Endress+Hauser PMP71, PMC71 Specifications

TI00383P/00/EN/30.17
71376664

Products

Solutions Services

Technical Information

Cerabar S
PMC71, PMP71, PMP75

Process pressure measurement

Pressure transmitter with ceramic and
metal sensors

Applications

The device is used for the following measuring tasks:

• Absolute pressure and gauge pressure measurement in gases, steams or liquids in
all areas of process engineering and process measurement technology

• Level, volume or mass measurements in liquids

• High process temperatures
– up to 150 °C (302 °F)without diaphragm seal
– up to 400 °C (752 °F)with typical diaphragm seals

• High pressures up to 700 bar (10 500 psi)

• MID part certificate according to OIML R117-1 Edition 2007 (E) and EN
12405-1/A1 Edition 2006

• Low-energy version with voltage output (1-5V DC), e.g. for operation on solar­operated control units (Remote Terminal Unit (RTU))

Your benefits

• Very good reproducibility and long-term stability

• High reference accuracy up to ±0.025 %

• Turn down up to 100:1, higher on request

• Used for process pressure monitoring up to SIL 3, certified to IEC 61508 by TÜV
SÜD

• High level of safety during operation thanks to function monitoring from the
measuring cell to the electronics

• The patented TempC membrane for the diaphragm seal reduces measured errors
caused by environmental and process temperature influences to a minimum

• Easy electronic replacement guaranteed with HistoROM®/M-DAT

• Uniform platform for differential pressure, hydrostatics and pressure (Deltabar S –
Deltapilot S – Cerabar S)

• Practical user navigation for quick and easy commissioning

• Extensive diagnostic functions

Table of contents

Cerabar S PMC71, PMP71, PMP75

Document information ....................... 4

Document function ............................ 4

Symbols used ................................ 4

Documentation ............................... 5

Terms and abbreviations ........................ 6

Turn down calculation .......................... 7

Registered trademarks .......................... 7

Function and system design ................... 8

Device selection .............................. 8

Measuring principle ........................... 10

Product design .............................. 11

Applications suitable for custody transfer measurement ... 12

Communication protocol ........................ 12

Input .................................... 13

Measured variable ............................ 13

Measuring range ............................. 13

Output .................................. 16

Output Signal ............................... 16

Signal range ................................ 16

Signal on alarm .............................. 16

Load ..................................... 17

Dead time, time constant ....................... 17

Dynamic behavior, current output .................. 18

Dynamic behavior Digital output (HART electronics) ..... 18

Dynamic behavior 1-5V DC ...................... 18

Dynamic behavior PROFIBUS PA .................. 19

Dynamic behavior FOUNDATION Fieldbus ............ 19

Damping .................................. 20

Alarm current ............................... 20

Firmware version ............................ 20

HART protocol-specific data ..................... 20

PROFIBUS PA protocol-specific data ................ 21

FOUNDATION Fieldbus protocol-specific data .......... 21

Power supply ............................. 24

Terminal assignment .......................... 24

Supply voltage .............................. 25

Current consumption .......................... 26

Electrical connection .......................... 26

Terminals ................................. 26

Cable entries ............................... 26

Device plug ................................. 26

Cable specification ............................ 28

Start-up current ............................. 28

Residual ripple .............................. 28

Overvoltage protection (optionally for HART, PROFIBUS

PA and FOUNDATION Fieldbus) ................... 29

Influence of power supply ....................... 29

Performance characteristics of PMP71/PMP75
metal pressure transmitter

(Sensor module + Electronic module) ........... 30

Preamble .................................. 30

Total performance of transmitter .................. 30

Reference accuracy [E1] ........................ 30

Total performance – Specification values ............. 31

Long-term stability ........................... 31

Detailed Performance Explanation and Calculation ...... 32

Total error ................................. 33

Performance characteristics of PMC71 ceramic
pressure transmitter

(Sensor module + Electronic module) ........... 34

Preamble .................................. 34

Total performance of transmitter .................. 34

Reference accuracy [E1] ........................ 34

Total performance – Specification values ............. 35

Long-term stability ........................... 35

Detailed Performance Explanation and Calculation ...... 36

Total error ................................. 38

Performance characteristics - calculation

example and additional information ........... 39

Calculating the total performance in 4 steps ........... 39

Installation factors ............................ 42

Reference operating conditions ................... 42

Installation ............................... 43

General installation instructions ................... 43

Measuring arrangement for devices without diaphragm

seals – PMC71, PMP71 ........................ 43

Measuring arrangement for devices with diaphragm seals

– PMP75 .................................. 43

Orientation ................................ 43

Wall and pipe mounting, transmitter (optional) ........ 44

Wall and pipe mounting, valve manifold (optional) ...... 44

Heat insulation – PMC71 high-temperature version ..... 44

Mounting of PVDF screw-in fittings ................ 45

"Separate housing" version ....................... 46

Turning the housing .......................... 47

Oxygen applications ........................... 48

PWIS-free applications ......................... 48

Ultrapure gas applications ....................... 48

Applications with hydrogen ...................... 48

Environment .............................. 49

Ambient temperature range ..................... 49

Storage temperature range ...................... 49

Degree of protection .......................... 49

Climate class ............................... 49

Electromagnetic compatibility .................... 49

Vibration resistance ........................... 50

Process .................................. 51

Process temperature limits ...................... 51

Process temperature limits of capillary armoring: PMP75 .. 52

Pressure specifications ......................... 53

Mechanical construction .................... 54

Device height ............................... 54

T14 housing, optional display on the side ............ 55

2 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

T17 housing (hygienic), optional display on the side ..... 56

Process connections for PMC71 with internal process

isolating diaphragm ........................... 57

Process connections for PMC71 with internal process

isolating diaphragm ........................... 59

Process connections for PMC71 with internal process

isolating diaphragm - height H ................... 59

Process connections for PMC71 with flush-mounted

process isolating diaphragm ..................... 60

Process connections for PMC71 with flush-mounted

process isolating diaphragm ..................... 61

Process connections for PMC71 with flush-mounted

process isolating diaphragm - height H .............. 61

Process connections for PMC71 with flush-mounted

process isolating diaphragm ..................... 62

Hygienic process connections for PMC71 with flush-

mounted process isolating diaphragm ............... 65

Process connections for PMP71 with internal process

isolating diaphragm ........................... 67

Process connections for PMP71 with internal process

isolating diaphragm ........................... 68

Process connections for PMP71 with internal process

isolating diaphragm ........................... 69

Process connections for PMP71 with flush-mounted

process isolating diaphragm ..................... 70

Process connections for PMP71 with flush-mounted

process isolating diaphragm ..................... 72

Process connections for PMP71 with flush-mounted

process isolating diaphragm ..................... 73

Process connections for PMP71 with flush-mounted

process isolating diaphragm ..................... 74

Process connections for PMP71 with flush-mounted

process isolating diaphragm ..................... 75

Process connections for PMP71 ................... 76

Process connections for PMP71 ................... 76

Valve manifold DA63M- (optional) ................. 77

PMP75 basic device ........................... 78

Process connections for PMP75 with flush-mounted

process isolating diaphragm ..................... 79

Process connections for PMP75 with flush-mounted

process isolating diaphragm ..................... 80

Process connections for PMP75 with flush-mounted

process isolating diaphragm ..................... 81

Process connections for PMP75 with flush-mounted

process isolating diaphragm ..................... 82

Hygienic process connections for PMP75 with flush-

mounted process isolating diaphragm ............... 83

Hygienic process connections for PMP75 with flush-

mounted process isolating diaphragm ............... 84

Hygienic process connections for PMP75 with flush-

mounted process isolating diaphragm ............... 86

Process connections for PMP75 with flush-mounted

process isolating diaphragm ..................... 89

Process connections for PMP75 with flush-mounted

process isolating diaphragm ..................... 91

Process connections for PMP75 ................... 94

Separate housing: Wall and pipe mounting with mounting

bracket ................................... 97

Materials not in contact with process ............... 98

Weight .................................. 101

Materials in contact with process ................. 101

Fill fluid .................................. 103

Operability .............................. 104

Operating concept ........................... 104

Local operation ............................. 104

Remote operation ........................... 107

HistoROM®/M-DAT (optional) .................. 109

System integration ........................... 109

Planning instructions, diaphragm seal systems .. 110

Applications ............................... 110

Design and operation mode ..................... 111

Diaphragm seal filling oils ...................... 113

Information on cleaning ....................... 113

Installation instructions ....................... 113

Vacuum applications ......................... 116

Certificates and approvals .................. 117

CE mark .................................. 117

RoHS .................................... 117

RCM-Tick marking ........................... 117

Ex approvals ............................... 117

EAC conformity ............................. 117

Suitable for hygiene applications ................. 117

Functional safety SIL/ IEC 61508 Declaration of

Conformity (optional) ......................... 118

Overfill protection ........................... 118

CRN approval .............................. 118

Other standards and guidelines .................. 118

Pressure Equipment Directive 2014/68/EU (PED) ...... 119

Manufacturer declarations ..................... 120

Marine approval ............................ 120

Drinking water approval ....................... 120

Approvals for custody transfer ................... 120

MID Parts Certificate ......................... 120

Classification of process sealing between electrical
systems and (flammable or combustible) process fluids in

accordance with ANSI/ISA 12.27.01 ............... 120

Inspection certificate ......................... 121

Calibration ................................ 121

Service .................................. 122

Ordering information ...................... 123

Scope of delivery ............................ 123

Measuring point (TAG) ........................ 123

Configuration data sheet ....................... 124

Accessories .............................. 126

HistoROM®/M-DAT .......................... 126

Welding flanges and welding neck ................ 126

Manifolds ................................ 126

Additional mechanical accessories ................ 126

Supplementary documentation .............. 127

Field of Activities ............................ 127

Technical Information ........................ 127

Special Documentation ........................ 127

Operating Instructions ........................ 127

Brief Operating Instructions ..................... 127

Functional safety manual (SIL) ................... 127

Overfill protection ........................... 127

Safety Instructions (XA) ....................... 127

Installation/Control Drawings ................... 129

Endress+Hauser 3

Document information

DANGER

WARNING

CAUTION

NOTICE

A

Cerabar S PMC71, PMP71, PMP75

Document function

The document contains all the technical data on the device and provides an overview of the
accessories and other products that can be ordered for the device.

Symbols used Safety symbols

Symbol Meaning

Electrical symbols

Symbol Meaning Symbol Meaning

DANGER!

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

WARNING!

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

CAUTION!

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

NOTE!

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

Protective ground connection

A terminal which must be connected
to ground prior to establishing any
other connections.

Ground connection

A grounded terminal which, as far as
the operator is concerned, is
grounded via a grounding system.

Symbols for certain types of information

Symbol Meaning

Permitted

Procedures, processes or actions that are permitted.

Preferred

Procedures, processes or actions that are preferred.

Forbidden

Procedures, processes or actions that are forbidden.

Tip

Indicates additional information.

Reference to documentation

Reference to page

Reference to graphic

Visual inspection

4 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

,…,

1.

2.

3.

Symbols in graphics

A-A, B-B, C-C, ... Sections

Symbol Meaning

1, 2, 3 ... Item numbers

Series of steps

A, B, C, ... Views

Documentation

See chapter "Additional documentation" →  127

The document types listed are available:
In the Download Area of the Endress+Hauser Internet site: www.endress.com → Download

Safety Instructions (XA)

See the "Safety instructions" section →  127

Endress+Hauser 5

Terms and abbreviations

URL OPLMWP

LRL

0

p

LRV

URV

1

2

3

4

Cerabar S PMC71, PMP71, PMP75

A0029505

Item Term/abbreviation Explanation

1 OPL The OPL (over pressure limit = sensor overload limit) for the measuring device depends on the lowest-rated element,

with regard to pressure, of the selected components, i.e. the process connection has to be taken into consideration in
addition to the measuring cell. Also observe pressure-temperature dependency. For the relevant standards and
additional information, see the "Pressure specifications"→  53 section.
The OPL may only be applied for a limited period of time.

2 MWP The MWP (maximum working pressure) for the sensors depends on the lowest-rated element, with regard to

pressure, of the selected components, i.e. the process connection has to be taken into consideration in addition to the
measuring cell. Also observe pressure-temperature dependency. For the relevant standards and additional
information, see the "Pressure specifications"→  53 section.
The MWP may be applied at the device for an unlimited period.
The MWP can also be found on the nameplate.

3 Maximum sensor

measuring range

4 Calibrated/adjusted

span

p - Pressure

- LRL Lower range limit

- URL Upper range limit

- LRV Lower range value

- URV Upper range value

- TD (turn down) Turn down

Span between LRL and URL
This sensor measuring range is equivalent to the maximum calibratable/adjustable span.

Span between LRV and URV
Factory setting: 0 to URL
Other calibrated spans can be ordered as customized spans.

Example - see the following section.

6 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

LRV

URLURV

LRL

1 = 2

3

Turn down calculation

1 Calibrated/adjusted span
2 Zero point-based span
3 URL sensor

Example

• Sensor:10 bar (150 psi)

• Upper range value (URL) = 10 bar (150 psi)

Turn down (TD):

A0029545

• Calibrated/adjusted span: 0 to 5 bar (0 to 75 psi)

• Lower range value (LRV) = 0 bar (0 psi)

• Upper range value (URV) = 5 bar (75 psi)

TD =

TD =

In this example, the TD is 2:1.
This span is based on the zero point.

Registered trademarks HART®

Registered trademark of the FieldComm Group, Austin, USA

PROFIBUS®

Registered trademark of the PROFIBUS User Organization, Karlsruhe, Germany

FOUNDATIONTMFieldbus

Registered trademark of the FieldComm Group, Austin, Texas, USA

URL

|URV - LRV|

10 bar (150 psi)

= 2

|5 bar (75 psi) - 0 bar (0 psi)|

Endress+Hauser 7

Device selection

Cerabar S PMC71, PMP71, PMP75

Function and system design

A0020461

PMC71 with capacitive measuring cell and ceramic process isolating diaphragm (Ceraphire®)

A0020463

PMP71 with piezoresistive measuring cell and metallic welded process isolating diaphragm

PMP75 with diaphragm seal

Field of application

• Gauge pressure and absolute pressure

• Level

Process connections

PMC71:

• Thread

• EN flanges DN 25 – DN 80

• ANSI flanges 1" – 4"

• JIS flanges 50 A – 100 A
PMP71:

• Thread

• DN 25 – DN 80

• ASME 1 ½" – 4"

• JIS 25 A – 100 A

• Oval flange adapters

• Prepared for diaphragm seal mount
PMP75:

Wide range of diaphragm seals

A0020464

Measuring ranges

• PMC71: From –100/0 to 100 mbar (–1.5/0 to 1.5 psi) to –1/0 to 40 bar (–15/0 to 600 psi)

• PMP71: From –400/0 to 400 mbar (–6/0 to 6 psi) to –1/0 to 700 bar (–15/0 to 10500 psi)

• PMP75: From –400/0 to 400 mbar (–6/0 to 6 psi) to –1/0 to 400 bar (–15/0 to 6000 psi)

8 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

OPL

• PMC71: max. 60 bar (900 psi)

• PMP71: max. 1 050 bar (15 750 psi)

• PMP75: max. 600 bar (9 000 psi)

Process temperature range(temperature at process connection)

• PMC71:–25 to +125 °C (–13 to +257 °F)
–20 to +150 °C (–4 to +302 °F) (High-temperature version, see Product Configurator "Additional
option 1" or 110 "Additional option 2" section, option "T")

• PMP71:–40 to +125 °C (–40 to +257 °F)

• PMP75: –70 to +400 °C (–94 to +752 °F)
(depending on the filling oil)

Ambient temperature range

• Without LCD display: –40 to +85 °C (–40 to +185 °F) optional (PMP71 and PMP75):
–50 to +85 °C (–58 to +185 °F) Product Configurator, order code for "Test, certificate" option "JN"

• With LCD display: –20 to +70 °C (–4 to +158 °F)
(extended temperature application range–50 to +85 °C (–58 to +185 °F) with limitations in optical
properties, such as display speed and contrast)

• Separate housing –20 to +60 °C (–4 to +140 °F):

• PMP75: Diaphragm seal systems depending on the version

Reference accuracy

• PMC71: Up to ±0.05% of the set span
PLATINUM version: up to ±0.025 % of the set span

• PMP71: Up to ±0.05% of the set span
PLATINUM version: up to ±0.025 % of the set span

• PMP75: Up to ±0.075% of the set span

Supply voltage

Supply voltage non-Ex

• 4 to 20 mA HART: 10.5 to 45 V DC

• 1-5V DC: 9 to 35 V DC

• PROFIBUS PA and FOUNDATION Fieldbus: 9 to 32 V DC

Supply voltage Ex ia

10.5 to 30 V DC

Supply voltage Ex d (1-5V DC)
9 to 35 V DC

Output

• 4 to 20 mA with superimposed HART protocol

• 1-5V DC

• PROFIBUS PA

• FOUNDATION Fieldbus

Options

• Inspection certificate 3.1

• HistoROM®/M-DAT memory chip

• Separate housing

• PMP75: gold-plated process isolating diaphragm

• PMP71, PMP75: gold-rhodium coated process isolating diaphragm

• PMP71, PMP75:NACE-compliant materials

Endress+Hauser 9

Cerabar S PMC71, PMP71, PMP75

1

2

3

4

p

Specialties

• PMC71:
– Metal-free measurement with PVDF connection
– Special cleaning of the transmitter to remove paint-wetting substances, for use in paint shops

• PMP71:
– Process connections with minimum oil volume
– Gas-tight, elastomer-free

• PMP75:
– Wide range of diaphragm seals
– For extreme medium temperatures
– Process connections with minimum oil volume
– Completely welded versions

Measuring principle

Devices with ceramic process isolating diaphragm (Ceraphire®)

A0020465

1 Air pressure (gauge pressure sensors)
2 Ceramic substrate
3 Electrodes
4 Ceramic process isolating diaphragm

The ceramic sensor is an oil-free sensor, i.e. the process pressure acts directly on the robust ceramic
process isolating diaphragm and causes it to deflect. A pressure-dependent change in capacitance is
measured at the electrodes of the ceramic substrate and the process isolating diaphragm. The
measuring range is determined by the thickness of the ceramic process isolating diaphragm.

Advantages:

• Guaranteed overload resistance up to 40 times the nominal pressure (see "OPL" column in table)
→  13)

• The ultrapure 99.9% ceramic (Ceraphire®, see also "www.endress.com/ceraphire") ensures:
– Extremely high chemical durability
– High mechanical durability

• Suitable for vacuums

• Secondary containment for enhanced integrity

• Process temperatures up to 150 °C (302 °F)

10 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

p

1

3

4

2

h =

p

ρ g

h

Devices with metallic process isolating diaphragm

1 Silicon measuring element, substrate
2 Wheatstone bridge
3 Channel with fill fluid
4 Metal process isolating diaphragm

PMP71

The process pressure deflects the metal process isolating diaphragm of the sensor and a fill fluid
transfers the pressure to a Wheatstone bridge (semiconductor technology). The pressure-dependent
change in the bridge output voltage is measured and evaluated.

Advantages:

• Can be used for process pressures up to 700 bar (10 500 psi)

• High long-term stability

• Guaranteed overload resistance up to 4 times the nominal pressure

• Secondary containment for enhanced integrity

• Significantly reduced thermal effect e.g. compared to diaphragm seal systems with capillaries

A0016448

PMP75

The operating pressure acts on the process isolating diaphragm of the diaphragm seal and is
transferred to the process isolating diaphragm of the sensor by a diaphragm seal fill fluid. The
process isolating diaphragm is deflected and a fill fluid transfers the pressure to a resistance
measuring bridge. The pressure-dependent change in the bridge output voltage is measured and
evaluated.

Advantages:

• Depending on the version, can be used for process pressures up to 400 bar (6 000 psi) and for
extreme process temperatures

• High long-term stability

• Guaranteed overload resistance up to 4 times the nominal pressure

• Secondary containment for enhanced integrity

Product design Level measurement (level, volume and mass):

h Height (level)
p Pressure
ρ Density of the medium
g Gravitational constant

A0020466

Endress+Hauser 11

Cerabar S PMC71, PMP71, PMP75

Your benefits

• Selection of the level operating mode which is optimum for your application in the device software

• Volume and mass measurements in any container shapes by means of a freely programmable
characteristic curve

• Choice of diverse level units with automatic unit conversion

• A customized unit can be specified.

• Has a wide range of uses, e.g.
– in the event of foam formation
– in containers with agitators or screen fittings
– in the event of liquid gases

Applications suitable for custody transfer measurement

Communication protocol

The Parts Certificate is issued on the basis of the following standards:

• WELMEC guide 8.8 "General and Administrative Aspects of the Voluntary System of Modular
Evaluation of Measuring instruments under the MID".

• OIML R117-1 Edition 2007 (E) "Dynamic measuring systems for liquids other than water".

• EN 12405-1/A1 Edition 2006 "Gas meters – Conversion devices – Part 1: Volume conversion".

• 4 to 20 mA with HART communication protocol

• PROFIBUS PA
– The Endress+Hauser devices meet the requirements of the FISCO model.
– Due to a low current consumption of 13 mA ± 1 mA, the following number of devices can be

operated on one bus segment if installing as per FISCO: up to 7 devices for Ex ia, CSA IS and FM
IS applications or up to 27 devices for all other applications e.g. in non-hazardous areas, Ex nA
etc. Further information on PROFIBUS PA can be found in Operating Instructions BA00034S
"PROFIBUS DP/PA: Guidelines for planning and commissioning" and in the PNO Guideline.

• FOUNDATION Fieldbus
– The Endress+Hauser devices meet the requirements of the FISCO model.
– Due to a low current consumption of 15.5 mA ± 1 mA, the following number of devices can be

operated on one bus segment if installing as per FISCO: up to 6 devices for Ex ia, CSA IS and FM
IS applications or up to 24 devices for all other applications e.g. in non-hazardous areas, Ex nA
etc. Further information on FOUNDATION Fieldbus, such as requirements for bus system
components, can be found in Operating Instructions BA00013S "FOUNDATION Fieldbus
Overview".

12 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

Input

Measured variable Measured process variables

• Absolute pressure

• Gauge pressure

Calculated process variables

Level (level, volume or mass)

Measuring range PMC71 – with ceramic process isolating diaphragm (Ceraphire®) for gauge pressure

Sensor Maximum sensor measuring range Lowest

lower (LRL) upper (URL)

calibratable
Span

[bar (psi)] [bar (psi)] [bar (psi)] [bar (psi)] [bar (psi)] [bar

1)

MWP OPL Vacuum resistance Option

(psi

abs

)]

abs

100 mbar (1.5 psi) –0.1 (–1.5) +0.1 (+1.5) 0.005 (0.075) 2.7 (40.5) 4 (60) 0.7 (10.5) 1C

250 mbar (3.75 psi) –0.25 (–3.75) +0.25 (+3.75) 0.005 (0.075) 3.3 (49.5) 5 (75) 0.5 (7.5) 1E

400 mbar (6 psi) –0.4 (–6) +0.4 (+6) 0.005 (0.075) 5.3 (79.5) 8 (120) 0 1F

1 bar (15 psi) –1 (–15) +1 (+15) 0.01 (0.15) 6.7 (100.5) 10 (150) 0 1H

2 bar (30 psi) –1 (–15) +2 (+30) 0.02 (0.3) 12 (180) 18 (270) 0 1K

4 bar (60 psi) –1 (–15) +4 (+60) 0.04 (0.6) 16.7 (250.5) 25 (375) 0 1M

10 bar (150 psi) –1 (–15) +10 (+150) 0.1 (1.5) 26.7 (400.5) 40 (600) 0 1P

40 bar (600 psi) –1 (–15) +40 (+600) 0.4 (6) 40 (600) 60 (900) 0 1S

1) Turn down > 100:1 on request or can be set on device

2) Product Configurator, order code for "Sensor range; sensor over pressure limit"

PMC71 – with ceramic process isolating diaphragm (Ceraphire®) for absolute pressure

Sensor Maximum sensor measuring range Lowest

lower (LRL) upper (URL)

[bar

(psi

abs

)] [bar

abs

abs

(psi

calibratable

1)

Span

)] [bar (psi)] [bar

abs

100 mbar (1.5 psi) 0 +0.1 (+1.5) 0.005 (0.075) 2.7 (40.5) 4 (60) 0 2C

250 mbar (3.75 psi) 0 +0.25 (+3.75) 0.005 (0.075) 3.3 (49.5) 5 (75) 0 2E

400 mbar (6 psi) 0 +0.4 (+6) 0.005 (0.075) 5.3 (79.5) 8 (120) 0 2F

1 bar (15 psi) 0 +1 (+15) 0.01 (0.15) 6.7 (100.5) 10 (150) 0 2H

2 bar (30 psi) 0 +2 (+30) 0.02 (0.3) 12 (180) 18 (270) 0 2K

4 bar (60 psi) 0 +4 (+60) 0.04 (0.6) 16.7 (250.5) 25 (375) 0 2M

10 bar (150 psi) 0 +10 (+150) 0.1 (1.5) 26.7 (400.5) 40 (600) 0 2P

40 bar (600 psi) 0 +40 (+600) 0.4 (6) 40 (600) 60 (900) 0 2S

MWP OPL Vacuum resistance Option

(psi

abs

)] [bar

abs

abs

(psi

)] [bar

abs

abs

(psi

abs

)]

2)

2)

1) Turn down > 100:1 on request or can be set on device

2) Product Configurator, order code for "Sensor range; sensor over pressure limit"

Endress+Hauser 13

Cerabar S PMC71, PMP71, PMP75

PMP71 and PMP75 – metallic process isolating diaphragm for gauge pressure

abs

2)

)]

Sensor Maximum sensor measuring range Lowest

lower (LRL) upper (URL) Silicone oil/

calibratable
Span

[bar (psi)] [bar (psi)] [bar (psi)] [bar (psi)] [bar (psi)] [bar

MWP OPL Vacuum resistance

1)

Inert oil

(psi

abs

400 mbar (6 psi) –0.4 (–6) +0.4 (+6) 0.005 (0.075) 4 (60) 6 (90)

1 bar (15 psi) –1 (–15) +1 (+15) 0.01 (0.15) 6.7 (100) 10 (150) 1H

2 bar (30 psi) –1 (–15) +2 (+30) 0.02 (0.3) 13.3 (200) 20 (300) 1K

4 bar (60 psi) –1 (–15) +4 (+60) 0.04 (0.6) 18.7 (280.5) 28 (420) 1M

10 bar (150 psi) –1 (–15) +10 (+150) 0.1 (1.5) 26.7 (400.5) 40 (600) 1P

0.01/0.04 (0.15/0.6)

40 bar (600 psi) –1 (–15) +40 (+600) 0.4 (6) 100 (1500) 160 (2400) 1S

100 bar (1 500 psi) –1 (–15) +100 (+1500) 1.0 (15) 100 (1500) 400 (6000) 1U

400 bar (6 000 psi) –1 (–15) +400 (+6000) 4.0 (60) 400 (6000) 600 (9000) 1W

700 bar (10 500 psi)

4)

–1 (–15) +700 (+10500) 7.0 (105) 700 (10500) 1050 (15750) 1X

1) Turn down > 100:1 on request or can be set on device

2) The vacuum resistance applies for the measuring cell under reference operating conditions. A ceramic process isolating diaphragm is
recommended for applications in the limit range. For type PMP75, the pressure and temperature application limits of the selected filling oil must
also be observed →  113.

3) Product Configurator, order code for "Sensor range; sensor over pressure limit"

4) PMP71 only, PMP75 on request

Option

1F

3)

PMP71 and PMP75 – metallic process isolating diaphragm for absolute pressure

abs

2)

)]

Sensor Maximum sensor measuring range Lowest

lower (LRL) upper (URL) Silicone oil/

[bar

(psi

abs

)] [bar

abs

abs

(psi

calibratable
Span

)] [bar (psi)] [bar

abs

1)

MWP OPL Vacuum resistance

Inert oil

(psi

abs

)] [bar

abs

abs

(psi

)] [bar

abs

abs

(psi

400 mbar (6 psi) 0 +0.4 (+6) 0.005 (0.075) 4 (60) 6 (90)

1 bar (15 psi) 0 +1 (+15) 0.01 (0.15) 6.7 (100) 10 (150) 2H

2 bar (30 psi) 0 +2 (+30) 0.02 (0.3) 13.3 (200) 20 (300) 2K

4 bar (60 psi) 0 +4 (+60) 0.04 (0.6) 18.7 (280.5) 28 (420) 2M

10 bar (150 psi) 0 +10 (+150) 0.1 (1.5) 26.7 (400.5) 40 (600) 2P

0.01/0.04 (0.15/0.6)

40 bar (600 psi) 0 +40 (+600) 0.4 (6) 100 (1500) 160 (2400) 2S

100 bar (1 500 psi) 0 +100 (+1500) 1.0 (15) 100 (1500) 400 (6000) 2U

400 bar (6 000 psi) 0 +400 (+6000) 4.0 (60) 400 (6000) 600 (9000) 2W

700 bar (10 500 psi)

4)

0 +700 (+10500) 7.0 (105) 700 (10500) 1050 (15750) 2X

1) Turn down > 100:1 on request or can be set on device

2) The vacuum resistance applies for the measuring cell under reference operating conditions. A ceramic process isolating diaphragm is
recommended for applications in the limit range. For type PMP75, the pressure and temperature application limits of the selected filling oil must
also be observed →  113.

3) Product Configurator, order code for "Sensor range; sensor over pressure limit"

4) PMP71 only, PMP75 on request

Option

2F

3)

14 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

PMP71 - metallic process isolating diaphragms for absolute pressure with MID parts certificate

Sensor Maximum sensor

measuring range

[bar
(psi)]

lower
(LRL)

[bar
(psi

abs

abs

upper

3)

(URL)

[bar
(psi

abs

abs

)]

10 (150) 0 +10 (150) 0.5 (7.5) 0.5 (7.5) 26.7

Min. WP for gas
applications suitable
for custody transfer
measurement

4)

Min. WP for liquid
applications suitable
for custody transfer
measurement

[bar (psi)] [bar (psi)] [bar

)]

MWP OPL Vacuum

resistance

Silicone oil/
Inert oil

(psi

abs

abs

[bar
(psi

abs

abs

)]

[bar (psi)]

)]

40 (600) 0.01/0.04

(400.5)

(0.15/1)

50 (750) 0 +50 (750) 10 (150) 2.5 (37.5) 100 (1500) 400 (6000) 0.01/0.04

1)

Option

MP

MT

2)

(0.15/1)

100
(1500)

0 +100 (1500) 5 (75) 5 (75) 100 (1500) 400 (6000) 0.01/0.04

(0.15/1)

MU

1) The vacuum resistance applies to the measuring cell under reference operating conditions

2) Product Configurator, order code for "Sensor range; sensor over pressure limit"

3) By default, the device is set to a lower sensor measuring range of 0 bar. Please specify when ordering if the lower sensor measuring range is to be
set to a different default value.

4) Max. WP (working pressure) for gas and liquid applications suitable for calibration to regulatory standards

Endress+Hauser 15

Output

on on

off off

damp.

damp.

Display Display

Sensor Sensor

HART HART

R R

FIELD COMMUNICATION PROTOCOL FIELD COMMUNICATION PROTOCOL

SW /min

SW /min

E

+

–

E

+

–

Cerabar S PMC71, PMP71, PMP75

Output Signal

• 4 to 20 mA with superimposed digital communication protocol HART, 2-wire

• 1-5V DC, 3-wire

• Digital communication signal PROFIBUS PA (Profile 3.0), 2-wire
– Signal coding: Manchester Bus Powered (MBP): Manchester II
– Transmission rate: 31.25 KBit/s voltage mode

• Digital communication signal FOUNDATION Fieldbus, 2-wire
– Signal coding: Manchester Bus Powered (MBP): Manchester II
– Transmission rate: 31.25 KBit/s voltage mode

Output Internal + LCD External + LCD Internal

1)

Option

4 to 20mA HART B A C

4 to 20mA HART, Li=0 E D F

1-5V DC H G -

PROFIBUS PA N M O

FOUNDATION Fieldbus Q P R

1) Product Configurator, order code for "Display, operation: "

A0021280

Signal range 4 to 20 mA

3.8 mA to 20.5 mA

1-5V DC

0.95 to 5.125 V

Signal on alarm 4 to 20 mA HART

As per NAMUR NE43.

• Max. alarm: can be set from 21 to 23 mA (factory setting: 22 mA)

• Hold measured value: last measured value is held

• Min. alarm: 3.6 mA

1-5V DC

• Max. alarm: can be set from 5.25 to 5.75 V

• Min. Alarm: 0.9 V

PROFIBUS PA

As per NAMUR NE43.

Can be set in the Analog Input Block.

Options:

• Last Valid Out Value (factory setting)

• Fail Safe Value

• Status bad

FOUNDATION Fieldbus

As per NAMUR NE43.

Can be set in the Analog Input Block.

16 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

U – 11.5 V

U – 12 V

23 mA

23 mA

[ ]W

[ ]W

30

30

20

20

11.5

12

404045

45

1239

1217

1456

1434

804

782

369

347

Test

£

£

B

B

U – 10.5 V

U – 11 V

R

R

L

L

max

max

23 mA

23 mA

£

£

30

30

20

20

10.5

11

U

U

U

U

[V]

[V]

[V]

[V]

404045

45

1282

1260

1500

1478

847

826

413

391

[ ]W

[ ]W

R

R

L

L

max

max

Test

4

4

A

A

1

2

3

1

2

3

R

R

L

L

max

max

4

4

R

R

L

L

max

max

Options:

• Last Good Value

• Fail Safe Value (factory setting)

• Wrong Value

Load 4 to 20 mA HART

In order to guarantee sufficient terminal voltage in two-wire devices, a maximum load resistance R
(including line resistance) must not be exceeded depending on the supply voltage U0 of the supply
unit. In the following load diagrams, observe the position of the jumper and the explosion protection:

Dead time, time constant

A Jumper for 4 to 20 mA test signal set to "Non-test" position
B Jumper for 4 to 20 mA test signal set to "Test" position
1 Power supply 10.5 (11.5) to 30 V DC for 1/2 G, 1 GD, 1/2 GD, FM IS, CSA IS, IECEx ia, NEPSI Ex ia
2 Power supply 10.5 (11.5) to 45 V DC for devices for non-hazardous areas, 1/2 D, 1/3 D, 2 G Ex d, 3 G Ex nA,

FM XP, FM DIP, FM NI, CSA XP, CSA dust ignition-proof, NEPSI Ex d
3 Power supply 11 (12) to 45 V DC for PMC71, Ex d[ia], NEPSI Ex d[ia]
4 R

Lmax

U Supply voltage

When operating via a handheld terminal or via a PC with an operating program, a minimum
communication resistance of 250 Ω must be taken into account.

maximum load resistance

1-5V DC

The load must be at least 100 kΩ.

Presentation of the dead time and the time constant:

A0020467

Endress+Hauser 17

Cerabar S PMC71, PMP71, PMP75

I

63 %

100 %

t

t1t

2

90 %

t

3

A0019786

Dynamic behavior, current output

Type Measuring cell Dead time (t1) [ms] Time constant T63 (t2) [ms] Time constant T90 (t3) [ms]

PMC71 max. All 90 120 276

PMP71 max. • 400 mbar (6 psi)

• ≥1 bar (15 psi)

PMP75 max. PMP71 + influence of the diaphragm seal

Dynamic behavior Digital output (HART electronics)

45 • 70

• 35

A typical burst rate of 300 ms results in the following behavior:

• 161

• 81

Type Measuring cell Dead time (t1) [ms] Dead time (t1) [ms] +

Time constant T63 (t2) [ms]

PMC71 remains stable for a minimum of All 250 370 436

max. 1050 1170 1236

PMP71 remains stable for a minimum of • 400 mbar (6 psi)

• ≥1 bar (15 psi)

max. • 400 mbar (6 psi)

• ≥1 bar (15 psi)

PMP75 max. PMP71 + influence of the diaphragm seal

205 • 275

• 240

1005 • 1075

• 1040

Dead time (t1) [ms] +
Time constant T90 (t3) [ms]

• 321

• 241

• 1121

• 1041

Reading cycle

• Acyclic: max. 3/s, typically 1/s (depending on command # and number of preambles)

• Cyclic (burst): max. 3/s, typically 2/s
The device commands the BURST MODE functionality for cyclical value transmission via the HART

communication protocol.

Cycle time (update time)

Cyclic (burst): min. 300 ms

Response time

• Acyclic: min. 330 ms, typically 590 ms (depending on command # and number of preambles)

• Cyclic (burst): min. 160 ms, typically 350 ms (depending on command # and number of
preambles)

Dynamic behavior 1-5V DC

Type Measuring cell Dead time (t1) [ms] Time constant T63 (t2) [ms] Time constant T90 (t3) [ms]

PMP71 max. All 40 70 180

18 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

Dynamic behavior

A typical PLC cycle time of 1 s results in the following behavior:

PROFIBUS PA

Type Measuring cell Dead time (t1) [ms] Dead time (t1) [ms] +

Time constant T63 (t2) [ms]

PMC71 remains stable for a minimum of All 125 245 311

max. 1325 1445 1511

PMP71 remains stable for a minimum of • 400 mbar (6 psi)

• ≥1 bar (15 psi)

max. • 400 mbar (6 psi)

• ≥1 bar (15 psi)

PMP75 max. PMP71 + influence of the diaphragm seal

80 • 150

• 115

1280 • 1350

• 1315

Reading cycle (PLC)

• Acyclic: Typically 25/s

• Cyclic: Typically 30/s (depending on the number and type of the function blocks used in the
closed-control loop)

Cycle time (update time)

remains stable for a minimum of 200 ms

The cycle time in a bus segment in cyclic data communication depends on the number of devices, on
the segment coupler used and on the internal PLC cycle time. A new measured value can be
determined up to five times a second.

Dead time (t1) [ms] +
Time constant T90 (t3) [ms]

• 196

• 116

• 1396

• 1316

Response time

• Acyclic: Approx. 60 ms to 70 ms (depending on Min. Slave Interval)

• Cyclic: Approx. 10 ms to 13 ms (depending on Min. Slave Interval)

Dynamic behavior FOUNDATION Fieldbus

Type Measuring cell Dead time (t1) [ms] Dead time (t1) [ms] +

PMC71 remains stable for a minimum of All 135 255 321

max. 1135 1255 1321

PMP71 remains stable for a minimum of • 400 mbar (6 psi)

max. • 400 mbar (6 psi)

PMP75 max. PMP71 + influence of the diaphragm seal

A typical configuration for the macro cycle time (host system) of 1 s results in the following
behavior:

Time constant T63 (t2) [ms]

90 • 160

• ≥1 bar (15 psi)

1090 • 1160

• ≥1 bar (15 psi)

• 125

• 1125

Reading cycle

• Acyclic: Typically 10/s

• Cyclic: max. 10/s (dependent on the number and type of function blocks used in a closed-control
loop)

Dead time (t1) [ms] +
Time constant T90 (t3) [ms]

• 206

• 126

• 1206

• 1126

Cycle time (update time)

Cyclic: Min. 100 ms

Response time

• Acyclic: Typically 100 ms (for standard bus parameter settings)

• Cyclic: max. 20 ms (for standard bus parameter settings)

Endress+Hauser 19

Cerabar S PMC71, PMP71, PMP75

Damping

Alarm current

Firmware version

A damping affects all outputs (output signal, display):

• via local display, handheld terminal or PC (handheld terminal or PC not for 1-5V DC) with
operating program, continuous from 0 to 999 s

• Also for HART and PROFIBUS PA: Via DIP switch on the electronic insert,
switch position "on" = set value and "off"

• 1-5V DC: via DIP switch on electronic insert
switch position "on" = set value and "off"

• Factory setting: 2 s

Description Option

Min alarm current J

HART burst mode PV J

Min alarm current + HART burst mode PV J

1) Product Configurator, "Additional options 1" and "Additional options 2" ordering feature

Description Option

02.20.zz, HART 7, DevRev22 72

02.11.zz, HART 5, DevRev21 73

04.00.zz, FF, DevRev07 74

04.01.zz, PROFIBUS PA, DevRev03 75

02.10.zz, HART 5, DevRev21 76

03.00.zz, FF, DevRev06 77

04.00.zz, PROFIBUS PA 78

02.30.zz, HART 7 In preparation

1)

1)

HART protocol-specific data

1) Product Configurator, order code for "Firmware version"

Manufacturer ID 17 (11 hex)

Device type code 24 (18 hex)

Device revision • 21 (15 hex) - SW version 02.1y.zz - HART specification 5

• 22 (16 hex) - SW version 02.2y.zz - HART specification 7

HART specification • 5

• 7

DD revision • 4 (Russian in language selection) for device revision 21

• 3 (Dutch in language selection) for device revision 21

• 1 for device revision 22

Device description files (DTM, DD) Information and files at:

• www.endress.com

• www.fieldcommgroup.org

HART load Min. 250 Ω

20 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

HART device variables The measured values are assigned to the device variables as follows:

Supported functions • Burst mode

Measured values for PV (primary variable)

• Pressure

• Level

• Tank content

Measured values for SV, TV (second and third variable)

Pressure

Measured values for QV (fourth variable)

Temperature

• Additional transmitter status

• Device locking

• Alternative operating modes

PROFIBUS PA protocol­specific data

Manufacturer ID 17 (11 hex)

Identification number 1541 hex

Profile version 3.0

• SW version 03.00.zz

• SW version 04.00.zz

3.02
SW version 04.01.zz ( device revision 3)
Compatibility with SW version 03.00.zz and higher.

GSD revision • 4 (SW version 3.00.zz and 4.00.zz)

• 5 (device revision 3)

DD revision • 1 (SW version 3.00.zz and 4.00.zz)

• 1 (device revision 3)

GSD file Information and files at:

DD files

Output values Measured value for PV (via Analog Input Function Block)

Input values Input value sent from PLC, can be shown on display

Supported functions • Identification & maintenance Simplest device identifier on the

• www.endress.com

• www.profibus.org

• Pressure

• Level

• Tank content

Measured value for SV

• Pressure

• Temperature

control system and nameplate

• Condensed status (only with Profile Version 3.02)

• Automatic ID number adjustment and switchable to the following ID
numbers (only with Profile Version 3.02):
– 9700: Profile-specific transmitter identification number with the

"Classic" or "Condensed" status".

– 1501: Compatibility mode for the old Cerabar S generation

(PMC731, PMP731, PMC631, PMP635).

– 1541: Identification number of the new Cerabar S generation

(PMC71, PMP71, PMP75).

• Device locking: The device can be locked by hardware or software.

FOUNDATION Fieldbus protocol-specific data

Manufacturer ID 452B48 hex

Device type 1007 hex

Device revision • 6 - SW version 03.00.zz

• 7 - SW version 04.00.zz (FF-912)

DD revision • 3 (device revision 6)

• 2 (device revision 7)

CFF revision • 4 (device revision 6)

• 1 (device revision 7)

Endress+Hauser 21

Cerabar S PMC71, PMP71, PMP75

DD files Information and files at:

CFF files

Device tester version (ITK version) • 5.0 (device revision 6)

Number of ITK test campaign • IT054600 (Device Revision 6)

Link Master (LAS) capable Yes

Choice of "Link Master" and "Basic
Device"

Node address Factory setting: 247 (F7 hex)

Supported functions Field diagnostics profile (only with FF912)

Number of VCRs • 44 (device revision 6)

Number of link objects in VFD 50

• www.endress.com

• www.fieldcommgroup.org

• 6.01 (device revision 7)

• IT085500 (Device Revision 7)

Yes, factory setting is Basic Device

The following methods are supported:

• Restart

• Configure error as warning or alarm

• HistoROM

• Peakhold

• Alarm info

• Sensor trim

• 24 (device revision 7)

Virtual communication references (VCRs)

Device revision 6 Device revision 7

Permanent entries 44 1

Client VCRs 0 0

Server VCRs 5 10

Source VCRs 8 43

Sink VCRs 0 0

Subscriber VCRs 12 43

Publisher VCRs 19 43

Link settings

Device revision 6 Device revision 7

Slot time 4 4

Min. Inter PDU delay 12 10

Max. response delay 10 10

Transducer Blocks

Block Content Output values

TRD1 Block Contains all parameters related to

the measurement

Service Block Contains service information • Pressure after damping (channel 3)

• Pressure or level (channel 1)

• Process temperature (channel 2)

• Pressure peakhold indicator (channel 4)

• Counter for max. pressure transgressions (channel

5)

22 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

Block Content Output values

Diagnostic Block Contains diagnostic information Error code via DI channels (channel 0 to 16)

Display Block Contains parameters to configure

Function blocks

No output values

the onsite display

Block Content Number

blocks

Resource Block This block contains all the data that uniquely identifies the device; it is

an electronic version of a nameplate for the device.

Analog Input
Block 1
Analog Input
Block 2

Digital Input
Block

Digital Output
Block

PID Block This block is used as a proportional-integral-derivative controller and

Arithmetic
Block

Input Selector
Block

Signal
Characterizer
Block

Integrator Block The Integrator Block integrates a variable as a function of the time or

Analog Alarm
Block

The AI Block receives the measuring data from the Sensor Block,
(selectable via a channel number) and makes the data available to
other function blocks at its output. Enhancement: Digital outputs for
process alarms, fail safe mode

This block contains the discrete data of the Diagnose Block (selectable
via a channel number 0 to 16) and provides them for other blocks at
the output.

This block converts the discrete input and thus initiates an action
(selectable via a channel number) in the DP Flow Block or in the
Service Block. Channel 1 resets the counter for max. pressure
transgressions.

can be used universally for closed-loop-control in the field. It enables
cascade mode and feedforward control. Input IN can be indicated on
the display. The selection is performed in the Display Block
(DISPLAY_MAIN_LINE_CONTENT).

This block is designed to permit simple use of popular measurement
math functions. The user does not have to know how to write
equations. The math algorithm is selected by name, chosen by the
user for the function to be performed.

The Input Selector Block facilitates the selection of up to four inputs
and generates an output based on the configured action. This block
normally receives its inputs from AI Blocks. The block performs
maximum, minimum, average and ‘first good’ signal selection. Inputs
IN1 to IN4 can be indicated on the display. The selection is performed
in the Display Block (DISPLAY_MAIN_LINE_CONTENT).

The Signal Characterizer Block has two sections, each with an output
that is a non-linear function of the respective input. The non-linear
function is generated by a single look-up table with 21 arbitrary x-y
pairs.

accumulates the counts from a Pulse Input Block. The block can be
used as a totalizer that counts up until a reset, or as a batch totalizer
whereby the integrated value is compared against a target value
generated before or during the control routine and generates a binary
signal when the target value is reached.

This block contains all process alarm conditions (working like a
comparator) and represents them at the output.

1 enhanced enhanced

2 45 ms 45 ms

1 40 ms 30 ms standard enhanced

1 60 ms 40 ms standard enhanced

1 120 ms 70 ms standard enhanced

1 50 ms 40 ms standard enhanced

1 35 ms 35 ms standard enhanced

1 30 ms 40 ms standard enhanced

1 35 ms 40 ms standard enhanced

1 35 ms 35 ms standard enhanced

Execution time Functionality

Device
Revision 6

Device
Revision 7

(without
trend and
alarm
reports)

Device
Revision 6

enhanced enhanced

Device
Revision 7

Additional function block information:

Instantiatable function blocks YES YES

Number of additional instantiatable function blocks 11 5

Endress+Hauser 23

Power supply

4... 20mA

Test

Test

Test

4... 20mA Test

1

8

6

7

2

3

4

5

1

6

7

2

3

4

5

POWER

Vout

WARNING

L

Electrical safety is compromised by an incorrect connection!

When using the measuring device in hazardous areas, the relevant national standards and

‣

regulations as well as the Safety Instructions or Installation or Control Drawings must also be
observed.→  127.
All explosion protection data are given in separate documentation which is available upon

‣

request. The Ex documentation is supplied as standard with all Ex devices→  127.
Devices with integrated overvoltage protection must be grounded→  29.

‣

Protective circuits against reverse polarity, HF influences and overvoltage peaks are integrated.

‣

Terminal assignment 4 to 20 mA HART

Cerabar S PMC71, PMP71, PMP75

A0019989

1 Housing
2 Supply voltage
3 4 to 20 mA
4 Devices with integrated overvoltage protection are labeled "OVP" (overvoltage protection) here.
5 External ground terminal
6 4 to 20 mA test signal between positive and test terminal
7 Internal ground terminal
8 Jumper for 4 to 20 mA test signal

1-5V DC

A0031676

1 Housing
2 Supply voltage
3 1-5V DC
4 Overvoltage protection (OVP) marking
5 External ground terminal
6 Terminals
7 Internal ground terminal

24 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

1

4

5

2

3

Test

Test

PROFIBUS PA and FOUNDATION Fieldbus

1 Housing
2 Supply voltage
3 Devices with integrated overvoltage protection are labeled "OVP" (overvoltage protection) here.
4 External ground terminal
5 Internal ground terminal

Supply voltage 4 to 20 mA HART

A0020158

Electronic version Jumper for 4 to 20 mA test signal in

"Test" position (delivery status)

Version for non­hazardous area

Intrinsically safe 11.5 to 30 V DC 10.5 to 30 V DC

• Other types of
protection

• Devices without
certificate

11.5 to 45 V DC 10.5 to 45 V DC

11.5 to 45 V DC
(versions with 35 V DC plug-in
connection)

Jumper for 4 to 20 mA test signal in
"Non-test" position

10.5 to 45 V DC
(versions with 35 V DC plug-in
connection)

Measuring a 4 to 20 mA test signal

Jumper position for test
signal

Description

• Measurement of 4 to 20 mA test signal via the positive and test terminal:
Possible. (Thus, the output current can be measured without interruption via
the diode.)

• Delivery status

• Minimum supply voltage: 11.5 V DC

A0019992

• Measurement of 4 to 20 mA test signal via positive and test terminal: Not
possible.

• Minimum supply voltage: 10.5 V DC

A0019993

1-5V DC

• Non-hazardous area: 9 to 35 V DC

• Ex-d: 9 to 35 V DC

PROFIBUS PA

• Version for non-hazardous areas: 9 to 32 V DC

• Ex ia: 10.5 to 30 V DC

Endress+Hauser 25

FOUNDATION Fieldbus

Han7D

–

+

+ –

–

+

1

5

4

6

7

8

2

3

A B

• Version for non-hazardous areas: 9 to 32 V DC

• Ex ia: 10.5 to 30 V DC

Cerabar S PMC71, PMP71, PMP75

Current consumption

• 1-5V DC:
9 V = 1.8 mA
35 V = 0.8 mA

• PROFIBUS PA: 13 mA ±1 mA, switch-on current corresponds to IEC 61158-2, Clause 21

• FOUNDATION Fieldbus: 15.5 mA ±1 mA, switch-on current corresponds to IEC 61158-2, Clause
21

Electrical connection PROFIBUS PA

The digital communication signal is transmitted to the bus via a two-wire connection. The bus also
provides the power supply. For further information on the network structure and grounding, and for
further bus system components such as bus cables, see the relevant documentation, e.g. Operating
Instructions BA00034S "PROFIBUS DP/PA: Guidelines for planning and commissioning" and the
PNO Guideline.

FOUNDATION Fieldbus

The digital communication signal is transmitted to the bus via a two-wire connection. The bus also
provides the power supply. For further information on the network structure and grounding and for
further bus system components such as bus cables, see the relevant documentation, e.g. Operating
Instructions BA00013S "FOUNDATION Fieldbus Overview" and the FOUNDATION Fieldbus Guideline.

Terminals

• Supply voltage and internal ground terminal: 0.5 to 2.5 mm2 (20 to 14 AWG)

• External ground terminal: 0.5 to 4 mm2 (20 to 12 AWG)

Cable entries

Approval Cable gland Clamping area

Standard, II 1/2 G Ex ia, IS Plastic M20x1.5 5 to 10 mm (0.2 to 0.39 in)

ATEX II 1/2 D, II 1/3 D, II 1/2 GD Ex ia,
II 1 GD Ex ia, II 3 G Ex nA

Metal M20x1.5 (Ex e) 7 to 10.5 mm (0.28 to 0.41 in)

1-5V DC

The cable entries have a 1/2 FNPT thread. The connection on the customer's side is protected by a
plastic connector. A cable gland is not envisaged.

For additional technical data, see section on housing →  55

Device plug Devices with Harting plug Han7D

26 Endress+Hauser

A Electrical connection for devices with Harting plug Han7D
B View of the plug-in connection on the device

Material: CuZn, gold-plated plug-in jack and plug

A0019990

Cerabar S PMC71, PMP71, PMP75

–

+

+

PE

–

1 2 3 4

–

+

+

PE

–

142 3

2

1

3

4

Cable version connection

1 rd = red
2 bk = black
3 gnye = green
4 4 to 20 mA

Connection via cable version 1-5V DC

A0019991

1 rd = red
2 bk = black
3 gnye = green
4 1-5V DC

Devices with M12 plug

1 Signal +
2 Not assigned
3 Signal –
4 Ground

Endress+Hauser offers the following accessories for devices with an M12 plug:

Plug-in jack M 12x1, straight

• Material: Body PA; coupling nut CuZn, nickel-plated

• Degree of protection (fully locked): IP67

• Order number: 52006263
Plug-in jack M 12x1, elbowed

• Material: Body PBT/PA; coupling nut GD-Zn, nickel-plated

• Degree of protection (fully locked): IP67

• Order number: 71114212

Cable 4x0.34 mm2 (20 AWG) with M12 socket, elbowed, screw plug, length 5 m (16 ft)

• Material: Body PUR; coupling nut CuSn/Ni; cable PVC

• Degree of protection (fully locked): IP67

• Order number: 52010285

A0032269

A0011175

Endress+Hauser 27

Devices with 7/8" plug

4

2

3

1

1 Signal –
2 Signal +
3 Not assigned
4 Shielding

External thread: 7/8 - 16 UNC

• Material: 316L (1.4401)

• Degree of protection: IP68

Cable specification HART

• Endress+Hauser recommends using shielded, twisted-pair two-wire cables.

• Cable outer diameter: 5 to 9 mm (0.2 to 0.35 in) depending on the cable entry used →  26

Cerabar S PMC71, PMP71, PMP75

A0011176

1-5V DC

• Endress+Hauser recommends using a shielded cable.

• Cable outer diameter: 5 to 9 mm (0.2 to 0.35 in) depending on the cable entry used →  26

Maximum cable length

The following table shows the tolerance of the voltage output for a representative cable with a
length of up to 100 m (328 ft), a resistance of 18 Ohm/km and specification 18 AWG (cable cross­section 0.8 mm2).

Tolerance of voltage output at cable end Length

0.5 mV 25 m (82 ft)

1 mV 50 m (164 ft)

1.5 mV 75 m (246 ft)

2 mV 100 m (328 ft)

PROFIBUS PA

Use a twisted, shielded twin-core cable, preferably cable type A.

For further information regarding cable specifications, see the Operating Instructions
BA00034S "PROFIBUS DP/PA: Guidelines for planning and commissioning", the PNO guideline

2.092 "PROFIBUS PA User and Installation Guideline" and IEC 61158-2 (MBP).

FOUNDATION Fieldbus

Use a twisted, shielded twin-core cable, preferably cable type A.

For further information on the cable specifications, see Operating Instructions BA00013S
"FOUNDATION Fieldbus Overview", FOUNDATION Fieldbus Guideline and IEC 61158-2 (MBP).

Start-up current

Residual ripple

12 mA

Without influence on 4 to 20 mA signal up to ±5% residual ripple within the permitted voltage
range [according to HART hardware specification HCF_SPEC-54 (DIN IEC 60381-1)].

28 Endress+Hauser

Cerabar S PMC71, PMP71, PMP75

Overvoltage protection (optionally for HART, PROFIBUS PA and FOUNDATION Fieldbus)

Influence of power supply

• Overvoltage protection:
– Nominal functioning DC voltage: 600 V
– Nominal discharge current: 10 kA

• Surge current check î = 20 kA satisfied as per DIN EN 60079-14: 8/20 μs

• Arrester AC current check I = 10 A satisfied

Ordering information: Product Configurator, order code for "Additional options 1" or Additional
options 2", option "M"

NOTICE

Device could be destroyed!

Devices with integrated overvoltage protection must be grounded.

‣

≤0.0006 % of URL/1 V

Endress+Hauser 29

Cerabar S PMC71, PMP71, PMP75

Performance characteristics of PMP71/PMP75 metal pressure transmitter (Sensor module + Electronic module)

Preamble

The performance characteristic of the transmitter refers to "Accuracy of the transmitter". The factors
influencing accuracy can be divided into two groups

• Total performance of transmitter →  30

• Installation dependent influencing factors →  42

Total performance of transmitter

Reference accuracy [E1]

Reference accuracy E1 as %
The specifications refer to the calibrated span/Upper Range Value (URV).

Measuring cell PMP71 PMP75

400 mbar (6 psi) • TD 1:1

1 bar (15 psi) • TD ≤ 2.5:1

2 bar (30 psi) • TD ≤ 5:1

4 bar (60 psi) • TD ≤ 10:1

10 bar (150 psi) • TD ≤ 10:1

40 bar (600 psi) • TD ≤ 10:1

100 bar (1 500 psi) • TD ≤ 10:1

400 bar (6 000 psi) • TD ≤ 5:1

700 bar (10 500 psi) • TD ≤ 5:1

Transmitter total performance →  31comprises the reference accuracy and the ambient
temperature effect and is calculated using the following formula:

Total performance = ± √ ( (E1)² + (E2)² )

E1 = Reference accuracy →  30

E2 = ambient temperature effect per ±28 °C (50 °F) (corresponds to the range of

–3 to +53 °C (+27 to +127 °F)) →  32

1)

Standard
Reference accuracy

• TD > 1:1

• TD > 2.5:1

• TD > 5:1

• TD > 10:1

• TD > 10:1

• TD > 10:1

• TD > 10:1

• TD > 5:1

• TD > 5:1

3)

==±0.05

±0.05 · TD

==±0.05

±0.02 · TD

==±0.05

±0.01 · TD

==±0.05

±0.005 · TD

==±0.05

±0.005 · TD

==±0.05

±0.005 · TD

==±0.05

±0.005 · TD

==±0.1

±0.02 · TD

==±0.1

±0.02 · TD

Platinum
Reference accuracy

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

• TD 1:1

• TD > 1:1

4)

==±0.025

±0.04

==±0.025

±0,03

==±0.025

±0,03

==±0.025

±0,03

==±0.025

±0,03

==±0.025

±0,03

==±0.035

±0.04

==±0.065

±0.09

==±0.065

±0.09

Standard
Reference accuracy

• TD 1:1

• TD > 1:1

• TD ≤ 2.5:1

• TD > 2.5:1

• TD ≤ 5:1

• TD > 5:1

• TD ≤ 10:1

• TD > 10:1

• TD ≤ 10:1

• TD > 10:1

• TD ≤ 10:1

• TD > 10:1

• TD ≤ 10:1

• TD > 10:1

• TD ≤ 5:1

• TD > 5:1

-

2)

==±0.15

±0.15 · TD

==±0.075

±0.03 · TD

==±0.075

±0.015 · TD

==±0.075

±0.0075 · TD

==±0.075

±0.0075 · TD

==±0.075

±0.0075 · TD

==±0.075

±0.0075 · TD

==±0.15

±0.03 · TD

1) Reference accuracy comprises the non-linearity [DIN EN 61298-2] including the hysteresis [DIN EN 61298-2] and non-repeatability [DIN EN
61298-2] in accordance with the limit point method as per [DIN EN 60770]. Reference accuracy for standard up to TD 100:1, for platinum up to
TD 5:1. Valid for all membrane materials.

2) PMP75: No diaphragm seal errors are taken into account. Diaphragm seal errors can be calculated separately in the Applicator diaphragm seal
calculation module. Link to online tool Applicator: www.endress.com/applicator → Sizing Diaphragm Seal

3) PMP71 with 1-5V DC: for 400 mbar (6 psi) to 100 bar (1 500 psi) measuring cells, the values specified in the table must be multiplied by a factor
of 2. For 400 bar (6 000 psi) and 700 bar (10 500 psi) measuring cells, the values specified in the table must be multiplied by a factor of 1.5.

4) Platinum version not for flush-mounted process connections G ½ and M20

Please refer to the next chapter “Detailed performance explanation and calculation” for further
explanations on "Ambient temperature effect".

30 Endress+Hauser