BA 046D/06/en/06.01
50097090
Valid as of software version:
V 1.02.XX (amplifier)
V 1.02.XX (communication)
PROline promag 50
Electromagnetic
Flow Measuring System
Operating Instructions
Brief operating instructions
PROline Promag 50
Brief operating instructions
These brief operating instructions show you how to configure the measuring device
quickly and easily:
Safety instructions
Page 7
Installation
Page 13
Wiring
Page 47
Switching on the measuring device
Page 79
Display and operating elements
Page 61
Commissioning with “QUICK SETUP”
Page 80 ff.
You can commission the measuring device quickly and easily, using the special
“Quick Setup” menu. It enables to configure important basic functions using the
local display, for example display language, measured variables, units
engineering, type of signal, etc.
The following adjustments can be made separately as necessary:
– Empty-pipe/full-pipe calibration for empty pipe detection (EPD)
– Configuration of current output (active/passive)
Customer-specific cofiguration
Page 62 ff.
Complex measuring operations necessitate additional functions that you can
configure as necessary with the aid of the function matrix, and customize to suit
the process parameters.
All functions are described in detail, as is the function matrix itself, in the
“Description of Device Functions” manual, which is a separate part of this
Operating Instruction.
Trouble-shooting
Page 87 ff.
Always start trouble-shooting with the checklist on Page 87, if faults occur after
commissioning or during operation. The routine takes you directly to the cause of
the problem and the appropriate remedial measures.
Returning devices
If you return a measuring device to Endress+Hauser for repair or calibration, you
must complete the “Declaration of contamination” form and enclose it with the
device. You will find a preprinted form at the back of this manual.
2
Endress+Hauser
PROline Promag 50
“QUICK SETUP” commissioning
“QUICK SETUP” commissioning
Setup
Commission
ENDRESS+HAUSER
-
+
E
E
++
Quick Setup
E+
ESC
Language
HOME-POSITION
Defaults
Unit
Volume flow
Measuring
Mode
Current Output
Freq.-/ Pulse Output
Quit
Operation
Mode
Frequency
Pulse
Assign
Current
Assign
Frequency
Assign
Pulse
Current
Span
End Value
Freq.
Pulse
Value
Value
20 mA
Value
f max
Pulse
Width
Time
Constant
Output
Signal
Output
Signal
Failsafe
Mode
Time
Constant
Failsafe
Mode
F06-50xxxxxx-19-xx-xx-en-000
Failsafe
Mode
Endress+Hauser
Automatically parameterization
of the display
Quit Quick Setup
3
“QUICK SETUP” commissioning
4
PROline Promag 50
Endress+Hauser
PROline Promag 50
Contents
Contents
1
Safety instructions . . . . . . . . . . . . . . . . . 7
5
Operation . . . . . . . . . . . . . . . . . . . . . . . . . 61
1.1
1.2
1.3
1.4
1.5
Designated use . . . . . . . . . . . . . . . . . . . . . . . .
Installation, commissioning and operation . . .
Operational safety . . . . . . . . . . . . . . . . . . . . . .
Return . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Notes on safety conventions and icons . . . . . .
7
7
7
8
8
5.1
5.2
2
Identification . . . . . . . . . . . . . . . . . . . . . . 9
5.3
5.4
2.1
2.2
2.3
Device designation . . . . . . . . . . . . . . . . . . . . . 9
2.1.1
Nameplate of the transmitter . . . . . . . 9
2.1.2
Nameplate of the sensor. . . . . . . . . . 10
CE mark, declaration of conformity . . . . . . . . 10
Registered trademarks . . . . . . . . . . . . . . . . . 11
Display and operating elements . . . . . . . . . . . 61
Brief operating instruction to the function
matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
5.2.1
General notes. . . . . . . . . . . . . . . . . . . 63
5.2.2
Enabling the programming mode . . . 63
5.2.3
Disabling the programming mode . . . 64
Error messages . . . . . . . . . . . . . . . . . . . . . . . . 64
Communication (HART) . . . . . . . . . . . . . . . . . 65
5.4.1
Operating options . . . . . . . . . . . . . . . 65
5.4.2
Device and process variables . . . . . 66
5.4.3
Universal / Common practice HART
commands . . . . . . . . . . . . . . . . . . . . . 67
5.4.4
Device status / Error messages . . . . . 73
3
Installation . . . . . . . . . . . . . . . . . . . . . . . . 13
6
Commissioning . . . . . . . . . . . . . . . . . . . 79
3.1
6.1
6.2
6.3
Function check . . . . . . . . . . . . . . . . . . . . . . . . 79
Commissioning . . . . . . . . . . . . . . . . . . . . . . . . 79
6.2.1
Switching on the measuring device . 79
6.2.2
“Commissioning” Quick Setup menu . 80
6.2.3
Empty-pipe/full-pipe calibration . . . . . 81
6.2.4
Current output: active/passive . . . . . . 82
Data storage device (S-DAT™) . . . . . . . . . . . 82
7
Maintenance . . . . . . . . . . . . . . . . . . . . . . 83
8
Accessories . . . . . . . . . . . . . . . . . . . . . . . 85
9
Trouble-shooting . . . . . . . . . . . . . . . . . 87
3.4
Incoming acceptance, transport and storage
3.1.1
Incoming acceptance . . . . . . . . . . .
3.1.2
Transport . . . . . . . . . . . . . . . . . . . . .
3.1.3
Storage . . . . . . . . . . . . . . . . . . . . . . .
Installation conditions . . . . . . . . . . . . . . . . . .
3.2.1
Dimensions . . . . . . . . . . . . . . . . . . .
3.2.2
Mounting location . . . . . . . . . . . . . . .
3.2.3
Orientation. . . . . . . . . . . . . . . . . . . . .
3.2.4
Vibrations . . . . . . . . . . . . . . . . . . . . .
3.2.5
Foundations, supports . . . . . . . . . . .
3.2.6
Adapters . . . . . . . . . . . . . . . . . . . . . .
3.2.7
Nominal diameter and flow rate . . . .
3.2.8
Length of connecting cable . . . . . . .
Installation instructions . . . . . . . . . . . . . . . . .
3.3.1
Installing the Promag W sensor . . . .
3.3.2
Installing the Promag P sensor . . . . .
3.3.3
Installing the Promag H sensor. . . . .
3.3.4
Turning the transmitter housing . . . .
3.3.5
Turning the local display. . . . . . . . . .
3.3.6
Installing the wall-mount transmitter
housing . . . . . . . . . . . . . . . . . . . . . . .
Installation check . . . . . . . . . . . . . . . . . . . . . .
4
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
4.1
Connecting the remote version . . . . . . . . . . .
4.1.1
Connecting Promag W / P / H . . . . .
4.1.2
Cable specifications . . . . . . . . . . . . .
Connecting the measuring unit . . . . . . . . . . .
4.2.1
Connecting the transmitter . . . . . . . .
4.2.2
Terminal assignment. . . . . . . . . . . . .
4.2.3
HART connection . . . . . . . . . . . . . . .
Potential equalisation . . . . . . . . . . . . . . . . . . .
4.3.1
Standard case . . . . . . . . . . . . . . . . .
4.3.2
Special cases . . . . . . . . . . . . . . . . . .
Degree of protection . . . . . . . . . . . . . . . . . . .
Electical connection check . . . . . . . . . . . . . .
3.2
3.3
4.2
4.3
4.4
4.5
Endress+Hauser
13
13
13
14
15
15
15
17
18
19
20
20
25
26
26
32
38
41
42
43
45
47
47
51
52
52
54
55
56
56
57
59
60
9.1
9.2
9.3
9.4
9.5
9.6
9.7
Trouble-shooting instructions . . . . . . . . . . . . . 87
System error messages . . . . . . . . . . . . . . . . . 88
Process error messages . . . . . . . . . . . . . . . . . 92
Process errors without messages . . . . . . . . . . 93
Response of outputs to errors . . . . . . . . . . . . 94
Spare parts . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Removing and installing printed circuit
boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
9.8 Replacing the device fuse . . . . . . . . . . . . . . 101
9.9 Replacing exchangeable measuring
electrodes . . . . . . . . . . . . . . . . . . . . . . . . . . 102
9.10 Software history . . . . . . . . . . . . . . . . . . . . . . 104
10
Technical data . . . . . . . . . . . . . . . . . . . 105
10.1 Technical data at a glance . . . . . . . . . . . . . . 105
10.1.1 Application . . . . . . . . . . . . . . . . . . . 105
10.1.2 Function and system design . . . . . . 105
10.1.3 Input . . . . . . . . . . . . . . . . . . . . . . . . 105
10.1.4 Output . . . . . . . . . . . . . . . . . . . . . . . 106
10.1.5 Power supply . . . . . . . . . . . . . . . . . 106
10.1.6 Performance characteristics . . . . . . 107
10.1.7 Operating conditions . . . . . . . . . . . . 108
10.1.8 Mechanical construction . . . . . . . . . 112
10.1.9 Human interface . . . . . . . . . . . . . . . 116
10.1.10 Certificates and approvals . . . . . . . 116
5
Contents
10.2
10.3
10.4
10.5
10.6
10.7
10.8
10.9
10.1.11 Ordering information . . . . . . . . . . .
10.1.12 Accessories . . . . . . . . . . . . . . . . . .
10.1.13 Supplementary documentation . . .
Measuring-tube specifications . . . . . . . . . . .
Dimensions wall-mounted housing . . . . . . .
Dimensions Promag 50 W . . . . . . . . . . . . . .
Dimensions Promag 50 P . . . . . . . . . . . . . . .
Dimensions of ground disks (Promag W, P)
Dimensions Promag 50 H . . . . . . . . . . . . . .
Process connections Promag H (DN 2...25)
Process connections Promag H
(DN 40...100) . . . . . . . . . . . . . . . . . . . . . . . .
PROline Promag 50
117
117
117
118
120
121
125
130
131
135
143
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147
6
Endress+Hauser
PROline Promag 50
1 Safety instructions
1
Safety instructions
1.1
Designated use
The measuring device described in this Operating Manual is to be used only for measuring the flow rate of conductive fluids in closed pipes. A minimum conductivity of
20 µS/cm is required for measuring demineralized water. Most fluids can be metered,
provided they have a minimum conductivity of 5 µS/cm, for example:
• acids, alkalis,
• drinking water, wastewater, sewage sludge,
• milk, beer, wine, mineral water, etc.
The manufacturer accepts no liability for damages resulting from incorrect use or for
other than designated use.
1.2
Installation, commissioning and operation
Note the following points:
• Installation, connection to the electricity supply, commissioning and maintenance of
the device must be carried out by trained, qualified specialists authorized to perform
such work by the facility's owner-operator. The specialist must have read and understood this Operating Manual and must follow the instructions it contains.
• The device must be operated by persons authorized and trained by the facility's
owner-operator. Strict compliance with the instructions in the Operating Manual is
mandatory.
• Endress+Hauser will be happy to assist in clarifying the chemical resistance properties of parts wetted by special fluids, including fluids used for cleaning.
• If welding work is performed on the piping system, do not ground the welding appliance through the Promag flowmeter.
• The installer must ensure that the measuring system is correctly wired in accordance
with the wiring diagrams. The transmitter must be grounded, unless the power supply
is galvanically insulated.
• Invariably, local regulations governing the opening and repair of electrical devices
apply.
1.3
Operational safety
Note the following points:
• Measuring systems for use in hazardous environments are accompanied by separate
Ex documentation, which is an integral part of this Operating Manual. Strict compliance with the installation instructions and ratings as stated in this supplementary documentation is mandatory. The symbol on the front of this documentation indicates the
Europe,
USA, Canada).
approval and the test center (
• The measuring device complies with the general safety requirements in accordance
with EN 61010, the EMC requirements of EN 61326/A1, and NAMUR recommendation
NE 21.
• Depending on the application, the seals of the process connections of the Promag H
sensor require periodic replacement.
• The manufacturer reserves the right to modify technical data without prior notice. Your
E+H distributor will supply you with current information and updates to this Operating
Manual.
Endress+Hauser
7
1 Safety instructions
PROline Promag 50
1.4
Return
The following procedures must be carried out before a flowmeter requiring repair or calibration, for example, is returned to Endress+Hauser:
• Always enclose a duly completed “Declaration of contamination” form. Only then can
Endress+Hauser transport, examine and repair a returned device.
• Enclose special handling instructions if necessary, for example a safety data sheet as
per EN 91/155/EEC.
• Remove all residues. Pay special attention to the grooves for seals and crevices which
could contain residues. This is particularly important if the substance is hazardous to
health, e.g. flammable, toxic, caustic, carcinogenic, etc.
Note:
You will find a preprinted “Declaration of contamination” form at the back of this manual.
Warning:
• Do not return a measuring device if you are not absolutely certain that all traces of hazardous substances have been removed, e.g. substances which have penetrated
crevices or diffused through plastic.
• Costs incurred for waste disposal and injury (burns, etc.) due to inadequate cleaning
will be charged to the owner-operator.
1.5
8
Notes on safety conventions and icons
The devices are designed to meet state-of-the-art safety requirements, have been
tested, and left the factory in a condition in which they are safe to operate. The devices
comply with the applicable standards and regulations in accordance with EN 61010
“Protection Measures for Electrical Equipment for Measurement, Control, Regulation
and Laboratory Procedures”. They can, however, be a source of danger if used incorrectly or for other than the designated use.
Consequently, always pay particular attention to the safety instructions indicated in this
Operating Manual by the following icons:
Warning:
“Warning” indicates an action or procedure which, if not performed correctly, can result
in injury or a safety hazard. Comply strictly with the instructions and proceed with care.
Caution:
“Caution” indicates an action or procedure which, if not performed correctly, can result
in incorrect operation or destruction of the device. Comply strictly with the instructions.
Note:
“Note” indicates an action or procedure which, if not performed correctly, can have an
indirect effect on operation or trigger an unexpected response on the part of the device.
Endress+Hauser
PROline Promag 50
2 Identification
2
Identification
2.1
Device designation
The “Promag 50” flow measuring system consists of the following components:
• Promag 50 transmitter
• Promag W, Promag P or Promag H sensor
In the compact version, transmitter and sensor form a single mechanical unit; in the
remote version they are installed separately.
2.1.1
Nameplate of the transmitter
6
7
ENDRESS+HAUSER
PROMAG 50
2
3
4
5
Order Code: XXXXX-XXXXXXXXXXXX
Ser.No.:
12345678901
TAG No.:
ABCDEFGHJKLMNPQRST
16-62VDC/20-55VAC
50-60Hz
EPD / MSU
ECC
I-OUT (HART), f-OUT
STAT-IN, STAT-OUT
i
IP67/NEMA/Type4X
15VA/W
–20°C (–4°F) < Tamb < +60°C (+140°F)
Pat. US 5,323,156 5,479,007
Pat. US 4,382,387 4,704,908 5,351,554
Fig. 1:
1
2
3
4
5
6
7
Endress+Hauser
F06-50xxxxxx-18-06-xx-xx-000
1
Nameplate specifications for the “Promag 50” transmitter (example)
Ordering code/serial number: See the specifications on the order confirmation for the meanings of the
individual letters and digits.
Power supply / frequency: 16...62 V DC / 20...55 V AC / 50...60 Hz
Power consumption: 15 VA / W
Additional functions and software:
– EPD/MSU: with Empty Pipe Detection
– ECC: with Electrode Cleaning Circuitry
Outputs / inputs:
I-OUT (HART): with current output (HART)
f-OUT: with pulse/frequency output
STAT-IN: with status input (auxiliary input)
STAT-OUT: with status output
Reserved for information on special products
Ambient temperature range
Degree of protection
9
2 Identification
PROline Promag 50
2.1.2
Nameplate of the sensor
ENDRESS+HAUSER
PROMAG X
1
2
3
4
5
6
Order Code: XXXXX-XXXXXXXXXXXX
Ser.No.:
12345678901
TAG No.:
ABCDEFGHJKLMNPQRST
0.5328 / –5
K-factor:
DN100 DIN PN 16
TMmax.:
80°C
Materials: HG / 1.4435
EPD/MSU R/B EME/AWE 0.5% CAL
7
8
–20°C (–4°F) < Tamb < +60°C+140°F
IP67/NEMA/Type4X
9
i
Pat. UK EP 541 878 EP 618 680
Pat. UK EP 219 725 EP 521169
11
Fig. 2:
1
2
3
4
5
6
7
8
9
10
11
2.2
F06-xxxxxxxx-18-05-xx-xx-001
10
Nameplate specifications for the “Promag” sensor (example)
Ordering code/serial number: See the specifications on the order confirmation for the meanings of the
individual letters and digits.
Calibration factor: 0.5328; zero point: −5
Nominal diameter: DN 100
Pressure rating: DIN PN 16 bar
TMmax +80 °C (max. fluid temperature)
Materials:
– Lining: hard rubber (HG)
– Measuring electrodes: stainless steel 1.4435
Additional information (examples):
– EPD/MSU: with Empty Pipe Detection electrode
– R/B: with reference electrode
– EME/AWE: with exchangeable measuring electrodes
– 0.5% CAL: with 0.5% calibration
Reserved for information on special products
Ambient temperature range
Degree of protection
Reserved for additional information on device version (approvals, certificates)
Flow direction
CE mark, declaration of conformity
The devices are designed to meet state-of-the-art safety requirements, have been
tested, and left the factory in a condition in which they are safe to operate. The devices
comply with the applicable standards and regulations in accordance with EN 61010
“Protection Measures for Electrical Equipment for Measurement, Control, Regulation
and Laboratory Procedures”.
The measuring system described in this Operating Manual is therefore in conformity
with the statutory requirements of the EC Directives. Endress+Hauser confirms successful testing of the device by affixing to it the CE mark.
10
Endress+Hauser
PROline Promag 50
2 Identification
2.3
Registered trademarks
KALREZ ®, VITON ® and TEFLON ®
are registered trademarks of E.I. Du Pont de Nemours & Co., Wilmington, USA
TRI-CLAMP ®
is a registered trademark of Ladish & Co., Inc., Kenosha, USA
HART ®
is a registered trademark of HART Communication Foundation, Austin, USA
S-DAT ™, FieldTool ™, FieldCheck ™, Applicator ™
are registered trademarks of Endress+Hauser Flowtec AG, Reinach, CH
Endress+Hauser
11
2 Identification
12
PROline Promag 50
Endress+Hauser
PROline Promag 50
3 Installation
3
Installation
3.1
Incoming acceptance, transport and storage
3.1.1
Incoming acceptance
• Check the packaging and the contents for damage.
• Check the shipment, make sure nothing is missing and that the scope of supply
matches your order.
3.1.2
Transport
The following instructions apply to unpacking and to transporting the device to its final
location:
• Transport the devices in the containers in which they are delivered.
• Do not remove the protective plates or caps on the process connections until the
device is ready to install. This is particularly important in the case of sensors with
Teflon linings.
Special notes on flanged devices
Transporting flanged devices (DN ≤ 300):
Use webbing slings slung round the two process connections (Fig. 3). Do not use
chains, as they could damage the housing.
Warning:
Risk of injury if the measuring device slips. The center of gravity of the assembled measuring device might be higher than the points around which the slings are slung.
At all times, therefore, make sure that the device does not unexpectedly turn around its
axis or slip.
F06-xxxxxxxx-22-00-00-xx-000
Caution:
• The wooden covers mounted on the flanges before the device leaves the factory protect the linings on the flanges during storage and transportation. Do not remove these
covers until immediately before the device is installed in the pipe.
• Do not lift flanged devices by the transmitter housing, or the connection housing in the
case of the remote version.
Fig. 3:
Endress+Hauser
Transporting transmitters with DN ≤ 300
13
3 Installation
PROline Promag 50
Transporting flanged devices (DN ≥ 350):
Use only the metal eyes on the flanges for transporting the device, lifting it and positioning the sensor in the piping.
Caution:
Do not attempt to lift the sensor with the tines of a fork-lift truck beneath the metal casing.
This would buckle the casing and damage the internal magnetic coils.
F06-5xFxxxxx-22-xx-xx-xx-001
Fig. 4:
3.1.3
Transporting sensors with DN ≥ 350
Storage
Note the following points:
• Pack the measuring device in such a way as to protect it reliably against impact for
storage (and transportation). The original packaging provides optimum protection.
• The permissible storage temperature is −10...+50 °C (preferably +20 °C).
• Do not remove the protective plates or caps on the process connections until you are
ready to install the device. This is particularly important in the case of sensors with
Teflon linings.
14
Endress+Hauser
PROline Promag 50
3 Installation
3.2
3.2.1
Installation conditions
Dimensions
Dimensions and the fitting lengths of the transmitter and sensor are on Page 120 ff.
3.2.2
Mounting location
F06-5xxxxxxx-11-00-00-xx-000
Correct measuring is possible only if the pipe is full. Avoid the following locations:
• Highest point of a pipeline. Risk of air accumulating
• Directly upstream a free pipe outlet in a vertical pipeline.
Fig. 5:
Location
Installation of pumps
Do not install the sensor on the intake side of a pump. This precaution is to avoid low
pressure and the consequent risk of damage to the lining of the measuring tube. Information on the lining's resistance to partial vacuum can be found on → Page 111.
F06-5xxxxxxx-11-00-00-xx-001
It might be necessary to install pulse dampers in systems incorporating reciprocating,
diaphragm or peristaltic pumps. Information on the measuring system's resistance to
vibration and shock can be found on → Page 108.
Fig. 6:
Endress+Hauser
Installation of pumps
15
3 Installation
PROline Promag 50
Partially filled pipes
Partially filled pipes with gradients necessitate a drain-type configuration. The Empty
Pipe Detection function (see Page 81) offers additional protection by detecting empty
or partially filled pipes.
Caution:
Risk of solids accumulating. Do not install the sensor at the lowest point in the drain. It
is advisable to install a cleaning valve.
F06-5xxxxxxx-11-00-00-xx-002
Fig. 7:
Installation in partially filled pipe
F06-5xxxxxxx-11-00-00-xx-003
Down pipes
Install a siphon or a vent valve downstream of the sensor in down pipes longer than 5
meters. This precaution is to avoid low pressure and the consequent risk of damage to
the lining of the measuring tube. These measures also prevent the system losing prime,
which could cause air inclusions.
Information on the lining's resistance to partial vacuum can be found on Page 111.
Fig. 8:
16
Measures for installation in a down pipe (a = vent valve; b = siphon)
Endress+Hauser
PROline Promag 50
3 Installation
3.2.3
Orientation
An optimum orientation helps avoid gas and air accumulations and deposits in the
measuring tube. Promag, nevertheless, supplies a range of functions and accessories
for correct measuring of problematic fluids:
• Electrode Cleaning Circuit (ECC) for applications with accretive fluids, e.g. electrically
conductive deposits → “Description of Device Functions” manual.
• Empty Pipe Detection (EPD) ensures the detection of partially filled measuring tubes,
e.g. in the case of degassing fluids or varying process pressure (see Page 81)
• Exchangeable Measuring Electrodes for abrasive fluids (see Page 102)
F06-5xxxxxxx-11-00-00-xx-004
Vertical orientation
This is the ideal orientation for self-emptying piping systems and for use in conjunction
with Empty Pipe Detection.
Fig. 9:
Vertical orientation
Horizontal orientation
The measuring electrode plane should be horizontal. This prevents brief insulation of the
two electrodes by entrained air bubbles.
Caution:
Empty Pipe Detection functions correctly only when the measuring device is installed
horizontally and the transmitter housing is facing upward (Fig. 10). Otherwise there is no
guarantee that Empty Pipe Detection will respond if the measuring tube is only partially
filled or empty.
F06-5xxxxxxx-11-00-xx-xx-000
Fig. 10:
1
2
3
Endress+Hauser
Horizontal orientation
EPD electrode for the detection of empty pipes (not with Promag H, DN 2...8)
Measurement electrodes for the signal acquisition
Reference electrode for the potential equalisation (not with Promag H)
17
3 Installation
PROline Promag 50
F06-5xxxxxxx-11-00-00-xx-005
Inlet and outlet runs
If possible, install the sensor well clear of fittings such as valves, T-pieces, elbows, etc.
Compliance with the following requirements for the inlet and outlet runs is necessary in
order to ensure measuring accuracy.
• Inlet run ≥ 5 x DN
• Outlet run ≥ 2 x DN
Fig. 11:
Inlet and outlet runs
3.2.4
Vibrations
Secure the piping and the sensor if vibration is severe.
Caution:
It is advisable to install sensor and transmitter separately if vibration is excessively
severe. Information on resistance to vibration and shock can be found on → Page 108.
F06-5xxxxxxx-11-00-00-xx-006
> 10 m
Fig. 12:
18
Measures to prevent vibration of the measuring device
Endress+Hauser
PROline Promag 50
3 Installation
3.2.5
Foundations, supports
If the nominal diameter is DN ≥ 350, mount the transmitter on a foundation of adequate
load-bearing strength.
Caution:
Risk of damage. Do not support the weight of the sensor on the metal casing:
the casing would buckle and damage the internal magnetic coils.
F06-5xFxxxxx-11-05-xx-xx-000
Fig. 13:
Endress+Hauser
Correct support for large nominal diameters (DN ≥ 350)
19
3 Installation
PROline Promag 50
3.2.6
Adapters
Suitable adapters to (E) DIN EN 545 (double-flange reducers) can be used to install the
sensor in larger-diameter pipes. The resultant increase in the rate of flow improves
measuring accuracy with very slow-moving fluids.
The nomogram shown here can be used to calculate the pressure loss caused by cross
section reduction:
Note:
The nomogram applies to fluids of viscosity similar to water.
Calculate the ratio of the diameters d/D.
From the nomogram read off the pressure loss as a function of flow velocity
(downstream from the reduction) and the d/D ratio.
F06-5xxxxxxx-05-05-xx-xx-000
1.
2.
Fig. 14:
3.2.7
20
Pressure loss due to adapters
Nominal diameter and flow rate
The diameter of the pipe and the flow rate determine the nominal diameter of the sensor.
The optimum velocity of flow is 2...3 m/s. The velocity of flow (v), moreover, has to be
matched to the physical properties of the fluid:
• v < 2 m/s: for abrasive fluids such as potter's clay, lime milk, ore slurry, etc.
• v > 2 m/s: for fluids producing build-up such as wastewater sludge, etc.
Note:
Flow velocity can be increased, if necessary, by reducing the nominal diameter of the
sensor (see Section 3.2.6).
Endress+Hauser
PROline Promag 50
3 Installation
Promag W
Flow rate characteristic values - Promag W (SI units)
Nominal
diameter
Endress+Hauser
Recommended
flow rate
min./max. full scale value
(v ~ 0.3 or 10 m/s)
Factory setting
Full scale value
(v ~ 2.5 m/s)
Pulse value
(~ 2 pulse/s)
Low flow cutoff
(v ~ 0.04 m/s)
[mm]
[inch]
25
1"
9…300
dm3/min
75
dm3/min
0.50
dm3
1
dm3/min
32
1 1/4"
15…500
dm3/min
125
dm3/min
1.00
dm3
2
dm3/min
40
1 1/2"
25…700
dm3/min
200
dm3/min
1.50
dm3
3
dm3/min
50
2"
35…1100
dm3/min
300
dm3/min
2.50
dm3
5
dm3/min
65
2 1/2"
60…2000
dm3/min
500
dm3/min
5.00
dm3
8
dm3/min
80
3"
90…3000
dm3/min
750
dm3/min
5.00
dm3
12
dm3/min
100
4"
145…4700
dm3/min
1200
dm3/min
10.00
dm3
20
dm3/min
125
5"
220…7500
dm3/min
1850
dm3/min
15.00
dm3
30
dm3/min
150
6"
20…600
m3/h
150
m3/h
0.025
m3
2.5
m3/h
200
8"
35…1100
m3/h
300
m3/h
0.05
m3
5.0
m3/h
250
10"
55…1700
m3/h
500
m3/h
0.05
m3
7.5
m3/h
300
12"
80…2400
m3/h
750
m3/h
0.10
m3
10
m3/h
350
14"
110…3300
m3/h
1000
m3/h
0.10
m3
15
m3/h
400
16"
140…4200
m3/h
1200
m3/h
0.15
m3
20
m3/h
450
18"
180…5400
m3/h
1500
m3/h
0.25
m3
25
m3/h
500
20"
220…6600
m3/h
2000
m3/h
0.25
m3
30
m3/h
600
24"
310…9600
m3/h
2500
m3/h
0.30
m3
40
m3/h
700
28"
420…13500
m3/h
3500
m3/h
0.50
m3
50
m3/h
–
30"
480…15000
m3/h
4000
m3/h
0.50
m3
60
m3/h
800
32"
550…18000
m3/h
4500
m3/h
0.75
m3
75
m3/h
900
36"
690…22500
m3/h
6000
m3/h
0.75
m3
100
m3/h
1000
40"
850…28000
m3/h
7000
m3/h
1.00
m3
125
m3/h
−
42"
950…30000
m3/h
8000
m3/h
1.00
m3
125
m3/h
1200
48"
1250…40000
m3/h
10000
m3/h
1.50
m3
150
m3/h
–
54"
1550…50000
m3/h
13000
m3/h
1.50
m3
200
m3/h
1400
–
1700…55000
m3/h
14000
m3/h
2.00
m3
225
m3/h
−
60"
1950…60000
m3/h
16000
m3/h
2.00
m3
250
m3/h
1600
–
2200…70000
m3/h
18000
m3/h
2.50
m3
300
m3/h
−
66"
2500…80000
m3/h
20500
m3/h
2.50
m3
325
m3/h
1800
72"
2800…90000
m3/h
23000
m3/h
3.00
m3
350
m3/h
−
78"
3300…100000
m3/h
28500
m3/h
3.50
m3
450
m3/h
2000
–
3400…110000
m3/h
28500
m3/h
3.50
m3
450
m3/h
21
3 Installation
PROline Promag 50
Flow rate characteristic values - Promag W (US units)
Nominal diameter
22
Recommended
flow rate
min./max. full scale value
(v ~ 0.3 or 10 m/s)
Factory setting
Full scale value
(v ~ 2.5 m/s)
Pulse value
(~ 2 pulse/s)
Low flow cutoff
(v ~ 0.04 m/s)
[inch]
[mm]
1"
25
2.5…80
gal/min
18
gal/min
0.20
gal
0.25
gal/min
1 1/4"
32
4…130
gal/min
30
gal/min
0.20
gal
0.50
gal/min
1 1/2"
40
7…190
gal/min
50
gal/min
0.50
gal
0.75
gal/min
2"
50
10…300
gal/min
75
gal/min
0.50
gal
1.25
gal/min
2 1/2"
65
16…500
gal/min
130
gal/min
1
gal
2.0
gal/min
3"
80
24…800
gal/min
200
gal/min
2
gal
2.5
gal/min
4"
100
40…1250
gal/min
300
gal/min
2
gal
4.0
gal/min
5"
125
60…1950
gal/min
450
gal/min
5
gal
7.0
gal/min
6"
150
90…2650
gal/min
600
gal/min
5
gal
12
gal/min
8"
200
155…4850
gal/min
1200
gal/min
10
gal
15
gal/min
10"
250
250…7500
gal/min
1500
gal/min
15
gal
30
gal/min
12"
300
350…10600
gal/min
2400
gal/min
25
gal
45
gal/min
14"
350
500…15000
gal/min
3600
gal/min
30
gal
60
gal/min
16"
400
600…19000
gal/min
4800
gal/min
50
gal
60
gal/min
18"
450
800…24000
gal/min
6000
gal/min
50
gal
90
gal/min
20"
500
1000…30000
gal/min
7500
gal/min
75
gal
120
gal/min
24"
600
1400…44000
gal/min
10500
gal/min
100
gal
180
gal/min
28"
700
1900…60000
gal/min
13500
gal/min
125
gal
210
gal/min
30"
–
2150…67000
gal/min
16500
gal/min
150
gal
270
gal/min
32"
800
2450…80000
gal/min
19500
gal/min
200
gal
300
gal/min
36"
900
3100…100000
gal/min
24000
gal/min
225
gal
360
gal/min
40"
1000
3800…125000
gal/min
30000
gal/min
250
gal
480
gal/min
42"
−
4200…135000
gal/min
33000
gal/min
250
gal
600
gal/min
48"
1200
5500…175000
gal/min
42000
gal/min
400
gal
600
gal/min
54"
–
9…300
Mgal/d
75
Mgal/d
0.0005
Mgal
1.3
Mgal/d
–
1400
10…340
Mgal/d
85
Mgal/d
0.0005
Mgal
1.3
Mgal/d
60"
−
12…380
Mgal/d
95
Mgal/d
0.0005
Mgal
1.3
Mgal/d
–
1600
13…450
Mgal/d
110
Mgal/d
0.00075
Mgal
1.7
Mgal/d
66"
−
14…500
Mgal/d
120
Mgal/d
0.00075
Mgal
2.2
Mgal/d
72"
1800
16…570
Mgal/d
140
Mgal/d
0.00075
Mgal
2.6
Mgal/d
78"
−
18…650
Mgal/d
175
Mgal/d
0.001
Mgal
3.0
Mgal/d
–
2000
20…700
Mgal/d
175
Mgal/d
0.001
Mgal
3.0
Mgal/d
Endress+Hauser
PROline Promag 50
3 Installation
Promag P
Flow rate characteristic values - Promag P (SI units)
Nominal
diameter
Endress+Hauser
Recommended
flow rate
min./max. full scale value
(v ~ 0.3 or 10 m/s)
Factory setting
Full scale value
(v ~ 2.5 m/s)
Pulse value
(~ 2 pulse/s)
Low flow cutoff
(v ~ 0.04 m/s)
[mm]
[inch]
15
1/2"
4…100
dm3/min
25
dm3/min
0.20
dm 3
0.5
dm3/min
25
1"
9…300
dm3/min
75
dm3/min
0.50
dm 3
1
dm3/min
32
1 1/4"
15…500
dm3/min
125
dm3/min
1.00
dm 3
2
dm3/min
40
1 1/2"
25…700
dm3/min
200
dm3/min
1.50
dm 3
3
dm3/min
50
2"
35…1100
dm3/min
300
dm3/min
2.50
dm 3
5
dm3/min
65
2 1/2"
60…2000
dm3/min
500
dm3/min
5.00
dm 3
8
dm3/min
80
3"
90…3000
dm3/min
750
dm3/min
5.00
dm 3
12
dm3/min
100
4"
145…4700
dm3/min
1200
dm3/min
10.00
dm 3
20
dm3/min
125
5"
220…7500
dm3/min
1850
dm3/min
15.00
dm 3
30
dm3/min
150
6"
20…600
m3/h
150
m3/h
0.025
m3
2.5
m3/h
200
8"
35…1100
m3/h
300
m3/h
0.05
m3
5.0
m3/h
250
10"
55…1700
m3/h
500
m3/h
0.05
m3
7.5
m3/h
300
12"
80…2400
m3/h
750
m3/h
0.10
m3
10
m3/h
350
14"
110…3300
m3/h
1000
m3/h
0.10
m3
15
m3/h
400
16"
140…4200
m3/h
1200
m3/h
0.15
m3
20
m3/h
450
18"
180…5400
m3/h
1500
m3/h
0.25
m3
25
m3/h
500
20"
220…6600
m3/h
2000
m3/h
0.25
m3
30
m3/h
600
24"
310…9600
m3/h
2500
m3/h
0.30
m3
40
m3/h
23
3 Installation
PROline Promag 50
Flow rate characteristic values - Promag P (US units)
Nominal diameter
Recommended
flow rate
min./max. full scale value
(v ~ 0.3 or ~ 10 m/s)
Factory setting
Full scale value
(v ~ 2.5 m/s)
Pulse value
(~ 2 pulse/s)
Low flow cutoff
(v ~ 0.04 m/s)
[inch]
[mm]
1/2"
15
1.0…27
gal/min
6
gal/min
0.05
gal
0.10
gal/min
1"
25
2.5…80
gal/min
18
gal/min
0.20
gal
0.25
gal/min
1 1/4"
32
4…130
gal/min
30
gal/min
0.20
gal
0.50
gal/min
1 1/2"
40
7…190
gal/min
50
gal/min
0.50
gal
0.75
gal/min
2"
50
10…300
gal/min
75
gal/min
0.50
gal
1.25
gal/min
2 1/2"
65
16…500
gal/min
130
gal/min
1
gal
2.0
gal/min
3"
80
24…800
gal/min
200
gal/min
2
gal
2.5
gal/min
4"
100
40…1250
gal/min
300
gal/min
2
gal
4.0
gal/min
5"
125
60…1950
gal/min
450
gal/min
5
gal
7.0
gal/min
6"
150
90…2650
gal/min
600
gal/min
5
gal
12
gal/min
8"
200
155…4850
gal/min
1200
gal/min
10
gal
15
gal/min
10"
250
250…7500
gal/min
1500
gal/min
15
gal
30
gal/min
12"
300
350…10600
gal/min
2400
gal/min
25
gal
45
gal/min
14"
350
500…15000
gal/min
3600
gal/min
30
gal
60
gal/min
16"
400
600…19000
gal/min
4800
gal/min
50
gal
60
gal/min
18"
450
800…24000
gal/min
6000
gal/min
50
gal
90
gal/min
20"
500
1000…30000
gal/min
7500
gal/min
75
gal
120
gal/min
24"
600
1400…44000
gal/min
10500
gal/min
100
gal
180
gal/min
Promag H
Flow rate characteristic values - Promag H (SI units)
Nominal
diameter
24
Recommended
flow rate
min./max. full scale value
(v ~ 0.3 or 10 m/s)
Factory settings
Full scale value
(v ~ 2.5 m/s)
Pulse value
(~ 2 pulse/s)
Low flow cutoff
(v ~ 0.04 m/s)
[mm]
inch]
2
1/12"
0.06…1.8
dm3/min
0.5
dm3/min
0.005
dm3
0.01
dm3/min
4
5/32"
0.25…7
dm3/min
2
dm3/min
0.025
dm3
0.05
dm3/min
8
5/16"
1…30
dm3/min
8
dm3/min
0.10
dm3
0.1
dm3/min
15
1/2"
4…100
dm3/min
25
dm3/min
0.20
dm3
0.5
dm3/min
25
1"
9…300
dm3/min
75
dm3/min
0.50
dm3
1
dm3/min
40
1 1/2"
25…700
dm3/min
200
dm3/min
1.50
dm3
3
dm3/min
50
2"
35…1100
dm3/min
300
dm3/min
2.50
dm3
5
dm3/min
65
2 1/2"
60…2000
dm3/min
500
dm3/min
5.00
dm3
8
dm3/min
80
3"
90…3000
dm3/min
750
dm3/min
5.00
dm3
12
dm3/min
100
4"
145…4700
dm3/min
1200
dm3/min
10.00
dm3
20
dm3/min
Endress+Hauser
PROline Promag 50
3 Installation
Flow rate characteristic values - Promag H (US units)
Nominal diameter
Recommended
flow rate
Factory settings
min./max. full scale value
(v ~ 0.3 or 10 m/s)
Full scale value
(v ~ 2.5 m/s)
Pulse value
(~ 2 Pulse/s)
Low flow cutoff
(v ~ 0.04 m/s)
gal/min
0.001
gal
0.002
gal/min
0.5
gal/min
0.005
gal
0.008
gal/min
gal/min
2
gal/min
0.02
gal
0.025
gal/min
1.0…27
gal/min
6
gal/min
0.05
gal
0.10
gal/min
25
2.5…80
gal/min
18
gal/min
0.20
gal
0.25
gal/min
1 1/2"
40
7…190
gal/min
50
gal/min
0.50
gal
0.75
gal/min
2"
50
10…300
gal/min
75
gal/min
0.50
gal
1.25
gal/min
2 1/2"
65
16…500
gal/min
130
gal/min
1
gal
2.0
gal/min
3"
80
24…800
gal/min
200
gal/min
2
gal
2.5
gal/min
4"
100
40…1250
gal/min
300
gal/min
2
gal
4.0
gal/min
[inch]
[mm]
1/12"
2
0.015…0.5
gal/min
0.1
5/32"
4
0.07…2
gal/min
5/16"
8
0.25…8
1/2"
15
1"
3.2.8
Length of connecting cable
In order to ensure measuring accuracy, comply with the following instructions when
installing the remote version:
• Secure the cable run or route the cable in a conduit. Movement of the cable can falsify
the measuring signal, particularly if the fluid conductivity is low.
• Route the cable well clear of electrical machines and switching elements.
• Ensure potential equalisation between sensor and transmitter, if necessary.
• The permissible cable length Lmax depends on the fluid conductivity (Fig. 15).
A minimum conductivity of 20 µS/cm is required for measuring demineralized water.
[µS/cm]
200
100
5
[m]
10
100
L max
Fig. 15:
200
F06-xxxxxxxx-05-xx-xx-xx-006
L max
Permissible cable length for the remote version
Gray shaded area = permissible range
Lmax = length of connecting cable in [m]
Fluid conductivity in [µS/cm]
Endress+Hauser
25
3 Installation
PROline Promag 50
3.3
3.3.1
Installation instructions
Installing the Promag W sensor
Note:
Bolts, nuts, seals, etc. are not included in the scope of supply and must be supplied by
the customer.
F06-5xFxxxxx-17-05-xx-xx-000
The sensor is designed for installation between the two piping flanges:
• Observe in any case the necessary screw tightening torques on Page 28 ff.
• The mounting of additional ground disks is described on Page 27.
Fig. 16:
Installing the Promag W sensor
Seals
Comply with the following instructions when installing seals:
• Hard rubber lining → additional seals are always necessary.
• Polyurethane lining → additional seals are recommended.
• For DIN flanges, use only seals according to DIN 2690.
• Make sure that the seals do not protrude into the piping cross-section.
Caution:
Risk of short circuit. Do not use electrically conductive sealing compound such as
graphite. An electrically conductive layer could form on the inside of the measuring tube
and short-circuit the measuring signal.
Ground cable (DN 25…2000)
If necessary, the special ground cable for potential equalisation can be ordered as an
accessory (see Page 85). Detailled assembly instructions → Page 57 ff.
26
Endress+Hauser
PROline Promag 50
3 Installation
Assembly with ground disks (DN 25…300)
Depending on the application, e.g. with lined or ungrounded pipes (see Page 56 ff.), it
may be necessary to mount ground disks between the sensor and the pipe flange for
potential equalisation. Ground disks can be ordered separately as an accessory from
E+H (see Page 85).
Caution:
• In this case, when using ground disks (including seals) the total fitting length
increases! Dimensions → Page 130.
• Hard rubber lining → install additional seals between the sensor and ground disk
and between the ground disk and pipe flange.
• Polyurethane lining → only install additional seals between the ground disk and pipe
flange.
1.
2.
3.
F06-5xFxxxxx-17-05-xx-xx-001
4.
5.
Place the ground disk and additional seal(s) between the instrument and the pipe
flange (Fig. 17).
Insert the bolts through the flange holes. Tighten the nuts so that they are still loose.
Now rotate the ground disk as shown in Fig. 17 until the handle strikes the bolts.
This will center the ground disk automatically.
Now tighten the bolts to the required torque (see Page 28 ff.)
Connect the ground disk to ground → Page 58.
Fig. 17:
Endress+Hauser
Assembly with ground disks (Promag W, DN 25…300)
27
3 Installation
PROline Promag 50
Screw tightening torques (Promag W)
Note the following points:
• The tightening torques listed below are for lubricated threads only.
• Always tighten threaded fasteners uniformly and in diagonally opposite sequence.
• Overtightening the fasteners will deform the sealing faces or damage the seals.
• The tightening torques listed below apply only to pipes not subjected to tensile stress.
28
Promag W
Nominal diameter
DIN
Pressure rating
[mm]
[bar]
25
PN 40
32
Threaded
fasteners
Max. tightening torque [Nm]
Hard rubber
Polyurethane
4 x M 12
−
8
PN 40
4 x M 16
−
14
40
PN 40
4 x M 16
−
18
50
PN 40
4 x M 16
−
25
65
PN 16
4 x M 16
65
22
65
PN 40
8 x M 16
32
18
80
PN 16
8 x M 16
40
13
80
PN 40
8 x M 16
40
23
100
PN 16
8 x M 16
43
14
100
PN 40
8 x M 20
59
39
125
PN 16
8 x M 16
56
19
125
PN 40
8 x M 24
83
63
150
PN 16
8 x M 20
74
27
150
PN 40
8 x M 24
104
84
200
PN 10
8 x M 20
106
35
200
PN 16
12 x M 20
70
28
200
PN 25
12 x M 24
104
57
250
PN 10
12 x M 20
82
27
250
PN 16
12 x M 24
98
48
250
PN 25
12 x M 27
150
93
300
PN 10
12 x M 20
94
34
300
PN 16
12 x M 24
134
67
300
PN 25
16 x M 27
153
97
350
PN 10
16 x M 20
112
47
350
PN 16
16 x M 24
152
68
350
PN 25
16 x M 30
227
141
400
PN 10
16 x M 24
151
65
400
PN 16
16 x M 27
193
95
400
PN 25
16 x M 33
289
192
450
PN 10
20 x M 24
153
59
450
PN 16
20 x M 27
198
96
450
PN 25
20 x M 33
256
185
500
PN 10
20 x M 24
155
66
Endress+Hauser
PROline Promag 50
Endress+Hauser
3 Installation
Promag W
Nominal diameter
DIN
Pressure rating
[mm]
[bar]
500
PN 16
500
Threaded
fasteners
Max. tightening torque [Nm]
Hard rubber
Polyurethane
20 x M 30
275
132
PN 25
20 x M 33
317
228
600
PN 10
20 x M 27
206
93
600
PN 16
20 x M 33
415
202
600
PN 25
20 x M 36
431
342
700
PN 10
24 x M 27
246
105
700
PN 16
24 x M 33
278
202
700
PN 25
24 x M 39
449
397
800
PN 10
24 x M 30
331
150
800
PN 16
24 x M 36
369
283
800
PN 25
24 x M 45
664
589
900
PN 10
28 x M 30
316
159
900
PN 16
28 x M 36
353
299
900
PN 25
28 x M 45
690
619
1000
PN 10
28 x M 33
402
210
1000
PN 16
28 x M 39
502
401
1000
PN 25
28 x M 52
970
871
1200
PN 6
32 x M 30
319
138
1200
PN 10
32 x M 36
564
289
1200
PN 16
32 x M 45
701
575
1400
PN 6
36 x M 33
430
181
1400
PN 10
36 x M 39
654
368
1400
PN 16
36 x M 45
729
675
1600
PN 6
40 x M 33
440
208
1600
PN 10
40 x M 45
946
503
1600
PN 16
40 x M 52
1007
915
1800
PN 6
44 x M 36
547
262
1800
PN 10
44 x M 45
961
566
1800
PN 16
44 x M 52
1108
1023
2000
PN 6
48 x M 39
629
316
2000
PN 10
48 x M 45
1047
636
2000
PN 16
48 x M 56
1324
1241
29
3 Installation
PROline Promag 50
Promag W
Nominal diameter
[mm]
[inch]
700
28"
Class D
750
30"
800
Threaded
fasteners
Max. tightening torque [Nm]
Hard rubber
Polyurethane
28 x 1 1/4"
247
109
Class D
28 x 1 1/4
287
126
32"
Class D
28 x 1 1/2"
394
170
900
36"
Class D
32 x 1 1/2"
419
186
1000
40"
Class D
36 x 1 1/2"
420
200
1050
42"
Class D
36 x 1 1/2"
528
226
1200
48"
Class D
44 x 1 1/2"
552
240
1350
54"
Class D
44 x 1 3/4"
730
345
1500
60"
Class D
52 x 1 3/4"
758
359
1650
66"
Class D
52 x 1 3/4"
946
436
1800
72"
Class D
60 x 1 3/4"
975
449
2000
78"
Class D
64 x 2"
853
552
ANSI
Pressure rating
Threaded
fasteners
Promag W
Nominal diameter
30
AWWA
Pressure rating
[mm]
[inch]
[lbs]
25
1"
Class 150
25
1"
40
Max. tightening torque [Nm]
Hard rubber
Polyurethane
4 x 1/2"
−
3
Class 300
4 x 5/8"
−
8
1 1/2"
Class 150
4 x 1/2"
−
6
40
1 1/2"
Class 300
4 x 3/4"
−
20
50
2"
Class 150
4 x 5/8"
−
12
50
2"
Class 300
8 x 5/8"
−
13
80
3"
Class 150
4 x 5/8"
60
20
80
3"
Class 300
8 x 3/4"
38
30
100
4"
Class 150
8 x 5/8"
42
15
100
4"
Class 300
8 x 3/4"
58
45
150
6"
Class 150
8 x 3/4"
79
33
150
6"
Class 300
12 x 3/4"
70
57
200
8"
Class 150
8 x 3/4"
107
51
250
10"
Class 150
12 x 7/8"
101
57
300
12"
Class 150
12 x 7/8"
133
78
350
14"
Class 150
12 x 1"
135
105
400
16"
Class 150
16 x 1"
128
102
450
18"
Class 150
16 x 1 1/8"
204
147
500
20"
Class 150
20 x 1 1/8"
183
142
600
24"
Class 150
20 x 1 1/4"
268
218
Endress+Hauser
PROline Promag 50
3 Installation
Promag W
Nominal diameter
JIS
Pressure rating
Threaded
fasteners
[mm]
Endress+Hauser
Max. tightening torque [Nm]
Hard rubber
Polyurethane
25
20K
4 x M 16
−
9
32
20K
4 x M 16
−
12
40
20K
4 x M 16
−
13
50
10K
4 x M 16
−
13
50
20K
8 x M 16
−
9
65
10K
4 x M 16
55
18
65
20K
8 x M 16
28
14
80
10K
8 x M 16
29
10
80
20K
8 x M 20
42
22
100
10K
8 x M 16
35
12
100
20K
8 x M 20
56
32
125
10K
8 x M 20
60
20
125
20K
8 x M 22
91
52
150
10K
8 x M 20
75
25
150
20K
12 x M 22
81
48
200
10K
12 x M 20
61
23
200
20K
12 x M 22
91
69
250
10K
12 x M 22
100
39
250
20K
12 x M 24
159
118
300
10K
16 x M 22
74
38
300
20K
16 x M 24
138
116
31
3 Installation
PROline Promag 50
3.3.2
Installing the Promag P sensor
Caution:
• The protective covers mounted on the two sensor flanges guard the Teflon (PTFE) lining, which is turned over the flanges. Consequently, do not remove these covers until
immediately before the sensor is installed in the pipe.
• The covers must remain in place while the device is in storage.
• Make sure that the lining is not damaged or removed from the flanges.
Note:
Bolts, nuts, seals, etc. are not included in the scope of supply and must be supplied by
the customer.
F-5xFxxxxx-17-05-xx-xx-000
The sensor is designed for installation between the two piping flanges.
• Observe in any case the necessary screw tightening torques on Page 35 ff.
• The mounting of additional ground disks is described on Page 33.
Fig. 18:
Installing the Promag P sensor
Seals
Comply with the following instructions when installing seals:
• Measuring tube linings with PFA or PTFE → No seals are required.
• In case you use seals with DIN flanges, use only seals according to DIN 2690.
• Make sure that the seals do not protrude into the piping cross-section.
Caution:
Risk of short circuit. Do not use electrically conductive sealing compound such as
graphite. An electrically conductive layer could form on the inside of the measuring tube
and short-circuit the measuring signal.
Ground cable (DN 15…600)
If necessary, a special ground cable for potential equalisation can be ordered as an
accessory (see Page 85). Detailled assembly instructions → Page 57 ff.
32
Endress+Hauser
PROline Promag 50
3 Installation
Assembly with ground disks (DN 15…300)
Depending on the application, e.g. with lined or ungrounded pipes (see Page 56 ff.), it
may be necessary to mount ground disks between the sensor and the pipe flange for
the potential equalisation. Ground disks can be ordered separately as an accessory
from E+H (see Page 85).
Caution:
• In this case, when using ground disks (including seals) the total fitting length
increases! Dimensions → Page 130.
• PTFE and PFA lining → only install additional seals between the ground disk and
pipe flange.
1.
2.
3.
F06-5xFxxxxx-17-05-xx-xx-001
4.
5.
Place the ground disk and the additional seal between the instrument and the pipe
flange (Fig. 19).
Insert the bolts through the flange holes. Tighten the nuts so that they are still loose.
Now rotate the ground disk as shown in Fig. 19 until the handle strikes the bolts.
This will center the ground disk automatically.
Now tighten the bolts to the required torque (see Page 35 ff.)
Connect the ground disk to ground → Page 58.
Fig. 19:
Endress+Hauser
Assembly with ground disks (Promag P, DN 15…300)
33
3 Installation
PROline Promag 50
Installing the high-temperature version (with PFA lining)
The high-temperature version has a housing support for the thermal separation of
sensor and transmitter. The high-temperature version is always used for applications in
which high ambient temperatures are encountered in conjunction with high fluid
temperatures. The high-temperature version is obligatory if the fluid temperature
exceeds +150 °C.
Note:
You will find information on permissible temperature ranges on → Page 109
Insulation
Pipes generally have to be insulated if they carry very hot fluids, in order to avoid energy
losses and to prevent accidental contact with pipes at temperatures that could cause
injury. Guidelines regulating the insulation of pipes have to be taken into account.
Caution:
Risk of measuring electronics overheating. The housing support dissipates heat and its
entire surface area must remain uncovered. Make sure that the sensor insulation does
not extend past the top of the two sensor shells (Fig. 20).
F06-5xPxxxxx-17-05-00-xx-000
Fig. 20:
34
Promag P (high-temperature version): Insulating the pipe
Endress+Hauser
PROline Promag 50
3 Installation
Tightening torques for threaded fasteners (Promag P)
Note the following points:
• The tightening torques listed below are for lubricated threads only.
• Always tighten threaded fasteners uniformly and in diagonally opposite sequence.
• Overtightening the fasteners will deform the sealing faces or damage the seals.
• The tightening torques listed below apply only to pipes not subjected to tensile stress.
Endress+Hauser
Promag P
Nominal diameter
DIN
Pressure rating
[mm]
[bar]
15
PN 40
25
Threaded
fasteners
Max. tightening torque [Nm]
PTFE
PFA
4 x M 12
11
−
PN 40
4 x M 12
26
19
32
PN 40
4 x M 16
41
33
40
PN 40
4 x M 16
52
42
50
PN 40
4 x M 16
65
55
65
PN 16
4 x M 16
87
73
65
PN 40
8 x M 16
43
36
80
PN 16
8 x M 16
53
44
80
PN 40
8 x M 16
53
44
100
PN 16
8 x M 16
57
45
100
PN 40
8 x M 20
78
63
125
PN 16
8 x M 16
75
59
125
PN 40
8 x M 24
111
87
150
PN 16
8 x M 20
99
73
150
PN 40
8 x M 24
136
104
200
PN 10
8 x M 20
141
100
200
PN 16
12 x M 20
94
67
200
PN 25
12 x M 24
138
104
250
PN 10
12 x M 20
110
−
250
PN 16
12 x M 24
131
−
250
PN 25
12 x M 27
200
−
300
PN 10
12 x M 20
125
−
300
PN 16
12 x M 24
179
−
300
PN 25
16 x M 27
204
−
350
PN 10
16 x M 20
188
−
350
PN 16
16 x M 24
254
−
350
PN 25
16 x M 30
380
−
400
PN 10
16 x M 24
260
−
400
PN 16
16 x M 27
330
−
400
PN 25
16 x M 33
488
−
450
PN 10
20 x M 24
235
−
450
PN 16
20 x M 27
300
−
450
PN 25
20 x M 33
385
−
500
PN 10
20 x M 24
265
−
35
3 Installation
36
PROline Promag 50
Promag P
Nominal diameter
DIN
Pressure rating
[mm]
[bar]
500
PN 16
500
Threaded
fasteners
Max. tightening torque [Nm]
PTFE
PFA
20 x M 30
448
−
PN 25
20 x M 33
533
−
600
PN 10
20 x M 27
345
−
600
PN 16
20 x M 33
658
−
600
PN 25
20 x M 36
731
−
Promag P
Nominal diameter
ANSI
Pressure rating
Threaded
fasteners
Max. tightening torque [Nm]
[mm]
[inch]
[lbs]
PTFE
PFA
15
1/2"
Class 150
4 x 1/2"
6
−
15
1/2"
Class 300
4 x 1/2"
6
−
25
1"
Class 150
4 x 1/2"
11
9
25
1"
Class 300
4 x 5/8"
14
11
40
1 1/2"
Class 150
4 x 1/2"
24
19
40
1 1/2"
Class 300
4 x 3/4"
34
28
50
2"
Class 150
4 x 5/8"
47
38
50
2"
Class 300
8 x 5/8"
23
19
80
3"
Class 150
4 x 5/8"
79
67
80
3"
Class 300
8 x 3/4"
47
40
100
4"
Class 150
8 x 5/8"
56
49
100
4"
Class 300
8 x 3/4"
67
58
150
6"
Class 150
8 x 3/4"
106
91
150
6"
Class 300
12 x 3/4"
73
67
200
8"
Class 150
8 x 3/4"
143
121
250
10"
Class 150
12 x 7/8"
135
−
300
12"
Class 150
12 x 7/8"
178
−
350
14"
Class 150
12 x 1"
260
−
400
16"
Class 150
16 x 1"
246
−
450
18"
Class 150
16 x 1 1/8"
371
−
500
20"
Class 150
20 x 1 1/8"
341
−
600
24"
Class 150
20 x 1 1/4"
477
−
Endress+Hauser
PROline Promag 50
3 Installation
Promag P
Nominal diameter
JIS
Pressure rating
Threaded
fasteners
[mm]
Endress+Hauser
Max. tightening torque [Nm]
PTFE
PFA
15
20K
4 x M 12
16
−
25
20K
4 x M 16
32
−
32
20K
4 x M 16
38
−
40
20K
4 x M 16
41
−
50
10K
4 x M 16
54
−
50
20K
8 x M 16
27
−
65
10K
4 x M 16
74
−
65
20K
8 x M 16
37
−
80
10K
8 x M 16
38
−
80
20K
8 x M 20
57
−
100
10K
8 x M 16
47
−
100
20K
8 x M 20
75
−
125
10K
8 x M 20
80
−
125
20K
8 x M 22
121
−
150
10K
8 x M 20
99
−
150
20K
12 x M 22
108
−
200
10K
12 x M 20
82
−
200
20K
12 x M 22
121
−
250
10K
12 x M 22
133
−
250
20K
12 x M 24
212
−
300
10K
16 x M 22
99
−
300
20K
16 x M 24
183
−
37
3 Installation
PROline Promag 50
3.3.3
Installing the Promag H sensor
The Promag H is supplied to order, with or without pre-installed process connections.
Pre-installed process connections are secured to the sensor with hex-head threaded
fasteners.
Caution:
• If you intend using your own process connections, make up the process adapters as
specified on Page 135 ff.
• The sensor might require support or additional attachments, depending on the application and the length of the piping run. A wall-mounting kit can be ordered separately
from E+H as an accessory (see Page 85).
F06-xxHxxxxx-17-05-xx-xx-000
Fig. 21:
Promag H process connections (DN 2...25, DN 40...100)
A: DN 2…25 / process connections with O-rings:
Welding flanges (ISO 2463, IPS), flanges (DIN 2635, ANSI B16.5, JIS B2238),
PVDF flanges (DIN 2501, ANSI B16.5, JIS B2238), external and internal pipe threads (ISO / DIN),
hose connection, PVC adhesive fitting
B: DN 2…25 / process connections with aseptic gasket seals:
Weld nipples (DIN 11850, ODT), Tri-Clamp, Clamp (ISO 2852, DIN 32676), coupling (DIN 11851,
DIN 11864-1, SMS 1145), flange DIN 11864-2
C: DN 40…100 / process connections with aseptic gasket seals:
Weld nipples (DIN 11850, ODT), Tri-Clamp, Clamp (ISO 2852, DIN 32676), coupling (DIN 11851,
DIN 11864-1, ISO 2853, SMS 1145), flange DIN 11864-2
Seals
When installing the process connections, make sure that the seals are clean and correctly centered.
38
Caution:
• With metallic process connections, you must fully tighten the screws. The process
connection forms a metallic connection with the sensor, which ensures a defined compression of the seal.
• With plastic process connections, note the max. torques (for PVDF: 3.3 Nm; for PVC:
10 Nm). With plastic flanges, always use seals between connection and counter
flange.
• The seals must be replaced periodically, depending on the application, particularly in
the case of gasket seals (aseptic version)! The period between changes depends on
the frequency of cleaning cycles, the cleaning temperature and the fluid temperature.
Replacement seals can be ordered as accessories → Page 85.
Endress+Hauser
PROline Promag 50
3 Installation
Usage and assembly of ground rings (DN 2…25)
In case the process connections are made of plastic (e.g. flanges or adhesive fittings),
the potential between the sensor and the fluid must be equalised using additional
ground rings.
If the ground rings are not installed this can affect the accuracy of the measurements or
cause the destruction of the sensor through the electrochemical erosion of the electrodes.
Caution:
• Depending on the option ordered, plastic disks may be installed at the process connections instead of ground rings. These plastic disks serve only as spacers and have
no potential equalization function. In addition, they provide a sealing function at the
interface between the sensor and process connection. For this reason, with process
connections without ground rings, these plastic disks/seals must not be removed, or
must always be installed.
• Ground rings can be ordered separately from E+H as accessories (see Page 85).
When placing the order, make certain that the ground ring is compatible with the material used for the electrodes. Otherwise, there is a risk that the electrodes may be
destroyed by electrochemical corrosion! Information about the materials can be found
on Page 115.
• Ground rings, including the seals, are mounted within the process connections.
Therefore, the fitting length is not affected. The dimensions of the ground rings can be
found on Page 142.
1.
2.
3.
4.
5.
6.
Loosen the four hexagonal headed bolts (1) and remove the process connection
from the sensor (5).
Remove the plastic disk (3), including the two O-ring seals (2, 4).
Place one seal (2) in the groove of the process connection.
Place the metal ground ring (3) on the process connection.
Now place the second seal (4) in the groove of the ground ring.
Finally, mount the process connection on the sensor again. With plastic process
connections, note the max. torques (for PVDF: 3.3 Nm; for PVC: 10 Nm).
2
3
4
5
Fig. 22:
F06-xxHxxxxx-17-xx-xx-xx-001
1
Installing ground rings with a Promag H (DN 2…25)
1 = Hexagonal headed bolts (process connection), 2 = O-ring seal for the process connection
3 = Plastic disk (placeholder) or ground ring, 4 = O-ring seal for the ground ring
5 = Sensor Promag H
Endress+Hauser
39
3 Installation
PROline Promag 50
Welding the sensor into the piping (weld nipples)
Caution:
Risk of irreparable damage to the electronics. Make sure that the welding machine is
not grounded via the sensor or the transmitter.
1.
2.
3.
4.
Tack-weld the Promag H sensor into the pipe. A suitable welding jig can be ordered
separately from E+H as an accessory (see Page 85).
Remove the threaded fasteners from the process-connection flange. Remove the
sensor complete with seal from the pipe.
Weld the process connection to the pipe.
Reinstall the sensor in the pipe. Make sure that everything is clean and that the seal
is correctly seated.
Note:
• If thin-walled foodstuffs pipes are not welded correctly, the heat could damage the
installed seal. It is therefore advisable to remove the sensor and the seal prior to
welding.
• The pipe has to be spread approximately 8 mm to permit disassembly.
Cleaning with pigs
If pigs are used for cleaning, it is essential to take the inside diameters of measuring
tube and process connection into account (see Page 131 ff.).
40
Endress+Hauser
PROline Promag 50
3 Installation
3.3.4
Turning the transmitter housing
Turning the aluminum field housing
Warning:
The turning mechanism in devices with EEx d/de or FM/CSA Cl. I Div. 1 classification is
not the same as that described here. The procedure for turning these housings is
described in the Ex-specific documentation.
Loosen the two securing screws.
Turn the bayonet catch as far as it will go.
Carefully lift the transmitter housing as far as it will go.
Turn the transmitter housing to the desired position (max. 2 x 90° in either direction).
Lower the housing into position and re-engage the bayonet catch.
Retighten the two securing screws.
F06-xxxxxxxx-17-06-xx-xx-000
1.
2.
3.
4.
5.
6.
Fig. 23:
Turning the transmitter housing (aluminum field housing)
Turning the stainless-steel field housing
Loosen the two securing screws.
Carefully lift the transmitter housing as far as it will go.
Turn the transmitter housing to the desired position (max. 2 x 90° in either direction).
Lower the housing into position.
Retighten the two securing screws.
F06-xxxxxxxx-17-06-xx-xx-001
1.
2.
3.
4.
5.
Fig. 24:
Endress+Hauser
Turning the transmitter housing (stainless-steel field housing)
41
3 Installation
PROline Promag 50
3.3.5
1.
2.
3.
Remove the cover of the electronics compartment.
Press the side latches on the display module and remove it from the electronics
compartment cover plate.
Rotate the display to the desired position (max. 4 x 45° in each direction), and place
it back into the electronics compartment cover plate.
Screw the cover of the electronics compartment firmly onto the transmitter housing.
F06-xxxxxxxx-07-xx-06-xx-000
4.
Turning the local display
Fig. 25:
42
Turning the local display (field housing)
Endress+Hauser
PROline Promag 50
3 Installation
3.3.6
Installing the wall-mount transmitter housing
There are various ways of installing the wall-mount transmitter housing:
• Mounted directly on the wall
• Installation in control panel (with separate mounting kit, accessories → Page 85)
• Pipe mounting (with separate mounting kit, accessories → Page 85)
Caution:
• Make sure that ambient temperature does not exceed the permissible range
(–20…+60 °C). Install the device at a shady location. Avoid direct sunlight.
• Always install the wall-mount housing in such a way that the cable entries are pointing
down.
Direct wall mounting
4.
5.
Drill the holes as illustrated in Fig. 26.
Remove the cover of the connection compartment (a).
Push the two securing screws (b) through the appropriate bores (c) in the housing.
– Securing screws (M6): max. Ø 6.5 mm
– Screw head: max. Ø 10.5 mm
Secure the transmitter housing to the wall as indicated.
Screw the cover of the connection compartment (a) firmly onto the housing.
b
c
81.5
c
35
a
90
Fig. 26:
Endress+Hauser
192
F06-xxxxxxxx-17-03-xx-xx-000
1.
2.
3.
Mounted directly on the wall
43
3 Installation
PROline Promag 50
Panel installation
1.
2.
3.
4.
Prepare the opening in the panel (Fig. 27).
Slide the housing into the opening in the panel from the front.
Screw the fasteners onto the wall-mount housing.
Place the threaded rods in the fasteners and screw them down until the housing is
seated tightly against the panel. Afterwards, tighten the locking nuts. Additional
support is not necessary.
21
+
– 00.5
.5
245
F06-xxxxxxxx-06-03-06-xx-002
+0.5
– 0.5
0
10
~1
Fig. 27:
Panel Installation (wall-mount housing)
Pipe mounting
The assembly should be performed by following the instructions in Fig. 28.
Caution:
If the device is mounted to a warm pipe, make certain that the housing temperature
does not exceed +60 °C, which is the maximum permissible temperature.
55
~1
Fig. 28:
44
F06-xxxxxxxx-06-03-06-xx-001
Ø 20...70
Pipe mounting (wall-mount housing)
Endress+Hauser
PROline Promag 50
3 Installation
3.4
Installation check
Perform the following checks after installing the measuring device in the pipe:
Endress+Hauser
Device condition and specifications
Notes
Is the device damaged (visual inspection)?
−
Does the device correspond to specifications at the measuring point,
including process temperature and pressure, ambient temperature,
minimum fluid conductivity, measuring range, etc.?
see Page 105 ff.
Installation
Notes
Does the arrow on the sensor nameplate match the direction of flow
through the pipe?
−
Is the plane of the measuring-electrode axis correct?
Horizontal?
Is the position of the Empty Pipe Detection (EPD) electrode correct?
see Page 17
Were all threaded fasteners tightened to the specified torques when
the sensor was installed?
see Section 3.3
Hard rubber lining and ground disks:
Were the correct seals installed (type, material, installation)?
Promag W → Page 26
Promag P → Page 32
Promag H → Page 38
Are the measuring-point number and labeling correct (visual
inspection)?
−
Process environment / process conditions
Notes
Are the inlet and outlet runs to respected?
Inlet run ≥ 5 x DN
Outlet run ≥ 2 x DN
Is the measuring device protected against moisture and direct
sunlight?
−
Is the sensor adequately protected against vibration (attachment,
support)?
Acceleration up to 2 g by
analogy with IEC 68-2-6
(see Page 108)
45
3 Installation
46
PROline Promag 50
Endress+Hauser
PROline Promag 50
4 Wiring
4
Wiring
Warning:
• When connecting Ex-certified devices, see the notes and diagrams in the Ex-specific
supplement to this Operating Manual. Please do not hesitate to contact your E+H representative if you have any questions.
• If you use remote versions, connect each sensor only to the transmitter having the
same serial number. Measuring errors can occur if the devices are not connected in
this way.
4.1
Connecting the remote version
4.1.1
Connecting Promag W / P / H
Warning:
• Risk of electric shock. Switch off the power supply before opening the device. Do not
install or wire the device while it is connected to the power supply. Failure to comply
with this precaution can result in irreparable damage to the electronics.
• Risk of electric shock. Connect the protective conductor to the ground terminal on the
housing before the power supply is applied.
Procedure (Fig. 29, Fig. 30):
1.
2.
3.
Caution:
– Make sure the connecting cables are secured (see Page 25).
– Risk of damaging the coil driver. Always switch off the power supply before
connecting or disconnecting the coil cable.
4.
Preterminate signal cable and coil current cable:
Promag W, P → Refer to the information on Page 49
Promag H → Refer to the information on Page 50
5.
Establish the connections between sensor and transmitter in accordance with the
wiring diagram:
→ Fig. 29, Fig. 30
→ wiring diagram inside the cover
Caution:
Insulate the shields of cables that are not connected to eliminate the risk of shortcircuits with neighboring cable shields inside the sensor connection housing.
6.
7.
Endress+Hauser
Transmitter: Loosen the screws and remove cover (a) from the connection
compartment.
Sensor: Remove cover (b) from the connection housing.
Feed signal cable (c) and coil cable (d) through the appropriate cable entries.
Transmitter: Secure cover (a) on the connection compartment.
Sensor: Secure cover (b) on the connection housing.
47
4 Wiring
PROline Promag 50
Electrode circuit
Coil circuit
Meas.signal Pipe EPD
S1 E1 E2 S2 GND E S
5
6
4 37 36
8
7
42 41
1
2
yel
grn
brn
d
c
wht
a
b
n.c.
5
n.c.
4 37
7
F06-5xFxxxxx-04-xx-xx-en-000
n.c.
42 41
E1 E2 GND E
Fig. 29:
Connecting the remote version of Promag W/P
a = cover of the connection compartment, b = cover of the sensor connection housing, c = signal cable,
d = coil current cable, n.c. = not connected, insulated cable shields
Coil circuit
Electrode circuit
Meas. signal Pipe EPD
S1 E1 E2 S2 GND E S
5
6
7
8
4 37 36
42 41
1
2
yel
grn
brn
d
c
wht
a
b
n.c.
n.c.
5
7
n.c.
4 37
42 41
DN 40...100
Fig. 30:
F06-5xHxxxxx-04-xx-xx-en-000
E1 E2 GND E
DN 2...25
Connecting the remote version of Promag H
a = cover of the connection compartment, b = cover of the sensor connection housing, c = signal cable,
d = coil current cable, n.c. = not connected, insulated cable shields
48
Endress+Hauser
PROline Promag 50
4 Wiring
Cable termination for the remote version
Promag W / Promag P
Terminate the signal and coil current cables as shown in the figure below (Detail A).
Fit the fine-wire cores with cable end sleeves (Detail B).
Caution!
When fitting the connectors, pay attention to the following points:
• Signal cable → Make sure that the cable end sleeves do not touch the wire shield on the sensor side.
Minimum distance = 1 mm (exception “GND” = green cable).
• Coil current cable → Insulate one core of the three-core wire at the level of the core reinforcement; you only require two cores for the
connection.
TRANSMITTER
Signal cable
Coil current cable
80
70
17
8
F06-5xxxxxxx-04-11-08-en-000
50
grn
A
B
F06-5xxxxxxx-04-11-08-xx-000
50
10
8
A
B
SENSOR
Signal cable
Coil current cable
80
70
17
8
≥1
grn
A
Endress+Hauser
B
10
8
A
B
F06-5xFxxxxx-04-11-08-xx-000
50
F06-5xFxxxxx-04-11-08-en-000
50
49
4 Wiring
PROline Promag 50
Cable termination for the remote version
Promag H
Terminate the signal and coil current cables as shown in the figure below (Detail A).
Fit the fine-wire cores with cable end sleeves (Detail B).
Caution!
When fitting the connectors, pay attention to the following points:
• Signal cable → Make sure that the cable end sleeves do not touch the wire shield on the sensor side.
Minimum distance = 1 mm (exception “GND” = green cable).
• Coil current cable → Insulate one core of the three-core wire at the level of the core reinforcement; you only require two cores for the
connection.
• On the sensor side, reverse both cable shields approx. 15 mm over the outer jacket. The strain relief ensures an electrical connection with
the connection housing.
TRANSMITTER
Signal cable
Coil current cable
70
80
17
8
F06-5xxxxxxx-04-11-08-en-000
50
grn
A
B
10
8
A
B
F06-5xxxxxxx-04-11-08-xx-000
50
SENSOR
Signal cable
Coil current cable
80
≥1
grn
A
50
B
15
40
5
A
B
F06-5xHxxxxx-04-11-08-xx-000
70
17
8
F06-5xHxxxxx-04-11-08-en-000
15
Endress+Hauser
PROline Promag 50
4 Wiring
4.1.2
Cable specifications
Coil cable:
• 2 x 0.75 mm2 PVC cable with common, braided copper shield (Ø approx. 7 mm)
• Conductor resistance: ≤ 37 Ω/km
• Capacitance: core/core, shield grounded: ≤ 120 pF/m
• Permanent operating temperature: –20...+80 °
• Cable cross-section: max. 2.5 mm2
Signal cable:
• 3 x 0.38 mm2 PVC cable with common, braided copper shield (Ø approx. 7 mm) and
individually shielded cores
• With Empty Pipe Detection (EPD): 4 x 0.38 mm2 PVC cable with common, braided
copper shield (Ø approx. 7 mm) and individually shielded cores
• Conductor resistance: ≤ 50 Ω/km
• Capacitance: core/shield: ≤ 420 pF/m
• Permanent operating temperature: –20...+80 °C
• Cable cross-section: max. 2.5 mm2
a
F06-5xWxxxxx-04-11-08-xx-003
1
2
3
4
5
6
7
b
Fig. 31: Cable cross-section (a = Signal cable, b = Coil current cable)
1 = Core, 2 = Core insulation, 3 = Core shield, 4 = Core jacket, 5 = Core reinforcement, 6 = Cable shield,
7 = Outer jacket
As an option, E+H can also deliver reinforced connecting cables with an additional,
reinforcing metal braid. We recommend such cables for the following cases:
• Directly buried cable
• Cables endangered by rodents
• Device operation which should comply with the IP 68 standard of protection
Operation in zones of severe electrical interference:
The measuring device complies with the general safety requirements in accordance
with EN 61010, the EMC requirements of EN 61326/A1, and NAMUR recommendation
NE 21.
Endress+Hauser
Caution:
Grounding is by means of the ground terminals provided for the purpose inside the connection housing. Keep the stripped and twisted lengths of cable shield to the terminals
as short as possible.
51
4 Wiring
PROline Promag 50
4.2
Connecting the measuring unit
4.2.1
Connecting the transmitter
Warning:
• Risk of electric shock. Switch off the power supply before opening the device.
Do not install or wire the device while it is connected to the power supply. Failure to
comply with this precaution can result in irreparable damage to the electronics.
• Risk of electric shock. Connect the protective conductor to the ground terminal on the
housing before the power supply is applied (not necessary if the power supply is galvanically isolated).
• Compare the specifications on the nameplate with the local voltage supply and frequency. The national regulations governing the installation of electrical equipment
also apply.
1.
2.
3.
4.
Remove the cover of the connection compartment (f) from the transmitter housing.
Feed the power supply cable (a) and signal cables (b) through the appropriate
cable entries.
Connect the cables in accordance with the wiring diagram:
– Wiring diagram (aluminium housing) → Fig. 32
– Wiring diagram (stainless steel housing) → Fig. 33
– Wiring diagram (wall-mount housing) → Fig. 34
– Terminal assignment → Page 54
Screw the cover of the connection compartment (f) firmly onto the transmitter
housing.
f
a
g
Fig. 32:
a
b
c
d
e
f
g
52
b
d
c
N (L-) 2
L1 (L+) 1
a
F06-xxxxxxxx-04-06-xx-xx-005
e
b
– 27
+ 26
– 25
+ 24
– 23
+ 22
– 21
+ 20
Connecting the transmitter (aluminium field housing). Cable cross-section: max. 2.5 mm2
Cable for power supply: 85…260 V AC, 20…55 V AC, 16…62 V DC
Terminal No. 1: L1 for AC, L+ for DC
Terminal No. 2: N for AC, L− for DC
Signal cable: Terminals Nos. 20–27 → Page 54
Ground terminal for protective conductor
Ground terminal for signal cable shield
Service adapter for connecting service interface FXA 193 (FieldCheck™, FieldTool™)
Cover of the connection compartment
Securing clamp
Endress+Hauser
PROline Promag 50
4 Wiring
– 27
+ 26
– 25
+ 24
– 23
+ 22
– 21
+ 20
a
b
d
c
N (L-) 2
L1 (L+) 1
f
a
Fig. 33:
a
b
c
d
e
f
F06-xxxxxxxx-04-06-xx-xx-006
e
b
Connecting the transmitter (stainless-steel field housing). Cable cross-section: max. 2.5 mm2
Cable for power supply: 85…260 V AC, 20…55 V AC, 16…62 V DC
Terminal No. 1: L1 for AC, L+ for DC
Terminal No. 2: N for AC, L− for DC
Signal cable: Terminals Nos. 20–27 → Page 54
Ground terminal for protective conductor
Ground terminal for signal cable shield
Service adapter for connecting service interface FXA 193 (FieldCheck™, FieldTool™)
Cover of the connection compartment
N (L-)
L1 (L+)
f
a
Fig. 34:
a
b
c
d
e
f
Endress+Hauser
b
a
c
b
d
e
F06-xxxxxxxx-04-03-xx-xx-000
+ – + – + – + –
20 21 22 23 24 25 26 27
1 2
Connecting the transmitter (wall-mount housing). Cable cross-section: max. 2.5 mm2
Cable for power supply: 85…260 V AC, 20…55 V AC, 16…62 V DC
Terminal No. 1: L1 for AC, L+ for DC
Terminal No. 2: N for AC, L− for DC
Signal cable: Terminals Nos. 20–27 → Page 54
Ground terminal for protective conductor
Ground terminal for signal cable shield
Service adapter for connecting service interface FXA 193 (FieldCheck™, FieldTool™)
Cover of the connection compartment
53
4 Wiring
PROline Promag 50
4.2.2
Terminal assignment
Terminal No. (inputs / outputs)
Order variant
20 (+) / 21 (–)
22 (+) / 23 (–)
24 (+) / 25 (–)
26 (+) / 27 (–)
50***-***********W
−
−
−
Current output
HART
50***-***********A
−
−
Frequency output
Current output
HART
50***-***********D
Status input
Status output
Frequency output
Current output
HART
Status input (auxiliary input)
galvanically isolated, 3...30 V DC, Ri = 5 kΩ
Status output
Open collector, max. 30 V DC / 250 mA, galvanically isolated, freely configurable
Frequency output (passive)
Open collector, galvanically isolated, full scale frequency 2...1000 Hz (fmax = 1.25 kHz)
30 V DC, 250 mA
Current output (active/passive)
galvanically isolated, active: 0/4...20 mA, RL < 700 Ω, HART: RL ≥ 250 Ω,
passive: 4...20 mA, max. 30 V DC, Ri ≤ 150 Ω,
Ground connection, power supply → Page 52 ff.
54
Endress+Hauser
PROline Promag 50
4 Wiring
4.2.3
HART connection
Users have the following connection options at their disposal:
• Direct connection to transmitter by means of terminals 26 / 27
• Connection by means of the 4...20 mA circuit
Note:
• The measuring loop's minimum load must be at least 250 Ω.
• After commissioning, make the following settings:
CURRENT SPAN function → “4–20 mA HART” or “4–20 mA (25 mA) HART”
F06-xxxxxxxx-04-xx-xx-xx-007
Connection of the HART handheld communicator
See also the documentation issued by the HART Communication Foundation, and in
particular HCF LIT 20: “HART, a technical summary”.
Fig. 35: Electrical connection of the HART handheld communicator:
1 = HART communicator, 2 = power supply, 3 = shield, 4 = other evaluation devices or PLC with passive input
F06-xxxxxxxx-04-xx-xx-xx-008
Connection of a PC with an operating software
In order to connect a PC with an operating software (e.g. “FieldTool™”), a HART modem
(e.g. “Commubox FXA 191”) is needed.
See also the documentation issued by the HART Communication Foundation, and in
particular HCF LIT 20: “HART, a technical summary”.
Fig. 36: Electrical connection of a PC with an operating software:
1 = PC with an operating software, 2 = power supply, 3 = shield, 4 = other evaluation devices or PLC with
passive input, 5 = HART modem, e.g. Commubox FXA 191
Endress+Hauser
55
4 Wiring
PROline Promag 50
4.3
4.3.1
Potential equalisation
Standard case
Perfect measurement is only ensured when the medium and the sensor have the same
electrical potential. Most Promag sensors have a standard installed reference electrode
which guarantees the required potential matching. This usually means that additional
potential matching measures are unnecessary.
Promag W:
Reference electrode is standard
Promag P:
• Reference electrode is standard for electrode materials 1.4435, Alloy C-22 and
tantalum.
• Reference electrode is optional for electrode material Pt/Rh.
Note:
For installation in metal pipes, it is advisable to connect the ground terminal of the transmitter housing to the piping.
F06-5xxxxxxx-04-xx-xx-xx-002
Promag H:
• No reference electrode. The metallic process connection provides a permanent
electrical connection to the fluid.
• If the process connections are made of a synthetic material, ground rings have to be
used to ensure that potential is equalised (see Page 39). Ground rings are accessories which must be ordered separately → Page 85.
Fig. 37:
56
Potential equalisation by means of the transmitter's ground terminal
Caution:
For sensors without reference electrodes or without metal process terminals, carry out
potential equalisation as per the instructions for special cases described below. These
special measures are particularly important when standard grounding practice cannot
be ensured or extremely strong matching currents are expected.
Endress+Hauser
PROline Promag 50
4 Wiring
4.3.2
Special cases
Metal, ungrounded piping
In order to prevent outside influences on measurement, it is advisable to use ground
cables to connect each sensor flange to its corresponding pipe flange and ground the
flanges. Connect the transmitter or sensor connection housing, as applicable, to ground
potential by means of the ground terminal provided for the purpose (Fig. 38).
Note:
The ground cable for flange-to-flange connections can be ordered separately as an
accessory from E+H → Page 85.
• DN ≤ 300: The ground cable is in direct connection with the conductive flange coating
and is secured by the flange screws.
• DN ≥ 350: The ground cable connects directly to the metal transport bracket.
DN ≤ 300
Fig. 38:
Endress+Hauser
DN ≥ 350
F06-5xxxxxxx-04-xx-xx-xx-003
6 mm² Cu
Potential equalisation with equalising currents in metallic, non-grounded piping systems
57
4 Wiring
PROline Promag 50
Plastic pipes and isolating lined pipes
Normally, potential is matched using the reference electrodes in the measuring tube.
However, in exceptional cases it is possible that, due to the grounding plan of a system,
large matching cur-rents flow over the reference electrodes. This can lead to destruction
of the sensor, e.g. through electrochemical decomposition of the electrodes. In such
cases, e.g. for fibre-glass or PVC piping, it is recommended that you use additional
ground disks for potential matching (Fig. 39).
Mounting of ground disks → Page 27, 33
Caution:
Risk of damage by electrochemical corrosion. Note the electrochemical insulation rating, if the ground disks and measuring electrodes are made of different materials.
F06-5xxxxxxx-04-xx-xx-xx-004
Fig. 39:
Potential equalisation/ground disks with plastic pipes or lined pipes
F06-5xxxxxxx-04-xx-xx-xx-005
Lined pipes (cathodic protection)
In such cases, install the measuring instrument without potential in the piping:
• When installing the measuring device, make sure that there is an electrical connection
between the two piping runs (copper wire, 6 mm2).
• Make sure that the installation materials do not establish a conductive connection to
the measuring device and that the installation materials withstand the tightening torques applied when the threaded fasteners are tightened.
• Also comply with the regulations applicable to potential-free installation.
Fig. 40: Potential equalisation and cathode protection
a = isolating-transformer power supply, b = electrically insulated
58
Endress+Hauser
PROline Promag 50
4 Wiring
4.4
Degree of protection
The devices fulfill all the requirements for IP 67. Compliance with the following points is
mandatory following installation in the field or servicing, in order to ensure that IP 67 protection is maintained:
F06-xxxxxxxx-04-xx-xx-xx-005
• The housing seals must be clean and undamaged when inserted into their grooves.
The seals must be dried, cleaned or replaced if necessary.
• All threaded fasteners and screw covers must be firmly tightened.
• The cables used for connection must be of the specified outside diameter
(see Page 106).
• Firmly tighten the cable entries (Fig. 41).
• The cables must loop down before they enter the cable entries (“water trap”, Fig. 41).
This arrangement prevents moisture penetrating the entry. Always install the
measuring device in such a way that the cable entries do not point up.
• Remove all unused cable entries and insert plugs instead.
• Do not remove the grommet from the cable entry.
Fig. 41:
Endress+Hauser
Installation instructions, cable entries
Caution:
Do not loosen the threaded fasteners of the Promag sensor housing, as otherwise the
degree of protection guaranteed by Endress+Hauser no longer applies.
Note:
The Promag W and Promag P sensors can be supplied with IP 68 rating (permanent
immersion in water to a depth of 3 meters). In this case the transmitter must be installed
remote from the sensor.
59
4 Wiring
PROline Promag 50
4.5
Electical connection check
Perform the following checks after completing electrical installation of the measuring
device:
60
Device condition and specifications
Notes
Are cables or the device damaged (visual inspection)?
−
Electrical connection
Notes
Does the supply voltage match the specifications on the nameplate?
85...260 V AC (45...65 Hz)
20...55 V AC (45...65 Hz)
16...62 V DC
Do the cables comply with the specifications?
see Page 51, 106
Do the cables have adequate strain relief?
−
Cables correctly segregated by type?
Without loops and crossovers?
−
Are the power-supply and signal cables correctly connected?
See the wiring diagram
inside the cover of the
terminal compartment
Are all screw terminals firmly tightened?
−
Have the measures for grounding/potential equalisation been correctly
implemented?
see Page 56 ff.
Are all cable entries installed, firmly tightened and correctly sealed?
Cables looped as “water traps”?
see Page 59
Are all housing covers installed and firmly tightened?
−
Endress+Hauser
PROline Promag 50
5 Operation
5
Operation
5.1
Display and operating elements
The local display enables you to read all important parameters directly at the measuring
point and configure the device.
The display area consists of two lines; this is where measured values are displayed,
and/or status variables (direction of flow, partially filled pipe, bar graph, etc.). You can
change the assignment of display lines to variables at will in order to customize the display to suit your needs and preferences (→ see the “Description of Device Functions”
manual).
1
+48.25 ml/min
+3702.6 m 3
Esc
+
2
Fig. 42:
E
3
F06-50xxxxxx-07-xx-xx-xx-000
-
Display and operating elements
Liquid-crystal display (1)
The backlit, two-line liquid-crystal display shows measured values, dialog texts, error messages and information messages. The display as it appears when normal measuring is in progress is known as the HOME position (operating mode).
Upper display line: Shows primary measured values, e.g. volume flow in [ml/min] or in [%].
Lower display line: Shows supplementary measured variables and status variables, e.g. totalizer reading
in [m3], bar graph, measuring point designation
Push buttons (2)
– Enter numerical values, select parameters
– Select different function groups within the function matrix
Press the +/− keys simultaneously to trigger the following functions:
– Exit the function matrix step by step → HOME position
– Press and hold down +/− keys for longer than 3 seconds → Return directly to HOME position
– Cancel data entry
Enter push button (3)
– HOME position → Entry into the function matrix
– Save the numerical values you input or settings you change
Endress+Hauser
61
5 Operation
PROline Promag 50
5.2
Brief operating instruction to the function matrix
Note:
• See the general notes on Page 63.
• Function descriptions → see the “Description of Device Functions” manual
1.
2.
3.
→ Enter the function matrix
HOME position →
Select a function group (e.g. CURRENT OUTPUT 1)
Select a function (e.g. TIME CONSTANT)
Change parameter / enter numerical values:
→ select or enter enable code, parameters, numerical values
→ save your entries
4.
Exit the function matrix:
– Press and hold down Esc key ( ) for longer than 3 seconds → HOME position
– Repeatedly press Esc key ( ) → return step by step to HOME position
F06-x0xxxxxx-19-xx-xx-xx-000
Fig. 43:
62
Selecting functions and configuring parameters (function matrix)
Endress+Hauser
PROline Promag 50
5 Operation
5.2.1
General notes
The Quick Setup menu (see Page 80) is adequate for commissioning in most instances.
Complex measuring operations on the other hand necessitate additional functions that
you can configure as necessary and customize to suit your process parameters. The
function matrix, therefore, comprises a multiplicity of additional functions which, for the
sake of clarity, are arranged in a number of function groups.
Comply with the following instructions when configuring functions:
• You select functions as described on Page 62.
• You can switch off certain functions (OFF). If you do so, related functions in other
function groups will no longer be displayed.
• Certain functions prompt you to confirm your data entries. Press
to select
“SURE [ YES ]” and press again to confirm. This saves your setting or starts a
function, as applicable.
• Return to the HOME position is automatic if no key is pressed for 5 minutes.
Note:
• The transmitter continues to measure while data entry is in progress, i.e. the current
measured values are output via the signal outputs in the normal way.
• If the power supply fails, all preset and parameterized values remain safely stored in
the EEPROM.
Caution:
All functions are described in detail, including the function matrix itself, in the
“Description of Device Functions” manual, which is a separate part of this Operating
Instruction.
5.2.2
Enabling the programming mode
The function matrix can be disabled. Disabling the function matrix rules out the possibility of inadvertent changes to device functions, numerical values or factory settings.
A numerical code (factory setting = 50) has to be entered before settings can be
changed.
If you use a code number of your choice, you exclude the possibility of unauthorized
persons accessing data (→ see the “Description of Device Functions” manual).
Comply with the following instructions when entering codes:
• If programming is disabled and the
key is pressed in any function, a prompt for
the code automatically appears on the display.
• If “0” is entered as the customer's code, programming is always enabled.
• The E+H service organisation can be of assistance if you mislay your personal code.
Endress+Hauser
Caution:
Changing certain parameters such as all sensor characteristics, for example, influences
numerous functions of the entire measuring system, particularly measuring accuracy.
There is no need to change these parameters under normal circumstances and consequently, they are protected by a special code known only to the E+H service organization. Please contact Endress+Hauser if you have any questions.
63
5 Operation
PROline Promag 50
5.2.3
Disabling the programming mode
Programming is disabled if you do not press a key within 60 seconds following
automatic return to the HOME position.
You can also disable programming in the “ACCESS CODE” function by entering any
number (other than the customer's code).
5.3
Error messages
Type of error
Errors that occur during commissioning or measuring are displayed immediately. If two
or more system or process errors occur, the error with the highest priority is the one
shown on the display.
Tthe measuring system distinguishes between two types of error:
• System errors: This group comprises all device errors, e.g. communication errors,
hardware faults, etc. → see Page 88
• Process errors: This group comprises all application errors, e.g. empty pipe, etc.
→ see Page 92
XXXXXXXXXX
#000 00:00:05
2
Fig. 44:
1
2
3
4
5
4
5
F06-x0xxxxxx-07-xx-xx-xx-000
P
1
3
Error messages on the display (example)
Error type: P = process error, S = system error
Error message type: = fault message; ! = notice message
Error designation: e.g. EMPTY PIPE = measuring tube is only partly filled or completely empty
Error number: e.g. #401
Duration of most recent error occurrence in hours / minutes / seconds
Error message types
Users have the option of weighting certain errors differently, in other words having them
classed as “Fault messages” or “Notice messages”. You can define messages in this
way with the aid of the function matrix → see the “Description of Device Functions”
manual.
Serious system errors, e.g. module defects, are always identified and classed as “fault
messages” by the measuring device.
Notice message (!)
• Displayed as → Exclamation mark (!), error type (S: system error, P: process error).
• The error in question has no effect on the inputs or outputs of the measuring device.
64
Fault message ( )
• Displayed as → Lightning flash ( ), error type (S: system error, P: process error).
• The error in question has a direct effect on the inputs or outputs.
The response of the inputs or outputs (failsafe mode) can be defined by means of
corresponding functions in the function matrix (see Page 94).
Note:
For security reasons, error messages should be output via the status output.
Endress+Hauser
PROline Promag 50
5 Operation
5.4
Communication (HART)
In addition to local operation, the measuring device can be configured and measured
values can be obtained by means of the HART protocol. Digital communication takes
place using the 4–20 mA current output HART (see Page 55).
The HART protocol allows the transfer of measuring and device data between the HART
master and the field devices for configuration and diagnostics purposes. The HART
master, e.g. a handheld terminal or PC-based operating programs (such as FieldTool),
require device description (DD) files which are used to access all the information in a
HART device.
Information is exclusively transferred using so-called “commands”. There are three
different command groups:
Universal commands:
All HART device support and use universal commands. The following functionalities are
linked to them:
• Identify HART devices
• Reading digital measured values (volume flow, totalizer, etc.)
Common practice commands:
Common practice commands offer functions which are supported and can be executed
by most but not all field devices.
Device-specific commands:
These commands allow access to device-specific functions which are not HART standard. Such commands access individual field device information, amongst other things,
such as empty/full pipe calibration values, low flow cutoff settings, etc.
Note!
Promag 53 has access to all three command classes. On Page 67, you will find a list
with all the supported “Universal Commands” and “Common Practice Commands”.
5.4.1
Operating options
For the complete operation of the field device, including device-specific commands,
there are Device Description (DD) files available to the user to provide the following
operating aids and programs:
HART Communicator DXR 275
Selecting device functions with a HART Communicator is a process involving a number
of menu levels and a special HART function matrix. The HART Communicator manual
contains more detailed information on the device.
FieldTool™ operating program
FieldTool™ is a universal service and configuration software package designed for the
PROline field devices. Connection is by means of a HART-Modem, e.g. Commubox FXA
191.
The functionality of FieldTool™ includes the following:
• Configuration of device functions
• Visualization of measuring values (including data logging)
• Data backup of device parameters
• Advanced device diagnosis
• Measuring-point documentation
Endress+Hauser
65
5 Operation
PROline Promag 50
You can find more information on FieldTool™ in the following E+H document:
System Information: SI 031D/06/en “FieldTool™”
Other operating programs
• Operating program “AMS” (Fisher Rosemount)
• Operating program “SIMATIC PDM” (Siemens)
Note:
The HART protocol requires the “4…20 mA HART” or “4-20 mA (25 mA) HART” setting
in the CURRENT SPAN function.
5.4.2
Device and process variables
Device variables:
The following device variables are available using the HART protocol:
Code (decimal)
Device variable
0
OFF (not assigned)
1
Volume flow
250
Totalizer 1
Process variables:
At the factory, the process variables are assigned to the following device variables:
66
•
•
•
•
Primary process variable (PV) → Volume flow
Second process variable (SV) → Totalizer 1
Third process variable (TV) → not assigned
Fourth process variable (FV) → not assigned
Note!
You can set or change the assignment of device variables to process variables using
Command 51 (see Page 72).
Endress+Hauser
PROline Promag 50
5 Operation
5.4.3
Universal / Common practice HART commands
The following table contains all the universal and common practice commands
supported by Promag 50.
Command No.
HART command / Access type
Command data
(numeric data in decimal form)
Response data
(numeric data in decimal form)
none
Device identification delivers information on the
device and the manufacturer. It cannot be
changed.
Universal Commands
0
Read unique device identifier
Access type = read
The response consists of a 12 byte device ID:
– Byte 0: fixed value 254
– Byte 1: Manufacturer ID, 17 = E+H
– Byte 2: Device type ID, 65 = Promag 50
– Byte 3: Number of preambles
– Byte 4: Universal commands rev. no.
– Byte 5: Device-specific commands rev. no.
– Byte 6: Software revision
– Byte 7: Hardware revision
– Byte 8: Additional device information
– Bytes 9-11: Device identification
1
Read primary process
variable
none
– Byte 0: HART unit code of the primary
process variable
– Bytes 1-4: Primary process variable
Access type = read
Factory setting:
Primary process variable = Volume flow
Note!
• You can set the assignment of device variables to process variables using Command
51.
• Manufacturer-specific units are represented
using the HART unit code “240”.
2
Read the primary process
variable as current in mA and
percentage of the set measuring range
Access type = read
none
– Bytes 0-3: actual current of the primary
process variable in mA
– Bytes 4-7: Percentage of the set measuring
range
Factory setting:
Primary process variable = Volume flow
Note!
You can set the assignment of device variables
to process variables using Command 51.
Endress+Hauser
67
5 Operation
Command No.
HART command / Access type
3
Read the primary process
variable as current in mA and
four (preset using Command
51) dynamic process variables
PROline Promag 50
Command data
(numeric data in decimal form)
Response data
(numeric data in decimal form)
none
24 bytes are sent as a response:
– Bytes 0-3: primary process variable current
in mA
– Byte 4: HART unit code of the primary process variable
– Bytes 5-8: Primary process variable
– Byte 9: HART unit code of the second
process variable
– Bytes 10-13: Second process variable
– Byte 14: HART unit code of the third process
variable
– Bytes 15-18: Third process variable
– Byte 19: HART unit code of the fourth
process variable
– Bytes 20-23: Fourth process variable
Access type = read
Factory setting:
• Primary process variable = Volume flow
• Second process variable = Totalizer 1
• Third process variable = not assigned
• Fourth process variable = not assigned
Note!
• You can set the assignment of device variables to process variables using Command
51.
• Manufacturer-specific units are represented
using the HART unit code “240”.
6
Set HART shortform address
Byte 0: desired address (0...15)
Access type = write
Factory setting:
0
Byte 0: active address
Note!
With an address >0 (multidrop mode), the current output of the primary process variable is
set to 4 mA.
11
Read unique device identification using the TAG (measuring point designation)
Bytes 0-5: TAG
Access type = read
Device identification delivers information on the
device and the manufacturer. It cannot be
changed.
The response consists of a 12 byte device ID if
the given TAG agrees with the one saved in the
device:
–
–
–
–
–
–
–
–
–
–
12
Read user message
Access type = read
68
none
Byte 0: fixed value 254
Byte 1: Manufacturer ID, 17 = E+H
Byte 2: Device type ID, 65 = Promag 50
Byte 3: Number of preambles
Byte 4: Universal commands rev. no.
Byte 5: Device-specific commands rev. no.
Byte 6: Software revision
Byte 7: Hardware revision
Byte 8: Additional device information
Bytes 9-11: Device identification
Bytes 0-24: User message
Note!
You can write the user message using
Command 17.
Endress+Hauser
PROline Promag 50
Command No.
HART command / Access type
13
Read TAG, descriptor and
date
5 Operation
Command data
(numeric data in decimal form)
Response data
(numeric data in decimal form)
none
– Bytes 0-5: TAG
– Bytes 6-17: descriptor
– Bytes 18-20: Date
Access type = read
Note!
You can write the TAG, descriptor and date
using Command 18.
14
Read sensor information on
primary process variable
none
– Bytes 0-2: Sensor serial number
– Byte 3: HART unit code of sensor limits and
measuring range of the primary process
variable
– Bytes 4-7: Upper sensor limit
– Bytes 8-11: Lower sensor limit
– Bytes 12-15: Minimum span
Note!
• The data relate to the primary process
variable (= volume flow).
• Manufacturer-specific units are represented
using the HART unit code “240”.
15
Read output information of
primary process variable
none
Access type = read
– Byte 0: Alarm selection ID
– Byte 1: Transfer function ID
– Byte 2: HART unit code for the set measuring
range of the primary process variable
– Bytes 3-6: upper range, value for 20 mA
– Bytes 7-10: lower range, value for 4 mA
– Bytes 11-14: Damping constant in [s]
– Byte 15: Write protection ID
– Byte 16: OEM dealer ID, 17 = E+H
Factory setting:
Primary process variable = Volume flow
Note!
• You can set the assignment of device variables to process variables using Command
51.
• Manufacturer-specific units are represented
using the HART unit code “240”.
16
Read the device production
number
none
Bytes 0-2: Production number
You can save any 32-character long text in the
device under this parameter:
Displays the current user message in the
device:
Bytes 0-23: Desired user message
Bytes 0-23: Current user message in the device
Access type = read
17
Write user message
Access = write
Endress+Hauser
69
5 Operation
Command No.
HART command / Access type
18
PROline Promag 50
Command data
(numeric data in decimal form)
Response data
(numeric data in decimal form)
Write TAG, descriptor and
date
With this parameter, you can store an 8 character TAG, a 16 character descriptor and a date:
Displays the current information in the device:
Access = write
– Bytes 0-5: TAG
– Bytes 6-17: descriptor
– Bytes 18-20: Date
– Bytes 0-5: TAG
– Bytes 6-17: descriptor
– Bytes 18-20: Date
Common Practice Commands
34
35
Write damping value for
primary process variable
Bytes 0-3: Damping value of the primary
process variable in seconds
Displays the current damping value in the
device:
Access = write
Factory setting:
Primary process variable = Volume flow
Bytes 0-3: Damping value in seconds
Write measuring range of
primary process variable
Write the desired measuring range:
– Byte 0: HART unit code of the primary
process variable
– Bytes 1-4: upper range, value for 20 mA
– Bytes 5-8: lower range, value for 4 mA
The currently set measuring range is displayed
as a response:
Factory setting:
Primary process variable = Volume flow
Access = write
Note!
• You can set the assignment of device variables to process variables using Command
51.
• If the HART unit code is not the correct one
for the process variable, the device will continue with the last valid unit.
38
Device status reset (Configuration changed)
– Byte 0: HART unit code for the set measuring
range of the primary process variable
– Bytes 1-4: upper range, value for 20 mA
– Bytes 5-8: lower range, value for 4 mA
Note!
Manufacturer-specific units are represented
using the HART unit code “240”.
none
none
Simulation of the desired output current of the
primary process variable. An entry value of 0
exits the simulation mode:
The momentary output current of the primary
process variable is displayed as a response:
Access = write
40
Simulate output current of
primary process variable
Access = write
Bytes 0-3: Output current in mA
Bytes 0-3: Output current in mA
Factory setting:
Primary process variable = Volume flow
Note!
You can set the assignment of device variables
to process variables using Command 51.
42
Perform master reset
none
none
Access = write
70
Endress+Hauser
PROline Promag 50
Command No.
HART command / Access type
44
Write unit of primary process
variable
5 Operation
Command data
(numeric data in decimal form)
Response data
(numeric data in decimal form)
Set unit of primary process variable. Only unit
which are suitable for the process variable are
transferred to the device:
The current unit code of the primary process
variable is displayed as a response:
Access = write
Byte 0: HART unit code
Byte 0: HART unit code
Factory setting:
Primary process variable = Volume flow
Note!
Manufacturer-specific units are represented
using the HART unit code “240”.
Note!
• If the written HART unit code is not the correct one for the process variable, the device
will continue with the last valid unit.
• If you change the unit of the primary process
variable, this has no impact on the system
units.
48
Read additional device
status
none
Access = read
50
Read assignment of the
device variables to the four
process variables
Access = read
The device status is displayed in extended form
as the response:
Coding: see table on Page 73
none
Display of the current variable assignment of
the process variables:
– Byte 0: Device variable code to the primary
process variable
– Byte 1: Device variable code to the second
process variable
– Byte 2: Device variable code to the third
process variable
– Byte 3: Device variable code to the fourth
process variable
Factory setting:
• Primary process variable: Code 1 for volume
flow
• Second process variable: Code 250 for
totalizer 1
• Third process variable: Code 0 for OFF (not
assigned)
• Fourth process variable: Code 0 for OFF (not
assigned)
Note!
You can set or change the assignment of
device variables to process variables using
Command 51.
Endress+Hauser
71
5 Operation
Command No.
HART command / Access type
51
Write assignments of the
device variables to the four
process variables
Access = write
PROline Promag 50
Command data
(numeric data in decimal form)
Response data
(numeric data in decimal form)
Setting of the device variables to the four
process variables:
The variable assignment of the process variables is displayed as a response:
– Byte 0: Device variable code to the primary
process variable
– Byte 1: Device variable code to the second
process variable
– Byte 2: Device variable code to the third
process variable
– Byte 3: Device variable code to the fourth
process variable
– Byte 0: Device variable code to the primary
process variable
– Byte 1: Device variable code to the second
process variable
– Byte 2: Device variable code to the third
process variable
– Byte 3: Device variable code to the fourth
process variable
Code of the supported device variables:
See data on Page 66
Factory setting:
• Primary process variable = Volume flow
• Second process variable = Totalizer 1
• Third process variable = OFF (not assigned)
• Fourth process variable = OFF (not
assigned)
53
Write device variable unit
Access = write
This command set the unit of the given device
variables. Only those units which suit the device
variable are transferred:
– Byte 0: Device variable code
– Byte 1: HART unit code
Code of the supported device variables:
See data on Page 66
The current unit of the device variables is displayed in the device as a response:
– Byte 0: Device variable code
– Byte 1: HART unit code
Note!
Manufacturer-specific units are represented
using the HART unit code “240”.
Note!
• If the written unit is not the correct one for the
device variable, the device will continue with
the last valid unit.
• If you change the unit of the device variable,
this has no impact on the system units.
59
72
Write number of preambles in
response message
This parameter sets the number of preambles
which are inserted in the response messages:
As a response, the current number of the preambles is displayed in the response message:
Access = write
Byte 0: Number of preambles (2...20)
Byte 0: Number of preambles
Endress+Hauser
PROline Promag 50
5 Operation
5.4.4
Device status / Error messages
You can read the extended device status, in this case, current error messages, via Command “48”. The command delivers information which are partly coded in bits (see table
below).
Note!
You can find a detailed explanation of the device status and error messages and their
elimination on Page 88 ff.
Byte
Short error description ( → Page 88 ff. )
Bit
Error No.
0
001
Serious device error
1
011
Measuring amplifier has faulty EEPROM
2
012
Error when accessing data of the measuring amplifier EEPROM
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
not assigned
–
1
031
S-DAT: defective or missing
2
032
S-DAT: Error accessing saved values
3
not assigned
–
4
not assigned
–
5
051
6
not assigned
–
7
not assigned
–
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
111
Totalizer checksum error
4
121
I/O board and the amplifier board are not compatible.
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
1
I/O board and the amplifier board are not compatible.
2
3
Endress+Hauser
73
5 Operation
PROline Promag 50
Byte
Short error description ( → Page 88 ff. )
Bit
Error No.
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
261
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
321
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
339
0
340
1
341
2
342
3
343
4
344
5
345
6
346
7
347
0
348
1
349
2
350
3
351
4
352
5
353
6
354
7
355
0
356
1
357
2
358
3
359
4
360
5
361
6
362
7
not assigned
4
No data reception between amplifier and I/O board
Coil current of the sensor is outside the tolerance.
5
6
Flow buffer:
The temporarily buffered flow portions (measuring mode for pulsating flow) could not be cleared or output within 60 seconds.
Frequency buffer:
The temporarily buffered flow portions (measuring mode for pulsating flow) could not be cleared or output within 60 seconds.
Pulse buffer:
The temporarily buffered flow portions (measuring mode for pulsating flow) could not be cleared or output within 60 seconds.
7
Current output: flow is out of range.
Frequency output: flow is out of range.
8
Pulse output: the pulse output frequency is out of range.
74
–
Endress+Hauser
PROline Promag 50
5 Operation
Byte
Short error description ( → Page 88 ff. )
Bit
Error No.
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
401
0
not assigned
–
1
not assigned
–
2
461
3
not assigned
4
463
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
501
9
10
Measuring tube partially filled or empty
EPD calibration not possible because the fluid's conductivity is
either too low or too high.
–
11
12
Endress+Hauser
The EPD calibration values for empty pipe and full pipe are
identical, therefore incorrect.
New amplifier software version is loaded.
Currently no other commands are possible.
75
5 Operation
PROline Promag 50
Byte
Short error description ( → Page 88 ff. )
Bit
Error No.
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
not assigned
–
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
601
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
611
0
612
1
613
2
614
3
621
4
622
5
623
6
624
7
631
0
632
1
633
2
634
3
641
4
642
5
643
6
644
7
not assigned
–
0
not assigned
–
1
not assigned
–
2
not assigned
–
3
not assigned
–
4
not assigned
–
5
not assigned
–
6
not assigned
–
7
671
13
Positive zero return active
14
Simulation current output active
15
Simulation frequency output active
Simulation pulse output active
16
Simulation status output active
17
76
Simulation status input active
Endress+Hauser
PROline Promag 50
5 Operation
Byte
Short error description ( → Page 88 ff. )
Bit
Error No.
0
672
Simulation status input active
1
673
Simulation status input active
2
674
Simulation status input active
3
691
Simulation of response to error (outputs) active
4
692
Simulation of volume flow active
5
not assigned
–
6
not assigned
–
7
not assigned
–
18
Endress+Hauser
77
5 Operation
78
PROline Promag 50
Endress+Hauser
PROline Promag 50
6 Commissioning
6
Commissioning
6.1
Function check
Make sure that all final checks have been completed before you start up your measuring
point:
• Checklist for “Installation check” → Page 45
• Checklist for “Electrical connection check” → Page 60
6.2
Commissioning
6.2.1
Switching on the measuring device
Once the connection checks (see Page 60) have been successfully completed, it is
time to switch on the power supply. The device is now operational.
The measuring device performs a number of post switch-on self-tests. As this
procedure progresses the following sequence of messages appears on the local display:
PROMAG 50
START UP ...
Start-up message
SW AMPLIFIER
V XX.XX.XX
Current software version (example)
SYSTEM OK
→ OPERATION
Beginning of normal measuring mode
Endress+Hauser
Normal measuring mode commences as soon as start-up completes. Various
measured-value and/or status variables (HOME position) appear on the display.
Note:
If start-up fails, an error message indicating the cause is displayed.
79
6 Commissioning
PROline Promag 50
6.2.2
“Commissioning” Quick Setup menu
This Quick Setup menu guides you systematically through the setup procedure for all
the major device functions that have to be configured for standard measuring operation.
Setup
Commission
ENDRESS+HAUSER
-
+
E
E
++
Quick Setup
E+
ESC
Language
HOME-POSITION
Defaults
Unit
Volume flow
Measuring
Mode
Current Output
Freq.-/ Pulse Output
Quit
Operation
Mode
Frequency
Pulse
Assign
Current
Assign
Frequency
Assign
Pulse
Current
Span
End Value
Freq.
Pulse
Value
Value
20 mA
Value
f max
Pulse
Width
Time
Constant
Output
Signal
Output
Signal
Failsafe
Mode
Time
Constant
Failsafe
Mode
F06-50xxxxxx-19-xx-xx-en-000
Failsafe
Mode
Fig. 45:
80
Automatically parameterization
of the display
Quit Quick Setup
Quick Setup for commissioning
Endress+Hauser
PROline Promag 50
6 Commissioning
6.2.3
Empty-pipe/full-pipe calibration
Flow cannot be measured correctly unless the measuring tube is full. This status can be
monitored at all times with the Empty Pipe Detection function (EPD) resp. with the Open
Electrode Detection function (OED).
The EPD/OED function cannot be activated until after empty/full pipe calibration has
been performed. This adjustment procedure is described below.
Note:
• The EPD function is not available unless the sensor is fitted with an EPD electrode.
• The sensor is calibrated ex-works with water, i.e. at approximately 500 µS/cm. If the
fluid conductivity differs from this reference, empty pipe/full pipe calibration has to be
performed again on site.
• The default setting for EPD/OED when the devices are delivered is OFF; the function
has to be activated if required.
• The EPD/OED process error can be output by means of the configurable status output.
Response to partially filled pipe
If EPD/OED is on and trips in response to a partially filled or empty measuring tube, the
message “EMPTY PIPE” appears on the local display.
The EPD/OED process error is defined ex-works as a “Notice message” and has no
effect on the outputs of the measuring device (see Page 64).
If the pipe is partially filled or empty and EPD/OED is not on, response can vary in
dentically configured systems:
• Flow reading fluctuates
• Zero flow
• Excessively high flow readings
Performing empty-pipe and full-pipe calibration (EPD/OED)
1.
2.
3.
4.
5.
6.
Select the appropriate function in the function matrix:
PROCESS PARAMETER → EPD/OED ADJUSTMENT
Empty the piping. Make sure that the wall of the measuring tube is wetted with fluid
for the calibration procedure.
Start empty pipe calibration:
Select “EMPTY PIPE ADJUST” and press to confirm.
Fill the pipe with fluid.
Start full pipe calibration with the fluid at a standstill:
Select “FULL PIPE ADJUST” and press to confirm.
When calibration is completed, switch on empty pipe detection
→ Select “ON” (flashing) and press to confirm.
Caution:
The calibration coefficients must be valid before you can activate the EPD/OED
function. If calibration is incorrect the following messages might appear on the
display:
– FULL = EMPTY
The calibration values for empty pipe and full pipe are identical.
– ADJUSTMENT NOT OK
Calibration is not possible because the fluid's conductivity is out of range.
In cases of this nature you must repeat empty-pipe or full-pipe calibration!
Endress+Hauser
81
6 Commissioning
PROline Promag 50
6.2.4
Current output: active/passive
The current output is configured as “active” or “passive” by means of various jumpers
on the I/O board.
Warning:
• Risk of electric shock. Exposed components carry dangerous voltages. Make sure
that the power supply is switched off before you remove the cover of the electronics
compartment.
• Wait at least 10 minutes for heat to dissipate before opening an Ex-rated device.
1.
2.
3.
Switch off power suppy.
Remove the I/O board → Page 97, 99
Position the jumper according to Fig. 46.
Caution:
Risk of destroying the measuring device. Set the jumpers exactly as shown in
Fig. 46. Incorrectly set jumpers can cause overcurrents that would destroy either
the measuring device or external devices connected to it.
Installation of the I/O board is the reverse of the removal procedure.
F06-x0xxxxxx-16-xx-06-xx-000
4.
Fig. 46:
1
2
6.3
Configuring the current output (I/O board)
Active current output (Factory setting)
Passive current output
Data storage device (S-DAT™)
The S-DAT™ is an exchangeable data storage device in which all sensor relevant
parameters are stored, i.e., diameter, serial number, calibration factor, zero point.
82
Endress+Hauser
PROline Promag 50
7 Maintenance
7
Maintenance
The Promag 50 flow measuring system requires no special maintenance.
Exterior cleaning
When cleaning the exterior of measuring devices, always use cleaning agents that do
not attack the surface of the housing and the seals.
Seals
The seals of the Promag H sensor must be replaced periodically, particularly in the case
of gasket seals (aseptic version). The period between changes depends on the frequency of cleaning cycles, the cleaning temperature and the fluid temperature.
Replacement seals (accessories) → Page 85.
Endress+Hauser
83
7 Maintenance
84
PROline Promag 50
Endress+Hauser
PROline Promag 50
8 Accessories
8
Accessories
Various accessories, which can be ordered separately from Endress+Hauser, are available for the transmitter and the sensor. The E+H service organisation can provide
detailed information on the order codes of your choice.
Accessory
Description
Order code
Transmitter
Promag 50
Transmitter for replacement or for stock. Use
the order code to define the following specifications:
– Approvals
– Degree of protection / version
– Cable type for the remote version
– Cable entries
– Display / power supply / operation
– Software
– Outputs / inputs
50XXX − XXXXX * * * * * * * *
Mounting kit for transmitter Promag 50
Mounting kit for wall-mounted housing
(remote version). Suitable for:
– Wall mounting
– Post mounting
– Installation in control panel
DK5WM − *
Mounting set for aluminium housings.
Suitable for pipe mounting (3/4"...32")
Cable for
remote version
Coil and signal cables, various lengths.
Reinforced cable on request.
DK5CA − * *
Ground cable for
Promag W/P
A set consists of two ground cables.
DK5GC − * * *
Ground disk for
Promass W, P
Ground disk for potential equalisation
DK5GD − * * *
Mounting kit for
Promag H
Mounting kit for Promag H, comprising:
– 2 process connections (see Page 135 ff.)
– Threaded fasteners
– Seals
DKH * * − * * *
Adapter connection for
Promag A/H
Adapter connections for installing
Promag 50 H instead of Promag 30/33 A or
Promag 30/33 H DN 25.
DK5HA − * * * * *
Ground rings for
Promag H
If the process connections are made of PVC
or PVDF, ground rings are necessary to
ensure that potential is matched.
DK5HR − * * *
Set of ground rings, comprising:
– 2 ground rings
Endress+Hauser
Set of seals for
Promag H
For regular replacement of the seals of the
Promag H sensor.
DK5HS − * * *
Wall-mounting kit for
Promag H
Wall-mounting kit for the Promag H sensor
DK5HM − * *
Welding jig for
Promag H
Weld nipple as process connection:
welding jig for installation in pipe.
DK5HW − * * *
85
8 Accessories
PROline Promag 50
Accessory
Description
Order code
HART Communicator
DXR 275 hand-held
terminal
Hand-held terminal for remote parameterisation and for fetching measured values via the
current output HART (4...20 mA).
DXR275 − * * * *
Contact your E+H representative for more
information.
Applicator ™
Software for selecting and configuring flowmeters.
Applicator™ can be downloaded from the
Internet or ordered on CD-ROM for installation
on a local PC.
DKA80 − *
Contact your E+H representative for more
information.
FieldTool ™
Configuration and service software for flowmeters in the field:
– Commissioning, maintenance analysis
– Configuring flowmeters
– Service functions
– Visualisation of process data
– Trouble-shooting
– Controlling the “FieldCheck™” tester/
simulator
DXS10 − * * * * *
Contact your E+H representative for more
information.
FieldCheck ™
Tester/simulator for testing flowmeters in the
field. When used in conjunction with the
“FieldTool™” software package, test results
can be imported into a database, printed and
used for official certification.
DXC10 − * *
Contact your E+H representative for more
information.
86
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
9
Trouble-shooting
9.1
Trouble-shooting instructions
Always start trouble-shooting with the checklist below, if faults occur after start-up or
during operation. The routine takes you directly to the cause of the problem and the
appropriate remedial measures.
Check the display
No display visible and no
output signals present.
1. Check the power supply → terminals 1, 2
2. Check the power line fuse → Page 101
85...260 V AC: 0.8 A slow-blow / 250 V
20...55 V AC and 16...62 V DC: 2 A slow-blow / 250 V
3. Measuring electronics defective → order spare parts → Page 96
No display visible, but output signals are present.
1. Check whether the ribbon-cable connector of the display module is
correctly plugged into the amplifier board → Page 98, 100
2. Display module defective → order spare parts → Page 96
3. Measuring electronics defective → order spare parts → Page 96
Display texts are in a foreign
language.
buttons and
Switch off power supply. Press and hold down both the
switch on the measuring device. The display text will appear in English
(default) and is displayed at maximum contrast.
Measured value indicated,
but no signal at the current
or pulse output
Measuring electronics defective → order spare parts → Page 96
Error messages on display
Errors which occur during commissioning or measuring operation are displayed immediately.
Error messages consist of a variety of icons: the meanings of these icons are as follows (example):
–
–
–
–
–
Error type: S = system error, P = process error
Error message type: = fault message, ! = notice message
EMPTY PIPE = Type of error, e.g. measuring tube is only partly filled or completely empty
03:00:05 = duration of error occurrence (in hours, minutes and seconds)
# 401 = error number
Caution:
• See the information on Page 64!
• The measuring system interprets simulations and positive zero return as system errors, but displays
them as notice message only.
Error number:
No. 001 – 399
No. 501 – 699
System error (device error) has occurred → Page 88
Error number:
No. 401 − 499
Process error (application error) has occurred → Page 92
Other error (without error message)
Some other error has
occurred.
Endress+Hauser
Diagnosis and rectification → Page 93
87
9 Trouble-shooting
PROline Promag 50
9.2
System error messages
Serious system errors are always recognised by the instrument as “Fault message”,
and are shown as a lightning flash () on the display. Fault messages immediately affect
the inputs and outputs. Simulations and positive zero return, on the other hand, are
classed and displayed as notice messages.
Caution:
In the event of a serious fault, a flowmeter might have to be returned to the manufacturer
for repair. The procedures on Page 8 must be carried out before you return a flowmeter
to Endress+Hauser.
Always enclose a duly completed “Declaration of contamination” form. You will find a
preprinted blank of the this form at the back of this manual.
Note:
The listed error message types below correspond to the factory setting.
Also observe the information on Page 64 and 94.
Type
Error message / No.
Cause
Remedy / spare part
S = System error
= Fault message (with an effect on the inputs and outputs)
! = Notice message (without an effect on the inputs and outputs)
Nr. # 0xx → Hardware error
S
S
S
CRITICAL FAILURE
# 001
Serious device error
Replace the amplifier board.
Spare parts → Page 96
AMP HW EEPROM
# 011
Amplifier:
Defective EEPROM
Replace the amplifier board.
Spare parts → Page 96
AMP SW EEPROM
# 012
Amplifier:
Error accessing EEPROM data
The EEPROM data blocks in
which an error has occurred are
displayed in the “TROUBLESHOOTING” function.
Press Enter to acknowledge the
errors in question; default values
are automatically inserted instead
of the errored parameter values.
Note:
The measuring device has to be
restarted if an error has occurred
in a totalizer block (see error
No. 111 / CHECKSUM TOTAL.).
S
88
SENSOR HW DAT
# 031
Sensor DAT:
1. S-DAT™ is defective.
2. S-DAT™ is not plugged into
the amplifier board or is missing.
1. Replace the S-DAT™.
Spare parts → Page 96
Check the spare part set
number to ensure that the new,
replacement DAT is compatible with the measuring electronics.
2. Plug the S-DAT™ into the
amplifier board → Page 98,
100
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
Type
S
S
Error message / No.
Cause
Remedy / spare part
SENSOR SW DAT
# 032
Sensor:
Error accessing the calibration
values stored in the S-DAT™.
1. Check whether the S-DAT™ is
correctly plugged into the
amplifier board → Page 98,
100
2. Replace the S-DAT™ if it is
defective. Spare parts →
Page 96
Before replacing the DAT,
check that the new, replacement DAT is compatible with
the measuring electronics.
Check the:
– Spare part set number
– Hardware revision code
3. Replace measuring electronics boards if necessary.
Spare parts → Page 96
A / C COMPATIB.
# 051
The I/O board and the amplifier
board are not compatible.
Use only compatible modules and
boards. Check the compatibility of
the modules used.
Check the:
– Spare part set number
– Hardware revision code
Nr. # 1xx → Software error
CHECKSUM TOTAL
# 111
Totalizer checksum error
1. Restart the measuring device
2. Replace the amplifier board if
necessary.
Spare parts → Page 96
S
!
A / C COMPATIB.
# 121
Due to different software versions, I/O board and amplifier
board are only partially compatible (possibly restricted functionality).
Replace module with lower software verison.
Spare parts → Page 96
S
Nr. # 2xx → Error in DAT / no communication
S
COMMUNICATION I/O
# 261
No data reception between
amplifier and I/O board or faulty
internal data transfer.
Check the BUS contacts
Nr. # 3xx → System limits exceeded
S
Endress+Hauser
TOL. COIL CURR.
# 321
Sensor:
Coil current is out of tolerance.
1. Remote version:
Switch off the power supply
before connecting or disconnecting the cable of the coil
(terminals 41/42).
2. Remote version:
Switch off power supply and
check wiring of terminals 41/
42 → Page 47 ff.
3. Switch off the power supply
and check the connectors of
the coil cable → Page 98,
100
4. Replace measuring electronics boards if necessary.
Spare parts → Page 96
89
9 Trouble-shooting
PROline Promag 50
Type
Error message / No.
Cause
Remedy / spare part
S
!
STACK CUR OUT n
# 339…342
S
!
STACK FREQ. OUT n
# 343…346
The temporarily buffered flow
portions (measuring mode for
pulsating flow) could not be
cleared or output within 60
seconds.
1. Change the upper or lower
limit setting, as applicable.
2. Increase or reduce flow, as
applicable.
Recommendations in the event of
fault category = FAULT MESSAGE
():
– Configure the fault response of
the output to “ACTUAL VALUE”
(see Page 94), so that the temporary buffer can be cleared.
– Clear the temporary buffer by
the measures described under
Item 1.
S
!
STACK PULSE OUT n
# 347…350
The temporarily buffered flow
portions (measuring mode for
pulsating flow) could not be
cleared or output within 60
seconds.
1. Increase the setting for pulse
weighting
2. Increase the max. pulse
frequency, if the totalizer can
handle a higher number of
pulses.
3. Reduce flow
Recommendations in the event of
fault category = FAULT MESSAGE
():
– Configure the fault response of
the output to “ACTUAL VALUE”
(see Page 94), so that the temporary buffer can be cleared.
– Clear the temporary buffer by
the measures described under
Item 1.
S
S
90
CURRENT RANGE n
# 351…354
Current output:
Flow is out of range.
1. Change the upper or lower
limit setting, as applicable.
2. Increase or reduce flow, as
applicable.
FREQ. RANGE n
# 355…358
Frequency output:
Flow is out of range.
1. Change the upper or lower
limit setting, as applicable.
2. Increase or reduce flow, as
applicable.
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
Type
S
Error message / No.
Cause
Remedy / spare part
PULSE RANGE n
# 359…362
Pulse output:
Pulse output frequency is out of
range.
1. Increase the setting for pulse
weighting
2. When selecting the pulse
width, choose a value that can
still be processed by a connected counter (e.g. mechanical counter, PLC etc.).
Determine the pulse width:
– Variant 1: Enter the minimum duration that a pulse
must be present at the connected counter to ensure its
registration.
– Variant 2: Enter the maximum (pulse) frequency as
the half “reciprocal value”
that a pulse must be present
at the connected counter to
ensure its registration.
Example:
The maximum input frequency
of the connected counter is
10 Hz. The pulse width to be
entered is:
1
----------------------= 50 ms
2 ⋅ 10 Hz
3. Reduce flow.
Nr. # 5xx → Application error
S
!
DOWNLOAD ACTIVE
# 501
New amplifier software version is
loaded. Currently no other commands are possible.
Wait until process is finished.
Then restart the device.
Nr. # 6xx → Simulation mode active
S
!
POS. ZERO-RETURN
# 601
Positive zero return active
Switch off positive zero return
Caution:
This message has the highest
display priority!
Endress+Hauser
S
!
SIM. CURR. OUT. n
# 611…614
Simulation current output active
Switch off simulation
S
!
SIM. FREQ. OUT. n
# 621…624
Simulation frequency output
active
Switch off simulation
S
!
SIM. PULSE n
# 631…634
Simulation pulse output active
Switch off simulation
S
!
SIM. STAT. OUT n
# 641…644
Simulation status output active
Switch off simulation
S
!
SIM. STATUS IN
# 671…674
Simulation status input active
Switch off simulation
S
!
SIM. FAILSAFE
# 691
Simulation of response to error
(outputs) active
Switch off simulation
S
!
SIM. VOL. FLOW
# 692…
Simulation of volume flow active
Switch off simulation
91
9 Trouble-shooting
PROline Promag 50
9.3
Process error messages
Process errors can be defined as either “Fault” or “Notice” messages and can thereby
be weighted differently. Determination of this is done via the function matrix (see the
“Description of Device Functions” Manual).
Note:
The error types listed in the following correspond to the factory settings.
Also observe the information on Page 64 and 94
Type
Error message / No.
Cause
Remedy
P = Process error
= Fault message (with an effect on the inputs and outputs)
! = Notice message (without an effect on the inputs and outputs)
EMPTY PIPE
# 401
Measuring tube partially filled or
empty
1. Check the process conditions
of the plant
2. Fill the measuring tube
P
!
ADJ. NOT OK
# 461
EPD/OED calibration not possible
because the fluid's conductivity
is either too low or too high.
The EPD/OED function cannot be
used with fluids of this nature.
P
FULL = EMPTY
# 463
The EPD/OED calibration values
for empty pipe and full pipe are
identical, therefore incorrect.
Repeat calibration, making sure
procedure is correct → Page 81
P
92
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
9.4
Process errors without messages
Symptoms
Rectification
N.B.:
You may have to change or correct certain settings in functions in the function matrix in order to rectify the
fault. The functions outlined below, such as DISPLAY DAMPING, for example, are described in detail in
the “Description of Device Functions” manual.
Flow values are negative,
even though the fluid is flowing forwards through the
pipe.
1. Remote version:
– Switch off the power supply and check the wiring
→ Page 47 ff.
– If necessary, reverse the connections at terminals 41 and 42
2. Change the setting in the “INSTALLATION DIRECTION SENSOR”
function accordingly
Measured-value reading
fluctuates even though flow
is steady.
1. Check grounding and potential equalization → Page 56 ff.
2. Check the fluid for presence of gas bubbles.
3. In the “TIME CONSTANT” function (current output) → increase the
value
4. In the “DISPLAY DAMPING” function → increase the value
Measured-value reading
shown on display, even
though the fluid is at a
standstill and the measuring
tube is full.
1. Check grounding and potential equalization → Page 56 ff.
2. Check the fluid for presence of gas bubbles.
3. Activate the “LOW FLOW CUTOFF” function, i.e. enter or increase the
value for the switching point.
Measured-value reading on
display, even though
measuring tube is empty.
1. Perform empty-pipe/full-pipe calibration and then switch on Empty
Pipe detection → Page 81
2. Remote version: Check the terminals of the EPD cable → Page 47 ff.
3. Fill the measuring tube.
The current output signal is
always 4 mA, irrespective of
the flow signal at any given
time.
1. Select the “BUS ADDRESS” function and change the setting to “0”.
2. Value for creepage too high. Reduce corresponding value in the “Low
flow cutoff” functions (ON-/OFF-VALUE).
The fault cannot be rectified
or some other fault not described above has arisen.
The following options are available for tackling problems of this nature:
In these instances, please
contact your E+H service
organization.
Request the services of an E+H service technician
If you contact our service organization to have a service technician sent
out, please be ready to quote the following information:
– Brief description of the fault
– Nameplate specifications (Page 9 ff.): order code, serial number
Returning devices to E+H
The procedures on Page 8 must be carried out before you return a flowmeter requiring repair or calibration to Endress+Hauser.
Always enclose a duly completed “Declaration of Conformity” form with
the flowmeter. You will find a preprinted form at the back of this manual.
Replace transmitter electronics
Components in the measuring electronics defective →
order spare parts → Page 96
Endress+Hauser
93
9 Trouble-shooting
PROline Promag 50
9.5
Response of outputs to errors
Note:
The failsafe mode of totalizers, current, pulse and frequency outputs can be customized
by means of various functions in the function matrix. You will find detailed information on
these procedures in the “Description of Device Functions” manual.
Positive zero return and failsafe mode:
You can use positive zero return to set the signals of the current, pulse and frequency
outputs to their fallback value, for example when measuring has to be interrupted while
a pipe is being cleaned.
This function takes priority over all other device functions: simulations, for example, are
suppressed.
Failsafe mode of outputs and totalizers
Process/system error is current
Positive zero return is activated
Caution:
System or process errors defined as “Notice messages” have no effect whatsoever on the
inputs and outputs. See the information on Page 64 ff.
Current output
MINIMUM CURRENT
0–20 mA (25 mA) → 0 mA
4–20 mA (25 mA) → 2 mA
HART 4–20 mA (25 mA) → 2 mA
0–20 mA → 0 mA
4–20 mA → 2 mA
HART 4–20 mA → 2 mA
Output signal corresponds to
“zero flow”
MAXIMUM CURRENT
0–20 mA (25 mA) → 25 mA
4–20 mA (25 mA) → 25 mA
HART 4–20 mA (25 mA) → 25 mA
0–20 mA (NAMUR) → 22mA
4–20 mA (NAMUR) → 22 mA
HART 4–20 mA (NAMUR) → 22 mA
HOLD VALUE
Last valid value (preceding occurrence of the
fault) is output.
ACTUAL VALUE
Fault is ignored, i.e. normal measured-value
output on the basis of ongoing flow measurement.
Pulse output
FALLBACK VALUE
Signal output → no pulses
Output signal corresponds to
“zero flow”
HOLD VALUE
Last valid value (preceding occurrence of the
fault) is output.
ACTUAL VALUE
Fault is ignored, i.e. normal measured-value
output on the basis of ongoing flow measurement.
94
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
Failsafe mode of outputs and totalizers
Frequency output
Process/system error is current
Positive zero return is activated
FALLBACK VALUE
Signal output → 0 Hz
Output signal corresponds to
“zero flow”
FAILSAFE LEVEL
Output of the frequency specified in the
FALÌLSAFE VALUE function (No. 4211).
HOLD VALUE
Last valid value (preceding occurrence of the
fault) is output.
ACTUAL VALUE
Fault is ignored, i.e. normal measured-value
output on the basis of ongoing flow measurement.
Totalizer
STOP
The totalizers are paused until the error is
rectified.
Totalizer stops
ACTUAL VALUE
The fault is ignored. The totalizers continue to
count in accordance with the current flow
value.
HOLD VALUE
The totalizers continue to count the flow in
accordance with the last valid flow value
(before the error occurred).
Status output
Endress+Hauser
In the event of a fault or power supply failure:
Status output → non-conductive
No effect on status output
95
9 Trouble-shooting
PROline Promag 50
9.6
Spare parts
Chap. 9.1 contains a detailed trouble-shooting guide. The measuring device,
moreover, provides additional support in the form of continuous self-diagnosis and error
messages.
Fault rectification can entail replacing defective components with tested spare parts.
The illustration below shows the available scope of spare parts.
Note:
You can order spare parts directly from your E+H service organisation by providing the
serial number printed on the transmitter's nameplate (Page 9 ff.).
Spare parts are shipped as sets comprising the following parts:
• Spare part
• Additional parts, small items (threaded fasteners, etc.)
• Mounting instructions
• Packaging
1
2
3
4
F06-50xxxxxx-03-06-06-xx-000
5
Fig. 47:
1
2
3
4
5
96
Spare parts for Promag 50 transmitter (field and wall-mounted housings)
Power supply board (85...260 V AC, 20...55 V AC, 16...62 V DC)
Amplifier board
I/O board
S-DAT™ (sensor data memory)
Display module
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
9.7
Field housing: removing and installing printed circuit boards (Fig. 48)
Warning:
• Risk of electric shock. Exposed components carry dangerous voltages. Make sure
that the power supply is switched off before you remove the cover of the electronics
compartment.
• Risk of damaging electronic components (ESD protection). Static electricity can
damage electronic components or impair their operability. Use a workplace with a
grounded working surface purpose-built for electrostatically sensitive devices!
1.
2.
3.
4.
5.
Endress+Hauser
Removing and installing printed circuit boards
6.
Unscrew cover from the transmitter housing.
Remove the local display (1) as follows:
– Press in the latches (1.1) at the side and remove the display module.
– Disconnect the ribbon cable (1.2) of the display module from the amplifier board.
Remove the screws and remove the cover (2) from the electronics compartment.
Remove power supply board and I/O board (4, 6):
Insert a suitable tool into the holes (3) provided for the purpose and pull the board
clear of its holder.
Remove amplifier board (5):
– Disconnect the plug of the electrode signal cable (5.1) including S-DAT™ (5.3)
from the board.
– Disconnect the plug of the coil current cable (5.2) from the board.
– Insert a thin pin into the holes (3) provided for the purpose and pull the board
clear of its holder.
Installation is the reverse of the removal procedure.
Caution:
Use only original Endress+Hauser parts.
97
9 Trouble-shooting
PROline Promag 50
4
5
3
6
5.1
3
5.3
5.2
3
2
1.2
1.1
Fig. 48:
1
1.1
1.2
2
3
4
5
5.1
5.2
5.3
6
98
F06-50xxxxxx-03-06-06-xx-001
1
Field housing: removing and installing printed circuit boards
Local display
Latch
Ribbon cable (display module)
Screws of electronics compartment cover
Aperture for tool, removal/installation
Power supply board
Amplifier board
Electrode signal cable (sensor)
Coil current cable (sensor)
S-DAT™ (sensor data memory)
I/O board
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
Wall-mounted housing: removing and installing printed circuit boards (Fig. 49)
Warning:
• Risk of electric shock. Exposed components carry dangerous voltages. Make sure
that the power supply is switched off before you remove the cover of the electronics
compartment.
• Risk of damaging electronic components (ESD protection). Static electricity can
damage electronic components or impair their operability. Use a workplace with a
grounded working surface, purpose-built for electrostatically sensitive devices.
1.
2.
3.
4.
5.
Endress+Hauser
6.
Remove the screws and open the hinged cover (1) of the housing.
Remove screws of the electronics module (2). Then push up electronics module
and pull it as far as possible out of the wall-mounted housing.
Disconnect the following cable plugs from amplifier board (7):
– Electrode signal cable plug (7.1) including S-DAT™ (7.3)
– Coil current cable plug (7.2)
– Ribbon-cable plug (3) of the display module
Remove the screws and remove the cover (4) from the electronics compartment.
Remove the boards (6, 7, 8):
Insert a suitable tool into the hole (5) provided for the purpose and pull the board
clear of its holder.
Installation is the reverse of the removal procedure.
Caution:
Use only original Endress+Hauser parts.
99
9 Trouble-shooting
PROline Promag 50
1
2
6
4
3
7
5
8
7.1
7.3
7.2
5
F06-50xxxxxx-03-03-06-xx-000
3
5
Fig. 49:
1
2
3
4
5
6
7
7.1
7.2
7.3
8
100
Wall-mounted housing: removing and installing printed circuit boards
Housing cover
Electronics module
Ribbon cable (display module)
Cover of electronics compartment (3 screws)
Aperture for tool, removal/installation
Power supply board
Amplifier board
Electrode signal cable (sensor)
Coil current cable (sensor)
S-DAT™ (sensor data memory)
I/O board
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
9.8
Replacing the device fuse
Warning:
Risk of electric shock. Exposed components carry dangerous voltages. Make sure that
the power supply is switched off before you remove the cover of the electronics compartment.
The main fuse is on the power supply board (Fig. 50).
The procedure for replacing the fuse is as follows:
Switch off power supply.
Remove the power supply board → Page 97, 99
Remove cap (1) and replace the device fuse (2).
Use only fuses of the following type:
– Power supply 20...55 V AC / 16...62 V DC → 2.0 A slow-blow / 250 V;
5.2 x 20 mm
– Power supply 85...260 V AC → 0.8 A slow-blow / 250 V; 5.2 x 20 mm
– Ex-rated devices → see the Ex documentation.
4.
Assembly is the reverse of the disassembly procedure.
Caution:
Use only original Endress+Hauser parts.
F06-xxxxxxxx-03-xx-06-xx-000
1.
2.
3.
Fig. 50:
1
2
Endress+Hauser
Replacing the device fuse on the power supply board
Protective cap
Device fuse
101
9 Trouble-shooting
PROline Promag 50
9.9
Replacing exchangeable measuring electrodes
F06-5xWxxxxx-00-05-xx-xx-000
The Promag W sensor (DN 350...2000) is available with exchangeable measuring electrodes as an option. This design permits the measuring electrodes to be replaced or
cleaned under process conditions (see Page 103).
Fig. 51:
a
b
c
d
e
f
g
h
i
j
k
102
Apparatus for replacing exchangeable measuring electrodes (Replacing → Page 103)
Allen screw
Handle
Electrode cable
Knurled nut (locknut)
Measuring electrode
Stop cock
Retaining cylinder
Locking pin (for handle)
Ball-valve housing
Seal (retaining cylinder)
Coil spring
Endress+Hauser
PROline Promag 50
9 Trouble-shooting
Removing the electrode
Installing the electrode
1
Loosen Allen screw (a) and remove the
cover.
1
Insert new electrode (e) into retaining cylinder (g) from below. Make sure that the seals
at the tip of the electrode are clean.
2
Remove electrode cable (c) secured to
handle (b).
2
Mount handle (b) on the electrode and
insert locking pin (h) to secure it in position.
Caution:
Make sure that coil spring (k) is inserted.
This is essential to ensure correct electrical
contact and correct measuring signals.
2
Loosen knurled nut (d) by hand. This
knurled nut acts as a locknut.
2
Pull the electrode back until the tip of the
electrode no longer protrudes from retaining cylinder (g).
3
Remove electrode (e) by turning handle
(b). The electrode can now be pulled out of
retaining cylinder (g) as far as a defined
stop.
3
Screw the retaining cylinder (g) onto ballvalve housing (i) and tighten it by hand.
Seal (j) on the cylinder must be correctly
seated and clean.
Note:
Make sure that the rubber hoses on retaining cylinder (g) and stop cock (f) are of the
same color (red or blue).
Warning:
Risk of injury. Under process conditions
(pressure in the piping system) the electrode can recoil suddenly against its stop.
Apply counter-pressure while releasing the
electrode.
4
Close stop cock (f) after pulling out the
electrode as far as it will go.
4
Open stop cock (f) and turn handle (b) to
screw the electrode all the way into the
retaining cylinder.
Warning:
Do not subsequently open the stop cock,
in order to prevent fluid escaping.
5
Remove the electrode complete with
retaining cylinder (g).
5
Screw knurled nut (d) onto the retaining cylinder. This firmly locates the electrode in
position.
6
Remove handle (b) from electrode (e) by
pressing out locking pin (h). Take care not
to lose coil spring (k).
6
Use the Allen screw to secure electrode
cable (c) to handle (b).
Caution:
Make sure that the machine screw securing
the electrode cable is firmly tightened. This
is essential to ensure correct electrical contact and correct measuring signals.
7
Endress+Hauser
Remove the old electrode and insert the
new electrode. Replacement electrodes
can be ordered separately from E+H.
7
Reinstall the cover and tighten (a) Allen
screw.
103
9 Trouble-shooting
PROline Promag 50
9.10
Software history
Software version /
date
Changes to software
Changes to documentation
Original software.
−
Amplifier:
V 1.00.00 / 04.2000
Compatible with:
– FieldTool ™
– Commuwin II (version 2.05.03 and
higher)
– HART Communicator DXR 275
(from OS 4.6) with Rev. 1, DD 1.
V 1.01.00 / 08.2000
Software expansion
(functional adaptations)
none
V 1.01.01 / 09.2000
Software adaptation
none
V 1.02.00 / 06.2001
Software expansion:
New functionalities
• General instrument functions
• “OED” software function
Communication module (Inputs/Outputs)
104
V 1.00.00 / 04.2000
Original software
–
V 1.01.00 / 09.2000
Software expansion
(functional adaptations)
none
V 1.02.00 / 06.2001
Software expansion:
New functionalities
“Pulse width” software function
Note!
Usually, an upload or download between the different software versions is only possible
with a special service software.
Endress+Hauser
PROline Promag 50
Application
10 Technical data
10
Technical data
10.1
Technical data at a glance
10.1.1
Application
• Measuring the flow rate of fluids in closed piping systems.
• A minimum conductivity of ≥ 5 µS/cm is required for measuring; the minimum
conductivity required in the case of demineralised water is ≥ 20 µS/cm.
• Applications in measuring, control and regulation technology
10.1.2
Function and system design
Measuring principle
Electromagnetic flow measurement on the basis of Faraday’s Law.
Measuring system
The measuring system consists of a transmitter and a sensor.
Two versions are available:
• Compact version: transmitter and sensor form a single mechanical unit.
• Remote version: transmitter and sensor are installed separately.
Transmitter:
• Promag 50
Sensor:
• Promag W (for water/wastewater applications)
DN 25…2000, hard rubber or polyurethane lining
• Promag P (for chemical and process applications)
DN 15…600, PFA or PTFE lining
• Promag H (for hygienic applications)
DN 2…100, PFA lining
10.1.3
Input
Measured variable
Flow rate (proportional to induced voltage)
Measuring range
Typically v = 0.01…10 m/s with the specified measuring accuracy
Operable flow range
Over 1000 : 1
Input signals
Status input (auxiliary input):
U = 3…30 V DC, Ri = 5 kΩ, galvanically isolated
Configurable for: totalizer reset, positive zero return
Endress+Hauser
105
10 Technical data
PROline Promag 50
10.1.4
Output signal
Output
Current output:
active/passive selectable, galvanically isolated, time constant selectable (0.01…100 s),
full scale value selectable, temperature coefficient: typically 0.005 % o.r./ °C; resolution:
0.5 µA
• active: 0/4…20 mA, RL < 700 Ω (for HART: RL ≥ 250 Ω)
• passive: 4…20 mA, max. 30 V DC, Ri ≤ 150 Ω
Pulse / frequency output:
passive, open collector, 30 VDC, 250 mA, galvanically isolated
• Frequency output: full scale frequency 2…1000 Hz (fmax = 1250 Hz),
on/off ratio 1:1, pulse width max. 10 s
• Pulse output: pulse value and pulse polarity selectable, pulse width configurable
(0.5…2000 ms)
Signal on alarm
• Current output → failsafe mode selectable
• Pulse/frequency output → failsafe mode selectable
• Status output → “non-conductive” by fault or power supply failure
Details → Page 94
Load
see “output signal”
Switching output
Status output:
Open collector, max. 30 V DC / 250 mA, galvanically isolated
Configurable for: error messages, Empty Pipe Detection (EPD/OED), flow direction,
limit values
Low flow cutoff
Switch points for low flow cutoff are selectable
Galvanic isolation
All circuits for inputs, outputs, and power supply are galvanically isolated from each
other.
10.1.5
Power supply
Electrical connections
see Page 47 ff.
Cable entry
Power-supply and signal cables (inputs/outputs):
• Cable entry M20 x 1.5 (8…12 mm)
• Threads for cable entries, PG 13.5 (5…15 mm), 1/2" NPT, G 1/2"
Connecting cable for remote version:
• Cable entry M20 x 1.5 (8…12 mm)
• Threads for cable entries, PG 13.5 (5…15 mm), 1/2" NPT, G 1/2"
Cable specifications
see Page 51
Supply voltage
85…260 V AC, 45…65 Hz
20…55 V AC, 45…65 Hz
16…62 V DC
106
Endress+Hauser
PROline Promag 50
Power consumption
10 Technical data
AC: <15 VA (including sensor)
DC: <15 W (including sensor)
Switch-on current:
• max. 13.5 A (< 50 ms) at 24 V DC
• max. 3 A (< 5 ms) at 260 V AC
Power supply failure
Lasting min. 1 power cycle
• EEPROM saves measuring system data if power supply fails
• S-DAT™: exchangeable data storage chip which stores the data of the sensor
(nominal diameter, serial number, calibration factor, zero point, etc.)
Potential equalisation
see Page 56 ff.
10.1.6
Reference operating
conditions
Performance characteristics
To DIN 19200 and VDI/VDE 2641:
• Fluid temperature: +28 °C ± 2 K
• Ambient temperature: +22 °C ± 2 K
• Warm-up time: 30 minutes
Installation:
• Inlet run >10 x DN
• Outlet run > 5 x DN
• Sensor and transmitter grounded.
• Sensor centered relative to the pipe.
Maximum measured error
Pulse output:
• ± 0.5% o.r. ± 1 mm/s (o.r. = of reading)
• Option: ± 0.2% o.r. ± 2 mm/s (o.r. = of reading)
Current output: plus typically ± 5 µA
Supply-voltage fluctuations have no effect within the specified range.
[%]
2.5
2.0
0.5 %
1.5
0.2 %
0.5
0
0
1
2
4
6
v [m/s]
Fig. 52:
Repeatability
Endress+Hauser
8
10
F06-5xxxxxxx-05-xx-xx-xx-000
1.0
Max. measured error in % of reading
max. ± 0.1% o.r. ± 0.5 mm/s (o.r. = of reading)
107
10 Technical data
PROline Promag 50
10.1.7
Operating conditions
Installation
Installation instructions
Any orientation (vertical, horizontal)
Restrictions and additional installation instructions → see Page 15 ff.
Inlet and outlet runs
Inlet run: typically ≥ 5 x DN
Outlet run: typically ≥ 2 x DN
Length of connecting
cable
For the remote version the permissible cable length Lmax depends on the conductivity
of the medium → Page 25.
A minimum conductivity of 20 µS/cm is required for measuring demineralized water.
Environment
Ambient temperature
−20…+60 °C (sensor, transmitter)
Note the following points:
• Install the device at a shady location. Avoid direct sunlight, particularly in warm
climatic regions.
• If both fluid and ambient temperatures are high, install the transmitter at a remote
location from the sensor (→ “Medium temperature range”).
Storage temperature
–10…+50 °C (preferably +20 °C)
Degree of protection
• Standard: IP 67 (NEMA 4X) for transmitter and sensor
• Optional: IP 68 (NEMA 6P) for remote version of Promag W and P sensor
Shock and
vibration resistance
Acceleration up to 2 g by analogy with IEC 68-2-6
(high-temperature version: no data available)
CIP cleaning
Promag W: not possible
Promag P: possible (note max. temperature)
Promag H: possible (note max. temperature)
SIP cleaning
Promag W: not possible
Promag P: possible with PFA (note max. temperature)
Promag H: possible (note max. temperature)
Electromagnetic
compatibility (EMC)
To EN 61326/A1 and NAMUR recommendation NE 21
108
Endress+Hauser
PROline Promag 50
10 Technical data
Process
Medium temperature
range
The permissible fluid temperature depends on the lining of the measuring tube:
Promag W
0…+80 °C for hard rubber (DN 65…2000)
–20…+70 °C for polyurethane (DN 25…2000)
Promag P
–40…+130 °C for PTFE (DN 15…600), for restrictions → refer to diagrams
–20…+180 °C for PFA (DN 25…200), for restrictions → refer to diagrams
HT
TA [°C]
60
0
-20
0
20
40
60
80 100 120 140 160 180
TF [°C]
F06-5xPxxxxx-05-xx-xx-xx-000
20
PFA
PTFE
40
Fig. 53: Compact version Promag P (with PFA or PTFE lining)
TA = ambient temperature, TF = fluid temperature, HT = high-temperature version, with insulation
HT
TA [°C]
60
0
-20
0
20
40
60
80 100 120 140 160 180
TF [°C]
F06-xxPxxxxx-05-xx-xx-xx-000
20
PFA
PTFE
40
Fig. 54: Remote version Promag P (with PFA or PTFE lining)
TA = ambient temperature, TF = fluid temperature, HT = high-temperature version, with insulation
Endress+Hauser
109
10 Technical data
PROline Promag 50
Promag H
Sensor:
• DN 2…25: –20…+150 °C (+180 °C in prep.)
• DN 40…100: –20…+150 °C
Seal:
• EPDM: –20…+130 °C
• Silicone: –20…+150 °C
• Viton: –20…+150 °C
• Kalrez: –20…+150 °C
Conductivity
Minimum conductivity:
• ≥ 5 µS/cm for fluids generally
• ≥ 20 µS/cm for demineralised water
Note that in the case of the remote version, the requisite conductivity is also influenced
by the length of the connecting cable → Page 25.
Limiting medium pressure
range (nominal pressure)
Promag W:
• DIN 2501: PN 6 (DN 1200…2000), PN 10 (DN 200…2000), PN 16 (DN 65…2000),
PN 25 (DN 200…1000), PN 40 (DN 25…150)
• ANSI B16.5: Class 150 (1…24"), Class 300 (1…6")
• AWWA: Class D (28…78")
• JIS B2238: 10K (DN 50…300), 20K (DN 25…300)
Promag P:
• DIN 2501: PN 10 (DN 200…600), PN 16 (DN 65…600), PN 25 (DN 200…600),
PN 40 (DN 15…150)
• ANSI B16.5: Class 150 (1/2…24"), Class 300 (1/2…6")
• JIS B2238: 10K (DN 50…300), 20K (DN 15…300)
Promag H:
The permissible nominal pressure depends on the process connection and seal:
• 40 bar: flange, weld nipple (with O-ring seal)
• 16 bar: all other process connections
110
Endress+Hauser
PROline Promag 50
Pressure tightness
(liner)
10 Technical data
Promag W
Nominal diameter
[mm]
[inch]
25…2000
1…78"
65…2000
3…78"
Promag P
Nominal diameter
[mm]
[inch]
15
1/2"
25
Measuring
tube lining
Resistance of measuring tube lining to partial vacuum
Limit values for abs. pressure [mbar] at various fluid temperatures
25 °C
70 °C
80° C
100 °C
130 °C
150 °C
180 °C
Polyurethane
0
0
−
−
−
−
−
Hard rubber
0
0
0
−
−
−
−
Measuring
tube lining
Resistance of measuring tube lining to partial vacuum
Limit values for abs. pressure [mbar] at various fluid temperatures
25 °C
80 °C
100 °C
130 °C
150 °C
180 °C
PTFE
0
0
0
100
–
–
1"
PTFE / PFA
0/0
0/0
0/0
100 / 0
–/0
–/0
32
−
PTFE / PFA
0/0
0/0
0/0
100 / 0
–/0
–/0
40
1 1/2"
PTFE / PFA
0/0
0/0
0/0
100 / 0
–/0
–/0
50
2"
PTFE / PFA
0/0
0/0
0/0
100 / 0
–/0
–/0
65
−
PTFE / PFA
0/0
*
40 / 0
130 / 0
–/0
–/0
80
3"
PTFE / PFA
0/0
*
40 / 0
130 / 0
–/0
–/0
100
4"
PTFE / PFA
0/0
*
135 / 0
170 / 0
–/0
–/0
125
−
PTFE / PFA
135 / 0
*
240 / 0
385 / 0
–/0
–/0
150
6"
PTFE / PFA
135 / 0
*
240 / 0
385 / 0
–/0
–/0
200
8"
PTFE / PFA
200 / 0
*
290 / 0
410 / 0
–/0
–/0
250
10"
PTFE
330
*
400
530
–
–
300
12"
PTFE
400
*
500
630
–
–
350
14"
PTFE
470
*
600
730
–
–
400
16"
PTFE
540
*
670
800
–
–
450
18"
PTFE
500
20"
PTFE
600
24"
PTFE
Partial vacuum is impermissible
* No value can be quoted.
Promag H
Nominal diameter
[mm]
[inch]
2…100
1/12…4"
Measuring
tube lining
PFA
Resistance of measuring tube lining to partial vacuum
Limit values for abs. pressure [mbar] at various fluid temperatures
25 °C
80 °C
100 °C
130 °C
150 °C
180 °C
0
0
0
0
0
0
Limiting flow
see Page 20
Pressure loss
• No pressure loss if the sensor is installed in a pipe of the same nominal diameter
(Promag H: only DN 8 and larger).
• Pressure losses for configurations incorporating adapters according to
(E) DIN EN 545 → Page 20
Endress+Hauser
111
10 Technical data
PROline Promag 50
10.1.8
Design / dimensions
Mechanical construction
see Page 120 ff.
Weight
Weight data of Promag W in kg
Nominal
diameter
Compact version
7.3
7.3
5.3
5.3
6.0
32
1 1/4"
8.0
–
6.0
–
6.0
40
1 1/2"
9.4
9.4
7.4
7.4
6.0
50
2"
0.6
10.6
8.6
8.6
6.0
65
2 1/2"
12.0
–
10.0
–
6.0
80
3"
14.0
14.0
12.0
12.0
6.0
100
4"
16.0
16.0
14.0
14.0
6.0
125
5"
21.5
–
19.5
–
6.0
150
6"
25.5
25.5
23.5
23.5
6.0
200
8"
45
45
43
43
6.0
250
10"
65
75
63
73
6.0
300
12"
70
110
68
108
6.0
350
14"
115
175
113
173
6.0
400
16"
135
205
133
203
6.0
450
18"
175
255
173
253
6.0
500
20"
175
285
173
283
6.0
600
24"
235
405
233
403
6.0
700
28"
355
400
353
398
6.0
–
30"
–
460
–
458
6.0
800
32"
435
550
433
548
6.0
900
36"
575
800
573
798
6.0
1000
40"
700
900
698
898
6.0
–
42"
–
1100
–
1098
6.0
1200
48"
850
1400
848
1398
6.0
–
54"
–
2200
–
2198
6.0
1400
–
1300
–
1298
–
6.0
–
60"
–
2700
–
2698
6.0
1600
–
1700
–
1698
–
6.0
–
66"
–
3700
–
3698
6.0
1800
72"
2200
4100
2198
4098
6.0
–
78"
–
4600
–
4598
6.0
2000
–
2800
–
2798
Class D
PN 16
PN 16
PN 10
PN 6
Class D
Class 150
1"
PN 10
Sensor
PN 40
25
Class 150
[inch]
PN 6
ANSI
Wall
housing
[mm]
PN 40
DIN
Remote version (without cable)
–
6.0
Transmitter Promag (compact version): 3.4 kg
(Weight data valid for standard pressure ratings and without packaging material)
112
Endress+Hauser
PROline Promag 50
10 Technical data
Weight data of Promag P in kg
Nominal
diameter
Compact version
1/2"
6.5
6.5
4.5
4.5
6.0
25
1"
7.3
7.3
5.3
5.3
6.0
32
1 1/4"
8.0
–
6.0
–
6.0
40
1 1/2"
9.4
9.4
7.4
7.4
6.0
50
2"
10.6
10.6
8.6
8.6
6.0
65
2 1/2"
12.0
–
10.0
–
6.0
80
3"
14.0
14.0
12.0
12.0
6.0
100
4"
16.0
16.0
14.0
14.0
6.0
125
5"
21.5
–
6.0
150
6"
25.5
23.5
6.0
200
8"
250
PN 16
Class 150
Sensor
PN 40
15
Class 150
[inch]
PN 16
ANSI
Wall
housing
[mm]
PN 40
DIN
Remote version (without cable)
25.5
23.5
45
45
43
43
6.0
10"
65
75
63
73
6.0
300
12"
70
110
68
108
6.0
350
14"
115
175
113
173
6.0
400
16"
135
205
133
203
6.0
450
18"
175
255
173
253
6.0
500
20"
175
285
173
283
6.0
600
24"
235
405
233
403
6.0
PN 10
19.5
PN 10
–
Transmitter Promag (compact version): 3.4 kg
High-temperature version: +1.5 kg
(Weight data valid for standard pressure ratings and without packaging material)
Weight data of Promag H in kg
Nominal
diameter
Compact version
Remote version (without cable)
[mm]
[inch]
DIN
Sensor
Wall housing
2
1/12"
5.2
2.5
6.0
4
5/32"
5.2
2.5
6.0
8
5/16"
5.3
2.5
6.0
15
1/2"
5.4
2.6
6.0
25
1"
5.5
2.8
6.0
40
1 1/2"
6.5
4.5
6.0
50
2"
9.0
7.0
6.0
65
2 1/2"
9.5
7.5
6.0
80
3"
19.0
17.0
6.0
Transmitter Promag (compact version): 3.4 kg
(Weight data valid for standard pressure ratings and without packaging material)
Endress+Hauser
113
10 Technical data
Materials
PROline Promag 50
Promag W
Transmitter housing:
• Compact housing: powder coated die-cast aluminium or
stainless steel field housing (1.4301/316L)
• Wall-mounted housing: powder coated die-cast aluminium
Sensor housing:
• DN 25…300: powder-coated die-cast aluminium
• DN 350…2000: painted steel (Amerlock 400)
Measuring tube:
• DN < 350: stainless steel 1.4301 or 1.4306/304L; non-stainless flange material with Al/
Zn protective coating
• DN > 300: stainless steel 1.4301/304; non-stainless flange material with Amerlock 400
paint
Flange:
• DIN : Stainless steel 1.4571, ST37 / FE 410W B (DN < 350 with Al/Zn protective
coating; DN > 300 with Amerlock 400 paint)
• ANSI: A105, 316L (DN < 350 with Al/Zn protective coating, DN > 300 with
Amerlock 400 paint)
• AWWA: A105
• JIS: S20C, SUS 316L (DN < 350 with Al/Zn protective coating, DN > 300 with Amerlock
400 paint)
Ground disks: : 1.4435/316L or Alloy C-22
Electrodes: 1.4435 or Alloy C-22, tantalum
Seals: Seals to DIN 2690
Promag P
Transmitter housing:
• Compact housing: powder coated die-cast aluminium or stainless steel field housing
• Wall-mounted housing: powder coated die-cast aluminium
Sensor housing:
• DN 25…300: powder-coated die-cast aluminium
• DN 350…600: painted steel (Amerlock 400)
Measuring tube:
• DN < 350: stainless steel 1.4301 or 1.4306/304L; non-stainless flange material with
AI/Zn protective coating
• DN > 300: stainless steel 1.4301/304; non-stainless flange material with Amerlock 400
paint
Flange:
• DIN : Stainless steel 1.4571, ST37 / FE 410W B (DN < 350 with Al/Zn protective
coating, DN > 300 with Amerlock 400 paint)
• ANSI: A105, 316L (DN < 350 with Al/Zn protective coating, DN > 300 with
Amerlock 400 paint)
• JIS: S20C, SUS 316L (DN < 350 with Al/Zn protective coating, DN > 300 with
Amerlock 400 paint)
Ground disks: 1.4435/316L or Alloy C-22
Electrodes: 1.4435, platinum/rhodium 80/20 or Alloy C-22, tantalum
Seals: Seals to DIN 2690
114
Endress+Hauser
PROline Promag 50
10 Technical data
Promag H
Transmitter housing:
• Compact housing: powder coated die-cast aluminium or
stainless-steel field housing 1.4301/316L
• Wall-mounted housing: powder coated die-cast aluminium
Sensor housing: 1.4301
Wall mounting (holder panel): 1.4301
Measuring tube: stainless steel 1.4301 or 1.4306/304L
Flange:
• All connections 1.4404/316L
• Flanges (DIN, ANSI, JIS) made of PVDF
• Adhesive fitting made of PVC
Ground rings: 1.4435/316L, platinum (Basic material: Titanium Grade 2, Platinum
coating at least 12 µm), Alloy C-22
Electrodes:
• Standard: 1.4435
• Option: Alloy C-22, tantalum, platinum/rhodium 80/20 (up to DN 25 only)
Seals:
• DN 2…25: O-ring (EPDM, Viton, Kalrez) or gasket seal (EPDM, silicone, Viton)
• DN 40…100: gasket seal (EPDM, silicone)
Material load diagram
The material load diagrams (pressure-temperature graphs) for the process connections
are to be found in the following documents:
• Technical Information “Promag 50/53 W” (TI 046D/06/en)
• Technical Information “Promag 50/53 P” (TI 047D/06/en)
• Technical Information “Promag 50/53 H” (TI 048D/06/en)
Fitted electrodes
Promag W:
Measuring, reference and EPD electrodes
• Standard available with 1.4435, Alloy C-22, tantalum
• Optional: exchangeable measuring electrodes made of 1.4435 (DN 350…2000)
Promag P:
Measuring, reference and EPD electrodes
• Standard available with 1.4435, Alloy C-22, tantalum
• Optional: reference electrode and EPD electrodes made of platinum/rhodium 80/20
Promag H:
Measuring electrodes and EPD electrodes
• Standard available with 1.4435, Alloy C-22, tantalum, platinum/rhodium
• DN 2…8: without EPD electrode
Endress+Hauser
115
10 Technical data
Process connections
PROline Promag 50
Promag W:
Flange connection: DIN (dimensions to DIN 2501), ANSI, AWWA, JIS
Promag P:
Flange connection: DIN (dimensions to DIN 2501), ANSI, AWWA, JIS
Promag H:
• With O-ring: weld nipples (ISO 2463, IPS), flanges (DIN, ANSI, JIS), PVDF flanges
(DIN, ANSI, JIS), external pipe thread, internal pipe thread, hose connection, PVC
adhesive fittings
• With gasket seals: weld nipples (DIN 11850, ODT), clamps (ODT, ISO 2852,
DIN 32676), threaded fasteners (DIN 11851, DIN 11864-1, ISO 2853, SMS1145),
flanges (DIN 11864-2)
Surface roughness
• PFA liner: ≤ 0.3 µm
• Electrodes:
– 1.4435, Alloy C-22: ≤ 0.4 µm
– Tantalum, platinum/rhodium: ≤ 0.8 µm
• Process connection Promass H: ≤ 0.8 µm
(all data relate to parts in contact with medium)
10.1.9
Human interface
Display elements
• Liquid-crystal display: illuminated, two lines with 16 characters per line
• Custom configurations for presenting different measured values and status variables
• 1 totalizer
Operating elements
• Local operation with three push buttons (–, +, E)
• “Quick Setup” menus for straightforward commissioning
Remote operation
Operation via HART protocol
10.1.10 Certificates and approvals
Ex Approvals
Information on the currently available Ex-rated versions (ATEX, FM, CSA, etc.) is available on request from your E+H sales outlet. All information relevant to explosion protection is available in separate Ex documents that you can order as necessary.
Sanitary compatibility
Promag W:
No applicable approvals or certification
Promag P:
No applicable approvals or certification
Promag H:
• 3A authorization and EHEDG-tested
• Seals in conformity with FDA (except Kalrez seals)
CE mark
116
The measuring system is in conformity with the statutory requirements of the
EC Directives. Endress+Hauser confirms successful testing of the device by affixing to
it the CE mark.
Endress+Hauser
PROline Promag 50
Other standards and
guidelines
10 Technical data
EN 60529
Degrees of protection by housing (IP code)
EN 61010
Protection Measures for Electrical Equipment for Measurement, Control,
Regulation and Laboratory Procedures
EN 61326/A1 (IEC 1326)
Electromagnetic compatibility (EMC requirements)
NAMUR NE 21
Association for Standards for Control and Regulation in the Chemical Industry
10.1.11 Ordering information
The E+H service organisation can provide detailed ordering information and information
on specific order codes on request.
10.1.12 Accessories
Various accessories, which can be ordered separately from E+H, are available for the
transmitter and the sensor (see Page 85). The E+H service organisation can provide
detailed information on request.
10.1.13 Supplementary documentation
•
•
•
•
•
•
Endress+Hauser
System Information Promag (SI 028D/06/en)
Technical Information Promag 50/53 W (TI 046D/06/en)
Technical Information Promag 50/53 P (TI 047D/06/en)
Technical Information Promag 50/53 H (TI 048D/06/en)
Description of Device Functions Promag 50 (BA 049D/06/en)
Supplementary documentation on Ex-ratings: ATEX, FM, CSA, etc.
117
10 Technical data
PROline Promag 50
10.2
Measuring-tube specifications
Promag W
Nominal diameter
118
Pressure rating
Inside diameter of
measuring tube
DIN
[mm]
ANSI
[inch]
DIN
[bar]
ANSI
[lbs]
AWWA
JIS
Hard rubber
Polyurethane
25
1"
PN 40
Cl 150
−
20K
−
24
32
−
PN 40
−
−
20K
−
32
40
1 1/2"
PN 40
Cl 150
−
20K
−
38
50
2"
PN 40
Cl 150
−
10K
−
50
65
−
PN 16
−
−
10K
66
66
80
3"
PN 16
Cl 150
−
10K
79
79
100
4"
PN 16
Cl 150
−
10K
102
102
125
−
PN 16
−
−
10K
127
127
150
6"
PN 16
Cl 150
−
10K
156
156
200
8"
PN 10
Cl 150
−
10K
204
204
250
10"
PN 10
Cl 150
−
10K
258
258
300
12"
PN 10
Cl 150
−
10K
309
309
350
14"
PN 10
Cl 150
−
−
342
342
400
16"
PN 10
Cl 150
−
−
392
392
450
18"
PN 10
Cl 150
−
−
437
437
500
20"
PN 10
Cl 150
−
−
492
492
600
24"
PN 10
Cl 150
−
−
594
594
700
28"
PN 10
−
Class D
−
692
692
−
30"
−
−
Class D
−
742
742
800
32"
PN 10
−
Class D
−
794
794
900
36"
PN 10
−
Class D
−
891
891
1000
40"
PN 10
−
Class D
−
994
994
−
42"
−
−
Class D
−
1043
1043
1200
48"
PN 6
−
Class D
−
1197
1197
−
54"
−
−
Class D
−
1339
1339
1400
−
PN 6
−
−
−
1402
1402
−
60"
−
−
Class D
−
1492
1492
1600
−
PN 6
−
−
−
1600
1600
−
66"
−
−
Class D
−
1638
1638
1800
72"
PN 6
−
Class D
−
1786
1786
2000
78"
PN 6
−
Class D
−
1989
1989
Endress+Hauser
PROline Promag 50
10 Technical data
Promag P
Nominal diameter
Pressure rating
Inside diameter of
measuring tube
DIN
[mm]
ANSI
[inch]
DIN
[bar]
ANSI
[lbs]
JIS
with PFA
[mm]
with PTFE
[mm]
15
1/2"
PN 40
Cl 150
20K
−
15
25
1"
PN 40
Cl 150
20K
23
26
32
−
PN 40
−
20K
32
35
40
1 1/2"
PN 40
Cl 150
20K
36
41
50
2"
PN 40
Cl 150
10K
48
52
65
−
PN 16
−
10K
63
67
80
3"
PN 16
Cl 150
10K
75
80
100
4"
PN 16
Cl 150
10K
101
104
125
−
PN 16
−
10K
126
129
150
6"
PN 16
Cl 150
10K
154
156
200
8"
PN 10
Cl 150
10K
201
202
250
10"
PN 10
Cl 150
10K
−
256
300
12"
PN 10
Cl 150
10K
−
306
350
14"
PN 10
Cl 150
−
−
337
400
16"
PN 10
Cl 150
−
−
387
450
18"
PN 10
Cl 150
−
−
432
500
20"
PN 10
Cl 150
−
−
487
600
24"
PN 10
Cl 150
−
−
593
Promag H
Nominal diameter
Pressure ratings *
Inside diameter of
measuring tube **
DIN
[mm]
ANSI
[inch]
DIN
[bar]
PFA
2
1/12"
PN 16 / PN 40
2.25
4
5/32"
PN 16 / PN 40
4.5
8
5/16"
PN 16 / PN 40
9.0
15
1/2"
PN 16 / PN 40
16.0
–
1"
PN 16 / PN 40
22.6
25
–
PN 16 / PN 40
26.0
40
1 1/2"
PN 16 / PN 40
35.3
50
2"
PN 16 / PN 40
48.1
65
2 1/2"
PN 16 / PN 40
59.9
80
3"
PN 16 / PN 40
72.6
100
4"
PN 16 / PN 40
97.5
* The pressure rating depends on the process connections and the seals (see Page 110)
** Inside diameters of process connections → see Page 131 ff.
Endress+Hauser
119
10 Technical data
PROline Promag 50
Dimensions wall-mounted housing
Esc
+
E
90.5
250
-
159.5
10.3
90
135
215
81
102
53
Fig. 55:
120
192
F06-x0xxxxxx-06-03-xx-xx-000
11.5
95
81.5
53
8 x M5
81
45
11.5
Dimensions wall-mounted housing (for panel installation and pipe mounting → Page 44)
Endress+Hauser
PROline Promag 50
10 Technical data
10.4
Dimensions Promag 50 W
F06-50Fxxxxx-06-00-xx-xx-000
Promag W / DN ≤ 300 (compact version)
Fig. 56:
Dimensions Promag W / DN ≤ 300 (compact version)
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
25
1"
200
341
257
84
120
94
32
−
200
341
257
84
120
94
40
1 1/2"
200
341
257
84
120
94
50
2"
200
341
257
84
120
94
65
−
200
391
282
109
180
94
80
3"
200
391
282
109
180
94
100
4"
250
391
282
109
180
94
125
−
250
472
322
150
260
140
150
6"
300
472
322
150
260
140
200
8"
350
527
347
180
324
156
250
10"
450
577
372
205
400
156
300
12"
500
627
397
230
460
166
The fitting length (L) is always the same, regardless of the pressure rating.
Endress+Hauser
121
10 Technical data
PROline Promag 50
F06-xxFxxxxx-06-05-xx-xx-000
Promag W / DN ≤ 300 (remote version)
Fig. 57: Dimensions Promag W / DN ≤ 300 (remote version)
Dimensions wall-mounted housing → see Page 120
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
25
1"
200
286
202
84
120
94
32
−
200
286
202
84
120
94
40
1 1/2"
200
286
202
84
120
94
50
2"
200
286
202
84
120
94
65
−
200
336
227
109
180
94
80
3"
200
336
227
109
180
94
100
4"
250
336
227
109
180
94
125
−
250
417
267
150
260
140
150
6"
300
417
267
150
260
140
200
8"
350
472
292
180
324
156
250
10"
450
522
317
205
400
156
300
12"
500
572
342
230
460
166
The fitting length (L) is always the same, regardless of the pressure rating.
122
Endress+Hauser
PROline Promag 50
10 Technical data
F06-50Fxxxxx-06-00-xx-xx-001
Promag W / DN ≥ 350 (compact version)
Fig. 58:
Dimensions Promag W / DN ≥ 350 (compact version)
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
350
14"
550
738.5
456.5
282.0
564
276
400
16"
600
790.5
482.5
308.0
616
276
450
18"
650
840.5
507.5
333.0
666
292
500
20"
650
891.5
533.0
358.5
717
292
600
24"
780
995.5
585.0
410.5
821
402
700
28"
910
1198.5
686.5
512.0
1024
589
750
30"
975
1198.5
686.5
512.0
1024
626
800
32"
1040
1241.5
708.0
533.5
1067
647
900
36"
1170
1394.5
784.5
610.0
1220
785
1000
40"
1300
1546.5
860.5
686.0
1372
862
1050
42"
1365
1598.5
886.5
712.0
1424
912
1200
48"
1560
1796.5
985.5
811.0
1622
992
1350
54"
1755
1998.5
1086.5
912.0
1824
1252
1400
56"
1820
2148.5
1161.5
987.0
1974
1252
1500
60"
1950
2196.5
1185.5
1011.0
2022
1392
1600
64"
2080
2286.5
1230.5
1056.0
2112
1482
1650
66"
2145
2360.5
1267.5
1093.0
2186
1482
1800
72"
2340
2550.5
1362.5
1188.0
2376
1632
2000
78"
2600
2650.5
1412.5
1238.0
2476
1732
The fitting length (L) is always the same, regardless of the pressure rating.
Endress+Hauser
123
10 Technical data
PROline Promag 50
F06-xxFxxxxx-06-05-xx-xx-001
Promag W / DN ≥ 350 (remote version)
Fig. 59: Dimensions Promag W / DN ≥ 350 (remote version)
Dimensions wall-mounted housing → see Page 120
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
350
14"
550
683.5
401.5
282.0
564
276
400
16"
600
735.5
427.5
308.0
616
276
450
18"
650
785.5
452.5
333.0
666
292
500
20"
650
836.5
478.0
358.5
717
292
600
24"
780
940.5
530.0
410.5
821
402
700
28"
910
1143.5
631.5
512.0
1024
589
750
30"
975
1143.5
631.5
512.0
1024
626
800
32"
1040
1186.5
653.0
533.5
1067
647
900
36"
1170
1339.5
729.5
610.0
1220
785
1000
40"
1300
1491.5
805.5
686.0
1372
862
1050
42"
1365
1543.5
831.5
712.0
1424
912
1200
48"
1560
1741.5
930.5
811.0
1622
992
1350
54"
1755
1943.5
1031.5
912.0
1824
1252
1400
56"
1820
2093.5
1106.5
987.0
1974
1252
1500
60"
1950
2141.5
1130.5
1011.0
2022
1392
1600
64"
2080
2231.5
1175.5
1056.0
2112
1482
1650
66"
2145
2305.5
1212.5
1093.0
2186
1482
1800
72"
2340
2495.5
1307.5
1188.0
2376
1632
2000
78"
2600
2595.5
1357.5
1238.0
2476
1732
The fitting length (L) is always the same, regardless of the pressure rating.
124
Endress+Hauser
PROline Promag 50
10 Technical data
10.5
Dimensions Promag 50 P
F06-50Fxxxxx-06-00-xx-xx-000
Promag P / DN ≤ 300 (compact version)
Fig. 60:
Dimensions Promag P / DN ≤ 300 (compact version)
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
15
1/2"
200
341
257
84
120
94
25
1"
200
341
257
84
120
94
32
−
200
341
257
84
120
94
40
1 1/2"
200
341
257
84
120
94
50
2"
200
341
257
84
120
94
65
−
200
391
282
109
180
94
80
3"
200
391
282
109
180
94
100
4"
250
391
282
109
180
94
125
−
250
472
322
150
260
140
150
6"
300
472
322
150
260
140
200
8"
350
527
347
180
324
156
250
10"
450
577
372
205
400
156
300
12"
500
627
397
230
460
166
The fitting length (L) is always the same, regardless of the pressure rating.
Endress+Hauser
125
10 Technical data
PROline Promag 50
F06-xxFxxxxx-06-05-xx-xx-000
Promag P / DN ≤ 300 (remote version)
Fig. 61: Dimensions Promag P / DN ≤ 300 (remote version)
Dimensions wall-mounted housing → see Page 120
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
15
1/2"
200
286
202
84
120
94
25
1"
200
286
202
84
120
94
32
−
200
286
202
84
120
94
40
1 1/2"
200
286
202
84
120
94
50
2"
200
286
202
84
120
94
65
−
200
336
227
109
180
94
80
3"
200
336
227
109
180
94
100
4"
250
336
227
109
180
94
125
−
250
417
267
150
260
140
150
6"
300
417
267
150
260
140
200
8"
350
472
292
180
324
156
250
10"
450
522
317
205
400
156
300
12"
500
572
342
230
460
166
The fitting length (L) is always the same, regardless of the pressure rating.
126
Endress+Hauser
PROline Promag 50
10 Technical data
F06-5xPxxxxx-06-00-00-xx-000
A1
110
B1
Promag P / DN ≤ 300 / high-temperature version (compact version)
Abb. 62: Dimensions of high-temperature version (Promag P, DN ≤ 300, compact)
Dimensions A1, B1 = A, B of standard version plus 110 mm
F06-xxPxxxxx-06-05-00-xx-000
A1
110
B1
Promag P / DN ≤ 300 / high-temperature version (remote version)
Fig. 63: Dimensions of high-temperature version (Promag P, DN ≤ 300, remote)
Dimensions A1, B1 = A, B of standard version plus 110 mm
Endress+Hauser
127
10 Technical data
PROline Promag 50
F06-50Fxxxxx-06-00-xx-xx-001
Promag P / DN ≥ 350 (compact version)
Fig. 64:
Dimensions Promag P / DN ≥ 350 (compact version)
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
350
14"
550
738.5
456.5
282.0
564
276
400
16"
600
790.5
482.5
308.0
616
276
450
18"
650
840.5
507.5
333.0
666
292
500
20"
650
891.5
533.0
358.5
717
292
600
24"
780
995.5
585.0
410.5
821
402
The fitting length (L) is always the same, regardless of the pressure rating.
128
Endress+Hauser
PROline Promag 50
10 Technical data
F06-xxFxxxxx-06-05-xx-xx-001
Promag P / DN ≥ 350 (remote version)
Fig. 65: Dimensions Promag P / DN ≥ 350 (remote version)
Dimensions wall-mounted housing → see Page 120
DN
L
A
B
C
K
E
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
350
14"
550
683.5
401.5
282.0
564
276
400
16"
600
735.5
427.5
308.0
616
276
450
18"
650
785.5
452.5
333.0
666
292
500
20"
650
836.5
478.0
358.5
717
292
600
24"
780
940.5
530.0
410.5
821
402
The fitting length (L) is always the same, regardless of the pressure rating.
Endress+Hauser
129
10 Technical data
PROline Promag 50
10.6
Dimensions of ground disks (Promag W, P)
H
ØB
6.5
15
Ø
ØA
10
2
F06-xxxxxxxx-06-09-00-xx-001
ØD
Fig. 66:
Dimensions of ground disks (Promag W, P / DN 15…300)
DN 1)
A
B
D
H
DIN
[mm]
ANSI
[inch]
[mm]
[mm]
[mm]
[mm]
15
1/2"
19
43
61.5
73
25
1"
30
62
77.5
87.5
32
−
38.5
80
87.5
94.5
40
1 1/2"
44.5
82
101
103
50
2"
56.5
101
115.5
108
65
−
72.5
121
131.5
118
80
3"
85
131
154.5
135
100
4"
110
156
186.5
153
125
−
135
187
206.5
160
150
6"
163
217
256
184
200
8"
210.5
267
288
205
250
10"
265
328
359
240
300 2)
12" 2)
317
375
413
273
300 3)
12" 3)
317
375
404
268
1)
Ground disks can, with the exception of DN 300, be used for all flange norms / pressure ratings.
PN 10/16, Class 150
3)
PN 25, JIS 10K/20K
2)
130
Endress+Hauser
PROline Promag 50
10 Technical data
10.7
Dimensions Promag 50 H
F06-50Hxxxxx-06-00-xx-xx-001
Promag H / DN 2...25 (compact version)
Dimensions Promag H / DN 2...25 (compact version, aluminum field housing)
153
E
263
+
65
M
F06-50Hxxxxx-06-00-xx-xx-002
Esc
-
328
220
171
Fig. 67:
DI
L
K
Fig. 68:
Dimensions Promag H / DN 2...25 (compact version, stainless-steel field housing)
DN
PN **
DI
L
K
M
DIN
[mm]
ANSI
[inch]
DIN
[bar]
[mm]
[mm]
[mm]
[mm]
2
−
16/40
2.25
86
43
M 6x4
4
−
16/40
4.5
86
43
M 6x4
8
−
16/40
9.0
86
43
M 6x4
15
−
16/40
16.0
86
43
M 6x4
–
1"
16/40
22.6
86
53
M 6x4
25
−
16/40
26.0
86
53
M 6x4
Overall fitting length will depend on the process connections → Page 135 ff.
** The permissible nominal pressure depends on the process connection and seal:
– 40 bar: flange, welded nipples (with O-ring seal)
– 16 bar: all other process connections
Endress+Hauser
131
10 Technical data
PROline Promag 50
F06-5xHxxxxx-06-05-xx-xx-001
Promag H / DN 2...25 (remote version)
Fig. 69: Dimensions Promag H / DN 2...25 (remote version)
Dimensions wall-mounted housing → see Page 120
DN
PN *
DI
L
A
B
C
K
M
DIN
[mm]
ANSI
[inch]
DIN
[bar]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2
−
16/40
2.25
86
213
148
65
43
M 6x4
4
−
16/40
4.5
86
213
148
65
43
M 6x4
8
−
16/40
9.0
86
213
148
65
43
M 6x4
15
−
16/40
16.0
86
213
148
65
43
M 6x4
–
1"
16/40
22.6
86
213
148
65
53
M 6x4
26
−
16/40
26.0
86
213
148
65
53
M 6x4
Overall fitting length will depend on the process connections → Page 135 ff.
* The permissible nominal pressure depends on the process connection and seal:
– 40 bar: flange, welded nipples (with O-ring seal)
– 16 bar: all other process connections
Wall mounting set for Promag H / DN 2…25
D
A
C
F06-xxHxxxxx-06-07-06-xx-000
B
Fig. 70: Wall mounting set for Promag H / DN 2…25
A = 125 mm, B = 88 mm, C = 120 mm, D = Ø 7 mm
132
Endress+Hauser
PROline Promag 50
10 Technical data
F06-50Hxxxxx-06-00-xx-xx-000
Promag H / DN 40...100 (compact version)
Dimensions Promag H / DN 40...100 (compact version, aluminum field housing)
220
153
171
Fig. 71:
Esc
+
E
B
-
C
F06-50Hxxxxx-06-00-xx-xx-003
A
M
DI
K
Fig. 72:
L
Dimensions Promag H / DN 40...100 (compact version, stainless-steel field housing)
DN
PN
DI
L
A*
B*
C
K
M
DIN
[mm]
ANSI
[inch]
DIN
[bar]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
40
1 1/2"
16
35.3
140
319 (330)
255 (266)
64
128
M 6x4
50
2"
16
48.1
140
344 (355)
267 (278)
77
153
M 8x4
65
2 1/2"
16
59.9
140
344 (355)
267 (278)
77
153
M 8x4
80
3"
16
72.6
200
394 (405)
292 (303)
102
203
M 12x4
100
4"
16
97.5
200
394 (405)
292 (303)
102
203
M 12x4
Overall fitting length will depend on the process connections → Page 143 ff.
* () = Dimensions stainless steel field housing
Endress+Hauser
133
10 Technical data
PROline Promag 50
F06-xxHxxxxx-06-05-xx-xx-000
Promag H / DN 40...100 (remote version)
Fig. 73: Dimensions Promag H / DN 40...100 (remote version)
Dimensions wall-mounted housing → see Page 120
DN
PN
DI
L
A
B
C
K
M
DIN
[mm]
ANSI
[inch]
DIN
[bar]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
40
1 1/2"
16
35.3
140
216
151.5
64.5
129
M 6x4
50
2"
16
48.1
140
241
164.0
77.0
154
M 8x4
65
2 1/2"
16
59.9
140
241
164.0
77.0
154
M 8x4
80
3"
16
72.6
200
290
188.5
101.5
203
M 12x4
100
4"
16
97.5
200
290
188.5
101.5
203
M 12x4
Fitting length depends on process connections → Page 143 ff.
134
Endress+Hauser
PROline Promag 50
10 Technical data
10.8
Process connections Promag H (DN 2...25)
Front view of sensor Promag H / DN 2...25 (without process connections)
DN 2...15
A-A
B
B-B
4
D
0
Ø 44-0.1
70
48.5
±0.1
±0.1
=
=
A
±0.1
±0.1
= =
6
Endress+Hauser
B
= ±0.1 = ±0.1
6
28
8.5
8.5
24
Fig. 74:
M6
M6
C
0
Ø 34-0.1
60
41.6
=±0.1 = ±0.1
4
42
52
43
53
F06-5xHxxxxx-06-05-08-xx-000
A
DN 25
Dimensions front view of sensor DN 2…25
DN
C
[mm]
D (DIN)
[mm]
D (ANSI)
[mm]
2…8
9
–
–
15
16
–
–
25
–
26
22.6
135
10 Technical data
PROline Promag 50
Process connections with O-ring seals (DN 2…25)
F06-xxHxxxxx-06-09-07-xx-010
Weld nipples for ISO 2463 pipe
1.4404 / 316L
5*H**-B***********
F06-xxHxxxxx-06-09-07-xx-012
Weld nipples for IPS pipe
1.4404 / 316L
5*H**-C***********
F06-xxHxxxxx-06-09-07-xx-014
Flange PN 40 / DIN 2635
1.4404 / 316L
5*H**-D***********
F06-xxHxxxxx-06-09-07-xx-015
Flange CI 150 / ANSI 16.5
1.4404 / 316L
5*H**-E***********
136
Sensor
Pipe
di
G
L
HxB
DN [mm]
Tube
[mm]
[mm]
[mm]
[mm]
2…8
13.5 x 1.6
10.3
13.5
20.3
60 x 42
15
21.3 x 1.6
18.1
21.3
20.3
60 x 42
25 (DIN)
33.7 x 2
29.7
33.7
20.3
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Pipe
di
G
L
HxB
DN [mm]
Tube (ODT / SMS)
[mm]
[mm]
[mm]
[mm]
2…8
13.5 x 2.3
9.0
13.5
20.3
60 x 42
15
21.3 x 2.65
16.0
21.3
20.3
60 x 42
1" (25 ANSI)
33.7 x 3.25
27.2
33.7
22.3
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Pipe
di
G
L
LK
M
HxB
DN [mm]
Flange
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
DN 10
13.6
90
56.2
60
14
60 x 42
15
DN 15
17.3
95
56.2
65
14
60 x 42
25 (DIN)
DN 25
28.5
115
56.2
85
14
70 x 52
Fitting length = (2 x L) + 86 mm
Fitting length to DVGW (200 mm)
Sensor
Pipe
di
G
L
LK
M
HxB
DN [mm]
Flange [inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
1/2"
15.7
89
66.0
60.5
15.7
60 x 42
15
1/2"
16.0
89
66.0
60.5
15.7
60 x 42
1" (25 ANSI)
1"
26.7
108
71.8
79.2
15.7
70 x 52
Fitting length = (2 x L) + 86 mm
Endress+Hauser
PROline Promag 50
10 Technical data
F06-xxHxxxxx-06-09-07-xx-016
Flange 20 K / JIS B2238
1.4404 / 316L
5*H**-F***********
F06-xxHxxxxx-06-09-07-xx-029
Flange PN 16 / DIN 2501
PVDF
5*H**-G***********
F06-xxHxxxxx-06-09-07-xx-029
Flange CI 150 / ANSI 16.5
PVDF
5*H**-H***********
F06-xxHxxxxx-06-09-07-xx-029
Flange 10 K / JIS B2238
PVDF
5*H**-J***********
Endress+Hauser
Sensor
Pipe
di
G
L
LK
M
HxB
DN [mm]
Flange
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
ND 10
10
90
67
65
15
60 x 42
15
ND 15
16
95
67
70
15
60 x 42
25 (DIN)
ND 25
26
125
67
95
19
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Pipe
di
G
L
M
LK
HxB
DN [mm]
Flange
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
DN 15
15.7
95
57
14
65
60 x 42
15
DN 15
15.7
95
57
14
65
60 x 42
25 (DIN)
DN 25
27.3
115
57
14
85
70 x 52
– Fitting length = (2 x L) + 86 mm
– Fitting length to DVGW (200 mm)
– The requisite ground rings can be ordered as accessories (Order No. DK5HR-****)
Sensor
Pipe
di
G
L
M
LK
HxB
DN [mm]
Flange
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
1/2"
15.7
95
57
16
60
60 x 42
15
1/2"
15.7
95
57
16
60
60 x 42
1" (25 ANSI)
1"
27.3
115
57
16
79
70 x 52
– Fitting length = (2 x L) + 86 mm
– The requisite ground rings can be ordered as accessories (Order No. DK5HR-****)
Sensor
Pipe
di
G
L
M
LK
HxB
DN [mm]
Flange
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
ND 15
15.7
95
57
15
70
60 x 42
15
ND 15
15.7
95
57
15
70
60 x 42
25 (DIN)
ND 25
27.3
125
57
19
90
70 x 52
– Fitting length = (2 x L) + 86 mm
– The requisite ground rings can be ordered as accessories (Order No. DK5HR-****)
137
10 Technical data
PROline Promag 50
External pipe thread ISO 228 /
DIN 2999, 1.4404 / 316L
5*H**-K***********
L
F06-xxHxxxxx-06-09-07-xx-025
HxB
di
G
S
Internal pipe thread ISO 228 /
DIN 2999, 1.4404 / 316L
5*H**-L***********
L
F06-xxHxxxxx-06-09-07-xx-027
HxB
di
G
D
S
F06-xxHxxxxx-06-09-07-xx-024
Hose connection
1.4404 / 316L
5*H**-M/N/P***********
F06-xxHxxxxx-06-09-07-xx-028
Adhesive fitting
PVC
5*H**-R/S***********
138
Sensor
Pipe
di
G
L
S
HxB
DN [mm]
Internal thread
[inch]
[mm]
[inch]
[mm]
[mm]
[mm]
2…8
R 3/8"
10
3/8"
40
10.1
60 x 42
15
R 1/2"
16
1/2"
40
13.2
60 x 42
1" (25 ANSI)
R 1"
25
1"
40
16.5
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Pipe
di
G
D
L
S
HxB
DN [mm]
External thread
[inch]
[mm]
[inch]
[mm]
[mm]
[mm]
[mm]
2…8
Rp 3/8"
8.9
3/8"
22
45
13
60 x 42
15
Rp 1/2"
16.0
1/2"
27
45
14
60 x 42
1" (25 ANSI)
Rp 1"
27.2
1"
40
49
17
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Hose
di
LW
L
HxB
DN [mm]
Inside diameter
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
13
10.0
13
49
60 x 42
15
16
12.6
16
49
60 x 42
15
19
16.0
19
49
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Pipe
di
G
L
HxB
DN [mm]
Glued joint [inch]
[mm]
[mm]
[mm]
[mm]
2…8
1/2"
21.5
27.3
28.0
60 x 42
15
20 x 2
20.2
27.0
38.5
60 x 42
– Fitting length = (2 x L) + 86 mm
– The requisite ground rings can be ordered as accessories (Order No. DK5HR-****)
Endress+Hauser
PROline Promag 50
10 Technical data
Process connections with aseptic gasket seal (DN 2…25 )
F06-xxHxxxxx-06-09-07-xx-011
Weld nipple for DIN 11850 pipe
1.4404 / 316L
5*H**-U***********
F06-xxHxxxxx-06-09-07-xx-013
Weld nipples for ODT/SMS pipe
1.4404 / 316L
5*H**-V***********
F06-xxHxxxxx-06-09-07-xx-023
Clamp ISO 2852
1.4404 / 316L
5*H**-W***********
F06-xxHxxxxx-06-09-07-xx-019
Clamp DIN 32676
1.4404 / 316L
5*H**-0***********
Endress+Hauser
Sensor
Pipe
di
G
L
HxB
DN [mm]
Tube
[mm]
[mm]
[mm]
[mm]
2…8
14 x 2
10
14
23.3
60 x 42
15
20 x 2
16
20
23.3
60 x 42
25 (DIN)
30 x 2
26
30
23.3
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Sensor
Pipe
di
G
L
HxB
DN [mm]
Tube
[mm]
[mm]
[mm]
[mm]
2…8
12.7 x 1.65
9.4
12.7
16.1
60 x 42
15
19.1 x 1.65
15.8
19.1
16.1
60 x 42
1" (25 ANSI)
24.5 x 1.65
22.1
25.4
16.1
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Sensor
Pipe
di
G
L
HxB
DN [inch]
Clamp
[mm]
[mm]
[mm]
[mm]
1" (25 ANSI)
Tube 25.4 x 1.65
(ISO; 1")
22.6
50.5
44.5
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Sensor
Pipe
di
G
L
HxB
DN [mm]
Clamp
[mm]
[mm]
[mm]
[mm]
2…8
Tube 14 x 2
(DIN 11850; DN 10)
10
34.0
41.0
60 x 42
15
Tube 20 x 2
(DIN 11850; DN 15)
16
34.0
41.0
60 x 42
25 (DIN)
Tube 30 x 2
(DIN 11850; DN 25)
26
50.5
44.5
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
139
10 Technical data
PROline Promag 50
F06-xxHxxxxx-06-09-07-xx-020
Tri-clamp
1.4404 / 316L
5*H**-1***********
F06-xxHxxxxx-06-09-07-xx-017
Coupling DIN 11851
1.4404 / 316L
5*H**-2***********
F06-xxHxxxxx-06-09-07-xx-021
Coupling DIN 11864-1
1.4404 / 316L
5*H**-3***********
F06-xxHxxxxx-06-09-07-xx-022
Flange DIN 11864-2 Form A
1.4404 / 316L
5*H**-4***********
140
Sensor
Pipe
di
G
L
HxB
DN [mm]
Tri-Clamp
[mm]
[mm]
[mm]
[mm]
2…8
Tube 12.7 x 1.65
(ODT 1/2")
9.4
25.0
28.5
60 x 42
15
Tube 19.1 x 1.65
(ODT 3/4")
15.8
25.0
28.5
60 x 42
1" (25 ANSI)
Tube 24.5 x 1.65
(ODT 1")
22.1
50.4
28.5
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Sensor
Pipe
di
G
L
HxB
DN [mm]
Coupling
[mm]
[mm]
[mm]
[mm]
2…8
Tube 12 x 1
(DN 10)
10
Rd 28 x 1/8"
44
60 x 42
15
Tube 18 x 1 or 1.5
(DN 15)
16
Rd 34 x 1/8"
44
60 x 42
25 (DIN)
Tube 28 x 1 or 1.5
(DN 25)
26
Rd 52 x 1/6"
52
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Sensor
Pipe
di
G
L
HxB
DN [mm]
Coupling
[mm]
[mm]
[mm]
[mm]
2…8
Tube 13 x 1.5
(DIN 11850; DN 10)
10
Rd 28 x 1/8"
42
60 x 42
15
Tune 19 x 1.5
(DIN 11850; DN 15)
16
Rd 34 x 1/8"
42
60 x 42
25 (DIN)
Tube 29 x 1.5
(DIN 11850; DN 25)
26
Rd 52 x 1/6"
49
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Sensor
Pipe
di
G
L
LK
M
HxB
DN [mm]
Flange
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
2…8
Tube 13 x 1.5
(DIN 11850; DN 10)
10
54
48.5
37
9
60 x 42
15
Tube 19 x 1.5
(DIN 11850; DN 15)
16
59
48.5
42
9
60 x 42
25 (DIN)
Tube 29 x 1.5
(DIN 11850; DN 25)
26
70
48.5
53
9
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Endress+Hauser
PROline Promag 50
10 Technical data
F06-xxHxxxxx-06-09-07-xx-026
Coupling SMS 1145
1.4404 / 316L
5*H**-5***********
Sensor
Pipe
di
G
L
HxB
DN [mm]
Coupling [inch]
[mm]
[mm]
[mm]
[mm]
1" (25 ANSI)
1"
22.1
Rd 40 x 1/6"
30.8
70 x 52
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Process connections orderable only as accessories (with O-ring seal, DN 2…25)
External pipe thread NPT
1.4404 / 316L
DKH**-GD**
L
F06-xxHxxxxx-06-09-07-xx-025
HxB
di
G
S
Internal pipe thread NPT
1.4404 / 316L
DKH**-GC**
L
Endress+Hauser
F06-xxHxxxxx-06-09-07-xx-027
HxB
di
G
D
S
Sensor
Pipe
di
G
L
S
HxB
DN [mm]
Internal thread
[inch]
[mm]
[inch]
[mm]
[mm]
[mm]
2…8
NPT 3/8"
10
3/8"
50
15.5
60 x 42
15
NPT 1/2"
16
1/2"
50
20.0
60 x 42
1" (25 ANSI)
NPT 1"
25
1"
55
25.0
70 x 52
Fitting length = (2 x L) + 86 mm
Sensor
Pipe
di
G
D
L
S
HxB
DN [mm]
External thread
[inch]
[mm]
[inch]
[mm]
[mm]
[mm]
[mm]
2…8
NPT 3/8"
8.9
3/8"
22
45
13
60 x 42
15
NPT 1/2"
16.0
1/2"
27
45
14
60 x 42
1" (25 ANSI)
NPT 1"
27.2
1"
40
49
17
70 x 52
Fitting length = (2 x L) + 86 mm
141
10 Technical data
PROline Promag 50
Process connections orderable only as accessories (with aseptic gasket seal)
F06-xxHxxxxx-06-09-07-xx-018
Tri-Clamp
1.4404 / 316L
DKH**-HF***
Sensor
Pipe
di
G
L
HxB
DN [mm]
Tri-Clamp
[mm]
[mm]
[mm]
[mm]
15
Tube 25.4 x 1.5
(ODT; 1")
22.1
50.4
28.5
60 x 42
– Fitting length = (2 x L) + 86 mm
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 131)
and process connection (di) into account.
Ground rings (accessories for PVDF flanges / PVC adhesive fitting)
di
D
B
C
DN [mm]
[mm]
[mm]
[mm]
[mm]
2…8
9.0
33.9
22.0
17.6
15
16.0
33.9
29.0
24.6
25 (DIN)
22.6
43.9
36.5
31.2
1" (25 ANSI)
26.0
43.9
39.0
34.6
3.5
1.9
3.4
4.5
F06-xxHxxxxx-06-09-07-xx-030
ØB
ØC
0.5
142
Sensor
Ø di
ØD
Ground ring
1.4435/316L, Alloy C-22,
titanium (Pt/Rh coated)
DK5HR – ****
Endress+Hauser
PROline Promag 50
10 Technical data
10.9
Process connections Promag H (DN 40...100)
Front view Promag H / DN 40...100 (without process connection)
K
L
Z-Z
F
60
°
±0
.5 °
F06-5xHxxxxx-06-05-08-xx-001
E
D
C
B
A
90° ±0.5°
Z
Z
G
H
Fig. 75:
Endress+Hauser
Dimensions front view of sensor DN 40…100
DN
A
B
C
D
E
F
G
H
L
K
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
40
122.0
86
71.0
51.0
35.3
M8
15
18
–
4
50
147.0
99
83.5
63.5
48.1
M8
15
18
–
4
65
147.0
115
100.0
76.1
59.9
M8
15
18
6
–
80
197.0
141
121.0
88.9
72.6
M 12
15
20
–
4
100
197.0
162
141.5
114.3
97.5
M 12
15
20
6
–
Threaded holes
143
10 Technical data
PROline Promag 50
Process connections with gasket seal (DN 40…100)
F06-xxHxxxxx-06-09-07-xx-002
Weld nipples for DIN 11850 pipe
1.4404 / 316L
5*H**-U***********
F06-xxHxxxxx-06-09-07-xx-002
Weld nipples for ODT pipe
1.4404 / 316L
5*H**-V***********
F06-xxHxxxxx-06-09-07-xx-005
Clamp ISO 2852
1.4404 / 316L
5*H**-W***********
F06-xxHxxxxx-06-09-07-xx-008
Clamp DIN 32676
1.4404 / 316L
5*H**-0***********
144
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
L1
[mm]
LK
[mm]
40
38.0
43
92
42
19
71.0
50
50.0
55
105
42
19
83.5
65
66.0
72
121
42
21
100.0
80
81.0
87
147
42
24
121.0
100
100.0
106
168
42
24
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
L1
[mm]
LK
[mm]
40
35.3
40
92
42
19
71.0
50
48.1
55
105
42
19
83.5
65
59.9
66
121
42
21
100.0
80
72.6
79
147
42
24
121.0
100
97.5
104
168
42
24
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK
[mm]
40
35.6
50.5
92
68.5
71.0
50
48.6
64.0
105
68.5
83.5
65
60.3
77.5
121
68.5
100.0
80
72.9
91.0
147
68.5
121.0
100
97.6
119.0
168
68.5
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK
[mm]
40
38
50.5
92
61.5
71.0
50
50
64.0
105
61.5
83.5
65
66
91.0
121
68.0
100.0
80
81
106.0
147
68.0
121.0
100
100
119.0
168
68.0
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
Endress+Hauser
PROline Promag 50
10 Technical data
DN
F06-xxHxxxxx-06-09-07-xx-004
Tri-Clamp
1.4404 / 316L
5*H**-1***********
F06-xxHxxxxx-06-09-07-xx-001
Coupling DIN 11851
1.4404 / 316L
5*H**-2***********
F06-xxHxxxxx-06-09-07-xx-006
Coupling DIN 11864-1 Form A
1.4404 / 316L
5*H**-3***********
F06-xxHxxxxx-06-09-07-xx-007
Flange DIN 11864-2 Form A
1.4404/316L
5*H**-4***********
Endress+Hauser
di
G
D
L
LK
[mm]
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
40
1 1/2"
34.8
50.4
92
68.6
71.0
50
2"
47.5
63.9
105
68.6
83.5
65
−
60.2
77.4
121
68.6
100.0
80
3"
72.9
90.9
147
68.6
121.0
100
4"
97.4
118.9
168
68.6
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK
[mm]
40
38
Rd 65 x 1/6"
92
72
71.0
50
50
Rd 78 x 1/6"
105
74
83.5
65
66
Rd 95 x 1/6"
121
78
100.0
80
81
Rd 110 x 1/4"
147
83
121.0
100
100
Rd 130 x 1/4"
168
92
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK
[mm]
40
38
Rd 65 x 1/6"
92
71
71.0
50
50
Rd 78 x 1/6"
105
71
83.5
65
66
Rd 95 x 1/6"
121
76
100.0
80
81
Rd 110 x 1/4"
147
82
121.0
100
100
Rd 130 x 1/4"
168
90
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK1
[mm]
LK2
[mm]
40
38
82
92
64
71.0
65
50
50
94
105
64
83.5
77
65
66
113
121
64
100.0
95
80
81
133
147
98
121.0
112
100
100
159
168
98
141.5
137
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
145
10 Technical data
PROline Promag 50
F06-xxHxxxxx-06-09-07-xx-000
Coupling SMS 1145
1.4404 / 316L
5*H**-5***********
F06-xxHxxxxx-06-09-07-xx-003
Coupling ISO 2853
1.4404 / 316L
5*H**-6***********
146
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK
[mm]
40
35.5
Rd 60 x 1/6"
92
63
71.0
50
48.5
Rd 70 x 1/6"
105
65
83.5
65
60.5
Rd 85 x 1/6"
121
70
100.0
80
72.0
Rd 98 x 1/6"
147
75
121.0
100
97.6
Rd 132 x 1/6"
168
70
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
DN
[mm]
di
[mm]
G
[mm]
D
[mm]
L
[mm]
LK
[mm]
40
35.6
50.6
92
61.5
71.0
50
48.6
64.1
105
61.5
83.5
65
60.3
77.6
121
61.5
100.0
80
72.9
91.1
147
61.5
121.0
100
97.6
118.1
168
61.5
141.5
– Fitting length = (2 x L) + 140 mm (DN 40…65) / + 200 mm (DN 80…100)
– If pigs are used for cleaning, it is essential to take the inside diameters of measuring tube (Page 133)
and process connection (di) into account.
Endress+Hauser
PROline Promag 50
Index
Index
A
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85
Adapters (installation of sensors) . . . . . . . . . . . . . . 20
Ambient temperature . . . . . . . . . . . . . . . . . . . . . . . 108
Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Applicator™ (selection and configuration software) 86
Auxiliary input
see Status input
B
Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . 96, 98, 100
C
Cable entries
degree of protection . . . . . . . . . . . . . . . . . . . . . . 59
technical data . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Cable specifications (remote version)
cable length, conductivity . . . . . . . . . . . . . . . . . . 25
Cable termination of Promag H . . . . . . . . . . . . . 50
Cable termination Promag W, P . . . . . . . . . . . . . 49
technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
Calibration factor (default) . . . . . . . . . . . . . . . . . . . . 10
Cathode protection . . . . . . . . . . . . . . . . . . . . . . . . . 58
CE mark (declaration of conformity) . . . . . . . . . . . . 10
CIP cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Cleaning
CIP /SIP cleaning . . . . . . . . . . . . . . . . . . . . . . . 108
exterior cleaning . . . . . . . . . . . . . . . . . . . . . . . . . 83
Code entry (function matrix) . . . . . . . . . . . . . . . . . . 63
Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . 79
Commissioning Quick Setup menu . . . . . . . . . . 80
configure current output (active/passive) . . . . . . 82
empty pipe and full pipe calibration (EPD/OED) 81
Commubox FXA 191, electrical connection . . . . . . . 55
Communication (HART) . . . . . . . . . . . . . . . . . . . . . . 65
Conditions for operation . . . . . . . . . . . . . . . . . . . . . 108
Conductivity of fluid, minimum . . . . . . . . . . . . . . . . 110
Connection
see Electrical connection
Current output
configuration (active/passive) . . . . . . . . . . . . . . . 82
electrical connection . . . . . . . . . . . . . . . . . . . . . . 54
technical data . . . . . . . . . . . . . . . . . . . . . . . . . . 106
D
Data storage (S-DAT) . . . . . . . . . . . . . . . . . . . . . 82, 96
Declaration of conformity (CE mark) . . . . . . . . . . . . 10
Declaration of contamination . . . . . . . . . . . . . . . . . . . 8
Degree of protection . . . . . . . . . . . . . . . . . . . . . . . 108
Designated use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Device designation . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Device functions
see “Description of Device Functions” manual
Device fuse, replacing . . . . . . . . . . . . . . . . . . . . . . 101
Dimensions
ground disks (Promag P, W) . . . . . . . . . . . . . . . 130
Endress+Hauser
ground rings (Promag H) . . . . . . . . . . . . . . . . . . 142
process connections, Promag H (DN 2...25) . . . 135
process connections, Promag H (DN 40...100) . 143
Promag 50 H (DN 2...25) . . . . . . . . . . . . . . . . . . 131
Promag 50 H (DN 40...100) . . . . . . . . . . . . . . . . 133
Promag 50 P (DN ≤ 300) . . . . . . . . . . . . . . . . . . 125
Promag 50 P (DN ≥ 350) . . . . . . . . . . . . . . . . . . 128
Promag 50 W (DN ≤ 300) . . . . . . . . . . . . . . . . . . 121
Promag 50 W (DN ≥ 350) . . . . . . . . . . . . . . . . . . 123
wall-mounted housing . . . . . . . . . . . . . . . . . . . . 120
Display
display and operating elements . . . . . . . . . . . . . 61
turning the display . . . . . . . . . . . . . . . . . . . . . . . . 42
Documentation for hazardous areas (Ex) . . . . . . . . . . 7
Down pipes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
E
Electrical connection
cable specifications (remote version) . . . . . . . . . 51
Commubox FXA 191 . . . . . . . . . . . . . . . . . . . . . . 55
degree of protection . . . . . . . . . . . . . . . . . . . . . . 59
HART handheld communicator . . . . . . . . . . . . . . 55
length of connecting cable . . . . . . . . . . . . . . . . . 25
post-connection check (checklist) . . . . . . . . . . . . 60
potential equalisation . . . . . . . . . . . . . . . . . . . . . . 56
remote version (connecting cable) . . . . . . . . . . . 47
terminal assignment, transmitter . . . . . . . . . . . . . 54
transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
Electrode Cleaning Circuitry
see “Description of Device Functions” manual
Electrodes
EPD electrode . . . . . . . . . . . . . . . . . . . . . . . 17, 81
exchanging replaceable electrodes . . . . . . . . . 102
fitted electrodes . . . . . . . . . . . . . . . . . . . . . . . . . 115
measuring electrode plane . . . . . . . . . . . . . . . . . 17
reference electrode (potential equalisation) . . . . 56
Electromagnetic compatibility (EMC) . . . . . . . 51, 108
Electronics board . . . . . . . . . . . . . . . . . . . 96, 98, 100
Empty Pipe Detection (EPD/OED)
empty pipe/full pipe calibration . . . . . . . . . . . . . . 81
EPD electrode . . . . . . . . . . . . . . . . . . . . . . . 17, 81
general . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Error limits
see Measuring accuracy
Error messages
display mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
error message types . . . . . . . . . . . . . . . . . . . . . . 64
process errors (application errors) . . . . . . . . . . . 93
system errors (device errors) . . . . . . . . . . . . . . . . 88
Error response of outputs / totalizers . . . . . . . . . . . . 94
Error types (system and process errors) . . . . . . . . . 64
Ex certification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 116
Ex documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Exchange
device fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
measuring electrodes . . . . . . . . . . . . . . . . . . . . 102
147
Index
printed circuit boards . . . . . . . . . . . . . . . . . . . . . 97
F
Failsafe mode (failure response) . . . . . . . . . . . . . . . 94
FieldCheck ™ (test and simulation software) . . . . . . 86
FieldTool ™ (configuration and service software) . . 86
Fitting lengths
see dimensions
Flow rate / nominal diameter . . . . . . . . . . . . . . . . . . 20
Fluid conductivity, minimum . . . . . . . . . . . . . . . . . . . 25
Fluid pressure range . . . . . . . . . . . . . . . . . . . . . . . 110
Fluid temperature ranges . . . . . . . . . . . . . . . . . . . . 109
Foundations (for sensors with DN > 300) . . . . . . . . 19
Frequency output
electrical connection . . . . . . . . . . . . . . . . . . . . . . 54
technical data . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Function descriptions
see “Description of Device Functions” manual
Function matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
Functions, function groups . . . . . . . . . . . . . . . . . . . . 62
Fuse, replacing . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
PROline Promag 50
vibrations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing sensor
adapters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
foundations (DN > 300) . . . . . . . . . . . . . . . . . . .
ground disks (Promag P) . . . . . . . . . . . . . . . . . .
ground disks (Promag W) . . . . . . . . . . . . . . . . .
ground rings (Promag H) . . . . . . . . . . . . . . . . . .
Promag H . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Promag H with weld nipples . . . . . . . . . . . . . . .
Promag P . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Promag P, high-temperature version . . . . . . . . .
Promag W . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing the wall-mount housing . . . . . . . . . . . . . .
Insulation of pipes (Promag P) . . . . . . . . . . . . . . . .
18
20
19
33
27
39
38
40
32
34
26
43
34
L
Limiting flow
see Measuring range . . . . . . . . . . . . . . . . . . . . 111
Local display
see Display
Low flow cutoff . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
G
M
Galvanic isolation . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Ground cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
Ground disks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
mounting (Promag P) . . . . . . . . . . . . . . . . . . . . . 33
mounting (Promag W) . . . . . . . . . . . . . . . . . . . . . 27
potential equalisation . . . . . . . . . . . . . . . . . . . . . 58
Ground rings (Promag H)
mounting, application area . . . . . . . . . . . . . . . . . 39
potential equalisation . . . . . . . . . . . . . . . . . . . . . 56
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83
Material load curves . . . . . . . . . . . . . . . . . . . . . . . 115
Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114
Measured variable . . . . . . . . . . . . . . . . . . . . . . . . 105
Measuring accuracy
deviation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107
reference conditions . . . . . . . . . . . . . . . . . . . . 107
repeatability . . . . . . . . . . . . . . . . . . . . . . . . . . . 107
Measuring electrodes
see electrodes
Measuring principle . . . . . . . . . . . . . . . . . . . . . . . 105
Measuring range . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Measuring system . . . . . . . . . . . . . . . . . . . . . . . . . 105
Measuring tube
inside diameter . . . . . . . . . . . . . . . . . . . . . . . . . 118
lining, resistance to partial vacuum . . . . . . . . . 111
lining, temperature range . . . . . . . . . . . . . . . . . 109
Medium
see Fluid ...
H
HART
command groups . . . . . . . . . . . . . . . . . . . . . . . . 65
electrical connection . . . . . . . . . . . . . . . . . . . . . . 55
handheld communicator . . . . . . . . . . . . . . . . . . . 65
Hazardous substances . . . . . . . . . . . . . . . . . . . . . . . 8
High-temperature version (Promag P)
installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
temperature ranges . . . . . . . . . . . . . . . . . . . . . 109
HOME position (operating mode) . . . . . . . . . . . . . . 61
I
Incoming acceptance . . . . . . . . . . . . . . . . . . . . . . . 13
Inlet runs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Input signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Input variables . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Installation check (checklist) . . . . . . . . . . . . . . . . . . 45
Installation conditions
adapters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
down pipes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
foundations (DN > 300) . . . . . . . . . . . . . . . . . . . 19
inlet and outlet runs . . . . . . . . . . . . . . . . . . . . . . . 18
installation of pumps . . . . . . . . . . . . . . . . . . . . . . 15
location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
orientation (vertical, horizontal) . . . . . . . . . . . . . . 17
partially filled pipes, drains . . . . . . . . . . . . . . . . . 16
148
N
Nameplate
sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Nominal diameter / flow rate . . . . . . . . . . . . . . . . . . 20
Nominal pressure
see Fluid pressure range
O
Operable flow range . . . . . . . . . . . . . . . . . . . . . . . 105
Operating conditions . . . . . . . . . . . . . . . . . . . . . . . 108
Operation
display and operating elements . . . . . . . . . . . . . 61
FieldtooI™ (configuration and service software) 65
function matrix . . . . . . . . . . . . . . . . . . . . . . . . . . 62
HART commands . . . . . . . . . . . . . . . . . . . . . . . . 67
HART handheld communicator . . . . . . . . . . . . . 65
Endress+Hauser
PROline Promag 50
Ordering code
accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85
sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Ordering information . . . . . . . . . . . . . . . . . . . . . . . 117
Outlet runs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Output signal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Output variables . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Outputs, response to errors . . . . . . . . . . . . . . . . . . . 94
P
Partial vacuum, lining . . . . . . . . . . . . . . . . . . . . . . . 111
Performance characteristics
see Measuring accuracy
Positive zero return . . . . . . . . . . . . . . . . . . . . . . . . . 94
Potential equalisation . . . . . . . . . . . . . . . . . . . . . . . . 56
Power consumption . . . . . . . . . . . . . . . . . . . . . . . . 107
Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Power supply failure . . . . . . . . . . . . . . . . . . . . . . . . 107
Pressure loss
adapters (reducers, expanders) . . . . . . . . . . . . . 20
general information . . . . . . . . . . . . . . . . . . . . . . 111
resistance to partial vacuum, lining . . . . . . . . . 111
Printed circuit boards, removing and installing . . . . 97
Process connections . . . . . . . . . . . . . . . . . . . . . . . 116
Process error . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
error messages . . . . . . . . . . . . . . . . . . . . . . . . . . 92
process errors without message . . . . . . . . . . . . 93
Programming mode
disable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
Pumps, location . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Index
see Installing sensor
Serial number . . . . . . . . . . . . . . . . . . . . . . . . . . . 9, 10
Shock resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Signal on alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
SIP cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Software
amplifier display . . . . . . . . . . . . . . . . . . . . . . . . . . 79
versions (history) . . . . . . . . . . . . . . . . . . . . . . . . 104
Spare parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Status input
electrical connection . . . . . . . . . . . . . . . . . . . . . . 54
technical data . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Status output
electrical connection . . . . . . . . . . . . . . . . . . . . . . 54
technical data . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Switching output . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
System error . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
definition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
error messages . . . . . . . . . . . . . . . . . . . . . . . . . . 88
T
Quick Setup menu for “Commissioning” . . . . . . . . . 80
Technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105
Temperature ranges
ambient temperature . . . . . . . . . . . . . . . . . . . . . 108
fluid temperature . . . . . . . . . . . . . . . . . . . . . . . . 109
storage temperature . . . . . . . . . . . . . . . . . . . . . 108
Transmitter
electrical connection . . . . . . . . . . . . . . . . . . . . . . 52
installing the wall-mount housing . . . . . . . . . . . . . 43
length of connecting cable (remote version) . . . . 25
turning the field housing (aluminum) . . . . . . . . . . 41
turning the field housing (stainless steel) . . . . . . 41
Transporting the sensor . . . . . . . . . . . . . . . . . . . . . . 13
Trouble-shooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
R
V
Registered trademarks . . . . . . . . . . . . . . . . . . . . . . 11
Repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Repeatability (measuring accuracy) . . . . . . . . . . . 107
Returning devices . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Vibrations
measures to prevent vibrations . . . . . . . . . . . . . . 18
shock resistance . . . . . . . . . . . . . . . . . . . . . . . . 108
Q
S
Safety icons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Safety instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Safety of operation . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Safety regulation form (e.g. for repairs)
see Declaration of contamination
Sanitary compatibility . . . . . . . . . . . . . . . . . . . . . . . 116
Screw tightening torques
for Promag H (with plastic process connections) 38
for Promag P . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
for Promag W . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
S-DAT™ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Seals
Promag H . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Promag P . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Promag W . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
temperature ranges (Promag H) . . . . . . . . . . . . 110
Sensor installation
Endress+Hauser
W
Wall-mount housing, installing . . . . . . . . . . . . . . . . . 43
Weights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 112
Welding work
grounding welding equipment . . . . . . . . . . . . . . . 40
Promag H with weld nipples . . . . . . . . . . . . . . . . 40
Wiring
see Electrical connection
149
Index
150
PROline Promag 50
Endress+Hauser
'HFODUDWLRQRIFRQWDPLQDWLRQ
Dear costumer,
Because of legal determinations and for the safety of our employes and operating equipment we need this
“Declaration of contamination” with your signature before your order can be handled. Please put the completely
filled in declaration to the instrument and to the shipping documents in any case. Add also safety sheets and/or
specific handling instructions if necessary.
type of instrument / sensor: __________________________________
serial number: _______________________
medium / concentration:
__________________________________
temperature: ______ pressure: _______
cleaned with:
__________________________________
conductivity: ______ viscosity: _______
:DUQLQJKLQWVIRUPHGLXPXVHG
SAFE
o
o
o
o
o
o
o
o
radioactive
explosive
caustic
poisonous
harmful of
health
biological
hazardous
inflammable
safe
Please mark the appropriate warning hints.
5HDVRQIRUUHWXUQ
BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB
BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB
&RPSDQ\GDWD
company:
______________________________
contact person:
______________________________
address:
_________________________
_________________________
______________________________
department:
_________________________
______________________________
phone number:
_________________________
______________________________
Fax/E-Mail:
_________________________
______________________________
your order no.:
_________________________
I hereby certify that the returned equipment has been cleaned and decontaminated acc. to good industrial practices and is in compliance with all regulations. This equipment poses no health or safety risks due to contamination.
_______________________________
___________________________________
(Date)
(company stamp and legally binding signature)
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