Electromagnetic Flow Sensor

“

Specifications:

• Application: Electromagnetic flow Sensor mag-flux A
• Flow Rate Determination: Electrically conductive fluids,
  sludge, pulp, paste
• Operating Principle: Faraday’s law of induction
• Special Features:
  • Solid welded steel design
  • Signal amplifier inside sensor
  • Measuring tube diameter: from 15 mm (0.591)
  • Pressure: up to 250 bar
  • Liner options: hard rubber, soft rubber, PTFE, special lining
    on request
  • Various connection types and materials available

Product Usage Instructions:

Operating Note:

The electromagnetic flow sensor is designed for measuring the
flow of electrically conductive liquid media. The operator is
responsible for ensuring the suitability, proper use, and corrosion
resistance of materials used.

Precautions:

• Ensure the device is free of hazardous media and not
  pressurized before replacing measuring tubes.
• Use the device within specified pressure and voltage
  limits.
• Comply with the requirements of the Pressure Equipment
  Directive 2014/68/EU.
• Avoid external loads affecting the sensor.
• Designed for predominantly recumbent load.

Installation and Use:

Improper installation or incorrect use may void the warranty.
Ensure materials selected for parts in contact with the medium are
suitable for the process media.

Temperature and Pressure:

At indicated media temperatures and DN >300, permissible max.
pressure for PN10 and PN16 is reduced accordingly.

Frequently Asked Questions (FAQ):

Q: What industries can the electromagnetic flow sensors be
applied in?

A: The sensors are mainly used in water and sewage plants,
chemical and pharmaceutical industry, food and beverage industry,
mining, cement and mineral materials industry, pulp and paper
industry, steel industry, energy industry, and public
utilities.

Q: What is the mode of operation of the electromagnetic flow
sensors?

A: The units work based on Faraday’s law of induction,
converting flow into voltage proportional to the flow rate.

Q: What are some special features of the electromagnetic flow
sensors?

A: The sensors have a solid welded steel design making them
rugged, a signal amplifier inside the sensor, various liner
options, and compatibility with different connection types and
materials.

“`

Electromagnetic flow Sensor mag-flux A

Fig. 1 Electromagnetic flow Sensor mag-flux A
__ Application
Electromagnetic flow sensors mag-flux A are precision measuring devices, suitable for determining the flow rate of nearly any electrically conductive fluid, but also for substances such as sludge, pulp and paste.
Due to the magnetic field, the device can be used to measure flow rates up to 10 m/s (32.8 ft/s) and a minimum conductivity of 20 µS/cm, when using a synchronized static field.
The entire measuring device comprises a flow sensor and a dedicated transmitter. Those can be delivered either separately or as a compact unit.
The electromagnetic flow sensors mag-flux A are applied mainly in the following industries:
Water and sewage plants Chemical and pharmaceutical industry Food and beverage industry Mining, cement and mineral materials Pulp and paper industry Steel industry Energy industry, public utilities
__ Mode of operation
The units work on the principle of Faraday’s law of induction, whereby, simply stated, the sensor converts the flow into voltage, proportional to the flow rate.
__ Special features
solid welded steel design, therefore rugged and fail-safe signal amplifier inside sensor inside diameter of measuring tube from 15 mm (0.591″) pressure up to 250 bar Liner:
o hard rubber o soft rubber o PTFE o special lining upon request

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

various connection types and materials different materials and process connections
o flange: EN, DIN, ANSI, JIS o and other upon request
____________________________________________________________
__ Operating note
The electromagnetic flow sensor is only intended for measuring the flow of electric conductive, liquid media.
The operator of these measuring instruments is responsible for suitability, proper use and corrosion resistance of the used materials with regard to the measuring material. It must be ensured that the materials selected for the meter parts in contact with the medium are suitable for the used process media.
Before replacing the measuring tubes, check that the unit is free of hazardous media and is not pressurized.
The device may only be used for the pressure and voltage limits specified on the rating plate.
The flow meter complies with the requirements of the Pressure Equipment Directive 2014/68/EU. The most hazardous permissible media are the fluids defined in group 1. See page 4
When using flanges made from C22.8 and ST52-3, the lowest permissible temperature is -10 °C (14 °F).
The sensor must not be affected by external loads.
The units are designed for predominantly recumbent load.
Improper installation or incorrect use of the sensors (units) may null and void any warranty.
At the media temperatures indicated below and at DN >300, the permissible max. pressure for PN10 and PN16 is reduced accordingly:

<100 °C 100 °C 130 °C

PN 10 10,0 bar 9,3 bar 9,0 bar

PN 16 16,0 bar 14,9 bar 14,3 bar

If you return mag-flux A sensors back to MECON GmbH, please take note of the “Return equipment Form” which can be found on the Internet at www.mecon.de/en/device-returns/. Without this completed form, no repair or testing can be carried out by MECON GmbH.
Installation supplies (gaskets/seals, screws, etc.) are not included with the delivery.

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page 1 to 9 MECON 08/2019

Electromagnetic flow Sensor mag-flux A

__ Installation
Basically, the measuring principle does not depend on the flow profile.
Ideally, the sensor should be installed in a pipeline with a sufficient straight run, both before and after the measuring point. Experience has shown that an inflow path of 5 x DN and an outflow zone of at least 2 x DN is required.
Provided that constant turbulence does not enter the area in which the measurement takes place (e.g. after elbows, during tangential feeds or if the valve in front of the sensor is partially open). However, should this be the case, appropriate actions must be taken to normalize the flow profile. The appropriate steps are:
increasing the inflow and outflow zones using flow conditioners reducing the inner diameter of the pipe

The sensor must be installed in an area of the pipe which will always be filled with media. If a pipeline is not always filled, or in case of an open channel (drainage), the sensor must be installed in a siphon (Fig. 4).

Fig. 2 Installation in horizontal and vertical pipeline
The sensors may be installed either horizontally or vertically (Fig. 2); however, it must be ensured, that the axes of the electrodes are running horizontally (see directional arrow on the electrode). This will avoid erroneous measurements due to deposits or air bubbles on the electrodes.

Fig. 3 Installation in risers and down pipes
Do not install the sensor in a drainage area of the pipeline (e.g. down pipe). If the sensor must be installed in a down pipe, ensure that portion of the pipeline is always filled 100% with the media.

Fig. 5 Installation between tees, valves and pumps
Always maintain the distance of the pipe’s straight run (Fig. 5). If these distances cannot be maintained, flow conditioners must be installed or pipes with smaller diameter must be used. If several sensors are installed in series, the distance between each sensor must be equal to the length of one sensor. If two or more sensors are to be installed in parallel, the distance between sensors must be at least 1 m.

Fig. 4 Installation in a pipeline which is always filled with media

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

Fig. 6 Installation at highest point
Due to possible accumulation of gases, the sensor should not be installed at the highest point of a pipeline.

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Electromagnetic flow Sensor mag-flux A

__ Technical Data
Application field Measuring principle Inlet Nominal diameters Process connections
Measuring accuracy Error of measurement
Repeat accuracy
Operational conditions Direction of installation Max. operating temperature with rubber lining with PTFE (Teflon) lining
Pressure limits rubber lining PTFE (Teflon) lining
Protection class Requirements on the media Minimum conductivity Max. flow rate Flow rate final value Specifications Design Weight Sensor material:
Measuring tube Solenoid chamber Flange
Lining of measuring pipe
Electrodes Material
Design Electrode sealing
(rubber lining)
Wiring

see page 1 Pulsed constant field (DC)
DN 15 – DN 600 EN 1092-1 ANSI B 16.5 JIS table special connections
±0,5 % of the reading from 0,25 m/s to 10 m/s ±0,15 % of the reading from 0,25 m/s to 10 m/s
see Installation Instructions on page 2
+90°C/194°F; 100°C /212°F optional +130 °C (at 25 bar) +100 °C (at 40 bar)
max. 250 bar depending on ambient temperature (see above) IP 67/IP 68
>20 S/cm 10 m/s 0,25 – 10 m/s
welded steel housing see page 5
Stainless steel mat. No. 1.4301 (or better) Steel, stainless steel optional Steel Stainless steel Special materials Hard rubber/soft rubber PTFE (Teflon)
Mat. No. 1.4571 (Standard) Hastelloy Titanium Tantalum Platinum Monel Mat. No. 1.4571 flat electrodes other point-plane electrodes Viton (Standard) EPDM Kalrez 2 x M 16 x 1,5 / 2 x ½” NPT

Information for sensors with PTFE lining

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

The mag-flux A sensor with PTFE lining is protected using a protective disc. In order to avoid formation of a vacuum, the sensor should be installed at the lowest point of the pipeline. Do not remove or damage the bead of the lining along the flanges.
Information for sensors with soft rubber lining Sensors with soft rubber/neoprene lining are only available from nominal diameter DN 25 mm (1″).
Selection of nominal diameters The flow depends on the flow rate and the nominal diameter DN of the flow measuring device (see system information mag-flux for magnetic inductive flow measurements).
__ Accessories
Earthing washers
Earthing the measurement media. Necessary, if the pipes are either not electroconductive or not lined to conduct electricity (plastic pipes, concrete conduits etc.). All earthing washers must be fastened to the designated earthing screw of the sensor. See also page 4, Potential equalisation. The wall thickness of the earthing washers is 2 mm. For order code, see page 7
Protection rings for liners
Protection rings prevent damages to the inlet and outlet edges of the sensor, in particular, if abrasive materials are being used (e.g. gravel, sand etc); at the same time, they serve as earthing washer. They are used mainly with sensors having PTFE or soft rubber lining. The protection rings are screwed to the sensor. When used, the installation length of the NW DN 15 ­ 150 mm will be increased by 6 mm. When used with the NW 200 ­ 600 mm, the installation length increases by 10 mm. For order code, see page 7
Sensor cable
Typically, the induced signal voltage of the measuring media can be several V or mV. The transmitter can only process these minute signals noise-free if interfering signals are avoided; these include: signals interfering with the power frequency, signals which are caused by vibrations in the pipeline or in the cable run, or signals caused by strong magnetic fields in the vicinity. In this case, sufficient shielding must be provided and, if a separate design is chosen, the signal cables must be affixed firmly. For order code, see page 7

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Electromagnetic flow Sensor mag-flux A

__ Classification per Pressure Equipment Directive

The devices are designed, based on the directive for fluids of the hazard group Gas 1. The classification varies and depends on the design. Please see table below. For flange material C22.8 (1.0460) and ST52-5 (1.0570) a minimum temperature of -10 °C (14 °F) applies. For flange material 1.4571/316Ti the lowest temperature range is -20 °C (- 4°F).

Nom. diameter Nom. pressure Permissible media

DN (inch)

PN (psi)

Category

15 to 25 (½ to 1) 32 to 100 (1¼ to 4) 32 to 50 (1¼ to 2) 32 to 40 (1¼ to 1½) 100 to 350 (4 to 12) 65 to 200 (2½ to 8) 50 to 125 (2 to 5) 32 to 80 (1¼ to 3) 350 to 600 (14 to 24) 250 to 600 (10 to 24) 150 to 600 (6 to 24) 100 to 600 (4 to 24)

10 to 40 Gases fluid group 1 and (145 to 580) liquids fluid group 1

10 (145)

Gases fluid group 1 and liquids fluid group 1

16 (232)

Gases fluid group 1 and liquids fluid group 1

25 (363)

Gases fluid group 1 and liquids fluid group 1

10 (145)

Gases fluid group 1 and liquids fluid group 1

16 (232)

Gases fluid group 1 and liquids fluid group 1

25 (363)

Gases fluid group 1 and liquids fluid group 1

40 (580)

Gases fluid group 1 and liquids fluid group 1

10 (145)

Gases fluid group 1 and liquids fluid group 1

16 (232)

Gases fluid group 1 and liquids fluid group 1

25 (363)

Gases fluid group 1 and liquids fluid group 1

40 (580)

Gases fluid group 1 and liquids fluid group 1

Article 4.3 I I I II II II II III III III III

Tightening moments of PTFE lined components PN 25 + PN 40

DN

PN 25 (Nm)

PN 40 (Nm)

25

25

25

32

35

35

40

45

45

50

55

55

65

50

50

80

50

50

100

70

70

125

100

100

150

135

135

200

140

170

250

210

260

300

220

280

350

330

410

400

440

600

500

470

560

600

650

890

700

700

920

800

1000

1370

900

1000

1430

1000

1400

1680

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

__ Potential equalization
Typically, the induced signal voltage of the measuring media can be several V or mV. The transmitter can only process these minute signals noise-free if the voltage applies to a solid potential (earth). A good earth connection must be provided between the sensor and the pipeline. Thus, the pipeline is earthed, and the media and therefore the signal voltage have a solid signal common.
Fig. 7
When using pipes lined with electrical insulation, plastic tubing or concrete conduits, a separate earthing washer is used to earth the measuring media. The earthing washer is installed between the pipeline connection and the sensor’s flange and the ring’s inside contacts the media. Contrary to the diagram shown below, one earthing washer on the inflow side is sufficient. However, if bidirectional measurements are to be taken, one earthing washer must be installed on either side.

Fig. 8
Protection washers or protection rings (supplied upon request) can also be used as earthing component; or special earthing electrodes, incorporated in the sensor, may be installed. When using abrasive measuring media or pipes with large nominal diameters, earthing electrodes may prove to be more economical than earthing washers. However, it must be ensured that noticeable differences in potential within the equipment are eliminated, otherwise the earthing electrodes will electrolyze and be destroyed.
If the pipelines cannot be earthed, due to operational reasons, the sensor must be installed voltage free. To do this, a separate cable must be used to electrically connect these segments of the pipeline (min. 6mm²; not included). An electrical connection occurring between the sensor and any material used for the installation must be avoided. Insulating segments must be installed between the sensor and the pipeline (e.g. PVC pipes or similar). Subsequently, earthing washers are used to electrically connect the media with the transmitter. The transmitter must not be connected with the protective earth conductor. This may only be done, if the auxiliary power is 24V DC.

Fig. 9
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__ Dimensions (remote version)

Electromagnetic flow Sensor mag-flux A

Fig. 10 Dimensions

N o minal diameter

D IN

ANSI

H ard- and so ft rubber

B uild-in-length L

PTFE

wit ho ut pro tectio n
wa s he rs

wit h pro tectio n
wa s he rs

DN 15 P N 40 ½” 150 RF

200

200

206

DN 25 P N 40 1″ 150 RF

200

200

206

DN 32 P N 40 1¼” 150 RF

200

200

206

DN 40 P N 40 1½” 150 RF

200

200

206

DN 50 P N 40 2″ 150 RF

200

200

206

DN 65 P N 16 2 ½” 150 RF

200

200

206

DN 80 P N 16 3″ 150 RF

200

200

206

DN 100 P N 16 4″ 150 RF

250

250

256

DN 125 P N 16 5″ 150 RF

250

250

256

DN 150 P N 16 6″ 150 RF

300

300

306

DN 200 P N 10 8″ 150 RF

350

350

360

DN 250 P N 10 10″ 150 RF

450

450

460

DN 300 P N 10 12″ 150 RF

500

500

510

DN 350 P N 10 14″ 150 RF

550

550

560

DN 400 P N 10 16″ 150 RF

600

600

610

DN 450 P N 10 18″ 150 RF

600

600

610

DN 500 P N 10 20″ 150 RF

600

600

610

DN 600 P N 10 24″ 150 RF

600

600

610

T o lerance
+0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -4 +0 / -4 +0 / -5 +0 / -5 +0 / -5 +0 / -5 +0 / -5

D imensio n o f senso r ho using

B

D

H

80

130

53

80

130

53

80

130

53

80

130

53

80

140

57

80

155

63

80

170

70

120

210

86

120

240

98

120

285

117

200

350

143

200

440

180

200

520

213

225

474

237

250

524

262

270

584

292

300

629

315

360

734

367

Weight in kg (EN flange)
5 6 7 7,5 9 10 13 15 19 23 36 52 62 95 115 135 150 182

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

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Electromagnetic flow Sensor mag-flux A

__ Ordering data (remote version)

Electromagnmetic flow sensor

mag-flux A

MAG5 7

-2

0 -0

0

Li ne r

PTFE

0

Hard rubber

1

Hard rubber up t o +100 °C

2

Hard rubber f or pot able wat er

3

Sof t rubber

5

N o mi nal p r essur e

· PN 10 / JIS 10 K

1

· PN 16 / 150 lbs

2

· PN 25 / 300 lbs

3

· PN 40

4

· special nominal pressure

9

N o mi nal d i amet er

· DN 15 / 1/ 2″

A

· DN 25 / 1″

C

· DN 32 / 11/ 4″

D

· DN 40 / 11/ 2″

E

· DN 50 / 2″

F

· DN 65 / 2 1/ 2″

G

· DN 80 / 3″

H

· DN 100 / 4″

J

· DN 125 / 5″

K

· DN 150 / 6″

L

· DN 200 / 8″

M

· DN 250 / 10″

N

· DN 300 / 12″

P

· DN 350 / 14″

Q

· DN 400 / 16″

R

· DN 450 / 18″

Y

· DN 500 / 20″

S

· DN 600 / 24″

T

· ot her nominal diamet ers

Z

C o nnect i o n and co nnect i o n mat er i al

· EN 1092-1, mat .No. 1.0460 / 1.0570

A

· EN 1092-1, mat .No. 1.4404 / 1.4571

B

· ANSI B16.5 150 RF, mat .No. 1.0432 / 1.0570

C

· ANSI B16.5 300 RF, mat .No. 1.0432 / 1.0570

D

· ot her connect ions / ot her mat erials

Z

El ect r o d e mat er i al

· St ainless st eel (mat .No. 1.4571)

1

· Hast elloy

2

· Tit anium

3

· Tant alum

4

· M onel

5

· Plat inum

6

C ab le g land ent ir es

· M 16 x 1,5

C

· NPT 1/ 2″

B

Degree of prot ect ion

· IP 67 / NEM A 5

B

· IP 68 / NEM A 6 wit h 5m f irmly connect ed cable

C

F ur t her d esig ns / Op t io ns
· one grounding elect rode made of st ainless st eel · t wo grounding elect rodes made of st ainless st eel · one grounding elect rode made of Hast elloy · t wo grounding elect rodes made of Hast elloy · one grounding elect rode made of Tit anium · t wo grounding elect rodes made of Tit anium · one grounding elect rode made of Tant alum · t wo grounding elect rodes made of Tant alum · one grounding elect rode made of M onel · t wo grounding elect rodes made of M onel · one grounding elect rode made of Plat inum · t wo grounding elect rodes made of Plat inum · wit h 3-point calibrat ion cert if icat e · wit h 6-point calibrat ion cert if icat e · TAG plat e inscript ion in english · accept ance t est EN 10204:2004 3.1 · Silicone-f ree mat erials · TAG plat e st ainless st eel

A0 1 A0 2 A0 3 A0 4 A0 5 A0 6 A0 7 A0 8 A0 9 A 10 A11 A 12 B0 6 B0 7 B11 C 12 Y0 4 Y17

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

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page 6 to 9 MECON 08/2019

__ Dimensions (compact version)

Electromagnetic flow Sensor mag-flux A

N o minal diameter

B uild-in-length L PTFE

H a rd- a nd wit ho ut

wit h

D IN

ANSI

so ft rubber pro tectio n pro tectio n

wa s he rs

wa s he rs

DN 15 P N 40 ½” 150 RF

200

200

206

DN 20 P N 40 3/4″ 150 Rf

200

200

206

DN 25 P N 40 1″ 150 RF

200

200

206

DN 32 P N 40 1¼” 150 RF

200

200

206

DN 40 P N 40 1½” 150 RF

200

200

206

DN 50 P N 40 2″ 150 RF

200

200

206

DN 65 P N 16 2 ½” 150 RF

200

200

206

DN 80 P N 16 3″ 150 RF

200

200

206

DN 100 P N 16 4″ 150 RF

250

250

256

DN 125 P N 16 5″ 150 RF

250

250

256

DN 150 P N 16 6″ 150 RF

300

300

306

DN 200 P N 10 8″ 150 RF

350

350

360

DN 250 P N 10 10″ 150 RF

450

450

460

DN 300 P N 10 12″ 150 RF

500

500

510

DN 350 P N 10 14″ 150 RF

550

550

560

DN 400 P N 10 16″ 150 RF

600

600

610

DN 450 P N 10 18″ 150 RF

600

600

610

DN 500 P N 10 20″ 150 RF

600

600

610

DN 600 P N 10 24″ 150 RF

600

600

610

T o lerance
+0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -3 +0 / -4 +0 / -4 +0 / -5 +0 / -5 +0 / -5 +0 / -5 +0 / -5

D imensio n o f senso r ho using

B

D

H

80

130

53

80

130

53

80

130

53

80

130

53

80

130

53

80

140

57

80

155

63

80

170

70

120

210

86

120

240

98

120

285

117

200

350

143

200

440

180

200

520

213

225

474

237

250

524

262

270

584

292

300

629

315

360

734

367

Weight in kg (EN flange)
5 5,5 6 7 7,5 9 10 13 15 19 23 36 52 62 95 115 135 150 182

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

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page 7 to 9 MECON 08/2019

Electromagnetic flow Sensor mag-flux A

__ Ordering data (compact version)

Electromagnmetic flow sensor

mag-flux A with mag-flux M1

MAG5 7

-1

0-

Li ne r

PTFE

0

Hard rubber

1

Hard rubber up t o +100 °C

2

Hard rubber f or pot able wat er

3

Sof t rubber

5

N o mi nal p r essur e

· PN 10 / JIS 10 K

1

· PN 16 / 150 lbs

2

· PN 25 / 300 lbs

3

· PN 40

4

· special nominal pressure

9

N o mi nal d i amet er

· DN 15 / 1/ 2″

· DN 25 / 1″

· DN 32 / 11/ 4″

· DN 40 / 11/ 2″

· DN 50 / 2″

· DN 65 / 2 1/ 2″

· DN 80 / 3″

· DN 100 / 4″

· DN 125 / 5″

· DN 150 / 6″

· DN 200 / 8″

· DN 250 / 10″

· DN 300 / 12″

· DN 350 / 14″

· DN 400 / 16″

· DN 450 / 18″

· DN 500 / 20″

· DN 600 / 24″

· ot her nominal diamet ers

C o nnect i o n and co nnect i o n mat er i al

· EN 1092-1, mat .No. 1.0460 / 1.0570

· EN 1092-1, mat .No. 1.4404 / 1.4571

· ANSI B16.5 150 RF, mat .No. 1.0432 / 1.0570

· ANSI B16.5 300 RF, mat .No. 1.0432 / 1.0570

· ot her connect ions / ot her mat erials

El ect r o d e mat er i al

· St ainless st eel (mat .No. 1.4571)

· Hast elloy

· Tit anium

· Tant alum

· M onel

· Plat inum

Po wer Sup p ly

· AC 230 V, 50/ 60 Hz

· AC 115 V, 50/ 60 Hz

· DC 18-36 V

A nalo g ue o ut p ut

· 4 – 20 mA

· 4 – 20 mA wit h HART-prot ocol

Op er at ing and d isp lay p anel

· wit hout

· with

C ab le g land s

· M 20/ M 16 x 1,5

· 1/ 2″ – 14 NPT

A C D E F G H J K L M N P Q R Y S T Z
A B C D Z
1 2 3 4 5 6

1 2 3
B C
A B
1 2

F urt her d esig ns / Op t io ns
· one grounding electrode made of stainless steel · two grounding electrodes made of stainless steel · one grounding electrode made of Hastelloy · two grounding electrodes made of Hastelloy · one grounding electrode made of Titanium · two grounding electrodes made of Titanium · one grounding electrode made of Tantalum · two grounding electrodes made of Tantalum · one grounding electrode made of M onel · two grounding electrodes made of M onel · one grounding electrode made of Platinum · two grounding electrodes made of Platinum · with 3-point calibration certificate · with 6-point calibration certificate · with 5-point calibration certificate · TAG plate inscription in english · acceptance test EN 10204:2004 3.1 · measuring range: 0 to …m³/h add in clear text · Silicone-free materials · measuring-point number (max. 16 char.) specify in plain text · measuring-point description (max. 27 char.) specify in plain text · TAG plate stainless steel

A0 1 A0 2 A0 3 A0 4 A0 5 A0 6 A0 7 A0 8 A0 9 A 10 A11 A 12 B0 6 B0 7 B0 8 B11 C 12 Y0 1 Y0 4 Y15 Y 16 Y17

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

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page 8 to 9 MECON 08/2019

__ Ordering data (earthing washer)

MAG59 0 1 –

0 – 0 AA0

Li ne r
· Hard rubber / Sof t rubber · PTFE N o mi nal d i amet er
· DN 15 / 1/ 2″ · DN 25 / 1″ · DN 32 / 11/ 4″ · DN 40 / 1/ 2″ · DN 50 / 2″ · DN 65 / 2 1/ 2″ · DN 80 / 3″ · DN 100 / 4″ · DN 125 / 5″ · DN 150 / 6″ · DN 200 / 8″ · DN 250 / 10″ · DN 300 / 12″ · DN 350 / 14″ · DN 400 / 16″ · DN 450 / 18″ · DN 500 / 20″ · DN 600 / 24″ · ot her nominal diamet ers C o nnect io n
· EN1092-1 · ANSI B16.5 RF · ot her connect ions

1A 0B
A C D E F G H J K L M N P Q R Y S T Z
1 2 9

__ Ordering data (sensor cable)
MAG5 9 3 0 – 0 A 0 0 – 0 AA 0

Sensor cable consisting of:

Magnet current cable (3 x 1,0 mm²)

Electrode cable (3 x 1,0 mm²)

· Length: 5 m

B

· Length:15 m

C

· Length:specify other length in plain text

Z

Electromagnetic flow Sensor mag-flux A

__ Ordering data (protection ring)

MAG59 1 1 –

0 – 0 AA0

Li ne r
· Hard rubber / Soft rubber · PTFE N o minal d iamet er
· DN 15 / 1/2″ · DN 25 / 1″ · DN 32 / 11/4″ · DN 40 / 1/2″ · DN 50 / 2″ · DN 65 / 2 1/2″ · DN 80 / 3″ · DN 100 / 4″ · DN 125 / 5″ · DN 150 / 6″ · DN 200 / 8″ · DN 250 / 10″ · DN 300 / 12″ · DN 350 / 14″ · DN 400 / 16″ · DN 450 / 18″ · DN 500 / 20″ · DN 600 / 24″ · other nominal diameters C o nnect io n
· EN1092-1 · ANSI B16.5 RF · other connections

1A 0B
A C D E F G H J K L M N P Q R Y S T Z
1 2 9

MECON GmbH Röntgenstraße 105 50169 Kerpen/Germany

Phone +49 2237 60006-0 www.mecon.de

Fax +49 2237 60006-40 info@mecon.de

page 9 to 9 MECON 08/2019

Documents / Resources

TEESING Electromagnetic Flow Sensor [pdf] Instructions Electromagnetic Flow Sensor, Flow Sensor, Sensor

References

• User Manual