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BA256F/00/en/04.0552020859Valid as of software version:V 02.01
Operating Instructions
Tank Side Monitor NRF590Inventory ControlSoftware Version 02.01
Notes on Software Version SW 02.01 Tank Side Monitor NRF590
2
Notes on Software Version SW 02.01
Key operationIn Software Version SW 02.01, the operation of the optical keys of the Tank Side Monitor NRF590 is based on the distinction between "pressing" and "holding" of the keys.
Pressing a key means to touch the optical key and to release it after a short time (< 2 seconds).The key operation "press" is required for most menue operations.
Holding a key means to touch the optical key for more than 2 seconds.The key operation "hold" is required for scrolling in lists or changing of values.
The change of the display contrast is based on pressing the optical keys. When pressing the according key combination, the contrast change screen appears, where the contrast may be changed by continuously holding the respective keys.
Automatic HART scanIn Software Version 02.01, the HART scan is performed automatically by the NRF590 HART Master and needs not to be started from the operating menue.
Modbus terminationIn Software Version 02.01, the Modbus termination is activated via menue operation, not by a hardware jumper.
Tank Side Monitor NRF590 Table of contents
3
Table of contents
1 Safety instructions . . . . . . . . . . . . . . . . 41.1 Designated use . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41.2 Installation, commissioning, operation . . . . . . . . . . . 41.3 Operational safety . . . . . . . . . . . . . . . . . . . . . . . . . . 41.4 Return . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51.5 Notes on safety conventions and symbols . . . . . . . . . 6
2 Identification . . . . . . . . . . . . . . . . . . . . 72.1 Parts of the Tank Side Monitor . . . . . . . . . . . . . . . . 72.2 Nameplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82.3 Product structure . . . . . . . . . . . . . . . . . . . . . . . . . . 92.4 Scope of delivery . . . . . . . . . . . . . . . . . . . . . . . . . . 102.5 Supplied documentation . . . . . . . . . . . . . . . . . . . . 102.6 CE mark, declaration of conformity . . . . . . . . . . . . 112.7 Registered trademarks . . . . . . . . . . . . . . . . . . . . . . 11
3 Installation . . . . . . . . . . . . . . . . . . . . . 123.1 Design, dimensions . . . . . . . . . . . . . . . . . . . . . . . . 123.2 Installation variants . . . . . . . . . . . . . . . . . . . . . . . . 123.3 Rotating the housing . . . . . . . . . . . . . . . . . . . . . . . 143.4 Rotating the display module . . . . . . . . . . . . . . . . . . 153.5 Grounding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163.6 Post-installation check . . . . . . . . . . . . . . . . . . . . . . 16
4 Wiring . . . . . . . . . . . . . . . . . . . . . . . . 174.1 Wiring the Non-IS (Ex d) connections . . . . . . . . . . 174.2 Wiring the IS (Ex ia) connection . . . . . . . . . . . . . . 23
5 Operation . . . . . . . . . . . . . . . . . . . . . . 265.1 Display and operating elements . . . . . . . . . . . . . . . 265.2 Key assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . 275.3 Measured value display . . . . . . . . . . . . . . . . . . . . . 295.4 Operating menu . . . . . . . . . . . . . . . . . . . . . . . . . . 315.5 Locking/unlocking parameters . . . . . . . . . . . . . . . 35
6 Commissioning. . . . . . . . . . . . . . . . . . 376.1 Theoretical background . . . . . . . . . . . . . . . . . . . . . 376.2 Addressing of the HART instruments . . . . . . . . . . . 406.3 Steps of the Commissioning Procedure . . . . . . . . . 41
7 Maintenance and repairs . . . . . . . . . . 437.1 Exterior cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . 437.2 Replacing seals . . . . . . . . . . . . . . . . . . . . . . . . . . . 437.3 Repairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 437.4 Repairs to Ex-approved devices . . . . . . . . . . . . . . . 437.5 Spare parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 447.6 Return . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 467.7 Disposal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 467.8 Software history . . . . . . . . . . . . . . . . . . . . . . . . . . 46
8 Accessories . . . . . . . . . . . . . . . . . . . . . 478.1 Discrete I/O modules . . . . . . . . . . . . . . . . . . . . . . 478.2 Rail mounting kit . . . . . . . . . . . . . . . . . . . . . . . . . . 51
9 Technical Data. . . . . . . . . . . . . . . . . . . 529.1 Technical Data at a Glance . . . . . . . . . . . . . . . . . . . 52
10 Operating Menu . . . . . . . . . . . . . . . . . 5810.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5810.2 "Tank Values" Function Group . . . . . . . . . . . . . . . . 5910.3 "Display" Function group . . . . . . . . . . . . . . . . . . . . 6010.4 "Configuration" Function Group - Part 1 . . . . . . . . 6110.5 "Configuration" Function Group - Part 2 . . . . . . . . 6210.6 "System" Function Group . . . . . . . . . . . . . . . . . . . . 6310.7 "Alarm" Function Group . . . . . . . . . . . . . . . . . . . . 6410.8 "Discrete IO" Function Group . . . . . . . . . . . . . . . . 6510.9 "Analogue IO" Function Group - Inputs . . . . . . . . . 6610.10 "Analogue IO" Function Group - Outputs . . . . . . . . 6710.11 "Analogue IO" Function Group - IS RTD . . . . . . . . 6810.12 "HART devices" Function Group - Generic . . . . . . . 6910.13 "HART devices" Function Group - FMR - 1st part . . 7010.14 "HART devices" Function Group - FMR - 2nd part . 7110.15 "HART devices" Function Group - 1646/NMTxxx . 7210.16 "HART devices"
Function Group - NMT539(+WB) - 1 . . . . . . . . . . 7310.17 "HART devices"
Function Group - NMT539(+WB) - 2 . . . . . . . . . . 7410.18 "HART devices" Function Group - NMT539 WB . . 7510.19 "HART devices" Function Group - PMC . . . . . . . . . 7610.20 "NRF Output" Function Group - HART / V1 . . . . . 7710.21 "NRF Output" Function Group - Modbus . . . . . . . . 7810.22 "NRF Output" Function Group - BPM . . . . . . . . . . 79
11 Appendix . . . . . . . . . . . . . . . . . . . . . . . 8011.1 Function and system design . . . . . . . . . . . . . . . . . . 8011.2 Tank calculations . . . . . . . . . . . . . . . . . . . . . . . . . . 8111.3 The block model of the Tank Side Monitor . . . . . . . 83
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Safety instructions Tank Side Monitor NRF590
4
1 Safety instructions
1.1 Designated useThe Tank Side Monitor NRF590 is a monitoring unit for use with the Endress+Hauser Micropilot M and Micropilot S-series radars and other HART compatible devices. Mounted at the tank side, the NRF590 provides indication of measured data, allows configuration and supplies intrinsically safe (i.s.) power to the connected sensors on the tank. Various industry standard digital gauging communication protocols support integration into open architecture tank gauging and inventory systems.
1.2 Installation, commissioning, operation• Mounting, electrical installation, start-up and maintenance of the instrument may only be carried
out by trained personnel authorized by the operator of the facility.• Personnel must absolutely and without fail read and understand this Operating Manual before
carrying out its instructions.• The instrument may only be operated by personnel who are authorized and trained by the
operator of the facility. All instructions in this Manual are to be observed without fail.• The installer has to make sure that the measuring system is correctly wired according to the
wiring diagrams. The measuring system is to be grounded.• Please observe all provisions valid for your country and pertaining to the opening and repairing of
electrical devices.
1.3 Operational safety
1.3.1 Hazardous areasMeasuring systems for use in hazardous environments are accompanied by separate "Ex documentation", which is an integral part of this Operating Manual. Strict compliance with the installation instructions and ratings as stated in this supplementary documentation is mandatory.
• Ensure that all personnel are suitably qualified.• Observe the specifications in the certificate as well as national and local regulations.
1.3.2 FCC approvalThis device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
! Note! Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
Tank Side Monitor NRF590 Safety instructions
5
1.4 ReturnThe following procedures must be carried out before a transmitter is sent to Endress+Hauser for repair:
• Always enclose a duly completed "Declaration of Contamination" form. Only then can Endress +Hauser transport, examine and repair a returned device.
• Enclose special handling instructions if necessary, for example a safety data sheet as per EN 91/155/EEC.
• Remove all residue which may be present. Pay special attention to the gasket grooves and crevices where fluid may be present. This is especially important if the fluid is dangerous to health, e.g. corrosive, poisonous, carcinogenic, radioactive, etc.
! Note! A copy of the “Declaration of Contamination” is included at the end of this operating manual.
" Caution! • No instrument should be sent back for repair without all dangerous material being completely
removed first, e.g. in scratches or diffused through plastic.• Incomplete cleaning of the instrument may result in waste disposal or cause harm to personnel
(burns, etc.). Any costs arising from this will be charged to the operator of the instrument.
Safety instructions Tank Side Monitor NRF590
6
1.5 Notes on safety conventions and symbolsIn order to highlight safety-relevant or alternative operating procedures in the manual, the following conventions have been used, each indicated by a corresponding symbol in the margin.
Symbol Meaning
#Warning!A warning highlights actions or procedures which, if not performed correctly, will lead to personal injury, a safety hazard or destruction of the instrument
"Caution!Caution highlights actions or procedures which, if not performed correctly, may lead to personal injury or incorrect functioning of the instrument
!Note!A note highlights actions or procedures which, if not performed correctly, may indirectly affect operation or may lead to an instrument response which is not planned
0Device certified for use in explosion hazardous areaIf the Micropilot has this symbol embossed on its name plate it can be installed in an explosion hazardous area
-Explosion hazardous areaSymbol used in drawings to indicate explosion hazardous areas.
– Devices located in and wiring entering areas with the designation “explosion hazardous areas” must conform with the stated type of protection
.Safe area (non-explosion hazardous area)Symbol used in drawings to indicate, if necessary, non-explosion hazardous areas.
– Devices located in safe areas still require a certificate if their outputs run into explosion hazardous areas
% Direct voltageA terminal to which or from which a direct current or voltage may be applied or supplied
&Alternating voltageA terminal to which or from which an alternating (sine-wave) current or voltage may be applied or supplied
)Grounded terminalA grounded terminal, which as far as the operator is concerned, is already grounded by means of an earth grounding system
*Protective grounding (earth) terminalA terminal which must be connected to earth ground prior to making any other connection to the equipment
+Equipotential connection (earth bonding)A connection made to the plant grounding system which may be of type e.g. neutral star or equipotential line according to national or company practice
Tank Side Monitor NRF590 Identification
7
2 Identification
2.1 Parts of the Tank Side Monitor
L00-NRF590-03-00-06-yy-001
AAAA: Non-i.s. terminal compartment; BBBB: i.s. terminal compartment; CCCC: graphical display; DDDD: optical keys; EEEE: cable entries for non-i.s. connection (with glands according to product structure); FFFF: cable entries for i.s. connection (with glands according to product structure); GGGG: nameplate; HHHH: grounding terminals; IIII: mounting plate
A
B
C
D
E
F
G
H
I
Identification Tank Side Monitor NRF590
8
2.2 Nameplate
L00-NRF590xx-18-00-00-yy-001
1111: complete product designation; 2/32/32/32/3: power supply specifications; 4444: year of construction; 5555: NMi certification number; 6/76/76/76/7: PTB certification number; 8888: serial number; 9999: reference to installation drawing or safety instructions (for Ex-certified instrument versions only); 10101010: type of protection (for Ex-certified instrument versions only); 11:11:11:11: admissible ambient temperature; 12:12:12:12: certification symbols
Dat./Insp.:
BaujahrYear of constr.
Zertifikat-Nr.Certification no.
Tank-Nr.Tank-no.
IP 65Ser.No.:
Order Code: NRF590
XA 160 F -
Made in Germany, D-79689 Maulburg
Tank Side Monitor
if modificationsee sep. labelX =
Tamb
1
8
23 45
6
7
9
10
11
12
Tank Side Monitor NRF590 Identification
9
2.3 Product structure
10 CertificatesA For non-hazardous areas6 ATEX II 2 (1) EEx d (ia) IIC T4U CSA XP Cl. I, Div 1, Gr. A-DS FM XP Cl. I, Div 1, Gr. A-DK TIIS EEx d (ia) IIC T4 (in preparation)Y Special version, to be specified
20 Field communication protocolE ENRAF BPM, non-IS 4-20mA input, non-IS 4-20mA HART outputG GPE, non-IS 4-20mA HART output1 WM550, non-IS 4-20mA output, Whessoe protocol with dual communication3 Varec Mark/Space, non-IS 4-20mA input, non-IS 4-20mA HART output4 Modbus w/o 4-20mA input or output, EIA 4855 Modbus, non-IS 4-20mA input, non IS 4-20mA HART output, EIA 4857 L&J, non-IS 4-20mA input, non-IS 4-20mA HART output8 V1, non-IS 4-20mA output, non-IS 4-20mA HART output, relay output9 Special version, to be specified
30 Power supplyA Power supply 18...55 VAC/DCB Power supply 55...264V ACY Special version, to be specified
40 Spot RTD option0 Without RTD temperature input1 With spot RTD temperature input, IS9 Special version, to be specified
50 Discrete I/O Module AA Without discrete input/output module A B Discrete input module A, 90...140V ACC Discrete input module A, 3...32V DCD Discrete input module A, 180...250V ACE Discrete input module A, 35...60V AC/DCG Discrete output module A, 24...250V ACH Discrete output module A, 3...60V DCJ Discrete output module A, 24...140V ACK Discrete output module A, 4...200V DCR Relay output A, 0-100 VDC, 0-120VACY Special version, to be specified
60 Discrete I/O Module BA Without discrete input/output module B B Discrete input module B, 90...140V ACC Discrete input module B, 3...32V DCD Discrete input module B, 180...250V ACE Discrete input module B, 35...60V AC/DCG Discrete output module B, 24...250V ACH Discrete output module B, 3...60V DCJ Discrete output module B, 24...140V ACK Discrete output module B, 4...200V DCR Relay output B, 0-100 VDC, 0-120VACY Special version, to be specified
70 Additional intrinsically safe module0 Additional IS module not selected1 Additional IS 4...20mA analogue input2 Integrated 4...20mA input, two discrete inputs9 Special version, to be specified
Product designation (part 1)
Identification Tank Side Monitor NRF590
10
2.4 Scope of delivery• Instrument according to the version ordered• ToF Tool - Field Tool Package (2 CD-ROMs; in preparation)• Accessories (as ordered)
2.5 Supplied documentation
80 Glands/Entries - non ISF 2 x G 1/2" gland (in preparation)B 2 x Ex d M20x1.5 entriesC 2 x Ex d G 1/2" entriesD 2 x Ex d 1/2" NPT entriesE 2 x Ex d 3/4" NPT entriesH 3 x Ex d M20x1.5 entriesK 3 x Ex d G 1/2" entriesL 3 x Ex d 1/2" NPT entriesG 3 x Ex d 3/4" NPT entries (in preparation)Y Special version, to be specified
90 Gland/Entry - IS compartment2 M25x1.5 glands, 13...18mm, intrinsically safe compartment3 G 1/2" entries, intrinsically safe compartment4 1/2" NPT entries, intrinsically safe compartment5 3/4" NPT entries, intrinsically safe compartment9 Special version, to be specified
100 Custody transfer type approvalsN Custody transfer type approval not selectedA NMi type approvalG PTB type approvalY Special version, to be specified
110 Additional options0 Additional option not selected9 Special version, to be specified
NRF590 - complete product designation
Document Designation Content/Remarks
BA 256F(this manual)
Operating Instructionsdescribes installation and commissioning of the Tank Side Monitor. Only those functions of the operating menu are included, which are used for a standard measuring task. Any additional functions are not included.
BA 257FDescription ofInstrument Functions
contains a detailed description of all the functions of the Tank Side Monitor.
XA 160FXA 169F
Safety Instructionsonly for instrument versions approved for use in explosion hazardous areas; the nameplate specifies, which of these documents is relevant for your instrument version.
ZD 084FZD 085FZD 103FZD 104F
Installation Drawings
ZE 253F NMi Certificate only for instrument versions with the respective custody transfer approvalZE 255F PTB Certificate
Tank Side Monitor NRF590 Identification
11
2.6 CE mark, declaration of conformityThe instrument is designed to meet state-of-the-art safety requirements, has been tested and left the factory in a condition in which it is safe to operate. The instrument complies with the applicable standards and regulations in accordance with EN 61010 "Protection Measures for Electrical Equipment for Measurement, Control, Regulation and Laboratory Procedures". The instrument described in this manual thus complies with the statutory requirements of the EG directives. Endress+Hauser confirms the successful testing of the instrument by affixing to it the CE mark.
2.7 Registered trademarksHART®
Registered trademark of HART Communication Foundation, Austin, USA
ToF®
Registered trademark of the company Endress+Hauser GmbH+Co. KG, Maulburg, Germany
Installation Tank Side Monitor NRF590
12
3 Installation
3.1 Design, dimensions
L00-NRF590-06-00-06-yy-001
3.2 Installation variants
3.2.1 Wall mounting
L00-NRF590-17-00-06-xx-001
3.94"(100 mm)
3.94
"(1
00 m
m)
Ø 8
.6 (
M8)
Tank Side Monitor NRF590 Installation
13
3.2.2 Mounting on vertical rail
L00-NRF590-17-00-06-en-002
3.2.3 Mounting on horizontal rail
L00-NRF590-17-00-06-en-003
! Note! The rail mounting kit is available as an accessory, see chap. accessories.
3.5" (90 mm)maximum
Rail mounting kit(Order No.: 52013134) Grounding
connections
Rail mounting kit(Order No.: 52013134)
maximumØ3.5" (90 mm)
Installation Tank Side Monitor NRF590
14
3.3 Rotating the housingFor easy access to the display or the terminal compartment, the upper part of the housing can be rotated into an arbitrary position. In order to do this, perform the following steps:
1. Loosen the alignment pin using a 4 mm Allen key (approx. 5 turns).
2. Rotate the upper part of the housing to the desired position.
3. Tighten the pin securely.
L00-NRF590-17-00-06-yy-005
Tank Side Monitor NRF590 Installation
15
3.4 Rotating the display moduleIn order to facilitate operation and reading of the measuring value, the display module can be rotated in the following way:
# Warning! Danger from elctrical schock! Switch off power supply before opening the housing.
1. Using a 3 mm /7/64") Allen wrench, losen the safety pin for the display lid.
2. Unscrew the display lid.
! Note! If the display is difficult to unscrew, unplug one of the cables from the cable gland to allow air to enter the housing. Then, attempt once again to unscrew the display lid.
3. Push in the two flat areas on each side of the display module. Remove the Module from the holder, rotate it into the desired position and put it back onto the holder. Snap-in positions are located at an angle of 45° from each other.
# Warning! The maximum angle of rotation is 180° in both directions (measured from the initial position).
4. Replace the display lid on the Tank Side Monitor housing.
! Note! Make sure to clean the threads of the lid to remove any dust or paritcles. Check that O-ring is in place and reapply anti-seize grease.
5. Adjust the safety pin so it is set over the display lid and tighten.
L00-NRF590-17-00-06-yy-006
➀
➁
➂
➃
➄
4 x 45 °
4 x 45 °
Installation Tank Side Monitor NRF590
16
3.5 GroundingThe NRF590 must be grounded to the tank potential before communication and power connections are made. The connections (A ≥ 4mm2) from each outer ground plug of the NRF590 to the tank ground must be made before any other wiring connections are made. All grounding must be compliant with local and company regulations and checked before the equipment is commissioned.
L00-NRF590-04-08-08-en-004
It is recommended to connect the cable shields of the tank instrumentation centrally to the NRF590, see chap. 4.2.3.
3.6 Post-installation checkAfter the Tank Side Monitor has been installed, perform the following checks:
• Is the measuring instrument damaged (visual check)?• Have the mounting bolts been tightend securely?• Are both grounding terminals connected to tank ground?
A > 4 mm2
Tank Ground
Tank Side Monitor NRF590 Wiring
17
4 Wiring
4.1 Wiring the Non-IS (Ex d) connections
4.1.1 The procedure
! Note! Before starting the wiring procedure, make sure that the supply voltage is switched off.
1. Using a 3 mm (7/64") Allen wrench, losen the safety pin for the lid.
2. Unscrew the lid of the terminal compartment.
3. Push the power and signal cables through the appropriate cable glands.
4. Wire up according to the terminal assignment diagram.
5. Screw the lid of the terminal compartment securely back onto the transmitter housing.
! Note! Make sure to clean the threads of the lid to remove any dust or particles. Check that O-ring is in place and reapply anti-seize grease.
6. Adjust the safety pin so it is set over the display lid and tighten.
L00-NRF590-04-08-08-yy-005
➀
➅
➂
➃
➁
➄
Wiring Tank Side Monitor NRF590
18
4.1.2 Terminal assignment of the field protocol/host side
L00-NRF590-04-08-08-en-002
04 A1/+
05 A2/-
06 B1/+
07 B2/-
01 L/+
02 N/-
08 C1
09 C2
10 C3
11 C4
12 C5
13 C6
14 C7
15 C8
01 L/+
04 A1/+
07 B2/-
08 C1
10 C3
12 C5
14 C7
02 N/-
05 A2/-
06 B1/+
00 S
09 C2
11 C4
13 C6
15 C8
00 S
Power
Digital I/O A
Digital I/O B
Cable screen
Field protocol(for detailssee table)
Analog I/O(for detailssee table)
Power
Digital I/O A
Digital I/O B
Cable screen
Field protocol(for detailssee table)
Analog I/O(for detailssee table)
Standard (not certified)ATEXFMCSA
TIIS
Tank Side Monitor NRF590 Wiring
19
Terminal01
L/+02
N/-04
A1/+05
A2/-06
B1/+07
B2/-00S
Power supplyDiscrete I/O A
+Discrete I/O A
-Discrete I/O B
+Discrete I/O B
-Cable screen
08C1
09C2
10C3
11C4
12C5
13C6
14C7
15C8
V14 ... 20 mA output1 #2
V1A V1B 0 V 0 V4 ... 20 mA output #1 + HART
discrete output 1C
discrete output 2C
EIA-485 Modbus
not used2 485-B 485-A 0 V 0 V4 ... 20 mA
output3
+HART
4 ... 20 mA input3 +24 V1
Whessoe WM550
4 ... 20 mA output1 #2
Loop 1- Loop 1+ 0 V 0 V4 ... 20 mA output #1+HART
Loop 2- Loop 2+
Enraf BPM not used2 T T 0 V 0 V4 ... 20 mA
output+ HART
4 ... 20 mA input
+24 V1
VarecMark/Space
V+ Space Mark 0 V (V-) 0 V4 ... 20 mA
output+ HART
4 ... 20 mA input
+24 V1
L&J Tankway Power Encoder Computer Ground 0 V4 ... 20 mA
output+ HART
4 ... 20 mA input
+24 V1
GPE4 ... 20 mA output #21 Loop 1- Loop 1+ 0 V 0 V
4 ... 20 mA output #1+ HART
do not connect do not connect
1) In case an "Ex d" rated 4-wire level gauge version is used, the power supply can be obtained from these terminals (21V ±10%).
2) The internal voltage at this terminal is 0 V, however, shielding and signal common should be connected to terminal 11 or 12.
3) option, s. pos. 20 of the product structure
Wiring Tank Side Monitor NRF590
20
4.1.3 Connection of the field protocols
Sakura V1
The V1 protocol provides 2 wire communication allowing up to 10 devices to operate on a loop. V1 connects to terminals 9-10.Max. distance: 6000 m
EIA-485 Modbus
The NRF590 protocol uses a shielded 3-wire EIA-485 hardware interface to communicate with the modbus master. EIA-485 is a high speed, differential communications network that allows up to 32 devices to operate on one network.
• Using one shielded twisted pair of 18 AWG wire, connect the EIA-485 at terminal 9 and 10.• Termination of the EIA-485 bus at the NRF590 can be set in the operating menu (only enable on
end device in a loop)• Connect the 3rd wire from the control system signal ground (0V) to terminal 8.• Max distance: 4000 ft (1300 m)
Whessoematic WM550
The WM550 protocol provides 2 wire, current loop communication and allows up to 16 devices per loop. For redundancy (safety function) two wire pairs are used. They always transmit the same values. The WM550-loops connect to terminals 9 - 10 and 14 - 15.Max. distance: 7000 m
Enraf BPM
The Enraf BPM protocol provides 2 wire communication allowing up to 10 devices to operate on a loop. Enraf BPM connects to terminals 9-10.Max. distance: 10000 m
Varec Mark/Space
For a NRF590 using the Mark/Space field communications option, the following additional wiring connections must be made:
• Run 2 twisted pairs (one power, one communication) of 18 AWG wire (Mark/Space wires) into the upper terminal compartment through one of the conduit entries along with the 48 Vdc power wiring.
• Connect the Mark line to terminal 10 and the Space line to terminal 9.• Connect to power supply at terminals 8 and 11.
L&J Tankway
Including power and ground, L&J is a 4-wire system, allowing 50+ devices to be connected on the communication bus. L&J connects to terminals 8 through 11.
GPE
The GPE protocol provides 2 wire current loop communication. GPE connects to terminal 9-10.
4.1.4 Grounding of the fieldbus screenThe screen of the fieldbus cable should be connected to ground. If this is not possible due to signal disruption by potential equalisation currents, it is advisable to connect the screen of the fieldbus cable to terminal "00 S". This provides a 500 V capacitor between the cable screen and tank ground potential.
Tank Side Monitor NRF590 Wiring
21
4.1.5 Connection of the auxiliary energyThe Tank Side Monitor can be AC or DC supplied, depending on the installed power supply board. The AC supply needs to be connected to the terminals marked L/+ (Line) and N/- (Neutral), corresponding with the phase/line and neutral wire. DC supply can be connected to the same terminals, for which it is necessary to connect the positive (+) to the terminal marked (L/+), and the negative to the terminal marked (N/-).
4.1.6 Connection of the non-i.s. 4 ... 20 mA analogue input
Depending on the selected fieldbus communication board, a non-i.s. self-powered or loop powered analogue transmitter can be connected. The analogue signal for the loop powered transmitter can be connected to the terminals 14 (-) and 15 (+24 Vdc). The maximum supply current for the analogue transmitter is limited to 24 mA. The analog signal for a self powered transmitter should be connected to terminals 11 or 12 and 14.
L00-NRF590-04-00-08-en-019
4.1.7 Connection of the non-i.s. 4 ... 20 mA analogue output
Depending on the selected fieldbus communication board, a non-i.s. analogue 4...20 mA output can be available. Via software settings, this analogue output can be connected to any parameter in the Tank Side Monitor. The analogue output is available between terminals 13 (+) and 12 (0 V) and terminals 8 (+) and 11 (0V).For the V1 and GPE field protocols, the output can be used to connect a FMR540 radar.From software version 02.01 onwards, an additional HART signal is available at terminal 13.
14
Loop powered (passive)
e.g.FMR+
15
-
11/12
self powered (active)
e.g.FMR+
14
-
Wiring Tank Side Monitor NRF590
22
4.1.8 Connection of the discrete in and outputThe Tank Side Monitor can be equipped with up to 2 discrete I/O modules. These modules can be used for interfacing to non-i.s. discrete in- or outputs. Input and output voltage and current ranges depend on the type of selected module installed in the relevant I/O slot. Terminals 4 and 5 correspond to discrete I/O slot A, terminals 6 and 7 correspond to discrete I/O slot B. For details on available I/O modules, see Page 47.
L00-NRF590-04-00-08-en-004
! Note! 250 VAC is the maximum load that can be connected.
+
–
+
–
L
N
L
N
4 5 A6 7 B
4 5 A6 7 B
4 5 A6 7 B
4 5 A6 7 B
DIGITALAC OUTPUT
DIGITALDC OUTPUT
DIGITAL
AC INPUT
DIGITALDC INPUT
LOAD
LOAD
AC SUPPLY
DC SUPPLY
AC SUPPLY
DC SUPPLY
Tank Side Monitor NRF590 Wiring
23
4.2 Wiring the IS (Ex ia) connection
4.2.1 The procedure
" Caution! The diameter of the signal cable should allow tight closing of the cable glands.Example:– Tank Side Monitor: M25x1,5– Micropilot S: M20x1,5→ suitable cable diameter: 10 ... 13 mm
1. Unscrew the lid of the terminal compartment.
2. Push the signal cables through the appropriate cable glands.
3. Wire up according to the terminal assignment diagram (see following page).
4. Screw the lid of the terminal compartment securely back onto the transmitter housing.
! Note! Make sure to clean the threads of the lid to remove any dust or particles. Check that O-ring is in place and reapply anti-seize grease.
L00-NRF590-04-08-08-yy-006
➀
➁
➂
➃
Wiring Tank Side Monitor NRF590
24
4.2.2 Terminal assignment
L00-NRF590-04-00-08-en-006
Terminal Designation Meaning
16 D+ + RTD drive1
1) These terminals should be left unconnected if RTD has not been selected in feature 40 of the product structure.
17 S+ + RTD sense1
18 S- - RTD sense1,2
2) For a 3-wire RTD, terminals 18 and 19 should be connected together.
19 D- - RTD drive1,2
20 OPT1 Discrete Input 1
21 OPT2 Analog Input 1 (4 ... 20 mA)
22 OPT3 Discrete Input 2
23 OPT4 Option +24 V
24 H+ +HART comm.3
3) These terminals share the same HART signal.
25 H- -HART comm.4
4) These terminals share the same i.s. 0 V signal.
26 H+ +HART comm.3
27 H- -HART comm.4
28 H+ +HART comm.3
29 H- -HART comm.4
30 P+ + i.s. power for FMR S-series3 (terminal 2 of FMR)
31 P- - i.s. power for FMR S-series4 (terminal 1 of FMR)
24V
mA
NRF590 - i.s. terminal board
RTD
HARTsensor
Internallyinterconnectedas one HARTfieldbus loop
For MicropilotS-series only!
Tank Side Monitor NRF590 Wiring
25
4.2.3 Connection of HART instruments
Tank sensors
The Tank Side Monitor can interface to a maximum of 6 i.s. HART sensors. All HART sensors are connected to one HART multi-drop communication loop. In order to keep wiring simple, 3 interconnected terminal pairs are available. The terminal pairs are marked respectively H+ and H-.
Power supply for Micropilot S
For supplying extra i.s. power to the FMR S-series radar, additional power terminals are available, marked as P+ and P-. Although it is possible to use only 3 wires between the S-series radar and the NRF590, by combining the P- and H- wires, it is recommended to use a double pair of screened and twisted cable.
Grounding of the cable screen (for Micropilot S)
The screen of the cable connecting the Micropilot S to the Tank Side Monitor should be grounded at the Tank Side Monitor, not at the Micorpilot S.
L00-NRF590-04-08-08-yy-007
4.2.4 Spot RTD
1 2 3 4 51 32 4 5
RTD
NRF 590 i.s. terminal board
i.s. module wiring
HARTsensor
+
-
-
+
16171819
D+S+S-D-
20212223
OPT1OPT2OPT3OPT4
24
252627
+
-+H
H
-
+
-+P
H
-
28293031
For MicropilotS-series only!
Internallyinterconnected as one HART fieldbus loop
21
43
1 2 3 4
Tank potential
Micropilot S
Tank Side Monitor
L00-NRF590-04-00-08-en-007
A spot RTD can be connected to the NRF590 if the option is installed. For 4-wire connection, the RTD must be connected to the 4 available terminals marked D+, S+, S- and D-. For 3-wire connection, the RTD should be connected to the same 4 terminals. The terminals D- and S- should be connected together.
RTD4 wire
RTD3 wire
Operation Tank Side Monitor NRF590
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5 Operation
5.1 Display and operating elementsThe Tank Side Monitor is operated via the display module and the three optical keys. The keys can be operated through the cover glass. Therefore, the Tank Side Monitor needs not to be opend for operation. The backlight of the display is activated during operation for user defined time (30 sec ... continuous backlight).
L00-NRF590-07-00-00-en-001
Format of decimal numbers
The number of decimal places displayed can be selected from three resolution presets (high, normal, low)
Valueresolution preset
low normal high
Level "m" xx.xxx xx.xxx xx.xxxx
Level "ft" xxx.xxx xxx.xxx xxx.xxxx
Temperature "°C" xxx xxx.x xxx.xx
Temperature "°F" xxx xxx.x xxx.xx
Tank Side Monitor NRF590 Operation
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5.2 Key assignment
5.2.1 General key combinations
5.2.2 SoftkeysExcept for the aforementioned key combinations, the keys operate as softkeys, i.e. their meaning varies depending on the current position within the operating menu. The meaning is indicated by softkey symbols in the bottom line of the display.
Example
L00-NRF590-07-00-00-en-003
Key combination Meaning
EscapeEscape from the current editing opration. If the currently edited value has not been stored , then the parameter will retain its original value.
Increase contrastIncreast contrast by darkening of the display screen.Once the biggest contrast value is reached, the value is looped back to the lowest value.
Decrease contrastDecrease contrast by lightening of the display screen.Once the lowest contrast value is reached, the value is looped back to the highes value.
In the operating menu: Quick ExitReturn to the measured value display
In the measured value display: Software-lockingSets "Access Code" = 0 (device locked)Sets "Service English" = off (display language as selected by the user)
Esc
E
E
E
E
to previousparameter
to nextparameter
edit currentparameter
movedownwards
moveupwards
mark currentselection
Softkey symbols
Meaning
Operation Tank Side Monitor NRF590
28
List of the softkey symbols
Softkey symbol Meaning
Move to the previous parameter in the list.
Move to the next parameter in the list.
Return to the group selection.
Enter the current parameter for editing.
Move the selection in a list up to the previous one.
Move the selection in a list down to the next one.
– Select the currently highlighted option.– "Yes" for yes/no questions.
– Unselect the current option.– "No" for yes/no questions.
Increment a numerical or alphanumerical value by one.
Decrement a numerical or alphanumerical value by one.
Display device status.
Enter the zoom mode for the envelope curve display of the Micropilot.
Zoom in the envelope curve display of the Micropilot.
Zoom out the envelope curve display of the Micropilot.
Enter the move mode for the envelope curve display of the Micropilot.
Move left within the envelope curve display of the Micropilot.
Move right within the envelope curve display of the Micropilot.
Tank Side Monitor NRF590 Operation
29
5.3 Measured value displayThe appearance and meaning of the measured value display depends on the configuration of the Tank Side Monitor. The following picture gives a typical example. The table summarises all display symbols.
L00-NRF590-07-00-00-en-023
The primary measurement value is constantly displayed in user configured units an format; the secondary value can display up to four alternately measurement values, in a scroll rate choosen by the user.
DI #1DI #2
DIO #ADIO #BDO #C
primary value(name, value with unit,symbols for the W&M stateand the alarm state)
secondary value(name, value with unit,symbol for the W&M stateand the alarm state)
status symbols
status of the discreteinputs and outputs
Symbol Meaning
Status of the Tank Side Monitor
W&M lockingis displayed, if the W&M parameters of the Tank Side Monitor have been locked by the hardware locking switch.
Communicationis displayed if the Tank Side Monitor is currently communicating on the Fieldbus.
Erroris displayed if the Tank Side Monitor detects an error.
Status of the displayed measuring values
W&M statusis displayed, if the suitability for custody transfer measurement of the measured value can currently not be ensured (e.g. if the W&M locking of the respective sensor is not ensured).
Status of the discrete inputs and outputs
Activeis displayed if the respective discrete input or output currently is in the "active" state.
Inactivcis displayed, if the respective discrete input or output currently is in the "inactive" state.
Not connectedis connected, if the respective input or output is not connected.
Access code
Useris displayed, if the "user" access code ("100") has been entered.
Serviceis displayed, if the "service" access code has been entered.
Diagnosticis displayed, if the "diagnostic" access code has been entered.
Parameter type
Operation Tank Side Monitor NRF590
30
Read onlyis displayed, if the current parameter can not be edited (due to the current access code).
Editierbaris displayed, if the current parameter can be edited.
W&M lockedis displayed, if the current parameter can not be edited (due to the W&M locking).
Cyclic update(flashing left of the parameter name)indicates that the parameter is cyclically updated
Symbol Meaning
Alarm state
Alarm inactiveis displayed, if the measured value displayed in the same section of the display is within the allowed range (i.e. between the L and H limits).The bar within this symbol represents the current value scaled between the L and H limit.If no alarm has been defined for the measured value, this symbol is not displayed.
Alarm active (flashing symbols)
– A: measured value is below the LL limit– B: measured value is between the LL and L limits– C: measured value is between the H an HH limits– D: measured value is above the HH limit
If no alarm has been defined for the measured value, these symbols are not displayed.
Symbol Meaning
A B C D
Tank Side Monitor NRF590 Operation
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5.4 Operating menu
5.4.1 Entering the menuThe navigation in the operating menu always starts from the main screen (measured value display). From there, the following three menus can be entered by the keys:
L00-NRF590-19-00-00-en-031
• Shortcut menuThe shortcut menu allows to change the display language to "English", if any other language has been choosen by the customer. By activating the option "Service English", all parameters are displayed in english language. Using the "Quick exit" (see Section 5.2.1) twice, the system is reset to the language and the Software lock is activated.
• Main menuThe main menu contain all readable and editable parameters of the Tank Side Monitor. The parameters are distributed among statical and dynamical submenus. Dynamical submenus adapt themselves to the current installation environment of the Tank Side Monitor. The main menu should be used if one wants to read or edit parameters which are not accessible via the shortcut menu.
• Device StatusThe "Device Status" comprises the most important parameters describing the current state of the Tank Side Monitor (error indication, alarm states etc.).
Esc...
... ...
...
...
... ...
...
EscEsc
Esc
Shortcut Menu Main Menu
Device Status
Service English Output
In preparation
Display
Operation Tank Side Monitor NRF590
32
5.4.2 Navigation within the menu
Selecting a submenu
L00-NRF590-07-00-00-en-050
• Select the submenu by and .• Go to the first function of the submenu by .
Selecting a function within the submenu
L00-NRF590-07-00-00-en-051
• Go to the previous function by .• Go to the next function by .• Open the current function for editing by .
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33
5.4.3 Editing parameters
Parameters with selection list
L00-NRF590-07-00-00-en-052
• Select theparameter value by and .• Mark the selected value by .• Confirm the marked value by .
Reference parameters
L00-NRF590-07-00-00-en-040
Reference parameters describe where a numerical or logical value (here: Primary Value) is obtained from. The selection consists of two steps:
1. Select the function group, from which the value is to be obtained (here: Tank Value).
2. Select the value within this group (here: Corrected Level).
There is a separate selection list for each of these steps.
Operation Tank Side Monitor NRF590
34
Alphanumeric parameters
L00-NRF590-07-00-00-en-041
• Set the activated digit by and .• Go to the next digit by .• If ↵ appeyars at the active digit, the currently displayed value can be accepted by .• If ← appears at the active digit, return to the previous digit by .
5.4.4 Quiting the menuReturn to the measured value display by pressing all keys simultaneously.
Tank Side Monitor NRF590 Operation
35
5.5 Locking/unlocking parameters
5.5.1 Software lockingIf the instrument is in the measured value display, it can be locked by pressing all keys simultaneously.In doing so, "Access Code" is set to "0" (i.e. parameters can no longer be changed) and "Service English" is set to "off" (i.e. the display is in the language selected by the customer).
5.5.2 Software unlockingIf you try to edit a parameter, the device goes to the "Access Code" function. Enter "100". Parameters can be changed again.
5.5.3 W&M hardware locking switchA hardware locking switch for W&M sealing is located behind the display module. All W&M parameters can be set to definite values and locked by this switch. In this state, the Tank Side Monitor can be used for W&M applications.In order to operate the hardware locking switch, procede as follows:
L00-NRF590-19-00-00-yy-032
Operation Tank Side Monitor NRF590
36
# Warning! Danger of electrical shock! Before opening the housing, completely switch off the power supply.
1. Using a 3 mm (7/64") Allen wrench, losen the safety pin for the display lid.
2. Unscrew the display lid.
! Note! If the display lid is difficult to unscrew, unplug one of the cables from the cable gland to allow air to enter the housing. Then, attempt once again to unscrew the display lid.
3. Turn the display module sideways.
4. Place the locking shift into the desired position:– :W&M parameters are free.– :W&M parameters are locked.
5. Replace the display lid on the Tank Side Monitor housing.
! Note! Make sure to clean threads on lid to remove any dust or paricles. Check that O-ring is in place and reapply anti-seize-grease.
6. Adjust the safety pin so it is set over the display lid and tighten. The safety pin can now be secured by a sealing thread and a sealing ring.
5.5.4 Sealing of the Tank Side MonitorWhen the tests according to the applicable regulatory standards have been completed, it is required to secure the housing cover with a sealing wire and a sealing ring.
L00-NRF590xx-19-00-00-xx-050
Tank Side Monitor NRF590 Commissioning
37
6 Commissioning
6.1 Theoretical background
6.1.1 Function blocks and data flowThe internal architecture of the Tank Side Monitor is organized as function blocks. During commissioning one can link the outputs and inputs of different function blocks in order to define a data flow through the Tank Side Monitor.
Generally one can distinguish three parts of the data flow:
1. Data enter into the Tank Side Monitor via the input blocks. There is a block for each connected HART device (e.g. FMR, NMT, PMD). Depending on the instrument version, there are additional Analog (AI) and Digital (DI) Input blocks.
2. Data are processed in the TANK function block (tank calculations and corrections) and in the Alarm (AL) function blocks.
3. Data are output to– the display– the fieldbus via the fieldbus function blocks (e.g. MODBUS, ENRAF, ...)– the analog or digital outputs via the Analog (AO) and Digital (DO) output blocks.
6.1.2 Linking sensors to function blocksTo commission the NRF590, it is necessary to connect all Tank HART sensors to one of the internal function blocks, either the "tank functions" block of the "alarm function" block. The outputs of these function blocks can then be mapped to the display, the fieldbus function block and the AO or DO blocks.By default, these mappings are set to the most common default values. Some of these default mappings are unbreakable system links, others can be modified by the user.The linking is performed by reference parameters (marked by the ending "REF" in the parameter name). For each of these reference parameters the desired source can be selected from a list.
6.1.3 Linking Digital InputsAn additional Digital Input can either be linked to the file protocol inputs or directly to an Digital output. This latter case is usually used for overspill protection.
Commissioning Tank Side Monitor NRF590
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6.1.4 Example of block linking
L00-NRF590xx-05-00-00-yy-001
The level value as given by the FMR level radar via the HART protocol is read into the FMR function block. The FMR function block sends the value to the TANK function block, to be stored in the "Level Ref" data point. From here, it is displayed in the primary display as well as communicated to the Modbus protocol function block, which maps the value to the adequate Modbus register.In parallel, the level value is sent to the NMT function block, from where it is sent to the NMT Prothermo gauge in order to assign the product level for the product temperature respectiveley the product vapour temperature.Additionally a digital input value is directly transferred from the Digital Input block (DI) to an Digital Output block (DO).
FMRPV
MEAS. LEVELMEAS. DIST.
TANKLEVEL REFWATER LEV. REFTEMP REFVAP. TEMP REFAIR TEMP REFP1 (BOT) REFP2 (MID) REFP3 (TOP) REFGP 1…GP 4TEMP ELEM 1…TEMP ELEM 16
TANK HEIGHTLEVEL
LEVEL %MEAS. LEVEL
TEMPVAPOR TEMP
AIR TEMPWATER LEVEL
P1 (BOT)P2 (MID)P3 (TOP)
OBS. DENSITYVOL. FLOW RATELEV. FLOW RATE
GP 1…
GP 4TEMP ELEM 1
…TEMP ELEM 16
LEVELLEVEL %MEAS. LEVELTEMPVAPOR TEMPAIR TEMPWATER LEVELP1 (BOT) PRESSUREP2 (MID) PRESSUREP3 (TOP) PRESSUREOBS. DENSITYGP 1…GP 4ELEM 1…ELEM 16ANALOGUE REFUSER VALUE 1…USER VALUE 8USER DISCRETE 1…USER DISCRETE 8MODBUS VALUE 1…MODBUS VALUE 4MODBUS DISCRETE 1…MODBUS DISCRETE 4
MODBUS
AL
REF
H+HHHH
HANY
LLL
L+LL
(Level)
NMTLEVELTEMP
GAS TEMPTEMP1
…TEMP 16
DO 1REF
DISPLAY
DO 2REF
DIVALUE
Tank Side Monitor NRF590 Commissioning
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6.1.5 Validation of Weight & Measure approved measurementsThe weight & measure status is evaluated by the Tank Side Monitor on two stages:
• On a first stage, the measurement device value coming into the Tank Side Monitor is evaluated• On a second stage, the TANK function block is evaluated.
Status of a measurement device
The weight & measure status of a measurement device is o.k. if:
• the custody transfer switch (or the related software setting) of the device is closed• no alarm status is received from the measurement device• for the Micropilot S level radar: the custody transfer status is "active positive"• for a RTD transmitter: the sensor’s custody transfer switch is locked, the sensor position is defined
and situated bertween the defined min and max alarm values.
If any of these conditions are not met, then the instruments measured values will be shown with the "#" symbol in the HART device menu.
Status of the TANK function block
The weight & measure status of the TANK function block is o.k. if:
• the custody transfer switch of the Tank Side Monitor is closed• the referenced measured value has a validated weight & measure status• additionally for the level measurement: no tank calculations (CTSh, HyTD, HTMS, HTG) are
activated
If any of these condidtions are not met, then the "#" symbol is displayed along with the displayed tank function group value in the display.
The tank values are transmitted via the field protocol to the control room along with the current weight & measure status.
Commissioning Tank Side Monitor NRF590
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6.2 Addressing of the HART instrumentsIf possible, the addresses of the HART instruments should be set before connection to the Tank Side Monitor.The default block configuraionts require usage of the following addresses:
" Caution! Do not connect a device with address "0"!Such a device has an active 4 ... 20 mA output which may overload the HART bus, disrupting all HART communication.
! Note! The HART interface on the non-IS side of the Tanks Side Monitor can be operated in different modes. If the "slave" mode has been selected, the HART loops on the IS an the non-IS sides will operate independently of each other. Therefore, it would be possible to use devices with the same HART address on the IS and on the non-IS loop. In order to prevent confusion, we strongly recommend to avoid this kind of double usage of addresses.
Tank calculation1
1) The types of tank calculations are described in the Appendix, see page 81
Addresses of the individual HART devices
Level Temperature2
2) If the RTD interface of the Tank Side Monitor is used for spot temperature measurement, no HART temperture sensor is required. In this case address "2" should remain unassigned.
Pressure 1 (bottom)
Pressure 2 (middle)
Pressure 3 (top)
level only 1 - - - -
level + temp. 1 2 - - -
HTMS + P1 1 2 3 - -
HTMS + P1,3 1 2 3 - 5
HTG P1 - 2 3 - -
HTG P1,3 - 2 3 - 5
HTG P1,2 - 2 3 4 -
HTG P1,2,3 - 2 3 4 5
Tank Side Monitor NRF590 Commissioning
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6.3 Steps of the Commissioning Procedure1. Automatic check of the HART addresses of the connected devices1
After connection of the HART devices, the Tank Side Monitor will check if all HART addresses are unique and unequal to "0". If this is not the case, then an alarm message will be displayed. In parallel, the actual HART addresses of the connected gauges can be checked in the "HART devices" function group (8---).
2. Define the display values of the Tank Side MonitorIn the "Display" (2---) function group, the information to be displayed and their format (such as language, timing, scroll rate) is defined.
a. Primary ValueThe primary value will be continuously displayed in the upper part of the main display screen.
b. Secondary ValuesUp to four secondary values will be displayed, which will be displayed cyclically in the lower part of the main display screen.
3. Select the display unitsThe following unit presets are selectable in the "units preset" (2031) function:
4. Configure the connected HART devicesAfter connecting all HART devices to the HART multidrop line of the NRF590, these gauges can be configured via the NRF590 Tank Side Monitor display. In the "HART devices" function group (8---), all connected devices are displayed with their respective HART address in brackets (e.g. FMR53x[01]).
a. Devices known to the Tank Side MonitorEndress+Hauser devices "known" to the Tank Side Monitor will be represented by their product code, e.g. "FMR53x" for Micropilot S, "NMTxxx" for the Prothermo line etc.If more than one device of a specific type is connected, each individual device will be represented in the Tank Side Monitor by a separate function block.
b. Devices not known to the Tank Side MonitorDevices not known to the Tank Side Monitor will be presented as "generic HART device". For these, the universal HART commands and variables (such as communication address, TAG, message, PV, SV, etc.) are supported.
1) In the Software Version SW 02.01, the HART buses on the IS and on the non-IS side are continuously monitored by the Tank Side Monitor. This means, that in contrast to SW 01.xx, an initial HART scanning of the bus has not to be performed. As soon as a new HART device is found, it is displayed with its HART communication address in the HART froup (8---).
Selection Level Pressure Temperature Density Level Flow Volume Volume Flow
mm, bar, °C mm bar °C kg/m3 m/h m3 m3/h
m, bar, °C mm bar °C kg/m3 m/h m3 m3/h
mm, PSI, °C mm PSI °C kg/m3 m/h m3 m3/h
ft, PSI, °F ft PSI °F °API ft/h us gal us gal/h
ft-in-16, PSI, °F ft-in-16 PSI °F °API ft/h us gal us gal/h
ft-in-8, PSI, °F ft-in-16 PSI °F °API ft/h us gal us gal/h
Commissioning Tank Side Monitor NRF590
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5. Link the gauges to the tank functions
a. Level and temperature functionsIn the "Basic Configuration" (32--) function group, the connected HART devices are linked to the Tank functions simply by choosing the appropriate references.For instance, a Micropilot S FMR53x level gauge will appear as a selectable choice in the "level reference" (3201) function, and by checking the box, the PV of this gauge will be taken by the Tank Side Monitor as the measured level.In the same manner, a connected Prothermo NMT53x average temperature transmitter can be chosen as "temperature reference" (3202) by checking its procuct code in the selection list.
b. Other typical Tank Gauging functionsFor other typical Tank Gauging sensors, the appropriate links are found in either the "Extended Configuration" (33--) or the "Pressure Setup" (34--) function groups.
c. General Purpose FunctionsDevices which offer functionality not provided for in the standard function groups (e.g. pH meters) can be connected to the "General Purpose" (35--) functions. Here, the user can define a function name for the indication on the Tank Side Monitor display. The units of the device will not be processed in the tank function group. Instead, the values are transmitted directly to the output field protocols1.
6. Define the tank calculations and the tank correctionsIn case any typical tank calculations (as the hydrostatic level measurement or the hybrid tank measurement) or tank corrections (as the "hydrostatic tank shell compensation" or the "correction of the thermal expansion") shall be performed, these functions can be easily set up in the "Calculations" (36--) function group.If any level corrections are defined in the calculation functions, then the corrected level is automatially sent to the HOST system via the field protocol.Further Informations can be found in the "Description of Instrument Functions" Manual BA257FEN.
7. Define Alarm Functions
a. Alarm type and limitsFor all input variables, alarm limits can be defined. In the "Alarm" (5---) function group, the alarm type (level, temperature, various) and the alarm behaviour can be selected.
b. Alarm behaviourTo have the alarm disappear when the value is back in normal state, the "enabled" selection has to be made. To wait for alarm acknowledgement, the "latching" selection is appropriate. In both cases, the alarm limits have to be defined in the following steps. Either one or all values may be defined.
c. Extended alarm setupIn the extended alarm setup, additional default values (such as damping factor, hysteresis etc.) may be changed.
8. Define Discrete Inputs and OutputsIn the "Discrete I/O" (6---) function group, both, the intrinsically safe (IS) in- and outputs as well as the explosion proof (non-IS) in- and outputs may be configured.
1) For a list of values which can be transmitted by the individual protocols refer to the chapter "Technical Data".
Tank Side Monitor NRF590 Maintenance and repairs
43
7 Maintenance and repairs
7.1 Exterior cleaningWhen cleaning the exterior, always use cleaning agents that do not attack the surface of the housing and the seals.
7.2 Replacing sealsThe seals of the sensors must be replaced periodically, particularly if molded seals (aseptic construction) are used. The period between changes depends on the frequency of cleaning and on the temperature of the measured substance and the cleaning temperature.
7.3 RepairsThe Endress+Hauser repair concept assumes that the measuring devices have a modular design and that customers are able to undertake repairs themselves.Spare parts are contained in suitable kits. They contain the related replacement instructions.All the spare parts kits which you can order from Endress+Hauser for repairs are listed with their order numbers in the section "Spare parts".For more information on service and spare parts, contact the Service Department at Endress+Hauser.
7.4 Repairs to Ex-approved devicesWhen carrying out repairs to Ex-approved devices, please note the following:• Repairs to Ex-approved devices may only be carried out by trained personnel or by
Endress+Hauser Service.• Comply with the prevailing standards, national Ex-area regulations, safety instructions (XA) and
certificates.• Only use original spare parts from Endress+Hauser.• When ordering a spare part, please note the device designation on the nameplate. Only replace
parts with identical parts.• Carry out repairs according to the instructions. On completion of repairs, carry our the specified
routine test on the device.• Only Endress+Hauser Service may convert a certified device into a different certified variant.• Document all repair work and conversions.
Maintenance and repairs Tank Side Monitor NRF590
44
7.5 Spare parts
7.5.1 Overview
L00-NRF590-09-00-06-yy-001
Modification Nameplate:
52018674
Tank Side Monitor NRF590 Maintenance and repairs
45
7.5.2 PC board NRF590XConsists of intrinsically safe board and communication board. These boards are adapted to each other and always have to be changed both.
10 CertificatesA for non-hazardous areasK TIIS EEx d (ia) IIC T4 (in preparation)S FM XP-Cl.I, Div. 1, Gr. A-DU CSA XP-Cl.I, Div. 1, Gr. A-D6 ATEX II 2 (1) G EEx d (ia) IIC T4Y Special version, to be specified
20 Field Communication protocolE ENRAF BPM, non-IS 4-20mA input, non-IS 4-20mA HART outputG GPE, non-IS 4-20mA HART output1 WM550, non-IS 4-20mA HART output, Whessoe protocol with dual communication3 Varec Mark/Space, non-IS 4-20mA input, non-IS 4-20mA output4 Modbus w/o 4-20mA input or output, EIA 4855 Modbus, non-IS 4-20mA input, non-IS 4-20mA HART output, EIA 4857 L&J, non-IS 4-20mA input, non-IS 4-20mA HART output8 V1, non-IS 4-20mA output, non-IS 4-20mA HART output, relay output9 Special version, to be specified
Spot RTD option0 Without RTD temperature input1 with spot RTD temperature input, IS9 Special version, to be specified
Custody transfer applicationsA NMi type approvalG PTB type approvalN Custody transfer approval not selectedY Special version, to be specified
NRF590X - product designation
Maintenance and repairs Tank Side Monitor NRF590
46
7.6 ReturnThe following procedures must be carried out before a transmitter is sent to Endress+Hauser e.g. for repair or calibration:• Remove all residue which may be present. Pay special attention to the gasket grooves and crevices
where fluid may be present. This is especially important if the fluid is dangerous to health, e.g. corrosive, poisonous, carcinogenic, radioactive, etc.
• Always enclose a duly completed "Declaration of contamination" form (a copy of the “Declaration of contamination” is included at the end of this operating manual). Only then can Endress +Hauser transport, examine and repair a returned device.
• Enclose special handling instructions if necessary, for example a safety data sheet as per EN 91/155/EEC.
Additionally specify:• An exact description of the application.• The chemical and physical characteristics of the product.• A short description of the error that occurred (specify error code if possible)• Operating time of the device.
7.7 DisposalIn case of disposal please seperate the different components according to their material consistence.
7.8 Software history
Software version1
1) The software version of the instrument is displayed immediately after switch-on of the supply voltage.
Changes to software Associated documentation
V 01.00V 01.01V 01.02
– BA 039G (Operating Instructions)– BA 042G (Description of Instrument
Functions
V 01.03 can be operated via ToF Tool V3.0/3.1 – BA 256F/00/ae/02.02 (Operating Instructions)
– BA 257F/00/ae/02.02 (Description of Instrument Functions)
V 01.04 can be operated via ToF Tool V3.0/3.1(additional Device Descriptions required)
– BA 256F/00/en/09.02 (Operating Instructions)
– BA 257F/00/en/09.02 (Description of Instrument Functions)
V 01.04.06 GPE and V1 protocol introduced;can be operated via ToF Tool V 3.0/3.1(additional Device Descriptions available)
– BA 256F/00/en/02.03 (Operating Instructions)
– BA 257F/00/en/03.03 (Description of Instrument Functions)
V 02.01 Operating concept completely revised;Enraf protocol introduced;
– BA 256F/00/en/12.04 (Operating Instructions)
Tank Side Monitor NRF590 Accessories
47
8 Accessories
8.1 Discrete I/O modules
8.1.1 Standard mechanical diagram for all I/O modules
L00-NRF590-00-00-08-en-001
1.00(25.4)
.25(6.35)
.040 (1.0) DIA.
.30(7.6)
.200(5.1)
.700(17.8)
1.100(27.9)
1.30(43.1)
.100(2.5)
.40(10.2)
123+5
1.70(43.1)
4
1.70(43.1)
1.00(25.4)
(5 PLACES)
BOTTOM VI EW
Accessories Tank Side Monitor NRF590
48
8.1.2 Output modules
AC voltage DC voltage
Order Code 52012959 52012960 52012961 52012962
Colour of housing black black red red
Load voltage 24 ... 140 V AC 24 ... 250 V AC 3 ... 60 V DC 4 ... 200 V DC
Load current 30 ... 500 mA eff.1
1) This upper limit of the load current is determined by the Tank Side Monitor.
20 ... 500 mA eff.1
Typ. powerdissipation
1 W/A 1 ... 1.5 W/A
Transient protection Meets IEEE472 Meets IEEE472
Type of contactSPST normally open
Zero crossing turn-onSPST normally open
Optical isolation yes yes
Isolation voltage 4000 V eff. 4000 V eff.
Approvals UL, CSA, CE, TÜV UL, CSA, CE, TÜV
1
2
3
4
+
-
VAC
Logic
ZeroVoltageCircuit
1
2
3
4
+
-VAC/DC
Logic
Amplifier
Tank Side Monitor NRF590 Accessories
49
8.1.3 Input modules
AC voltage DC voltage
Order code 52012955 52012956 52012957 52012958
Colour of housing yellow yellow white white
Input voltage 90 ... 140 V AC 180 ... 264 V AC1
1) This upper limit of the input voltage is determined by the Tank Side Monitor.
3 ... 32 V DC 35 ... 60 V DC
Nominal input resistance 22 kΩ 60 kΩ 22 kΩ 60 kΩ
Max. pick-up voltage 90 V AC 180 V AC 3 V DC 35 V DC
Min. drop-out voltage 25 V AC 50 VAC 1 V DC 9 V DC
Input current @ max. voltage
8 mA rms 8 mA rms
Typ. power dissipation 1 ... 1.5 W/A 1 ... 1.5 W/A
Transient protection Meets IEEE472 Meets IEEE472
Optical isolation yes yes
Isolation voltage 4000 V rms 4000 V rms
Approvals UL, CSA, CE, TÜV UL, CSA, CE, TÜV
1
2
3
4
5
+
-
VAC/DC
Logic
OutSchmittTrigger
Ground
1
2
3
4
5
+
–VDC
Logic
OutSchmittTrigger
Ground
Accessories Tank Side Monitor NRF590
50
8.1.4 Relay output module
Order code 52026945
Colour of housing red
Load voltage 0 ... 100 VDC / 0 ... 120 VAC
Load current 0 ... 500 mA1
1) For inductive loads, use diode suppression or RC network to improve contact life.
Max. contact resistance 250 mΩ
Max. turn on/off time2
2) including debounce
1 ms
Min. life expectancy 500000 cycles
Type of contact SPST normally open; mechanical relay
Isolation voltage 1500 Veff
Approvals UL, CSA, CE, TÜV
1
2
3
4
VAC/VDC
AMP
+VCC
INPUT
GROUND5
Tank Side Monitor NRF590 Accessories
51
8.2 Rail mounting kitFor rail mounting the Tank Side Monitor to vertical or horizontal pipe.Order-Number: 52013134
L00-NRF590-00-00-06-en-001
Technical Data Tank Side Monitor NRF590
52
9 Technical Data
9.1 Technical Data at a Glance
9.1.1 Inputs and Outputs
L00-NRF590-04-08-08-en-003
4...20 mA
4...20 mA 4...20 mA
Non-i.s.terminals
Ex d
Power AC/DC
FMR NMT Pressuretransmitteri.s.
terminalsEx ia
V1
Mark/SpaceL&J
ModbusWM550
Enraf BPM
GPE
Analogue In
Analogue In(option)
HART (up to 24 mA)
Fieldbus
Discrete In 1 Discrete In 2
Discrete In/Out B(option)
Discrete In/Out A(option)
Spot RTD(option)
Analogue Out 2(option)
Discrete Out C(option)
4...20 mA
Analogue Out 1with HART
(option)
Tank Side Monitor NRF590 Technical Data
53
Values transmitted by the Field Protocols
The following values can be transmitted by the communication protocols:
Tank Value Symbol V1 - old V1 - new Modbus WM550 EnrafMark/Space
L&JTankway
Basic
L&JTankway
ServoGPE
Level L yes yes yes yes yes yes yes yes yes
Temperature (Product) TP yes yes yes yes yes yes yes yes yes
Observed Density Dobs - yes yes yes yes - - yes -
Water Level LW - yes yes yes yes - - yes -
Pressure 1 (Bottom) P1 - yes yes yes1 yes - - - -
Pressure 2 (Middle) P2 - yes yes yes1 - - - - -
Pressure 3 (Top) P3 - yes yes yes yes - - - -
Measured Level LM - - yes yes1 - - - - -
Level Correction LC - - yes yes1 - - - - -
Percentage Level L% - - yes yes - - - - -
Vapour Temperature TV - yes yes yes1 yes - - - -
Air Temperature TA - - yes yes1 yes - - - -
Level Flow Rate(Rate of change of level)
- - yes yes1 - - - - -
Volumetric Flow Rate - - yes yes1 - - - - -
General Purpose Value 1 GP1 - yes yes yes1 - - - - -
General Purpose Value 2 GP2 - yes yes yes1 - - - - -
General Purpose Value 3 GP3 - - yes yes1 - - - - -
General Purpose Value 4 GP4 - - yes yes1 - - - - -
Multi-Element Temperatures
T(1) to T(16) - yes yes T(1) to T(15) - - - - -
Alarm/Discrete Values yes2 yes2 yes yes yes3 yes4 yes5 yes5 -
Discrete Output Control - - yes - - - - - 1
Additional - 4-20mA6 yes Level % - - Temp7 - 4-20mA6
Protocol Documentation KA 211F KA 246F KA 245F KA 247F KA 248F KA 249F KA 250F KA 250F KA 251F
1) Only accessible through WM550 extended tasks (51&52); not available on older control room systems.
2) The protocol allows 2 alarm and 4 general purpose flags which can be connected to any alarm or discrete input.
3) Level L & H alarm always, then 4 alarms and 2 general purpose flags which can be connected to any alarm or discrete input.
4) The protocol allows 2 digital alarm values which can be connected to any alarm or discrete input.
5) The protocol allows 2 digital values which can be connected to any alarm or discrete input.
6) One additional value "4-20mA" which can be connected to any value, however range of value sent is limited (see KA 246F for details).
7) One additional value "Temp2" which can be connected to any value, however the range of value sent is limited (see KA 250F for details).
Technical Data Tank Side Monitor NRF590
54
Non IS inputs and outputs
Technical data of the non-IS inputs and outputs
Analogue 4...20 mA input (option, s. pos. 20 of the product structure)
Analogue 4...20 mA outputs
Discrete inputs/outputs A and B
The Tank Side Monitor can be equipped with 1 or 2 discrete I/O modules.Available types: see position 50 and 60 of Product Structure or chapter "Accessories".
Discrete output C (for V1 protocol)
V1 Modbus WM5501
1) Software version 02.01 is in preparation for these protocols; currently, version 01.xx is still used; refer to Technical Information TI 374F.
EnrafBPM
Mark/Space1
L&JTankway1 GPE1
Analogue In - option2
2) see pos. 20 option 4 of the product structure; Modbus without in- or output does not provide an Ex d HART bus!
- standard standard standard -
Analogue Out 1standard+HART
option2
+HARTstandard+HART
standard+HART
standard+HART
standard+HART
standard+HART
Analogue Out 2 standard - standard - - - standard
Discrete In/Out A option, s. pos. 50 of the product structure
Discrete In/Out B option, s. pos. 60 of the product structure
Discrete Out C standard - - - - - -
Internal load (to ground) 110 Ω
Measuring range 0 ... 26 mA
Accuracy ±15 µA (after linearisation and calibration)
Output current 3 ... 24 mA
Output voltage U = 24 V - ILOAD 400 Ω
Output load max. 500 Ω
Accuracy ±15 µA (after linearisation and calibration)
HART options1
1) The second analogue output (available for V1, WM550 and GPE) has no HART option.
• Slave, address # 0:4 ... 20 mA active
• Slave, address #1 - #15:fixed current (user selectable)
• Master:max. current (≤ 24 mA) selectable by user;typically 6 HART instruments (each 4 mA) can be connected2
2) Start-up current of the HART instruments has to be taken into account
Load voltage 3 ... 100 V
Load current max. 500 mA
Type of contact mechanical latching relay
Isolation voltage 1500 V
Approvals UL, CSA
Tank Side Monitor NRF590 Technical Data
55
IS inputs and outputs
Technical Data of the IS inputs and outputs
HART input loop
Spot RTD input (option, s. pos. 40 of the product structure)
IS Analogue 4...20 mA input (option, s. pos. 70 of the product structure)
Discrete inputs (option, s. pos. 70 of the product structure)
V1 Modbus WM5501
1) Software version 02.01 is in preparation for these protocols; currently, version 01.xx is still used; refer to Technical Information TI 374F.
Enraf BPM Mark/Space1 L&J Tankway1 GPE1
HART standard standard standard standard standard standard standard
IS RTD option, s. pos. 40 of the product structure
IS Discrete In 1 standard standard standard standard standard standard standard
IS Discrete In 2 standard standard standard standard standard standard standard
IS Analogue In standard standard standard standard standard standard standard
Source voltage U = 25 V - ILoad x 333 Ω (typically)
total Imax Start-up currents of all connected HART devices may not exceed a total of 27 mA
connectable sensors depending on current consumption (including start-up current)
Measuring range 0 ... 400 Ω
Excitation current typ. 400 µA, max. 2000 µA
Type of Sensor Nominal value Tempmin Tempmax Accuracy1
1) Accuracy of converter, may be influenced by element accuracy
Pt100 (385) IEC751Pt100 (389)Pt100 (392) IPTS-68
100 Ω @ 0 °C (≈ 32 °F) -200 °C (≈ -330 °F) +600 °C (≈ +1110 °F) ±0.1 °C (≈ ± 0.2 °F)
Cu90 (4274)100 Ω @ 25 °C (≈ 77 °F)[90 Ω @ 0 °C (≈ 32 °F)]
-100 °C (≈ -150 °F) +250 °C (≈ +480 °F) ±0.1 °C (≈ ± 0.2 °F)
Ni120 (672) 120 Ω @ 0 °C (≈ 32 °F) -60 °C (≈ -75 °F) +180 °C (≈ +350 °F) ±0.1 °C (≈ ± 0.2 °F)
Ni100 (618) DIN 43760
100 Ω @ 0 °C (≈ 32 °F) -60 °C (≈ -75 °F) +180 °C (≈ +350 °F) ±0.1 °C (≈ ± 0.2 °F)
Source voltage U = 25 V - ILoad x 333 Ω (typically)
Internal load (to ground) 100 Ω
Measuring range 0 ... 26 mA
Accuracy ±15 µA (after linearisation and calibration)
Usage Source for Discrete Inputs / Source for 4 ... 20 mA loop device
Active voltage ("closed circuit") min. 9 V (default)
In-active voltage ("open circuit") max. 7 V (default)
Active high current 4 mA
Switching hysteresis 2 V
Technical Data Tank Side Monitor NRF590
56
9.1.2 Auxiliary energy
AC supply 55 ... 264 VAC; insensitive to polarity / CSA approved: 55 ... 250 VAC
DC supply 18 ... 55 VAC/DC
Power consumption • 370 mA @ 24 VDC• 200 mA @ 48 VDC• 75 mA @ 125VAC• 45 mA @ 220 VAC
Fuse Internal (on primary power)
9.1.3 Performance characteristics
Accuracy HART sensors
Accuracy of all data from connected HART sensors depends on the type and installation of instruments. The use of the digital HART protocol prevents accuracy data degradation, as would be the case with analogue (4...20 mA) sensors.
Spot RTD input, analogue inputs, analogue outputs
see above, "Technical data of the IS inputs and outputs
Resolution Resolution of all measured data depends on sensor and communication settings. The following settings are recommended for inventory and custody transfer applications:
For purpose of consistency all internal calculations are performed in SI units.
Scan time HART sensors
The data of connected HART sensors is constantly scanned and updated in the internal data base. The scanning sequence is based on the priorities of the measurements (level - prio 1, temperature - prio 2, pressure - prio 3,...). Typically, a value change on the HART multidrop loop is displayed after a 2 seconds delay (for priority 1 values).
Spot RTD input
RTD resistance is measured and recalculated at least every second.
Data type Units Inventory control Custody transfer
Level
millimeters 1 mm 1 or 0.1 mm
meters 10 mm 1 or 0.1 mm
feet 0.01 ft 0.01 ft
inches 1" or 0.1" 0.01" or 0.001"
ft-in-16 1/16" 1/16"
Temperature°C 0.1 °C 0.1 °C
°F 0.1 °F 0.1 °F
Tank Side Monitor NRF590 Technical Data
57
9.1.4 Ambient conditions
Ambient temperature -40 °C ... +60 °C (-40 °F ... +140 °F )
Storage temperature -55 °C ... 85 °C (-67 °F...185 °F)
Ingress protection IP65, Nema 4X
Electromagnetic compatibility (EMC)
• Interference emission to EN 61326, Equipment class A• Interference immunity to EN 61326
Use shielded signal lines for installation.
Overvoltage protection Both interfaces of the NRF590 - the Ex ia and the Ex d side - are protected by internal 600 Vrms surge arresters which have been tested against 10 kA transient discharges.
9.1.5 Mechanical contruction
Design, dimensions see chapter "Installation"
Construction The NRF590 housing has three separate compartments, one containing all electronics and two for electrical connections. The enclosure is die-cast aluminum with an polyester coating and IP65 (NEMA 4) rating. The upper terminal compartment and electronics compartment are designated for non-i.s. connections and electronics and are rated EEx d.The lower terminal compartment is designated for i.s. wiring connections and wiring only.
Weight approx. 8 kg
Cable entries The non-i.s. terminal compartment has 3 cable entries. The threading in this terminal compartment enclosure is M20x1.5.All intrinsically designated wiring has to be terminated in the i.s. terminal compartment. For the i.s. wiring, two M25x1.5 cable entries are available.The internal diameter of the cable entry is 16 mm.For accommodating various types of cable glands or cable conduit (rigid or flexible), the following sizes of cable gland adapters are optionally available:
• M20x1.5• G½• ½" NPT• ¾" NPT (max. 2 cable entries)
All adapters are rated EEx d and can be used for either cable connection. When installing, properly seal all ports to prevent moisture or other contamination from entering the wiring compartments.
Operating Menu Tank Side Monitor NRF590
58
10 Operating Menu
10.1 Overview
L00-NRF590-19-00-00-en-039
2--- Display
51-- Level Alarm
3--- Configuration
52-- Temp Alarm
4--- System
53-- Alarm #1
5--- Alarm
54-- Alarm #2
1--- Tank Values
6--- Discrete IO 61-- IS DI #1
62-- IS DI #2
*63-- DI #A
*64-- DI #B
*65-- DO #A
*66-- DO #B
*67-- DO #C
7--- Analogue IO 71-- IS AI
*72-- AI
*73-- AO
*74-- AO #2
*75-- IS RTD
section “Tank Values”
section “Display”
section “Configuration”
section “System”
see order code 50
see order code 60
see order code 50
see order code 60
see order code 20
see order code 20
see order code 20
see order code 20
see order code 40
Main Menu Dynamic Function block Menu
*8n-- HART Generic
*8n-- FMR23x/53x
*8n-- 1646/NMT53x
8--- HART devices
*8n-- NMT539(+WB)
9--- NRF Output
*8n-- NMT539 WB
*8n-- PMC
*91-- HART Output
*92-- V1 Output
*92-- Modbus Output
*92-- BPM Output
see order code 20
see order code 20
see order code 20
n:
HA
RT
ad
dre
ss
of
the
resp
ective
de
vic
e
Tank Side Monitor NRF590 Operating Menu
59
10.2 "Tank Values" Function Group
L00-NRF590xx-19-01-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
60
10.3 "Display" Function group
L00-NRF590xx-19-02-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
61
10.4 "Configuration" Function Group - Part 1
L00-NRF590xx-19-03-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
62
10.5 "Configuration" Function Group - Part 2
L00-NRF590xx-19-04-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
63
10.6 "System" Function Group
L00-NRF590xx-19-05-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
64
10.7 "Alarm" Function Group
L00-NRF590xx-19-06-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
65
10.8 "Discrete IO" Function Group
L00-NRF590xx-19-07-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
66
10.9 "Analogue IO" Function Group - Inputs
L00-NRF590xx-19-080-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
67
10.10 "Analogue IO" Function Group - Outputs
L00-NRF590xx-19-09-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
68
10.11 "Analogue IO" Function Group - IS RTD
L00-NRF590xx-19-10-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
69
10.12 "HART devices" Function Group - Generic
L00-NRF590xx-19-11-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
70
10.13 "HART devices" Function Group - FMR - 1st part
L00-NRF590xx-19-12-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
71
10.14 "HART devices" Function Group - FMR - 2nd part
L00-NRF590xx-19-13-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
72
10.15 "HART devices" Function Group - 1646/NMTxxx
L00-NRF590xx-19-14-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
73
10.16 "HART devices" Function Group - NMT539(+WB) - 1
L00-NRF590xx-19-22-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
74
10.17 "HART devices" Function Group - NMT539(+WB) - 2
L00-NRF590xx-19-23-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
75
10.18 "HART devices" Function Group - NMT539 WB
L00-NRF590xx-19-24-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
76
10.19 "HART devices" Function Group - PMC
L00-NRF590xx-19-16-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
77
10.20 "NRF Output" Function Group - HART / V1
L00-NRF590xx-19-17-00-en-001
In VorbereitungIn Preparation
Operating Menu Tank Side Monitor NRF590
78
10.21 "NRF Output" Function Group - Modbus
L00-NRF590xx-19-18-00-en-001
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Operating Menu
79
10.22 "NRF Output" Function Group - BPM
L00-NRF590xx-19-21-00-en-001
In VorbereitungIn Preparation
Appendix Tank Side Monitor NRF590
80
11 Appendix
11.1 Function and system design
11.1.1 ApplicationThe Tank Side Monitor NRF590 is a field device for the integration of tank sensors into tank inventory systems. It is used in tank farms, terminals and refineries.Especially, it can be used in connection with Micropilot M level radars (for inventory control) and Micropilot S high accuracy level radars (for custody transfer applications).
11.1.2 Operating principleThe Tank Side Monitor is typically installed at the bottom of the tank and allows to access all connected tank sensors.Typical process values measured by the sensors are:• level• temperature (point and/or average)• water level (measured by capacitive probe)• hydrostatic pressure (for hydrostatic tank gauging, HTG, or hybrid tank measurements, HTMS)• secondary level value (for critical applications)
The Tank Side Monitor collects the measured values and performs several configurable tank calculations. All measured and calculated values can be displayed at the on-site display.Via a field communication protocol, the Tank Side Monitor can transfer the values to an inventory control system.
11.1.3 System Integration(typical example)
L00-NRF590-14-00-08-en-010
FuelsManagersoftware
Hostcommunication
RTU
HART (i.s.) multidrop2-wire or 4-wire
Power
DeltabarPMC
MicropilotFMR
ProthermoNMT 539 withwater bottom
HART (i.s.)
Tank SideMonitor
Fieldcommunication
Tank Side Monitor NRF590 Appendix
81
11.2 Tank calculationsDepending on the connected sensors the Tank Side Monitor can perform different tank calculations in order to determine the tank content. The type of tank calculation is selected during the configuration with the setup wizard in the parameter "setup preset". The possible settings are summarised in the following table:
Setup preset Installation example Sensors measured/calculated values
required parameters
Direct level measurement
Level only
L00-NRF590-14-00-08-yy-002
• Level sensor • level • Tank Ref Height
Level + Temperature
L00-NRF590-14-00-08-yy-003
• Level sensor• Temperature sensor
(RTD orHART device)
• level• temperature
Hybrid Tank Measuring System (HTMS)
HTMS + P1
L00-NRF590-14-00-08-yy-004
• Level sensor• Pressure sensor
(P1, bottom)
• level• density of the measured
medium
• Tank Ref Height• P1 Position• Min HTMS
(minimum level at which HTMS measurement is possible; should be slightly above the position of the P1 sensor)
• local gravity• vapour density• air density• P3 Position (only for the "HTMS +
P1,3" mode)
HTMS + P1,3
! Note! This mode should be used in non-atmospheric tanks (e.g. pressurised tanks)
L00-NRF590-14-00-08-yy-005
• Level sensor• Pressure sensor
(P1, bottom)• Pressure sensor
(P3, top)
Micropilot
Tank SideMonitor
Tank
Ref
Hei
ght
Prothermo Micropilot
Tank SideMonitor
P1
Tank SideMonitor
Micropilot
Tank
Ref
Hei
ght
P1 Position
P1
P3Micropilot
Tank SideMonitor
P3
Pos
ition
Appendix Tank Side Monitor NRF590
82
Setup preset Installation example Sensors measured/calculated values
required parameters
Hydrostatic Tank Gauging (HTG)
HTG P1
L00-NRF590-14-00-08-yy-006
• Pressure sensor(P1, bottom)
• level (calculated) • Tank Ref Height• local gravity• density of the measured medium• Min HTG Level
(minimum level at which HTMS measurement is possible; should be slightly above the position of the P1 sensor)
• P1 Position• P3 Position (only for the "HTG P1,3"
mode)HTG P1,3
! Note! This mode should be used in non-atmospheric tanks (e.g. pressurised tanks)
L00-NRF590-14-00-08-yy-009
• Pressure sensor(P1, bottom)
• Pressure sensor(P3, top)
HTG P1,2
L00-NRF590-14-00-08-yy-007
• Pressure sensor(P1, bottom)
• Pressure sensor(P2, middle)
• level (calculated)• density of the measured
medium
• Tank Ref Height• local gravity• Min HTG Level
(minimum level at which HTMS measurement is possible; should be slightly above the position of the P2 sensor)
• P1 Position• P1-P2-Distance• P3 Position (only for the "HTG
P1,2,3" mode)HTG P1,2,3
! Note! This mode should be used in non-atmospheric tanks (e.g. pressurised tanks)
L00-NRF590-14-00-08-yy-008
• Pressure sensor(P1, bottom)
• Pressure sensor(P2, middle)
• Pressure sensor(P3, top)
P1
Tank SideMonitor
P1 Position
P1
Tank SideMonitor
P1 Position
P3
P3
Pos
ition
P1
Tank SideMonitor
P1 Position
P2P1-P2 Distance
P1
Tank SideMonitor
P1 Position
P2P1-P2 Distance
P3
P3
Pos
ition
Tank Side Monitor NRF590 Appendix
83
11.3 The block model of the Tank Side Monitor
11.3.1 Function blocks and data transfer
The concept
In order to facilitate the overview of numerous parameters, the Tank Side Monitor has been subdivided into function blocks. Each function block contains a group of parameters and has one or more inputs and outputs. The measuring data are processed within the function blocks. During commissioning one can link the outputs of individual function blocks to input of other function blocks. In this way one defines a specific path of the data through the Tank Side Monitor.
Inputs and outputs of the blocks
The function blocks have got two types of inputs and outputs:
• binary inputs and outputs (for transmsission of discrete values)• analogue inputs and outputs (for transmission of continuous values)
In a block diagram the inputs and outputs are depicted in the following way:
L00-NRF590-19-00-00-en-008
Connecting blocks, reference parameters
Blocks can be interconnected via so called reference parameters (marked by "REF" within the parameter name). There is a reference parameter for each configurable block input. The reference parameter is used to define the source of the input value.Moreover, there are unbreakable links between function blocks. These links haven’t got a reference parameter.In a block diagram, the links between blocks are depicted in the following way:
L00-NRF590-19-00-00-en-009
DiscreteValue
DiscreteValue
ContinuosValue
ContinuosValue
Input Ports Output Ports
...REF
...REF
...REF
...REF
...REF
...REF
Linked Ports
Possible Link
Unbreakable Link
Allowed
Not Allowed
Appendix Tank Side Monitor NRF590
84
11.3.2 The function blocks of the Tank Side Monitor
Input and output blocks
Name Symbol Function
AIAnalog Input
L00-NRF590-19-00-00-yy-010
receives an 4 ... 20 mA signal, from which it calculates an absolute measured value and a percentage
! Note! Each analogue input of the Tank Side Monitor has got its own AI block.
DIDiscrete Input
L00-NRF590-19-00-00-yy-011
receives a switching signal, from which it calculates a binary signal;can be operated in two modes:
– normally open– normally closed
! Note! Each discrete input of the Tank Side Monitor has got its own DI block.
AOAnalog Output
L00-NRF590-19-00-00-yy-012
receives an analogue signal, from which it calculates an analogue signal
! Note! Each analogue output of the Tank Side Monitor has got itw own AO block.
DODiscrete Output
L00-NRF590-19-00-00-yy-013
receives a binary signal, from which it calculates a switching signal;can be operated in two modes:
– normally open– normally closed
! Note! Each discrete output of the Tank Side Monitor has got itw own DO block.
RTD
L00-NRF590-19-00-00-yy-014
receives the resistance signal of a RTD and an analogue level signal;calculates the temperature;the temperature output contains a status bit which indicates if the temperature sensor is currently above or below the level surface.
! Note! this block is only present in the following instrument version:NRF590 - ***1*******
VALUE
VALUE %AIVALUE mA
VALUEDI
VALUEDI
AOREF
VALUE mA
VALUE %
VALUE
DOREF
DOREF
TEMP
LEVEL
RTD
Tank Side Monitor NRF590 Appendix
85
HART blocks
! Note! The HART blocks are dynamical. That means, they are only present, if the respective HART device is connected to the Tank Side Monitor. As soon as the Tank Side Monitor recognizes a new device on the HART loop, it creates the corresponding block.
Name Symbol Function
FMRMicropilot
L00-NRF590-19-00-00-yy-015
receives the HART signal of the Micropilot;outputs the following values:– (corrected) level– measured level– measured distance
NMTProthermo
L00-NRF590-19-00-00-yy-019
receives the HART signal of the Prothermo and an anlogue level signal;outputs the following values:– the medium liquid temperature– the medium gas temperature– the individual temperatures of the elements 1 ... 16
NMT (+ WB)Prothermo with water bottom
probe
L00-NRF590-19-00-00-yy-017
receives the HART signal of the Prothermo and an anlogue level signal;outputs the following values:– the medium liquid temperature– the medium gas temperature– the water level– the individual temperatures of the elements 1 ... 16
NMT (WB)water bottom
probe
L00-NRF590-19-00-00-yy-020
receives the HART signal of the water bottom probe;outputs an analog water level signal
PMDCerabar S
L00-NRF590-19-00-00-yy-018
receives the HART signal of the Cerabar S;outputs an analogue pressure signal
GENGeneric HART
device
L00-NRF590-19-00-00-yy-016
receives the HART signal of an arbitrary HART device:outputs the following values:– up to four measured values– the current (mA) belonging to the primary value– the percentage of the primary value
MEASURED DIST
MEASURED LEVEL
PVFMR
FMR23x & FMR53x
TEMP 16
TEMP 1
GAS TEMP
TEMP
LEVELNMT
1646NMT53xNMT539
TEMP 16
TEMP 1
GAS TEMP
WATER LEVEL
TEMP
LEVELNMT(+WB)
NMT539
WATER LEVEL
NMT (WB)
NMT539
PRESSURE
PMD
Cerabar S
TV
FV
PV mA
PV %
SV
PVGENGeneric
Hart Device
Appendix Tank Side Monitor NRF590
86
Internal function blocks
Name Symbol Function
ALAlarm
L00-NRF590-19-00-00-yy-021
receives an analogue signal;calculates 5 binary values according to the alarm points
! Note! The Tank Side Monitor contains 4 alarm blocks with the following designations:– Level Alarm– Temperature Alarm– Alarm 1– Alarm 2
TANKTank functions
L00-NRF590-19-00-00-yy-022
receives the measured values from the HART and the input blocks;performs the tank calulations and corrections;outputs the calculated tank values
HH
H
ANY
L
LL
ALREF
VAPOR TEMP
TEMP
MEAS. LEVEL
LEVEL %
LEVEL
TANK HEIGHT
AIR TEMP
WATER LEVEL
P1 (BOT)
P2 (MID)
P3 (TOP)
OBS.DENSITY
VOL.FLOW RATE
TANK
LEVEL REF
TEMP REF
VAPOR TEMP REF
AIR TEMP REF
WATER LEVEL REF
P1 (BOT) REF
P2 (MID) REF
P3 (TOP) REF
GP 1
GP 2
GP 3
GP 4
GP 1
GP 2
GP 3
GP 4
TEMP ELEM 1
TEMP ELEM 16
TEMP ELEM 1
TEMP ELEM 16
Tank Side Monitor NRF590 Appendix
87
Field protocol blocks
Name Symbol Function
V1
L00-NRF590-19-00-00-yy-025
receives analogue and binary values from various blocks and outputs them onto the V1 bus
! Note! this block is available in the following instrument version only:NRF590 - *8*********
V1
TEMP
WATER LEVEL
OBS. DENSITY
TEMP 1
TEMP 16
HART2 PV REF
ANALOGUE % REF
HART1 PV REF
ALARM 2 REF
ALARM 1 REF
LEVEL
VAPOR TEMP
P1 (BOT) PRESSURE
P2 (MID) PRESSURE
P3 (TOP) PRESSURE
SP 1 REF
SP 1 REF
Appendix Tank Side Monitor NRF590
88
MODBUS
L00-NRF590-19-00-00-yy-028
receives analogue and binary values from various blocks and outputs them onto the EIA-485 Modbus
! Note! this block is available in the following instrument versions only:NRF590 - *4*********NRF590 - *5*********
WM550
L00-NRF590-19-00-00-yy-023
receives analogue and binary values from various blocks and outputs them onto the WM 550 bus
! Note! this block is available in the following instrument version only:NRF590 - *1*********
Name Symbol Function
MODBUS
TEMP
WATER LEVEL
OBS. DENSITY
CORR. LEVEL
CORR. LEVEL %
LEVEL
VAPOR TEMP
AIR TEMP
P1 (BOT) PRESSURE
P2 (MID) PRESSURE
P3 (TOP) PRESSURE
GP 1
GP 4
ELEM 1
ELEM 4
Analogue REF
USER VALUE 1
USER VALUE 8
USER DISCRETE 1
USER DISCRETE 8
MODBUS VALUE 1
MODBUS VALUE 4
MODBUS DISCRETE 1
MODBUS DISCRETE 4
WM550
TANK HEIGHT
LEVEL %
WATER LEVEL
OBS. DENSITY
TEMP 1
TEMP 16
ALARM 3 REF
ALARM 1 REF
ALARM 4 REF
ALARM 2 REF
LEVEL
TEMP
P3 (TOP) PRESSURE
Tank Side Monitor NRF590 Appendix
89
ENRAF
L00-NRF590-19-00-00-yy-027
receives analogue and binary values from various blocks and outputs them onto the Enraf BPM bus
! Note! this block is available in the following instrument version only:NRF590 - *E*********
MS
L00-NRF590-19-00-00-yy-026
receives the following values and outputs them onto the Varec Mark/Space bus:– 1 analogue level value– 1 analogue temperature value– 2 arbitrary discrete values
! Note! this block is available in the following instrument versions only:NRF590 - *2*********NRF590 - *3*********
LJ
L00-NRF590-19-00-00-yy-024
receives the following values and outputs them onto the L&J Tankway bus:– 1 analogue level value– 1 analogue temperature value– 2 arbitrary discrete values
! Note! this block is available in the following instrument version only:NRF590 - *7*********
GPE
L00-NRF590-19-00-00-yy-029
receives the following values and outputs them onto the GPE bus:– 1 analogue level value– 1 analogue temperature value– 1 arbitrary additional analogue value– 1 arbitrary discrete value
! Note! this block is available in the following instrument version only:NRF590 - *G*********
Name Symbol Function
ENRAF
TEMP
WATER LEVEL
OBS. DENSITY
EXT 2 REF
LEVEL ALARM H
LEVEL ALARM LL
DENSITY ALARM L REF
WATER ALARM L REF
EXT 1 REF
LEVEL ALARM HH
LEVEL ALARM L
DENSITY ALARM H REF
WATER ALARM H REF
LEVEL
VAPOR TEMP
AIR TEMP
P1 (BOT) PRESSURE
P2 (MID) PRESSURE
P3 (TOP) PRESSURE
SYSTEMAIR TEMP
MS(Mark:Space)
LEVEL
ALARM 1 REF
ALARM 2 REF
TEMP
LJ(L&J Tankway)
LEVEL
ALARM 1 REF
ALARM 2 REF
TEMP
GPE
LEVEL
ANALOGUE REF
CONTACT REF
TEMP
Appendix Tank Side Monitor NRF590
90
11.3.3 Default block configurationThe following diagrams show the blocks and block connections which are present on delivery. The HART blocks are not included in the diagrams because they are only created by the Tank Side Monitor, if the respective device is connected to the HART loop.
Sakura V1 (NRF590 - *8*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Appendix
91
EIA-485 Modbus (NRF590 - *4/5*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Appendix Tank Side Monitor NRF590
92
Whessoematic WM550 (NRF590 - *1*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Appendix
93
Enraf BPM (NRF590 - *E*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Appendix Tank Side Monitor NRF590
94
Varec Mark/Space (NRF590 - *2/3*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Appendix
95
L&J Tankway (NRF590 - *7*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Appendix Tank Side Monitor NRF590
96
GPE (NRF590 - *G*********)
L00-NRF590-19-00-00-yy-030
In VorbereitungIn Preparation
Tank Side Monitor NRF590 Index
97
Index
AAC supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Access code. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47Accuracy. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Ambient conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Ambient temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80Automatic HART scan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Auxiliary energy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
CCable entries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Connection of HART instruments . . . . . . . . . . . . . . . . . . . 25Connection of the auxiliary energy . . . . . . . . . . . . . . . . . . 21Connection of the discrete in and output . . . . . . . . . . . . . . 22Connection of the field protocols . . . . . . . . . . . . . . . . . . . . 20Connection of the non-i.s. 4 ... 20 mA analogue input . . . . 21Connection of the non-i.s. 4 ... 20 mA analogue output . . . 21Construction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
DDC supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Declaration of Contamination . . . . . . . . . . . . . . . . . . . . . . . 5declaration of contamination . . . . . . . . . . . . . . . . . . . . . . . 46Default block configuration . . . . . . . . . . . . . . . . . . . . . . . . 90Design, dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Device Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
EEditing parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Electromagnetic compatibility (EMC). . . . . . . . . . . . . . . . . 57Entering the menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Example of block linking . . . . . . . . . . . . . . . . . . . . . . . . . . 38
FFCC approval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Function blocks and data flow . . . . . . . . . . . . . . . . . . . . . . 37Function blocks and data transfer. . . . . . . . . . . . . . . . . . . . 83Fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
GGeneral key combinations . . . . . . . . . . . . . . . . . . . . . . . . . 27Grounding of the fieldbus screen . . . . . . . . . . . . . . . . . . . . 20
HHazardous areas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
IIngress protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Inputs and Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
KKey operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
LLinking Digital Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Linking sensors to function blocks . . . . . . . . . . . . . . . . . . . 37
MMain menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Mechanical contruction . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Modbus termination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Mounting on horizontal rail . . . . . . . . . . . . . . . . . . . . . . . . 13Mounting on vertical rail . . . . . . . . . . . . . . . . . . . . . . . . . . 13
NNavigation within the menu . . . . . . . . . . . . . . . . . . . . . . . 32
OOperating principle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80Output modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48Overvoltage protection . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
PPC board NRF590X . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Performance characteristics . . . . . . . . . . . . . . . . . . . . . . . . 56Power consumption. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
QQuiting the menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
RRelay output module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50repairs to Ex-approved devices. . . . . . . . . . . . . . . . . . . . . . 43Resolution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56return . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
SScan time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Sealing of the Tank Side Monitor . . . . . . . . . . . . . . . . . . . . 36Shortcut menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Softkeys. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27Software locking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Software unlocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Standard mechanical diagram for all I/O modules . . . . . . . 47Status of the discrete inputs and outputs . . . . . . . . . . . . . . 29Status of the displayed measuring values . . . . . . . . . . . . . . 29Status of the Tank Side Monitor . . . . . . . . . . . . . . . . . . . . . 29Storage temperature. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57System Integration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80
TTerminal assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24Terminal assignment of the field protocol/host side . . . . . . 18The function blocks of the Tank Side Monitor . . . . . . . . . . 84
VValidation of Weight & Measure approved measurements . . 39
WW&M hardware locking switch . . . . . . . . . . . . . . . . . . . . . 35
Tank Side Monitor NRF590 Index
98
Wall mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
Erklärung zur KontaminationP
/SF
/Kon
taV
IIIDeclaration of Contamination
Because of legal regulations and for the safety of our employees and operating equipment, we need the "declaration ofcontamination", with your signature, before your order can be handled. Please make absolutely sure to include it withthe shipping documents, or - even better - attach it to the outside of the packaging.Aufgrund der gesetzlichen Vorschriften und zum Schutz unserer Mitarbeiter und Betriebseinrichtungen, benötigen wir dieunterschriebene "Erklärung zur Kontamination", bevor Ihr Auftrag bearbeitet werden kann. Legen Sie diese unbedingt denVersandpapieren bei oder bringen Sie sie idealerweise außen an der Verpackung an.
Serial number
Seriennummer ___________________Type of instrument / sensor
Geräte-/Sensortyp _______________________________________
Process data/Prozessdaten Temperature / _________ [°C]
Conductivity / _________ [ S ]
Temperatur
Leitfähigkeit
Pressure / __________ [ Pa ]
Viscosity / __________ [mm /s]
Druck
Viskosität2
corrosiveätzend
harmlessunbedenklich
other *sonstiges*
toxicgiftig
Processmedium
IdentificationCAS No.
flammableentzündlich
harmful/irritant
gesundheits-schädlich/reizend
Medium /concentrationMedium /Konzentration
Returned partcleaned with
Medium forprocess cleaning
Medium and warnings
Warnhinweise zum Medium
* explosive; oxidising; dangerous for the environment; biological risk; radioactive* explosiv; brandfördernd; umweltgefährlich; biogefährlich; radioaktiv
Please tick should one of the above be applicable, include security sheet and, if necessary, special handling instructions.Zutreffendes ankreuzen; trifft einer der Warnhinweise zu, Sicherheitsdatenblatt und ggf. spezielle Handhabungsvorschriften beilegen.
Reason for return / Grund zur Rücksendung _____________________________________________________________
__________________________________________________________________________________________________
__________________________________________________________________________________________________
We hereby certify that the returned parts have been carefully cleaned. To the best of our knowledge they are free from any residues indangerous quantities.Hiermit bestätigen wir, dass die zurückgesandten Teile sorgfältig gereinigt wurden, und nach unserem Wissen frei von Rückständen ingefahrbringender Menge sind.
_____________________________________________(place )Ort, Datum, date /
______________________________________________(Company stamp and legally binding signature)(Firmenstempel und rechtsverbindliche Unterschrift)
Company data /Angaben zum Absender
Company / ________________________________
______________________________________________
Address /
______________________________________________
______________________________________________
Firma
Adresse
Contact person / ______________________
Department / ______________________________
P ______________________________
Fax / E-Mail _______________________________________
Y _______________________
Ansprechpartner
Abteilung
Telefon
Ihre Auftragsnr.
hone number/
our order No. /
Medium zurEndreinigung
Medium zurProzessreinigung
Medium imProzess
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