cleaning the window is NOT recommended unless absolutely necessary CAUTION Never touch the laser window Never use ordinary cloth or water to clean the surface of the laser window e Pre packaged pre PA moistened single use lint free tissue such as Zeiss Lens Cleaning Wipes or Bausch amp Lomb Sight Savers Pre Moistened Lens Cleaning Tissues e Kimwipes dry tissues e Rain X Original Glass Treatment CAUTION Never moisten the tissue with IPA or other solution after remov ing it from its package You must access the LaserFlow s interior to clean the window Instructions for opening and reassembling the LaserFlow are provided in Section 5 4 Accessing the LaserFlow s Nose Piece WARNING Disconnect powe
94. requires the addition of any correction factors the Advanced button opens the Advanced set tings window refer to Figure 4 16 Input velocity coefficients can be adjusted for A B and C where V A offset B Measured Velocity C Measured Velocity Coefficient A is an additive offset value to correct the Measured Velocity for any additive bias The value for A must be expressed in units of meters second Coefficient B is a multiplicative scalar for correcting the Mea sured Velocity for any linear multiplicative bias The value for B is unitless Coefficient C is another scalar to correct the Measured Velocity for any nonlinear bias The value for C must be expressed in units of seconds meter so that the resulting value for the Reported Velocity Reading will be in units of meters second TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module Advanced Velocity Coefficients xs Confirm Exa Input Velocity Coefficients Warning Any changes to the Following data can adversely A J0 affect the performance of this instrument B 9 oo Do you wish to proceed Cancel Cancel Figure 4 16 350 Velocity tab Advanced settings for optional TIENet 350 AV sensor 4 3 Sensor Positioning To set the initial level values refer to Sections 4 2 1 LaserFlow and Adjustment and 4 2 4 optional 350 4 3 1 Centering the Proper positioning of the LaserFlow sensor is cri
95. sensor ensure that all hard ware is tightened following final alignment End of Tube Coupler Figure 2 20 Wall Mount Sensor carrier installed on tube coupler M Note After initial installation and sensor alignment the remaining steps are often possible to perform from above ground with the optional sensor retrieval arm WARNING If lowering the LaserFlow from above ground ensure that it does not become dislodged while being lowered possibly endangering any personnel who may still be below ground TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 5 Lower the LaserFlow sensor onto the mounting bracket between the front and rear alignment tabs with the two mounting block grooves rest ing on the two carrier arms The sensor can be installed on the carrier facing inward or outward depending on installation requirements Figure 2 21 Wall Mount Place the sensor on the carrier 2 20 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 6 Turn the locking handle clockwise until it locks the sensor in place Figure 2 22 Turn the locking handle clockwise until sensor is locked into place shown with optional sensor retrieval arm described in Section 2 8 7 Using the bubble level on top of the sensor as a guide adjust the carrier by loosening the appropriate bolts in the sensor carrier clamp so that the bubble in the level falls within th
96. ser 2160 4 17 centering the laser Signature 3 13 constants 2 15 position 2 15 requirements 2 15 2 16 temp mount 2 22 wall mounting 2 17 installation checklist B 1 installation considerations 2 2 J jump to measurements 2160 4 4 L laser on 3 13 4 17 laser window cleaning 5 5 Index 1 TIENet 360 LaserFlow Velocity Sensor Index Index 2 condensation 5 5 fouling 5 5 level initial setting 3 9 4 15 lock handle 2 21 2 26 maintenance cleaning 5 2 firmware 5 2 opening the sensor 5 2 Material Safety Data Sheets D 1 measurement parameters 3 1 4 3 measurement points 2160 4 18 Signature 3 13 measurement setup Signature 3 4 MSDS D 1 multipoint 2160 4 18 Signature 3 13 0 opening the sensor 5 2 operating principles 1 2 P parts 1 6 A 1 LaserFlow A 2 replacement parts A 1 LaserFlow A 2 retrieval arm 2 28 5 safety 2 1 scan 2160 4 1 Signature 3 1 sensor activation 2160 4 1 Signature 3 1 sensor retrieval 2 28 setup 2160 Laser Module 4 1 Signature Flow Meter 3 1 Signature Flow Meter setup 3 1 smart sensor setup Signature 3 3 specifications 1 4 submerged measurement 1 3 kit installation 5 7 surcharge alarm 3 9 4 15 T technical specifications 1 4 temporary mounting 2 22 center offset 2 27 dimensions 2 13 2 14 procedure 2 23 troubleshooting C 1 U ultrasonic level 2160 4 5 beam angle 2 2 Signature 3 14 un
97. stall sensor carrier knuckle onto 24 pipe 2 24 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 9 Slide the pipe up through the coupler tube Replace the other pipe cap 10 Rotate the carrier to proper orientation and tighten the 4 bolts on the coupler tube 11 Fine tune the carrier orientation and tighten the 2 bolts on the carrier knuckle _ Adjust carrier tighten bolts 4 Finely adjust carrier tighten bolts 2 Figure 2 28 Installing the sensor carrier M Note After initial installation and sensor alignment the remaining steps are often possible to perform from above ground with the optional sensor retrieval arm WARNING If lowering the LaserFlow from above ground ensure that it does not become dislodged while being lowered possibly endangering any personnel who may still be below ground 12 Lower the LaserFlow sensor onto the mounting bracket between the front and rear alignment tabs with the two mounting block grooves resting on the two carrier arms The sensor can be installed on the carrier facing inward or outward depending on installation requirements TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation Figure 2 29 Temporary Mount Place the sensor on the carrier 13 Turn the locking handle clockwise until it locks the sensor in place Figure 2 30 Turn the locking handle clockwise until sensor is locked into
98. the front tip of the sensor or the center of the opening The distance from the bottom of the Laserflow sensor to the center of the coupling tube is 10 375 26 35 cm The laser beam exits the sensor mouth at a 45 angle If the sensor bottom is parallel with the water surface the laser beam will also strike the water surface at a 45 angle Top of pipe inside wall Distance from sensor tip to laser beam exit point vertex of 45 angle Figure 2 16 Sensor installation constants 2 15 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation Coupling Tube v 13 875 recommended 10 375 Figure 2 17 Typical manhole installation 2 16 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 6 Wall Mounting Kit For wall mounting identify the components listed in Figure 2 18 and Table 2 1 and perform the steps that follow Order numbers for parts and fasteners are provided in Appendix A Figure 2 18 Wall mounting kit Numbers correspond with Table 2 1 Table 2 1 Wall Mounting Kit Item Callout Description 1 Tube Coupler short Tube Coupler long Bottom Wall Mount Angle Bracket adjustable Mounting Shaft Sensor Carrier SST Anchor Stud Assembly amp Spring Lock Washers for fastening brackets to wall 2 17 TIENet 360
99. the sensor 6 Level to Low error The absolute level is too low to attempt velocity measurement Place sensor in flow with at least 1 deep Set storage of velocity to be secondary based on depth of 1 7 Timeout Quality Error Measurement timed out or did not meet measurement quality requirements Contact factory TIENet 360 LaserFlow Velocity Sensor Appendix D Material Safety Data Sheets This appendix provides Material Safety Data Sheets for the des iccant used by the TIENet 360 LaserF low Sensor Teledyne Isco cannot guarantee the accuracy of the data Specific questions regarding the use and handling of the products should be directed to the manufacturer listed on the MSDS SORB IT is a registered trademark of N T Gates Company D 1 TIENet 360 LaserFlow Velocity Sensor 101 Christine Drive Belen New Mexico 87002 SUD CHEMIE WZ Phone 505 864 6691 Performance Packaging Wis Fax 505 861 2355 ISO 9002 MATERIAL SAFETY DATA SHEET September 28 1998 SORB IT Packaged Desiccant SECTION PRODUCT IDENTIFICATION Trade Name and Synonyms Silica Gel Synthetic Amorphous Silica Silicon Dioxide Chemical Family Synthetic Amorphous Silica Formula SiO2 x H2O SECTION HAZARDOUS INGREDIENTS Components in the Solid Mixture COMPONENT CAS No ACGIH TLV PPM OSHA PEL Amorphous 63231 67 4 gt 99 PEL 20 R
100. the sunshade on top of the Laserflow sensor mount and slide the sunshade toward the rear until the four stationary mounting blocks two on each side of the sunshade fit under the two front alignment tabs of the Laserflow sensor carrier See Figure 2 34 ADJUSTABLE MOUNT BLOCK 1 1 SEL oe 6 STATIONARY MOUNT BLOCK Figure 2 34 Mounting the sunshade 3 Slide the two adjustable mounting blocks connected to the tee knobs until they fit under the rear alignment tabs of the Laserflow sensor carrier See Figure 2 34 2 30 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 6 gt oF STATIONARY MOUNT BLOCKS od A Figure 2 35 Mounted sunshade 4 Tighten the four tee knobs 2 10 Remote TIENet Refer to the TIENet 310 Ultrasonic Level Sensor Installation Model 310 Ultrasonic and Operation Guide for details Level Sensor 2 31 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 2 32 TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter The LaserFlow velocity sensor is compatible with both the Teledyne Isco Signature Flow Meter and the Teledyne Isco
101. third persons The material described herein is sold only pursuant to United Desiccants Terms and Conditions of Sale including those limiting warranties and remedies contained therein It is the responsibility of the user to determine whether any use of the data and information is in accordance with applicable federal state or local laws and regulations D 5 TIENet 360 LaserFlow Velocity Sensor D 6 TIENet 360 LaserFlow e Velocity Sensor Index Symbols contact Teledyne Isco 3 15 ddp files C 1 D Numerics data dump C 1 2160 Laser Module description 1 1 setup 4 1 design 1 2 350 advanced settings dimensions 2160 4 16 temp mount 2 13 2 14 Signature 3 11 wall mount 2 11 2 12 350 level 2160 4 14 E Signature 3 8 error codes C 1 350 velocity definitions C 3 2160 4 16 flow direction 3 9 4 16 Signature 3 9 360 advanced settings 2160 4 8 Signature 3 5 360 level 2160 4 5 Signature 3 5 360 velocity 2160 4 7 flow direction 3 5 Signature 3 5 A accessories 1 6 B beam angle 2 2 bubble level 2 21 2 27 6 cable connection 2 3 2160 2 8 2 9 Signature 2 3 character grid Signature 3 2 cleaning housing 5 2 laser window 5 5 configure measurements Signature 3 3 F firmware updates 5 2 flow direction 3 9 Flowlink software 4 1 data dump files C 1 viewing error codes C 3 H hardware setup Signature 3 3 installation 2 10 centering the la
102. tical for optimal LaserFlow Sensor velocity measurement In center position the laser beam must strike the flow stream precisely in the center The beam automatically moves to the top center position Laser on Select the Laser on button and click the Apply button This will keep the laser beam on continuously for 10 minutes or until the Laser off button is clicked allowing the beam to be used for fine tuning the sensor s position 4 17 TIENet 360 LaserFlow Velocity Sensor Section 4 Setup with 2160 LaserFlow Module 4 3 2 Laser Velocity M Note When sensor positioning is completed securely tighten all mounting hardware Once the LaserFlow sensor is installed over the flow stream Measurement Point some installations may only require the center laser position for Selection velocity measurement For installations requiring multiple measurement points determine which points will be used To do so activate all 15 points and wait for all of them to display their readings This process may take up to 15 minutes Each point will display a velocity reading and time stamp or Invalid Deselect Invalid and undesired points The fewer points selected the less time required to complete one velocity measurement Select the Select All check box to activate all 15 points then click the Apply button Multipoint 1 39 ft s 1 26 ft s 1 16 ft s 1 02 ft s 0 97 ft s 807214 2014 M 2
103. tup 4 MODBUS Output Setup 5 Modem Setup With initial connection perform a hardware scan to add the 360 LaserFlow sensor Smart Sensor Setup TIENet Perform Scan gt Configure Measurements Configure Measurements Press the Enter button to display the list of sensors Scroll to the 360 XXX Parameter LaserFlow and press the XXX Parameter Enter button to select XXX Parameter Configure Measurements LaserFlow Sensor Scroll with arrow m 360 Sense Voltage 360 Laser Diode Current keys to highlight select deselect any displayed parameter or edit its name 360 Doppler Power 360 Temperature 0 360 Case Temperature 360 Ultrasonic Signal O 360 X Axis Smart Sensor Configuration The sensors are being Smart Sensor Setup TIENet The sensors have been configured configured Please wait Press NEXT to confirm configu ration There may be a slight delay Figure 3 2 Menu Tree LaserFlow Configuration TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter 3 2 Measurement Setup From Measurement Setup Figure 3 3 select Level Input Setup to define the blanking distances and Velocity Input Setup to set velocity direction and access advanced settings Refer to the Signature user manual for information about Flow
104. usly for 10 minutes or until Laser Off is selected allowing the beam to be used for fine tuning the sensor s position When sensor positioning is completed securely tighten all mounting hardware Once the LaserFlow sensor is installed over the flow stream some installations may only require the center laser position for velocity measurement For installations requiring multiple measurement points the next step is to determine which points will be used To do so activate all 15 points and wait for all of them to display their readings This process may take up to 15 minutes Each point will display a velocity reading and time stamp or Invalid Deselect Invalid and undesired points The fewer points selected the less time required to complete one velocity measurement TIENet 360 LaserFlow Velocity Sensor Section 3 Setup with Signature Flow Meter Select all 15 mea 360 Velocit surement points and 200 Vetocity Measurements are displayed in UOM E Invalid fl Invalid E 1 01 E 7 1 7 17 12 7 17 12 7 17 12 3 30 27 PM 3 30 44 PM 3 31 01 PM m 0 80 7 17 12 Invalid E 0 99 m Invalid m Invalid 7 17 12 3 31 18PM 3 31 52PM Invalid Invalid E Invalid E Invalid 0 72 7 17 12 3 33 35 PM 360 Velocity Measurements are displayed in UOM Deselect invalid and undesired points and Update 7 17 12 3 31 18PM m 0 97 m 0 91 7 17 12 7 17 12 7 17 12 3 3
105. w Directional Velocity m Steep Slope LaserFlow Focusing Enable Slope Setting Parallel to Channel Slope Slope Percentage G Steep Slope LaserFlow Focusing LaserFlow Directional Velocity The LaserFlow Directional Velocity options are active only when the Positive Velocity option is false Select the Focus Downstream check box when the LaserFlow sensor is pointed downstream The Maximum Distance is the greatest distance e g inches the LaserF low sensor will take a directional velocity reading The default is 48 Units of measurement are based on user settings The Maximum Velocity is the greatest velocity e g ft s the LaserFlow sensor will take a directional velocity reading The default is 1 Units of measurement are based on user settings Steep Slope LaserFlow Focusing If the sensor is on a slope greater than 1 select the Enable Slope Setting check box By default this option is disabled If the sensor is parallel to the channel slope select Parallel to Channel Slope Measure from the front of the sensor carrier to the bottom of the channel Then measure from the back of the sensor carrier to the bottom of the channel Ensure the distance is equal Adjust the sensor carrier as necessary See Figure 4 11 By default this option is enabled If the slope of the pipe is known mount the sensor level with the Earth using the bubble level mounted on
106. w meter has been disconnected from mains power M Note The following steps include instructions for installing cord grip fittings Some applications may use user supplied 9 4 ID con duit for cable routing 1 Remove one of the 6 position plug in terminal strip connec tors from the case board Figure 2 2 TIENet Device terminal strips 2 If using a cord grip fitting install the cable nut in the appropriate opening on the bottom of the Signature enclo sure securing it to the wall with the lock nut concave side facing wall Lock Nut concave side Sealing Nut facing wall Seal color may vary Figure 2 3 Installing cable with a cord grip fitting 2 4 TIENet 360 LaserFlow Velocity Sensor Section 2 Preparation and Installation 3 Feed the TIENet device cable end through the sealing nut and seal and through the cable nut Lightly tighten the sealing nut just enough to hold the cable in place while installing the connector 4 Attach the wire ends to the terminal strip as shown in Figure 2 4 then press the terminal strip back down into its socket on the case board as shown in Figure 2 5 ensur ing no wire connections are strained Gently tug each wire when finished to verify secure connection to the screw ter minals M Note The SHIELD wire is the bare drain emerging from the foil shield around the YELLOW and BROWN wires The BRAID DRAIN wire is the bare drain emerging from the sur rou
107. y measurement 0 01m 0 5 in Direction Selectable Bi Directional Measurement Minimum Velocity 0 15 m s 0 5 ft s Deadband Zero deadband from bottom of LaserFlow sensor4 Accuracy 0 5 of reading 0 03 m s 0 1 ft s 1 4 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction Table 1 1 LaserFlow Sensor Specifications Continued Level Measurement Technology Non Contact Ultrasonic Signal Measurement Range 0 to 3 m 0 to 10 ft from measurement point Accuracy 22 C 0 006m 0 02 ft at lt 1ft level change 0 012m 0 04 ft at gt 1ft level change Ultrasonic Temperature Coefficient 0 0002 x D m per C 0 00011 x D ft per F Where D is the distance from transducer to liquid surface Ultrasonic Beam Angle 10 5 from center line Ultrasonic Signal 50KHz Deadband Zero deadband from bottom of LaserFlow sensor All specifications are subject to change without notice Custom cable lengths also available Kynar is a registered trademark of Arkema Inc Turbidity gt 20 NTU Distance lt 48 inches Deadband for 310 remote ultrasonic sensor varies due to the type of mounting hardware 6 1 5 TIENet 360 LaserFlow Velocity Sensor Section 1 Introduction 1 6 Accessories Accessories used in sensor installation are briefly described below Refer to the next section for ordering information 1 6 1 Ordering Information Options and accessories c
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