Endress+Hauser HART Proline Prosonic Flow P 500 Special Documentation
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- Page 1 Products Solutions Services SD02593D/06/EN/01.21 71509604 2021-05-10 Valid as of version 01.01.zz (Device firmware) Special Documentation Proline Prosonic Flow P 500 Heartbeat Verification + Monitoring application package HART...
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Page 3: Table Of Contents
Commissioning ..... . . 46 Operation ......47 Endress+Hauser... -
Page 4: Manufacturer's Declaration
Manufacturer' s Declaration Proline Prosonic Flow P 500 HART Manufacturer's Declaration A0040349-EN Endress+Hauser... -
Page 5: Certificate
Proline Prosonic Flow P 500 HART Certificate Certificate A0045948-EN Endress+Hauser... -
Page 6: About This Document
Procedures, processes or actions that are permitted. Forbidden Procedures, processes or actions that are forbidden. Indicates additional information. Reference to documentation Reference to page Reference to graphic Notice or individual step to be observed … Series of steps Result of a step Endress+Hauser... -
Page 7: Documentation
• W@M Device Viewer (www.endress.com/deviceviewer): Enter the serial number from nameplate • Endress+Hauser Operations App: Enter the serial number from the nameplate or scan the 2D matrix code (QR code) on the nameplate This Special Documentation is available: In the Download Area of the Endress+Hauser Internet site: www.endress.com →... -
Page 8: Product Features And Availability
The application package can be ordered together with the device or can be activated subsequently with an activation code. Detailed information on the order code is available via the Endress+Hauser website www.endress.com or from your local Endress+Hauser Sales Center. 4.2.1 Order code If ordering directly with the device or subsequently as a retrofit kit: Order code for "Application package", option EB "Heartbeat Verification + Monitoring"... - Page 9 4.2.3 Access Heartbeat Technology is compatible with all the system integration options. Interfaces with digital communication are required to access the data saved in the device. The speed of data transmission depends on the type of communication interface used. Endress+Hauser...
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Page 10: System Integration
The features can be used via an asset management system and the automation infrastructure (e.g. PLC). A0020248 Asset Management System Measuring device Verification Verification Verification A0031421 Local display Web browser FieldCare Data archive in the device W@M Portal Verification report Endress+Hauser... -
Page 11: Automated Data Exchange
Verification reports can be created using the device DTM and the Web server integrated in the measuring device or the FieldCare plant asset management software from Endress+Hauser. With the Flow Verification DTM, FieldCare also offers the possibility of data management and of archiving the verification results to create traceable documentation. -
Page 12: Data Exchange Performed By The User (Asset Management System)
• New verification results overwrite old data following the FIFO principle The results can be documented in the form of a verification report using the Web server integrated in the measuring device or the Endress+Hauser asset management software, FieldCare. FieldCare also offers additional capabilities with the Flow Verification DTM: •... - Page 13 • Top display area of the DTM • Contains the following information: • Measuring device • Device tag • Indicates whether verification is active: Reading out data Start uploading the data from the measuring device to the asset management software. Endress+Hauser...
- Page 14 • Result – status, test group and detailed results including limit values • Data graphic – visualization of results as a trend curve • Description – additional descriptions and information entered by the user Saving to an archive file Save the data to an archive after upload. Endress+Hauser...
- Page 15 This file is used to archive the data. It can be read and interpreted by every asset management system with an installed Flow Verification DTM and is therefore also suitable for analysis by a third party (e.g. Endress+Hauser service organization). Opening the archive file Open archive files already available.
- Page 16 Proline Prosonic Flow P 500 HART Selecting the measured variables A0031430 3 Sample graphic ‣ Select the measured variables using the list displayed. Visualizing a graph A0031433 4 Sample graphic ‣ Assign properties for visualization of the graph. Endress+Hauser...
- Page 17 5 Sample graphic ‣ Assign the measured variables of the Y-axis. Updating template or creating new template A0031437 6 Sample graphic ‣ Add a selected parameter configuration to the template or save under a new template name. Endress+Hauser...
- Page 18 The template shows the data in chronological order. The data points are referenced by the verification ID (X-axis), the Y-axis displays the parameters defined in the configuration. Creating a verification report 1. Click the icon. 2. Select the data set. A verification report is generated. Endress+Hauser...
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Page 19: Heartbeat Verification
It is possible to manually record reference data relating to the operator and the location. These reference data appear on the verification report. Operation continues while the reference data are being recorded. Navigation "Setup" menu → Advanced setup → Heartbeat setup → Heartbeat base settings Endress+Hauser... -
Page 20: Operation
Repeated verification "Passed" If the result of the second verification is "Passed", the result of the first verification can be ignored. In order to identify possible deviations, compare the current process conditions with the process conditions of a previous verification. Endress+Hauser... - Page 21 The cause of the error can be narrowed down by identifying the test group that has a "Failed" verification. 2. Provide Endress+Hauser Service with the verification result with the current process conditions. 6.3.2 Standard verification Standard verification is performed automatically by the device and without manual checking of external measured variables.
- Page 22 Performing verification Year → 23 Month → 23 → 23 Hour → 23 AM/PM → 23 Minute → 23 → 23 Verification mode Start verification → 24 Progress → 24 Endress+Hauser...
- Page 23 Verification mode Can be edited if Select the verification mode. • Standard Standard verification Heartbeat Verification is verification Standard verification not active. • Extended Verification is performed verification automatically by the device and without manual checking of external measured variables. Endress+Hauser...
- Page 24 These output signals do not represent the current measured value. To measure the simulated signals, it can be necessary to set the higher-level process control system to a safe state beforehand. In order to perform a verification, the pulse/frequency/switch output must be enabled and assigned to a measured variable. Endress+Hauser...
- Page 25 Recommendations for the measuring equipment DC current measuring uncertainty ±0.2 % DC current resolution 10 µA DC voltage measuring uncertainty ±0.1 % DC voltage resolution 1 mV Frequency measuring uncertainty ±0.1 % Frequency resolution 1 Hz Temperature coefficient 0.0075 %/°C Endress+Hauser...
- Page 26 1. Disconnect the output cables of the current output (+/–) from the automation system. 2. Short the output cables of the current output (+ / -). 3. Connect the ammeter to the transmitter by looping it in series into the circuit. Endress+Hauser...
- Page 27 10 Extended verification of the active pulse/frequency output Automation system with pulse/frequency input (e.g. PLC) Frequency meter Transmitter Extended verification of the active pulse/frequency output ‣ Connect the frequency meter in parallel to the pulse/frequency output of the transmitter Endress+Hauser...
- Page 28 Current output 1 to n simulation active Output 1…n low value Output 1…n high value C492 Simulation frequency output 1 to n Frequency output 1…n active C493 Simulation pulse output 1 to n active Pulse output 1…n C302 C302 Device verification in progress Endress+Hauser...
- Page 29 5. In the Measured values parameter, enter the value displayed on the external measuring equipment. 6. Repeat steps 4 and 5 until all the output options are checked. 7. Adhere to the sequence indicated and enter the measured values. Endress+Hauser...
- Page 30 • This helps users to perform a targeted search for the cause of the error → 20. "Performing verification" submenu Navigation "Diagnostics" menu → Heartbeat Technology → Performing verification ‣ Performing verification Year → 31 Month → 31 → 31 Endress+Hauser...
- Page 31 (field 3): enter the day not active. verification is performed. Hour Can be edited if Entry for date and time 0 to 23 h 12 h Heartbeat Verification is (field 4): enter the hour not active. verification is performed. Endress+Hauser...
- Page 32 • Output 4 high value • Frequency output • Pulse output 1 • Frequency output • Pulse output 2 • Frequency output • Double pulse output Progress – Shows the progress of the 0 to 100 % – process. Endress+Hauser...
- Page 33 • Expert → Diagnostics → Heartbeat Technology → Verification results Navigation "Diagnostics" menu → Heartbeat Technology → Verification results ‣ Verification results Date/time (manually recorded) → 34 Verification ID → 34 → 34 Operating time Verification result → 34 Endress+Hauser...
- Page 34 In the Overall result Displays the result for the • Not supported – parameter, the Failed option is sensor electronics module • Passed displayed. (ISEM). • Not done • Failed Detailed description of the classification of the results: Endress+Hauser...
- Page 35 The overall result is also "Passed" if the result for an individual test group is "Check not done" and the result for all other test groups is "Passed". Not done No verification was performed for any of the test groups (result for all test groups is "Check not done"). Endress+Hauser...
- Page 36 6.3.5 Detailed verification results The process conditions at the time of verification and the individual test group results can be accessed with the Flow Verification DTM. • Process conditions: "VerificationDetailedResults → VerificationActualProcessConditions" • Verification results: "VerificationDetailedResults → VerificationSensorResults" Endress+Hauser...
- Page 37 Monitoring of the reference • Failed clock in the measuring device • Passed circuit. • Check not done Transmission circuit Monitoring of the transmission • Failed 607, 921, 609, 608 voltage and multiplexer. • Passed • Check not done Endress+Hauser...
- Page 38 The measuring device simulates a specific • Failed Perform manual function test while verification frequency. Enter the external measurement • Passed verification is active. via the "Heartbeat Verification" wizard. • Check not done Value range: ±0.1 % Based on target value Endress+Hauser...
- Page 39 • Sensor electronics module (ISEM) • System condition • I/O module Third page (and subsequent pages): measured values and visualization Numerical values and graphic presentation of all the values recorded: • System operator • Test object • Unit • Current: measured value Endress+Hauser...
- Page 40 Alternatively, an Endress+Hauser service technician or a service provider authorized by Endress+Hauser can be tasked with performing the verification.
- Page 41 Notes Date Operator' s signature Inspector' s signature www.endress.com Web server Page 1 A0045952-EN 12 Example of a verification report (Page 1: identification → 39) Individual test groups and description of individual tests: → 36 Endress+Hauser...
- Page 42 Extended Verification" field. It is also recommended for information on the type and serial number of the external testing device used to carry out the extended verification. Data administration with Web server and FieldCare (Flow Verification DTM): → 12 Endress+Hauser...
- Page 43 22-23 (I/O 3) Input/output 3 value 1 0.0000 0.0000 0.0000 Input/output 3 value 2 0.0000 0.0000 0.0000 www.endress.com Web server Page 3 A0045954-EN 14 Example of a verification report (Page 3: measured values and visualization → 39) Endress+Hauser...
- Page 44 Here, the function checks device-internal parameters that are correlated with flow measurement (secondary measured variables, comparative values). If a verification is passed, this confirms that the comparison values that are checked are within the factory specification and that the measuring device is working correctly. At the Endress+Hauser...
- Page 45 Narrow down the possible cause of the error by identifying the test group that failed the verification. For detailed information on diagnostics and troubleshooting and for diagnostics information and associated remedial measures, see the Operating Instructions → 7. Endress+Hauser...
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Page 46: Heartbeat Monitoring
With the application package "Heartbeat Verification + Monitoring", the user has additional monitoring parameters available → 46 . The following examples illustrate how a monitoring measured variable is assigned to a current output or is shown on the local display. Endress+Hauser... -
Page 47: Operation
• Multi-phase fluids (gas content and solids in liquid fluids) • Wet gases • Special application scenarios must be established together with the client both for indication and for quantification purposes. • The results of Condition Monitoring must always be interpreted in the context of the application. Endress+Hauser... - Page 48 • As with the acceptance rate, the reasons for a high level of turbulence are pulsation of the medium, discontinuous flow or interference in the process line. • An excessively high medium velocity or a poor signal to noise ratio can also be reasons for the high level of turbulence. Endress+Hauser...
- Page 52 *71509604* 71509604 www.addresses.endress.com...