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Summary of Contents for Emerson Rosemount 3814
- Page 1 Installation manual 00825-0100-3814, Rev AB January 2023 Rosemount ™ 3814 Liquid Ultrasonic Flow Meter...
- Page 2 Emerson employees. Emerson will not accept your returned equipment if you fail to follow Emerson procedures. Return procedures and forms are available on our web support site at www.emerson.com, or by phoning the Emerson Customer Service department.
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Page 3: Table Of Contents
4.3 Using a Field Communicator to configure the meter............83 4.4 Security seals for the meter..................... 85 4.5 Configure users and network security................... 85 Appendix A Engineering Drawings..................... 87 A.1 Rosemount 3814 Liquid Ultrasonic Flow Meter drawings........... 87 Rosemount 3814 Liquid Ultrasonic Flow Meter... - Page 4 Contents Installation manual January 2023 00825-0100-3814 Appendix B Open Sources licenses .................... 91 B.1 List of Open Source licenses....................91 Emerson.com/Rosemount...
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Page 5: Chapter 1 Introduction
These features make the Rosemount 3814 Liquid Ultrasonic Meter the best choice for custody transfer applications. The Rosemount 3814 Liquid Ultrasonic Meter technology can be applied to custody transfer flow measurement applications as shown in the following section. -
Page 6: Features And Benefits Of This Product
™ • Local Display (optional) • Glass endcap (for local display installations) For other features and benefits refer to the product datasheet at: www.emerson.com/en-us/automation/rosemount. 1.4 Acronyms, abbreviations and definitions Table 1-1: Acronyms, abbreviations and definitions Acronym or abbreviation Definition °... - Page 7 Dynamic Host Configuration Protocol decimeter (10 meters, length unit) Error Correction Code EEPROM Electrically-Erasable, Programmable Read- Only Memory Flash non-volatile, programmable read-only memory FODO Output that is user configurable as either a frequency or digital output Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 8 NOVRAM Non-volatile Random Access Memory Pascal, equivalent to 1 newton per square meter (pressure unit) Pa⋅s Pascal Second (viscosity unit) Personal Computer Peripheral field connection (board) part number power supply (board) pounds per square inch (pressure unit) Emerson.com/Rosemount...
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Page 9: Meterlink Software
MeterLink software MeterLink software has robust features for setting communications parameters, calibrating your meter, collecting logs and reports and monitoring the meter health and alarm statuses. MeterLink may be downloaded at no charge from: www.emerson.com/meterlink Rosemount 3814 Liquid Ultrasonic Flow Meter... -
Page 10: Rosemount 3814 Liquid Ultrasonic Flow Meter Design
Rosemount 3814 Liquid Ultrasonic Flow meter design The Rosemount 3814 Liquid Ultrasonic Flow Meter is a four-path (eight transducers) in-line meter designed to measure the difference in signal transit time with and against the flow across one or more measurement path(s). A signal transmitted in the flow direction travels faster than one transmitted against the flow direction. - Page 11 Figure 1-3: Transmitter electronics enclosure with optional local display and glass endcap The Rosemount 3814 Liquid Ultrasonic Flow Meter is a four-path (eight transducers) in-line meter designed to measure the difference in signal transit time with and against the flow across one or more measurement path(s). A signal transmitted in the flow direction travels faster than one transmitted against the flow direction.
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Page 12: Meter Specifications
Computer simulations of various velocity profiles demonstrate that multiple measurement paths provide an optimum solution for measuring asymmetric flow. The Rosemount 3814 Liquid Ultrasonic Flow Meter utilizes four cross-bore, parallel-plane measurement paths, offers a high degree of repeatability, bi- directional measurement and superior flow capabilities for custody transfer without the compromises associated with conventional technologies. - Page 13 Installation manual Introduction 00825-0100-3814 January 2023 Specifications for Rosemount 3814 Liquid Ultrasonic Flow Meters are below: Table 1-2: Meter specifications Liquid Meter specifications Meter type Number of paths: • Four path (eight transducer) chordal design Ultrasonic type • Transit-time based measurement •...
- Page 14 Dependent on operating temperature • Minimum Pressures — 0 psig 0 barg Meter bore • Schedule 20, 30, 40, 80, 120, 160, LW, XS, XXS and Standard Flange types • Raised face or RTJ Specific Gravity • 0.35 to 1.50 Emerson.com/Rosemount...
- Page 15 22 AWG wire characteristics are as follows: — Capacitance = 20 pF/ft or 20 nF/1000 ft (between two wires) — Resistance = 0.0168 Ohms/ft or 16.8 Ohms/1000 ft — Pull-up voltage is 24 VDC Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 16 Device compatibility FloBoss 103, FloBoss S600 flow computer, ROC 107 Digital, analog, and frequency inputs Digital Input(s) (Selectable) (1) Single polarity (for flow calibration gating - contact closure) • Single input for starting and stopping • Four pulse configurations available Emerson.com/Rosemount...
- Page 17 The input contains a series resistance so HART Communicators ® can be connected to configure sensors. A 24 Volt DC power supply is available to provide power to the sensors. Digital, analog, and frequency outputs Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 18 Lead forward, Lag reverse (Phase B leads Phase A while reporting forward flow, lags Phase A while reporting reverse flow) Phase A and Phase B output (based on flow direction) • Reverse flow - output only reports flow in the reverse direction. For frequency Emerson.com/Rosemount...
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Page 19: Pre-Installation Considerations
Civil and structural good practices compliance • Contractual agreements or governmental compliance (or both) • In-situ performance test procedures • In-situ meter calibration • Field tested advanced meter health and flow dynamics diagnostics • Data collection and retention procedures Rosemount 3814 Liquid Ultrasonic Flow Meter... -
Page 20: Safety Conditions
1.10 Certifications and approvals Rosemount 3814 Liquid Ultrasonic Flow Meters have electrical, metrology, intrinsic safety and Pressure Equipment Directive certifications and approvals by the agencies listed below. Refer to the nameplate tag on the meter body, the... -
Page 21: Fcc Compliance
NEPSI • GOSTR Important Please consult Emerson for a complete metrology approvals list. 1.11 FCC compliance This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. -
Page 22: References
API MPMS Chapter 4.2, Displacement Provers, 3rd Edition | September 2003 | Reaffirmed: March 2011 API MPMS Chapter 12.2, Calculation of Petroleum Quantities Using Dynamic Measurement Methods And Volumetric Correction Factors, 2nd Edition | May 1995 | Reaffirmed: February 2009 Emerson.com/Rosemount... -
Page 23: Chapter 2 Mechanical Installation
When moving the meter, do not insert the forks of a forklift into the bore. Inserting the forks may cause the meter to become unstable, resulting in injury to personnel or damage to the bore and sealing face. Rosemount 3814 Liquid Ultrasonic Flow Meter... -
Page 24: Meter Components
Enclosure and the Meter Body with transducer assemblies. WARNING FLUID CONTENTS MAY BE UNDER PRESSURE When the meter is under pressure, DO NOT attempt to remove or adjust the transducer housing. Attempting to do so may release pressurized fluid, resulting in serious injury or equipment damage Emerson.com/Rosemount... - Page 25 Clean cover joints before replacing. • DO NOT substitute meter components. Component substituting may compromise the intrinsic safety. Failure to do so may result in severe injury to personnel or cause damage to the equipment. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 26 Installation manual January 2023 00825-0100-3814 Figure 2-1: Rosemount 3814 Liquid Ultrasonic Flow Meter assembly A. Explosion-proof transmitter enclosure (CPU Module, Power Supply, I.S. Barrier Board and Backplane Board, Optional: glass endcap for Local Display) B. Intrinsically-safe base enclosure includes Acquisition Module C.
- Page 27 Installation manual Mechanical Installation 00825-0100-3814 January 2023 Figure 2-2: Transmitter electronics enclosure with optional local display and glass endcap A. Transmitter electronics enclosure with glass endcap B. Local display Rosemount 3814 Liquid Ultrasonic Flow Meter...
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Page 28: Piping Recommendations
• Concentric alignment pins or flange concentricity technique considerations NOTICE For optimal flow measurement conditions, Emerson suggests the piping configurations below. Regardless of the configuration selected, the user agrees to accept full responsibility for the site piping design and installation. - Page 29 NOTICE To access the product datasheet, from the Emerson products page (above link), select the Rosemount Liquid Ultrasonic Flow Meter link, click the Documentation tab, expand the Data Sheets - Bulletins - Catalogs tab, then select the Data Sheet.
- Page 30 Emerson recommendations. Alignment of this flange joint is critical in the performance of the meter. It is recommended to consult Emerson Customer Support for assistance when re-aligning this joint.
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Page 31: Meter Safety For Hoist Rings And Lifting Slings
Meter safety for hoist rings and lifting slings A Rosemount Liquid Ultrasonic Flow Meter can be safely lifted and maneuvered into and out of a meter run for installation or service by obeying the following instructions. Rosemount 3814 Liquid Ultrasonic Flow Meter... - Page 32 Failure to comply can cause the meter to roll and the electrical wiring conduit connections to be severed, resulting in serious injury or equipment damage. NOTICE Prior to lifting the unit, refer to the Rosemount 3814 Liquid Ultrasonic Flow Meter nameplate or outline dimensional (general arrangement) drawing for the assembled weight.
- Page 33 Operators SHALL NOT use Eye Bolts (see Figure 2-7) in the Rosemount 3814 Liquid Ultrasonic Meter flange tapped holes to aid in lifting or maneuvering the unit. Operators SHALL NOT use other Hoist Rings that do not fully seat flush with the counter bore on the top of the meter flanges.
- Page 34 Do not use any other type of hoist rings with the same screw size or heavy duty hoist rings. The meter tapping and counter bore size are suitable only for the hoist rings specified by Emerson. 5. When installing a hoist ring, make sure the base surface of the hoist ring fully contacts the machined flat surface of the tapped hole.
- Page 35 Lifting the meter with the upper enclosure installed but without the bolts installed, may cause the electronics to fall and cause personal injury or equipment damage. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 36 Doing so will exceed the load rating of the hoist rings. 13. Remove the hoist rings from the meter after lifting is completed and store them in an appropriate case or container per their manufacturer's recommendation. Emerson.com/Rosemount...
- Page 37 3814 Liquid Ultrasonic Meter. The part number shown in Table 2-3 appropriately rated for the ANSI rating of your meter. Table 2-3: Hoist ring lookup table for Rosemount 3814 Liquid Ultrasonic Flow Meters ANSI 300 ANSI 600...
- Page 38 Mechanical Installation Installation manual January 2023 00825-0100-3814 Table 2-3: Hoist ring lookup table for Rosemount 3814 Liquid Ultrasonic Flow Meters (continued) ANSI 300 ANSI 600 ANSI 900 ANSI 1500 Part Number Note 4” to 6” 45 degree meters and 8” to 36” 60 degree meters 2.4.2 ...
- Page 39 Once the lifting operation is complete, reattach and secure the electronics cable to J3 on the Acquisition Module, return the electronics enclosure to its original position, replace the bolts, and secure the Rosemount 3814 Liquid Ultrasonic Flow Meter...
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Page 40: Mounting Requirements In Heated Or Cooled Pipelines
Mounting requirements in heated or cooled pipelines The ambient operating temperature of the Rosemount 3814 Liquid Ultrasonic Flow Meter electronics (i.e. Flameproof enclosure and Intrinsically safe base enclosure) is -40°C (-40°F) to +60°C (+140°F). If the meter is installed into a pipeline which is heated or cooled outside this temperature range it is necessary to remove the electronics housing from the meter body (i.e. - Page 41 January 2023 Extended length transducer cables (P/N 1-360-01-601, 15 ft. long) shall be used to connect the Rosemount 3814 Liquid Ultrasonic Flow Meter electronics to the transducers installed in the meter body. The process temperature must also not exceed the operating temperature range of the transducers. LT-01 and LT-03 transducers have an operating range from -50°C (-58°F) to +100°C (+212°F).
- Page 42 Mechanical Installation Installation manual January 2023 00825-0100-3814 Emerson.com/Rosemount...
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Page 43: Chapter 3 Electrical Installation
130.00 718.4 1000 0.033 7.296 The 22 AWG wire characteristics are as follows: • Capacitance = 20 pF/ft or 20 nF/1000 ft (between two wires) • Resistance = 0.0168 Ohms/ft or 16.8 Ohms/1000 ft Rosemount 3814 Liquid Ultrasonic Flow Meter... -
Page 44: Grounding Meter Electronics
Pull-up voltage is 24 VDC 3.3 Grounding meter electronics Rosemount 3814 Liquid Ultrasonic Flow Meter electronics should be internally grounded for intrinsically safe operations. Connect a wire to the chassis ground lug installed inside the Transmitter Electronics Enclosure as the primary ground. -
Page 45: Conduit Seals
Electrical Installation 00825-0100-3814 January 2023 3.4 Conduit seals Rosemount 3814 Liquid Ultrasonic Meters require conduit seals for installations in hazardous environments. Adhere to safety instructions to protect personnel and equipment. WARNING HAZARDOUS VOLTAGE INSIDE Do not open the Transmitter Electronics Enclosure when an explosive gas atmosphere is present. - Page 46 (see Engineering Drawings), MeterLink Software for Gas and Liquid Quick Start Manual (00809-0100-7630). Use the MeterLink Field Setup Wizard to complete the meter configuration. Also see, Field Setup Wizard using MeterLink in this manual. Emerson.com/Rosemount...
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Page 47: Wiring And I/O
4-wire full duplex RS-485 mode. The meter electronics is HART capable and provides communication flexibility with Rosemount 3814 Liquid Ultrasonic Flow Meters. The HART output provides communication with other field devices (e.g., 475/375 ®... - Page 48 • When the connection is made, select to use the Meter Name in the meter instead of the Meter Directory Name in order to keep all log files and configurations separate from each meter. Emerson.com/Rosemount...
- Page 49 3.3 V Power Indicator • Solid green LED 4 • Not used LED 5 • Not used • RX signal (Port A for • Flashing green (when RS485 or RS232 receiving data) communication) receiving data Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 50 RESTRICT ETHERNET AND SERIAL CONNECTIVITY USAGE User is responsible for ensuring that physical access and Ethernet or electronic access to the Rosemount 3814 Liquid Ultrasonic Flow Meter is appropriately controlled and any necessary security precautions, such as, establishing a firewall, setting password permissions and/or implementing security levels.
- Page 51 (possibly due to an inadvertent communication configuration change). Alternately, when using MeterLink with an Ethernet port, ™ use Ethernet cable (P/N 1-360-01-596) to connect the PC. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 52 Preferred port for • Modbus TCP/IP diagnostic communication via MeterLink • 10 Mbps/100 Mbps Denotes auto-detected protocols. NOTICE If not using Ethernet, a full duplex serial connection is necessary for MeterLink to communicate with a Rosemount 3814 Liquid Ultrasonic Meter. Emerson.com/Rosemount...
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Page 53: Rosemount Ultrasonic Meters I/O Connections
MSTS provides I/O connections on the CPU Module. ™ Figure 3-5: CPU Module I/O connections A. Frequency/Digital Output 2 B. Frequency/Digital Output 3 C. Analog Output 2 - 4-20 mA output D. Analog Input - HART temperature and pressure connections Rosemount 3814 Liquid Ultrasonic Flow Meter... - Page 54 Frequency output 2B is the B Phase of Frequency output 2 content • Digital output 1A is based on Digital output1A content (Frequency Output 1Validity and Flow Direction) • Digital output 1B is based on Digital output1B content (Frequency Output 1 Validity and Flow Direction) Emerson.com/Rosemount...
- Page 55 Digital output 1A Frequency /Digital Output4 • Digital output 1B Frequency /Digital Output 5 Frequency /Digital Output 6 • Frequency output 2A • Frequency output 2B • Digital output 2A • Digital output 2B Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 56 Figure 3-7: CPU Module - Frequency/Digital outputs common ground - Type 4 A. FODO1 and DI1/FODO6 - shared common ground - Type 4 CPU Module (Group1) B. FODO2, FODO3, FODO4 and FODO5 - shared common ground - Type 4 CPU Module (Group2) Emerson.com/Rosemount...
- Page 57 ® ® transmitter which meets the specifications of the HART Communications ® Foundation can be connected to the Rosemount 3814 Liquid Ultrasonic Flow Meter. Analog Output 2 (AO2) is user-configurable as a conventional 4-20 mA output. 3.6.4 Digital input ™...
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Page 58: Security Seal Installation
Security seals protect the integrity of the meter metrology and prevent tampering with transducer assemblies. The following sections detail how to properly seal the Rosemount 3814 Liquid Ultrasonic Flow Meter after commissioning. The security seal wires are commercially available. Be sure to set the WRITE PROT. switch on the CPU Module to the ON position prior to sealing the enclosure. - Page 59 Figure 3-10: Transmitter Electronics Enclosure security seal installation A. Transmitter Electronics Enclosure end cap B. Security wire seals 3. Adjust the security wire, removing all slack and thread into the lead seal. 4. Cut wire ends to remove excess wire. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 60 2. Position the wire to prevent counterclockwise rotation of the screws when the seal wire is taut. 3. Feed the security wire beneath the Transmitter Electronics Enclosure and through the adjacent socket head screw. Twist the wire, removing all slack and seal. Emerson.com/Rosemount...
- Page 61 (Item F) and feed through one of the two holes in the transducer cable nut (item E). 3. Adjust the security wire, removing all slack and thread into the lead seal. 4. Cut wire ends to remove excess wire. Rosemount 3814 Liquid Ultrasonic Flow Meter...
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Page 62: Sealing The Unit
(approximately one to two weeks) before the unit is sealed. This allows time to verify all electrical connections are correct, that the meter is accurately measuring flow and that the meter meets the customer’s installation requirements. See Startup for systems using explosion-proof conduit Startup for systems using flame-proof cable. Emerson.com/Rosemount... -
Page 63: Chapter 4 Configuration
Digital outputs 1 will report the status for the parameter for Frequency outputs 1. Similarly, Frequency outputs 2 and Digital outputs 2 are paired together. Additionally, each Frequency output has an A and B output phase. Rosemount 3814 Liquid Ultrasonic Flow Meter... - Page 64 Startup page. 4.1.2 Display items The valid labels, descriptions and units for the display items are shown below: Table 4-1: Local display labels, descriptions and valid units Local Display labels, descriptions and units QFLOW — Uncorrected volume flow rate Emerson.com/Rosemount...
- Page 65 YSTVL — Previous day’s reverse uncorrected volume • -BBL – Barrels • -GAL – Gallons • -L – Liters • -CM – Cubic Meters • -MCM – Thousand Cubic Meters TOTVL — Forward uncorrected volume Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 66 DEGC – Degrees Celsius PRESS — Flow-condition pressure • PSI – Pound per square inch • MPA – Megapascals FRQ1A — Frequency channel 1A • HZ – Hertz FRQ1B — Frequency channel 1B • HZ – Hertz KFCT1 — Frequency 1 K-factor Emerson.com/Rosemount...
- Page 67 Display Units, configure the Meter units system in the Field Setup Wizard → General Page. • U.S. Customary volume unit selections are: — Barrels — Gallons • Metric volume unit selections are: — Cubic meters — Cubic liters Rosemount 3814 Liquid Ultrasonic Flow Meter...
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Page 68: Using Ams Device Manager To Configure The Meter
1. Use the link above to search for the Device Description (DD) for your Rosemount 3810 Series Liquid Ultrasonic Flow Meter. 2. Use the pull-down menu and select the Brand/Manufacturer - Emerson Rosemount Industries. 3. Next select the Device, Liquid 3810 Series from the pull-down menu. - Page 69 10. Click the Rosemount Industries Liquid 3810 Series Rev 1 hyperlink. The file download dialog displays. Click the Save button to save the files to your host system. You may use the default download location or change the directory. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 70 11. Click the Save button to complete the file download. Figure 4-3: AMS file download complete 12. Click Open or Open Folder to view the downloaded files. 13. Establish power to the meter and wiring to Analog Input 1 for HART communication. Emerson.com/Rosemount...
- Page 71 14. Start the AMS Device Manager using a laptop or PC. 15. Enter login credentials and click OK to launch the application. 16. Click the Configure tab, and then select Guided Setup, Manual Setup or Alert Setup. Figure 4-4: AMS Device Manager Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 72 The Guided Setup is a subset of the Manual Setup parameters. Figure 4-6: AMS Device Manager - Guided Setup Note Before writing configuration changes to your meter, make sure you have saved the Configuration file and Maintenance log. Emerson.com/Rosemount...
- Page 73 Click the Frequency and Digital Output 2 tab and repeat Step 3 configure Frequency and Digital Output 2 parameters. 5. Click Setup HART to configure the HART parameters (tag, date, descriptor, message text, Final Assembly number, Poll address and number of Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 74 9. Enable the Write Protect switch on the CPU Module to protect the meter’s configuration. 10. From the Overview window, click Display Meter K-Factors. K-Factors are a read-only values calculated from the Full scale volumetric flow rate used with frequency outputs and the Maximum frequency for frequency output. Emerson.com/Rosemount...
- Page 75 Use the Manual Setup wizard to configure the meter’s parameters. See Figure 4-4 Figure 4-5 and from the AMS Device Manager Configure menu click Manual Setup. Figure 4-9: AMS Device Manager - Configure Manual Setup Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 76 11. Click the Digital Input tab. The default Digital Input 1 polarity is set to Normal for general purpose or set to Inverted when used for calibration. Click Apply, after you choose the calibration data to write the parameters to the meter. Emerson.com/Rosemount...
- Page 77 Figure 4-10: Gating configuration parameter Edge gated, active high • Edge gated, active low Figure 4-11: Gating configuration parameter Edge gated, active • State gated, active high Figure 4-12: Gating configuration parameter State gated, active high • State gated, active low Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 78 Next button. The Detect Reverse Flow enabled page displays. Click the Next button to display Detect Reverse Flow disabled. b) If an error message is returned, click the Next button to display the Method Complete page. Emerson.com/Rosemount...
- Page 79 If you change the device configuration, a confirmation dialog displays and prompts you to write the changes to the meter. Click Yes to write the changes to the meter or click No to cancel pending changes. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 80 Flow Data, Path Information, Flow Totals, and All Variables. Figure 4-17: AMS Device Manager - Service Tools d) The Service Tools → Flow Data page includes charts for flow and sound velocities. The flow values (flow direction, average flow velocity Emerson.com/Rosemount...
- Page 81 1-6. Severity 1 is the highest and 6 is the lowest level. h) Click the Service Tools → Trends tab to display the device variables (uncorrected volume flow rate, pressure and temperature) trends. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 82 Bracket/ Cover to the Base enclosure. Note The next time you connect to the device using MeterLink, the Monitor page displays a Meter status alarm that the configuration has Emerson.com/Rosemount...
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Page 83: Using A Field Communicator To Configure The Meter
Follow all guidelines and precautions described in the Field Communicator User Manual and in the 3814 Liquid Ultrasonic Flow Meter documentation when working in a hazardous area. Prerequisites • Emerson Field Communicator software, license, installation guide and user manual available on the One Emerson website: www.emerson.com/en-us/ catalog/ams-475-field-communicator •... - Page 84 9. Refer to the Menu tree in Section D.1.1 of the Rosemount HART Field Device Specification manual (00825-0300-3810) for the device fast key sequences. Included in the menu tree are: • Diagram Page 1 - 3810 Series Root Menu; Overview, Configure → Manual Setup Emerson.com/Rosemount...
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Page 85: Security Seals For The Meter
If the Rosemount 3810 Series Electronics will be connected to a network, please read the security recommendations found in Cybersecurity and network communications in the Rosemount 3810 Series Liquid Ultrasonic Flow Meters: Operations Manual (00809-0200-3810). Rosemount 3814 Liquid Ultrasonic Flow Meter... - Page 86 Configuration Installation manual January 2023 00825-0100-3814 Emerson.com/Rosemount...
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Page 87: Appendix A Engineering Drawings
Engineering Drawings 00825-0100-3814 January 2023 A Engineering Drawings A.1 Rosemount 3814 Liquid Ultrasonic Flow Meter drawings This appendix contains the following engineering drawing(s) for the ultrasonic meter: DMC-004936 3810 Series Ultrasonic Meter System Wiring Diagram Rosemount 3814 Liquid Ultrasonic Flow Meter... - Page 88 Engineering Drawings Installation manual January 2023 00825-0100-3814 Emerson.com/Rosemount...
- Page 89 Installation manual Engineering Drawings 00825-0100-3814 January 2023 Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 90 Engineering Drawings Installation manual January 2023 00825-0100-3814 Emerson.com/Rosemount...
- Page 91 Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 92 Program a copy of this License along with the Program. You may charge a fee for the physical act of transferring a copy, and you may at your option offer warranty protection in exchange for a fee. Emerson.com/Rosemount...
- Page 93 Sections 1 and 2 above on a medium customarily used for software interchange; or, c) Accompany it with the information you received as to the offer to distribute corresponding source code. (This alternative is allowed only for noncommercial Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 94 License would be to refrain entirely from distribution of the Program. If any portion of this section is held invalid or unenforceable under any particular circumstance, the balance of the section is intended to apply and the section as a whole is intended to apply in other circumstances. Emerson.com/Rosemount...
- Page 95 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 96 Signature of Ty Coon, 1 April 1989 Ty Coon, President of Vice This General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit Emerson.com/Rosemount...
- Page 97 Application that uses the facility (other than as an argument passed when the facility is invoked), then you may convey a copy of the modified version: Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 98 Combined Work produced by recombining or relinking the Application with a modified version of the Linked Version. (If you use option 4d0, the Installation Information must accompany the Minimal Corresponding Source and Emerson.com/Rosemount...
- Page 99 Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: • Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 100 • Neither the name of Emerson nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.
- Page 101 Installation manual 00825-0100-3814 January 2023 Rosemount 3814 Liquid Ultrasonic Flow Meter...
- Page 102 Emerson Terms and Conditions of Sale are available upon request. The Emerson logo is a trademark and service mark of Emerson Electric Co. Rosemount is a mark of one of the Emerson family of companies. All other marks are the property of their respective owners.