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BA00401G/08/EN/08.16
71328078

Operating InstructionProservo NMS5Intelligent Tank Gauge

Proservo NMS5Table of contents

Table of contents

1 Safety instructions. . . . . . . . . . . . . . . . . . . . . . . . 31.1 Designated use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31.2 Installation, commissioning, and operation . . . . . . . . . 31.3 Product requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . 31.4 Operational safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41.5 Electrostatic charge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41.6 Notes on safety conventions and symbols . . . . . . . . . . . 51.7 Symbols for certain types of information . . . . . . . . . . . 5

2 Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62.1 Device designation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62.2 Order Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132.3 Scope of delivery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162.4 Certificates and approvals . . . . . . . . . . . . . . . . . . . . . . . 162.5 Registered trademarks . . . . . . . . . . . . . . . . . . . . . . . . . . 16

3 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 173.1 Incoming acceptance, transport, and storage . . . . . . . 173.2 Terms related to tank measurements . . . . . . . . . . . . . 183.3 Design and dimensions . . . . . . . . . . . . . . . . . . . . . . . . . 193.4 Necessary tools for installation . . . . . . . . . . . . . . . . . . 20

4 Displacer and measuring wire . . . . . . . . . . . . 214.1 Shape, diameter, and material . . . . . . . . . . . . . . . . . . . 21

5 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225.1 Type of tanks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225.2 Type of tank installation . . . . . . . . . . . . . . . . . . . . . . . . 245.3 Mounting without guide system . . . . . . . . . . . . . . . . . . 255.4 Mounting with a stilling well. . . . . . . . . . . . . . . . . . . . . 265.5 Mounting NMS5 with guide wire . . . . . . . . . . . . . . . . . 315.6 Alignment of NMS5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 325.7 Electrostatic charge . . . . . . . . . . . . . . . . . . . . . . . . . . . . 335.8 Mounting of the device . . . . . . . . . . . . . . . . . . . . . . . . . 35

6 Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 436.1 Wiring connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 436.2 Terminal assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . 446.3 Temperature input system . . . . . . . . . . . . . . . . . . . . . . . 48

7 Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 507.1 Touch control and programming matrix . . . . . . . . . . . 507.2 HOME position. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 537.3 Access code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 557.4 Operation command and new operation status . . . . . 557.5 Operation of displacer . . . . . . . . . . . . . . . . . . . . . . . . . . 577.6 Calculation of level and densities . . . . . . . . . . . . . . . . . 58

2

8 Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . .608.1 Initial settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 608.2 Settings for NMT 53x connections . . . . . . . . . . . . . . . .648.3 Settings for connection to NRF560 . . . . . . . . . . . . . . . .658.4 Liquid level calibration. . . . . . . . . . . . . . . . . . . . . . . . . . 668.5 Remote communications . . . . . . . . . . . . . . . . . . . . . . . . 698.6 Density and density profile measurements . . . . . . . . .758.7 Interface measurement . . . . . . . . . . . . . . . . . . . . . . . . . 828.8 Sealing of NMS5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .83

9 Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . .849.1 Exterior cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 849.2 Seals replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 849.3 Repairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 849.4 Repairs to Ex-approved devices . . . . . . . . . . . . . . . . . . 849.5 Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84

10 Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8510.1 Calibration chamber . . . . . . . . . . . . . . . . . . . . . . . . . . . 8510.2 Power and control switch . . . . . . . . . . . . . . . . . . . . . . . 8510.3 Ball valve NHV4A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8610.4 Reducing flange NHF4 . . . . . . . . . . . . . . . . . . . . . . . . . 86

11 Diagnosis and troubleshooting. . . . . . . . . . . . 8711.1 Selection of diagnostic code and history . . . . . . . . . . 8711.2 Error and status messages . . . . . . . . . . . . . . . . . . . . . . .8811.3 Alarm history display. . . . . . . . . . . . . . . . . . . . . . . . . . . 9011.4 List of alarm messages . . . . . . . . . . . . . . . . . . . . . . . . . 9011.5 Flowcharts for diagnostics and troubleshooting . . . . .9111.6 Setting after parts replacement . . . . . . . . . . . . . . . . . . .9711.7 Intelligent function . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9811.8 Return . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9811.9 Disposal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9811.10 Software History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99

12 Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . 10012.1 Sensor calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10012.2 Weight calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . .103

13 Technical data . . . . . . . . . . . . . . . . . . . . . . . . . 106

14 Matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10814.1 Programming Matrix . . . . . . . . . . . . . . . . . . . . . . . . . 10814.2 Description of Programming Matrix . . . . . . . . . . . . . 118

15 Appendix. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15415.1 RS 485 MODBUS (COM- 5) terminator . . . . . . . . . . 15415.2 Measurement wire replacement . . . . . . . . . . . . . . . . .156

Endress+Hauser

Proservo NMS5 1 Safety instructions

1 Safety instructions

1.1 Designated use

Proservo NMS5 of intelligent tank gauge is designed for high-accuracy liquid level measurement in storage and process applications.NMS5 performs the tank inventory management, loss control, total cost saving, and safe operation.NMS5 is designed for the purpose of single or multi-task installations, converting a wide range of mea-surement functions.

1.2 Installation, commissioning, and operation

• Mounting, electrical installation, start-up, and maintenance of the instrument may only be per-formed by trained personnel authorized by the operator of the facility.

• Personnel must read and understand these installation instructions before performing the proce-dures.

• The instrument may only be operated by personnel who are authorized and trained by the operator of the facility. All instructions in this manual must be observed.

• The installer must make sure that the measuring system is correctly wired according to the wiring diagrams. The measuring system must be grounded.

• Observe all law and regulations applicable and valid for your country and pertaining to the opening and repairing of electrical devices.

1.3 Product requirements

Power sourceCheck the voltage of the power supply before connecting it to the product. It should be the exact voltage required for proper operation of the product.

Connection to other devicesIt is possible to connect to other devices explained in this instruction. Refer to each operation instruc-tion when connecting to devices.

GroundDo not remove earth terminal or earth wire when the power is on.

Power cableUse a power cable specified by our company. The product should be protectively grounded before it is connected to a measurement object or an external control circuit.

Endress+Hauser 3

Proservo NMS51 Safety instructions

1.4 Operational safety

Hazardous area

• Use the explosion proof type for measurement in areas where explosion hazards are present.

• Devices installed in areas having explosion hazards must not be opened when the power is on.

• Strict compliance with installation instructions and - ratings, as directed in this supplementary doc-umentation, is mandatory.

• Device maintenance and repair is restricted to meet explosion proof regulations.

• Tighten the cable gland firmly.

• Devices employed in areas having explosion hazards should be installed and wired in keeping with explosion proof regulations.

• Ensure that all personnel are properly qualified.

• Observe the certification requirements as well as national and local regulations.

Changes or modifications other than those expressly approved by Endress+Hauser are strictly prohib-ited. Unauthorized modifications can cause malfunction or damage, resulting in serious injury or death.

1.5 Electrostatic charge

Mounting with a stilling well is recommended for use in a tank which contains flammable liquid with conductivity at 10-8 S/m or less.In case of installation without a stilling well, allow enough stilling time according to the table below before lowering the level gauge down to the liquid surface. When a stilling well is used, the stilling time is shown as in column “<10” in the table below.

Conductivity(S/cm)

Reference: Stilling time (min.)

Liquid volume in tank (m3)

≤10 10~50 50~100 ≥5000

≥10-8 ≥1 ≥1 ≥1 ≥2

10-12 ~10-8 ≥2 ≥3 ≥10 ≥30

10-14~10-12 ≥4 ≥5 ≥60 ≥120

≤10-14 ≥10 ≥10 ≥120 ≥240

(Japan National Institute of Occupational Safety and Health)

WARNING

4 Endress+Hauser

Proservo NMS5 1 Safety instructions

1.6 Notes on safety conventions and symbols

To highlight safety-relevant or alternative operating procedures in this manual, the following conven-tions have been used, each indicated by a corresponding symbol on the left.

1.7 Symbols for certain types of information

Symbol Meaning

A0011189-EN

DANGER!This symbol alerts you to a dangerous situation. Failure to avoid this situation will result in serious or fatal injury.

A0011190-EN

WARNING!This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in serious or fatal injury.

A0011191-EN

CAUTION!This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in minor or medium injury.

A0011192-EN

NOTICE!This symbol contains information on procedures and other facts which do not result in personal injury.

Symbol Meaning

A0011182

AllowedIndicates procedures, processes or actions that are allowed.

A0011183

RecommendationIndicates procedures, processes or actions that are recommended.

A0011184

ForbiddenIndicates procedures, processes or actions that are forbidden.

A0011193

TipIndicates additional information.

DANGER

WARNING

CAUTION

NOTICE

Endress+Hauser 5

Proservo NMS52 Identification

2 Identification

2.1 Device designation

2.1.1 NameplateThe following technical data are given on the instrument nameplate:

Figure 1: ATEX approval type Ex d/Ex d [ia]

NP- ### - # (*2)

XA00578G-A/08

Supply

Measuring range mDisplacer weight gDisplacer dia. mmMeasure wire dia. mmDensity range ~Manufacturing dateTest dateTesterZero point of liquid level gauge is mm under the reference point.Only read level when indication "BAL" is present.

Certification no. Tank ID

Ambient temperature: ～ +60°CProcess temperature: -200 ～ +200°C

KEMA 05 ATEX 2071

Ex d IIB T6...T3 ATEX II 1/2 G

Order code

Ser. no.

0044PROSERVO NMS53

Made in JapanYamanashi 406-0846Endress+Hauser Yamanashi Co.,Ltd.

IP67, NEMA 4X Warning: Do not open the cover when energized.

*1: -20°C or -40°C is selected depending on the product specification. *2: NP-2514-X for -20°C, NP-2515-X for -40°C

1 Type code

2 Order code

3 Serial number

4 Power supply specification

5 Measuring range

6 Displacer weight

7 Displacer diameter

8 Measuring wire diameter

9 Density measurement lower limit

10 Density measurement upper limit

11 Date of manufacture

12 Date of manufacture test

13 Name of tester

14 Reference point (W&M)

15 Protection Class

16 NMi W&M Certificate number

17 PTB W&M Certificate number


6 Endress+Hauser

Proservo NMS5 2 Identification

Figure 2: ATEX approval type Ex d

Figure 3: FM approval type XP

NP-2551-4

Order code

Ser. no.

0044PROSERVO NMS53


IP67, NEMA 4X

Supply

KEMA 05 ATEX 2071

Ex d IIC T6...T3 ATEX II 1/2 G

XA00578G-A/08


Ambient temperature: -20 ～ +60°CProcess temperature: -200 ～ +200°C


Warning: Do not open the cover when energized. Warning: Do not open the cover when an exposive atmoaphere is present.

1 Type code

2 Order code

3 Serial number


5 Measuring range

6 Displacer weight







13 Name of tester

14 Reference point




NP-2346-4

Temperarure Class T4APPROVED

F M XP Class I, Div. 1, Gp. C, DXP Class I, Zone 1, Gp. IIBDIP Class II, III, Div. 1, Gp. E, F, G

Ambient temperature: -20 +60 NEMA 4X, IP67

Order code

Ser. no.

Input rated

~ Ambient temperature -20 +60

Input

OutputRelay contact rated

30 V AC, 2A; 42 V DC, 2A, 60 W.Measuring range m

Manufacturing date

Warning: Keep cover tight while circuits are alive.Caution: Use supply wires suitable for 70 minimum.Caution: A seal shall be installed within 50 mm of the enclosure.

PROSERVO NMS53


4

5

6

32

1

1 Type code

2 Order code

3 Serial number

4 Input rating

5 Signal input specification

6 Signal output specification

Endress+Hauser 7


Figure 4: FM approval type XP-AIS

Figure 5: CSA approval type Ex d[ia]

Install: per drawing Ex421-439-

NP-2421-5

APPROVED

F M

Temperarure class T4Ambient temperature: -20 +60

XP-AIS Class I, Div. 1, Gp. C, DXP-AIS Class I, Zone 1, Gp. IIB DIP Class II, III, Div. 1, Gp. E, F, GXP-ANI Class I, Div. 2, Gp. C, D

Order code

Ser. no.

Input rated

~ Ambient temperature -20 +60

Input



Manufacturing date


PROSERVO NMS53


4

5

32

1

6

1 Type code

2 Order code

3 Serial number

4 Input rating



7 XA version number

NP-2526-2

Ex d[ia] IIB T4; Class I, Zone 1; Class I, Div. 1, Gp. C, D ; [Ex ia]Clsss II, Div. 1, Gp. E, F, G ; Class IIIAmbient temperature: -20 +60 MWP psi

R

216422

Type 4X, IP67

Intrinsically Safe Outputs wheninstalled per drawing Ex540-742

Order code

Ser. no.

Input rated

Input



Manufacturing date


PROSERVO NMS53


5

23

1

4

6

7

⑧

1 Type code

2 Order code

3 Serial number

4 Input rating



7 Measuring rage

8 XA version number

8 Endress+Hauser


Figure 6: CSA approval type Ex d

Figure 7: TIIS approval type Ex d

NP-2342-3

Order code

Ser. no.

Input rated

Ambient temperature: -20 +60MWP psi

Exd IIB T4;Class I, Divsion 1, Groups C, D ; Clsss II, Divsion 1, Groups E, F, G ;Class III

R

216422

Type 4X, IP67

Input



Manufacturing date


PROSERVO NMS53


1

23

4

5

7

6

1 Type code

2 Order code

3 Serial number

4 Input rating



7 Measuring rage

Ex proof model : Protection class :

/ Rating

Power supply :

/ Data communication: DC 48 V 300 mA/ Contact input : DC 30 V 0.6 W

/ Contact output: AC 250 V 1.5 ADC 30 V 9 W

/Ambient temperature: -20 +60

HIV 0.05M Km

Note: Be sure to cutt off the power and cool douwn this instrument befor opening the cover. In case of cunduit wiring method, shall be use HIV wire (insulation resistance over 0.05M-ohm.Km)

Zero point of liquid level gauge is mmunder the reference point.Only read level when indication "BAL" is present.

NP-2645-1

IP67NEMA 4X

Order codeSer. no.

PROSERVO NMS53

Yamanashi 406-0846Made in JapanEndress+Hauser Yamanashi Co.,Ltd.

BA 00401G/08

Measuring range mDisplacer weight gDisplacer dia. mmMeasure wire dia. mmDensity range ~Manufacturing dateTest dateTester


1 Type code

2 Order code

3 Serial number

4 Ex-proof model

5 Protection class


7 Measuring range

8 Displacer weight







15 Name of tester




Endress+Hauser 9


Figure 8: IEC approval type Ex d -20°C

Figure 9: IEC approval type Ex d -40°C

Ex d IIB T6...T3 Ga/Gb IECEx KEM 09.0062

NP-2619-2

XA00582G-A/08


Order code

Ser. no.

0044PROSERVO NMS53



Supply



-20

1 Type code

2 Order code

3 Serial number


5 Measuring range

6 Displacer weight







13 Name of tester

14 Reference point

15 Protection class




Ex d IIB T6...T3 Ga/Gb IECEx KEM 09.0062

XA00582G-A/08

Order code

Ser. no.

0044PROSERVO NMS53



Supply



NP-2620-2


1 Type code

2 Order code

3 Serial number


5 Measuring range

6 Displacer weight







13 Name of tester

14 Reference point

15 Protection class




10 Endress+Hauser


Figure 10: IEC approval type Ex d IIC

Figure 11: NEPSI approval type IIB

Ex d IIC T6...T3 Ga/Gb IECEx KEM 09.0062

NP-2621-2

XA00582G-A/08


Order code

Ser. no.

0044PROSERVO NMS53



Supply



1 Type code

2 Order code

3 Serial number


5 Measuring range

6 Displacer weight







13 Name of tester

14 Reference point




Ex d IIB T6...T3 Ga/Gb GYJ111093

NP-####-x（*2)

XA01257G-*/08


Order code

Ser. no.

0044PROSERVO NMS53


IP67, NEMA 4X

Supply



Warning: Do not open the cover when energized. Warning: Do not open the cover when an explosive atmosphere is present.

*1: -20°C or -40°C is selected depending on the product specification. *2: NP-2692 for -20°C, NP-2693 for -40°C

1 Type code

2 Order code

3 Serial number


5 Measuring range

6 Displacer weight







13 Name of tester

14 Reference point

15 Protection class




Endress+Hauser 11


Figure 12: NEPSI approval type IIC

NP-2694

Order code

Ser. no.

0044PROSERVO NMS53


IP67, NEMA 4X

Supply

Ex d IIC T6...T3 Ga/Gb

GYJ111093

XA01257G-*/08




Warning: Do not open the cover when energized. Warning: Do not open the cover when an explosive atmosphere is present.

1 Type code

2 Order code

3 Serial number


5 Measuring range

6 Displacer weight







13 Name of tester

14 Reference point




12 Endress+Hauser


2.2 Order Information

010 Drum Housing Pressure Rating; Material:1 0… 200mbar/20kPa/2.9psi; Alu2 0… 200mbar/20kPa/2.9psi; stainless ste>4 0… 5.88bar/588kPa/85.28psi; Alu5 0… 5.88bar/588kPa/85.28psi; stainless steel6 0… 24.5bar/2.45MPa/355.34psi; stainless steel9 Special version, TSP-no. to be spec.

020 Approval:0 Weather proof, IP 67 NEMA 4X1 TIIS Ex d IIB T45 FM XP Cl. I Div. 1 Gr. C-DN FM XP-AIS Cl. I Div.1 Gr. C-D6 CSA Cl. I Div. 1 Gr. C-DO CSA Ex d[ia] Cl. I Div. 1 Gr. C-DG ATEX II 1/2G Ex d IIB T6...T3Q ATEX II 1/2G Ex d IIC T6...T3S ATEX II 1/2G Ex d IIB T6...T3, -40°CJ ATEX II 1/2G Ex d (ia) IIB T6...T3U ATEX II 1/2G Ex d (ia) IIB T6...T3, -40°CA IEC Ex d ia IIB T6...T3 Ga/GbB IEC Ex d IIB T6...T3 Ga/GbC IEC Ex d IIC T6...T3 Ga/GbD IEC Ex d ia IIB T6...T3 Ga/Gb, -40°CE IEC Ex d IIB T6...T3 Ga/Gb, -40°CT NEPSI Ex d ia IIB T6...T3V NEPSI Ex d IIB T6...T3W NEPSI Ex d IIC T6...T3X NEPSI Ex d ia IIB T6...T3, -40°C4 NEPSI Ex d IIB T6...T3, -40°C9 Special version, TSP-no. to be spec.

030 Application:A Liquid LevelB PTB (<1mm) type approval, liquid levelC NMi (<1mm) type approval, liquid levelD Multi measurement, liquid level, I/F level, bottom, densityE PTB (<1mm) type approval, liquid level, I/F level, bottom, densityF NMi (<1mm) type approval, liquid level, I/F level, bottom, densityG Density profile multi measurement, liquid level, I/F level, bottom, densityH PTB (<1mm)type approval, density profile, liquid level, I/F level, bottom, densityJ NMi (<1mm) type approval, density profile, liquid level, I/F level, bottom, densityY Special version, TSP-no. to be spec.

040 Output 1:F Not selectedA 2-way 2-wire (V1 protocol)J 2-way 2-wire (MDP protocol)B 2-way 2-wire (BBB protocol)C 2-way 2-wire (MIC, RS232C protocol)D 2-way 2-wire (MIC protocol)G HART activeH HART passiveL Whessmatic 550, overvoltage protectionM Mark SpaceN Enraf BPMP Modbus RS 485Y Special version, TSP-no. to be spec.

NMS5- Product designation (Continued on next page)

Endress+Hauser 13


050 Output 2:0 Not selected1 4 x relay SPST2 2 x 4-20mA3 4 x relay SPST, 2 x 4 - 20mA4 2 x relay SPST, Overspill prevention TÜV5 4 x relay SPST, 1 x 4 - 20mA9 Special version, TSP-no. to be spec.

060 Input:

0 HART (NMT5xx, NRF560, pressure transmitter)

1 1 x spot temperature Pt100, HART (NRF560, pressure transmitter)

2 2 x operation contact, HART (NMT5xx, NRF560, pressure transmitter)

3 1 x spot temperature Pt100, 2 x operation contact, HART (NMT5xx, NRF560, pressure transmitter)

4 1 x status, HART (NMT5xx, NRF560, pressure transmitter)

5 1 x spot temperature Pt100, 1 x status, HART (NMT5xx, NRF560, pressure transmitter)

6 1 x spot temperature Pt100, 1 x status, 2 x operation contact, HART(NMT5xx, NRF560, pressure transmitter)

9 Special version, TSP-no. to be spec.

070 Measuring Range; wire:C 0 - 28m; SUS316L, 0.15mmL 0 - 36m; SUS316L, 0.15mmN 0 - 47m; SUS316L, 0.15mmH 0 - 16m; PFA>SUS316, 0.4mmK 0 - 16m; Alloy C, 0.2mmM 0 - 22m; Alloy C, 0.2mmY Special version, TSP-no. to be spec.

080 Cable Entry:

E 4 x thread G1/2

F 4 x thread G3/4

G 4 x thread NPT1/2

H 4 x thread NPT3/4

L 4 x thread M20

M 4 x thread M25

Y Special version, TSP-no. to be spec.

090 Process Connection:

A 10K 80A RF, flange JIS B2220

C 10K 80A FF, flange JIS B2220

U 10K 150A RF, flange JIS B2220

E 20K 80A RF, flange JIS B2220

G NPS 3" Cl.150 RF, flange ASME B16.5

J NPS 3" Cl.300 RF, flange ASME B16.5

W NPS 4" Cl.300 RF, flange ASME B16.5

T NPS 6" Cl.150 RF, flange ASME B16.5

L DN80 PN10 B1, flange EN1092-1 (DIN2527 B)

N DN80 PN25 B1, flange EN1092-1 (DIN2527 B)

Q 80A 150lbs RF, flange JPI 7S-15

S 80A 300lbs RF (apply for NMS5-6), flange JPI 7S-15


100 Power supply:

3 85 - 264 VAC, 50/60 Hz

4 20 - 62 VDC, 20 - 55 VAC, 50/60 Hz


NMS5- Product designation (Continued on next page)

14 Endress+Hauser


110 Displacer:

N Cylindrical 30 mm, SUS316

K Cylindrical 40 mm, SUS316

D Cylindrical 50 mm, SUS316

W Cylindrical 30 mm, PTFE

V Cylindrical 40 mm, PTFE

U Cylindrical 50 mm, PTFE

T Cylindrical 50 mm, AIloy C

B Conical 50 mm, PTFE

R Conical 70 mm, SUS316

S Conical 110 mm, SUS316


120 O-ring; chamber finishing:

0 NBR; not selected

1 Silicon rubber; not selected

5 Silicone rubber; FEP coated

3 PTFE (wire drum FKM); not selected

4 PTFE (Wire drum FKM); FEP coated

6 CR; not selected

2 FKM; not selected

7 FKM; FEP coated

8 FFKM; not selected

A FFKM; FEP coated

9 Special version, TSP-no. to be spec.

130 Options:

A not selected

C Rc3/8 cleaning nozzle

D Rc3/8 gas purging nozzle

E Guide wire installation

G Relief valve

H Relief valve, pressure gauge

J Sunshade

L Rc3/8 gas purging nozzle, sunshade

M Rc3/8 cleaning nozzle, sunshade

N Rc3/8 gas purging nozzle, guide wire installation

P Rc3/8 cleaning nozzle, guide wire installation

Q Guide wire installation, sunshade

R Relief valve, guide wire installation

S Relief valve, pressure gauge, guide wire installation

T Relief valve, sunshade

U Relief valve, pressure gauge, sunshade


NMS5- Complete product designation

Endress+Hauser 15


2.3 Scope of delivery

It is extremely important to follow the instructions concerning the unpacking, transportation and stor-age of measuring instruments provided in the chapter “Incoming Acceptance, Transportation, Stor-age”.

The scope of delivery consists of:

• Assembled Instrument

Accompanying documentation:

• Installation Instructions (this manual)

• Safety Instructions (XA)

• Functional Safety Manual (SD), Supplied with 4 to 20mA and Overspill Prevention Relay Output

2.4 Certificates and approvals

CE Mark, declaration of conformityThe device is designed to meet state-of-the-art safety requirements, has been tested and left the fac-tory in a condition in which it is safe to operate. The device complies with the applicable standards and regulations as listed in the EC declaration of conformity and thus complies with the statutory require-ments of the EC directives. Endress+Hauser confirms the successful testing of the device by affixing to it the CE mark.

2.5 Registered trademarks

HART®

Registered trademark of HART Communication Foundation, Austin, USA

FieldCare®

Registered trademark of the company Endress+Hauser Flowtec AG, Rheinach, CH

WARNING

16 Endress+Hauser

Proservo NMS5 3 Installation

3 Installation

3.1 Incoming acceptance, transport, and storage

3.1.1 Incoming acceptanceCheck the packing and contents for any signs of damage.Check the shipment, and make sure that nothing is missing and that the items match your order.

3.1.2 Transport

• Follow the safety instructions and conditions of transportation for instruments in excess of 18kg (40 lbs.).

• Do not lift the measuring instrument by its housing during transportation.

3.1.3 StoragePack the measuring instrument so that it is protected against impacts during storage and transporta-tion. The original packing material provides the optimum protection for this. The allowed storage temperature is -40 to +85°C (-40 to +185°F)

WARNING

Endress+Hauser 17

Proservo NMS53 Installation

3.2 Terms related to tank measurements

Figure 13: Terms related to tank measurements

Lower layer

Middle layer

Upper layer

Upper interface

Lower interface

Liquid level

Nozzle

NMS5

Reference line

Dip-point offset

Upper limit stop level Upper limit alarm Ullage levelGauge reference length

Tank height

Upper interface level

Lower interface level

Lower limit alarm

Lower limit stop level

Dipping reference point(Dipping data place)

Liquid depth(Innage level)

Measurement hatch (Dipping reference)

Bottom of tank

18 Endress+Hauser


3.3 Design and dimensions

Figure 14: NMS5 dimension, unit of measurement: mm (in)

*1: In case of 18mm (Flange thickness) at JIS10K80ARF*2: In case of 20mm (Flange thickness) at JIS20K80ARF

8

7

6

11

3

9

10

2

1

5

C

D

NMS5 - 1/ NMS5 - 4

Max. 39.7 (1.56)Travel distance of displacer34.6 (1.36) for 28m (93.33ft) Wire Ø0.15 (0.0059)39.7 (1.56) for 36 (120ft)Wire Ø0.15 (0.0059)

Displacer position at top of tank (center of flange)Displacer position at bottom of tank

NMS5 - 2/ NMS5 - 5 / NMS5 - 6

Max. 41.6 (1.64)

Displacer position at top of tank (center of flange)Displacer position at bottom of tank

8 Holes flange

8 Holes flange

95 (3

.74)

*1

289

(11.

38)*

131

6 (1

2.44

)*2

99 (3

.9)*

2

321 (12.64)351 (13.82)

301 (11.85)338 (13.31)4

A

B

5

D 1

C 3

11

9

10

2

6

7

8

4A

B

Travel distance of displacer34.6 (1.36) for 28m (93.33ft) Wire Ø0.15 (0.0059)39.7 (1.56) for 36 (120ft)Wire Ø0.15 (0.0059)41.6 (1.64) for 47m (156.67ft)

1 Electrical compartment 7 Measuring wire

2 Terminal box 8 Displacer

3 Display (LCD) 9 Calibration window

4 Cable entry (A, B, C, D) 10 Window cover

5 Wire drum housing 11 Touch control

6 Flange

NOTICE

Endress+Hauser 19


3.4 Necessary tools for installation

The following tools are required when installing NMS5.

Figure 15: Tools to be prepared, unit of measurement: mm (in)

Box end wrench

Crescent wrench

Allen wrench (Hex key)

Screw driver Flat head Phillips

Wire cutters orterminal pliers

Wire terminal

Water pump pliers

Density calibration test weight

17 (0.669) and size matchedwith flange size

350 (13.78)

3 (0.118)/5 (0.196)

M3

1.25sq, 2.0sq

Max

. 6(0

.236

)

20 Endress+Hauser

Proservo NMS5 4 Displacer and measuring wire

4 Displacer and measuring wire

4.1 Shape, diameter, and material

4.1.1 DisplacerThere are several types of displacer available for NMS5.

• The standard type has cylindrical shape and a diameter of 50 mm. Diameters from 30 to 50 mm are optional.

• Cylindrical shape is used for viscous liquids. It is also effective if the stilling well is not smooth on its interior surface.

Displacer weight and volume depend on the application. Thin displacers are suited for level measure-ment, thicker ones for bottom level, interface level, and density measurement.A counterweight is optional for heavy turbulence (inquire).Displacers of three different materials are provided.

• The standard material is stainless steel SUS316.

• Alloy C and PFA are optional for corrosive liquids.

• Solid PFA, however, is not applied for flammable liquids.

The following size of displacer will be supplied, when you order custody transfer approval.

NMi (Netherlands).................Ø70 (2.76)PTB (Germany).......................Ø110 (4.33)

4.1.2 Measuring wire• The standard material of the measuring wire is stainless steel SUS316L.

• Alloy C and PFA coated stainless steel SUS316 are for corrosive liquids.

The following specification of measuring will be supplied when ordering the custody transfer approval.

• Select SUS316L (0.15mm) for NMi and PTB specifications.

• Refer to the separate "Techenical Information TI00452G" for displacer selection information and Appendix "15.3 Displacer" in this chapter.

Endress+Hauser 21


5 Installation

5.1 Type of tanks

Depending on the type of tank and application, different installation procedures are recommended for NMS5.

Type of tanks Without guide system With stilling well With guide wires

fixed roof tank

Floating roof tank

Covered floating roof tank

Pressurized or bullet tank

Tank with agitator or heavy turbulence

22 Endress+Hauser


• A stilling well is required in a floating roof tank and a covered floating roof tank.

• Guide wires cannot be installed in a floating roof tank. When the measuring wire is exposed to free space, it may break due to an external shock.

• Installing guide wires is not allowed in pressurized tanks because the wires would prevent closing the valve for replacing the wire, wire drum, or displacer. NMS5 installation position is important for applications without the guide wire system in order to prevent the measuring wire from being bro-ken (refer to Alignment of NMS5 for details).

• Installing guide wires is not allowed in pressurized tanks because the wires would prevent closing the valve for replacing the wire, wire drum, or displacer. NMS5 installation position is important for applications without the guide wire system in order to prevent the measuring wire from being bro-ken.

Endress+Hauser 23


5.2 Type of tank installation

Figure 16: Typical tank installation

A Fixed roof tankB High pressure tankC Floating roof tank with stilling well1 NMS52 Ball valve3 Measuring wire4 Displacer5 Stilling well6 Prothermo NMT539

B

2

3

4

5

61

4

5

6

A 1

3

3

4

5

C

6

1

24 Endress+Hauser


5.3 Mounting without guide system

NMS5 is mounted on a nozzle of the tank roof without a guide system. Sufficient clearance inside the nozzle is necessary to allow the displacer to move without hitting the inner walls.

Figure 17: Mounting without guide system

D1 Inner Diameter of the tank nozzled Diameter of the displacer1 Displacer

D 1

1

d

Endress+Hauser 25


5.4 Mounting with a stilling well

The stilling well diameter that is required to protect the measuring wire without disturbing its opera-tion varies depending on the tank height. The stilling well could either be of constant diameter, or nar-rower at its upper part and wider at its lower part. The following figure shows two examples of the lat-ter case, namely a concentric stilling well and an asymmetric stilling well.

Figure 18: Mounting with connection pipe

A Front viewB Side viewL1 Length from the center of the calibration window to the upper part of the stilling wellL2 Length from the center of the calibration window to the bottom of the stilling wellL3 Length from the center of the calibration window to the bottom of the flangeD1 Diameter of upper part of stilling wellD2 Diameter of stilling welld Diameter of displacerp(Lx) Longitudinal wire position from the center of the flanger Radial direction offset

L 1

L 2

L 1

L 2

A B

L 3

L 3

D

D

d

r

D

d

D

p (Lx)

26 Endress+Hauser


Figure 19: Mounting with asymmetric stilling well

A Front viewB Side viewL1 Length from the center of the calibration window to the upper part of the stilling wellL2 Length from the center of the calibration window to the bottom of the stilling wellL3 Length from the center of the calibration window to the bottom of the flangeD1 Diameter of upper part of stilling wellD2 Diameter of stilling welld Diameter of displacerp(Lx) Longitudinal wire position from the center of the flanger Radial direction offset

• L3: length from center of the calibration window to the bottom of the flange (99 mm (3.9 in) + flange thickness). For JIS 10K 150A RF, the dimension is 99 mm (3.9 in) and the flange thickness is 22 mm (0.87 in).

• When using an asymmetric stilling well, take into account the lateral shift of the displacer and fol-low the NMS5 mounting direction as shown in the figure.

• To calculate the required stilling well diameters, the formula below should be used. The following tables contain the necessary parameters in order to calculate the dimensions of the stilling well. Be sure to have appropriate dimensions of the stilling well according to each dimension in the table.

• The radial direction offset is required for only the 47 m (154.2 ft) wire drum. For all other drums, the offset is 0 mm/in.

L 1L 2

L 1

L 2

A B

L 3

L 3

D

D

d

r

D

d

D

p (Lx)

Endress+Hauser 27


The following graph shows the lateral shift of the displacer depending on the measured distance for the different wire drums.

Symbol Description

P (Lx) Longitudinal wire position from the center of the flange

r Radial direction offset

s Safety factor recommended; 5.0mm (0.20 in)

Feature: 070 Descriptions r

N 0-47m: SUS316L, 0.15mm 6 mm (0.24 in)

Feature: 110 Descriptions d

B Conical 50mm, PTFE 50mm (1.97 in)

D Cylindrical 50mm, SUS316 50mm (1.97 in)

K Cylindrical 40mm, SUS316 40 mm (1.57 in)

N Cylindrical 30mm, SUS316 30 mm (1.18 in)

R Conical 70mm, SUS316 70 mm (2.76 in)

S Conical 110mm, SUS316 110 mm (4.33 in)

T Cylindrical 50mm, AlloyC 50mm (1.97 in)

U Cylindrical 50mm, PTFE 50mm (1.97 in)

V Cylindrical 40mm, PTFE 40 mm (1.57 in)

W Cylindrical 30mm, PTFE 30 mm (1.18 in)

28 Endress+Hauser


Figure 20: Lateral shift of displacer according to measurement range

a 0-16m: PFA>SUS316, 0.4mmb 0-16m: Alloy C, 0.2mmc 0-22m: Alloy C, 0.2mmd 0-28m: SUS316L, 0.15mme 0-36m: SUS316L, 0.15mmf 0-47m: SUS316L, 0.15mm

Upper diameter of stilling well

The dimension of D1 has to be the largest value of the dimensions D1a, D1b,D1c, and D1d according to the following formula.

Example: L1 = 1 000 mm, L2 = 20 000 mm, d = 50 mm, s = 5.0, 28 m drum

D1 Dimension(Example)

D1x dimensionDescription Formula

Example Symbol

>68.1 mm(2.68 in)

68.1mm (2.68in) D1aD1 dimension when the displacer is in L1 = 0

= 2 x ( |p (0)|+ d/2 + s)

65.6mm (2.58in) D1bD1 dimension when the displacer is in L1 length = 2 x (|p (L1)|+ d/2 + s)

51.2mm (2.02in) D1cD1 dimension when the displacer is in L2 length = 2 x ( |p (L2)|+ s)

N/A D1d

D1 dimension when the radial direction offset is considered. This calculation is used only with the 47 m (156.67 ft) wire drum (N in Feature 70)

= 2 x (d/2 + r + s)

p (Lx) (mm) (in)

L, L

(mm

) (in

)a

de

cb

-1.4 -1.3 -1.2 -1.1 -1.0 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0.0 0.1 0.2 0.3

-36 -32 -28 -24 -20 -16 -12 -8 -4 0 4 80

100

200

300

400

500

600

700

800

900

1000

1100

1200

1300

1400

1500

1600

1700

1800

0

2000

4000

6000

8000

10000

12000

14000

16000

18000

20000

22000

24000

26000

28000

30000

32000

34000

36000

38000

40000

42000

44000

46000

48000

f

Endress+Hauser 29


Lower Diameter of stilling wellThe dimension of D2 has to be the larger value of the dimensions D1 and D2b. See the graph above.

Concentric pipe

Example: L2 = 20 000 mm, d = 50 mm, s = 5.0, 28 m drum

Asymmetric pipe

Example: L2 = 20 000 mm, d = 50 mm, s = 5.0, 28 m drum

Recommendations for mounting stilling wellFollow the recommendations for mounting NMS5 with stilling well:

• Keep the pipe connection welds smooth.

• When drilling holes into the pipe, keep the interior surface of the holes clear of metal chips and burrs.

• Coat or paint the interior surface of the pipe to prevent corrosion.

• Keep the pipe as vertical as possible. Check using a plumb bob.

• Install the asymmetric pipe under the valve and fit the centers of the NMS5 and the valve.

• Set the center of the lower part of the asymmetric pipe in the direction of the lateral motion.

• Observe the recommendations as per API MPMS chapter 3.1B.

• Confirm grounding between NMS5 and the tank nozzle.



Example Symbol

>101.2 mm(3.98 in)

68.1mm (2.68in) D1 Calculated D1 Value N/A

101.2mm(3.98in) D2bD2 dimension when the displacer is in L2 length = 2 x (|p (L2)| + d/2 + s)



Example Symbol

>84.7 mm(3.33 in)

68.1mm (2.68in) D1 Calculated D1 Value N/A

84.7mm(3.33in) D2bD2 dimension that the displacer can pass through (Nth groove) = |p (L2)| + d/2 + s + D1/2

30 Endress+Hauser


5.5 Mounting NMS5 with guide wire

It is also possible to guide the displacer by a guide wire to prevent swinging.

Figure 21: Mounting with guide wire, unit of measurement: mm (in)

No. Description

A Calibration chamber

B Spring and sleeve

C Guide wire sleeve

D Crimp tool

1 NMS5

2 Reducer plate (for low pressure: 6mm (0.236 in))Reduce flange (material is selectable from SS400 an SUS304.)

3 Spring, SUS304

4 Sleeve, SUS316

5 Calibration chamber for maintenanceNHC4HP for high pressure, SCS13 equivalent to SUS304NHC4LP for low pressure, SCS13 equivalent to SUS304

6 Tank

7 Measuring wire

8 Guide wire, SUS316

9 Displacer

10 Anchor hook plate, SUS304

A

B

C

D 100

1

2

34

5

6

7

8

9

1011

12

13

Endress+Hauser 31


Guide wire installation procedure

1. Install NMS5 [1] on the reducer plate.

2. Perform calibration steps before the displacer [3] is attached to the guide wires.

• Make sure that the displacer does not touch the guide wires during calibration. This could be done by mounting the NMS5 to the reducer plate [2] prior to fitting the guide wires [4].

Perform calibration steps so that displacer does not touch the guide wires if the guide wires are already installed to the reducer plate.

3. Secure the guide wires to the hooks of the springs [5].

4. Secure the springs to the reducer plate.

5. Put the guide wires through the displacer guide ring [6] and set the displacer.

This completes the guide wire installation procedure.

Figure 22: Guide wire installation

1 NMS52 Reducer plate3 Displacer4 Guide wires5 Springs6 Displacer guide ring

11 Welding point

12 Ring, SUS316

13 Flange

No. Description

2

3

1

5

64

32 Endress+Hauser


5.6 Alignment of NMS5

5.6.1 FlangeConfirm that the size of the nozzle and the flange is matched prior to mounting NMS5 on the tank. The flange size and the rating of NMS5 vary depending on the customer’s specifications.

• Check the flange size of NMS5.

• Mount the flange on the top of the tank. The deviation of the flange from the horizontal plane should not exceed +/- 1 degree.

• When mounting NMS5 on a long nozzle, make sure that the displacer does not touch the inner wall of the nozzle.

Figure 23: Allowable inclination of mounting flange

1 Nozzle

When NMS5 is installed without a guide system, follow the recommendations below:

• Confirm the mounting nozzle is in the sector between 45 and 90 degrees (or -45 and -90 degrees) away from the inlet pipe of the tank. This prevents heavy swinging of the displacer caused by waves or turbulence from the inlet liquid.

• Confirm the mounting nozzle is 500 mm (19.69 in) or more away from the tank wall.

• Confirm the minimum measuring level is at 500 mm (19.69 in) or more above the top of the inlet pipe by setting the low stop. This protects the displacer from direct flow of the inlet liquid.

• If a stilling well cannot be mounted in the tank due to the shape or condition of the tank, attaching a guide system is recommended. Consult E+H services for further information.

+1°

-1°

1

Endress+Hauser 33


Figure 24: Recommended position for mounting NMS5 and minimum measuring level

1 Inlet pipe2 Tank nozzle

• Before pouring liquid into the tank, confirm that liquid flowing through the inlet of the pipe will not contact the displacer directly.

• When discharging liquid out of the tank, ensure that the displacer will not get caught in the liquid current and sucked into the outlet pipe.

5.7 Electrostatic charge

When liquid measured by NMS5 has a conductivity of 1 uS/m or less, it is quasinonconductive. In this case, using a stilling well or guide wire is recommended. This releases the electrostatic charge on the liquid surface.

500

90°-90°

0°

45°-45°

1

1

500

2

2

34 Endress+Hauser


5.8 Mounting of the device

The NMS5 is delivered in two different packing styles depending on the mounting method of the dis-placer.

• For the all-in-one method, the displacer is mounted on the measuring wire of NMS5.

• For the displacer shipped separately method, it is necessary to install the displacer on the measuring wire inside NMS5.

5.8.1 Available installationsThe following installation procedures are available for NMS5.

• Mounting without guide system

• Mounting with stilling well

• Mounting with guide wire

NMS5 is shipped as an all-in-one package when selected order codes meet all the following conditions:

• Feature 070: C or L

• Feature 090: A, C, E, G, J, L, N, Q or S

• Feature 110: D

• Feature 120: 0, 1, 2, 3, 6 or 8

• Feature 130: A, C, D, G, H, J, L, M, T or U

Mounting option

Without guide system(Free-space mounting) With stilling well With guide wire

Type of tanks

Type of installations

• All-in one• Displacer shipped sepa-

rately• Displacer installation

through calibration win-dow

• All-in one• Displacer shipped sepa-

rately• Displacer installation

through calibration win-dow

Displacer shipped separately

Endress+Hauser 35


5.8.2 Installation for all-in-one methodAs NMS5 is protected by some packaging materials, remove them as follows prior to mounting NMS5.

Figure 25: All-in-one method

1 Fixing band2 Displacer holder3 Tape4 Wire drum stopper5 Drum housing cover

Step Procedure Note

1

1. Hold the gauge so that it stays horizontal against the flange.

2. Cut the fixing bands [1].

3. Remove the displacer holder [2].

• Perform these steps before mounting NMS5 on the nozzle.

• Do not tilt NMS5 after removing the displacer holder.

2

4. Mount NMS5 on the nozzle. • Make sure that the measuring wire hangs　vertically.

• Confirm that there are no kinks or other defects in the measuring wire.

3

5. Remove screws and M6 bolts (M10 bolts for stainless steel housing) to remove the drum housing cover [5].

6. Loosen two screws and remove the wire drum stopper [4].

• Be sure not to lose O-ring and fixed bolts for the cover for the drum housing.

4

7. Remove the tape [3] from the wire drum care-fully.

• Remove the tape by hand to avoid damaging the wire drum.

• Make sure that the measuring wire is wound so that it fits correctly in the grooves.

5 8. Mount the drum housing cover [5]. • Confirm that O-ring is in groove.

6

9. Turn on the main power and confirm that NMS5 shows "STOP" and that level shows "16050 ~16060mm".

10. Set "LEVEL" command, then set "STOP" where the displacer stops 16000mm or less near the 15950 mm level.

11. Set "UP" command and the displacer will automat-ically stop at 16000mm.

12. Set "STOP" command.

Sensor, reference, and drum calibration steps are not required because they are allperformed prior to delivery.

1

2

3

4

5

36 Endress+Hauser


5.8.3 Displacer shipped separatelyIt is necessary to install the displacer on the measuring wire inside NMS5.

Figure Procedure

Figure 26: Displacer installation 1

1. Put NMS5 on the blocks or a pedestal.

2. Confirm that there is enough space under NMS5.

Be careful not to drop NMS5.


3. Remove screws and M6 bolts [5] (M10 bolts for stainless steel housing).

4. Remove the wire drum cover [3] and the bracket [2].

5. Remove the wire drum [1] from the drum housing.

6. Remove the tape [4] on the wire drum.

7. Unwind the measuring wire approximately 250 mm (9.84 in) so that the wire ring is positioned under the flange.

8. Mount the wire drum on NMS5.

9. Mount the bracket.

• Handle the measuring wire with care. It may kink.• Be sure that the wire is wound correctly in the grooves.


10. Hook the displacer [3] on the ring [2].

• Be sure that the wire is wound correctly in the grooves.• If not, remove the displacer and the wire drum, and repeat

step 7.


11. Turn on the power of NMS5.

12. Perform sensor calibration

13. Secure the displacer [2] to the measuring wire [1] using the securing wire [4].

14. Install the ground wire [3] of the displacer (for details, refer to "5.2.7 Displacer ground wire installation".

15. Perform reference calibration.

16. Turn off the power.

17. Mount the wire drum cover [5].

For calibration, refer to "12 Adjustment".

200

130 200

130

1

2

34

5

1

23

1

2

4

5

3

Endress+Hauser 37



18. Mount NMS5 on the tank nozzle [1].

19. Confirm that the displacer does not touch the inner wall of the nozzle.

20. Turn on the power.

21. Perform drum calibration.


Figure Procedure

1

38 Endress+Hauser


5.8.4 Installation through the calibration windowIn the case of a 50 mm (1.97 in) diameter displacer, the displacer can be installed throughthe calibration window.

It is only possible to install the following displacers through the calibration window: 50 mm SUS, 50 mm alloy C, 50 mm PTFE, Except 0.15mm, SUS measuring wire

Figure Procedure


1. Remove the calibration window cover [1].


2. Remove M6 bolts [5].

3. Remove the cover [4] and the bracket [3].

4. Remove the wire drum [1] from the drum housing.

5. Remove the tape [2] that is securing the wire.

Handling the measuring wire with care. It may kink.


6. Holding the wire drum [1] with one hand, unwind the measuring wire [3] approximately 500 mm (19.69 in).

7. Secure the wire [3] temporarily with the tape [2].

8. Insert the wire ring [4] into the drum housing.

9. Pull the wire ring out through the calibration window.

Handle the measuring wire with care.


10. Insert the wire drum [4] temporarily into the drum housing.

11. Hook the displacer [3] on the wire ring.

12. Secure the displacer to the measuring wire using the securing wire [2].

13. Install the ground wire [1] for the displacer (for details, refer to "5.2.7 Displacer ground wire installation".

Handle the measuring wire with care. It may kink.

1

2

1

2

34

5

1

2 3

4

1

23

4

Endress+Hauser 39



14. Hold the wire drum [1] up and place the displacer [2] into the calibration window.

15. Remove the wire drum from the drum housing and unwind the measuring wire approximately 500 mm (19.69 in).

16. Hold the wire drum up and place the displacer into the calibration window.

17. Hold the displacer at the center of the calibration win-dow.

18. Hold the other hand (wire drum) up to add tension to the measuring wire in order not to drop the displacer rapidly.


19. Let go of the displacer [2].

20. Remove the tape from the wire drum [5].

21. Insert the wire drum into the drum housing.

22. Mount the bracket [4].

Be sure that the wire is wound correctly in the grooves.

23. Turn on the power of NMS5 and move the displacer up until the wire ring can be seen in the calibration win-dow.

• Confirm that there are no kinks or other defects in the measuring wire.

• Confirm that the displacer does not touch the inner wall of the nozzle.

24. Perform sensor calibration.

25. Perform reference calibration.

26. Mount the drum housing cover [3] and the calibration window cover [1].

27. Perform drum calibration.


Figure Procedure

2

1

2

1

3

45

40 Endress+Hauser


5.8.5 Displacer ground wire installationDepending on the application and Ex requirements, electrical grounding of the displacer is required. There are different procedures depending on the displacer type, which are described below.

Standard displacer installation

1. Mount the displacer [3] on the wire ring [1].

2. Wind the securing wire [4] on the wire hook.

3. Wind the ground wire [2] between the washers [5] twice.

• If grounding is not required for non-explosion-proof applications, skip this step.

4. Secure the nut [6] with a wrench [7].

This completes the displacer installation procedure.

Figure 37: Displacer installation

1 Wire ring2 Ground wire3 Displacer4 Securing wire5 Washer6 Nut7 Wrench

PTFE displacer installation

1. Remove the screw [1] using a flathead screwdriver.

2. Mount the displacer [4] on the PFA covered ring [2].

3. Remove the PFA cover approximately 10 mm (0.39 in) for conductivity.

4. PTFE Wire: Install the ground wire [6] onto the displacer from the wire insertion slot [3] until the ground wire touches to the wall of the screw hole [5].

5. SUS Wire: Install the ground wire [6] onto the displacer from the wire insertion slot [3] until the ground wire touches to the wall of the screw hole [5]. Then install the ground wire 10mm farther.

6. Tighten the screw [1].

• Hold the ground wire with finger tips so that the wire does not come out from the slot.

7. Lift the displacer using a screwdriver and confirm that the ground wire does not come out from the slot.

This completes the PTFE displacer installation.

1

2

34

2

5

6

7

1. 2. 3. 4.

Endress+Hauser 41


Figure 38: PTFE displacer installation; dimensions mm (in)

1 PFA covered ring2 Wire insertion slot3 Displacer4 Screw hole5 Ground wire

1. 2.

3. 4. 5.

7.

1 2

3

4 5

10 (0.39)

6.

42 Endress+Hauser

Proservo NMS5 6 Wiring

6 Wiring

6.1 Wiring connection

The electrical connections of NMS5 are shown in "6.2 Terminal Assignment".

The power supply cable should have the following specifications:

• PVC, PE, or equivalently isolated

• 600 V insulation voltage or equivalent.

• Temperature rating 80 or high

The size of the core is defined by the core resistance, voltage drop, and required consumption. The maximum power consumption of NMS5 is 50 VA/50W.

• Connect the ground terminal to the ground line inside or outside the terminal box.

• Use a wire 4mm2 or more for ground.

• Use cables and wires of sufficient and appropriate size and length to make a solid connection at each terminal required.

• Do not stretch cables. This may lead to failure, loss of function, and/or damage to the device and facility.

• Cut the trim cables for appropriate length. Do not leave the extra cables and wires in the electrical compartment. This may lead to failure, loss of function, and /or damage to the device and facility.

CAUTION

WARNING

DANGER

Endress+Hauser 43

Proservo NMS56 Wiring

6.2 Terminal assignment

6.2.1 V1 Serial Signal, Modbus RS485, HART, Enraf BPM

Figure 39: Wiring sample 1

A

B

C

D

L

N

G

1

ARS

2

ARS

ARS

3

7

8

9

+

-4

5

6

L

G

N

+

-

10

11

12

13

14

15

16

17

18

20

21

COM

19+

-

+

-

+

-

22

23

24

25

26

A

B

b

A

B

b

Power supplyAC 85 to 264V 50/60HzorDC 20 to 62VAC 20 to 55V

Port_B +Non IS HART to NRFor others port_B -

Digital outputRS485,V1 serial pulseor remote HART

Alarm Contact

Alarm contact

Alarm contact

Alarm contact

Operationcontactinput

4 to 20mAChannel 1

4 to 20mAChannel 2

Port_A +local HARTport_A -(see NOTICE.)

Alarm contact

HOIST (CTR1)

HOIST (CTR2)

NOTICE

Ex ia local (slave) HART, orPt100 3 wire spot RTD (see NOTICE.)terminals: 24 & 25

4 to 20mA output:Terminals 20 & 21, 22 & 23

Terminals 22 & 23 will be used as “Status 1 Input”when signal input from field unit (Order code position 60) is: Order information: 0604: HART and Status 1 input5: HART, Pt100 Spot and Status 1 input6: HART, Pt100 Spot temp., Operation contact, and Status 1 input

Ex d local (slave) HARTTerminals: 4 &5Digital output: Terminals 6 & 7V1 Serial Pulse, Modbus (RS485)HART, Enraf BPM

Power supply

CAUTION

A

B

C

D

Cable entry descriptions

・ Terminal connection for Whessoe Matic 550 (WM550) and Mark Space, refer to the next few pages.・ Terminals 4 & 5 and 24 & 25 for HART devices are inter - connected on Explosion proof (Ex d) certified version.・ Terminals 24 & 25 (and 24, 25 & 26 for spot temp.) will be intrinsically safe (i.s.) device connection only when intrinsically safe certified version is selected.

Ex d local (slave) HARTTerminal No.: 4 and 5NRF and other HART communication devices

NOTICE

44 Endress+Hauser


6.2.2 Whessoe Matic 550


A

B

C

D

L

N

G

1

ARS

2

ARS

ARS

3

7

8

9

+

-4

5

6

L

G

N

10

11

12

13

14

15

16

17

18

20

21

COM

19+

-

+

-

+

-

22

23

24

25

26

A

B

b

A

B

b


Local HART to NRF

Alarm Contact

Alarm contact

Alarm contact

Alarm contact


WM550Channel 1

Ex d Local HART(See NOTICE.)

Alarm contact

HOIST (CTR1)

HOIST (CTR2)

NOTICE

Ex d local (slave) HART, orPt100 3 wire spot RTD (see NOTICE.)terminals: 24 & 25

Ex d local (slave) HARTterminals: 4 &5

Power supplyA

B

C

D


NOTICE

WM550Channel 2

Whessoe Matic (WM)output:terminals 20 & 21, 22 & 23WM550 is the current loop redundant data transmission protocol.Since these 4 terminals are occupied by WM550 terminal connection,4 to 20mA output and status 1 input function areno longer available.

・ Terminals 4 & 5 and 24 & 25 for HART devices are inter - connected on Explosion proof (Ex d) certified version.・ Terminals 24 & 25 (and 24, 25 & 26 for spot temp.) will be intrinsically safe (i.s.) device connection only when intrinsically safe certified version is selected.

Normally the combination of WM550 and analog 4 to 20mA is prohibited.Contact Endress+Hauser representatives if needed.

Endress+Hauser 45


6.2.3 Mark/Space


A

B

C

D

L

N

G

1

ARS

2

ARS

ARS

3

7

8

9

+

-4

5

6

L

G

N

10

11

12

13

14

15

16

17

18

20

21

COM

19+

-

+

-

+

-

22

23

24

25

26

A

B

b

A

B

b


Port_B+Non IS HART to NMTor other Port_B-

Alarm Contact

Alarm contact

Alarm contact

Alarm contact


Mark/Space

Alarm contact

HOIST (CTR1)

HOIST (CTR2)

NOTICE

Ex d local (slave) HART, or

terminals: 24 & 25

Ex d local (slave) HARTterminals: 4 &5

Power supplyA

B

C

D


NOTICE

Mark/Space

Port_A +local HARTport_A -

M/S output:terminals 20 &21, 22 & 23M/S is the serial pulse digital data transmission

Since these 4 terminals are occupied by M/S terminal connection, 4 to 20mA output and status 1

・・

46 Endress+Hauser


Using the external operation switch, ensure that the settings of the system are the same as shown in the following logic setting table. This will allow user to input operation signals.

(Hoist-CTR1)(Stop-CTR2)

6.2.4 Input and output

Input signal

• Contact Switch

• HART

• Pt 100

Output signal

• V1

• WM550

• M/S

• ENRAF BPM

• MODBUS

• HART

• ANALOG 4-20mA

• Overspill Prevention (OSP)

• The cable used for input and/or output must be 24 AWG or more and must be screened or steel armored. A twisted pair is required for HART and/or RS 485 signal.

• Two or three cores for mains, two cores for digital output and two cores for HART input are normally used for the cabling of NMS5. The instrument has max. four cable entries.

• Check the cable size and the number of cables prior to ordering NMS5.

6.2.5 Cable glandWhen there are extra cable entries not be used, mount threaded plugs for waterproof.Refer to "Safety Instruction XA00578G-A".

When ordering TIIS Ex d specification, cable glands are attached with NMS5. Ensure to use the cable glands.

CTR 1 CTR 2 OPERATION

OFF OFF LEVEL

ON OFF HOIST

OFF ON STOP

ON ON INTERFACE

DANGER

WARNING

Endress+Hauser 47


6.3 Temperature input system

There are two types of temperature input method and two types of Ex protection system as Ex d or Ex [ia] in NMS5.

6.3.1 Ex d NMT input + HART inputEx d HART sensor and NMT53x Ex d are connected in this system.

Figure 42: Ex d NMT input and HART input

6.3.2 Ex d Pt100 Spot Temperature Input +HART InputEx d HART sensor and Ex d Pt100 sensor are connected in this system.

Figure 43: Ex d Pt100 spot temperature input and HART input

26

4

2425

J3

1A

135

J1

1B

Powermodule

POWEx d

Ex dHART

TCB CPU moduleTerminal module

HARTsensor

Ex d

5NRF560

NMT53xEx d

HARTsensor

Ex d

26

45

2425

J3

1A

135

J1

1B

ABb

HART+HART-

TCB CPU module

HARTsensor

Ex d

NRF560

Ex dPt 100

Ex dHART

HARTsensor

Ex d

Powermodule

POWEx d

SpotTemp.

module

48 Endress+Hauser


6.3.3 Ex ia NMT input + HART inputEx d HART sensor and NMT53x Ex ia are connected in this system, excluding TIIS specification.

Figure 44: Ex ia NMT input and HART input

6.3.4 Ex ia Pt100 Spot Temperature Input + HART InputEx d HART sensor and Ex ia Pt100 sensor are connected in this system, excluding TIIS specification.

Figure 45: Ex ia Pt100 spot temperature input and HART input

26

45

2425

J3

1A

135

J11B

PowermodulePOWEx ia

TCB CPU moduleTerminal module

Separation wall

Ex iaHART

COM-4 module

Ex iaEx ia power feed

Ex d power feed

Ex d

HARTsensor

Ex d

NRF560

NMT53xEx ia

Ex dHART

26

45

2425

J3

1A

135

J11B

SpotTemp.

module

ABb

HART+HART-

TCB -4 CPU module

PowermodulePOWEx ia

Separation wallEx ia

Ex iaEx ia Power feed

Ex d power feed

Ex d

Plastic Case

Ex iaHART

HARTsensor

Ex d

NRF560

Ex iaPt 100

Ex dHART

HARTsensor

Ex d

Endress+Hauser 49

Proservo NMS57 Operation

7 Operation

7.1 Touch control and programming matrix

7.1.1 Display and operating elements

DisplayDuring normal operation, NMS5 has an illuminated LCD that shows the level, the temperature, and the status of the device at "HOME" position. For the display of the other data and the programming of the parameters for operation, NMS5 uses a convenient programming matrix.

Operating elementsNMS5 is operated by three visual operating elements, namely the keys "E", "+", and "-" . They are actuated when the appropriate field on the protective glass of the front is touched with the finger ("touch con-trol"). The corresponding transmitting and receiving diodes are not affected by external influences, e.g. direct sunlight. The software and hardware installed in NMS5 rule out any malfunction that may be caused in this way. Even in explosive hazardous areas, the explosion-proof housing of the touch control ensures a safe access to the data.

Figure 46: Display

7.1.2 Functions of operating elementsThe programming matrix consists of matrix groups, namely one "static" matrix and additional "dynamic" matrices. They are described in detail in Section "14 Matrix". The individual matrix groups, function groups, and functions within the programming matrix can be selected by alternately touching the oper-ating elements.

Figure 47: Displays

Illuminated LCD

3 optical operating elements "Touch control"

Infrared receiver

Infrared transmitter

LEVELU-D

0.0°C

LEVELU-D

0.0°CLEVEL dataTemp. dataDisplacer status symbolGauge status / Error

MORE FUNCTIONGVH: PositionGroup message

Key guide

G:0 VH:3*

> GROUP SELECT < E

Enter matrix GoBack

HOME display Function group display

Input number

Key guide

G:0 VH:39

ACCESS CODE3

E - +

Measurementdata

G:0 VH:20

OPERATION

15955LEVEL

Matrix display Matrix display

14964.3mm

50 Endress+Hauser

Proservo NMS5 7 Operation

Figure 48: Matrix construction

0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9Measured Value 1 0 0Measured Value 2 1 1Operation 2 Operation 2More Function 3 Calibration More Function 3 Device DataLevel Data 4 Contact Output 4Calibration 5 Analog Out 5Adjustment 6 Parts Data 6Auto Wire Calib. 7 Input Signal 7Auto Calib. Displ. 8 Communication 8Display 9 Status 9

0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 90 01 1

Operation 2 Operation 2More Function 3 Service More Function 3 Temperature

4 TemperatureData 4

Gauge data 5 Element Temp. 5System Data 6 Element Position 6Service 7 NMT Adjustment 7Sensor Value 8 Set Data NMT 8Sensor Data 9 Device Data 9

0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 90 01 1

Operation 2 Operation 2More Function 3 HART Dev (1) More Function 3 HART Dev (2)Measured Value 4 Measured Value 4P.V. Setting 5 P.V. Setting 5Sensor Specific 6 Sensor Specific 6Alarm 7 Alarm 7Self Diagnostic 8 Self Diagnostic 8Device Data 9 Device Data 9

0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 90 01 1

Operation 2 Operation 2More Function 3 Adjust Sensor More Function 3 Tank ProfileAdjust Sensor 4 Profile Operation 4HART Error Rate 5 Status/Data 5Unit 6 Density 1-10 6HART Line 7 Density 11-16 7Interface Adjust 8 Position 1-10 8

9 Position 11-16 9

0 1 2 3 4 5 6 7 8 90 Static Matrix Dynamic Matrix1

Operation 2More Function 3 Interface Profile

4Status/Data 5Density 1-10 6Density 11-16 7Position 1-10 8Position 11-16 9

Meas. Wire &Drum

Measured Value 1Measured Value 2








Endress+Hauser 51


LCD returns to HOME position when no key is touched for 10 minutes or more. Digits are incremented or decremented using by + or - key. When touching + or - key continuously, then the minimum digit changes first. After one cycle of the minimum, the second minimum changes. After one cycle of the second follows the third minimum, and so on. When releasing a finger from the touch control, then the procedure starts again from the minimum digit (Analogy of mechanical counter).

Figure 49: Selection matrix groups, function groups, and functions with programming matrix

Key Functions

• Access to the programming matrix (touch the key for 3 seconds or more).• Return to HOME position (touch the key for 3 seconds or more).• Move the status horizontally in the function group to select functions.• Save parameters or access codes.

• Move the status vertically to select function groups.• Selec or set parameters.• Set access codes.

+ -

4

5

6

7

8

9

4

5

6

7

8

9

H

V

LCD ( HOME position)When touching on the matrix for 3 seconds or longer,the screen returns to HOME position.

1 CALIBRATION

3 SERVICE4 TEMPERATURE5 HART DEVICE (1)6 HART DEVICE (2)7 ADJ. SENSOR8 TANK PROFILE9 INTERFACE PROFILE

0 1 2 3 4 5 6 7 8 9

0

1

2

3

4

5

6

7

8

9

4

44

4

7 ADJ. SENSOR

3 SERVICE

4 TEMPERATURE

5 HART DEVICE(1)

6 HART DEVICE(2)

> 3 s

2 DEVICE DATA

MATRIX OF GVH030

4 2 DEVICE DATA

4 1 CALIBRATION

5

6

7

8

9

5

5

5

5

5

6

6

6

6

6

7

7

7

7

7

8

8

8

8

8

9

9

9

9

9

When touching"E" on the matrixfor 3 seconds orlonger, the screenmoves to V0position.

8 TANK PROFILE

9 INTERFACE PROFILE

52 Endress+Hauser


7.2 HOME position

After turning on the power, LCD shows the current data on HOME position.

Figure 50: HOME position

The letters A, B, C and D stand for the areas where information on measured values and status of the device are displayed:

The meanings of message appearing on LCD (display) is explained in the following table.

Area Information

A Current Level

B Current Temperature

C Displacer Status

D Gauge Status

Gauge Status Description

G - RE Reference position for measuring

UP The measuring wire is hoisted.

STOP The measuring wire stops.

LIQU The liquid is being measured.

U - IF The upper interface level is being measured.

LIF The lower interface level is being measured.

BOTM The tank bottom level is being measured.

U - DE The upper liquid density is being measured.

M - DE The middle liquid density is being measured.

B - DE The bottom liquid density is being measured.

CAN Resetting RELE.OVER TENS (over tension error).

TEAC Calibration is being measured.

blank Measuring is not possible.

14964.3mm0.0ºC

U-D

LEVEL

A

B

C

D

Endress+Hauser 53


If no LCD operation, NMS5 will turn off the backlight of LCD 12 hour later. Touching LCD again after this time will turn on the backlight.

DisplacerStatus Symbol Meaning

BAL

BalanceThe displacer is resting on the liquid surface or interface and in balanced status.

T - B

Temporary BalanceAutomatic weight calibration is being carried out.

U - U

Unbalance UpThe displacer is being hoisted and in unbalanced status.

U - D

Unbalance DownThe displacer is being lowered and in unbalanced status.

R - U

Balance UpThe displacer is being hoisted and in correction of balance.

R - D

Balance downThe displacer is being lowered and in correction of balance.

LOWThe displacer is resting at the lower stop.

54 Endress+Hauser


7.3 Access code

The access code is to ensure the confidentiality of the setup data. Three security levels are available along with access codes.

The higher levels include the lower ones. e.g. If access code 50 is specified for a function, then code 51 also enables editing. A function that requires access code 51, on the contrary, cannot be edited by code 50. However, 777 is only used to change I.S. terminal configuration.

Setting Access Code

7.4 Operation command and new operation status

7.4.1 Operation commandsOperation Commands can be sent the NMS5 from a host system. The following table explain the com-mand codes.

Security Level Access Code

0 None

1 For Operator 50

2 For Engineer 51/530/777

Item Procedure Remarks

Static Matrix

Figure 51: Access Code

1. At the static matrix "MORE FUNCTION", select GVH039 "ACCESS CODE"

2. The default value is "0". Touch the "+" key.

3. The first digit increases to 9, then the sec-ond digit increases. Stop touching "+" once you reach "50".

4. "50" is blinking. Gently touch "+" key again to change the first digit from 0 to 1. Now you have "51".

5. Here touch "E"; "EDITING ENABLE" will be displayed.

• When touching "E" while displaying an access code except 0, 50, or 51 "EDITING LOCKED" will appear.

• If an access code has not been selected before performing any settings, the screen will automatically change to show "ACCESS CODE"

• Operation Commands can be sent, and displayed data read, by remote systems, depending on your NMS5 specification.039

MOREFUNCTION

ACCESS CODE

Code Command Remarks

0 LEVEL

1 UP

2 STOP After weight calibration, STOP is set as a default operation command.

3 BOTTOM LEVEL

4 UPPER INTERF. LEVEL

5 MIDD.INTERF.LEVEL

6 UPPER DENSITY

7 MIDDLE DENSITY

8 DENSITY BOTTOM

9 REPEATABILITY

10 WATER DIP

Endress+Hauser 55


7.4.2 New operation statusThe following table shows the new operation status, which is available when "NEW NMS STATUS", matrix position GVH272, is selected to "ENABLED".

Code Meaning NMS Display

0 No definition -

1 Displacer at reference position REFERENCE

2 Displacer hoisting up UP

3 Displacer going down DOWN

4 Displacer stop STOP

5 Level measurement, balanced LEVEL

6 Upper I/F level, balanced UPPER INTERF. LEV.

7 Middle I/F level, balanced MIDD. INTERF. LEV.

8 Bottom meas. Balanced BOTTOM LEVEL

9 Upper density finished UPPER DENSITY

10 Middle density finished MIDDLE DENSITY

11 Bottom density finished DENSITY BOTTOM

12 Release over tension RELE. OVER TENS.

13 Calibration activated CAL. ACTIVE

14 Seeking level LEVEL SEEKING

15 Following level LEVEL FOLLOWING

16 Seeking upper density UPP.DEN.SEEKING

17 Seeking middle density MID.DEN.SEEKING

18 Seeking bottom density BOT. DEN. SEEKING

19 Seeking upper I/F level UPP. INT. SEEKING

20 Following upper I/F level UPP. INT. FOLLOWING

21 Seeking middle I/F level MID.INT.SEEKING

22 Following middle I/F level MID.INT.FOLLOWING

23 Seeking bottom level BOTTOM SEEKING

24 Not initialized NO INITIALIZE

25 Stopped at upper pos. UPPER STOP

26 Stopped at lower pos. LOWER STOP

27 Repeatability testing REPEATABILITY

28 Seeking water level WATER SEEKING

29 Water level, balanced WATER LEVEL

30 Following water level WATER FOLLOWING

31 Over-/under tension, Z-phase, ADC error EMERGENCY ERROR

32 GVH157 SERVICE MODE = ON MAINTENACE

56 Endress+Hauser


7.5 Operation of displacer

The operation of the displacer for level, bottom level, interface level, and density measurement is pos-sible by touch control.


Figure 52: Static matrix

Figure 53: Touch control

1. Select function groupGVH020 OPERA-TION

2. Select item OPERATION. The LCD shows the command given to NMS5and the dis-placer position.

• Set access code to 50.• If editing has previously been enabled by a

valid access code, then the request for the code will not appear.

Figure 54: Operation of displacer

3. The following commands are available at this position:

• LEVEL• UP• STOP• BOTTOM LEVEL• UPPER INTERF. LEV*• MIDD.INTERF.LEV*• UPPER DENSITY*• MIDDLE DENSITY*• DENSITY BOTTOM*• WATER DIP*• REPEATABILITY TEST

• Interface and density measurements are not available unless specifically requested.

• Density profile measurement is explained in section "8.6 Density and Density Profile Measure-ments".

• The optional operation commands are available when such options are set.

OPERATIONOPERATION

Level

Bottom Level

Upper Interface Level

Middle Interface Level

Density Bottom

Water Dip

Middle Density

Upper Density

Endress+Hauser 57


7.6 Calculation of level and densities

The section specifies the formula used by NMS5 to calculate levels and densities.

Figure 55: Calculation of levels and densities

Surface and interface levelsWhile the measured surface or interface level is constant, the displacer rests at the balancing position. The tension on the measuring wire is proportional to the displacer weight diminished by the buoyancy forces in both layers:

A rise or fall of the level will increase or decrease the displacer volume. If this change exceeds the vol-ume tolerance set at matrix position GVH345 "VOLUME TOLERANCE", then the corresponding change will actuate the motor of the NMS5 till the balancing condition is fulfilled again.

Tank bottom levelFor bottom level measurement, the balancing condition is defined as

T = W - (V + VB) ρb

Level Formula

Liquid Level T = W - Vвρu

Upper Surface T = W - Vвρm - (V - Vв) ρu

Middle Surface T = W - Vвρb - (V - Vв) ρm

Measuring WireTension TGas

Density NegligibleMeasured Displacer Weight W

Upper Liquid

Measured Displacer Weight Wu

Middle Liquid

Measured Displacer Weight Wb

Balance B

Displacer

58 Endress+Hauser


Densities

The upper, middle, and bottom densities are calculated by the following formulas.

• Upper density (Pu) and density profile

• Middle density (Pm)

• Bottom density (Pb)

Draft (distance from liquid surface to the bottom of displacer)

The draft varies depending on the shape of the displacer. For cylindrical shape, the draft is

where the variables and constants have the following meanings.

Figure 56: Variables and constants for displacer

The surface or interface level should be within the cylindrical part of the displacer and approximately in the middle of its total height.

ρu =V

W - Wu

ρm =V

Wu - Wm ρu+

ρb =V

Wm - Wb ρm+

D = (V2 - V1) / A x 10 + h

= (V1 - V2 - V3) / A x 10 + h + h1

V1: Displacer Balance Volume (69ml)

V2: Displacer Lower Hemisphere Volume

V3: Displacer Bottom Stub Volume

A: Cross-section of Displacer

h : Height of Lower Cone

h1: Height of End of Cone

For example: standard displacer Ø50.8 (2) cylindrical shape

V1: Balance Volume (69ml)

V2: Volume of Lower Cone (24.46ml)

V3: Volume of End of Cone (0.12ml)

A: Cross-section of Displacer (20.26cm2)

h1: Displacer Bottom Stub Height (20mm (0.784in)) d

hV2

D

h1V3

Liquid Levelor Interface

Endress+Hauser 59

Proservo NMS58 Commissioning

8 Commissioning

8.1 Initial settings

All of the initial settings are required for NMS5 in most case. However, depending on NMS5 specifica-tion, some settings may not be required. Set Access code 51 at GVH039 before applying the initial set-tings.

8.1.1 System calendar/clock (GVH193 to 197)Calendar/Clock values are set at factory (Japan Standard Time) prior to delivery. Change the data to reflect local time.

8.1.2 Density values (GVH005 to 007)

Always set GVH005 Upper Density for actual density data, in LPG and any application where the actual density is 0.7000 g/ml or less. failure to set this data may result in level gauge malfunction.Density values for 3 liquid phases are set to 1.000 g/ml prior to delivery. Change the data to reflect actual density values. For tanks with only one liquid phase, set Upper Density. For tanks with 2 or 3 clear phases, set Middle and Bottom densities too.

Minimum difference between phase settings should be at least 0.100 g/ml. GVH005≤GVH006≤GVH007

Example:

• GVH005 Upper Density: 0.758/ml

• GVH006 Middle Density: 0.880/ml

• GVH007 Density Bottom: 1.000/ml

8.1.3 Tank height (GVH140)Tank height value is set to default value at factory prior to delivery. Tank height is the reference height, usually a gauging hatch on the tank that is used during manual level measurements. Change GVH140 to equal the reference height.

GVH141 "Dip Point Offset" will automatically change to reflect the difference in height between the ref-erence height and the NMS5 reference position.

CAUTION

60 Endress+Hauser

Proservo NMS5 8 Commissioning

Figure 57: Tank height

8.1.4 Upper and lower stop (GVH161/162)Upper and Lower Stop determine the highest and lowest point of displacer movement. These data are set to 16000mm and 0mm respectively at factory prior to delivery. Change these data to the desired actual Upper and Lower limit values.

8.1.5 Communications address (GVH285)Several types of digital output communication protocols are available when ordered from Endress + Hauser. NMS5 is delivered with communications hardware and/or software installed. Only minimal matrix parameter setting, Access code 51, is required.Communications protocol is displayed and selected at GVH286 Protocol. NMS5 has been preset at fac-tory, it is not necessary to change the setting.At GVH285 select the desired device address for NMS5. Address range: 0 to 9, 00 to FF, or 1 to 247 for Modbus.

• FF is fixed for MIC protocol. WM550 and M/S address setting is done via dip switches on the com-munications module inside NMS5.

• For Rackbus, termination resistors should be set on NMS5 at end of loop.

• Enraf BPM address range is 00 to 99. Refer to "8.5 Remote Communications".

Tank height

Dip point offset

(Difference between the dipping hole height and the reference line of the calibration window)

Endress+Hauser 61


8.1.6 Proactive safety function (GVH157/158/159)

Data range of safety level by output protocol

Matrix Setting

GVH157

Service Mode: default = OFF. Select OFF if GVH158 Prosafety = ON.Select ON only when performing maintenance on NMS5.

Selecting ON disables the Proactive Safety function!Access code 530

GVH158

Prosafety: default = ON.Select OFF only if the Proactive Safety function will not be used.

Failure to confirm ON disables the Proactive Safety function!Access code 530

GVH159

Safety Level: default = 65000.0mm (WM550.), or = 99999.0 mm (other protocols)Possible data values depend on receiver specification (see table below)Level value transmitted to the receiver if a fault occurs.Access code 530

Protocol Data Range Data Format

Modbus 0.0 to 99999.0mm Float

V1 0 to 99999.9mm ASCII / 6 digit

MDP 0 to 99999mm BCD / 5digit

WM550 0 to 65000mm 16bit

Mark/Space 19.999m/32.699m 20bit BCD / 5 digit

Enraf BPM 0 to 99999.9mm 6 or 7 byte

Rackbus 0 to 99999.9mm Float

HART 0 to 99999.9mm Float

WARNING

WARNING

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8.1.7 Analogue output (GVH250 to 256)When specified and ordered from Endress+Hauser, NMS5 is equipped with analogue output hardware installed. Function settings may be changed as follows:

8.1.8 Contact relay alarm output (GVH240 to 247)When specified and ordered from Endress+Hauser, NMS5 is equipped with contact relay alarm output hardware installed. Function settings may be changed as follows:

Function Setting

Assign Output 1 Assign level or temperature to channel 1 output.

Adjust 4mA Set desired value at which level or temperature outputs 4 mA.

Adjust 20mA Set desired value at which level or temperature outputs 20 mA

Assign Output 2 Assign level or temperature to channel 2 output.

Adjust 4mA Set desired value at which level or temperature outputs 4 mA

Adjust 20mA Set desired value at which level or temperature outputs 20 mA.

Device at Alarm Select type of output for alarm

Function Setting

Select Relay Select relay number from 1, 2, 3 or 4.

Assign Relay Select output definition from range of choices: None, Level, Liquid Temperature, Caution, Warning, Emergency Error, Balance Signal.

Relay Function Select High or Low.

Switching Point Set value at which relay is activated.

Hysteresis Set hysteresis value for selected relay.

Relay on Alarm Select relay of Normal Open or Normal Closed.

When selecting Output2: "4: 2 x relay SPST, TUV with overspill prevention" at order code 50, relay type is specified as only Normal Closed.

On Delay Time Set time delay value for alarm output start.

Off Delay Time Set delay value for alarm output stop.

NOTICE

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8.2 Settings for NMT 53x connections

The following settings are required to display NMT 539 data on NMS5 screens.

By setting the HART retry number, it is possible to change the HART communication error detection time of connected Prothermo to suit application needs.When NMS5 cannot read data from Prothermo, it retries. The retry number can be set at the matrix position GVH 773. It is possible to set the number of retries from 0 to 99 by the access code 530.

• The factory default HART retry number is 50. This value is suitable for a standard situation where HART recommended cable is used. The detection time for a real error is approx. 17 minutes because HART retry is executed 50 times to determine a real error.

• As the number decreases by 1, real errors can be detected faster by approximately 20 seconds. When the HART retry number setting is 0, the detection time of real errors is approx. 40 seconds. However, a false error may occur depending on the installation site conditions.

• As the number increases, false errors occur less. However, it takes longer to detect a real error. The detection time for real errors is approx. 34 minutes when the number is set to 99.


Figure 58: Matrix group: service


1. In Static Matrix "MORE FUNCTION", invoke GVH030 "MATRIX OF" and select "SERVICE".

2. Invoke the Dynamic Matrix GVH362 "CONNECTION NMT" screen.

3. Use the "+" and "-" keys to display "AVERAGE" and press "E" to set data.

4. Press "E" to return to "SYSTEM DATA" and press the "-" key to return to "MORE FUNCTION".

5. Invoke Static Matrix "GVH030 MATRIX OF". NMS5 matrix is divided into matrix groups. Select "TEMPERATURE" from these groups.

6. "EDITING ENABLED" is displayed on the LCD.

7. The average liquid temperature is displayed on Dynamic Matrix screen GVH440.

8. The temperature of each contact is dis-played on Dynamic Matrix screens GVH450 to GVH459.

030

362

MOREFUNCTION

SYSTEMDATA

MATRIX OF

CONNECTION NMT

030

MOREFUNCTION

MATRIX OF

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8.3 Settings for connection to NRF560

To connect NRF560, NMS5 requires the following settings.

Turn on the power to NMS5 first.CAUTION


Figure 60: Matrix group: service

1. In Static Matrix "MORE FUNCTION", invoke GVH030 "MATRIX OF" and select "SERVICE".

2. Invoke the Dynamic Matrix GVHH361 "CONNECTION NRF" screen.

3. Use the "+" and "-" keys to select either "CON-TACT 1" or "CONTACT 2".

• Set access code 51.• CONTACT 1...

NRF 560 software version 1.6x and earlier (those NRF 560 that indicate no software version correspond to connection type 1).

• CONTACT 2...NRF 560 software version 1.8x and later.

030

361

MOREFUNCTION

SYSTEMDATA

MATRIX OF

CONNECTION NRF

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8.4 Liquid level calibration

8.4.1 Opened tank

PreparationSelect LEVEL at GVH020 Operation. The displacer will descend to the liquid surface and balance. When "BAL" is displayed, the displacer stopped moving.When measuring the liquid level manually, use an approved method.

Set level (GVH150) for opening tankInput the value at GVH150 after measuring the dipping level.

Figure 61: Calibration Level (Manual Dipping Level)

When there is no liquid in the tank;

Figure 62: Calibration level (empty tank), unit of measurement: mm (in)

When there is no liquid in the tank, level calibration is not 0mm on the measurement principle. When 0mm level calibration is needed, refer to GVH004(BOTTOM LEVEL) or GVH142(DISPLAC. DRAFT).

Manualdipping level

Draft

Calibration level

B

A

B=45(1.77) Note: Ø50 (1.97) (Standard displacer) 140ml (Displacer volume) 70ml (Balance volume)

A= Depend on tank design

CAUTION

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8.4.2 Closed tank

Level calibration procedure for closed tank

Closed tanks (e.g. LPG) cannot be hand-dipped. Follow the procedure shown below.

Figure 63: Level calibration

1. Check the NMS parameter

2. Set the Level gauge at GVH020(BOTTOM)

Figure 64: Draft level of displacer

3. Check that the displacer is balance and LCD (display) shows Balance.

Matrix Item

GVH005 UPPER DENSITY

GVH340 WIRE DRUM CIRC.

GVH342 DISPLACER WEIGHT

GVH343 DISPLACER VOLUME

GVH344 BALANCE VOLUME

CAUTION

0

45 (1.77)

45 (1

.77)

BOTTOM plate (datum plate)

BALANCE position for displacer

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4. Calculate the displacer balance position.

• In case of Ø50mm standard displacer, balance volume(GVH343) is reference value (a half of displace volume)

• The balance point is 45mm from the bottom of the tank.

Refer to Appendix "14.3 Displacer".

Figure 65: Level calibration

5. Set Level Calibration to 45mm at GVH150 (SET LEVEL) in G1 MATRIX (Calibration). The bottom is ZERO.

• If the bottom plate is not Zero (ex; X mm), adjust the level value by adding to the value.

LEVEL = X + 45(mm)

6. Set level gauge at GVH020 (BOTTOM).

This completes the level calibration procedure.

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8.5 Remote communications

8.5.1 Digital output The desired loop address for most digital protocols can be set at GVH285 (Address). The allowable range for setting varies depending on the protocol installed in NMS5. The range has 0-9, 00-FF (FF is fixed for MIC protocol), or 1-247 for Modbus.

• WM550 and Mark Space protocols addresses must be set by switches on the communications mod-ule inside NMS5.

• Enraf BPM: Address range is 00-99. A-F is not available.

8.5.2 Whessoe Matic 550 (WM550) communication board setting

Jumper settingJumper settings for WM550 communication board

If software reset is required; J6 has to be short.

Polling address setting

Polling addresses are set by mechanically at SW1 on WM550 communication board (not by accessing NMS programming matrix). Check all polling addresses before setting. The following table shows about address setting.

For current loop setting, refer a operating manual for Whessoe 1098 or RTU 8130 operating manual.

Jumper Function Default Condition

J3 (Mode) Use EPROM [IC4]->short Short

J4 (Test) Software testing Short

J6 (Reset) Reset Open

J7 (Watch dog) Watch dog setting Short

Switch position Value

1 1

2 2

3 4

4 8

5 16

6 COMPATIBILITY MODE

WARNING

ON

1 2 3 4 5 6

Polling address = 1ONPolling address = 5

ONPolling address = 9



Setting Sample

1 2 3 4 5 6 1 2 3 4 5 6

1 2 3 4 5 6 1 2 3 4 5 6

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8.5.3 Mark/Space(M/S) communication board setting

Jumper SettingJumper settings for M/S communication board

Polling address setting

Polling addresses are set by mechanically at SW1 (1-8) and SW2(1-2) on Mark Space communication board (not by accessing NMS programming matrix). Check all polling addresses before setting. The fol-lowing table shows address setting.

Function settingEach function is set at SW2-* shown as follows.

Jumper Function Default condition

J3 (Mode) Use EPROM [IC4]->short Short

J3 (Reset) Reset Open

J3 (WD) Watch dog setting Short

Switch Position Value

SW1-1 1

SW1-2 2

SW1-3 4

SW1-4 8

SW1-5 16

SW1-6 32

SW1-7 64

SW1-8 128

SW2-1 256

SW2-2 512

Switch Function Default condition

SW2-3 ON: Data transmission under unbalanced condition ON

SW2-4 ON: low baud rate setting OFF

SW2-5 ON: Feet data OR 0-20m, OFF: 0-30m OFF

SW2-6 ON: Measured data converted to feet OFF

SW2-7 ON: Temperature data (57 bits) ON

SW2-8 ON: Deg. F measured temperature unit, OFF: Deg. C OFF

WARNING

ON

1 2 3 4 5 6 7 8

ON

1 2 3 4 5 6 7 8

SW - 1 SW - 2

Address Setting Function SettingSetting Example: 267

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8.5.4 ENRAF BPM communication board (COM-3) setting

COM-3 Jumper setting

Communication settingSelect "V1/ENRAF BPM" at the matrix position GVH286.

Communication settingPolling address is set at GVH285 "ADDRESS" of NMS5 matrix. The allowable range is from 00 to 99.

A to F for polling address can not use.

Communication setting

• Switch S1: Reset switch

• Connector J3: Communication port for debugging

Jumper Function Default Condition

JP1 (Mode)

ROM type setting1-2 short: 27C40962-3 short: 27C1024 2-3 short

JP2 (Reset) CPU mode setting (Fixed)1-2 open3-4 short5-6 short

J3 (WD)

Baud rate setting1-2 short: 1200 bps1-2 open: 2400 bps 1-2 open

WARNING

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8.5.5 Analog output

Setting of analog output 4-20mA is available when ordered from Endress+Hauser. NMS5 is delivered with analog output hardware installed. For the following matrix parameter settings, Access code 51, is required.

If "LEVEL", confirm GVH158 (Prosafety) is "NO".

Matrix GVH Item Setting

250 Assign Output Assign analog output (Level or Temperature) for channel 1.

251 Adjust 4mA

Set level or temperature value for 4mA output on channel 1.Available only when GVH250= "Level" or "Liquid Temp"Level: 0 to 99999mmTemperature: -999 to 999°CDefault: 0mm / 0°C

252 Adjust 20mA

Set level or temperature value for 20mA output on channel 1. Available only when GVH250 = "Level" or "Liquid Temp."Level: 0 to 99999mmTemperature: -999 to 999°CDefault: 0mm / 0°C

253 Assign Output 2 Assign analog output (Level or Temperature) for channel 2.

254 Adjust 4mA

Set level or temperature value for 4mA output on channel 2. Available only when GVH253 = "Level" or "Liquid Temp." Level: 0 to 99999mmTemperature: -999 to 999°CDefault: 0mm / 0°C

255 Adjust 20mA

Set level or temperature value for 20mA output on channel 2. Available only when GVH253 = "Level" or "Liquid Temp."Level: 0 to 99999mmTemperature: -999 to 999°CDefault: 0mm / 0°C

256 Device at Alarm

Select type of output for alarm. Select from OFF, HOLD current output, Maximum value or Minimum value. OFF: current does not apply when an error occurs.HOLD: current which is applying is fixed when an error occurs.MAX: 22mA current applies in stead of present current.MIN: 2mA current applies in stead of present current.Default: OFF

CAUTION

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8.5.6 Contact relay alarm outputThe specification of alarm for output contact relay is delivered as a part of NMS5. This specification allows a maximum of 4 output contact relay settings. Set access code 51 in case of the following matrix parameters.

Description of error message

Matrix GVH Item Setting

241 Select Relay Use +/- and E keys to select to activate Contact Output Relays 1 to 4. Default value = 1.

242 Assign RelaySelect output definition from range of choices: None, Level, Liquid Temp, Caution, Warning, Emergency Error, and Balance Signal. Default value = NONE.

243 Relay FunctionSelect High or Low function, available only when GVH241 = "Level" or "Liquid Temp." Default value = HIGH.

244 Switching Point Set level (0-99999 mm) at which relay is activated, available only when GVH241 = "Level" or "Liquid Temp." Default value = 0 mm.

245 Hysteresis

Set hysteresis value (0-99999 mm) for selected relay, available only when GVH241 = "Level" or "Liquid Temp." Default value = 0 mm.

When selecting Output2: "4: 2 x relay SPST, TUV with overspill prevention" at order code 50, relay type is specified as only Normal Closed.

246 Relay on Alarm Select from Normal Open or Normal Closed, available only when GVH241 = "Level" or "Liquid Temp." Default value = NORMAL OPENED.

247 On Delay time Set delay time (0-999 seconds) for alarm output start, available only when GVH241 = "Level" or "Liquid Temp." Default value = 0 seconds.

248 Off Delay TimeSet delay time (0-999 seconds) for alarm stop, available only when GVH241 = "Level" or "Liquid Temp." Default value = 0 seconds.

Error type Description

LEVEL Liquid level exceeded the designated upper or lower limit.

LIQUID TEMPERATURE Liquid temperature exceeded upper or lower limit.

CAUTION Auto wire calibration error; Auto displacer calibration error

WARNING Weight value exceeded the designated alarm sending limit (upper limit: GVH162 or lower limit: GVH163). (e.g. local communication error, LCD error, communication error, EEROM data error)

EMERGENCY ERROR Z-phase no input error, ADC sensor error, communication IC error, A-phase no input error, Driver error, power failure

NOTICE

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8.5.7 Relay logic

Module name I/O - 3

Alarm output, Standard(Order Code position 050= 1,2,3 or 5)

4 relays with potential-free change-over contacts, freely assignable to measured value

Hysteresis, Alarm output Switch points and switching hysteresis freely adjustable, residual cur-rent fail-safe mode: minimum or maximum, selectable

Operation output logic

Relay Condition

Initial Configuration(Normal Status) Open Closed

On alarm Closed Open

On device error Closed Open

On abnormal power supply (5% lower than, higher than specified power supply

Custody Transfer Closed

Custody Transfer Open

Power outage Hold last condition

Switching capacity, Alarm output

• Max. 250VAC, 2A/62.5W• Max. 220VDC, 2A/60W• FM/CSA: 30VAC, 2A/42VDC, 2A, 60W• TIIS: 250VAC, 1.5A/30VDC, 9W

Alarm output,Overspill prevention (Order Code position 050=4)

2 relays with potential- free changeover contacts, assignable to Level

Hysteresis, Alarm output Switch points and switching hysteresis freely adjustable, residual current fail-safe mode: minimum or maximum, selectable

Operation output logic

Relay Condition

Initial Configuration (Normal Status) Closed

On alarm Open

On device error Open

On abnormal power supply (5% lower than, higher than specified power sup-ply

Open

Power outage Open

Switching capacity• Umax. 200VDC/200VppAC• Imax. 0.5AC, DC or peak AC • Pmax. 15W

Operation input 2 photocouplers, for external input from controller (tumbler switch, DCS, etc.)

Operation output logic Gauge Status CTR1 CTR2

Level 0 (OFF) 0 (OFF)

UP 1 (ON) 0 (OFF)

STOP 0 (OFF) 1 (ON)

Interface Level 1 (ON) 1 (ON)

Input voltage 15VDC, active circuit (supplied by NMS5)

Input current Approximately 5mA

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8.6 Density and density profile measurements

Two different types of density measurement are available when ordered from Endress+Hauser.

• Spot density measurement for up to 3 liquid phases

• Density profile measurement

1. Tank profile for up to 16 points for total liquid height.

2. Tank profile for upper phase liquid only.

3. Tank profile based on a manually entered profile parameter.

8.6.1 Spot density measurementSpot measurement for up to 3 liquid phases is an option that is available when ordered from Endress+Hauser. The following preconditions are required in order to assure safe and accurate operation.

• NMS5 must be configured for Spot density measurement as ordered from Endress+Hauser. For information regarding upgrading your NMS5, contact Endress+Hauser representatives.

• Density values:

Figure 66: Density measurement

• Density values can be viewed and changed at the following matrix positions:GVH005: Upper DensityGVH006: Middle DensityGVH007: Density Bottom

• The displacer is balanced at liquid level and the liquid surface is not moving.

For spot density measurement, the following parameters can be set or selected. However the factory default settings also can be used.

Matrix Item Setting

GVH143 Displacer Raise Density

Set distance (0-300mm) for displacer to rise the level position above during measuring density. Default setting = 150 mm. Observe the rule: GVH143 + GVH144 = 300 n, where n = integer.

GVH144Displacer Submerge Density

Set distance (0-300mm) for displacer to submerge the level position above during measuring density. Default setting = 150 mm. Observe the rule: GVH143 + GVH144 = 300 n, where n = integer.

e.g. 0.760 g/ml

e.g. 0.880 g/ml

e.g. 0.1000 g/ml

Upper density < Middle density <Bottom density　　Bottom d

Endress+Hauser 75


OperationSelect the measurement of the density desired from UPPER DENSITY, MIDDLE DENSITY, or DENSITY BOTTOM at GVH020 "OPERATION". NMS5 raises the displacer up out of the liquid, measures its weight, and sends the displacer down to measure the density. After density is measured, the displacer remains at that position until UP or LEVEL command are selected at GVH020.

Figure 67: Density measurement

8.6.2 Density profile measurement

Tank profile density measurementIn addition to the preconditions, the following additional preconditions are required in order to assure safe and accurate operation for the density measurement of the tank profile. Access Code 51 is required to edit parameters.

• NMS5 must be configured for Spot & Profile density measurement as ordered from Endress+Hauser. Contact Endress+Hauser for the information regarding upgrading NMS5.

• The standard tank bottom level (GVH004) is zero. If not, the formula used for calculating the inter-val between profiles is GVH000 / GVH841. The displacer touches the bottom of the tank before measuring a lower level (e.g. 884mm).

• If Bottom Level is not 0 mm, select Manual I/F Profile at GVH840. Set GVH843 I/F Manual Level = actual bottom level e.g. 884mm. In this case, the intervals will be calculated based on GVH000 - GVH843/GVH841.

• The density profile can be operated when the liquid is still in the tank. However, depending on the height of liquid level, it may take 1 hour or more to operate the density profile.

Additional matrix parameter settings are required for remote communications via WM550 communi-cations protocol. Refer to Section "14 Matrix, (Dynamic Matrix, Device Data: G2), WM550 DENS. SEL.".

Matrix Item Setting

GVH154 SAFE DENSITY

Select the desired resultant condition when density profile measurement fails due to displacer reaching the low-limit for density profile operation (set in GVH155). Selecting "ON" will result in STOP operation. Selecting "IGNOR" will result in "LEVEL" operation, displacer will return to liquid level. Selecting "OFF" will leave the displacer at the position where density profile measurement failed, and in "DENSITY" operation.

GVH155 DEN. OPE.LEVEL

Set the lower limit for displacer movement during density profile operation Default setting = 300 mm.

Upper layer (Gas or liquid)

Lower layer(Liquid)

A

B

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• A. Tank profile for up to 16 points for total liquid heightGVH840 Ope Select: Select 1: Tank Profile.

• B. Tank profile for upper phase liquid onlyGVH840 Ope Select: Select 2: I/F Profile.

• C. Tank profile for based on a manually entered profile parameter.GVH840 Ope Select: Select 3: MANU.I/F Profile.

When choosing A, B, and C above, the following parameters can be set or select. The factory default settings also can be used.

Initial setting of tank profile (density profile) measurementAll of necessary set up can be done at "G8 Tank Profile" matrix. There are six factors to configured prior to the actual operation.

GVH840 OPE. SELECT

Matrix Item Setting

GVH841 Ope Point Set the number of measurement points (2-16) for Tank Profile measurement. Default setting = 2.

GVH843 I/F Manu. LevelManually set the water interface level (0-99999.9mm) to be referenced during the tank profile measurement. Default setting = 0 mm. Only used with C, tank profile for based on a manually entered profile parameter.

GVH844 Bal. Level

Set the allowance for level movement (1.0 -99.9 mm) prior to Tank Profile operation. If the level movement exceeds this value, profile operation is canceled. Setting 99.9mm allows Profile measurement to proceed, regardless of level movement. Default setting = 2.0 mm.

GVH845 Up Wait TimeSet waiting time (1-31 minutes) for displacer weight to be measured in air, when making the weight table at start of profile operation. Default setting = 1 minute.

GVH846 Liq Wait TimeSet the time (1-31 minutes) for displacer to stop at each measurement position during profile operation. Default setting = 1 minute.

GVH847 Ope Wait Time

Set maximum waiting time (1-31 minutes) for conditions in GVH844 (Bal Level) to be satisfied before profile operation begins. E.g. if the level movement exceeds setting at GVH844, NMS5 is in "standby" for the time set in this matrix. After the maximum time elapses, profile operation is canceled. Default setting = 1 minute.


Figure 68: GVH840

1. Select GVH030 "MATRIX OF" in the row "MORE FUNCTION" on Static Matrix, then select "Tank profile".

• Set access code to 50.

2. Select function group "PROFILE OPE" and GVH840 "OPE SELECT".

• The row of PROFILE OPE is the only function group that needs configuration for the density profile operation.

3. Select 1: "TANK PROFILE" by pressing + or - key.

4. Press E to configure.

• Selection of "0: SPOT" enables Upper Density measurement instead of Density Profile measurment.

Matrix Group TANK PROFILE

StaticMatrix

GVH = 30

GVH = 840

MOREFUNCTION

Matrixof

DynamicMatrix

FunctionGroup

TANKPROFILE

PROFILEOPE.STATUSDATADENSITY1-10DENSITY11-16POSITION1-10POSITION11-16

OPE.SELECT

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GVH841 OPE. POINT

GVH844 BAL. LEVEL

GVH845 UP WAIT TIME


Figure 69: GVH841

1. Select GVH841 "OPE POINT " to determine number of density measuring points.

• Set access code to 51. Default value is 2 points and selectable up to 16 points.

2. Enter required number by pressing + or - key, and select E to enter.

• Whatever the number of measuring point is selected, the measuring interval & point between each point are automatically calculated within the liquid level.

Function Group

Matrix Group: TANK PROFILE

PROFILEOPE.

OPE.POINT

GVH841


Figure 70: GVH844

1. Select GVH844 "BAL LEVEL" to determine the liquid stability range in order to start the operation.

• Set access code to 51. NMS software has a function to scan & record the liquid level every 5 minutes.

2. Enter desired value by pressing + or - key and select E to enter. Input value of 99.9mm rep-resents that the measuring procedure starts regardless of level condition.

• NMS5 only starts the actual measurement when the liquid level is within the entered value compared to the recorded level data 5 minutes ago. This function ensures the safe operating condition to avoid filling or draining liquid from the tank.

Function Group GVH844

Matrix Group : TANK PROFILE

TANKPROFILE

BAL.LEVEL


Figure 71: GVH845

1. Select GVH845 "UP WAIT TIME" to determine the displacer weight calibration interval in air.

• Set access code to 51. The displacer raises approximately 500mm above liquid surface after confirming the stability of liquid level within "BAL LEVEL" function.

2. Enter desired waiting time by pressing + or - key, and select E to enter.

• The displacer weight is calibrated at 8 different positions in air and the interval between those positions are adjustable within this function to allow excess liquid to drip off the displacer to achieve higher accuracy.



TANKPROFILE

UP.WAITTIME

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GVH846 LIQ. WAIT TIME

GVH847 OPE. WAIT TIME


Figure 72: GVH846

1. Select GVH846 "LIQ. WAIT TIME" to deter-mine the displacer weight calibration interval between each measuring point in the liquid.

• Set access code to 51. A small turbulence made by the movement of displacer itself may cause the liquid surrounding displacer to be unstable for the accurate measurement.


• This function allows displacer to hold in each calculated position before actual measurement is proceeded based on the entered value.



TANKPROFILE

LIQ. WAITTIME


Figure 73: GVH847

1. Select GVH847 "OPE. WAIT TIME". • Set access code to 51.


• This function determines how long for the NMS to wait if "BAL. LEVEL" can not be established before quitting entire operation.



TANKPROFILE

OPE. WAITTIME

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Operation of tank profile (density profile) measurementAfter all the initial settings are completed, the actual operation can be proceeded by one simple com-mand. The operation status regarding this function is displayed at GVH850 and the liquid level condi-tion is also displayed at GVH851. Terms of status display and descriptions are listed below.

Operations status (GVH850, OPE. STATUS)

Level condition status (GVH851, LEVEL CONDITION)

Status Contents

0: Accepting Accepting density profile command

1: Standby Ready to execute density profile command

2: In operation Executing density profile command

3: OPR. END Density profile operation completed successfully

4: UN_BALANCE ERR Fail: Required conditions for density profile operation not satisfied

5: IPR. ERR. STOP Fail: Abnormal conditions occurred during density profile operation

Status Contents

0: Off Level Meas. Active operation is not LEVEL (Profile cannot start).

1: Stable Liquid level/surface is stable (Profile can start).

2: Unstable Liquid level/surface is unstable (Profile cannot start).

3: Ignore condition Ignores liquid level/surface condition (profile cannot start).



1. Select GVH020 "OPERATION" in the Static Matrix and select "UPPER DENSITY".

• Set access code to 50. • The operation command "UPPER DENSITY" is

shared between spot and Tank Profile density measurement depends on GVH840 configuration.

2. Press E to start the operation. • The operation must start when the NMS is in Level measuring mode.

3. Unless there is any incompatible circum-stances during the displacer automatically returns to the level measurement after the last measuring point.

• To minimize the risk of safe operation, the displacer immediately returns to the Level measurement regardless of completing various data process.

Static matrix

GVH020

LEVELUPSTOPBOTTOM LEVELMIDDLE INTER LEVELUPPER DENSITYMIDDLE DENSITYDENSITY BOTTOMREPEATABILITYWATER DIP

OPE. OPE.

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Density profile operation diagram

Figure 75: Density profile

Operation procedure

1. Set NMS5 so that it can measures the liquid level.

2. Raises the displacer and measure each weight of 8 measuring points in the air.

3. Measure the density at the setting position in the liquid level.

4. Return to level measurement.

5. Save the data in G8 matrix accordingly.

This completes the operation procedure.

The average density and temperature data regarding density profile function (G8 Matrix) are com-pletely different from the data on G0 static matrix which displays the conventional upper density (spot) and temperature (continuously scanned) data.

8 points of air weight measurement (within 300 (11.81) circumference of wire drum)

Nozzle

First displacer weight calculation line(Approximately 500 (19.69) from liquid level)

No. 1 Measuring point







If required density measuring points are 7, the method to calculate each point from liquid level in NMS with ver 4.25 software is:

(7 points +1)Liquid level x Measuring point number

Ex. if the liquid level is 4,000 (157.48) and needs to determine the position of No. 5 measuring point from the liquid surface;

(7 +1)4,000 (157.48) x 5 = 2,500 (98.43)

Interface profile (upper layer)Max.16 point

Tank profile(liquid level to tank bottom)

Max.16 point

Liquid level

WARNING

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8.7 Interface measurement

NMS5 can measure interface levels via the following operations.

• Upper Interface Level: returns the level data for the interface between top 2 liquid phases. Displacer remains at interface level in UPPER INTERFACE operation.

• Middle Interface Level: returns the level data for the interface between bottom 2 liquid phases. Dis-placer remains at interface level in MIDDLE INTERFACE operation.

• Water Dip: returns the level data for the interface between top 2 liquid phases. Displacer returns to liquid level in LEVEL operation.

The following preconditions are required in order to assure safe and accurate operation.

• Density values:

Figure 76: Interface measurement

Density values can be viewed and changed at the following matrix positions:

• GVH005: Upper Density

• GVH006: Middle Density

• GVH007: Density Bottom

Additional matrix parameter settings are required for remote communications via WM550 communi-cations protocol. Refer to Section "14 Matrix, (Dynamic Matrix, Device Data : G2), WM550 ALM. SELECT.".

Operation:After confirming the above pre-conditions, use the "+" or "-" keys to select the desired operation at matrix position GVH020 OPERATION. When the desired operation is displayed, press the "E" key.

e.g. 0.760 g/ml

e.g. 0.880 g/ml

e.g. 0.1000 g/ml

Upper density < Middle density <Bottom density　　Bottom d

82 Endress+Hauser


8.8 Sealing of NMS5

NMS5 can be sealed, and data can be made unchangeable for custody transfer purposes as follows.

Sealing of NMS5 procedure

1. Set OPE. DENSITY at GVH278 as the liquid density (if the density is expected to change during operation, set the average value.).

2. Turn off the power supply, open NMS5.

3. Turn the micro switch to the "on position" on the printed circuit board TCB (see figure below). NMS5 will then enter "write-protect" mode and not accept any further level, weight, or density data changes.

This completes the sealing of NMS5 procedure.

Figure 77: Printed circuit board TCB

220

91

61

131

1CNB

CN5

CN7

CN6

CN4

SW1

U1

4 1

5

4 1

5 85

8 14 5

8 14

U20 U19

U15 U13

U10

141

1528

1

16

8

9

17

8

U14

U9

U21

U7

U4

U11

U121

14

7

8

1

16

U24

U6

9

8

C16

C8

C7

U2

DC-DC Converter

C35

U3

C38 ON OFF

CN9

CN2CN3

TCBCD_L423

Protect switch

Endress+Hauser 83

Proservo NMS59 Maintenance

9 Maintenance

NMS5 measuring instrument requires no special maintenance.

9.1 Exterior cleaning

When cleaning the exterior of measuring devices, always use cleaning agents which will not cause cor-rosion or other damage to the housing surface seals.

9.2 Seals replacement

NMS5 O-rings may need to be replaced periodically, and more frequently in extreme climates. The period between changes will depend on climate severity, ambient temperatures and process.

9.3 Repairs

The Endress+Hauser repair policy is based on the fact that the measuring devices have a modular design and that customers are able to undertake repairs themselves. Spare parts are contained in cor-responding kits along with their related replacement instructions. Endress+Hauser provides spare parts for repairs of NMS5. Contact Endress+Hauser service representatives for further assistance regarding service and spare parts.

9.4 Repairs to Ex-approved devices

When performing repairs on Ex-approved devices, note the following:

• Repairs of Ex-approved devices may only be performed by trained personnel or by Endress+Hauser Service.

• Comply with the prevailing standards, national Ex-area regulations, safety instructions (XA) and other relevant rules.

• Only use original spare parts provided by Endress+Hauser.

• When ordering spare parts, note the device information on the nameplate. Replace parts only with parts that have the same device information.

• Perform repairs according to the instructions. When completing repairs, perform the specified rou-tine test on the device.

• Only Endress+Hauser service representatives may convert a certified device into a different certified variant.

• Document all repair work and conversions.

9.5 Replacement

After replacing NMS5 or electronic module, the adjustment of a new sensor is required.

84 Endress+Hauser

Proservo NMS5 10 Accessories

10 Accessories

10.1 Calibration chamber

NHC4HP: high pressure versionNHC4LP: low pressure versionThe following figure shows dimensions of NHC4LP, 10K 150A RF, SUS304 version. For the other spec-ifications, contact Endress + Hauser representatives.

Figure 78: Calibration chamber, unit of measurement: mm (in)

10.2 Power and control switch

Figure 79: Power and Control Switch NHS8, Unit of Measurement: mm (in)

Flange

8 Holes

Ø150 (5.91)

222.5 (8.76)

450

(17.

72)

Flange

Rated Voltage

Rated Current

Housing

Terminal Box

Structure

No. of Certificate

Connection Diagram

Power supply

NMSTerm. No

NHS8Term. No.

1234567

Handle position Wiring

LIFTINST

STOPOFF

7643

521

OFFSTOP

INST LIFT

Cable entryPF (G) 3/4

PF (G)1

h (mm) B2024

140145

Cable entry

193

(7.6

)

113 (4.45)

65 (2.56)Grounding

LIFTSTOPOFF

2 - Ø7 (0.27)

120

(4.7

2)B

INST

h

Power LPower N

COMCRT1CRT2

AC110/220V

6A/5A

Aluminum alloy casting

Iron casting

Ex. Proof D3aG5

T3875

Specifications

12

161718

Endress+Hauser 85

Proservo NMS510 Accessories

10.3 Ball valve NHV4A

NHV4A: Standard ball valve with ASME flanges NHV4J: Standard ball valve with JIS flangesThe following figure shows dimensions of NHV4J, 10K 150A RF, SUS304 version. For the other spec-ifications, contact Endress + Hauser representatives.

Figure 80: Ball Valve, Unit of Measurement: mm (in)

10.4 Reducing flange NHF4

Figure 81: Reducing flange, unit of measurement: mm (in)

Ball

Body cap

Body

340

(13.

39)

295 (11.61)

1000

(39.

37)

Low pressure (JPI example) High pressure (ASME example)

Stud bolt

Flange

Stud bolt

Flange

Ø90 Ø90

8-Ø23 (0.9)P.C.D = Ø241.3 (9.5)

4-UNC 5/8

9 (0

.35)

Ø317.5 (12.5)

38.2

(1.5

)

3/4 8-UNCP.C.D = 168.1 (6.62)

12-Ø22.4 (0.9)P.C.D =Ø269.7 (1062)

Ø279 (10.98)

86 Endress+Hauser

Proservo NMS5 11 Diagnosis and troubleshooting

11 Diagnosis and troubleshooting

NMS5 has a superb self-diagnosis function which monitors its operation. If an error is occurred, the corresponding message is displayed on the LCD. The selected matrix position and the error message are displayed every few seconds alternatively. Data can be accessed while the selected matrix position is displayed. The error messages are stored in the memory of NMS5. Matrix position GVH037 provides the diagnostic history.

11.1 Selection of diagnostic code and history

Item Procedure Remark


Figure 83: Touch control

1. On "MORE FUNCTION" , select item GVH036 "DIAGNOSTIC CO."

2. Previous static matrix records are sequentially displayed in Static Matrix screen GVH037, starting with the latest record. Up to 100 alarm records can be saved. If the number of records exceeds 100, it is sequentially over-written starting with the oldest record. For example, 973192238 2402 means that an error occurred at 22:38 on March 19, 1997, when the instrument temperature was 24 oC and this is the second error since NMS5 was installed. Display includes the year, month, day, hour, minute, instrument temperature, and an error sequential number, in this order.

• Item GVH037 only shows error message, calendar, and pointer, but no label on the LCD.

MOREFUNCTION

DIAGNOSTIC CO(Erroneous Message)0 3 6

0 37

Endress+Hauser 87

Proservo NMS511 Diagnosis and troubleshooting

11.2 Error and status messages

Message Cause Remedy Error Code

-49.5 ºC Indication of shorted element in NMT temperature sensor

Check GVH450 through GVH459 to see element.

358.0 ºC Element is not enabled, or not installed in NMT temperature sensor .

Check GVH482 Total number of elements

359.0 ºC Indication of open element in NMT temperature sensor

Check GVH450 through GVH459 to see element.

ADC/SENSOR ERROR The signal from the A/D converter is out of range.

Consult E+H Service.107

ADJ. XXXCOUNTER(X=A, I, Z or combination)

Error of level data check by A, I, and/or Z phase encoder.

If the message appears frequently, then consult E+H Service.

A PHASE NO INPUT The input of the A phase signal from the encoder is not available.

Replace the detector unit. Consult E+H Service. 122

BELOWBOT. POINT Indicates NMS displacer position is below lowest of NMT temperature sensor.

DEVICE ERROR: DEV 1 (or 2)

The HART device 1 (or 2) gives an error signal.

Check the HART device 1 (or 2) .130, 131

DEVICE ERROR: NMT NMT53x gives an error signal. Check the connection of NMT53x. Check the register of the temperature sensor at position GVH362 "CONNECTION NMT."

250

DEVICE ERROR: NMT NMT53x temperature sensor is not available.

Check NMT53x. Error messages are available in NMT53x manual. 233

DEVICE ERROR: NRF NRF560 gives an error signal. Check NRF560. Error messages are available in NRF560 manual.

240

DISPL CALIB ERROR The deviation of automatic weight calibration exceeds its set limit.

Check build-up or deposit on the displacer.120

ELEM 0 RANGE OVER Indicates the reference resistance element (ºC) on NMT electronics is out- of- tolerance.

IMPOSSIBILITY Operation is impossible because there is no weight table.

LOCAL ERROR: DEV1 (or 2)

NMS5 cannot access the local HART device 1 (or 2).

Check the connection of the HART device to NMS5. Check the registration of the device(s) in matrix group G5/6.

232

LOCAL ERROR: NMT The signal from NMT53x temperature sensor is not available.

Check the connection of NMT53x. Check the register of the temperature sensor at position GVH362 "CONNECTION NMT."

111

LOCAL ERROR: NRF NMS5 cannot access NRF 560. Check the connection of NRF560 and register of the tank side monitor at position GVH361 "CONNECTION NRF." 113

MINTENANCE GVH157 Service Mode = ON Set GVH157 = OFF 199

MEM. ERROR Defect in the memory that is specially used for custody transfer sealing.

Replace the CPU board. Consult E+H Service.201

MPU RESET Power to the CPU module fell below minimum value.

MPU: START ACT* Power to NMS5 was turned OFF/ON. If the message occurs frequently, then consult E+H Service.

OVERTENSION The tension on the measuring wire exceeds the upper limit set at position GVH162 "OVER TENS. SET."

Check if the displacer motion is blocked by clogging or sticking. To release overtensioning, access position GVH371 "RELE. OVER TENS."

101

POWER FAILURE The supply voltage falls below the allowed value.

Check the power source.124

88 Endress+Hauser


These error histories are available (Erroneous Message) at position GVH037.

RAM FAILURE CPU RAM failure

ROM ERROR EEPROM Consult E+H Service. 132

SIFA ERROR Error between communication board and CPU board for digital output.

Replace the CPU board. Consult E+H service. 114

TEMP BELOW RANGE Indicates the measured temperature data is below the fixed range of the NMT temperature sensor.

TEMP COM OPEN Indicates an open common line in the NMT temperature sensor

TEMP COM SHORT Indicates a shorted common line in the NMT temperature sensor

TEMP OVER RANGE Indicates the measured temperature data is higher than the fixed range of the NMT temperature sensor.

UNDERTENSION The tension on the measuring wire falls below the lower limit set at position GVH163 "UNDER TENS. SET."

Check if the measuring wire is cut or the displacer is lost. In this case, check the installation of the NMS5. 102

WIRE CALIB ERROR The deviation of automatic wire calibration exceeds its set limit.

Check wire and wire drum. 115

Z PHASE NO INPUT The input of the Z phase signal from the encoder is not available.

Replace the detector unit. Consult E+HService. 106, 112

MPU:XXXX* (XXXX=text)

CPU error The error might happen occasionally and might be registered in GVH037 (Erroneous Message). However, it is normally negligible. If it occurs frequently, then consult E+H Service.

OPE.CODE ERROR An illegal operation command is accessed.

If the message occurs frequently, then consult E+H Service.

LCD CHECK Error between LCD (touch control) unit and CPU board for digital output.

Replace the touch control.121

GAUGE TEMP. The temperature inside the gauge exceeds the limit.

Check if the ambient temperature stays within the limit. If the application is a high temperature tank, then take measures to avoid heat transfer from the tank to NMS5.

DRIVER ERROR A motor driver error has occurred Consult E+H Service

Message Cause Remedy Error Code

Endress+Hauser 89


11.3 Alarm history display

11.4 List of alarm messages


Figure 84: Device data

Figure 85: LCD (Display)

1. Bring up Static Matrix GVH034 (ALARM CONTACT)."


2. Previous static matrix records are sequentially displayed in Static Matrix screen GVH035, starting with the latest record.

• Up to 100 alarm records can be saved. If the number of records exceeds 100, it is sequentially overwritten starting with the oldest record.

• The display includes the year, month, day, hour, minute, instrument temperature, and an error sequential number, in this order. For example, 97 3192238 2402 means that an error occurred at 22:38 on March 19, 1997, when the instrument temperature was 24 oC and this is the second error since NMS5 was installed.

MOREFUNCTION

ALARM CONTACT0 3 4

MOREFUNCTION

Alarm Message0 3 5

Message Cause of alarm

UPPER LIMIT LEVEL The level has risen above the set alarm operation value.

LOWER LIMIT LEVEL The level has fallen below the set alarm operation value.

UPPER LIMIT TEMP. The temperature has risen above the set alarm operation value.

LOWER LIMIT TEMP. The temperature has fallen below the set alarm operation value.

90 Endress+Hauser


11.5 Flowcharts for diagnostics and troubleshooting

For up to 10 elements,check GVH450 to 459 to

find shorted element.For 10 or more elements,

select element at GVH470 and check

data at GVH473.

(Level display)-49.5 ºC

Display shows358.0ºC.

ADJ(A, I, Z) COUNTERYYMMDDhhmm TT ##

Meaning:Shorted element in NMTtemperature

Meaning:NMT can not measure liquid or gas averagetemperature for somereasons because allelements are in gas or liquid phase.

This shows special situation of application,

not an error code.

Diagnostic : -49.5ºC

Diagnostic : 358.0ºC

Diagnostic : 359.0ºC

Level display shows359.0ºC

Meaning:Open element in NMT

temperature sensor

Diagnostic : ADC SENSOR ERROR

ADC SENSOR ERRORYYMMDDhhmm TT ##

Meaning:The A/D signal output fromthe detector unit, or input toCPU, is abnormal.

Replace TCB or detectorunit.

Reconnect CN5 and CN7.TCB CN5, CN7 loose?

Diagnostic : ADJ A, I or Z COUNTER

Abnormal condition infiled application due to turbulence of gage heador extreme changes oflevel. Contact Endress+Hauser representatives.

Diagnostic : A PHASE NO INPUT

A PHASE NO INPUTYYMMDDhhmm TT ##

Meaning:Despite the motor (liquid level)moving 15 mm (0.59 in) ormore, A phas e input signalwas not inputted from rotary encoder.

TCB CN5, CN7 loose?

Meaning:Level adjustment is requiredat calender time by automaticconfiguration unit.

Yes

No

Yes

No

Yes

No

For up to 10 elements,check GVH450 to H9 to

find open element.For 10 or more elements,

select element at GVH470,view

temperature at GVH473.

Check connectors ofNMT. Recover the wiring

if necessary. Checkelement resistance.When connector is

broken, record the data ofthe malfunction at G4matrix,and return the

device to Endress+ Hauser.

Observed for a while

Frequent ?

Replace detector unit.

Frequent ?

Yes

No Observed for a while

Replace TCB or detectorunit.

Reconnect CN5 and CN7.

Check internal wiringconnectors of NMT.

Correct any abnormality.Check element resistance.

If the element is short-circuited, record all the

data of the malfunction atG4 matrix, and return the

device to Endress+ Hauser.

Endress+Hauser 91


Adjust position data of thelowest element at GVH486

in the range of 0 to500 mm (19.69 in).This prevents error

occurrence when the levelis low; however, it might

cause detection of gastemperature so that liquid

temperature may notalways be correctly measured.

Meaning:Liquid level is positioned atthe lowest point. Due to belowthe element, temperature can not be measured.

Measuring:An error arose in HART deviceand HART fails to function.

Refer to operating manualof HART device.

Diagnostic : BELOW BOT. POINT

Diagnostic : DEVICE ERROR: DEV1 (2)

Diagnostic : DEVICE ERROR : NRF

Diagnostic : ELEM 0 RANGE OVER

Record temperature datamatrix and replace

module.

NMT module connectorOK?

SW v 4.20 or Later ?Set GVH498 = ONError is reset and

temperature shows3580ºC.

If displacer position goeslower than (Elem 0 position+ GVH486), BELOW BOT.POINT will display.

Device error: DEV1 or 2

Meaning:An error arose in NMT temperature sensor.

Check current error code atGVH480. Check previouserror. Refer to operating

manual of NMT for detailsof error.

Diagnostic : DEVICE ERROR: NMT

Device Error: NMT

Diagnostic : IMPOSSIBILITY

Meaning:Operation is impossibledue to invalid weight table.

Adjust hall sensors.Perform weight calibration.

Impossible Operation

Yes

No

No

Yes

Display shows358.0ºC.

CAUTION

Device Error: NRF

Refer to operating manualof HART device.

Meaning:An error arose in NRF tankside monitor.

Diagnostic : DISPL CALIB ERROR

Increase setting value atGVH185, calibrate hall

sensor, or perform weightcalibration.

Meaning:Displacer weight exceedsallowable range, which disablemeasuring temperature.

Foreign matter atdisplacer ?

Clean displacer, wire, wire,and drum.

Adjust hall sensor.Perform weight calibration.

Yes

No

Data is flashing

Element 0 Range Over

Reconnect NMT module.

92 Endress+Hauser


HART sensor breakage orHART circuit or power

malfunctionRepair is required.

Local Error Device 1 or 2Meaning:HART communication errorarose in HART sensor 1 or 2.

Diagnostic : LOCAL ERROR DEV1(2) Diagnostic : LOCAL ERROR NRF

Check HART bus wiring,NMS HART module, TCBNRF HART module, and

FCB

Meaning:An error arose in NRF tankside monitor.

HART connection OK?

Sensor is disconnectedwhen GVH549 and 649

= ON.Perform GVH549 and 649

= 0.

Meaning:An error has occurred at theNMT temperature sensor.

Check NMT error.Refer to NMT operation

manual.

Diagnostic : LOCAL Error NMT

Local Error: NMT

Local Error: NRF

G3V6H1 correct ? Correct the data ofGVH361.

Yes

No

Yes

No

HART terminal voltageis 16V or less?

Check G3V6H1:NRF > = v 1.82, CONTACT2NRF < v 1.82, CONTACT1

HART is withinDC16.5 to 25.5V?

No

Yes

No

Meaning:CPU went out of control byexternal noise and watchdog functioned to restartthe program.

Diagnostic : MPU : RESET

CPU might be influencedby noise.

Check how it functions.

MEM. ERRORYYMMDDhhmm TT ##

Frequent ?

Check that the gauge hasbeen correctly grounded.

Check the cause of externalnoise and take

countermeasures.Replace CPU TCB and check

how it functions.No

Yes

Set the communicationaddress as follows.

GVH591 = 4GVH691 = 5

No

HART terminal voltageis 16V or less?

HART sensor breakage orHART circuit or power

malfunctionRepair is required.

When sensor isdisconnected GVH362

status is not OFF.

Diagnostic : LOCAL Error NMT

MaintenanceYYMMDDhhmm TT ##

This shows NMS statusis on maintenance

at GVH157.

Check NMS HART module,TCB, NRF HART module,

and FCB.

Yes

Endress+Hauser 93


Check the NMS localpower supply if frequent.

MPU: START ACTYYMMDDhhmm TT ##

Meaning:Power supply is turned offand on at the recordedcalender time.

Diagnostic : MPU: START ACT

Meaning:Tension of measuring wireis exceeding setting value atGVH162.

Set Operation = STOPSet G3V7H1 = ON

Diagnostic : OVERTENSION

Overtension

Diagnostic : TEMP. BELOW RAMGE

Check NMT specification.Check temperature of

each point at GVH450 to459, and check the

temperature inside thetank at the same time.

Overtension arose.Check how it works.

No

Meaning:Malfunction of NMTtemperature elementcommon wiring

Diagnostic : TEMP. COM. OPEN

Common wiring is free of damage?

No

Overtensionoccurs when hoisting

the wire?

Check the cause of overtension and recover it.

Yes

Diagnostic : POWER FAILURE

POWER FAILUREYYMMDDhhmm TT ##

Check local power supply.

Meaning:Power voltage is not withinthe standard value at therecorded calender time.

Diagnostic : RAM FAILURE

Replace CPU module TCB

RAM FAILUREYYMMDDhhmm TT ##

Meaning: CPU RAM failure

Data below range ?

Record temperaturematrix data and replace

temperature module.

This is normal operation. When the temperaturereturns to the specified

range, the error goes away.

Meaning:Measured temperaturevalue is exceeding allowablerange.

Display is flashing.

Yes

No

Yes

Diagnostic : ROM ERROR

Replace CPU module TCB

ROM ErrorYYMMDDhhmm TT ##

Meaning: CPU ROM fetch error

Display is flashing.


temperature module.

Repair the damagedwiring.

94 Endress+Hauser


Diagnostic : TEMP. COM. SHORT Diagnostic : UNDERTENTION

Stop the gauge operation.

Measuring wire cut ?

Check the weight measuringfunction. If an error occurs,

replace CPU TCB and detector unit TCC-3.

Check cause of cut andreplace wire, and adjusthall sensor and perform

calibration.

Meaning:Measured weight is smallerthan the setting at GVH163

Undertention

Yes

No

Common wiring is free of short?

NoRecord temperature

matrix data and replacetemperature module.

Meaning:Malfunction of NMTtemperature elementcommon wiring

Yes Repair the shortedwiring.

Diagnostic : TEMP. OVER RANGE

Data over range ?Yes

Data is flashing.

Check NMT specification.Check temperature of

each point at GVH450 to459, and check the

temperature inside thetank at the same time.


temperature module.

NMT operates correctly.When temperature returns to allowable range, error

goes away.

Meaning:Measured temperaturevalue is exceeding allowablerange.

No

Data is flashing.

Diagnostic : WIRE CALIB ERROR

NoIncrease setting value atGVH185, calibrate hall

sensor, or perform weightcalibration.

Meaning:Level position is below thelowest point, which disablemeasuring temperature.

Foreign matter atdisplacer ?

Clean displacer, wire,and wire drum. Adjust

hall sensor and performweight calibration.

Yes

Data is flashing.

Meaning:Abnormal Z-phase signaloutput from the encoder, or input to CPU.

Diagnostic : Z PHASE NO INPUT

TCB CN5, CN7 areloose?

Replace detector unit.

No

Z PHASE NO INPUTYYMMDDhhmm TT ##

Yes Check connectors.

Endress+Hauser 95


Diagnostic : Calibration unsuccessfulAfter calibration, measured value shows 0.0g at GVH370.

Diagnostic : No response to OPERATIONGVH020 = LEVEL, GVH021 LEVEL

0.0gMeasured Weight

G3V4H0, H1, H2correct?

Input correct values forcircumference, wire, and

displacer weight.Adjust hall sensors.

Perform weight calibration.

Adjust Hall sensors(refer to 12.1 Sensor

Adjustment).If the specified value can

not be obtained, replace thedetector unit.

No

No

Yes

Replace detector unit.Adjust hall sensor.


Yes

Hall sensoradjustment OK?

Level Operation

Yes

Replace CPU module TCB.Adjust hall sensor.


Yes

GVH020 GVH021

Not Level Operation

Perform level operationat tank side monitor

NRF560.

Set OPERATION = LEVEL byusing tank gauge system

or host CPU.

GVH024 = LEVEL ? No

NoGVH025 = LEVEL ?

96 Endress+Hauser


11.6 Setting after parts replacement

After any part of NMS5 is replaced, and before starting NMS5 calibration, specify the data on the fol-lowing equipment.

• Circumferential length of wire drum (indicated on face of wire drum)

• Weight of displacer (indicated on the body of the displacer)

• Volume of displacer (indicated on the body of the displacer)

• Balance volume (indicated on the body of the displacer or 50% of volume)

• Density of measured liquid (up to three phases)

• Height of tank with NMS5 mounted on it (refer to Section "8 Commissioning").


Matrix group: SERVICE 1. In Static Matrix "MORE FUNCTION" bring up GVH030 "MATRIX OF" and select "SERVICE.

2. Select Dynamic Matrix GVH340 "WIRE DRUM CIRC." Check whether the displayed value is equal to the value marked on the wire drum.

• If not, adjust the displayed value.

• Set the access code at 51.

Figure 87: Dynamic matrix.

Figure 88: Displacer

3. Select the Dynamic Matrix screen GVH341.

4. Set Dynamic Matrix GVH342 "DISPLACER WEIGHT" at the value marked on the dis-placer.

5. Set Dynamic Matrix GVH343 "DISPLACER VOLUME" to the value marked on the dis-placer.

6. Set Dynamic Matrix GVH344 "BALANCE VOLUME" at half the value set in "DIS-PLACER VALUME." "This setting is provided to the approximate position of the displacer when it becomes

7. stationary in the liquid.

• The weight and volume of the displacer are marked on its bottom

• The balance volume is the volume of that part of the displacer that is immersed in the liquid when the displacer is balanced in the liquid.

• For calculation methods of the draft position.

MOREFUNCTION

DISPLACER WEIGHT

MATRIX OF

DISPLACER VOLUME

BALANCE VOLUME

MEAS. WIRE& DRUM

030

344

343

342

Endress+Hauser 97


11.7 Intelligent function

11.7.1 Maintenance prediction functionThe history of maintenance is displayed at matrix screen GVH265 (Parts Overused Date) LCD screen displays the following contents.

• Total operation time for parts managed according to this value

• Total number of rotations of the wire drum for parts managed according to this value

11.8 Return

The measuring device must be returned if repairs or a factory calibration are required, or if the wrong measuring device has been ordered or delivered. According to legal regulations, Endress+Hauser, as an ISO-certified company, is required to follow certain procedures when handling returned products that are in contact with medium. To ensure swift, safe and professional device returns, please read the return procedures and conditions on the Endress+Hauser website at www.services.endress.com/return-material

11.9 Disposal

Observe the following notes during disposal:

• Observe valid federal/national regulations.

• Ensure proper separation and reuse of the device components.

Reference partmanagement value

Display Part Reference(conducting time/number of rotations)

1) POWER UNIT

2) DISPLAY UNIT

3) MOTOR UNIT

4) WIRE UNIT

5) BEARINGS UNIT

6) SHAFT UNIT

Power supply unit

LCD indicator

Motor/driver unit

Measuring wire

Drum bearing metal

Drum shaft

43,800 hours (about 5 years)



240,000 rotations

145,000 rotations

240,000 rotations

98 Endress+Hauser


11.10 Software History

Software Version / Date Software Changes Documentation Changes

V2.13, from 9.96 Original Release BA001N/08/en/09.98

V2.20, from 10.97 T2:TCB-2, Modified V1: R&S command BA001N/08/en/11.97

V4.06, from 04.98 HART master, T4:TCB-4

V4.06, from 04.98 HART master T&W, T4:TCB-4

V4.08X, from 08.98 upper stop speed reduction 3-step

V4.20, from 08.98 WM550, Commuwin II display, elem. Error fix BA001N/08/en/12.99

V4.20, from 09.98 T&W BA001N/08/en/12.99

V4.22, from 05.00 HART line selection add to static matrix: gas temp.minus data remote communication level 6 digit data processing memory clear volume calculation matrix deleted

V4.23B, from 09.00 standard release, alarm output modify, NMT level selection

V4.24, from 04.01 standard release BA001N/08/en/03.01

V4.24 OSP, from 06.01 Over Spill protection

V4.24T&W, from 07.01 T&W spec.

V4.24 T2, from 02.02 TCB-2 CPU, NMT, V1 level measurement

V4.25, from 09.02 Density profile function BA001N/08/en/02.02

V4.27, from 09.04 Level hold matrix, Error display on Home screen only BA001N/08/en/11.04

V4.27 T6/T&O, from11.05 W&M and Overspill prevention BA001N/08/en/03.06

V4.27 A, from 05.07 standard release

V4.27 B, from 09.08 standard release BA1001N/08/en/12.08

V4.27 C, from 04.09 Proactive Safety function BA1001N/08/en/04.09

V4.27 E, from 03.10 DTM support BA00401G/08/en/01.11

V4.27 F, from 05.11 SIL BA00401G/08/en/02.11

V4.27 G, from 05.12 4-20mA long range support BA00401G/08/en/03.13

V4.27G1, from 04.15 Extend density measurement range. Enable 4-20 mA output assignment on upper I/F measurement. Send the gauge status code "1: Reference" on Modbus protocol.

BA00401G/08/en/07.15

V4.27G2, from 03.16 NMT HART retry number setting function BA00401G/08/en/08.16

Endress+Hauser 99

Proservo NMS512 Adjustment

12 Adjustment

12.1 Sensor calibration

After exchanging CPU module, detector unit, wire drum, measuring wire (all or part), it is necessary to adjust the hall sensors and make new weight table calibration.

1. Move the displacer to the side of calibration window or the maintenance chamber window (top of the tank) or put the displacer on a work bench so that the displacer can be touched.

Figure 89: Sensor calibration 1

2. Confirm that NMS5 is level and no vibration or other disturbance occurred.

3. Set access code to 530 at GVH039.

4. Set operation command to STOP at GVH020.

5. Select ADJ.SENSOR at GVH030.

6. Record sensor count (Wa2) at GVH741.


Do not let wire fall off the wire drum.

7. Lift the displacer so that the weight of the measuring wire shows 0 until the sensor count is stable and record the value of sensor count (Wa1). Use the following formula to get the difference between Wa2 and Wa1.

• |Wa2 - Wa1 | = 10000 (+/-100)?

8. If Yes, go to step 7 "GVH740 A Zero".

530ACCESS CODEGVH039

STOPOPERATIONADJ. SENSORMATRIX OF

GVH020

GVH030

29XX 25000ADJ. A SPAN

Index count

Sensor count

(Ex. Wa2= 25000)

29XX 15000ADJ. A SPAN

(Ex. Wa1= 15000)

WARNING

100 Endress+Hauser

Proservo NMS5 12 Adjustment

9. If No, return the displacer to the original position at GVH741

• If |Wa2 - Wa1 |<9900, increase Index Count.

• If |Wa2 - Wa1 |>11000, decrease Index Count.

• Repeat the procedure above until |Wa2 - Wa1 | = 10000 (+/-100).

10. Adjust A Zero Sensor Count = 21000 (+/-100) at GVH740.


11. Record the value of sensor counter (Wa2)

12. Lift the displacer until the sensor count is stable and record the value of sensor count (Wa2) as in Step 7.

• |Wa1 - Wa2 | = 10000 (+/-100)?

13. If yes, go to step 12. "GVH743 B Span".

14. If not, repeat steps 6 to 12.

15. Set B Span to |Wa2 - Wa1|=10000 (+/-100) at GVH743 with Steps 6 to 9.


29XX 21000ADJ. A ZERO

(Ex Wa2=21000)

(Ex Wa1=11000)

29XX 11000ADJ. A ZERO

31XX 11000ADJ. B SPAN

(Ex Wa1=11000)

31XX 21000ADJ. B SPAN

(Ex Wa2=21000)

Endress+Hauser 101


16. Adjust B Zero Sensor Count = 11000 (+/- 100) at GVH742.

17. Adjust to |Wa2 - Wa1| = 10000 (+/-100) at GVH42.


This completes the hall sensor adjustment.

31XX 11000ADJ. B ZERO

(Ex Wa1=11000)

31XX 21000ADJ. B ZERO

(Ex Wa2=21000)

102 Endress+Hauser


12.2 Weight calibration

Weight table calibration must be done after completing hall sensor adjustment. The calibration proce-dures will vary depending on the measurement specifications. When NMS5 is only for level measure-ment, use 12.2.1 Weight Calibration (Standard) procedure. When NMS5 is for level, density, and inter-face measurement, use 12.2.2 Weight Calibration (Density) procedure.

12.2.1 Weight calibration (Standard)

Make sure that wind and vibration may affect weight table calibration.It is not necessary to perform weight calibration for Startup "All-in-one" (displacer attached) shipments.

CAUTION


Figure 94: Calibration 1-A

1. Enter Access Code 51 at GVH039.

2. Confirm the following status. GVH340 wire drum circumferential (engraved on wire drum), GVH341 wire weight standard SUS = 2.50 PFA=4.55, and GVH342 displacer weight (engraved on displacer)

3. Confirm each engraved data in the wire drum and the displacer and values in Matrix are the same.

4. If the matrix data is different from the engraved data, input the engraved value at Matrix.


5. Select STOP at GVH020.

6. Set the value of 0.0 at GVH379.

7. Select ON at GVH373.• NMS5 automatically move the displacer up and

down and perform the calibration, and stops.

8. Enter No "-" at "Displacer Down? +/-" for calibra-tion window.

• When inputing "-" displacer stop current position. When inputting "+", displacer moves down to 300mm and stops.

• Displacer moves at calibration win-dow or maintenance chamber posi-tion.


9. Lift the displacer until Sa and Sb are stable. Press "E" and "-" keys at the same time.

10. Return the displacer to the original position.


11. Press "E" at "Displacer set ok?".

12. Press "E" and "+" keys together at "Displacer on: E & +".

• Calibration automatically starts, which takes approximately 10 minutes.

300.110

HV 0 1 2

4 xxx.xxx x.xx xxx.x

ServiceMatrix: G3

Wire Drum Displacer

51ACCESS CODE

250.2g

+

-

ONWEIGHT CALIB.

STOPOPERATION

Displacer down?

2xxxx 1xxxx0.0 Low on: E & -

1xxxx 2xxxx0.0 Low on: E & - E -

Displacer set: ok?

Displacer on? E & +

E

E -

Endress+Hauser 103


12.2.2 Weight calibration (Density)


13. GVH373 "Weight Calibration" shows OFF

14. Check the weight calibration at GVH370=GVH342 +/- 2.0 grams?

15. If not, adjust sensor or calibrate the weight again.

• Always enter N = -.


OFFWEIGHT CALIB. E


Figure 99: Calibration 1-B

1. Set Access Code to51 at GVH039.

2. Confirm the following status. GVH340 wire drum circumferential (engraved on wire drum), GVH341 wire weight standard SUS = 2.50 PFA=4.55, and GVH342 displacer weight (engraved on displacer)

3. Confirm each engraved data in the wire drum and the displacer and values in Matrix are the same.

4. If the matrix data is different from the engraved data, input the engraved value at Matrix.


5. Select STOP at GVH020.

6. Set the value of 50.2g (test weight) at GVH379.

7. Select ON at GVH373.• NMS5 automatically move the displacer up and down

and perform the calibration, and stops.

8. Enter No "-" at "Displacer Down? +/-" for calibration window.

9. When inputing "-" displacer stop current position. When inputting "+", displacer moves down to 300mm and stops.

• Displacer moves at calibration window or maintenance chamber position.


10. Replace the displacer with 50.2g weight and wait until Sa and Sb are stable.

11. Press "E" and (-) key together.

HV 0 1 2

4 xxx.xxx x.xx xxx.x

ServiceMatrix: G3

Wire Drum Displacer

HV7

950.2

50.x gWeigh

51ACCESS CODE

300.110250.2g

STOPOPERATIONONWEIGHT CALIB

Displacer down?

2xxxx 1xxxx50. x Low on: E & -

104 Endress+Hauser



12. Remove the 50xg wight from the displace and mount the displacer on the wire.

13. Press "E" at Displacer set: ok?.

14. Press "E" and "+" keys together at "Displacer on: E & "+".

• Calibration starts automatically, which takes approximately 10 minutes.


15. OFF is displayed at WEIGHT CALIB. of GVH373.

16. Check GVH370 = GVH342 +/- 2.0 grams.

17. If not, adjust sensor or calibrate the weight again.

• Always enter N = -.


Displacer set: ok?

Displacer on: E & + -E

E

OFFWEIGHT CALIB. E

Endress+Hauser 105

Proservo NMS513 Technical data

13 Technical data

Items Descriptions

Measuring Range 0 to 16, 22, 26, 36, or 47m depending on material specification(47m or more can be ordered depending on conditions.)

Density Limits 0.430 to 2.000 g/cm3 (g/ml) (430 to 2000 kg/m3)

Accuracy Level: +/- 0.7mm (0.027 inch)*1

Interface: +/- 2.7mm (0.106 inch)*2

Density: +/- 0.005 g/cm3 *3

Sensitivity +/- 0.1mm (0.004 inch)

Resolution +/- 0.1 mm (0.004 inch)

Self-diagnostic Function CPU system health, measuring wire tension, communication, gauge status, level data input, etc

Input/Output Refer to "2.2 Ordering Information" .

Motion Delay 0 to 9.9 seconds (configurable in 100 milliseconds steps)

Power 85 to 264 VAC, 50/60 Hz20 to 62 VDC, or 20 to 55 VAC, 50/60Hz

Power Consumption Maximum 50 VA / 50 W

Surge Protection Standard supply

Ambient Temperature -20 to 60 ºC (-4 to 140ºF)-40 to 60 ºC (-40 to 140ºF) ATEX approval cold temperature version

Liquid Temperature -200 to +200ºC (-328 to +392ºF)

Displacer Speed Max. 2500mm/min

Display Backlight LCD, level, temperature, status, diagnostics, menu-navigation, in English, Japanese and Chinese

Operation Local operation by optical display keypad, external contact

Calibration Optical display keypad for tank level and sensor adjustment by automated software routine

Weight 12kg (Aluminum drum housing NMS5-1, 5-4)27kg (Stainless steel drum housing NMS5-2, 5-5, 5-6)

Degree of Protection IP67 / NEMA4X

Ex Approval Waterproof and Dustproof , IP67 NEMA 4XTIIS Ex d IIB T4FM XP Cl. I Div. 1 Gr. C-DFM XP-AIS Cl. I Div.1 Gr. C-DCSA Cl. I Div. 1 Gr. C-DCSA Ex d[ia] Cl. I Div. 1 Gr. C-DATEX II 1/2G Ex d IIB T6-T3ATEX II 1/2G Ex d IIC T6-T3ATEX II 1/2G Ex d IIB T6-T3, -40°CATEX II 1/2G Ex d (ia) IIB T6-T3ATEX II 1/2G Ex d (ia) IIB T6-T3, -40°CIEC Ex d ia IIB T6-T3 Ga/GbIEC Ex d IIB T6-T3 Ga/GbIEC Ex d IIC T6-T3 Ga/GbIEC Ex d ia IIB T6-T3 Ga/Gb, -40°CIEC Ex d IIB T6-T3 Ga/Gb, -40°CNEPSI Ex d ia IIB T6-T3NEPSI Ex d IIB T6-T3NEPSI Ex d IIC T6-T3NEPSI Ex d ia IIB T6-T3, -40°CNEPSI Ex d IIB T6-T3, -40°C

Additional Certificates Weights and Measures for custody transfer : NMi, PTBOverspill prevention : TÜV NordSIL (Functional Safety Manual): TÜV Nord

106 Endress+Hauser

Proservo NMS5 13 Technical data

*1 Under reference condition*2 Difference of product densities at least 0.100 g/cm3(g/ml)*3 Optional when calibrated for density measurement

Color Body: blue (RAL5012); Covers: white (RAL7035)

Supplementary Documentation Technical Information (TI00452G)Installation Instruction (BA00401G)Safety Instruction (XA00578G: ATEX, XA00582G: IECEx EX421-439: FM, EX540-742: CSA, XA10257G: NEPSI)Functional Safety Manual (SD00337G)

Items Descriptions

Endress+Hauser 107

Proservo NMS514 Matrix

14 Matrix

14.1 Programming Matrix

Defa

ult

Data

Disp

lay

Tex

tCh

ange

able

para

met

ers,

unit

s, et

c.M

ode

(Cod

e)

NM

S53x

Pro

gram

min

g M

atri

x (S

tati

c M

atri

x)

GROU

P M

ESSA

GE0

12

34

56

78

9

1600

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

1.00

0 g/

ml

1.00

0 g/

ml

1.00

0 g/

ml

0.0

mm

MEA

SURE

D LE

VEL

ULLA

GE L

EVEL

UPPE

R IN

TERF

. LEV

MID

D. IN

TERF

. LEV

BOTT

OM L

EVEL

UPPE

R DE

NSI

TYM

IDDL

E D

ENSI

TYDE

NSI

TY B

OTTO

MLE

VEL

DATA

0.0

- 999

99.9

mm

0.0

- 999

99.9

mm

0.0

- 999

99.9

mm

0.0

- 999

99.9

mm

0.0

- 999

99.9

mm

0.00

0 - 3

.000

g/m

l0.

000

- 3.0

00 g

/ml

0.00

0 - 3

.000

g/m

l0.

0 - 9

9999

.9 m

m

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay/

Set (

50)

Disp

lay/

Set (

50)

Disp

lay/

Set (

50)

Disp

lay

0.0

°C0.

0 °C

0.0

mm

0.0

mm

1600

0.0

mm

mm

LIQU

ID T

EMP.

HA

RT D

EVIC

E(1)

HA

RT D

EVIC

E(2)

GAS

TEM

PERA

TURE

WA

TER

BOTT

OMZE

RO P

OIN

TSP

AN

LEN

GTH

UN

IT

-49.

9 - 2

49.9

°C-4

9.9

- 249

.9 °C

0.0

- 999

99.9

mm

0.0

- 999

99.9

mm

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

STOP

STOP

UNBA

LAN

CED

LEVE

LLE

VEL

0x.

xx

OPER

ATI

ON

1600

0OP

ERA

TIN

G ST

ATU

SBA

LAN

CIN

G ST

ATU

SOP

ERA

T.BY

NRF

OPER

AT.

BY H

OST

DEVI

CE ID

SOFT

WA

RE V

ERSI

ON

See

oper

atio

nco

mm

ands

bel

owSe

e st

atus

tabl

e be

low

BALA

NCE

D /

UNBA

LAN

CED

Sele

ct (5

0)Di

spla

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spla

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spla

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spla

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spla

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spla

y

CALI

BRA

TION

xx x

xx x

:xx:

xxN

O A

LARM

NO

ALA

RMN

O ER

ROR

OFF

0

MA

TRIX

OF

CALE

NDE

RA

LARM

CON

TACT

LA 0

0

0

0

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CODE

xx x

xx x

xx x

xRE

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. DIA

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ACC

ESS

CODE

Curr

ent D

ata

Curr

ent D

ata

Curr

ent D

ata

Curr

ent D

ata

Curr

ent D

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0, 5

0, 5

1, 5

30

Sele

ctDi

spla

yDi

spla

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spla

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t

Whe

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=272

, new

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own

to m

atrix

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=021

as

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ngN

MS

Disp

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Seek

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ance

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ek U

pper

I/F

leve

lUP

P.IN

T.SE

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Foll

ow w

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R FO

LLOW

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8DE

NSI

TY B

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9Up

per

Dens

, fin

ishe

dUP

PER

DEN

SITY

20Fo

llow

up.

I/F

leve

lUP

P.IN

T.FO

LLOW

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Over

-/Un

der

tens

ion,

9RE

PEA

TABI

LITY

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iddl

e De

ns, f

inis

hed

MID

DLE

DEN

SITY

21Se

ek M

id. I

/F le

vel

MID

.IN

T.SE

EKIN

GZ-

Phas

e, A

DC e

rror

10W

ATE

R DI

P

32M

aint

enan

ceM

ode

(GVH

157)

= O

N"M

AN

T""M

AIN

TEN

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CE"

3

Mea

ning

EMA

RGEN

CY E

RROR

31

MEA

SURE

D VA

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D VA

LUE

2

OPER

ATI

ON

MOR

E FU

NCT

ION

0 1 2

+ Ke

y

VH

108 Endress+Hauser

Proservo NMS5 14 Matrix

NM

S53x

Pro

gram

min

g M

atri

x (D

ynam

ic M

atri

x, C

alib

rati

on: G

1)

GRO

UP

MES

SAG

E0

12

34

56

78

9

1600

0.0

mm

0.0

mm

10.0

mm

150

mm

150

mm

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

5 CU

T DO

WN

9999

9 m

m

TAN

K H

EIGH

TDI

P PO

INT

OFFS

ETDI

SPLA

C.DR

AFT

DISP

L. R

AIS

EDE

NS

DISP

L.SU

BMDE

NS.

OFFS

ET U

PDE

NS.

OFFS

ETM

ID.D

ENS.

OFFS

ETBO

T.DE

NS.

DIG.

NU

M. F

ORV1

LEVE

L BE

LOW

00.

0 - 9

9999

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m-9

9999

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9999

9.9

mm

0.0

- 999

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m0

- 300

mm

0 - 1

500

mm

MA

X.. 0

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g/m

lM

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0.20

0g/

ml

MA

X. 0

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g/m

l5

ROU

ND

UP

5 RO

UN

D OF

F0.

0 - 9

9999

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m

Set (

50)

Set (

50)

Set (

50)

Set (

51)

Set (

51)

Set (

50)

Set (

50)

Set (

50)

Set (

50)

Set (

51)

1600

0.0

mm

0.0

mm

0.00

0 m

m/m

OFF

300.

0 m

mOF

FON

9999

9.0

mm

SET

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9.99

9m

m/m

ON IGN

OR0.

0 - 9

9999

.9m

mON OF

FON OF

F0.

0 - 9

9999

.0m

m

Set (

50)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

530)

Set (

530)

Set (

530)

1600

0 m

m0

mm

350

g50

g60

mm

10 m

m10

s10

s

UPP

ER S

TOP

LOW

ER S

TOP

OVER

TEN

S.SE

TU

NDE

RTE

NS.

SET

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STDI

SPL.

RAIS

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.DI

SPL.

WA

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P.DI

SPL.

WA

ITDI

P0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0

- 999

g0

- 999

g60

- 18

00 m

m10

-99

mm

10-9

99 s

10-9

99 s

Set (

50)

Set (

50)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

MEA

SURE

DLE

VEL

ENGL

ISH

1

215

1359

[.]

OFF

SELE

CTDI

SP.M

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LAN

GUA

GELC

DCO

NTR

AST

YEA

R SE

TTIN

GM

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SETT

ING

DAY

SETT

ING

HOU

R SE

TTIN

GM

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GSE

LECT

DECI

MA

LLC

D CH

ECK

ULL

AGE

LEV

ELM

EASU

RED

JAPA

NES

ECH

INES

E0

- 15

00 -

990

- 12

0 - 3

10

- 23

0 - 5

9,

ON

Sele

ct (5

1)Se

lect

(51)

Set (

51)

Curr

ent y

ear S

et(5

1)Cu

rren

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t (51

)Cu

rren

t day

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(51)

Curr

ent h

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Set (

51)

Curr

ent m

inut

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lect

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1)

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VH

Endress+Hauser 109

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rix

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amic

Mat

rix,

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ice

Data

: G2)

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UP

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34

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78

9

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/ 0

°C0

mm

/ 0

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Set (

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Set (

50)

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0 m

m /

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Set (

50)

Set (

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Set (

51)

Sele

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1)Se

lect

(51)

Set (

51)

Set (

51)

Disp

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51)

Sele

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Disp

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51)

Disp

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51)

Set (

51)

Disp

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51)

HIGH

0.0

mm

HIGH

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Set (

51)

Set (

51)

Set (

51)

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Set (

51)

Sele

ct (5

1)Se

lect

(51)

Sele

ct (5

1)Se

lect

(51)

Set (

51)

Set (

51)

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110 Endress+Hauser


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Pro

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Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

Set (

51)

0.0

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and

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and

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and

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Disp

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(51)

Disp

lay

(51)

Disp

lay

(51)

Disp

lay

(51)

Disp

lay

(51)

Disp

lay

(51)

Disp

lay

(51)

Disp

lay

(51)

Disp

lay

(51)

xxx.

x m

mxx

x.x

mm

xxx.

x m

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x.x

mm

xxx.

x m

mxx

x.x

mm

xxx.

x m

mxx

x.x

mm

xxx.

x m

mxx

x.x

mm

ELEM

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ONEL

EM.2

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ELEM

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Set (

51)

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Sele

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Set (

51)

Disp

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(51)

Disp

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(51)

Disp

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(51)

Sele

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30)

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NM

T A

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98765

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112 Endress+Hauser


NM

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x, H

ART

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(1):

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Set (

51)

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Set (

51)

Set (

51)

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S53x

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E (2

)

ON GAS

TEM

PERA

TURE

Disp

lay

Disp

lay

Sele

ct (5

1)

P.V.

RAN

GEU

NIT

P.V.

UPP

ERRA

NGE

P.V.

LOW

ERRA

NGE

DAM

P VA

LUE

Set (

51)

Set (

51)

Set (

51)

Set (

51)

SEN

SOR

SERI

AL

NO

UPP

ER S

ENSO

RLM

TLO

WER

SEN

SOR

LMT

Disp

lay

Disp

lay

Disp

lay

ERRO

R CO

DE(1

)ER

ROR

CODE

(2)

ERRO

R CO

DE(3

)ER

ROR

CODE

(4)

ERRO

R CO

DE(5

)

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

5 POLL

ING

ADD

RESS

MA

NU

FACT

UR

E ID

DEVI

CE T

YPE

CODE

PREA

MBL

ESSW

VER

SION

HW

VER

SIIO

NDE

VICE

ID

FIXE

DA

DDRE

SSDi

spla

yDi

spla

yDi

spla

ySe

tDi

spla

yDi

spla

yDi

spla

y

MEA

SURE

D VA

LUE

4 5 6 7

SEN

SOR

SPEC

IFIC

P.V.

SETT

ING

8

DEVI

CE D

ATA

9

SELF

DIA

GNIS

TIC

ALA

RM

VH

114 Endress+Hauser


NM

S53x

Pro

gram

min

g M

atri

x (D

ynam

ic M

atri

x, A

DJ. S

ENSO

R: G

7)

GRO

UP

MES

SAG

E0

12

34

56

78

9

XXXX

YYYY

YXX

XXYY

YYY

XXXX

YYYY

YXX

XXYY

YYY

ADJ

. A Z

ERO

ADJ

. A S

PAN

ADJ

. B Z

ERO

ADJ

. B S

PAN

Set (

530)

Set (

530)

Set (

530)

Set (

530)

0.00

%0.

00%

0.00

%0.

00%

ERR.

RATE

NRF

ERR.

RATE

NM

TER

R.RA

TEDE

V(1)

ERR.

RATE

DEV(

2)

Disp

lay

(530

)Di

spla

y (5

30)

Disp

lay

(530

)Di

spla

y (5

30)

mm

o Cg/

ml

50m

mo C

g/m

lLE

V. U

NIT

(HOS

T)TE

MP.

UN

IT(H

OST)

DEN

. UN

IT(H

OST)

NM

T H

ART

Retr

yLE

V. U

NIT

TEM

P. U

NIT

DEN

. UN

IT

m inch

cm ft

o F o R o K

kg/m

3, lb

/gl,

SGU

, kg/

lg/

l, lb

/in,

st/

y30-

99

m inch

cm ft

o F o R o K

kg/m

3, lb

/gl,

SGU

, kg/

lg/

l, lb

/in,

st/

y3

Sele

ct (5

1)Se

lect

(51)

Sele

ct (5

1)Se

lect

(530

)Se

lect

(51)

Sele

ct (5

1)Se

lect

(51)

Term

inal

Por

t ATe

rmin

al P

ort B

Term

inal

Por

t B

NM

THA

RT D

EVIC

E (1

)HA

RT D

EVIC

E (2

)

Term

inal

Por

t BTe

rmin

al P

ort A

Term

inal

Por

t A

Sele

ct (7

77)

Sele

ct (7

77)

Sele

ct (7

77)

0.3

ml

150

150.

0 m

m0.

0 m

mVO

L.TO

L.FO

RI/

FBR

AKE

RA

TEBA

LAN

CECO

UN

TIF

1 OF

FSET

IF2

OFFS

ET

0.0

- 99.

9 m

l1

- 255

0 - 2

55-9

999.

9 - 9

999.

9m

m-9

999.

9 - 9

999.

9m

mSe

t (51

)Se

t (51

)Se

t (51

)Se

t (51

)Se

t (51

)

INTE

RFA

CE A

DJU

ST

LEVE

L CO

RREC

TION

4A

DJ. S

ENSO

R

HA

RT E

RROR

RA

TE

UN

IT

HA

RT L

INE*

98765

VH

Endress+Hauser 115


NM

S53x

Pro

gram

min

g M

atri

x (D

ynam

ic M

atri

x, T

ank

Prof

ile

G8)

GRO

UP

MES

SAG

E0

12

34

56

78

9

0:sp

ot2

0.0

mm

2.0

mm

1 m

in1

min

1 m

in

OPE.

SEL

ECT

OPE.

POI

NT

I/F

MA

NU

.LE

VEL

BAL.

LEV

ELU

P W

AIT

TIM

ELI

Q. W

AIT

TIM

EOP

E. W

AIT

TIM

E0:

spot

,1:

tank

pro

file

2:I/

F pr

ofile

3:M

AN

U. I

/Fpr

ofile

2 - 1

60.

0 - 9

9999

.9m

m1.

0 - 9

9.9

mm

1 - 3

1 m

in1

- 31

min

1 - 3

1 m

in

Sele

ct (5

1)Se

t (51

)Se

t (51

)Se

t (51

)Se

t (51

)Se

t (51

)Se

t (51

)0

0DD

HH

MM

0.00

0 g/

ml

0.0

C

OPE.

STA

TUS

LEVE

LCO

NDI

TION

OPE.

TIM

EA

VERA

GEDE

NSI

TYA

VERA

GETE

MP.

0 - 6

0 - 4

0000

00 -

3123

590.

000

- 9.9

99g/

ml

0 - 3

59.5

C

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

NO.

1 DE

NSI

TYN

O.2

DEN

SITY

NO.

3 DE

NSI

TYN

O.4

DEN

SITY

NO.

5 DE

NSI

TYN

O.6

DEN

SITY

NO.

7 DE

NSI

TYN

O.8

DEN

SITY

NO.

9 DE

NSI

TYN

O.10

DEN

SITY

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

NO.

11 D

ENSI

TYN

O.12

DEN

SITY

NO.

13 D

ENSI

TYN

O.14

DEN

SITY

NO.

15 D

ENSI

TYN

O.16

DEN

SITY

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

NO.

1 PO

SITI

ONN

O.2

POSI

TION

NO.

3 PO

SITI

ONN

O.4

POSI

TION

NO.

5 PO

SITI

ONN

O.6

POSI

TION

NO.

7 PO

SITI

ONN

O.8

POSI

TION

NO.

9 PO

SITI

ONN

O.10

POS

ITIO

N0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

mDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

y0.

0 m

m0.

0 m

m0.

0 m

m0.

0 m

m0.

0 m

m0.

0 m

mN

O.11

POS

ITIO

NN

O.12

POS

ITIO

NN

O.13

POS

ITIO

NN

O.14

POS

ITIO

NN

O.15

POS

ITIO

NN

O.16

POS

ITIO

N0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

mDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

y

POSI

TION

1 -

10

POSI

TION

11

- 16

4PR

OFIL

E OP

E.

STA

TUS/

DATA

DEN

SITY

1 -

10

DEN

SITY

11

- 16

98765

VH

116 Endress+Hauser


NM

S53x

Pro

gram

min

g M

atri

x (D

ynam

ic M

atri

x, In

terf

ace

Prof

ile:

G9)

GRO

UP

MES

SAG

E0

12

34

56

78

9

00

DDH

HM

M0

mm

0.00

0 g/

ml

0.0

C

OPE.

STA

TUS

LEVE

LCO

NDI

TION

OPE.

TIM

EI/

F LE

VEL

AVE

RAGE

DEN

SITY

AVE

RAGE

TEM

P.

0 - 6

0 - 4

0000

00 -

3123

590

- 999

99.9

mm

0.00

0 - 9

.999

g/m

l0

- 359

.5 C

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

NO.

1 DE

NSI

TYN

O.2

DEN

SITY

NO.

3 DE

NSI

TYN

O.4

DEN

SITY

NO.

5 DE

NSI

TYN

O.6

DEN

SITY

NO.

7 DE

NSI

TYN

O.8

DEN

SITY

NO.

9 DE

NSI

TYN

O.10

DEN

SITY

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

0.00

0 g/

ml

NO.

11 D

ENSI

TYN

O.12

DEN

SITY

NO.

13 D

ENSI

TYN

O.14

DEN

SITY

NO.

15 D

ENSI

TYN

O.16

DEN

SITY

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

0.00

0 - 9

.999

g/m

l0.

000

- 9.9

99g/

ml

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

Disp

lay

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

0.0

mm

NO.

1 PO

SITI

ONN

O.2

POSI

TION

NO.

3 PO

SITI

ONN

O.4

POSI

TION

NO.

5 PO

SITI

ONN

O.6

POSI

TION

NO.

7 PO

SITI

ONN

O.8

POSI

TION

NO.

9 PO

SITI

ONN

O.10

POS

ITIO

N0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

mDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

y0.

0 m

m0.

0 m

m0.

0 m

m0.

0 m

m0.

0 m

m0.

0 m

mN

O.11

POS

ITIO

NN

O.12

POS

ITIO

NN

O.13

POS

ITIO

NN

O.14

POS

ITIO

NN

O.15

POS

ITIO

NN

O.16

POS

ITIO

N0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

m0.

0 - 9

9999

.9m

mDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

yDi

spla

y

POSI

TION

11

- 16

5 6 7 8 9

POSI

TION

1 -

10

4

STA

TUS/

DATA

DEN

SITY

1 -

10

DEN

SITY

11

- 16

VH

Endress+Hauser 117


14.2 Description of Programming Matrix

Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Di

spla

yPo

ssib

le E

ntrie

sIn

dex

No.

GVH

MEA

SURE

D LE

VEL

-Di

spla

ys d

ispl

acer

pos

ition

in re

latio

n to

Ulla

ge (O

utag

e) o

r Inn

age

as D

efin

edby

GVH

190

Disp

lay

Mod

e.16

000.

0mm

Disp

lay

0.0

- 999

99.9

mm

000

ULL

AGE

LEV

EL-

Disp

lays

diff

eren

ce b

etw

een

curr

ent d

ispl

acer

pos

ition

and

Tank

Hei

ght.

0.0m

mDi

spla

y0.

0 - 9

9999

.9m

m00

1

UPP

ER IN

TERF

. LEV

-Di

spla

ys la

st re

cord

ed U

pper

Inte

rfac

e le

vel m

easu

rem

ent.

0.0m

mDi

spla

y0.

0 - 9

9999

.9m

m00

2

MID

D. IN

TERF

. LEV

-Di

spla

ys la

st re

cord

ed M

iddl

e In

terf

ace

leve

l mea

sure

men

t.0.

0mm

Disp

lay

0.0

- 999

99.9

mm

003

BOTT

OM L

EVEL

-Di

spla

ys la

st re

cord

ed B

otto

m le

vel m

easu

rem

ent.

Refe

r to

GVH

004.

0.0m

mDi

spla

y0.

0 - 9

9999

.9m

m00

4

UPP

ER D

ENSI

TY50

Disp

lays

last

reco

rded

Upp

er D

ensi

ty m

easu

rem

ent O

R m

anua

l set

ting.

It is

aut

omat

ical

ly o

verw

ritte

n w

hen

the

dens

ity is

mea

sure

d in

the

NM

S.1.

000g

/ml

Disp

lay/

Set

0.00

0 - 3

.000

g/m

l00

5

MID

DLE

DEN

SITY

50Di

spla

ys la

st re

cord

ed M

iddl

e De

nsity

mea

sure

men

t OR

man

ual s

ettin

g.It

is a

utom

atic

ally

ove

rwrit

ten

whe

n th

e de

nsity

is m

easu

red

in th

e N

MS.

1.00

0g/m

lDi

spla

y/Se

t0.

000

- 3.0

00g/

ml

006

DEN

SITY

BOT

TOM

50Di

spla

ys la

st re

cord

ed B

otto

m D

ensi

ty m

easu

rem

ent O

R m

anua

l set

ting.

It is

aut

omat

ical

ly o

verw

ritte

n w

hen

the

dens

ity is

mea

sure

d in

the

NM

S.1.

000g

/ml

Disp

lay/

Set

0.00

0 - 3

.000

g/m

l00

7

LEVE

L DA

TA-

Disp

lays

last

reco

rded

Mea

sure

d Le

vel m

easu

rem

ent a

ccor

ding

to B

alan

ceSt

atus

.16

000.

0mm

Disp

lay

0.0

- 999

99.9

mm

008

STA

TIC

MA

TRIX

(Thi

s w

ord

is n

otsh

own)

MEA

SURE

D VA

LUE

1

118 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

LIQU

ID T

EMP.

-Di

spla

ys L

iqui

d Te

mpe

ratu

re d

ata

refle

cted

from

G4V

4H0

(NM

T) o

r fro

mG5

V4H

0 (H

ART

Dev

1) i

f G5V

4H9

= "L

iqui

d Te

mpe

ratu

re".

0.0

Disp

lay

-49.

9 - 2

49.9

010

HA

RT D

EV(1

)-

Disp

lays

Prim

ary

Varia

ble

data

refle

cted

from

G5V

4H0

(HA

RT D

ev 1

) whe

nG5

V4H

0 =

ON, L

iqui

d Te

mpe

ratu

re o

r Gas

Tem

pera

ture

.Li

quid

Tem

pera

ture

dat

a is

als

o co

pied

to G

0V1H

0. G

as T

empe

ratu

re d

ata

isal

so c

opie

d to

G0V

1H0

unle

ss G

6V4H

9 =

Gas

tem

pera

ture

.

Disp

lay

011

HA

RT D

EV(2

)Di

spla

ys P

rimar

y Va

riabl

e da

ta re

flect

ed fr

om G

6V4H

0 (H

ART

Dev

2) w

hen

G6V4

H9

= ON

or G

as T

empe

ratu

reGa

s Te

mpe

ratu

re d

ata

is a

lso

copi

ed to

G0V

1H3

Disp

lay

012

GAS

TEM

PERA

TURE

-Di

spla

ys G

as T

empe

ratu

re d

ata

refle

cted

from

G4V

4H1,

or f

rom

G5V

4H0

if G5

V4H

9 =

Gas

Tem

pera

ture

, of f

rom

G6V

4H0

if G6

V4H

9 =

Gas

Tem

pera

ture

.0.

0Di

spla

y-4

9.9

- 249

.901

3

WA

TER

BOTT

OM-

Disp

lays

wat

er in

terf

ace

leve

l dat

a re

ceiv

ed fr

om N

MT5

39 W

B de

vice

.0.

0mm

Disp

lay

014

ZERO

POI

NT

-Di

spla

ys Z

ero

Poin

t.0.

0mm

Disp

lay

0.0

- 999

99.9

mm

017

SPA

N-

Disp

lays

Spa

n.16

000.

0mm

Disp

lay

0.0

- 999

99.9

mm

018

LEN

GTH

UN

IT-

Disp

lays

uni

t of l

engt

h.m

mDi

spla

ym

m01

9

STA

TIC

MA

TRIX

(Thi

s w

ord

is n

otsh

own)

MEA

SURE

D VA

LUE

2

Endress+Hauser 119


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

OPER

ATI

ON (f

rom

dis

play

key

)50

Sele

ct o

pera

tion

for m

ovem

ent o

f dis

plac

erST

OPSe

lect

Refe

r to

G0 S

tatic

Mat

rix,

Oper

atio

n co

mm

ands

.

020

OPER

ATI

NG

STA

TUS

-Di

spla

cer o

pera

tion

mod

e, o

r pos

ition

sta

tus

of P

rose

rvo

STOP

Disp

lay

REFE

REN

CEU

PDO

WN

STOP

LEVE

LU

PPER

. IN

TERF

. LEV

.M

IDD.

INTE

RF. L

EV.

BOTT

OM L

EVEL

UPP

ER D

ENSI

TYM

IDDL

E DE

NSI

TYDE

NSI

TY B

OTTO

MRE

LE. O

VER

TEN

S.CA

L. A

CTIV

ELE

VEL

SEEK

ING

LEVE

L FO

LLOW

ING

UPP

. DEN

. SEE

KIN

GM

ID. D

EN. S

EEKI

NG

BOT.

DEN

. SEE

KIN

GU

PP. I

NT.

SEE

KIN

GU

PP. I

NT.

FOL

LOW

ING

MID

. IN

T. S

EEKI

NG

MID

. IN

T. F

OLLO

WIN

GBO

TTOM

SEE

KIN

GN

O IN

ITIA

LIZE

UPP

ER S

TOP

LOW

ER S

TOP

REPE

ATA

BILI

TYW

ATE

R SE

EKIN

GW

ATE

R LE

VEL

WA

TER

FOLL

OWIN

GEM

ARG

ENCY

ERR

ORM

AIN

TEN

AN

CE

021

STA

TIC

MA

TRIX

(Thi

s w

ord

is n

otsh

own)

OPER

ATI

ON

120 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Di

spla

yPo

ssib

le E

ntrie

sIn

dex

No.

GVH

BALA

NCE

STA

TUS

-Di

spla

ys b

alan

ce s

tatu

s of

dis

plac

er.

UN

BALA

NCE

DDi

spla

yBA

LAN

CED

UN

BALA

NCE

D02

2

OPER

AT.

BY

NRF

-Di

spla

ys o

pera

tion

stat

us o

f NRF

.If

no N

RF c

onne

cted

, dis

play

will

sho

w a

ster

isks

***

****

.LE

VEL

Disp

lay

LEVE

LU

PST

OPBO

TTOM

LEV

ELM

IDD.

INTE

RF. L

EVEL

UPP

ER D

ENSI

TYM

IDDL

E DE

NSI

TYDE

NSI

TY B

OTTO

MRE

PEA

TABI

LITY

WA

TER

DIP

024

OPER

AT.

BY

HOS

T-

Disp

lays

ope

ratio

n st

atus

of H

ost C

PU.

If no

HOS

T co

nnec

ted,

dis

play

will

sho

w a

ster

isks

***

****

.LE

VEL

Disp

lay

LEVE

LU

PST

OPBO

TTOM

LEV

ELM

IDD.

INTE

RF. L

EVEL

UPP

ER D

ENSI

TYM

IDDL

E DE

NSI

TYDE

NSI

TY B

OTTO

MRE

PEA

TABI

LITY

WA

TER

DIP

025

DEVI

CE ID

-Di

spla

ys th

e De

vice

ID o

f NM

S5 P

rose

rvo.

0Di

spla

y02

8

SOFT

WA

RE V

ERSI

ON-

Disp

lays

the

soft

war

e ve

rsio

n of

NM

S5 P

rose

rvo.

4.XX

Disp

lay

029

STA

TIC

MA

TRIX

(Thi

s w

ord

is n

otsh

own)

OPER

ATI

ON

Endress+Hauser 121


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

MA

TRIX

OF

-U

se (+

) and

(-) k

eys,

scr

oll t

hrou

gh 9

Dyn

amic

Mat

rix G

roup

sele

ctio

ns. P

ress

"E" k

ey to

sel

ect o

ne fo

r acc

ess

to m

ore

data

.CA

LIBR

ATI

ONSe

lect

CALI

BRA

TION

DEVI

CE D

ATA

SERV

ICE

TEM

PERA

TURE

HA

RT D

EVIC

E (1

)H

ART

DEV

ICE

(2)

ADJ

. SEN

SOR

Tank

Pro

file

I/F

Prof

ile

030

(Cal

enda

r)-

Disp

lays

dat

e, ti

me

as y

ymm

dd _

_hh:

mm

:ss.

Not

tran

sfer

red

by R

ackb

us.

Curr

ent T

ime

Disp

lay

e.g.

141

010_

_ 19

1041

Year

Mon

th D

ayH

H:M

M:S

S03

3

ALA

RM C

ONTA

CT-

Disp

lay

alar

m m

essa

ge d

epen

ding

on

curr

ent s

tatu

s.N

O A

LARM

Disp

lay

Ala

rm m

essa

ge03

4

(Ala

rm H

isto

ry)

-U

se (+

) and

(-) k

eys,

scr

oll t

hrou

gh h

isto

ry o

f ala

rms.

035

Up

to 9

9al

arm

s re

cord

ed, t

hen

olde

st a

larm

is o

verw

ritte

n by

new

dat

a.N

O A

LARM

Disp

lay

Ala

rm h

isto

ry03

5

DIA

GNOS

TIC

CO-

Disp

lays

cur

rent

sel

f-di

agno

stic

cod

eN

O ER

ROR

Disp

lay

Erro

r mes

sage

036

(Err

or H

isto

ry)

-U

se (+

) and

(-) k

eys,

scr

oll t

hrou

gh h

isto

ry o

f err

ors,

in fo

rmat

yym

mdd

hhm

m°°

##. U

p to

99

alar

ms

reco

rded

, the

n ol

dest

ala

rm is

over

writ

ten

by n

ew d

ata.

MPU

STA

RTA

CTDi

spla

y

Erro

r his

tory

(Exa

mpl

e: lo

cal

com

mun

icat

ion

Erro

r: DE

V150

4101

355

40

61

037

RESE

T A

LM. D

IAGN

O-

Rese

t Err

or H

isto

ry b

y se

ttin

g =

ON.

OFF

Disp

lay/

Sele

ctON OF

F03

8

ACC

ESS

CODE

-

Set a

cces

s co

de to

vie

w a

nd c

hang

e to

mat

rix d

ata.

Hig

her a

cces

sco

des

(exc

ept 7

77) g

ive

grea

ter e

ditin

g pr

ivile

ges.

50: O

pera

tor,

51,5

30: T

echn

icia

n77

7: re

quire

d to

sel

ect E

Ex i

HA

RT li

ne,

0Se

t0

- 999

039

STA

TIC

MA

TRIX

(Thi

s w

ord

is n

otsh

own)

MOR

E FU

NCT

ION

Tim

e Inte

rnal

Tem

pEr

r. N

o.se

lect

with

+, -

122 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

TAN

K H

EIGH

T50

Elev

atio

n le

vel o

f man

ual d

ippi

ng re

fere

nce.

1600

0.0m

mSe

t0.

0 - 9

9999

.9m

m14

0

DIP

POIN

T OF

FSET

50Di

ffer

ence

bet

wee

n Ta

nk H

eigh

t and

Ref

eren

ce P

ositi

on o

f Pro

serv

oN

MS5

. Thi

s da

ta is

aut

omat

ical

ly a

djus

ted

by P

rose

rvo

soft

war

e w

hen

Set L

evel

pro

cedu

re is

per

form

ed.

0.0m

mSe

t-9

9999

.9 -

9999

9.9m

m14

1

DISP

LAC.

DRA

FT50

Set t

he d

raft

of d

ispl

acer

. Thi

s va

lue

is u

sed

to c

alcu

late

G0V

0H4

Bott

om L

evel

mea

sure

men

t.Fo

r typ

ical

dis

plac

er d

raft

set

tings

ple

ase

see

App

endi

x "D

ispl

acer

s"10

.0m

mSe

t0.

0 - 9

99.9

mm

142

DISP

L. R

AIS

E DE

NS

51Se

t dis

tanc

e fo

r dis

plac

er to

rise

abo

ve le

vel p

ositi

on d

urin

g De

nsity

oper

atio

ns.

Obse

rve

the

rule

: G1V

4H3+

G1V

4H4

= 30

0 n,

whe

re n

= in

tege

r15

0mm

Set

0 - 3

00m

m14

3

DISP

L. S

UBM

. DEN

S51

Set d

ista

nce

for d

ispl

acer

to s

ink

belo

w le

vel p

ositi

on d

urin

g de

nsity

oper

atio

ns.

Obse

rve

the

rule

: G1V

4H3+

G1V

4H4

= 30

0 n,

whe

re n

= in

tege

r15

0mm

Set

0 - 1

500m

m14

4

DIG.

NU

M. F

OR V

151

Num

ber o

f dig

its fo

r V1

com

mun

icat

ion

5 CU

T DO

WN

Sele

ct

5 CU

T DO

WN

5 RO

UN

D U

P5

ROU

ND

OFF

6 DI

GIT

148

LEVE

L BE

LOW

051

Sele

ct m

etho

d fo

r han

dlin

g ne

gativ

e le

vel d

ata

in V

1 pr

otoc

olco

mm

unic

atio

n. S

elec

t "99

999

mm

" to

disp

lay

nega

tive

leve

l dat

aba

ckw

ards

from

999

99 m

m.

Sele

ct "0

mm

" to

disp

lay

all n

egat

ive

leve

l dat

a as

0 m

m.

9999

9mm

Sele

ct0.

0mm

9999

9.9m

m14

9

CALI

BRA

TION

LEVE

L DA

TA

Endress+Hauser 123


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

SET

LEVE

L50

Calib

rate

NM

S5 P

rose

rvo

leve

l dis

play

equ

al to

man

ual d

ip le

vel.

With

Ope

ratio

n =

Leve

l and

NM

S in

bal

ance

sta

tus

use

+/- a

nd E

key

s to

adju

st /

set

the

data

.16

000.

0mm

Set

0.0

- 999

99.9

mm

150

TAN

K CO

RREC

TLE

V.51

Star

t lev

el fo

r tan

k ro

of c

ompe

nsat

ion

by le

vel.

This

com

pens

atio

n is

used

in c

ase

of ta

nk ro

of d

isto

rtio

n du

e to

hyd

rost

atic

pre

ssur

e on

tank

wal

l.0.

0mm

Set

0.0

- 999

99.9

mm

152

TAN

K CO

RRE.

COE

F.51

Line

ar c

oeff

icie

nt fo

r tan

k ro

of c

ompe

nsat

ion

by le

vel.

0.00

0mm

/mSe

t0.

000

- 59.

999m

m/m

153

SAFE

DEN

SITY

51

Sele

ct th

e de

sire

d re

sulta

nt c

ondi

tion

whe

n de

nsity

pro

file

mea

sure

men

tfa

ils d

ue to

dis

plac

er re

achi

ng th

e lo

w-li

mit

for d

ensi

ty p

rofil

e op

erat

ion

(set

in G

1V5H

5).

Sele

ctin

g "O

N" w

ill re

sult

in S

TOP

oper

atio

n. S

elec

ting

"IGN

OR" w

ill re

sult

in"L

EVEL

" ope

ratio

n, d

ispl

acer

will

retu

rn to

liqu

id le

vel.

Sele

ctin

g "O

FF" w

ill le

ave

the

disp

lace

r at t

he p

ositi

on w

here

den

sity

prof

ile m

easu

rem

ent f

aile

d.

OFF

Sele

ctOF

FON

IGN

OR15

4

DEN

. OPE

. LEV

EL51

Set t

he lo

wer

lim

it fo

r dis

plac

er m

ovem

ent d

urin

g de

nsity

pro

file

oper

atio

n.30

0.0m

mSe

t0.

0 - 9

9999

.9m

m15

5

SERV

ICE

MOD

E53

0De

activ

ate

Pros

afet

y fu

nctio

n du

ring

mai

nten

ance

; lev

el v

alue

not

val

id.

OFF

Sele

ctON

/OFF

157

PROS

AFE

TY53

0Pr

oact

ive

safe

ty fu

nctio

n ou

tput

s m

axim

um le

vel v

alue

dur

ing

spec

ified

erro

r con

ditio

ns.

ONSe

lect

ON/O

FF15

8

SAFE

TY L

EVEL

530

Adj

ust m

axim

um le

vel o

utpu

t val

ue, d

epen

ding

on

rece

iver

spe

cific

atio

n.99

999.

0/65

000.

0mm

Set

0.0

- 999

99.0

mm

159

CALI

BRA

TION

CALI

BRA

TION

124 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

UPP

ER S

TOP

50Se

t upp

er li

mit

of d

ispl

acer

mov

emen

t dur

ing

norm

al o

pera

tion.

1600

0.0m

mSe

t0.

0 - 9

9999

.9m

m16

0

LOW

ER S

TOP

50Se

t low

er li

mit

of d

ispl

acer

mov

emen

t dur

ing

norm

al o

pera

tion.

0.0m

mSe

t0.

0 - 9

9999

.9m

m16

1

OVER

TEN

S. S

ET51

Set t

his

valu

e su

ch th

at if

G3V

7H0

Mea

sure

d W

eigh

t of d

ispl

acer

equ

als

or e

xcee

ds s

ettin

g at

G1V

6H2,

mot

or w

ill fr

eeze

.In

crea

se th

is p

aram

eter

if n

eces

sary

in h

igh

visc

osity

liqu

ids.

Mag

netic

cou

plin

g di

scon

nect

s ab

ove

800

gram

s te

nsio

n

350g

Set

0 -

999g

162

UN

DER

TEN

S. S

ET51

Set t

his

valu

e su

ch th

at if

G3V

7H0

Mea

sure

d W

eigh

t of d

ispl

acer

equ

als

or is

less

than

set

ting

at G

1V6H

3, m

otor

will

free

ze.

Decr

ease

this

par

amet

er if

nec

essa

ry in

hig

h vi

scos

ity li

quid

s.50

gSe

t0

-99

9g16

3

SLOW

HOI

ST51

Disp

lace

r will

ent

er s

low

spe

ed h

oist

acc

ordi

ng to

this

val

ue, u

sefu

l if

disp

lace

r con

tact

s w

ith n

arro

w v

alve

s.60

mm

Set

60 -

1800

mm

164

DISP

L. R

AIS

. REP

.51

Set t

he d

ista

nce

to ra

ise

disp

lace

r abo

ve li

quid

sur

face

dur

ing

repe

atab

ility

test

.10

mm

Set

10 -

99m

m16

5

DISP

L. W

AIT

REP

.51

Set t

he w

aitin

g tim

e af

ter d

ispl

acer

rise

s ab

ove

liqui

d su

rfac

e du

ring

repe

atab

ility

test

.10

sSe

t10

- 99

9s16

6

DISP

L. W

AIT

DIP

.51

Use

d fo

r Wat

er L

evel

com

man

d. S

et th

e w

aitin

g tim

e be

twee

n di

spla

cer

bala

nce

stat

us a

nd re

turn

to L

evel

.10

sSe

t10

- 99

9s16

7

CALI

BRA

TION

ADJ

UST

MEN

T

Endress+Hauser 125


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

(CA

LIBR

. AU

TO/M

AN

)51

Sele

ct m

etho

d fo

r mea

surin

g w

ire c

alib

ratio

n. W

hen

activ

ated

, Pro

serv

ow

ill h

oist

dis

plac

er in

to d

rum

hou

sing

and

che

ck le

ngth

of m

easu

ring

wire

. "M

anua

l" se

ttin

g is

reco

mm

ende

d to

avo

id u

nwan

ted

calib

ratio

ndu

ring

tank

load

ing

etc.

NON

ESe

lect

NON

E17

0

(STA

RT T

IME)

51Se

t sta

rt ti

me

for A

uto

Wire

Cal

ibra

tion.

Ava

ilabl

e w

hen

G1V7

H0

= "A

uto"

9912

3123

Set

0000

0000

- 99

9999

9917

1

(INTE

RVA

L TI

ME)

51Se

t int

erva

l tim

e be

twee

n au

tom

atic

wire

cal

ibra

tion

oper

atio

ns.

Ava

ilabl

e w

hen

G1V7

H0

= "A

uto"

0 ho

urSe

t0

-99

99 h

our

172

(AU

TO C

OMPE

NSA

T.)

51Se

lect

to a

utom

atic

ally

com

pens

ate

for m

easu

ring

wire

str

etch

or

shrin

kage

det

ecte

d at

cal

ibra

tion.

OFF

Sele

ctON OF

F17

3

(ZER

O CO

RREC

TION

)51

Disp

lays

me a

surin

g w

ire le

ngth

dev

iatio

n de

tect

ed a

t cal

ibra

tion.

0.0m

mDi

spla

y0.

0 - 9

9999

.9m

m17

4

(CON

PEN

S. L

IMIT

)51

Set u

pper

lim

it fo

r aut

omat

ic c

ompe

nsat

ion

of m

easu

ring

wire

leng

th.

Whe

n G1

V7H

5 eq

uals

or e

xcee

ds th

is v

alue

"Wire

Cal

ib E

rror

" dis

play

s at

Hom

e Po

sitio

n. In

crea

se th

is p

aram

eter

to c

lear

err

or, o

r alte

rnat

ivel

ym

ake

new

wei

ght t

able

, or r

epla

ce w

ire d

rum

/wire

.

0.0m

mSe

t0.

0 - 9

9999

.9m

m17

5

Thes

e pa

ram

eter

s ar

e no

t fun

ctio

nal i

n ve

rsio

n 4.

27F

and

late

r.

CALI

BRA

TION

DISP

LAY

CAUTION

126 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

(CA

LIBR

. AU

TO/M

AN

)51

Sele

ct m

etho

d fo

r dis

plac

er w

eigh

t cal

ibra

tion,

use

ful w

hen

slud

geat

tach

es to

dis

plac

er. W

hen

activ

ated

, Pro

serv

o w

ill h

oist

dis

plac

er in

todr

um h

ousi

ng a

nd c

heck

wei

gth

of d

ispl

acer

aga

inst

dat

a in

G3V

4H2.

"Man

ual"

sett

ing

is re

com

men

ded

to a

void

unw

ante

d ca

libra

tion

durin

gta

nk lo

adin

g et

c.

NON

ESe

lect

NON

E18

0

(STA

RT T

IME)

51Se

t sta

rt ti

me

for A

uto

Disp

lace

r Cal

ibra

tion.

Ava

ilabl

e if

G1V8

H0

- "A

uto"

9912

3123

Set

0000

0000

- 99

9999

9918

1

(INTE

RVA

L TI

ME)

51Se

t int

erva

l tim

e be

twee

n au

tom

atic

dis

plac

er c

alib

ratio

nop

erat

ions

. Ava

ilabl

e w

hen

G1V8

H0

= "A

uto"

0 ho

urSe

t0

- 999

9 ho

ur18

2

(AU

TO C

OMPE

NSA

T.)

51Se

lect

to a

utom

atic

ally

com

pens

ate

for d

ispl

acer

wei

ght d

evia

tion

dete

cted

at c

alib

ratio

n.OF

FSe

lect

OFF

ON18

3

(ZER

O CO

RREC

TION

)51

Disp

lays

dis

plac

er w

eigh

t dev

iatio

n de

tect

ed a

t cal

ibra

tion.

0.0g

Disp

lay

0.0

- 999

.9g

184

(COM

PEN

S. L

IMIT

)51

Set u

pper

lim

it fo

r aut

omat

ic c

ompe

nsat

ion

of d

ispl

acer

wei

ght.

Whe

n G1

V8H

5 eq

uals

or e

xcee

ds th

is v

alue

"Dis

pl C

alib

Err

or" d

ispl

ays

atH

ome

Posi

tion.

Incr

ease

this

par

amet

er to

cle

ar e

rror

, or a

ltern

ativ

ely

mak

e ne

w w

eigh

t tab

le, o

r cle

an d

ispl

acer

.

0.0g

Set

0.0

- 999

.9g

185

Thes

e pa

ram

eter

s ar

e no

t fun

ctio

nal i

n ve

rsio

n 4.

27F

and

late

r

CALI

BRA

TION

AU

TO C

ALI

B. D

ISPL

CAUTION

Endress+Hauser 127


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

SELE

CT D

ISP.

MOD

E51

Sele

ct e

ither

"Ulla

ge (O

utag

e) L

evel

" or "

Mea

sure

d (In

nage

) Lev

el".

MEA

SURE

DLE

VEL

Sele

ctU

LLA

GE L

EVEL

MEA

SURE

D LE

VEL

190

LAN

GUA

GE51

Sele

ct e

ither

dis

play

lang

uage

.EN

GLIS

HSe

lect

ENGL

ISH

JAPA

NES

ECH

INES

E19

1

LCD

CON

TRA

ST51

Adj

ust L

CD d

ispl

ay m

odul

e co

ntra

st.

Set

0 - 1

519

2

YEA

R SE

TTIN

G51

Curr

ent y

ear.

Curr

ent y

ear

Set

00 -

9919

3

MON

TH S

ETTI

NG

51Cu

rren

t mon

th.

Curr

ent m

onth

Set

0 - 1

219

4

DAY

SETT

ING

51Cu

rren

t day

.Cu

rren

t day

Set

0 - 3

119

5

HOU

R SE

TTIN

G51

Hou

r (24

hou

r for

mat

)Cu

rren

t hou

rSe

t0

- 23

196

MIN

UTE

SET

TIN

G51

Min

ute.

Clo

ck s

tart

s fr

om 0

s w

hen

min

uite

is s

et.

Curr

ent m

inut

eSe

t0

- 59

197

SELE

CT D

ECIM

AL

51Se

lect

ion

of d

ecim

al p

oint

indi

catio

n by

dot

or c

omm

a.Se

lect

[.]

[,]

198

LCD

CHEC

K51

Whe

n se

t = O

N, d

ispl

ay b

ecom

es d

ark

as a

ll pi

xels

dis

play

for 3

sec

onds

if no

rmal

.W

hen

set =

OFF

dis

play

bec

ome

blan

k fo

r 3 s

econ

ds if

nor

mal

.OF

FSe

lect

OFF

ON19

9

CALI

BRA

TION

DISP

LAY

128 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

SELE

CT. R

ELA

Y50

Use

+/-

and

E k

eys

to s

elec

t to

activ

ate

Cont

act O

utpu

t Rel

ays

1 to

4.

1Se

lect

1 - 4

240

ASS

IGN

REL

AY

50Se

lect

out

put d

efin

ition

from

rang

e of

cho

ices

: N

one,

Lev

el, L

iqui

dTe

mp,

Cau

tion,

War

ning

, Em

erge

ncy

Erro

r, Ba

lanc

e Si

gnal

.N

ONE

Sele

ct

LEVE

L, L

IQU

ID T

EMP,

CAU

TION

, WA

RNIN

G,EM

ERGE

NCY

ERR

ORBA

LAN

CE S

IGN

AL

241

RELA

Y FU

NCT

ION

50Se

lect

Hig

h or

Low

func

tion,

ava

ilabl

e on

ly w

hen

G2V4

H1

= "L

evel

"or

"Liq

uid

Tem

p."

HIG

HSe

lect

HIG

HLO

W24

2

SWIT

CHIN

G PO

INT

50Se

t lev

el a

t whi

ch re

lay

is a

ctiv

ated

, ava

ilabl

e on

ly w

hen

G2V4

H1=

"Lev

el"

or "L

iqui

d Te

mp.

"0m

m/0

Set

Leve

l0

- 999

99m

mLi

quid

Tem

pera

ture

-999

- 99

9

243

HYS

TERI

SIS

50Se

t hys

teris

is v

alue

for s

elec

ted

rela

y, a

vaila

ble

only

whe

n G2

V4H

1="L

evel

" or "

Liqu

id T

emp.

"0m

m/0

Set

Leve

l0

- 999

99m

mLi

quid

Tem

pera

ture

-999

- 99

9

244

RELA

Y ON

ALA

RM50

Sele

ct fr

om N

orm

al O

pen

or N

orm

al c

lose

, ava

ilabl

e on

ly w

hen

G2V4

H1=

"Lev

el" o

r "Li

quid

Tem

p."

Ala

rm c

onta

ct o

utpu

t doe

s no

t cha

nge

whe

n tu

rnin

g po

wer

off

.

NOR

MA

LOP

ENED

Sele

ctN

ORM

AL

OPEN

(NO)

NOR

MA

L CL

OSE

(NC)

245

ON D

ELA

Y TI

ME

50Se

t del

ay ti

me

for a

larm

out

put s

tart

, ava

ilabl

e on

ly w

hen

G2V4

H1=

"Lev

el" o

r "Li

quid

Tem

p."

0sSe

t0

- 999

s24

6

OFF

DELA

Y TI

ME

50Se

t del

ay ti

me

for a

larm

spo

t, av

aila

ble

only

whe

n G2

V4H

1= "L

evel

" or

"Liq

uid

Tem

p."

0sSe

t0

- 999

s24

7

DEVI

CE D

ATA

CON

TACT

OU

TPU

T

CAUTION

Endress+Hauser 129


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

ASS

IGN

OU

TPU

T 1

51A

ssig

n an

alog

out

put f

or c

hann

el 1

.N

ONE

Sele

ct

NON

ELE

VEL

UPP

ER. I

NTE

RF. L

EV:

LIQU

ID T

EMP.

250

ADJ

UST

4m

A51

Set l

evel

or t

empe

ratu

re v

alue

for 4

mA

out

put o

n ch

anne

l 1.

Ava

ilabl

e on

ly w

hen

G2V5

H0

= "L

evel

" or "

Liqu

id T

emp"

0mm

/ 0

.0Se

t

FOR

LEVE

L or

UPP

ER. I

NTE

REF.

LEV

:0

to 9

9999

mm

For L

IQU

ID T

EMP.

:-9

999.

9 to

999

9.9

251

ADJ

UST

20m

A51

Set l

evel

or t

empe

ratu

re v

alue

for 2

0 m

A o

utpu

t on

chan

nel 1

.A

vaila

ble

only

whe

n G2

V5H

0 =

"Lev

el" o

r "Li

quid

Tem

p"0m

m /

0.0

Set

FOR

LEVE

L or

UPP

ER. I

NTE

REF.

LEV

:0

to 9

9999

mm

For L

IQU

ID T

EMP.

:-9

999.

9 to

999

9.9

252

ASS

IGN

OU

TPU

T 2

51A

ssig

n an

alog

out

put f

or c

hann

el 2

.N

ONE

Sele

ct

NON

ELE

VEL

UPP

ER. I

NTE

RF. L

EV:

LIQU

ID T

EMP.

253

ADJ

UST

4m

A51

Set l

evel

or t

empe

ratu

re v

alue

for 4

mA

out

put o

n ch

anne

l 2.

Ava

ilabl

e on

ly w

hen

G2V5

H3

= "L

evel

" or "

Liqu

id T

emp"

0mm

/ 0

.0Se

t

FOR

LEVE

L or

UPP

ER. I

NTE

REF.

LEV

:0

to 9

9999

mm

For L

IQU

ID T

EMP.

:-9

999.

9 to

999

9.9

254

ADJ

UST

20m

A51

Set l

evel

or t

empe

ratu

re v

alue

for 2

0 m

A o

utpu

t on

chan

nel 2

.A

vaila

ble

only

whe

n G2

V5H

3 =

"Lev

el" o

r "Li

quid

Tem

p"0m

m /

0.0

Set

FOR

LEVE

L or

UPP

ER. I

NTE

REF.

LEV

:0

to 9

9999

mm

For L

IQU

ID T

EMP.

:-9

999.

9 to

999

9.9

255

DEVI

CE A

T A

LARM

51

Sele

ct ty

pe o

f out

put f

or a

larm

. Sel

ect f

rom

OFF

, HOL

D cu

rren

t out

put,

Max

imum

val

ue o

r Min

imum

val

ueOF

F: n

o sp

ecifi

c ac

tion

is ta

ken.

HOL

D: h

old

curr

ent v

alue

.M

AX:

out

put 2

2mA

inst

ead

of c

urre

nt v

alue

.M

IN: o

utpu

t 2m

A in

stea

d of

cur

rent

val

ue.

OFF

Sele

ct

OFF

HOL

D CU

RNT.

OU

TM

AX

MIN

256

DEVI

CE D

ATA

AN

ALO

G OU

T. A

DJU

ST

130 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Di

spla

yPo

ssib

le E

ntrie

sIn

dex

No.

GVH

PART

S N

UM

BER

51Se

t num

ber f

or c

ontr

ol-t

arge

t par

ts (i

nsid

e Pr

oser

vo) t

o m

onito

r.1

Set

1 - 1

026

0

PART

S TY

PE51

Allo

cate

the

part

to th

e se

lect

ed n

umbe

r.N

ONE

Sele

ct

NON

EPO

WER

UN

ITDI

SPLA

Y,M

OTOR

WIR

E,BE

ARI

NGS

SHA

FT

261

MA

INTE

N. F

ACT

OR51

Sele

ct m

etho

d of

mon

itorin

g pa

rt, e

ither

Ope

ratio

n H

ours

or D

rum

Revo

lutio

ns.

OPER

ATI

ONH

OUR

Sele

ctOP

ERA

TION

HOU

RDR

UM

REV

OLT.

262

MA

INTE

N. V

ALU

E51

Set t

he ta

rget

mai

nten

ance

(hou

rs o

r rev

olut

ions

) val

ue fo

r sel

ecte

d pa

rts

1 ho

uror

1 ro

und

Set

0 - 9

9999

9 ho

uror

0 - 9

9999

9 ro

und

263

OPER

ATI

ON T

IME

51Di

spla

ys th

e ac

cum

ulat

ed o

pera

tion

time

or re

volu

tions

for s

elec

ted

part

.N

ote

: Res

et th

is v

alue

to 0

aft

er p

arts

repl

acem

ent.

1 ho

uror

1 ro

und

Disp

lay/

Set

0 - 9

9999

9 ho

uror

0 - 9

9999

9 ro

und

264

(Par

ts O

veru

sed

Data

)51

Disp

lays

dat

e w

hen

part

s re

ache

d te

rget

val

ue s

et in

G2V

6H3.

POW

ER U

NIT

Data

form

at :

yy m

m d

d hh

mm

.Di

spla

yYe

ar M

onth

Day

Hou

rM

inut

e26

5

REPL

ACE

D PA

RTS

51Se

lect

par

t tha

t has

bee

n re

plac

edN

ONE

Sele

ct

NON

EPO

WER

UN

ITDI

SPLA

Y,M

OTOR

WIR

E,BE

ARI

NGS

SHA

FT

266

(Par

ts R

epla

ced

Data

)51

Disp

lays

dat

e w

hen

part

s w

ere

repl

aced

.Da

ta fo

rmat

: yy

mm

dd

hh m

m.

NON

EDi

spla

yYe

ar M

onth

Day

Hou

rM

inut

e26

7

DEVI

CE D

ATA

PART

S DA

TA

Endress+Hauser 131


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

OPE.

CON

TACT

51

Disp

lace

r ope

ratio

n by

con

tact

inpu

t. A

vaila

ble

if Co

ntac

t Inp

ut (I

/O 3

card

) fun

ctio

n is

inst

alle

d. D

ispl

ay s

how

s ei

ther

"NON

E" o

r "A

ctiv

ated

".

NON

ESe

lect

NON

EA

CTIV

ATE

D27

0

CUST

ODY

TRA

NSF

ER51

Disp

lace

r ind

icat

es w

heth

er C

usto

dy T

rans

fer s

oftw

are

is in

stal

led

and

activ

ated

or n

ot (O

FF o

r ON

).OF

FDi

spla

yOF

F, O

N27

1

NEW

NM

S ST

ATU

S51

Switc

hes

NM

S St

atus

cod

es b

etw

een

old

and

new

ver

sion

, new

ver

sion

incl

udes

new

ope

ratio

ns a

nd s

tatu

ses.

For R

ackb

us c

omm

unic

atio

n, it

is n

eces

sary

to d

efin

e "O

pera

ting

Stat

us"

as O

N o

r OFF

.

DISA

BLED

Sele

ctDI

SABL

EDEN

ABL

ED27

2

SW V

ERSI

ON51

Disp

lays

sof

twar

e ve

rsio

n of

NM

S 53

x Pr

oser

vo.

4.xx

Disp

lay

275

HW

VER

SION

51Di

spla

ys h

ardw

are

vers

ion

of N

MS

53x

Pros

ervo

. "2.

00" =

TCB

-2,

"4.0

0" =

TCB

- 4,

"6.0

0 =

TCB

- 6"

6.00

Disp

lay

276

OPE.

DEN

SITY

51U

pper

den

sity

whi

ch is

use

d fo

r lev

el m

easu

rem

ent a

t mai

nten

ance

mod

e1.

00g/

mL

Set

0 - 3

.000

278

OPE.

CON

T. S

TATU

S51

Disp

lays

the

term

inal

num

bers

in u

se. (

bina

ry c

onve

rted

to d

ecim

al).

0Di

spla

y0

- 15

279

DEVI

CE D

ATA

INPU

T SI

GNA

L

Inpu

t Sta

te1

OFF

2 O

N1

ON

2

OFF

1 O

FF 2

ON

1 O

N

2 O

N

Ope

ratio

nLe

vel

Hoi

s up

Stop

Inte

rfac

e

CAUTION

132 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

LEVE

L A

LARM

151

Sele

ct U

pper

or L

ower

lim

it on

inna

ge le

vel r

elat

ive

to s

ettin

g of

Ala

rm 1

for b

i-dire

ctio

nal 2

-wire

com

mun

icat

ions

.H

IGH

Sele

ctH

IGH

LOW

NON

E28

0

SET

LEVE

L A

LARM

151

Set a

larm

out

put l

evel

for A

larm

1.

0.0m

mSe

t0.

0 - 9

9999

.9m

m28

1

LEVE

L A

LARM

251

Sele

ct U

pper

or L

ower

lim

it on

inna

ge le

vel r

elat

ive

to s

ettin

g of

Ala

rm 2

for b

i-dire

ctio

nal 2

-wire

com

mun

icat

ions

.H

IGH

Sele

ctH

IGH

LOW

NON

E28

2

SET

LEVE

L A

LARM

251

Set a

larm

out

put l

evel

for A

larm

2.

0.0m

mSe

t0.

0 - 9

9999

.9m

m28

3

HYS

TERE

SIS

51Se

t hys

tere

sis

for A

larm

1 a

nd 2

.0.

0mm

Set

0.0

- 999

99.9

mm

284

ADD

RESS

51Se

t add

ress

for r

emot

e or

mul

tidro

p co

mm

unic

atio

n.0

Set

0 - 9

9928

5

PROT

OCOL

51Se

lect

com

mun

icat

ions

pro

toco

l for

rem

ote/

mul

ti-dr

op c

omm

unic

atio

n.De

pend

ent o

nN

MS

spec

ifica

tions

Sele

ct

BBB,

MDP

, V1/

ENRA

F,RA

CK B

US,

HA

RT,

Mar

kSpa

ce, W

M55

0,M

ODBU

S

286

COM

MU

. LIN

E A

DJ51

Adj

ust l

ine

resi

stan

ce fo

r ser

ial p

ulse

V1

com

mun

icat

ions

.F

Set

0 - F

287

COM

MU

NIC

. STA

TUS

51Di

spla

ys c

urre

nt c

omm

unic

atio

n st

atus

with

Hos

t (Se

e N

MS

Stat

usCo

de).

0Di

spla

y28

8

MOD

BUS

Conf

ig-

Set c

onfig

urat

ion

of M

odbu

s co

mm

unic

atio

n.M

odbu

s pa

ram

eter

s fo

r G2V

8H9

0Se

t0

- 14

289

DEVI

CE D

ATA

COM

MU

NIC

ATI

ON

0: 1

200b

ps

/Ev

en1:

120

0bps

/O

dd2:

120

0bps

/N

one

3: 2

400b

ps

/Ev

en4:

240

0bps

/O

dd5:

240

0bps

/N

one

6: 4

800b

ps

/Ev

en7:

480

0bps

/O

dd8:

480

0bps

/N

one

9: 9

600b

ps

/Ev

en10

: 960

0bps

/O

dd11

: 960

0bps

/N

one

12: 1

9200

bps

/

Even

13: 1

9200

bps

/O

dd14

: 192

00bp

s

/Non

e

Endress+Hauser 133


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

STA

TUS

1 DE

LAY

51Se

t del

ay ti

me

betw

een

activ

atio

n of

Sta

tus

1 ON

inpu

t sig

nal a

nd S

tatu

s1

outp

ut s

igna

l.0s

Set

0 - 9

9s29

0

SELE

CT C

ONTA

CT51

Sele

ct n

orm

al re

lay

cond

ition

for S

tatu

s1: N

orm

al O

pen

or N

orm

alCl

osed

.N

ONE

Sele

ct

NON

EN

ORM

AL

OPEN

EDN

ORM

AL

CLOS

ED(A

LARM

= O

PEN

)(A

LARM

= C

LOSE

D)

291

WM

550

ALM

. SEL

ECT

51

Set t

he A

larm

Bit

for W

M55

0 co

mm

unic

atio

n.(A

vaila

ble

only

with

WM

550

spec

ifica

tion)

.1

Sele

ct4-

Jan

292

WM

550

BSW

SEL

ECT

51Se

lect

sou

rce

of B

SW le

vel d

ata

for W

M55

0 co

mm

unic

atio

n."0

" = U

pper

I/F

Leve

l, "1

" = (N

MT5

39)W

ater

Bot

tom

leve

l.(A

vaila

ble

only

with

WM

550

spec

ifica

tion)

0Se

lect

0 - 1

293

WM

550

DEN

S. S

EL.

51

Sele

ct s

ourc

e of

dat

a tr

ansm

it in

resp

onse

to ta

sk 1

7, s

ub-t

ask

11 q

uery

.(A

vaila

ble

only

with

WM

550

spec

ifica

tion)

.

0Se

lect

0 - 2

294

WM

S550

SW

_ID_

20xx

51Se

t the

last

2 d

igits

(xx)

of t

he W

M55

0 se

nsor

add

ress

(20x

x).

(Ava

ilabl

e on

ly w

ith W

M55

0 sp

ecifi

catio

n)37

Set

0 - 9

929

5

BALA

NCE

DEL

AY

51Se

ts ti

me

betw

een

disp

lace

r bal

ance

and

Bal

ance

Sig

nal o

utpu

t.0s

Set

0 - 9

9s29

9

DEVI

CE D

ATA

STA

TUS

1: b

it 0

Ala

rm N

o.1

(Hig

h-hi

gh)

2: b

it 1

Ala

rm N

o.2

(Hig

h)3:

bit

2 A

larm

No.

3(L

ow)

4: b

it 3

Ala

rm N

o.4

(Low

-low

)

Para

met

erDe

nsity

Dat

a So

urce

Tem

p. D

ata

Sour

ce0:

Upp

er D

ensi

ty1:

Pro

file

Ave

. Den

s.2:

IF P

rof.

Ave

. Den

s.

GVH

005

Upp

er D

ensi

tyGV

H85

4 A

vera

ge D

ensi

tyGV

H95

4 A

vera

ge D

ensi

ty

GVH

010

Liqu

id T

emp.

GVH

855

Ave

rage

Tem

p.GV

H95

5 A

vera

ge T

emp.

134 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

WIR

E DR

UM

CIR

C.51

Circ

umfe

renc

e of

wire

dru

m is

mea

sure

d at

fact

ory

and

insc

ribed

on

the

wire

dru

m. U

sed

by C

PU to

cal

cula

te M

easu

red

Leve

l.30

0.00

0mm

Set

0.00

0 - 9

99.9

99m

m34

0

WIR

E W

EIGH

T51

Wei

ght o

f mea

surin

g w

ire p

er 1

0 m

eter

s. U

sed

by C

PU to

det

erm

ine

bala

nce

wei

ght.

Stan

dard

mea

surin

g w

ire is

1.4

0 g/

10 m

.PF

A w

ire is

4.5

5 g/

10 m

.H

aste

lloy

C w

ire is

2.8

g/1

0 m

1.40

g/10

mSe

t0.

00 -

999.

99g/

10m

341

DISP

LACE

R W

EIGH

T51

Wei

ght o

f dis

plac

er is

mea

sure

d at

fact

ory

and

insc

ribed

on

the

wire

drum

. Use

d by

CPU

to c

alcu

late

Mea

sure

d an

d In

terf

ace

Leve

ls a

ndde

nsiti

es.

XXX.

XgSe

t0.

0 -

999.

9g34

2

DISP

LACE

R VO

LUM

E51

Tota

l vol

ume

of d

ispl

acer

is m

easu

red

at fa

ctor

y an

d in

scrib

ed o

n th

ew

ire d

rum

. Use

d by

CPU

to c

alcu

late

Inte

rfac

e Le

vels

and

Den

sitie

s.XX

X.Xm

lSe

t0.

0 -

999.

9ml

343

BALA

NCE

VOL

UM

E51

Bala

nce

volu

me

of d

ispl

acer

is m

easu

red

at fa

ctor

y an

d in

scrib

ed o

n th

ew

ire d

rum

, app

roxi

mat

ely

one-

half

of D

ispl

acer

Vol

ume

(G3V

4H3)

. Use

dby

CPU

to c

alcu

late

Mea

sure

d an

d In

terf

ace

Leve

ls.

XXX.

Xml

Set

0.0

-99

9.9m

l34

4

VOLU

ME

TOLE

RAN

CE51

Disp

lace

r im

mun

ity to

var

iatio

n in

liqu

id s

urfa

ce le

vel d

urin

g Ba

lanc

eco

nditi

on. B

ased

on

dens

ity =

1.0

, set

ting

for s

tand

ard

50 m

m d

ispl

acer

is 1

.0 m

L (1

g).

Incr

ease

to c

ount

er tu

rbul

ence

and

wav

es. L

evel

acc

urac

yva

ries

inve

rsel

y as

Vol

ume

Tole

ranc

e.

1.0m

lSe

t0.

0 -

999.

9ml

345

DELA

Y51

Inte

rval

unt

il di

spla

cer r

espo

nds

to c

hang

e in

liqu

id le

vel.

Incr

ease

toco

unte

r sm

all

20 x

100

ms

Set

0 - 9

9 x

100m

s34

7

DRU

M C

ORRE

CTIO

N51

The

erro

r of t

he w

ire le

ngth

of o

ne d

rum

revo

lutio

n is

set

as

corr

ectio

nva

lue.

0.00

mm

/mSe

t0.

00 -

99.0

0mm

/m34

8

DISP

L. H

UN

T. C

OUN

T51

Defin

es th

e nu

mbe

r of t

imes

dis

plac

er s

earc

hes

for b

alan

ce c

ondi

tion.

To

bala

nce

on s

olid

sur

face

set

to n

on-z

ero

valu

e (e

.g. 1

)0

coun

tSe

t0

- 99

coun

t34

9

SERV

ICE

MEA

S. W

IRE

& D

RUM

Endress+Hauser 135


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

ACT

UA

L LE

VEL

530

Leve

l fro

m R

efer

ence

Pos

ition

to d

ispl

acer

0.0m

mDi

spla

yOK

350

ENCO

DER

COU

NT

530

Enco

der p

ulse

cou

nt0

coun

tDi

spla

yOK

351

NON

HYS

TER.

MOD

E51

Non

-Hys

tere

sis

Oper

atio

n m

ode.

Whe

n tu

rned

ON

dis

plac

er is

rasi

ed a

ppro

x.2m

m a

nd th

en s

eeks

bal

ance

con

ditio

n ag

ain.

OFF

Sele

ctOF

FON

352

HI.

ACC

URA

CY M

ODE

51W

hen

disp

lace

r rea

ches

Tem

pora

ry B

alan

ce c

ondi

tion,

it is

rais

ed (G

cV5H

5)m

illim

eter

s, w

eigh

ed a

nd th

en s

eeks

bal

ance

con

ditio

n ag

ain.

OFF

Sele

ctOF

FON

353

HI.

ACC

R. O

PE T

IME

51In

terv

al o

f Tem

pora

ry B

alan

ce c

ondi

tion

until

dis

plac

er is

rais

ed a

nd w

eigh

ed.

0sSe

t0

- 600

s35

4

HI.A

CC.D

ISP.

UP

51Di

stan

ce d

ispl

acer

rais

ed in

Hig

h A

ccur

acy

Mod

e op

erat

ion.

50m

mSe

t0

- 300

mm

355

GAU

GE T

EMP

51Di

spla

ys te

mpe

ratu

re in

side

ele

ctro

nics

hou

sing

of N

MS5

.XX

XDi

spla

y-9

99 -

999

356

DEFA

ULT

VA

LUES

530

Initi

aliz

atio

n of

dev

ice

data

. (fa

ctor

y re

set)

OFF

Sele

ctON

359

SEN

SOR

DATA

-Di

spla

ys N

MS5

Pro

serv

o sp

ecifi

catio

ns :

soft

war

e an

d ha

rdw

are

vers

ions

, rem

ote

com

mun

icat

ion

(On/

Off)

, driv

e ge

arra

tio.

LOCA

LM

AST

ERDi

spla

y

REM

OTED

COM

. ON

SOFT

WA

RE =

xxx

HA

RDW

ARE

= TC

B0x

GEA

R 1:

36N

OT O

VERS

PILL

360

CON

NEC

TION

NRF

51Se

lect

s sw

itch

for c

omm

unic

atio

ns to

NRF

560

Pro

mon

itor.

For N

RF 5

60 S

W v

1.81

and

bef

ore,

sel

ect C

onta

ct 1

. For

NRF

560

SW v

1.82

and

late

n, s

elec

t Con

tact

2.

OFF

Sele

ctOF

FCO

NTA

CT 1

CON

TACT

236

1

CON

NEC

TION

NM

T51

Sele

ct s

witc

h fo

r com

mun

icat

ion

to N

MT5

Ser

ies

Prot

herm

o.Se

lect

Ave

rage

or S

pot.

OFF

Sele

ctOF

F, S

POT

TEM

P.A

VARA

GE T

EMP.

362

IF L

EVEL

SEL

ECT

51

Sele

ct fr

ee s

cann

ing

data

sou

rce

for w

ater

leve

l (W

M55

0 on

ly).

Sele

ct

UP

LEVE

L SE

LECT

UP

IF L

EVEL

WA

TER

BOTT

OMW

ATE

R BO

TTOM

2

368

SOFT

RES

ET51

Rest

arts

NM

S5 P

rose

rvo

soft

war

eOF

FSe

lect

OFF

ON36

9

SERV

ICE

GAU

GE D

ATA

SYST

EM D

ATA

Para

met

er

WA

TER

BOTT

OM

NM

S Pr

oser

vo: U

pper

Inte

rfac

e Le

vel

o

r Wat

er D

ip O

pera

tion

Free

Sca

n Da

ta S

ourc

e

UP_

IF_L

EVEL

WA

TER

BOTT

OM

2

NM

T539

WB:

Wat

er b

otto

m le

vel d

ata

is ta

ken

for

HA

RT F

reeS

can.

If u

pper

inte

rfac

e co

mm

and

isre

ceiv

ed fr

om h

ost v

ia S

akur

a V1

com

mun

icat

ion,

wat

er b

otto

m le

vel i

s ret

urne

d. O

ther

ope

ratio

nsre

turn

dat

a ba

sed

on th

e pr

oser

vo se

ttin

g (u

pper

inte

rfac

e or

wat

er d

ip o

prat

ion)

. Wat

er b

otto

m d

ata

is ta

ken

via

inte

rrup

t-sc

an in

HA

RT co

mm

unic

atio

n.

NM

T539

WB:

Wat

er b

otto

m le

vel d

ata

is ta

ken

for

HA

RT F

reeS

can.

Upp

er in

terf

ace

com

man

d re

turn

sda

ta b

ased

on

the

pros

ervo

sett

ing

(upp

er in

terf

ace

or w

ater

dip

opr

atio

n). W

ater

bot

tom

dat

a is

take

nvi

a in

terr

upt-

scan

in H

ART

com

mun

icat

ion.

136 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

MEA

SURE

D W

EIGH

T-

Disp

lays

tens

ion

on m

easu

ring

wire

as

calc

ulat

ed b

y N

MS

CPU

mod

ule.

XXX.

XgDi

spla

y0.

0 - 9

99.9

g37

0

RELE

. OVE

R TE

NS

51Re

leas

e di

spla

cer o

vert

ensi

on c

ondi

tion.

Not

e : F

irst,

set G

0V2H

0. O

pera

tion

= ST

OP.

OFF

Sele

ctOF

FON

371

DRU

M S

ETTI

NG

51

Alig

ns w

ire d

rum

with

inte

rnal

det

ecto

r uni

t. W

hen

disp

lace

r is

ship

ped

epar

atel

y, a

nd w

ire d

rum

is re

mov

ed to

inst

all d

ispl

acer

, set

this

func

tion

prio

r to

mak

ing

new

Wei

ght C

alib

ratio

n.N

ot re

quire

d fo

r All-

in-O

ne s

hipm

ents

of N

MS5

Pro

serv

o.

OFF

Sele

ctOF

FON

372

WEI

GHT

CALI

BR.

51

Initi

ates

Wei

ght T

able

reca

libra

tion

proc

edur

e. O

verw

rites

exi

stin

gw

eigh

t tab

le w

ith n

ew w

eigh

t tab

le.

Caut

ion!

: Onc

e re

calib

ratio

n pr

oced

ure

begi

ns it

mus

t be

com

plet

ed, i

.e. i

tco

nnot

be

stop

ped

or re

vers

ed.

OFF

Sele

ctOF

FON

373

DISP

L. R

EFER

ENCE

51Le

ngth

for t

he s

tart

ing

posi

tion

of w

eigh

t cal

ibra

tion.

The

disp

lace

r will

sto

p at

this

pos

ition

with

out r

egar

d to

the

high

sto

ple

vel w

hen

it is

hoi

sted

, if t

he h

igh

stop

leve

l is

set h

ighe

r tha

n th

is p

oint

.70

mm

Set

0 - 9

9937

8

ZERO

ADJ

. WEI

GHT

51Lo

w w

eigh

t for

wei

ght c

alib

ratio

n.0.

0g /

50.

xgSe

t0.

0 - 9

99.9

g37

9

SERV

ICE

VALU

E

SEN

SOR

VALU

E51

Disp

lays

the

A/D

val

ues

from

the

enco

der.

Sa

210

00A

2100

0Sb

1

1000

B

110

00

Disp

lay

380

WT.

COU

NT

CAL

A51

Disp

lays

A/D

and

dis

plac

er w

eigh

t cor

rect

ion

valu

es fo

r Sen

sor A

Use

the

+ an

d - k

ey to

scr

oll t

hrou

gh 5

0 po

ints

.X

X X.

XgDi

spla

y39

4

WT.

COU

NT

CAL.

B51

Disp

lays

A/D

and

dis

plac

er w

eigh

t cor

rect

ion

valu

es fo

r Sen

sor B

Use

the

+ an

d - k

ey to

scr

oll t

hrou

gh 5

0 po

ints

.X

X X.

XgDi

spla

y39

5

SERV

ICE

SERV

ICE

SERV

ICE

DATA

Endress+Hauser 137


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

LIQU

D TE

MP.

51Di

spla

ys c

urre

nt a

vera

ge li

quid

tem

pera

ture

.XX

.X

Disp

lay

Depe

ndin

g on

spec

ifica

tion

and

440

GAS

TEM

PERA

TURE

51Di

spla

ys c

urre

nt a

vera

ge g

as te

mpe

ratu

re.

XX.X

Di

spla

yDe

pend

ing

onsp

ecifi

catio

n an

d44

1

MEA

SURE

D LE

VEL

51Di

spla

ys M

easu

red

Leve

l dat

a re

ceiv

ed fr

om N

MS5

Pro

serv

o,de

pend

ing

on s

elec

tion

at G

4V4H

3 Le

vel D

ata

Sele

ct.

XXXX

X.Xm

mDi

spla

yDe

pend

ing

onsp

ecifi

catio

n an

dm

easu

red

valu

e44

2

LEV.

DA

TA S

ELEC

T51

Sele

ct le

vel d

ata

to re

ceiv

e fr

om N

MS5

Pro

serv

o, u

sed

for a

vera

ging

calc

ulat

ions

. Sel

ect "

VH00

" to

rece

ive

Mea

sure

d Le

vel (

actu

al d

ispl

acer

posi

tion)

.Se

lect

"VH

08" t

o re

ceiv

e Le

vel D

ata

(last

reco

rded

leve

l pos

ition

).

VH00

Sele

ctVH

00VH

0844

3

WA

TER

BOTT

OM51

Disp

lays

wat

er le

vel d

ata

from

the

NM

T 53

9 W

ater

Bot

tom

.G3

V6H

8 m

ust b

e se

t to

eith

er "W

ATE

R BO

TTOM

" or "

WA

TER

BOTT

OM2"

0.0m

mDi

spla

yDe

pend

ing

onsp

ecifi

catio

n an

dm

easu

red

valu

e44

4

DIA

GNOS

TIC

51Di

spla

ys re

fere

nce

resi

stan

ce o

n ci

rcui

t boa

rd c

orre

spon

ding

to 0

°C.

0.0

Disp

lay

Depe

ndin

g on

spec

ifica

tion

and

447

REFE

REN

CE 1

5051

Disp

lays

refe

renc

e re

sist

ance

on

circ

uit b

oard

cor

resp

ondi

ng to

150

°C.

150

Disp

lay

Depe

ndin

g on

spec

ifica

tion

and

449

TEM

PERA

TURE

TEM

PERA

TURE

DA

TA

138 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

TEM

P. N

O.1

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 1 (l

owes

t ele

men

t).

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

450

TEM

P. N

O.2

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 2.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

451

TEM

P. N

O.3

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 3.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

452

TEM

P. N

O.4

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 4.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

453

TEM

P. N

O.5

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 5.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

454

TEM

P. N

O.6

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 6.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

455

TEM

P. N

O.7

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 7.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

456

TEM

P. N

O.8

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 8.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

457

TEM

P. N

O.9

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 9.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

458

TEM

P. N

O.10

51Di

spla

ys te

mpe

ratu

re o

f ele

men

t 10.

XXX.

X Di

spla

yDe

pend

ing

on N

MT

spec

ifica

tions

459

TEM

PERA

TURE

ELEM

ENT

TEM

P.De

pend

ing

onsp

ecifi

catio

n an

dm

easu

red

valu

e.

Endress+Hauser 139


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

ELEM

.1 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 1, a

lso

calle

d "B

otto

m" (

low

est)

ele

men

t.XX

X.Xm

mDi

spla

y0

- 999

99.9

mm

460

ELEM

.2 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 2.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

1

ELEM

.3 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 3.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

2

ELEM

.4 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 4.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

3

ELEM

.5 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 5.

X XX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

4

ELEM

.6 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 6.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

5

ELEM

.7 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 7.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

6

ELEM

.8 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 8.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

7

ELEM

.9 P

OSIT

ION

51Di

spla

ys p

ositi

on o

f ele

men

t 9.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

8

ELEM

.10

POSI

TION

51Di

spla

ys p

ositi

on o

f ele

men

t 10.

XXX.

Xmm

Disp

lay

0 - 9

9999

.9m

m46

9

TEM

PERA

TURE

ELEM

ENT

POSI

TION

Depe

ndin

g on

spec

ifica

tion

140 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

SELE

CT. P

OIN

T51

Sele

ct e

lem

ent n

umbe

r for

zer

o ad

just

men

t pro

cedu

re.

Sele

ctio

n be

gins

at 0

, whi

ch is

ele

men

t 1. S

elec

t 1 fo

rel

emen

t 2, e

tc.

Als

o us

ed to

sel

ect e

lem

ents

11-

16 (i

nput

10-

15)

0Se

t0-

15 S

elec

tabl

e0(

No.

1) -

15(N

o.16

)47

0

ZERO

ADJ

UST

51Se

t zer

o ad

just

men

t val

ue fo

r ele

men

t sel

ecte

d at

G4V

7H1.

0.0

Set

-20.

0 - 2

0.0

471

GAIN

ADJ

UST

51Se

t gai

n ad

just

men

t val

ue fo

r tem

pera

ture

mea

surm

ent.

This

set

ting

is m

ade

at fa

ctor

y be

fore

shi

ppin

g an

d sh

ould

not

be

adju

sted

in th

e fie

ld.

1.00

0Se

t47

2

ELEM

ENT

TEM

P51

Disp

lays

tem

pera

ture

for e

lem

ent N

o. 1

0-15

(No.

16

for N

MT

mod

ule

only

).

XXX.

XDi

spla

yDe

pend

ent o

n N

MT

spec

ifica

tions

473

ELEM

ENT

POSI

TION

51

Disp

lays

tem

pera

ture

for e

lem

ent N

o. 1

0-15

whe

n se

lect

ed a

t G4V

7H0

Sele

ct P

oint

.

(No.

16

for N

MT

mod

ules

onl

y)

XXX.

Xmm

Disp

lay

0.0

- 999

99.9

mm

474

AVE

RAGI

NG

51Se

t sam

plin

g co

effic

ient

for a

vera

ging

dat

a. In

crea

se to

redu

ce im

pact

of

nois

e.2

Set

10-Ja

n47

8

ACC

ESS

CODE

51Di

spla

ys c

urre

nt A

cces

s co

de.

530

Set

0 - 9

9947

9

TEM

PERA

TURE

NM

T A

DJU

STM

ENT

CAUTION

CAUTION

Endress+Hauser 141


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

DIA

GNOS

TIC

51Di

spla

ys c

urre

nt N

MT

diag

nost

ic c

ode.

0Di

spla

y0

- 255

480

TEM

PERA

TURE

UN

IT51

Disp

lays

sel

ecte

d te

mpe

ratu

re u

nit.

Disp

lay

481

TOTA

L N

O. E

LEM

ENT

51Se

t tot

al n

umbe

r of e

lem

ents

in N

MT

tem

pera

ture

sen

sor.

XXSe

t16

-Feb

482

PREA

MBL

E N

UM

BER

51Di

spla

y of

pre

ambl

es fo

r HA

RT p

roto

col.

5Di

spla

y20

-Feb

483

LEN

GTH

UN

IT51

Disp

lays

sel

ecte

d le

ngth

uni

t.m

mDi

spla

y48

4

KIN

D OF

INTE

RVA

L51

Sele

ct ty

pe in

terv

al b

etw

een

tem

per a

ture

ele

men

ts. I

f Une

qual

is s

elec

ted,

mus

t set

ele

men

t poi

sitio

ns a

t G4V

6 H

0 to

9, G

4V7H

4.Th

is v

alue

is s

et a

t the

fact

ory.

Use

r doe

s no

t hav

e to

set

.

Depe

nden

t on

NM

Tsp

ecifi

catio

nsSe

lect

EQU

AL

UN

EQU

AL

485

BOTT

OM P

OIN

T51

Set p

ositi

on o

f ele

men

t 1 (l

owes

t ele

men

t) a

bove

tank

bot

tom

.A

vaila

ble

only

whe

n G4

V8H

5 =

Equa

l.Th

is v

alue

is s

et a

t the

fact

ory.

Use

r doe

s no

t hav

e to

set

.50

0.0m

mSe

t0.

0 - 5

00.0

mm

486

ELEM

ENT

INTE

RVA

L51

Set s

paci

ng b

etw

een

elem

ents

.A

vaila

ble

only

whe

n G4

V8H

5 =

Equa

l.Th

is v

alue

is s

et a

t the

fact

ory.

Use

r doe

s no

t hav

e to

set

.20

00.0

mm

Set

0.0

- 999

99.9

mm

487

TEM

P. E

LEM

. SH

ORT

51Se

t tem

pera

ture

indi

catio

n se

nt to

NM

S5 P

rose

rvo

Hom

ePo

sitio

n w

hen

elem

ent i

s sh

orte

d an

d G4

V9H

2 =

ON.

-49.

5Se

t-4

9.5

- 359

.548

8

TEM

P. E

LEM

. OPE

N51

Set t

empe

ratu

re in

dica

tion

sent

to N

MS5

Pro

serv

o H

ome

Posi

tion

whe

n el

emen

t is

open

and

G4V

9H2

= ON

.35

9.0

Set

-49.

5 - 3

59.5

489

TEM

PERA

TURE

SET

DATA

NM

T

142 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

INST

RUM

ENT

CODE

51Di

spla

ys h

ardw

are

unit

num

ber.

Disp

lay

490

LAST

DIA

GNOS

TIC

51Di

spla

ys m

ost r

ecen

t err

or m

essa

ge.

Disp

lay

491

OUTP

UT

AT

ERRO

R51

Sele

ct O

N fo

r out

put a

nd in

dica

tion

in c

ase

of e

lem

ent s

hort

or e

lem

ent

open

con

ditio

n.0

Sele

ct0

(OFF

)1

(ON

)49

2

CUST

ODY

TRA

NSF

ER51

Disp

lay

stat

us o

f cus

tody

tran

sfer

func

tion.

OFF

Sele

ctOF

FON

493

POLL

ING

ADD

RESS

51Se

lect

pol

ling

addr

ess

(1-F

) for

NM

T535

/539

/532

Pro

ther

mo

for u

se in

mul

ti-dr

op a

pplic

atio

ns. S

et a

ddre

ss 3

for c

onne

ctio

n w

ith N

MS.

2Se

t1

- F(1

6 ad

dres

ses)

494

MA

NU

FACT

URE

ID51

Disp

lays

iden

tific

atio

n nu

mbe

r for

NM

T535

/539

/532

Pro

ther

mo.

Endr

ess+

Hau

ser

1717

Disp

lay

495

SW V

ERSI

ON51

Disp

lays

sof

twar

e ve

rsio

n of

NM

T535

/539

/532

Pro

ther

mo.

XXX

Disp

lay

496

HW

VER

SION

51Di

spla

ys h

ardw

are

vers

ion

of N

MT5

35/5

39/5

32 P

roth

erm

o.X.

XXDi

spla

y49

7

BELO

W B

OT. P

OIN

T53

0Se

lect

ON

to c

ance

l "N

MT

Belo

w B

otto

m P

oint

" err

or m

essa

ge o

utpu

t to

MM

S w

hen

disp

lace

r sin

ks b

elow

low

est t

empe

ratu

re e

lem

ent.

ONSe

lect

OFF

ON49

8

DEVI

CE T

YPE

CODE

51Di

spkl

ays

devi

ce ty

pe c

ode

for N

MT5

35/5

39/5

32 P

roth

erm

o.XX

XDi

spla

y49

9

TEM

PERA

TURE

DEVI

CE D

ATA

NM

T

Endress+Hauser 143

M
atrix

Gro

upFu

nctio

n Gr

oup

Item

Acc

ess

Code

Shor

t Des

crip

tion

Defa

ult V

alue

Set/

Sele

ct/D

ispl

ayPo

ssib

le E

ntrie

sIn

dex

No.

GVH

PV D

ATA

-Di

spla

ys p

rimar

y va

riabl

e da

ta o

f the

HA

RT D

evic

e.Di

spla

y54

0

SV D

ATA

-Di

spla

ys s

econ

dary

var

iabl

e da

ta o

f the

HA

RT D

evic

e.Di

spla

y54

1

HA

RT D

EVIC

E (1

)51

Sele

ct H

ART

Dev

ice

1 fu

nctio

n: O

FF, O

N, L

iqui

d Te

mpe

ratu

re, G

asTe

mpe

ratu

re. I

f "Li

quid

Tem

pera

ture

" is

sele

cted

, val

ue is

refle

cted

at

G0V1

H0

and

G0V1

H1.

OFF

Sele

ct

OFF

LIQU

ID T

EMP.

GAS

TEM

PERA

TURE

ON

549

P.V.

RAN

GE U

NIT

51Se

ttin

g of

rang

e un

it fo

r prim

ary

varia

ble

in H

ART

com

man

d co

de.

Set

550

P.V.

UPP

ER R

AN

GE51

Sett

ing

of u

pper

rang

e of

prim

ary

varia

ble.

Set

551

P.V.

LOW

ER R

AN

GE51

Sett

ing

of lo

wer

rang

e of

prim

ary

varia

ble.

Set

552

DAM

P VA

LUE

51Se

ttin

g of

dam

ping

of p

rimar

y va

riabl

e.Se

t55

3

SEN

SOR

SERI

AL

NO

-Di

spla

ys s

enso

r ser

ial n

umbe

r.Di

spla

y56

0

UPP

ER S

ENSO

R LM

T-

Disp

lays

upp

er li

mi t

of th

e H

ART

Dev

ice.

Disp

lay

561

LOW

ER S

ENSO

R LM

T-

Disp

alys

low

er li

mit

of th

e H

ART

Dev

ice.

Disp

lay

562

ERRO

R CO

DE (1

)-

Disp

lays

of t

he e

rror

cod

e (1

) the

HA

RT d

evic

e.Di

spla

y58

0

ERRO

R CO

DE (2

)-

Disp

lays

of t

he e

rror

cod

e (2

) the

HA

RT d

evic

e.Di

spla

y58

1

ERRO

R CO

DE (3

)-

Disp

lays

of t

he e

rror

cod

e (3

) the

HA

RT d

evic

e.Di

spla

y58

2

ERRO

R CO

DE (4

)-

Disp

lays

of t

he e

rror

cod

e (4

) the

HA

RT d

evic

e.Di

spla

y58

3

ERRO

R CO

DE (5

)-

Disp

lays

of t

he e

rror

cod

e (5

) the

HA

RT d

evic

e.Di

spla

y58

4

POLL

ING

ADD

RESS

-

Disp

lays

pol

ling

addr

ess

of H

ART

Dev

ice

1. A

ddre

ss (f

ixed

) = 4

.Th

e fo

llow

ing

polli

ng a

ddre

ss a

re a

lread

y us

ed N

RF=1

, NM

T=2,

Lev

elDe

vice

=3.

Whe

n co

nnec

ting

a pr

essu

re s

enso

r, ID

(1)=

4 an

d/or

ID(2

)=5

are

used

.

4Di

spla

y59

1

MA

NU

FACT

URE

ID-

Disp

lays

man

ufac

ture

r ID

num

ber o

f the

HA

RT D

evic

e.Di

spla

y59

2

DEVI

CE T

YPE

CODE

-Di

spla

ys d

evic

e ty

pe c

ode

of th

e H

ART

Dev

ice.

Disp

lay

593

PREA

MBL

ES-

Set n

umbe

r of p

ream

bles

for t

he H

ART

dev

ice.

Set

594

SW V

ERSI

ON-

Disp

lays

the

soft

war

e ve

rsio

n fo

r the

HA

RT d

evic

e.Di

spla

y59

5

HW

VER

SION

-Di

spla

ys th

e ha

rdw

are

vers

ion

for t

he H

ART

dev

ice.

Disp

lay

596

DEVI

CE ID

-Di

spla

ys th

e de

vice

ID fo

r the

HA

RT d

evic

e.Di

spla

y59

7

MEA

SURE

D VA

LUE

SEN

SOR

SPEC

IFIC

P.V.

SETT

ING

HA

RT D

EVIC

E (1

)

SELF

DIA

GNIS

TIC

Cons

ult H

ART

dev

ice

oper

atio

n /

serv

ice

man

ual

DEVI

CE D

ATA

144 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

PV D

ATA

-Di

spla

ys p

rimar

y va

riabl

e da

ta o

f the

HA

RT D

evic

e.Di

spla

y64

0

SV D

ATA

-Di

spla

ys s

econ

dary

var

iabl

e da

ta o

f the

HA

RT D

evic

e.Di

spla

y64

1

HA

RT D

EVIC

E (2

)51

Sele

ct H

ART

Dev

ice

1 fu

nctio

n: O

FF, O

N, L

iqui

d Te

mpe

ratu

re, G

asTe

mpe

ratu

re. I

f "Li

quid

Tem

pera

ture

" is

sele

cted

, val

ue is

refle

cted

at

G0V1

H0

and

G0V1

H1.

OFF

Sele

ct

OFF

LIQU

ID T

EMP.

GAS

TEM

PERA

TURE

ON

649

P.V.

RAN

GE U

NIT

51Se

ttin

g of

rang

e un

it fo

r prim

ary

varia

ble

in H

ART

com

man

d co

de.

Set

650

P.V.

UPP

ER R

AN

GE51

Sett

ing

of u

pper

rang

e of

prim

ary

varia

ble.

Set

651

P.V.

LOW

ER R

AN

GE51

Sett

ing

of lo

wer

rang

e of

prim

ary

varia

ble.

Set

652

DAM

P VA

LUE

51Se

ttin

g of

dam

ping

of p

rimar

y va

riabl

e.Se

t65

3

SEN

SOR

SERI

AL

NO

-Di

spla

ys s

enso

r ser

ial n

umbe

r.Di

spla

y66

0

UPP

ER S

ENSO

R LM

T-

Disp

lays

upp

er li

mit

of th

e H

ART

Dev

ice.

Disp

lay

6 61

LOW

ER S

ENSO

R LM

T-

Disp

alys

low

er li

mit

of th

e H

ART

Dev

ice.

Disp

lay

662

ERRO

R CO

DE (1

)-

Disp

lays

of t

he e

rror

cod

e (1

) the

HA

RT d

evic

e.Di

spla

y68

0

ERRO

R CO

DE (2

)-

Disp

lays

of t

he e

rror

cod

e (2

) the

HA

RT d

evic

e.Di

spla

y68

1

ERRO

R CO

DE (3

)-

Disp

lays

of t

he e

rror

cod

e (3

) the

HA

RT d

evic

e.Di

spla

y68

2

ERRO

R CO

DE (4

)-

Disp

lays

of t

he e

rror

cod

e (4

) the

HA

RT d

evic

e.Di

spla

y68

3

ERRO

R CO

DE (5

)-

Disp

lays

of t

he e

rror

cod

e ( 5

) the

HA

RT d

evic

e.Di

spla

y68

4

POLL

ING

ADD

RESS

-

Disp

lays

pol

ling

addr

ess

of H

ART

Dev

ice

2. A

ddre

ss (f

ixed

) = 5

.Th

e fo

llow

ing

polli

ng a

ddre

ss a

re a

lread

y us

ed N

RF=1

, NM

T=2,

Lev

elDe

vice

=3.

Whe

n co

nnec

ting

a pr

essu

re s

enso

r, ID

(1)=

4 an

d/or

ID(2

)=5

are

used

.

5Di

spla

y69

1

MA

NU

FACT

URE

ID-

Disp

lays

man

ufac

ture

r ID

num

ber o

f the

HA

RT D

evic

e.Di

spla

y69

2

DEVI

CE T

YPE

CODE

-Di

spla

ys d

evic

e ty

pe c

ode

of th

e H

ART

Dev

ice.

Disp

lay

693

PREA

MBL

ES-

Set n

umbe

r of p

ream

bles

for t

he H

ART

dev

ice.

Disp

lay

694

SW V

ERSI

ON-

Disp

lays

the

soft

war

e ve

rsio

n fo

r the

HA

RT d

evic

e.Di

spla

y69

5

HW

VER

SION

-Di

spla

ys th

e ha

rdw

are

vers

ion

for t

he H

ART

dev

ice.

Disp

lay

696

DEVI

CE ID

-Di

spla

ys th

e de

vice

ID fo

r the

HA

RT d

evic

e.Di

spla

y69

7

SELF

DIA

GNIS

TIC

Cons

ult H

ART

dev

ice

oper

atio

n /

serv

ice

man

ual

DEVI

CE D

ATA

HA

RT D

EVIC

E (2

)M

EASU

RED

VALU

E

P.V.

SETT

ING

SEN

SOR

SPEC

IFIC

Endress+Hauser 145

M
atrix

Gro

upFu

nctio

n Gr

oup

Item

Acc

ess

Code

Shor

t Des

crip

tion

Defa

ult V

alue

Set/

Sele

ct/D

ispl

ayPo

ssib

le E

ntrie

sIn

dex

No.

GVH

ADJ

A Z

ERO

530

Hal

l Sen

sor A

Zer

o si

gnal

Set

740

ADJ

A Z

ERO

530

Hal

l Sen

sor A

Zer

o si

gnal

Set

741

ADJ

B S

PAN

530

Hal

l Sen

sor B

Ful

l spa

n si

gnal

Set

742

ADJ

B S

PAN

530

Hal

l Sen

sor B

Ful

l spa

n si

gnal

Set

743

ERR.

RA

TE N

RF53

0Co

mm

unic

atio

n er

ror r

ate

0.00

%Di

spla

y75

0

ERR.

RA

TE N

MT

530

Com

mun

icat

ion

erro

r rat

e0.

00%

Disp

lay

751

ERR.

RA

TE D

EV (1

)53

0Co

mm

unic

atio

n er

ror r

ate

0.00

%Di

spla

y75

2

ERR.

RA

TE D

EV (2

)53

0Co

mm

unic

atio

n er

ror r

ate

0 .00

%Di

spla

y75

3

LEV.

UN

IT (H

OST)

51Se

lect

dis

play

uni

ts fo

r lev

el v

alue

dat

a to

be

sent

to h

ost C

PU v

ia re

mot

eco

mm

unic

atio

nsm

mSe

lect

m, i

nch,

cm

, ft

760

TEM

P U

NIT

(HOS

T)51

Sele

ct u

nits

for t

empe

ratu

re v

alue

dat

a to

be

sent

to h

ost C

PU v

ia re

mot

eco

mm

unic

atio

nsSe

lect

R

K76

1

DEN

. UN

IT (H

OST)

51Se

lect

dis

play

uni

ts fo

r den

sity

val

ue d

ata

to b

e se

nt to

hos

t CPU

via

rem

ote

com

mun

icat

ions

g/m

lSe

lect

kg/m

3 , lb/

gl, S

GU,

kg/l

, g/l

, lb/

in3 , s

t/y3

762

LEV.

UN

IT51

Sele

ct u

nits

for l

evel

val

ue d

ata

disp

laye

d lo

cally

at N

MS/

NRF

.m

mSe

lect

m, i

nch,

cm

, ft

765

TEM

P. U

NIT

51Se

lect

uni

ts fo

r tem

pera

ture

dat

a di

spla

yed

loca

lly a

t NM

S/N

RFSe

lect

R

K76

6

DEN

. UN

IT51

Sele

ct u

nits

for d

ensi

ty v

alue

dat

a di

spla

yed

loca

lly a

t NM

S/N

RFg/

ml

Sele

ctkg

/m3 , l

b/gl

, SGU

,kg

/l, g

/l, l

b/in

3 , st/

y376

7

NM

T77

7Se

lect

Ter

min

al P

ort A

(Ex

ia) o

r Ter

min

al P

ort B

(Ex

d) fo

r 770

the

NM

Tco

nnec

tion

TERM

INA

LPO

RT B

Sele

ctTE

RMIN

AL

PORT

BTE

RMIN

AL

PORT

A77

0

HA

RT D

EVIC

E (1

)77

7Se

lect

Ter

min

al P

ort A

(Ex

ia) o

r Ter

min

al P

ort B

(Ex

d) fo

r the

HA

RTDe

vice

1.

TERM

INA

LPO

RT B

Sele

ctTE

RMIN

AL

PORT

BTE

RMIN

AL

PORT

A77

1

HA

RT D

EVIC

E (2

)77

7Se

lect

Ter

min

al P

ort A

(Ex

ia) o

r Ter

min

al P

ort B

(Ex

d) fo

r the

HA

RTDe

vice

2.

TERM

INA

LPO

RT B

Sele

ctTE

RMIN

AL

PORT

BTE

RMIN

AL

PORT

A77

2

NM

T H

ART

Ret

ry53

0Se

t HA

RT re

try

num

ber t

o ch

ange

HA

RT c

omm

unic

atio

n er

ror d

etec

tion

time

of c

onne

cted

NM

T.50

Set

0 - 9

977

3

VOL.

TOL

. FOR

I/F

51Se

t Vol

ume

Tole

ranc

e fo

r Bal

ance

con

ditio

n du

ring

Inte

rfac

e m

easu

rem

ent.

0.3m

lSe

t0.

0 - 9

9.9m

l78

0

BRA

KE R

ATE

51U

sed

for I

nter

face

Mea

sure

men

t. In

crea

se B

rake

Rat

e to

mak

e th

e ba

lanc

ezo

ne s

mal

ler a

nd d

ecre

ase

inte

rfac

e m

easu

rem

ent t

ime.

150

Set

1 - 2

5578

1

BALA

NCE

COU

NT

51U

sed

for I

nter

face

Mea

sure

men

t. Ba

lanc

e si

gnal

is g

ener

ated

aft

er m

otor

mov

emen

t cha

nges

from

fast

to s

low

spe

cifie

d nu

mbe

r of t

imes

.Co

ordi

nate

this

set

ting

with

G2V

9H9

Bala

nce

Dela

y se

ttin

g.15

Set

0 - 2

5578

2

IF 1

OFF

SET

51Ch

ange

this

set

ting

to c

orre

ct In

terf

ace

1 le

vel d

evia

tion.

0.0m

mSe

t-9

999.

9 - 9

999.

9mm

783

IF 2

OFF

SET

51Ch

ange

this

set

ting

to c

orre

ct In

terf

ace

2 le

vel d

evia

tion.

0.0m

mSe

t-9

999.

9 - 9

999.

9mm

784

ADJ

. SEN

SOR

ADJ

. SEN

SOR

HA

RT E

RROR

RA

TE

UN

IT

INTE

RFA

CE A

DJU

ST

HA

RT L

INE

146 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

OPE.

SEL

ECT

51

Sele

ct m

etho

d fo

r den

sity

mea

sure

men

t.

0Sp

otSe

lect

0Sp

ot1

Tank

Pro

file

2I/

F Pr

ofile

3M

AN

U. I

/F P

rofil

e

840

OPE.

POI

NT

51Se

t the

num

ber o

f mea

sure

men

t poi

nts

for T

ank

Prof

ile m

easu

rem

ent.

2Se

t16

-Feb

841

I/F

MA

NU

. LEV

EL51

Man

ually

set

the

wat

er in

terf

ace

leve

l to

be re

fere

nced

dur

ing

Tank

Prof

ile m

easu

rem

ent.

0.0m

mSe

t0.

0 - 9

9999

.9m

m84

3

BAL.

LEV

EL51

Set t

he a

llow

ance

for l

evel

mov

emen

t prio

r to

Tank

Pro

file

oper

atio

n. If

leve

l mov

emen

t exc

eeds

this

val

ue, P

rofil

e op

erat

ion

is c

ance

lled.

Set

ting

99.9

mm

allo

ws

Prof

ile m

easu

rem

ent t

o pr

ocee

d, re

gard

less

of l

evel

mov

emen

t.

2.0m

mSe

t1.

0 - 9

9.9m

m84

4

UP

WA

IT T

IME

51Se

t wai

ting

time

for d

ispl

acer

wei

ght t

o be

mea

sure

d in

air,

whe

n m

akin

gth

e w

eigh

t tab

le a

t sta

rt o

f Pro

file

oper

atio

n.1m

in.

Set

1 - 3

1min

845

LIQ.

WA

IT T

IME

51Se

t the

tim

e fo

r dis

plac

er to

sto

p at

eac

h m

easu

rem

ent p

ositi

on d

urin

gpr

ofile

ope

ratio

n.1m

in.

Set

1 - 3

1min

846

OPE.

WA

IT T

IME

51E.

g. if

leve

l mov

men

et e

xcee

ds s

ettin

g at

G8V

4H4,

Pro

serv

o is

in "s

tand

by" f

or th

e tim

e se

t in

this

mat

rix. A

fter

the

max

imum

tim

e el

apse

s,pr

ofile

ope

ratio

n is

can

celle

d.1m

in.

Set

1 - 3

1min

847

Data

in G

8V4H

0 to

G8V

4H9

are

used

for b

oth

Tank

and

Inte

rfac

e Pr

ofile

mea

sure

men

t

TAN

K PR

OFIL

EPR

OFIL

E OP

E.

CAUTION

0 1 2 3

Spot

Tank

Pro

file

I/F

Prof

ileM

AN

U. I

/F P

rofil

e

Upp

er D

ensi

ty M

easu

rem

ent

Dens

ity P

rofil

e M

easu

rem

ent

Inte

rfac

e De

nsity

Pro

file

Man

ual I

nter

face

Pro

file

Endress+Hauser 147


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

OPE.

STA

TUS

-

Disp

lays

pro

file

oper

atio

n st

atus

.

Disp

lay

850

LEVE

L CO

NDI

TION

-

Disp

lays

sta

tus

of li

quid

leve

l/su

rfac

e m

onito

red

prio

r to

prof

ile o

pera

tion.

Disp

lay

851

OPE.

TIM

E-

Disp

lays

tim

e w

hen

Tank

Pro

file

oper

atio

n fin

ishe

d (D

D/H

H/M

M).

DDH

HM

MDi

spla

y00

0000

- 31

2359

852

AVE

RAGE

DEN

SITY

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spla

ys a

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4

AVE

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TEM

P.-

Disp

lays

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0.0

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TAN

K PR

OFIL

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Off

Lev

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Stab

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Act

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.Li

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uns

tabl

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0 1 2 3 4 5

Acc

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mm

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148 Endress+Hauser


Mat

rix G

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Func

tion

Grou

pIte

mA

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deSh

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escr

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nDe

faul

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t/Se

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/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

No.

1 DE

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TY-

Disp

lays

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val

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for p

oint

No.

1 in

den

sity

pro

file

0.00

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000

- 9.9

99g/

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860

No.

2 DE

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val

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for p

oint

No.

2 in

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sity

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file

0.00

0g/m

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000

- 9.9

99g/

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861

No.

3 DE

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for p

oint

No.

3 in

den

sity

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0.00

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000

- 9.9

99g/

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862

No.

4 DE

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No.

4 in

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file

0.00

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000

- 9.9

99g/

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863

No.

5 DE

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lays

den

sity

val

ues

for p

oint

No.

5 in

den

sity

pro

file

0.00

0g/m

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000

- 9.9

99g/

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864

No.

6 DE

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lays

den

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val

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for p

oint

No.

6 in

den

sity

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0.00

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000

- 9.9

99g/

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865

No.

7 DE

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den

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val

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for p

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No.

7 in

den

sity

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file

0.00

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- 9.9

99g/

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866

No.

8 DE

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den

sity

val

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for p

oint

No.

8 in

den

sity

pro

file

0.00

0g/m

lDi

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- 9.9

99g/

ml

867

No.

9 DE

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den

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val

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for p

oint

No.

9 in

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0.00

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868

No.

10 D

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TY-

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No.

10 i

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869

No.

11 D

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TY-

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No.

11 i

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0.00

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870

No.

12 D

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No.

12 i

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0.00

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871

No.

13 D

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No.

13 i

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0.00

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872

No.

14 D

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No.

14 i

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0.00

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873

No.

15 D

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den

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val

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for p

oint

No.

15 i

n de

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file

0.00

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99g/

ml

874

No.

16 D

ENSI

TY-

Disp

lays

den

sity

val

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for p

oint

No.

16 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

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000

- 9.9

99g/

ml

875

TAN

K PR

OFIL

EDE

NSI

TY 1

- 10

DEN

SITY

11

- 16

Endress+Hauser 149


Mat

rix G

roup

Func

tion

Grou

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mA

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deSh

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escr

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t/Se

lect

/Dis

play

Poss

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Ent

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Inde

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H

NO.

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ON-

Disp

lays

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ition

No.

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t tak

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0.0m

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t tak

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7 of

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Disp

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8 of

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men

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Disp

lays

pos

ition

No.

9 of

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men

t tak

en d

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g de

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pro

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0.0m

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m88

8

NO.

10 P

OSIT

ION

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spla

ys p

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on N

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of m

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dens

ity p

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0mm

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889

NO.

11 P

OSIT

ION

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ys p

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of m

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aken

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ing

dens

ity p

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0mm

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lay

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890

NO.

12 P

OSIT

ION

-Di

spla

ys p

ositi

on N

o.12

of m

easu

rem

ent t

aken

dur

ing

dens

ity p

rofil

e.0.

0mm

Disp

lay

0.0

- 999

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mm

891

NO.

13 P

OSIT

ION

-Di

spla

ys p

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on N

o.13

of m

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ent t

aken

dur

ing

dens

ity p

rofil

e.0.

0mm

Disp

lay

0.0

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892

NO.

14 P

OSIT

ION

-Di

spla

ys p

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on N

o.14

of m

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rem

ent t

aken

dur

ing

dens

ity p

rofil

e.0.

0mm

Disp

lay

0.0

- 999

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mm

893

NO.

15 P

OSIT

ION

-Di

spla

ys p

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on N

o.15

of m

easu

rem

ent t

aken

dur

ing

dens

ity p

rofil

e.0.

0mm

Disp

lay

0.0

- 999

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mm

894

NO.

16 P

OSIT

ION

-Di

spla

ys p

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on N

o.16

of m

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rem

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aken

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ing

dens

ity p

rofil

e.0.

0mm

Disp

lay

0.0

- 999

99.9

mm

895

TAN

K PR

OFIL

EPO

SITI

ON 1

- 10

POSI

TION

11

- 16

150 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

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t/Se

lect

/Dis

play

Poss

ible

Ent

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Inde

x N

o.GV

H

OPE.

STA

TUS

-

Disp

lays

pro

file

oper

atio

n st

atus

.

Disp

lay

950

LEVE

L CO

NDI

TION

-

Disp

lays

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of li

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l/su

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prof

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pera

tion.

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lay

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TIM

E-

Disp

lays

tim

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hen

Inte

rfac

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d (D

D/H

H/M

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DDH

HM

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2359

952

I/F

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for I

nter

face

Pro

file

mea

sure

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t.0.

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Disp

lay

0.0

- 999

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mm

953

AVE

RAGE

DEN

SITY

-Di

spla

ys a

vera

ge d

ensi

ty v

alue

cal

cula

ted

from

Inte

rfac

e Pr

ofile

mea

sure

men

t.0.

000g

/ml

Disp

lay

0.00

0 - 9

.999

g/m

l95

4

AVE

RAGE

TEM

P.-

Disp

lays

ave

rage

tem

pera

ture

val

ue c

alcu

late

d fr

om In

terf

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Prof

ile m

easu

rem

ent.

0.0

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lay

955

I/F

PROF

ILE

STA

TUS/

DATA

0 1 2 3 4 5

Acc

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andb

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ratio

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PR. E

ND

UN

BA

LAN

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Acc

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file

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man

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ady

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and.

Exec

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man

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nsity

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eted

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Fail:

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Off

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leU

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t).

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l/su

rfac

e co

nditi

on (p

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nnot

star

t).

Endress+Hauser 151


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

ries

Inde

x N

o.GV

H

No.

1 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

1 in

den

sity

pro

file

0.00

0g/m

lDi

spla

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000

- 9.9

99g/

ml

960

No.

2 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

2 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

961

No.

3 DE

NSI

TY-

Disp

lays

den

sity

val

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for p

oint

No.

3 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

962

No.

4 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

4 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

963

No.

5 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

5 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

964

No.

6 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

6 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

965

No.

7 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

7 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

966

No.

8 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

8 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

967

No.

9 DE

NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

9 in

den

sity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

968

No.

10 D

ENSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

10 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

969

No.

11 D

ENSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

11 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

970

No.

12 D

E NSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

12 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

971

No.

13 D

ENSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

13 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

972

No.

14 D

ENSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

14 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

973

No.

15 D

ENSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

15 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

974

No.

16 D

ENSI

TY-

Disp

lays

den

sity

val

ues

for p

oint

No.

16 i

n de

nsity

pro

file

0.00

0g/m

lDi

spla

y0.

000

- 9.9

99g/

ml

975

I/F

PROF

ILE

DEN

SITY

1 -

10

DEN

SITY

11

- 16

152 Endress+Hauser


Mat

rix G

roup

Func

tion

Grou

pIte

mA

cces

sCo

deSh

ort D

escr

iptio

nDe

faul

t Val

ueSe

t/Se

lect

/Dis

play

Poss

ible

Ent

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Inde

x N

o.GV

H

NO.

1 PO

SITI

ON-

Disp

lays

pos

ition

No.

1 of

mea

sure

men

t tak

en d

urin

g de

nsity

pro

file.

0.0m

mDi

spla

y0.

0 - 9

9999

.9m

m98

0

NO.

2 PO

SITI

ON-

Disp

lays

pos

ition

No.

2 of

mea

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Endress+Hauser 153

Proservo NMS515 Appendix

15 Appendix

15.1 RS 485 MODBUS (COM- 5) terminator

Terminator switch setting procedure

1. RS- 485 Communication Module until 2008

Set all slide switch (four bits) turn to ON when termination is required.

Figure 104: RS-485 communication module

2. COMM-5 RS- 485 Communication Module from 2009

1

2

3

4

ON

Terminator Switch OFF

1

2

3

4

ON

Terminator Switch ON

154 Endress+Hauser

Proservo NMS5 15 Appendix

Set piano type switch S1-1, S2-3, S2-4 to ON (UP) when termination is required.

Figure 105: COM-5 RS-485 communication module

OFF

ON

SW2

SW1

43

21

SW2

SW1

43

21

ON

OFF

Endress+Hauser 155


15.2 Measurement wire replacement

Procedure for winding wire onto wire drum

1. Prepare a box with approx. 300mm(w) × 300mm(d) × 50mm(h) for wire storing.

2. Take out the measurement wire from the plastic bag.

3. Put the wire into the box without twisting.

4. Put one end of the wire into a hole on the wire drum groove.

5. Fix the end of the wire by a screw.

6. Sit down on a chair.

7. Grasp the wire drum by left hand and hold the wire by left thumb.

8. Hold the wire by right thumb and index finger.

9. Make tension to secure the wire, so as not to come out of the groove.

10. Rotate the wire drum to wind the wire into groove with holding by left thumb.

This completes the winding wire onto wire drum procedure.

Figure 106: Measuring wire

Wire hole

HoleScrew

156 Endress+Hauser


Fixing wire procedure

1. Put the wire drum on the desk and fix the wire by masking tape remaining 500mm wire.

Figure 107: Wire and wire drum, unit of measurement: mm (in)

2. Wind the wire toward the wire drum 2 times around the ring.

3. Wind the wire 10 times.

4. Keep a space as the triangle shape and wind the wire 10 times toward arrow A.

5. Wind the wire 10 times toward arrow B.

• Keep a certain amount of tension to the ring.

6. Wind the wire 10 times again.

7. Wind the wire 10 times toward arrow C.

8. Wind the wire 10 times toward arrow D.

• Leave the wind approximately 100mm to 200mm to mount it on the displacer.

This completes the fixing wire procedure.

Figure 108: Fixing wire, unit of measurement: mm (in)

Masking tape

Aprox. 500 (19.69)

Steps 3 to 5 Arrow A

Keep a certain amount of tension.

Keep a space as triangle shape.

to drum

200 (7.87)

Step 2

100 (3.94) to200 (7.87)

Arrow B

Arrow C

Arrow D

Step 6

Steps 7 to 8

Endress+Hauser 157


15.2.1 Displacers

Actual draft position may change slightly with tank parameters.

Figure 109: Dimension of Displacer 1, Unit of Measurement: mm (in)

Item Ø30 SUS cylindrical

Ø30 PTFEcylindrical

Ø40 SUScylindrical


Weight (g) 261 261 254 280

Volume (ml) 85 85 152 126

Balance volume (ml) 41.3 41.3 71.1 62.6

Draft point (mm/(in)) 63.8 (2.51) 63.8 (2.51) 64.1 (2.52) 54.5 (2.15)

165.

5 (6

.52)

121

(4.7

6)3.

6(0

.14)Ø30(1.18)

Draft point

63.8

(2.5

1)

140

(5.5

1)

Draft point

172

(6.7

7)

9.5

(0.3

7)

79.5

(3.1

3)

9.5

(0.3

7)

Ø30 SUS cylindrical Ø30 PTFE cylindrical

165.

5 (6

.52)

121

(4.7

6)3.

6(0

.14)

Draft point

64.1

(2.5

2)

Ø40 (1.57)

122

(4.8

)

87 (3

.43)

Draft point

54.5

(2.1

5)

Ø11 (0.43)

Ø40 SUS cylindrical Ø40 PTFE cylindrical

Ø11 (0.43)

Ø30(1.18)

Ø40 (1.57) 11(0

.43)

11 (0.4

3)

158 Endress+Hauser


Figure 110: Dimension of Displacer 2, Unit of Measurement: mm (in)

Item Ø50 SUS cylindrical

Ø50 Alloy Ccylindrical


Ø50 PTFEconical

Weight (g) 253 250 250 250

Volume (ml) 138 138 130 131

Balance volume (ml) 70.8 70.8 59 55.7

Draft point (mm/(in)) 45 (1.77) 45 (1.77) 38 (1.5) 35 (1.38)

128.

8 (5

.07)

85 (3

.35)

2.5

(0.0

9)

Draft point

45 (1

.77)

Ø50.8 (2)

116.

6 (4

.59)

Draft point

89 (3

.5)

53 (2

.09)

11.5

(0.4

5)

Draft point

38 (1

.5)

11.5

(0.4

5)

Ø50 AlloyC cylindricalØ50 SUS cylindrical

Ø50 PTFE cylindrical

93 (3

.66)

60 (2

.36)

5(0

.19)

Draft point

35 (1

.38)

Ø 50

16(0

.62)

12(0

.47)

Ø50 PTFE conical

Ø11 (0.43)

85 (3

.35)

2.5

(0.0

9)

45 (1

.77)

Ø50.8 (2)

Ø50.8 (2)

Ø11 (0.43)

Endress+Hauser 159


Figure 111: Dimension of displacer 3, unit of measurement: mm (in)

Item Ø70 SUS conical NMi W&M Ø110 SUS conical PTB W&M

Weight (g) 245 223

Volume (ml) 122 136

Balance volume (ml) 52.7 36.3

Draft point (mm/(in)) 16.9 (0.77) 10 (0.39)

90 (3

.54)

Draft point

Ø 70 (2.76)

47.6

(1.8

7)

1(0

.03)

16.9

(0.6

6)67

(2.6

4)

26(1

.02)

2 (0

.07)

Ø110 (4.33)

Draft point10 (0

.39)

Ø110 SUS conical PTB-W&M

Ø70 SUS conical NMi-W&M

160 Endress+Hauser

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