Page 1: Gp Value
BA01462G/00/EN/01.16 Products Solutions Services 71318331 Valid as of version 01.01.zz (Device firmware) Operating Instructions Proservo NMS83 Tank Gauging...
Page 2: Gp Value
Order code: XXXXX-XXXXXX Ser. no.: XXXXXXXXXXXX Ext. ord. cd.: XXX.XXXX.XX Serial number www.endress.com/deviceviewer Endress+Hauser Operations App A0023555 Endress+Hauser...
Page 3: Table Of Contents
Electrical connection ....36 12.3 Endress+Hauser services ....126 Terminal assignment ....36 Connecting requirements .
Page 4: About This Document
About this document Proservo NMS83 About this document Document function These Operating Instructions contain all the information that is required in various phases of the life cycle of the device: from product identification, incoming acceptance and storage, to mounting, connection, operation and commissioning through to troubleshooting, maintenance and disposal.
Page 5 Proservo NMS83 About this document Symbol Meaning Cross-head screwdriver A0011219 Allen key A0011221 Hexagon wrench A0011222 1.2.4 Symbols for certain types of information Symbol Meaning Permitted Procedures, processes or actions that are permitted. Preferred Procedures, processes or actions that are preferred.
Page 6 About this document Proservo NMS83 1.2.6 Symbols at the device Symbol Meaning Safety instructions Observe the safety instructions contained in the associated Operating Instructions. Temperature resistance of the connection cables Specifies the minimum value of the temperature resistance of the connection cables.
Page 7: Documentation
• The W@M Device Viewer : Enter the serial number from the nameplate (www.endress.com/deviceviewer) • The Endress+Hauser Operations App: Enter the serial number from the nameplate or scan the 2-D matrix code (QR code) on the nameplate. 1.3.1 Technical Information (TI) The Technical Information contains all the technical data on the device and provides an overview of the accessories and other products that can be ordered for the device.
Page 8 About this document Proservo NMS83 1.3.5 Safety instructions (XA) Ordering feature 010 Meaning "Approval" • ATEX II 1/2 G Ex ia/db IIC T6...T1 Ga/Gb XA01495G (in preparation) • ATEX II 2 (1) G Ex db [ia Ga] IIC T6...T1 Gb CSA C/US Cl.I Div.1 Gr.A-D, Ex d[ia] IIC T6...
Page 9: Registered Trademarks
Proservo NMS83 About this document Registered trademarks FieldCare ® Registered trademark of the Endress+Hauser Process Solutions AG, Reinach, Switzerland MODBUS ® Registered trademark of the MODBUS-IDA, Hopkinton, MA, USA Endress+Hauser...
Page 10: Basic Safety Instructions
Basic safety instructions Proservo NMS83 Basic safety instructions Requirements for the personnel The personnel for installation, commissioning, diagnostics and maintenance must fulfill the following requirements: ‣ Trained, qualified specialists must have a relevant qualification for this specific function and task ‣...
Page 11: Workplace Safety
The measuring system meets the legal requirements of the applicable EC guidelines. These are listed in the corresponding EC Declaration of Conformity together with the standards applied. Endress+Hauser confirms successful testing of the device by affixing to it the CE mark. Endress+Hauser...
Page 12: Product Description
Product description Proservo NMS83 Product description Product design A0028699  1 Design of Proservo NMS83 Housing Display and operating module (can be operated without opening the cover) Process connection (Flange) Displacer A0028873  2 Configuration of NMS83 Front cover Display...
Page 13: Incoming Acceptance And Product
• Enter the serial number from the nameplates into the Endress+Hauser Operations App or scan the 2-D matrix code (QR code) on the nameplate with the Endress+Hauser Operations App: all the information for the measuring device is displayed. For an overview of the scope of the associated Technical Documentation, refer to the following: •...
Page 14: Storage And Transport
Certificate symbol Data concerning the Ex approval General certificate of approval Associated Safety Instructions (XA) Manufacturing date QR code for the Endress+Hauser Operations App Storage and transport 4.3.1 Storage conditions • Storage temperature: –50 to +80 °C (–58 to +176 °F) •...
Page 15 Proservo NMS83 Incoming acceptance and product identification 4.3.2 Transport NOTICE Risk of injury ‣ Transport the measuring device to the measuring point in its original packaging. ‣ Take into account the mass center of the device in order to avoid unintended tilting.
Page 16: Installation
Installation Proservo NMS83 Installation Requirements 5.1.1 Type of tanks Depending on the type of tank and application, different installation procedures are recommended for NMS8x. Type of tanks Without guide system With stilling well With guide wires Fixed roof tank Tank with agitator or heavy turbulence •...
Page 17 Proservo NMS83 Installation Typical tank installation A0026904  4 Typical tank installation 1 NMS8x Measuring wire Displacer Stilling well Endress+Hauser...
Page 18 Installation Proservo NMS83 5.1.2 Mounting without a guide system NMS8x is mounted on a nozzle of the tank roof without a guide system. Sufficient clearance inside the nozzle is necessary to allow the displacer to move without hitting the inner walls (for details of D, →  19).
Page 19 Proservo NMS83 Installation 5.1.3 Mounting with a stilling well The stilling well diameter that is required to protect the measuring wire without disturbing its operation varies depending on the tank height. The stilling well could either be of constant diameter, or narrower at its upper part and wider at its lower part. The following figure shows two examples of the latter case, namely a concentric stilling well and an asymmetric stilling well.
Page 20 Installation Proservo NMS83 p (L ) x A0026909  7 Mounting with asymmetric stilling well Front view Side view Length from the center of the calibration window to the upper part of the stilling well Length from the center of the calibration window to the bottom of the stilling well...
Page 21 Proservo NMS83 Installation Feature: 110 Description NMS80 NMS81 NMS83 (Measuring range; Wire; Diameter) 47 m (156.67 ft); 316L; 6 mm (0.24 in) 0.15 mm (0.00591 in) Feature: 120 Description NMS80 NMS81 NMS83 (Displacer material; Type) 316L; 30 mm (1 018 in) cylindrical 30 mm (1.18 in)
Page 22 Installation Proservo NMS83 p (Lx) (mm) ( ) -1.4 -1.3 -1.2 -1.1 -1.0 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3 2000 4000 6000 8000 10000 12000 14000 16000 18000 20000 22000 24000 1000 26000...
Page 23: Element Position 0 To
Proservo NMS83 Installation Lower diameter of stilling well The dimension of D has to be the larger value of the dimensions D and D See the table below. Concentric pipe Dimension Dimension Description Formula (Example) Example Parameter >100.9 mm 68.1 mm...
Page 24 Installation Proservo NMS83 5.1.4 Mounting with guide wires It is also possible to guide the displacer with guide wires to prevent swinging. 100 (3.94) A0026819  9 Guide wire; dimensions mm (in) Description Calibration chamber Spring and sleeve Guide wire sleeve...
Page 25 Proservo NMS83 Installation Description Ring, SUS316 Flange Reducer pipe for low pressure: 6 mm (0.236 in) Reducer flange material is selectable from SS400 and SUS304. Guide wire installation Guide wire installation procedure 1. Install NMS8x [1] on the reducer plate.
Page 26 Installation Proservo NMS83 5.1.5 Alignment of NMS8x Flange Confirm that the size of the nozzle and the flange is matched prior to mounting NMS8x on the tank. The flange size and the rating of NMS8x vary depending on the customer’s specifications.
Page 27 Proservo NMS83 Installation -90° 90° -45° 45° 0° ≥500 (19.69) A0026890  12 Recommended position for mounting NMS8x and minimum measuring level; dimensions mm (in) Inlet pipe Tank nozzle • Before pouring liquid into the tank, confirm that liquid flowing through the inlet of the pipe will not contact the displacer directly.
Page 28: Mounting Of The Device
Installation Proservo NMS83 Mounting of the device When NMS8x is delivered, the displacer is always shipped separately and there are two methods to install displacer as follows. • Installation for displacer shipped separately method • Installation through the calibration window 5.2.1...
Page 29 Proservo NMS83 Installation 5.2.2 Verification of displacer and wire drum Prior to installation of NMS8x, confirm that the serial numbers of displacer and the wire drum match with those printed to the label attached on the housing. Ser.no.: 98765432109 Spare part-no.:...
Page 30 Installation Proservo NMS83 5.2.3 Tools required for installation The following tools are required when installing NMS8x. Tools Figures Notes Box end wrench Use the following size • 24 mm (0.94 in) • 26 mm (1 in) • 30 mm (1.2 in) •...
Page 31 Proservo NMS83 Installation 5.2.4 Installation for displacer shipped separately method It is necessary to remove the wire drum from NMS8x, remove the tape on the wire drum, mount the wire drum in the drum housing, and install the displacer on the measuring wire.
Page 32 Installation Proservo NMS83 Figures Procedures Turn on the power of NMS8x. Perform sensor calibration Secure the displacer [2] to the measuring wire [1] using the securing wire [3]. Perform reference calibration. Turn off the power. Mont the wire drum cover [4].
Page 33 Proservo NMS83 Installation 5.2.5 Installation through the calibration window In the case of a 50 mm (1.97 in) diameter displacer, the displacer can be installed through the calibration window. It is only possible to install the following displacers through the calibration window:...
Page 34 Installation Proservo NMS83 Figures Procedures Hold the wire drum [1] up and place the displacer [2] into the calibration window. Remove the wire drum from the drum housing and unwind the measuring wire down approximately 500 mm (19.69 in). Hold the wire drum up and place the displacer into the calibration window.
Page 35: Post-Installation Check
Proservo NMS83 Installation 5.2.6 Displacer ground wire installation Depending on the application and Ex requirements, electrical grounding of the displacer is required. There are different procedures depending on the displacer type, which are described below. For details of displacer installation →  28 Standard displacer installation 1.
Page 36: Electrical Connection
Electrical connection Proservo NMS83 Electrical connection Terminal assignment POWER POWER G1 N AC 85...264 V G3 L A0027012  15 Terminal compartment (typical example) and ground terminals Terminal area Module Up to four I/O modules, depending on the order code •...
Page 37 Proservo NMS83 Electrical connection 6.1.1 Slots for I/O modules The terminal compartment contains four slots (A, B, C and D) for I/O modules. Depending on the device version (ordering features 040, 050 and 060) these slots contain different I/O modules. The table below shows which module is located in which slot for a specific device version.
Page 38 Electrical connection Proservo NMS83 "Primary Output" (040) = "Modbus" (A1) Ordering feature Terminal area NMx8x - xxxx XX XX XX Primary Secondary Secondary Output IO Analog IO Digital Ex d/XP A0023888 Modbus Modbus Digital Modbus Digital Digital Modbus Digital Digital...
Page 39 Proservo NMS83 Electrical connection "Primary Output" (040) = "V1" (B1) Ordering feature Terminal area NMx8x - xxxx XX XX XX Primary Secondary Secondary Output IO Analog IO Digital Ex d/XP A0023888 Digital Digital Digital Digital Digital Digital Analog Ex d/XP...
Page 40 Electrical connection Proservo NMS83 "Primary Output" (040) = "4-20mA HART Ex d" (E1) Ordering feature Terminal area NMx8x - xxxx XX XX XX Primary Secondary Secondary Output IO Analog IO Digital Ex d/XP A0023888 Analog Ex d/XP Analog Ex d/XP...
Page 41 Proservo NMS83 Electrical connection "Primary Output" (040) = "4-20mA HART Ex i" (H1) Ordering feature Terminal area NMx8x - xxxx XX XX XX Primary Secondary Secondary Output IO Analog IO Digital Ex d/XP A0023888 Analog Ex i/IS Analog Ex i/IS...
Page 42 Electrical connection Proservo NMS83 6.1.2 Terminals of the "Modbus" or "V1" module 1 2 3 4 D1-4 1 2 3 4 POWER A1-4 A0031200  16 Designation of the "Modbus" or "V1" modules (examples); depending on the device version these modules may also be in slot B or C.
Page 43 Proservo NMS83 Electrical connection 6.1.3 Terminals of the "Analog I/O" module (Ex d /XP or Ex i/IS) 1 2 3 4 5 6 7 8 C1-3 C4-8 1 2 3 4 5 6 7 8 POWER B1-3 B4-8 A0031168 Terminals Function...
Page 44 Electrical connection Proservo NMS83 "Operating mode" = "4..20mA input" or "HART master+4..20mA input" POWER POWER – A0027933  18 Passive usage of the Analog I/O module in the input mode Power supply External device with 4...20mA and/or HART signal output "Operating mode"...
Page 45 Proservo NMS83 Electrical connection 6.1.5 Connection of the "Analog I/O" module for active usage • In the active usage the supply voltage for the communication line is supplied by the device itself. There is no need of an external power supply.
Page 46 Electrical connection Proservo NMS83 "Operating mode" = "HART master" POWER POWER A0027936  22 Active usage of the Analog I/O module in the HART master mode Up to 6 external devices with HART signal output The maximum current consumption for the connected HART devices is 24 mA (i.e.
Page 47 Proservo NMS83 Electrical connection 6.1.7 Terminals of the "Digital I/O" module 1 2 3 4 5 6 7 C1-2 C3-4 1 2 3 4 POWER A1-2 A3-4 A0026424  23 Designation of the digital inputs or outputs (examples) • Each Digital IO Module provides two digital inputs or outputs.
Page 48: Connecting Requirements
Electrical connection Proservo NMS83 Connecting requirements 6.2.1 Cable specification Terminals Terminal Wire cross section Signal and power supply 0.2 to 2.5 mm (24 to 13 AWG) • Spring terminals (NMx8x-xx1...) • Screw terminals (NMx8x-xx2...) Ground terminal in the terminal compartment max.
Page 49: Ensuring The Degree Of Protection
Proservo NMS83 Electrical connection Ensuring the degree of protection To guarantee the specified degree of protection, carry out the following steps after the electrical connection: 1. Check that the housing seals are clean and fitted correctly. Dry, clean or replace the seals if necessary.
Page 50: Operability
Operability Proservo NMS83 Operability Overview of the operation options The device is operated via an operating menu →  51. This menu can be accessed by the following interfaces: • The display and operating module at the device (local operation; →  52).
Page 51: Structure And Function Of The Operating Menu
Proservo NMS83 Operability Structure and function of the operating menu Menu Submenu / Meaning parameter Operation Proservo Contains parameters to operate parameters Proservo (e.g. Gauge command). Level Shows the measured and calculated level values. Temperature Shows the measured and calculated temperature values.
Page 52: Access To The Operating Menu Via The Local Display
Operability Proservo NMS83 Access to the operating menu via the local display 7.3.1 Display and operating elements The device has an illuminated liquid crystal display (LCD) that shows measured and calculated values as well as the device status in the standard view. Other views are used to navigate through the operating menu and to set parameter values.
Page 53 Proservo NMS83 Operability 7.3.2 Standard view (measured value display) X X X X X X X 4841.00 Level bal. A0028702  25 Typical appearance of the standard view (measured value display) Display module Device tag Status area Display area for measured values Display area for status symbols W&M indication...
Page 54 Operability Proservo NMS83 Symbol 1 Symbol 2 Measured value Average profile density A0028150 A0027991 P1 (bottom) A0028151 A0028141 P2 (middle) A0028151 A0028142 P3 (top) A0028151 A0028146 GP 1 value This is used for an external device. A0027992 A0028141 GP 2 value This is used for an external device.
Page 55 Proservo NMS83 Operability Measured value status symbols Symbol Meaning Status "Alarm" The measurment is interrupted. The output assumes the defined alarm value. A diagnostic message is generated. A0012102 Status "Warning" The device continues measuring. A diagnostic message is generated. A0012103...
Page 56 Operability Proservo NMS83 7.3.3 Navigation view /../Setup 00215-1 Empty 10,000.00 mm Set level Calibration A0028347-EN  26 Navigation view Current submenu or wizard Quick access code Display area for navigation Navigation symbols Symbol Meaning Operation Is displayed: • in the main menu next to the selection Operation A0011975 •...
Page 57 Proservo NMS83 Operability Meaning of the keys in the navigation view Meaning Minus key Moves the selection bar upwards in a picklist. A0028324 Plus key Moves the selection bar downwards in a picklist. A0028325 Enter key • Pressing the key briefly opens the selected menu, submenu or parameter.
Page 58 Operability Proservo NMS83 7.3.4 Wizard view /../Set level Set level 0 mm Level 5000.0 mm A0028350-EN  27 Wizard view on the display module Current wizard Display area for navigation Wizard navigation symbols Symbol Meaning Parameters within a wizard A0013972 Switches to the previous parameter.
Page 59 Proservo NMS83 Operability 7.3.5 Numeric editor A0028341  28 Numeric editor on the display module Display area of the entered value Input mask Symbol Meaning Selection of numbers from 0 to 9. … A0013998 Inserts decimal separator at the input position.
Page 60 Operability Proservo NMS83 7.3.6 Text editor A0028342  29 Text editor on the display module Display area of the entered text Input mask Text editor symbols Symbol Meaning Selection of letters from A to Z ABC _ … A0013997 Toggle •...
Page 61 Proservo NMS83 Operability Meaning of the keys in the text editor Meaning Minus key In the input mask, moves the selection bar to the left (backwards). A0028324 Plus key In the input mask, moves the selection bar to the right (forwards).
Page 62 Operability Proservo NMS83 7.3.7 Adjustment of the display contrast Meaning Minus/Enter key combination (press and hold down the keys simultaneously) Reduces the contrast (brighter setting). A0028328 Plus/Enter key combination (press and hold down the keys simultaneously) Increases the contrast (darker setting).
Page 63 Proservo NMS83 Operability 7.3.9 Access code and user roles Meaning of the access code An access code can be defined in order to distinguish between the following user roles: User role Definition Maintenance • Knows the access code. • Has write access to all parameters (except service parameters).
Page 64 Operability Proservo NMS83 7.3.10 Write protection switch The entire operating menu can be locked by a hardware switch in the connection compartment. In this locking state W&M related parameters are read only. 1. Loosen the securing clamp. 2. Unscrew the housing cover.
Page 65: Access To The Operating Menu Via The Service Interface And Fieldcare
Access to the operating menu via the service interface and FieldCare A0028871  31 Operation via service interface Service interface (CDI = Endress+Hauser Common Data Interface) Commubox FXA291 Computer with "FieldCare" operating tool and "CDI Communication FXA291" COM DTM Endress+Hauser...
Page 66: Access To The Operating Menu Via Tankvision Tank Scanner Nxa820 And Fieldcare
Operability Proservo NMS83 Access to the operating menu via Tankvision Tank Scanner NXA820 and FieldCare 7.5.1 Wiring scheme NXA820 A0025621  32 Connection of Tank Gauging devices to FieldCare via the Tankvision Tank Scanner NXA820 Proservo NMS8x Tankside Monitor NRF81 Micropilot NMR8x Field protocol (e.g.
Page 67 Proservo NMS83 Operability 7.5.2 Establishing the connection between FieldCare and the device 1. Make sure the HART CommDTM NXA is installed and update the DTM catalogue if required. 2. Create a new project in FieldCare. A0028515 Add a new device: NXA HART Communication...
Page 68 Operability Proservo NMS83 A0028517 Select Create network from the context menu.  The device is detected and the DTM is assigned. A0028694 The device can be configured. Endress+Hauser...
Page 69: System Integration
Proservo NMS83 System integration System integration Overview of the Device Description files (DD) To integrate the device via HART into FieldCare, a Device Description file (DD) according to the following specification is required: Manufacturer ID 0x11 Device type (NMS8x) 0x112D...
Page 70: Commissioning
Commissioning Proservo NMS83 Commissioning Terms related to tank measurement A0026916  33 Terms concerning NMS8x installation Liquid level Upper interface Lower interface Gas phase Upper phase Middle phase Lower phase Tank bottom Gauge reference height Empty Datum plate Tank ullage...
Page 71: Initial Settings
Proservo NMS83 Commissioning Mechanical stop Slow hoist zone Distance Reference position Initial settings Depending on NMS8x specification, some of the initial settings described below may not be required. 9.2.1 Setting the display language Setting the display language via the display module 1.
Page 72 Commissioning Proservo NMS83 Use the following parameters to set the date and time: Year, Month, Day, Hour, Minutes. Go to the Set date parameter and select the Confirm time option.  The real-time clock is set to the current date and time.
Page 73: Calibration
Proservo NMS83 Commissioning Calibration After installing or replacing NMS8x or its parts (sensor module, detector unit, wire drum, or measuring wire), several calibration steps are required. All calibration steps may not be required, depending on whether the device is being installed, adjusted, or replaced (see table below).
Page 74 Commissioning Proservo NMS83 Data verification Data verification procedure 1. Check the displacer diameter, weight, volume, and balance volume for the Displacer diameter parameter, the Displacer weight parameter, the Displacer volume parameter, and the Displacer balance volume parameter. 2. Check the drum circumference for the Drum circumference parameter.
Page 75 Proservo NMS83 Commissioning 9.3.2 Move displacer The move displacer operation is optional and can be used to change the current position of the displacer in order to perform the calibration steps more easily. 1. Navigate to: Setup → Calibration → Move displacer → Move distance 2.
Page 76 Commissioning Proservo NMS83 9.3.3 Sensor calibration Sensor calibration adjusts the weight measurement of the detector unit. The calibration consists of three steps as follows. • ADC zero calibration • ADC offset calibration • ADC span calibration For the ADC offset weight calibration, either 0 g or an offset weight (0 to 100 g) can be used.
Page 77 Proservo NMS83 Commissioning Calibration procedure Step Using displacer Using offset weight Description • Navigate to: Setup → Calibration → Sensor calibration → Sensor calibration • Input the offset weight for the Offset weight parameter used in step 3 (0.0 g in case of using the displacer only).
Page 78 Commissioning Proservo NMS83 9.3.4 Reference calibration The reference calibration defines the zero distance position of the displacer from the mechanical stop. 1. Navigate to: Setup → Calibration → Reference calibration → Reference calibration 2. Select the Start option 3. Check the reference position (e.g. 70 mm (2.76 in)).
Page 79 Proservo NMS83 Commissioning 9.3.5 Drum calibration 1. Navigate to: Setup → Calibration → Drum calibration → Drum calibration 2. Ensure a distance of 500 mm (19.69 in) or more from the bottom of the displacer to the liquid level. 3. Confirm that the displacer weight is correct for the Set high weight parameter.
Page 80 Commissioning Proservo NMS83 9.3.6 Commissioning check This procedure is to confirm that all calibration steps have been completed appropriately. 1. Navigate to: Diagnostics → Device check → Commissioning check → Commissioning check 2. Select the Start option.  Executing option is shown on the verify drum table.
Page 81: Configuring The Measuring Device
Proservo NMS83 Commissioning Configuring the measuring device Configuration task Description Configuring the level and interface Setting density →  81 measurement Setting tank height →  82 Setting high and low stop →  83 Level calibration Setting for open tank with liquid →...
Page 82 Commissioning Proservo NMS83 A0029127  39 Tank configuration Liquid level Upper interface Lower interface Upper phase (density) Middle phase (density) Lower phase (density) Setting the tank height To measure the tank level correctly, the tank reference height and empty (distance from reference point to datum plate) must be set in advance.
Page 83 Proservo NMS83 Commissioning A0028023  40 Tank height High stop Low stop Datum plate Tank reference height Empty Setting the high stop and low stop The high stop and low stop determine the highest and lowest points of displacer movement. Set these data to the desired actual upper and lower limit values.
Page 84 Commissioning Proservo NMS83 9.4.2 Level calibration The following table shows the most likely options for setting the level calibration. Open tank with liquid Open tank without liquid Closed tank A0028865 A0028875 A0029125 Setting for an open tank with liquid Level setting procedure 1.
Page 85 Proservo NMS83 Commissioning Setting for an open tank without liquid If there is no liquid in the tank, the following procedure can be used to set the tank bottom or datum plate to 0 mm for the tank level. Level setting procedure 1.
Page 86 Commissioning Proservo NMS83 Setting for a closed tank For tanks that cannot be hand-dipped, follow the procedure shown below. Level setting procedure 1. Navigate to: Operation → Gauge command → Gauge command 2. Select the Bottom level option to measure the tank bottom.
Page 87 Proservo NMS83 Commissioning Selecting the process condition The process condition is used to adjust the device to the application. By changing this parameter, several balancing parameters are adjusted automatically to make setup easier. 1. Navigate to: Setup → Process condition 2.
Page 88 Commissioning Proservo NMS83 9.4.3 Configuring the density measurement The density measurement is performed to confirm and maintain the quality of the liquid. The density measurement is largely divided into two methods as shown below. Density methods Gauge command Description Spot density...
Page 89 Proservo NMS83 Commissioning The submersion depth (a) is set to 150 mm (5.91 in) prior to delivery. To change the submersion depth, perform the following steps. 1. Navigate to: Setup → Advanced setup → Sensor config → Spot density → Submersion depth 2.
Page 90 Commissioning Proservo NMS83 Profile density measurement Profile density has three gauge commands as shown below. NMS8x measures a density profile according to a defined interval of up to 50 points. A0029106  45 Overview of profile density (1a, 2a, 3a...show the order of displacer movements.)
Page 91 Proservo NMS83 Commissioning Tank profile measurement Setting tank profile procedure The tank profile operation measures a profile starting at the physical tank bottom up to the liquid level. 1. Navigate to: Setup → Advanced setup → Sensor config → Profile density → Profile density offset distance 2.
Page 92 Commissioning Proservo NMS83 Interface profile measurement Setting interface profile procedure The interface profile operation measures a profile starting at the upper interface level up to the liquid level. 1. Navigate to: Setup → Advanced setup → Sensor config → Profile density → Profile density offset distance 2.
Page 93 Proservo NMS83 Commissioning Manual profile measurement Setting manual profile procedure The manual profile operation measures a profile starting at a manually specified level up to the liquid level. 1. Navigate to: Setup → Advanced setup → Sensor config → Profile density → Manual profile level 2.
Page 94: Configuring The Tank Gauging Application
Commissioning Proservo NMS83 Configuring the tank gauging application Configuration task Description Configuration of the inputs HART inputs →  95 NMT532/532 connected via HART →  96 4-20mA inputs →  97 RTD input →  98 Digital inputs →  100 Linking the measured values to tank variables →...
Page 95 Proservo NMS83 Commissioning 9.5.1 Configuration of the HART inputs This section is only relevant if one or more HART devices are connected to the Proservo NMS8x. Connecting and addressing HART devices HART devices must be configured and given a unique HART address via their own user interface before they are connected to the Proservo NMS8x.
Page 96 Commissioning Proservo NMS83 9.5.2 Configuration of a connected NMT532/NMT539 If a NMT532 or NMT539 temperature transmitter is connected via HART, it can be configured as follows: 1. Navigate to: Expert → Input/output → HART devices → HART Device(s) → NMT device config 2.
Page 97 Proservo NMS83 Commissioning 9.5.3 Configuration of the 4-20mA inputs For each Analog I/O module to which a 4-20mA device is connected, proceed as follows: 1. Make sure the 4-20mA devices are connected as defined by the terminal assignment →  43.
Page 98 Commissioning Proservo NMS83 9.5.4 Configuration of a connected RTD 1. Make sure the RTD is connected as defined by the terminal assignment →  46. 2. Navigate to the submenu of the respective Analog I/O module: Setup → Advanced setup → Input/output → Analog IP 3.
Page 99 Proservo NMS83 Commissioning Offset for resistance and/or temperature An offset for the resistance or the temperature can be defined in the following submenu: Expert → Input/output → Analog IP submenu. • Ohms offset is added to the measured resistance before the calculation of the temperature.
Page 100 Commissioning Proservo NMS83 9.5.5 Configuration of the digital inputs There is a Digital Xx-x submenu for each digital input of the device. "X" designates the slot in the terminal compartment, "x-x" the terminals within this slot. The most important parameters of this submenu are Operating mode and Contact type.
Page 101 Proservo NMS83 Commissioning 9.5.6 Linking measured values to tank variables Measured values must be linked to tank variables before they can be used in the Tank Gauging application. This is done by defining the source of each tank variable in the...
Page 102 Commissioning Proservo NMS83 9.5.7 Configuration of the tank calculations Direct level measurement If no tank calculation is configured, level and temperature are measured directly. A0030167 Direct level measurement (without temperature) Direct level and temperature measurement NMS8x To inventory management system Temperature transmitter 1.
Page 103 Proservo NMS83 Commissioning Hybrid tank measurement system (HTMS) HTMS uses level and pressure measurements to calculate the contents of the tank and (optionally) the density of the medium. In non-atmospheric (i.e. pressurized) tanks it is recommended to use the HTMS P1+P3 mode.
Page 104 Commissioning Proservo NMS83 Correction of the Hydrostatic Tank Deformation (HyTD) Hydrostatic Tank Deformation can be used to compensate the vertical movement of the Gauge Reference Height (GRH) due to bulging of the tank shell caused by the hydrostatic pressure exerted by the liquid stored in the tank. The compensation is based on a linear approximation obtained from manual hand dips at several levels divided over the full range of the tank.
Page 105 Proservo NMS83 Commissioning Thermal tank shell correction (CTSh) CTSh (correction of the thermal tank shell expansion) compensates for effects on the Gauge Reference Height (GRH) due to temperature effects on the tank shell or stilling well. The temperature effects are separated into two parts, respectively effecting the ' d ry' and ' w etted' part of the tank shell or stilling well.
Page 106 Commissioning Proservo NMS83 9.5.8 Configuration of the limit evaluation A limit evaluation can be configured for up to 4 tank variables. The limit evaluation issues an alarm if the value exceeds an upper limit or falls below a lower limit, respectively. The limit values can be defined by the user.
Page 107 Proservo NMS83 Commissioning 9.5.9 Configuration of the signal output HART output Assigning the HART variables If the device contains an Analog I/O module, this can be used as a HART output. To configure the HART signal, proceed as follows: 1. Navigate to: Setup → Advanced setup → Input/output → Analog I/O 2.
Page 108 Commissioning Proservo NMS83 4-20mA output Each Analog I/O module of the device can be configured as a 4...20mA analog output. To do so, proceed as follows: 1. Navigate to: Setup → Advanced setup → Input/output → Analog I/O 2. Go to the Operating mode parameter and select the 4..20mA output option.
Page 109: Advanced Settings
Proservo NMS83 Commissioning Advanced settings For a more detailed configuration of the signal inputs, the tank calculations and the signal outputs refer to the Advanced setup submenu (→  183). Simulation To check the correct configuration of the device and of the control system, it is possible to simulate different situations (measured values, diagnostic messages etc.).
Page 110: Operation
Operation Proservo NMS83 Operation 10.1 Reading off the device locking status Depending on the locking state of the device some operations may be locked. The current locking status is indicated at: Setup → Advanced setup → Locking status. The following...
Page 111: Gauge Commands
Proservo NMS83 Operation 10.3 Gauge commands 10.3.1 Overview of available device functions Gauge commands are mainly divided into two categories. • Continuous gauge command • One-time gauge command (non-continuous) One-time gauge commands have a defined end state. After a one-time gauge command is completed, another gauge command is executed which is defined by the Post gauge command parameter.
Page 112 Operation Proservo NMS83 Gauge Post gauge Descriptions command command The displacer moves up to the reference Not available position. R Reference position Bottom level The displacer searches for the tank bottom. Customer set After determining the bottom value, the value post gauge command is executed.
Page 113 Proservo NMS83 Operation Gauge Post gauge Descriptions command command Repeatability The displacer is taken out of the liquid. Level After that, the displacer returns to the level measurement. This can be used for a function check.  This gauge command should only be executed if the current gauge command is level.
Page 114 Operation Proservo NMS83 10.3.3 Sources for gauge commands Gauge commands can be sent via various sources. • Displays or CDI (e.g. FieldCare) • Digital input (e.g. NHS8 switch) • Fieldbus (Modbus, V1, HART) The last received gauge command via any sources will be executed as usual.
Page 115: Diagnostics And Troubleshooting
Proservo NMS83 Diagnostics and troubleshooting Diagnostics and troubleshooting 11.1 General trouble shooting 11.1.1 General errors Error Possible cause Remedial action Device does not respond. Supply voltage not connected. Connect the correct voltage. The cables do not contact the Ensure electrical contact between the terminals properly.
Page 116: Diagnostic Information On Local Display
Diagnostics and troubleshooting Proservo NMS83 11.2 Diagnostic information on local display 11.2.1 Diagnostic message Faults detected by the self-monitoring system of the measuring device are displayed as a diagnostic message in alternation with the measured value display. Measured value display in alarm condition...
Page 117 Proservo NMS83 Diagnostics and troubleshooting Diagnostics event and event text The fault can be identified using the diagnostics event. The event text helps you by providing information about the fault. In addition, the corresponding symbol is displayed before the diagnostics event.
Page 118 Diagnostics and troubleshooting Proservo NMS83 11.2.2 Calling up remedial measures X X X X X X X X X X X X X X 20.50 S801 Supply voltage Menu Diagnostic list Diagnostics 1 S801 Supply voltage Diagnostics 2 Diagnostics 3...
Page 119: Diagnostic Information In Fieldcare
Proservo NMS83 Diagnostics and troubleshooting 11.3 Diagnostic information in FieldCare Any faults detected by the measuring device are displayed on the home page of the operating tool once the connection has been established. Xxxxxx/…/…/ Device name: Xxxxxxx kg/h Mass flow: 12.34...
Page 120 Diagnostics and troubleshooting Proservo NMS83 11.3.2 Diagnostic information The fault can be identified using the diagnostic information. The short text helps you by providing information about the fault. In addition, the corresponding symbol for the diagnostic behavior is displayed in front of the diagnostic information on the local display.
Page 121: Overview Of The Diagnostic Messages
Proservo NMS83 Diagnostics and troubleshooting 11.4 Overview of the diagnostic messages Diagnostic Short text Remedy instructions Status Diagnostic number signal behavior [from the [from the factory] factory] Diagnostic of sensor Sensor incompatible error 1. Restart device Alarm 2. Contact service Detector error 1.
Page 122 Diagnostics and troubleshooting Proservo NMS83 Diagnostic Short text Remedy instructions Status Diagnostic number signal behavior [from the [from the factory] factory] Diagnostic of configuration AIO simulation output Deactivate simulation AIO output Warning DIO simulation output Deactivate simulation DIO output Warning Calibration AIO 1.
Page 123 Proservo NMS83 Diagnostics and troubleshooting Diagnostic Short text Remedy instructions Status Diagnostic number signal behavior [from the [from the factory] factory] Diagnostic of process Energy too low Increase supply voltage Warning Current loop 1. Check device configuration. Alarm 2. Check wiring.
Page 124: Diagnostic List
Diagnostics and troubleshooting Proservo NMS83 11.5 Diagnostic list In the Diagnostic list submenu, up to 5 currently pending diagnostic messages can be displayed. If more than 5 messages are pending, the messages with the highest priority are shown on the display.
Page 125: Reset Measuring Device
Proservo NMS83 Diagnostics and troubleshooting 11.6 Reset measuring device To reset the device to a defined state use the Device reset parameter (→  301). 11.7 Device information Information on the device (order code, hardware and software version of the individual modules etc.) can be found in the Device information submenu (→...
Page 126: Maintenance
12.2 Measuring and test equipment Endress+Hauser offers a wide variety of measuring and test equipment, such as W@M or device tests. Your Endress+Hauser Sales Center can provide detailed information on the services.
Page 127: Repair
13.1.1 Repair concept The Endress+Hauser repair concept assumes that the devices have a modular design and that repairs can be done by the Endress+Hauser service or specially trained customers. Spare parts are contained in suitable kits. They contain the related replacement instructions.
Page 128: Return
The measuring device must be returned if repairs or a factory calibration are required, or if the wrong measuring device has been ordered or delivered. According to legal regulations, Endress+Hauser, as an ISO-certified company, is required to follow certain procedures when handling returned products that are in contact with medium.
Page 129: Accessories
Proservo NMS83 Accessories Accessories 14.1 Device-specific accessories 14.1.1 Weather protection cover 471.6 (18.6) A0028872  55 Weather protection cover; dimensions: mm (in) Materials Part Material Protection cover and mounting brackets 316L (1.4404) Screws and washers • The weather protection cover can be ordered together with the device: Ordering feature 620 "Accessory Enclosed", option PA "Weather Protection Cover")
Page 130 (removing displacers), while the tank is in service. The standard chamber has 6 in flange, with bolts and packing for connection to NMS8x. The following figure shows dimensions of NHC4LP, 10K 150A RF, SUS304 version. For the other specifications, contact Endress+Hauser representatives. 222.5 (8.76) ø150 (5.91) A0026735 ...
Page 131 Proservo NMS83 Accessories 14.1.3 NHS8 (Power and control switch) NHS8 is used for field mounted tank gauges. This provides additional gauge operation contact switching in order to control the gauge’s operation, such as hoisting up the displacer. 113 (4.45) INST...
Page 132 Accessories Proservo NMS83 1 2 3 4 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 POWER INST STOP LIFT A0026737  58 Connection diagram NMS8x IOM-digital (D-terminal) numbers...
Page 133 Proservo NMS83 Accessories Setting for NHS8 (power and control switch) connections The following settings are required to display NHS8 data on the NMS8x screen. A0028700  59 Digital D-12/D-34 setting screen via FieldCare 1. Navigate to: Setup → Advanced setup → Input/output → Digital Xx-x (e.g. Digital D-12) ...
Page 134 The standard ball valve has ASME flange. The ball material is SS304 and the seat material is PTFE. The following figure shows dimensions of NHV4J, 10K 150A RF, SUS304 version. For the other specifications, contact Endress+Hauser representatives. 295 (11.61) A0026738 ...
Page 135 Proservo NMS83 Accessories 14.1.5 Reducing flange Use a reducing flange when the NMS8x process connection is 80A (3 in)and mounting nozzle is 150A (6 in). 12-ø22.4 (8.82) 8-ø23 (9.06) 3/4 8-UNC P.C.D = ø269.7 (106.18) P.C.D = ø241.3 (95) P.C.D = ø168.1 (66.18) 4-UNC 5/8 ø279 (10.98)
Page 136 Accessories Proservo NMS83 14.1.6 Relief valve and pressure gauge A relief valve is used to release pressure inside the housing of NMS8x before maintenance. A0028881  63 Relief valve A pressure gauge is used to check process pressure inside the housing.
Page 137 Proservo NMS83 Accessories 14.1.7 Cleaning nozzle and gas purging nozzle A cleaning nozzle used for washing inside housing is especially recommended for F&B or alcohol applications. A gas purging nozzle used for purging gas inside the housing is especially recommended for a nitrogen blanket for petrochemical or chemical applications.
Page 138: Communication-Specific Accessories
 For details refer to Technical Information TI00404F Accessory Description Commubox FXA291 Connects Endress+Hauser field devices with CDI interface (= Endress+Hauser Common Data Interface) to the USB interface of a computer.  For details refer to Technical Information TI00405C Accessory...
Page 139: System Components
Proservo NMS83 Accessories 14.4 System components Accessory Description RIA15 Compact process display unit with very low voltage drop for universal use to display 4 to 20 mA/HART signals  For details refer to Technical Information TI01043K. Tankvision Inventory Management System with completely integrated software for operation •...
Page 140: Operating Menu
Operating menu Proservo NMS83 Operating menu • : Navigation path for operating module at the device • : Navigation path for operating tool (e.g. FieldCare) • : Parameter can be locked via software locking 15.1 Overview of the operating menu •...
Page 141 Proservo NMS83 Operating menu Bottom level →  156 Water level →  157 Measured level →  157 Distance →  153 Displacer position →  157 ‣ Temperature →  158 Air temperature →  158 →  158 Liquid temperature →...
Page 142 Operating menu Proservo NMS83 Lower density timestamp →  162 ‣ Profile density →  163 Profile density 0 to 49 →  163 Profile density position 0 to 49 →  163 ‣ Pressure →  163 →  163...
Page 143 Proservo NMS83 Operating menu Level source →  171 High stop level →  171 Low stop level →  172 Distance →  153 Liquid temp source →  172 ‣ Calibration →  174 ‣ Move displacer →  174 Move distance →...
Page 144 Operating menu Proservo NMS83 Sensor calibration →  176 Calibration status →  177 ‣ Reference calibration →  178 Reference calibration →  178 Reference position →  178 →  178 Progress Progress →  178 Calibration status →...
Page 145 Proservo NMS83 Operating menu Drum calibration →  180 Calibration status →  177 ‣ Advanced setup →  183 Locking status →  183 Access status tooling →  183 Enter access code →  183 ‣ Input/output →  184 ‣...
Page 146 Operating menu Proservo NMS83 ‣ Analog I/O →  196 Operating mode →  196 Current span →  197 Fixed current →  197 Analog input source →  198 →  199 Failure mode Error value →  199 Input value →...
Page 147 Proservo NMS83 Operating menu Input value →  206 Contact type →  207 Output simulation →  207 Output values →  208 Readback value →  208 Used for SIL →  208 ‣ Digital input mapping →  210 Digital input source 1 →...
Page 148 Operating menu Proservo NMS83 ‣ Application →  236 ‣ Tank configuration →  236 ‣ Level →  236 ‣ Temperature →  240 ‣ Density →  243 ‣ →  245 Pressure ‣ Tank calculation →  250 ‣...
Page 149 Proservo NMS83 Operating menu Displacer volume →  281 Displacer balance volume →  281 Displacer height →  281 Immersion depth →  282 ‣ Wiredrum →  283 Drum circumference →  283 Wire weight →  283 ‣...
Page 150 Operating menu Proservo NMS83 Header →  291 Header text →  291 Display interval →  292 Display damping →  292 Backlight →  292 →  293 Contrast display ‣ System units →  294 Units preset →...
Page 151 Proservo NMS83 Operating menu ‣ Deactivate SIL/WHG →  300 ‣ Administration →  301 Define access code →  301 Device reset →  301  Diagnostics →  302 Actual diagnostics →  302 Timestamp →  302 Previous diagnostics →...
Page 152 Operating menu Proservo NMS83 Simulation distance on →  307 Simulation distance →  308 Current output 1 simulation →  308 Simulation value →  308 ‣ Device check →  310 ‣ →  311 Commissioning check Commissioning check →...
Page 153: Operation" Menu
Proservo NMS83 Operating menu 15.2 "Operation" menu The Operation menu (→  153) shows the most important measured values and allows to issue a gauge command. Navigation  Operation Gauge command  Navigation  Operation → Gauge command Description Gauge operation command to choose the measurement mode of the device.
Page 154: Net Weight
Operating menu Proservo NMS83 Net weight Navigation  Operation → Net weight Description Shows the corrected weight data from the detector, as compensated by the drum table, This weight is used for measurement. Additional information Read access Operator Write access...
Page 155: One-Time Command Status
Proservo NMS83 Operating menu One-time command status Navigation  Operation → One-time Cmd Description Indicates the status of the last executed one-time gauge command. Additional information Read access Operator Write access 15.2.1 "Level" submenu Navigation  Operation → Level Tank level Navigation ...
Page 156: Tank Ullage
Operating menu Proservo NMS83 Additional information Read access Operator Write access Tank ullage % Navigation  Operation → Level → Tank ullage % Description Shows the remaining empty space in the tank as a percentage of the full tank space.
Page 157: Water Level
Proservo NMS83 Operating menu Water level Navigation  Operation → Level → Water level Description Shows the bottom water level. Additional information Read access Operator Write access Measured level Navigation  Operation → Level → Measured level Description Shows the measured level without any correction from the tank calculations.
Page 158: Temperature
Operating menu Proservo NMS83 15.2.2 "Temperature" submenu Navigation  Operation → Temperature Air temperature Navigation  Operation → Temperature → Air temp. Description Shows the air temperature. Additional information Read access Operator Write access Liquid temperature Navigation  Operation → Temperature → Liquid temp.
Page 159: Element Temperature
Proservo NMS83 Operating menu Navigation  Operation → Temperature → NMT elem. values "Element temperature" submenu Navigation  Operation → Temperature → NMT elem. values → Element temp. Element temperature 0 to 23 Navigation  Operation → Temperature → NMT elem. values → Element temp. → Element temp 0...
Page 160: Density
Operating menu Proservo NMS83 15.2.3 "Density" submenu Navigation  Operation → Density Observed density Navigation  Operation → Density → Observed density Description Calculated density of the product. Additional information Read access Operator Write access This value is calculated from different measured variables depending on the selected calculation method →...
Page 161: Measured Upper Density
Proservo NMS83 Operating menu Measured upper density Navigation  Operation → Density → Meas upper dens. Description Shows the density of the upper phase. Additional information Read access Operator Write access Upper density timestamp Navigation  Operation → Density → UpDens timestamp Description Shows the time stamp for the upper density.
Page 162: Measured Lower Density
Operating menu Proservo NMS83 Measured lower density Navigation  Operation → Density → Meas lower dens. Description Density of the lower phase. Additional information Read access Maintenance Write access Lower density timestamp Navigation  Operation → Density → LowerDensTimestp Description Shows the time stamp for the lower density.
Page 163: Profile Density
Proservo NMS83 Operating menu "Profile density" submenu Navigation  Operation → Density → Profile density Profile density 0 to 49 Navigation  Operation → Density → Profile density → Profile dens 0 to 49 Description Shows the density measurement at the corresponding profile density position.
Page 164: P3 (Top)
Operating menu Proservo NMS83 P3 (top) Navigation  Operation → Pressure → P3 (top) Description Shows the pressure (P3) at the top transmitter. Additional information Read access Operator Write access Endress+Hauser...
Page 165: Gp Values
Proservo NMS83 Operating menu 15.2.5 "GP values" submenu Navigation  Operation → GP values GP 1 to 4 name  Navigation  Operation → GP values → GP 1 name Description Defines the label associated with the respective GP value.
Page 166 Operating menu Proservo NMS83 Additional information Read access Operator Write access GP Value 4 Navigation  Operation → GP values → GP Value 4 Description Shows the value of the fourth GP parameter. Additional information Read access Operator Write access...
Page 167: Setup" Menu
Proservo NMS83 Operating menu 15.3 "Setup" menu Navigation  Setup Device tag  Navigation  Setup → Device tag Description Enter a unique name for the measuring point to identify the device quickly within the plant. Factory setting NMS8x Additional information...
Page 168: Upper Density
Operating menu Proservo NMS83 Upper density  Navigation  Setup → Upper density Description Sets the density of the upper phase of the liquid. User entry 300 to 2 000 kg/m³ Factory setting 800 kg/m³ Additional information Read access Operator...
Page 169: Process Condition
Proservo NMS83 Operating menu Gauge command  Navigation  Setup → Gauge command Description Gauge operation command to choose the measurement mode of the device. Selection • Stop • Level • Up • Bottom level • Upper I/F level • Lower I/F level •...
Page 170: Empty
Operating menu Proservo NMS83 Empty  Navigation  Setup → Empty Description Distance from reference point to zero position (tank bottom or datum plate). User entry 0 to 100 000 mm Factory setting Dependent on the device version Additional information...
Page 171: Set Level
Proservo NMS83 Operating menu Set level  Navigation  Setup → Set level Description If the level measured by the device does not match the actual level obtained by a manual dip, enter the correct level into this parameter. User entry...
Page 172 Operating menu Proservo NMS83 User entry –999 999.9 to 999 999.9 mm Factory setting Dependent on the device version Additional information Read access Operator Write access Maintenance Low stop level  Navigation  Setup → Low stop level Description Position of the displacer low stop as measured from defined zero position (tank bottom or datum plate).
Page 173 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 174 Operating menu Proservo NMS83 15.3.1 "Calibration" submenu Read access Maintenance Navigation  Setup → Calibration "Move displacer" wizard Navigation  Setup → Calibration → Move displacer Move distance  Navigation  Setup → Calibration → Move displacer → Move distance Description Up or down movement of displacer in mm.
Page 175 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Motor status Navigation  Setup → Calibration → Move displacer → Motor status Description Shows the current moving Direction of the Motor. Additional information Read access Operator Write access Move displacer ...
Page 176: Sensor Calibration
Operating menu Proservo NMS83 "Sensor calibration" wizard Navigation  Setup → Calibration → Sensor cal. Sensor calibration  Navigation  Setup → Calibration → Sensor cal. → Sensor cal. Description This sequence calibrates the sensor of the servo. Additional information...
Page 177: Calibration Status
Proservo NMS83 Operating menu Zero calibration  Navigation  Setup → Calibration → Sensor cal. → Zero calibration Description In this step the sensor calibration zero weight will be done. Additional information Read access Operator Write access Maintenance Calibration status Navigation ...
Page 178: Reference Calibration
Operating menu Proservo NMS83 "Reference calibration" wizard Navigation  Setup → Calibration → Reference cal. Reference calibration  Navigation  Setup → Calibration → Reference cal. → Reference cal. Description This sequence will move the displacer to the mechanical stop and set the reference position.
Page 179 Proservo NMS83 Operating menu Calibration status Navigation  Setup → Calibration → Reference cal. → Status Description Gives feedback on the latest status of the calibration process. Additional information Read access Operator Write access Endress+Hauser...
Page 180: Drum Calibration
Operating menu Proservo NMS83 "Drum calibration" wizard Navigation  Setup → Calibration → Drum cal. Drum calibration  Navigation  Setup → Calibration → Drum cal. → Drum cal. Description This sequence will perform a drum calibration. Additional information Read access...
Page 181: Make Low Table
Proservo NMS83 Operating menu Additional information Read access Operator Write access Calibration status Navigation  Setup → Calibration → Drum cal. → Status Description Gives feedback on the latest status of the calibration process. Additional information Read access Operator Write access Make low table ...
Page 182 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 183 Proservo NMS83 Operating menu 15.3.2 "Advanced setup" submenu Navigation  Setup → Advanced setup Locking status Navigation  Setup → Advanced setup → Locking status Description Indicates the write protection with the highest priority that is currently active. Additional information...
Page 184 Operating menu Proservo NMS83 "Input/output" submenu Navigation  Setup → Advanced setup → Input/output "HART devices" submenu This submenu is only present if at least one HART slave device has been found on the HART loop. Navigation  Setup → Advanced setup → Input/output → HART devices...
Page 185 Proservo NMS83 Operating menu "HART Device(s)" submenu There is a HART Device(s) submenu for each HART slave device found on the HART loop. Navigation  Setup → Advanced setup → Input/output → HART devices → HART Device(s) Device name Navigation ...
Page 186 Operating menu Proservo NMS83 Operating mode  Navigation  Setup → Advanced setup → Input/output → HART devices → HART Device(s) → Operating mode Prerequisite Not available if the HART device is a Prothermo NMT. Selection • PV only • PV,SV,TV & QV •...
Page 187 Proservo NMS83 Operating menu HART SV (Designation dependent on device) Navigation  Setup → Advanced setup → Input/output → HART devices → HART Device(s) → HART SV (Designation dependent on device) Description Shows the second HART variable (SV). Additional information...
Page 188 Operating menu Proservo NMS83 Selection • No value • Primary variable (PV) • Secondary variable (SV) • Tertiary variable (TV) • Quaternary variable (QV) Factory setting No value Additional information Read access Operator Write access Maintenance Output density  Navigation ...
Page 189 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Output vapor temperature  Navigation  Setup → Advanced setup → Input/output → HART devices → HART Device(s) → Output vapor tmp Prerequisite Not available for Micropilot S FMR5xx and Prothermo 53x. (In these cases the measured variables are allocated automatically).
Page 190 Operating menu Proservo NMS83 "Forget device" wizard Navigation  Setup → Advanced setup → Input/output → HART devices → Forget device Forget device  Navigation  Setup → Advanced setup → Input/output → HART devices → Forget device → Forget...
Page 191 Proservo NMS83 Operating menu "Analog IP" submenu There is a Analog IP submenu for each Analog I/O module of the device. This submenu refers to terminals 4 to 8 of this module (the analog input). For terminals 1 to 3 (analog input or output) refer to →  196.
Page 192 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance RTD connection type  Navigation  Setup → Advanced setup → Input/output → Analog IP → RTD connect type Prerequisite Operating mode (→  191) = RTD temperature input Description Defines the connection type of the RTD.
Page 193 Proservo NMS83 Operating menu Factory setting Level linearized Additional information Read access Operator Write access Maintenance 0 % value  Navigation  Setup → Advanced setup → Input/output → Analog IP → 0 % value Prerequisite Operating mode (→  191) = 4..20mA input Description Defines the value represented by a current of 4 mA.
Page 194 Operating menu Proservo NMS83 User entry –213 to 927 °C Factory setting –100 °C Additional information Read access Operator Write access Maintenance Maximum probe temperature  Navigation  Setup → Advanced setup → Input/output → Analog IP → Max. probe temp Prerequisite Operating mode (→...
Page 195 Proservo NMS83 Operating menu Damping factor  Navigation  Setup → Advanced setup → Input/output → Analog IP → Damping factor Prerequisite Operating mode (→  191) ≠ Disabled Description Defines the damping constant (in seconds). User entry 0 to 999.9 s...
Page 196: Operating Mode
Operating menu Proservo NMS83 "Analog I/O" submenu There is a HART Device(s) submenu for each Analog I/O module of the device. This submenu refers to terminals 1 to 3 of this module (an analog input or output). For terminals 4 to 8 (always an analog input) refer to →  191.
Page 197: Current Span
Proservo NMS83 Operating menu Current span  Navigation  Setup → Advanced setup → Input/output → Analog I/O → Current span Prerequisite Operating mode parameter (→  196) ≠ Disabled option or HART master option Description Defines the current range for the measured value transmission.
Page 198: Analog Input Source
Operating menu Proservo NMS83 Analog input source  Navigation  Setup → Advanced setup → Input/output → Analog I/O → Analog source Prerequisite Operating mode (→  196) = 4..20mA output or HART slave +4..20mA output Description Defines the value which will be transmitted via the Analog I/O module.
Page 199: Failure Mode
Proservo NMS83 Operating menu Failure mode  Navigation  Setup → Advanced setup → Input/output → Analog I/O → Failure mode Prerequisite Operating mode (→  196) = 4..20mA output or HART slave +4..20mA output Description Defines the output behavior in case of an error.
Page 200: Value
Operating menu Proservo NMS83 0 % value  Navigation  Setup → Advanced setup → Input/output → Analog I/O → 0 % value Prerequisite Operating mode (→  196) = 4..20mA output or HART slave +4..20mA output Description Value corresponding to an output current of 0% (4mA).
Page 201: Output Values
Proservo NMS83 Operating menu Output value Navigation  Setup → Advanced setup → Input/output → Analog I/O → Output value Prerequisite Operating mode (→  196) = 4..20mA output or HART slave +4..20mA output Description Shows the value of the current output.
Page 202: Analog Input 100% Value
Operating menu Proservo NMS83 Analog input 100% value  Navigation  Setup → Advanced setup → Input/output → Analog I/O → AI 100% value Prerequisite Operating mode (→  196) = 4..20mA input or HART master+4..20mA input Description Value corresponding to an output current of 100% (20mA).
Page 203: Input Value In Ma
Proservo NMS83 Operating menu Input value in mA Navigation  Setup → Advanced setup → Input/output → Analog I/O → Input val. in mA Prerequisite Operating mode (→  196) = 4..20mA input or HART master+4..20mA input Description Shows the input value in mA.
Page 204: Expected Sil Chain
Operating menu Proservo NMS83 Description in preparation. Selection • Enabled • Disabled Factory setting Disabled Additional information Read access Operator Write access Maintenance Expected SIL chain Navigation  Setup → Advanced setup → Input/output → Analog I/O → Expec. SIL chain Prerequisite Operating mode (→...
Page 205: Operating Mode
Proservo NMS83 Operating menu "Digital Xx-x" submenu • In the operating menu, each digital input or output is designated by the respective slot of the terminal compartment and two terminals within this slot. A1-2, for example, denotes terminals 1 and 2 of slot A. The same is valid for slots B, C and D if they contain a Digital IO module.
Page 206: Input Value
Operating menu Proservo NMS83 Description Defines which device state is indicated by the digital output. Selection • None • Alarm x any • Alarm x High • Alarm x HighHigh • Alarm x High or HighHigh • Alarm x Low •...
Page 207: Contact Type
Proservo NMS83 Operating menu Contact type  Navigation  Setup → Advanced setup → Input/output → Digital Xx-x → Contact type Prerequisite Operating mode (→  205) ≠ Disabled Description Determines the switching behavior of the input or output. Selection •...
Page 208: Output Values
Operating menu Proservo NMS83 The switching state of these relays is defined by the Output simulation parameter as follows: Output simulation State of relay 1 State of relay 2 Expected result on the terminals of the I/O module Simulating active...
Page 209 Proservo NMS83 Operating menu Selection • Enabled • Disabled Factory setting Disabled Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 210: Digital Input Mapping
Operating menu Proservo NMS83 "Digital input mapping" submenu Navigation  Setup → Advanced setup → Input/output → DI mapping Digital input source 1  Navigation  Setup → Advanced setup → Input/output → DI mapping → Digital source 1 Description Selects the source of Digital Input #1 (for gauge command).
Page 211: Gauge Command 0
Proservo NMS83 Operating menu Gauge command 0  Navigation  Setup → Advanced setup → Input/output → DI mapping → Gauge command 0 Prerequisite Digital input source 1 (→  210) ≠ None Description Gauge Command assigned to Digital Input combination 0 (DI2=0, DI1=0).
Page 212: Gauge Command 2
Operating menu Proservo NMS83 • Interface profile • Manual profile • Level standby Factory setting Additional information Read access Operator Write access Maintenance Gauge command 2  Navigation  Setup → Advanced setup → Input/output → DI mapping → Gauge command 2 Prerequisite •...
Page 213 Proservo NMS83 Operating menu Selection • Stop • Level • Up • Bottom level • Upper I/F level • Lower I/F level • Upper density • Middle density • Lower density • Repeatability • Water dip • Release overtension • Tank profile •...
Page 214: Communication
Operating menu Proservo NMS83 "Communication" submenu This menu contains a submenu for each digital communication interface of the device. The communication interfaces are designated by "X1-4" where "X" specifies the slot in the terminal compartmen and "1-4" the terminals within this slot.
Page 215: Communications Info
Proservo NMS83 Operating menu Additional information Read access Operator Write access Communications info Navigation  Setup → Advanced setup → Communication → Modbus X1-4 → Commu info Description in preparation. Additional information Read access Operator Write access Endress+Hauser...
Page 216: Configuration
Operating menu Proservo NMS83 "Configuration" submenu Navigation  Setup → Advanced setup → Communication → Modbus X1-4 → Configuration Baudrate  Navigation  Setup → Advanced setup → Communication → Modbus X1-4 → Configuration → Baudrate Prerequisite Communication interface protocol (→  214) = MODBUS Description Defines the baud rate of the Modbus communication.
Page 217 Proservo NMS83 Operating menu Modbus address  Navigation  Setup → Advanced setup → Communication → Modbus X1-4 → Configuration → Device ID Prerequisite Communication interface protocol (→  214) = MODBUS Description Defines the Modbus address of the device.
Page 218 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 219: Configuration
Proservo NMS83 Operating menu "Configuration" submenu This submenu is only present for devices with a V1 communication interface. Navigation  Setup → Advanced setup → Communication → V1 X1-4 → Configuration Communication interface protocol variant  Navigation  Setup → Advanced setup → Communication → V1 X1-4 → Configuration → Protocol...
Page 220 Operating menu Proservo NMS83 User entry 0 to 255 Factory setting Additional information Read access Operator Write access Maintenance Level mapping  Navigation  Setup → Advanced setup → Communication → V1 X1-4 → Configuration → Level mapping Prerequisite Communication interface protocol (→  214) = V1 Description Determines the transmittable range of levels.
Page 221 Proservo NMS83 Operating menu Line impedance  Navigation  Setup → Advanced setup → Communication → V1 X1-4 → Configuration → Line impedance Prerequisite Communication interface protocol (→  214) = V1 Description Adjusts the impedance of the communication line. Note: The line impedance affects the voltage difference between a logical 0 and a logical 1 on the message of the device to the bus.
Page 222 Operating menu Proservo NMS83 Selection • NMS5x • NMS8x Factory setting NMS8x Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 223: V1 Input Selector
Proservo NMS83 Operating menu "V1 input selector" submenu This submenu is only present for devices with a V1 communication interface. Navigation  Setup → Advanced setup → Communication → V1 X1-4 → V1 input select. Alarm 1 input source ...
Page 224 Operating menu Proservo NMS83 Alarm 2 input source  Navigation  Setup → Advanced setup → Communication → V1 X1-4 → V1 input select. → Alarm2 input src Description Determines which discrete value will be transmitted as V1 alarm 2 status.
Page 225 Proservo NMS83 Operating menu Selection • None • Tank level % • Tank ullage % • AIO B1-3 value % • AIO C1-3 value % Factory setting None Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 226: Hart Output
Operating menu Proservo NMS83 "HART output" submenu Navigation  Setup → Advanced setup → Communication → HART output "Configuration" submenu Navigation  Setup → Advanced setup → Communication → HART output → Configuration System polling address  Navigation  Setup → Advanced setup → Communication → HART output → Configuration →...
Page 227 Proservo NMS83 Operating menu Selection • Measured level • Tank level • Tank ullage • Vapor temperature • Air temperature • Liquid temperature • Observed density value • Upper density • Middle density • Lower density • Upper interface level •...
Page 228 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance 100 % value  Navigation  Setup → Advanced setup → Communication → HART output → Configuration → 100 % value Prerequisite PV source (→  233) = Custom Description Defines which value of the primary variable corresponds to 100%.
Page 229 Proservo NMS83 Operating menu • Flow velocity • Volume flow • Vapor density • Middle density • Upper density • Correction • Tank level % • GP 1 ... 4 value • Measured level • P3 position • Tank reference height •...
Page 230 Operating menu Proservo NMS83 Assign TV  Navigation  Setup → Advanced setup → Communication → HART output → Configuration → Assign TV Description Assigns a tank variable to the third HART variable (TV). Selection • Tank level • Liquid temperature •...
Page 231 Proservo NMS83 Operating menu Tertiary variable (TV) Navigation  Setup → Advanced setup → Communication → HART output → Configuration → Tertiary var(TV) Prerequisite Assign TV (→  230) ≠ None Additional information Read access Operator Write access Assign QV ...
Page 232 Operating menu Proservo NMS83 • Element temperature 1 ... 24 • AIO B1-3 value • AIO C1-3 value • AIP B4-8 value • AIP C4-8 value • None Factory setting Observed density value Additional information Read access Operator Write access...
Page 233 Proservo NMS83 Operating menu PV source  Navigation  Setup → Advanced setup → Communication → HART output → Configuration → PV source Selection • AIO B1-3 • AIO C1-3 • Custom Factory setting Custom Additional information Read access Maintenance...
Page 234: Information
Operating menu Proservo NMS83 "Information" submenu Navigation  Setup → Advanced setup → Communication → HART output → Information HART short tag  Navigation  Setup → Advanced setup → Communication → HART output → Information → HART short tag Description Short tag for the measuring point.
Page 235 Proservo NMS83 Operating menu HART message  Navigation  Setup → Advanced setup → Communication → HART output → Information → HART message Description HART message which is sent via the HART protocol if requested by the master. Factory setting...
Page 236 Operating menu Proservo NMS83 "Application" submenu Navigation  Setup → Advanced setup → Application "Tank configuration" submenu Navigation  Setup → Advanced setup → Application → Tank config "Level" submenu Navigation  Setup → Advanced setup → Application → Tank config → Level Level source ...
Page 237 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance The reference point is the reference line of the calibration window. Tank reference height  Navigation  Setup → Advanced setup → Application → Tank config → Level → Tank ref height...
Page 238 Operating menu Proservo NMS83 The device adjusts the Empty parameter (→  170) according to the entered value, such that the measured level will match the actual level. Water level source  Navigation  Setup → Advanced setup → Application → Tank config → Level → Water level src Description Defines the source of the bottom water level.
Page 239 Proservo NMS83 Operating menu Additional information Read access Operator Write access Endress+Hauser...
Page 240 Operating menu Proservo NMS83 "Temperature" submenu Read access Maintenance Navigation  Setup → Advanced setup → Application → Tank config → Temperature Liquid temp source  Navigation  Setup → Advanced setup → Application → Tank config → Temperature → Liq temp...
Page 241 Proservo NMS83 Operating menu Air temperature source  Navigation  Setup → Advanced setup → Application → Tank config → Temperature → Air temp. source Description Defines source from which the air temperature is obtained. Selection • Manual value • HART device 1 ... 15 temperature •...
Page 242 Operating menu Proservo NMS83 Vapor temp source  Navigation  Setup → Advanced setup → Application → Tank config → Temperature → Vapor temp src Description Defines the source from which the vapor temperature is obtained. Selection • Manual value •...
Page 243 Proservo NMS83 Operating menu "Density" submenu Navigation  Setup → Advanced setup → Application → Tank config → Density Observed density source  Navigation  Setup → Advanced setup → Application → Tank config → Density → Density source Description Determines how the density is obtained.
Page 244 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Vapor density  Navigation  Setup → Advanced setup → Application → Tank config → Density → Vapor density Description Defines the density of the gas phase in the tank.
Page 245 Proservo NMS83 Operating menu "Pressure" submenu Navigation  Setup → Advanced setup → Application → Tank config → Pressure P1 (bottom) source  Navigation  Setup → Advanced setup → Application → Tank config → Pressure → P1 (bot) source Description Defines the source of the bottom pressure (P1).
Page 246 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance P1 position  Navigation  Setup → Advanced setup → Application → Tank config → Pressure → P1 position Description Defines the position of the bottom pressure transmitter (P1), measured from zero position (tank bottom or datum plate).
Page 247 Proservo NMS83 Operating menu Factory setting Gauge Additional information Read access Operator Write access Maintenance P3 (top) source  Navigation  Setup → Advanced setup → Application → Tank config → Pressure → P3 (top) source Description Defines the source of the top pressure (P3).
Page 248 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance P3 position  Navigation  Setup → Advanced setup → Application → Tank config → Pressure → P3 position Description Defines the position of the top pressure transmitter (P3), measured from zero position (tank bottom or datum plate).
Page 249 Proservo NMS83 Operating menu Factory setting Gauge Additional information Read access Operator Write access Maintenance Ambient pressure  Navigation  Setup → Advanced setup → Application → Tank config → Pressure → Ambient pressure Description Defines the manual value of the ambient pressure.
Page 250 Operating menu Proservo NMS83 "Tank calculation" submenu Navigation  Setup → Advanced setup → Application → Tank calculation "HyTD" submenu Overview Hydrostatic Tank Deformation can be used to compensate the vertical movement of the Gauge Reference Height (GRH) due to bulging of the tank shell caused by the hydrostatic pressure exerted by the liquid stored in the tank.
Page 251 Proservo NMS83 Operating menu Linear approximation of the HyTD correction The real amount of deformation varies non-linearly with the level due to the construction of the tank. However, as the correction values are typically small compared to the measured level, a simple straight line method can be used with good results.
Page 252 Operating menu Proservo NMS83 Description of parameters Navigation  Setup → Advanced setup → Application → Tank calculation → HyTD HyTD correction value Navigation  Setup → Advanced setup → Application → Tank calculation → HyTD → HyTD corr. value Description Shows the correction value from the Hydrostatic Tank Deformation.
Page 253 Proservo NMS83 Operating menu Deformation factor  Navigation  Setup → Advanced setup → Application → Tank calculation → HyTD → Deform factor Description Defines the deformation factor of the Hydrostatic Tank Deformation (change of gauge position per change of level).
Page 254 Operating menu Proservo NMS83 "CTSh" submenu Overview CTSh (correction of the thermal tank shell expansion) compensates for effects on the Gauge Reference Height (GRH) due to temperature effects on the tank shell or stilling well. The temperature effects are separated into two parts, respectively effecting the ' d ry' and ' w etted' part of the tank shell or stilling well.
Page 255 Proservo NMS83 Operating menu CTSh: Calculation of the wall temperature A0028713  72 Parameters for the CTSh calculation Gauge Reference Height (GRH) Temperature of the wetted part of the tank shell Temperature of the dry part of the tank shell...
Page 256 Operating menu Proservo NMS83 A0030383 Covered tank (→  258) = Covered; Stilling well (→  259) = Yes Covered tank (→  258) = Covered; Stilling well (→  259) = No Covered tank (→  258) = Open top; Stilling well (→  259) = Yes Covered tank (→...
Page 257 Proservo NMS83 Operating menu CTSh: Calculation of the correction = (H - L)(T - T ) + L (T - T ) α α CTSh A0028716 Gauge Reference Height Measured level Temperature of the dry part of the tank shell (calculated from T...
Page 258 Operating menu Proservo NMS83 Description of parameters Navigation  Setup → Advanced setup → Application → Tank calculation → CTSh CTSh correction value Navigation  Setup → Advanced setup → Application → Tank calculation → CTSh → CTSh corr value Description Shows the CTSh correction value.
Page 259 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance The Covered option is only valid for fixed tank roofs. For a floating roof select Open top. Stilling well  Navigation  Setup → Advanced setup → Application → Tank calculation → CTSh → Stilling well Description Determines whether the device is mounted on a stilling well.
Page 260 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 261 Proservo NMS83 Operating menu "HTMS" submenu Overview The Hybrid Tank Measurement System (HTMS) is a method to calculate the density of a product in a tank based on both a (top mounted) level and at least one (bottom mounted) pressure measurement. An additional pressure sensor can be installed at the top of the tank to provide information about the vapor pressure and to make the density calculation more accurate.
Page 262 Operating menu Proservo NMS83 HTMS modes Two HTMS modes can be selected in the HTMS mode parameter (→  263). The mode determines whether one or two pressure values are used. Depending on the selected mode a number of additional parameters are required for the calculation of the product density.
Page 263 Proservo NMS83 Operating menu Lmin A0029148  74 HTMS hysteresis Value calculated Value held/manual Minimum level (→  264) Hysteresis (→  265) Description of parameters Navigation  Setup → Advanced setup → Application → Tank calculation → HTMS HTMS mode ...
Page 264 Operating menu Proservo NMS83 User entry 0 to 3 000 kg/m³ Factory setting 800 kg/m³ Additional information Read access Maintenance Write access Maintenance Density value Navigation  Setup → Advanced setup → Application → Tank calculation → HTMS → Density value Description Shows the calculated product density.
Page 265 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance If the pressure P1 falls below the limit defined in this parameter, the density retains its last value or the manual value is used instead. Safety distance ...
Page 266 Operating menu Proservo NMS83 Factory setting 1 000 kg/m³ Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 267 Proservo NMS83 Operating menu "Alarm 1" submenu Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → Alarm mode Alarm mode  Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → Alarm mode Description Defines the alarm mode of the selected alarm.
Page 268 Operating menu Proservo NMS83 A0029539  75 Principle of the limit evaluation Alarm mode (→  267) = On Alarm mode (→  267) = Latching HH alarm value (→  270) H alarm value (→  270) L alarm value (→  271) LL alarm value (→...
Page 269 Proservo NMS83 Operating menu Alarm value source  Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → Alarm source Prerequisite Alarm mode (→  267) ≠ Off Description Determines the process variable to be monitored.
Page 270 Operating menu Proservo NMS83 Alarm value Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → Alarm value Prerequisite Alarm mode (→  267) ≠ Off Description Shows the current value of the process variable being monitored.
Page 271 Proservo NMS83 Operating menu L alarm value  Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → L alarm value Prerequisite Alarm mode (→  267) ≠ Off Description Defines the Low limit value. User entry...
Page 272 Operating menu Proservo NMS83 Additional information Read access Operator Write access H alarm Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → H alarm Prerequisite Alarm mode (→  267) ≠ Off Description Shows whether an H alarm is currently active.
Page 273 Proservo NMS83 Operating menu Description Shows whether an L alarm is currently active. User interface • Unknown • Inactive • Active • Error Factory setting Unknown Additional information Read access Operator Write access LL alarm Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → LL alarm Prerequisite Alarm mode (→...
Page 274 Operating menu Proservo NMS83 Any error Navigation  Setup → Advanced setup → Application → Alarm → Alarm 1 → Any error Prerequisite Alarm mode (→  267) ≠ Off Description Shows whether any alarm is currently active. User interface •...
Page 275 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 276 Operating menu Proservo NMS83 "Safety settings" submenu Navigation  Setup → Advanced setup → Safety settings Output out of range  Navigation  Setup → Advanced setup → Safety settings → Output out range Description Selection of behavior when displacer reached High stop level (→  171), Low stop level or Reference position.
Page 277 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Slow hoist zone  Navigation  Setup → Advanced setup → Safety settings → Slow hoist zone Description Defines the interval in millimeters, measured down from the Reference Position, in which the Displacer reduces moving speed.
Page 278 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 279 Proservo NMS83 Operating menu "Sensor config" submenu Navigation  Setup → Advanced setup → Sensor config Post gauge command  Navigation  Setup → Advanced setup → Sensor config → Post gauge cmd Description Defines the gauge command that will be executed after a one-time gauge command has finished.
Page 280 Operating menu Proservo NMS83 "Displacer" submenu Navigation  Setup → Advanced setup → Sensor config → Displacer Displacer type  Navigation  Setup → Advanced setup → Sensor config → Displacer → Displacer type Description Chooses the type of displacer used.
Page 281 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Displacer volume  Navigation  Setup → Advanced setup → Sensor config → Displacer → Displacer volume Description Displacer volume indicated on displacer in mililiter. User entry 10 to 999.9 ml Factory setting See label on the device.
Page 282 Operating menu Proservo NMS83 Immersion depth  Navigation  Setup → Advanced setup → Sensor config → Displacer → Immersion depth Description Defines distance (mm) from displacer bottom to balancing line defined by balanced volume. Value is needed for correct bottom level measurement.
Page 283 Proservo NMS83 Operating menu "Wiredrum" submenu Navigation  Setup → Advanced setup → Sensor config → Wiredrum Drum circumference  Navigation  Setup → Advanced setup → Sensor config → Wiredrum → Drum circumfer Description Sets the circumference of the wire drum. Indicated in Label.
Page 284 Operating menu Proservo NMS83 "Spot density" submenu Navigation  Setup → Advanced setup → Sensor config → Spot density Upper density offset  Navigation  Setup → Advanced setup → Sensor config → Spot density → Up dens. offset Description Defines an offset value which is added to the measured upper density value.
Page 285 Proservo NMS83 Operating menu Submersion depth  Navigation  Setup → Advanced setup → Sensor config → Spot density → Submersion depth Description Sets the displacer submersion depth (mm) for spot density operations. User entry 50 to 99 999.9 mm...
Page 286 Operating menu Proservo NMS83 "Profile density" submenu Navigation  Setup → Advanced setup → Sensor config → Profile density Density measurement mode  Navigation  Setup → Advanced setup → Sensor config → Profile density → Density mode Description In normal measure mode, measures at specified positions. In compensation mode measures using next integer value of drum turns to improve accuracy.
Page 287 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Profile density interval  Navigation  Setup → Advanced setup → Sensor config → Profile density → Density interval Description Sets the interval between two measurement points in profile density operation.
Page 288 Operating menu Proservo NMS83 "Display" submenu This menu is only visible if the device has a local display. Navigation  Setup → Advanced setup → Display Language Navigation  Setup → Advanced setup → Display → Language Prerequisite The device has a local display.
Page 289 Proservo NMS83 Operating menu Selection • 1 value, max. size • 1 bargraph + 1 value • 2 values • 1 value large + 2 values • 4 values Factory setting 2 values Additional information Read access Operator Write access Operator •...
Page 290 Operating menu Proservo NMS83 • AIP B4-8 value • AIP B4-8 value mA • AIP B4-8 value % • AIP C4-8 value • AIP C4-8 value mA • AIP C4-8 value % Factory setting Tank level Additional information Read access...
Page 291 Proservo NMS83 Operating menu Number format  Navigation  Setup → Advanced setup → Display → Number format Prerequisite The device has a local display. Description Choose number format for the display. Selection • Decimal • ft-in-1/16' ' Factory setting...
Page 292 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Display interval Navigation  Setup → Advanced setup → Display → Display interval Prerequisite The device has a local display. Description Set time measured values are shown on display if display alternates between values.
Page 293 Proservo NMS83 Operating menu Factory setting Enable Additional information Read access Operator Write access Operator Contrast display Navigation  Setup → Advanced setup → Display → Contrast display Prerequisite The device has a local display. Description Adjust local display contrast setting to ambient conditions (e.g. lighting or reading angle).
Page 294 Operating menu Proservo NMS83 "System units" submenu Navigation  Setup → Advanced setup → System units Units preset  Navigation  Setup → Advanced setup → System units → Units preset Description Defines a set of units for length, pressure and temperature.
Page 295 Proservo NMS83 Operating menu Additional information Read access Operator Write access Maintenance Pressure unit  Navigation  Setup → Advanced setup → System units → Pressure unit Description Select process pressure unit. Selection SI units US units Other units • bar •...
Page 296 Operating menu Proservo NMS83 Selection SI units US units • g • kg Factory setting Additional information Read access Operator Write access Maintenance Density unit  Navigation  Setup → Advanced setup → System units → Density unit Description Select density unit.
Page 297 Proservo NMS83 Operating menu "Date / time" submenu Navigation  Setup → Advanced setup → Date / time Date/time Navigation  Setup → Advanced setup → Date / time → Date/time Description Shows the current date and time from the real-time clock.
Page 298 Operating menu Proservo NMS83 Year  Navigation  Setup → Advanced setup → Date / time → Year Prerequisite Set date (→  297) = Start Description Enter the current year. User entry 2 016 to 2 079 Factory setting...
Page 299 Proservo NMS83 Operating menu Hour  Navigation  Setup → Advanced setup → Date / time → Hour Prerequisite Set date (→  297) = Start Description Enter the current hour. User entry 0 to 23 Factory setting Additional information...
Page 300 Operating menu Proservo NMS83 "SIL confirmation" wizard • The SIL confirmation wizard is only available for devices with SIL or WHG approval (Feature 590: "Additional Approval", option LA: "SIL" or LC: "WHG overfill prevention" ) which are currently not in the SIL- or WHG-locked state.
Page 301 Proservo NMS83 Operating menu "Administration" submenu Navigation  Setup → Advanced setup → Administration Define access code  Navigation  Setup → Advanced setup → Administration → Def. access code Description Define release code for write access to parameters. User entry...
Page 302: Diagnostics" Menu
Operating menu Proservo NMS83 15.4 "Diagnostics" menu Navigation  Diagnostics Actual diagnostics Navigation  Diagnostics → Actual diagnos. Description Displays current diagnostic message. Additional information The display consists of: • Symbol for event behavior • Code for diagnostic behavior • Operating time of occurrence •...
Page 303 Proservo NMS83 Operating menu Timestamp Navigation  Diagnostics → Timestamp Description Displays timestamp for the Previous diagnostics parameter (→  302). User interface Days (d), hours (h), minutes (m), seconds (s) Operating time from restart Navigation  Diagnostics → Time fr. restart Description Displays the time the device has been in operation since the last device restart.
Page 304 Operating menu Proservo NMS83 15.4.1 "Diagnostic list" submenu Navigation  Diagnostics → Diagnostic list Diagnostics 1 to 5 Navigation  Diagnostics → Diagnostic list → Diagnostics 1 to 5 Description Display the current diagnostics messages with the highest to fifth-highest priority.
Page 305 Proservo NMS83 Operating menu 15.4.2 "Device information" submenu Navigation  Diagnostics → Device info Device tag Navigation  Diagnostics → Device info → Device tag Description Shows the device tag. Factory setting NMS8x Additional information Read access Operator Write access...
Page 306 Operating menu Proservo NMS83 Device name Navigation  Diagnostics → Device info → Device name Description Shows the name of the transmitter. Factory setting NMS8x Additional information Read access Operator Write access Order code  Navigation  Diagnostics → Device info → Order code Description Shows the device order code.
Page 307 Proservo NMS83 Operating menu 15.4.3 "Simulation" submenu Read access Maintenance Navigation  Diagnostics → Simulation Device alarm simulation  Navigation  Diagnostics → Simulation → Dev. alarm sim. Description Switch the device alarm on and off. Selection • Off • On...
Page 308 Operating menu Proservo NMS83 Additional information Read access Operator Write access Maintenance Simulation distance  Navigation  Diagnostics → Simulation → Sim distance Prerequisite Simulation distance on (→  307) = On Description Defines the distance to be simulated. User entry...
Page 309 Proservo NMS83 Operating menu User entry 3.4 to 23 mA Factory setting 3.5 mA Additional information Read access Operator Write access Maintenance Endress+Hauser...
Page 310 Operating menu Proservo NMS83 15.4.4 "Device check" submenu Navigation  Diagnostics → Device check Endress+Hauser...
Page 311 Proservo NMS83 Operating menu "Commissioning check" wizard Navigation  Diagnostics → Device check → Commission check Commissioning check  Navigation  Diagnostics → Device check → Commission check → Commission check Description This sequence supports checking of the hardware on sensor side and correct installation of the sensor.
Page 312: Index
Diagnostics event ......117 Digital input mapping (Submenu) ....210 Endress+Hauser...
Page 313 Hysteresis (Parameter) ..... . 265 Endress+Hauser services HyTD (Submenu) ......252 Maintenance .
Page 314 Offset weight (Parameter) ....176 One-time command status (Parameter) ..155 Endress+Hauser...
Page 315 Date / time ......297 Density ......160, 243 Endress+Hauser...
Page 316 Year (Parameter) ......298 Zero calibration (Parameter) ....177 Endress+Hauser...
Page 318 *71318331* 71318331 www.addresses.endress.com...

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