Endress+Hauser FMB70 Specifications

TI00416P/00/EN/23.19
71478095
2020-04-20

Products Solutions Services

Technical Information

Deltapilot S FMB70

Hydrostatic level measurement

Pressure sensor with CONTITETM measuring cell
Condensate-resistant

Applications

The device is used for the following measuring tasks:

• Level, volume or mass measurements in liquids

• Pressure measurement in liquids, gases and paste-like media in all areas of process
engineering, process measurement technology, pharmaceutics and the food
industry

Your benefits

• Very good reproducibility and long-term stability

• Maximum plant safety provided by one-of-a-kind, condensate-resistant CONTITE
measuring cell

• High reference accuracy up to 0.075 %

• Used for process level and pressure monitoring up to SIL3, certified according to
IEC 61508 by TÜV SÜD

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

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

• For use in drinking water

Table of contents

Deltapilot S FMB70

About this document ........................ 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 ............................ 9

Communication protocol ........................ 11

Input .................................... 12

Measured variable ............................ 12

Measuring range ............................. 12

Output .................................. 13

Output signal ............................... 13

Signal range ................................ 13

Signal on alarm .............................. 13

Load ..................................... 13

Dead time, time constant ....................... 14

Dynamic behavior, current output .................. 14

Dynamic behavior, digital output (HART electronics) ..... 14

Dynamic behavior, PROFIBUS PA .................. 15

Dynamic behavior, FOUNDATION Fieldbus ............ 15

Damping .................................. 16

Alarm current setting .......................... 16

Firmware version ............................ 16

Protocol-specific data HART ..................... 16

Protocol-specific data PROFIBUS PA ................ 17

Protocol-specific data FOUNDATION Fieldbus .......... 17

Power supply ............................. 20

Terminal assignment .......................... 20

Supply voltage .............................. 21

Current consumption .......................... 21

Electrical connection .......................... 21

Terminals ................................. 21

Cable entries ............................... 22

Device plugs ................................ 22

Cable specification ............................ 23

Start-up current ............................. 23

Residual ripple .............................. 23

Overvoltage protection ......................... 23

Influence of power supply ....................... 24

Total error ................................. 26

Warm-up period ............................. 26

Installation ............................... 27

General installation instructions ................... 27

Measuring arrangement ........................ 27

Orientation ................................ 27

Wall and pipe mounting ........................ 27

"Separate housing" version ....................... 28

Turning the housing .......................... 29

Environment .............................. 30

Ambient temperature range ..................... 30

Storage temperature range ...................... 30

Degree of protection .......................... 30

Climate class ............................... 30

Electromagnetic compatibility .................... 30

Vibration resistance ........................... 30

Oxygen applications ........................... 30

PWIS-free applications ......................... 31

Hydrogen applications ......................... 31

Process .................................. 32

Process temperature limits ...................... 32

Pressure specifications ......................... 32

Mechanical construction .................... 33

Device height ............................... 33

T14 housing, optional display on the side ............ 34

T15 housing, optional display on the top ............. 35

T17 housing (hygienic), optional display on the side ..... 35

Process connections ........................... 36

Process connections ........................... 37

Hygienic connections .......................... 40

Separate housing: Wall and pipe mounting with mounting

bracket ................................... 44

Materials not in contact with process ............... 45

Weight ................................... 47

Materials in contact with process .................. 47

Fill fluid ................................... 48

Operability ............................... 49

Operating concept ............................ 49

Local operation .............................. 49

Remote operation ............................ 52

HistoROM®/M-DAT (optional) ................... 53

System integration ........................... 54

Performance characteristics of the metallic

process isolating diaphragm .................. 25

Reference operating conditions ................... 25

Influence of the installation position ................ 25

Resolution ................................. 25

Reference accuracy ........................... 25

Thermal change of the zero output and the output span ... 25

Total performance ............................ 26

Long-term stability ........................... 26

Certificates and approvals ................... 55

CE mark ................................... 55

RCM-Tick marking ............................ 55

Hazardous area approvals ....................... 55

EAC conformity .............................. 55

Suitable for hygiene applications .................. 55

Certificate of current Good Manufacturing Practices

(cGMP) ................................... 56

2 Endress+Hauser

Deltapilot S FMB70

Functional safety SIL/ IEC 61508 Declaration of

Conformity (optional) ......................... 56

Overfill prevention ............................ 56

CRN approval ............................... 56

Other standards and guidelines ................... 56

Pressure Equipment Directive 2014/68/EU (PED) ....... 57

Manufacturer declarations ...................... 57

Marine approval ............................. 57

Drinking water approval ........................ 57

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

accordance with ANSI/ISA 12.27.01 ................ 57

Inspection certificate .......................... 57

Calibration ................................. 58

Service ................................... 58

Certificate of Compliance ASME BPE 2012 ............ 58

Ordering information ....................... 59

Special device versions ......................... 59

Scope of delivery ............................. 59

Measuring point (TAG) ......................... 59

Configuration data sheet ........................ 60

Accessories ............................... 62

HistoROM®/M-DAT ........................... 62

Welding flanges and weld-in adapters ............... 62

Adapter Uni ................................ 62

Additional mechanical accessories ................. 62

Service-specific accessories ...................... 62

Supplementary documentation ............... 63

Field of Activities ............................ 63

Technical Information ......................... 63

Special Documentation ......................... 63

Operating Instructions ......................... 63

Brief Operating Instructions ..................... 63

Functional safety manual (SIL) .................... 63

Overfill prevention ............................ 63

Safety Instructions (XA) ........................ 63

Installation/Control Drawings .................... 64

Endress+Hauser 3

About this document

DANGER

WARNING

CAUTION

NOTICE

A

Deltapilot S FMB70

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.

NOTICE!

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

Deltapilot S FMB70

,…,

1.

2.

3.

Symbols in graphics

Symbol Meaning

1, 2, 3 ... Item numbers

Series of steps

A, B, C, ... Views

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

Documentation

See the "Supplementary documentation" section →  63

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 →  63

Endress+Hauser 5

Terms and abbreviations

URL OPLMWP

LRL

0

p

LRV

URV

1

2

3

4

Deltapilot S FMB70

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" 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" 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

Deltapilot S FMB70

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

T14

T15

T17

Deltapilot S FMB70

Function and system design

A0019982

Field of application

• Level measurement

• Pressure measurement

Industries

Food, pharmaceutical, environment (fresh water and wastewater), chemical

Process connections

• Thread

• Flanges

• Flush-mounted hygienic connections

Process connection material

• AISI 316L (1.4435 or 1.4404) - see "Materials" section)

• Alloy C276 (2.4819)

Measuring ranges

from –100 to +100 mbar (–1.5 to +1.5 psi)

to –1 000 to +10 000 mbar (–15 to +150 psi)

OPL

max. 40 bar (600 psi)

Process temperature range(temperature at process connection)

–10 to +100 °C (+14 to +212 °F); +135 °C (275 °F) for maximum 30 minutes

Ambient temperature range

• Without LCD display: –40 to +85 °C (–40 to +185 °F) lower temperatures on request

• With LCD display: –20 to +70 °C (–4 to +158 °F)
(extended temperature application range–40 to +85 °C (–40 to +185 °F) with limitations in optical
properties, such as display speed and contrast)

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

Reference accuracy

±0.1 % of the set span (0.075 % platinum)

Supply voltage

Supply voltage non-Ex

• 4 to 20 mA HART: 10.5 to 45 V DC

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

Supply voltage Ex ia

10.5 to 30 V DC

8 Endress+Hauser

Deltapilot S FMB70

3

2

1

p

atm

p = p + p

atm hydr.

Output

4 to 20 mA with superimposed HART protocol, PROFIBUS PA or FOUNDATION Fieldbus

Options

• Gold/rhodium-coated process isolating diaphragm

• Inspection certificate 3.1

• 3A and EHEDG approval

• HistoROM®/M-DAT memory chip

• Separate housing

Specialties

• Absolute resistance to condensate thanks to hermetically sealed CONTITETM cell

• Maximum flexibility thanks to modular design

• Special cleaning of the transmitter to remove paint-wetting substances, for use in paint shops

Measuring principle

CONTITE™ measuring cell

A0027095

1 Process isolating diaphragm
2 Measuring element
3 Rear isolating membrane of the CONTITE™ measuring cell
P

Atmospheric pressure

atm

P

Hydrostatic pressure

hydr.

Due to its weight, a liquid column creates hydrostatic pressure. If the density is constant, the
hydrostatic pressure depends solely on the height h of the liquid column. The CONTITE™ measuring
cell, which works according to the principle of the gauge pressure sensor, constitutes the core of the
Deltapilot S. In contrast to conventional gauge pressure sensors, the precision measuring element (2)
in the CONTITE™ measuring cell is absolutely protected between the process isolating diaphragm (1)
and the rear isolating membrane (3).

Advantages:

• Thanks to this hermetic sealing of the measuring element, the CONTITE™ measuring cell is
absolutely insensitive to condensate/condensation and aggressive gases. The pressure applied is
transferred from the process isolating diaphragm to the measuring element by means of an oil
without any loss in pressure.

• The sensor temperature is measured by means of the resistance bridge in the measuring cell. The
electronics can compensate any measuring errors resulting from fluctuations in temperature with
these measured temperature values.

• A linearization with max. 32 points, based on a table entered either manually or semi­automatically, can be activated locally or remotely. This function allows, for example,
measurement in engineering units and provides a linear output signal for spherical and horizontal
cylindrical tanks, and containers with a conical outlet.

Endress+Hauser 9

Product design

h

h =

p

r · g

p

atm

p

atm

p

ges

p

hydr.

h ~ p

p = p - p

meas tot atm

p = (p + p ) - p

meas atm hydr. atm

p = p + p

tot atm hydr.

1

2

3

Hydrostatic level measurement

Deltapilot S FMB70

A0033934-EN

g Gravitational acceleration
h Level height
P

Total pressure = hydrostatic pressure + atmospheric pressure

tot

P

Atmospheric pressure

atm

P

Hydrostatic pressure

hydr.

P

Measured pressure in the measuring cell = hydrostatic pressure

meas

ρ Density of the medium

Level measurement in closed tanks with pressure overlay

You can determine the differential pressure in tanks with pressure overlay using two Deltapilot S
devices. The measured pressure values of the two Deltapilot S devices are sent to a signal processing
unit such as Endress+Hauser RMA or a PLC. The signal processing unit or PLC determines the
difference in pressure and uses this to calculate the level and the density where necessary.

1 Deltapilot 1 measures the total pressure (hydrostatic pressure and top pressure)
2 Deltapilot 2 measures the top pressure
3 Signal processing unit determines the difference in pressure and uses this to calculate the level

10 Endress+Hauser

A0019984

Deltapilot S FMB70

p

2

∆h

p

1

1

2

3

NOTICE

Measured errors may occur

Large measured errors can occur if the ratio of the level to the top pressure is >1:6. This does not
affect reproducibility.

When selecting the Deltapilot S, make sure you choose sufficiently large measuring ranges (see

‣

the following example).
Specific applications can be simulated with the Endress + Hauser Applicator

‣

(https://portal.endress.com/webapp/applicator10).

Example:

• Max. hydrostatic pressure = 600 mbar (9 psi)

• Max. top pressure (Deltapilot 2):
300 mbar (4.5 psi)

• Max. total pressure, measured with Deltapilot 1:
300 mbar (4.5 psi) + 600 mbar (9 psi) = 900 mbar (13.5 psi) measuring cell to be selected:
0 to 1 200 mbar (0 to 18 psi)

• Max. pressure, measured with Deltapilot 2:
300 mbar (4.5 psi) → measuring cell to be selected: 0 to 400 mbar (0 to 6 psi)

NOTICE

Possibility of probe 2 flooding during differential pressure measurement.

Measured errors can occur.

When installing, make sure that probe 2 cannot be flooded.

‣

Communication protocol

Density measurement

You can measure the density in tanks with pressure overlay using two Deltapilot S devices and a
signal processing unit or a PLC. The signal processing unit or the PLC calculates the density from the
known distance Δh between the two Deltapilot S devices and the two measured values p1 and p2.

A0019985

1 Deltapilot 1 determines pressure measured value p
2 Deltapilot 2 determines pressure measured value p
3 Signal processing unit determines the density from the two measured values p1 and p2 and the distance Δh

1

2

• 4 to 20 mA with HART communication protocol

• PROFIBUS PA

• Endress+Hauser devices meet the requirements specified by 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

• Endress+Hauser devices meet the requirements specified by 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".

Endress+Hauser 11

Input

Measured variable Measured process variables

Pressure

Deltapilot S FMB70

Measuring range

Sensor Maximum sensor measuring range Lowest

lower (LRL) upper (URL) Synthetic oil/

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

100 mbar (1.5 psi) –0.1 (-1.5) +0.1 (+1.5) 0.025 (0.375) 2.7 (40.5) 4 (60)

400 mbar (6 psi) –0.4 (-6) +0.4 (+6) 0.04 (0.6) 5.3 (79.5) 8 (120) 1F

1.2 bar (18 psi) –1.0 (-15) +1.2 (+18) 0.1 (1.5) 16 (240) 24 (360) 1H

4 bar (60 psi) –1.0 (-15) +4 (+60) 0.1 (1.5) 16 (240) 24 (360) 1M

10 bar (150 psi) –1.0 (-15) +10 (+150) 0.1 (1.5) 27 (405) 40 (600) 1P

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

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

MWP OPL Vacuum resistance
calibratable
span

1)

Inert oil

(psi

abs

)]

abs

0.01/0.04 (0.15/0.6)

Option

1C

2)

12 Endress+Hauser

Deltapilot S FMB70

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

+

–

Output

Output signal

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

PROFIBUS PA N M O

FOUNDATION Fieldbus Q P R

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

Signal range 4 to 20 mA

3.8 mA to 20.5 mA

A0021280

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

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.

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:

Endress+Hauser 13

Deltapilot S FMB70

U – 11.5 V

23 mA

[ ]W

30

20

11.5

40 45

1239

1456

804

369

Test

£

B

U – 10.5 V

R

L

max

23 mA

£

30

20

10.5

U U

[V] [V]

40 45

1282

1500

847

413

[ ]W

R

L

max

Test

3

A

1

2

1

2

R

L

max

3

R

L

max

I

63 %

t

t1t

2

90 %

t

3

A0019988

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, NEPSI Ex ia and IEC 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, 3 G Ex nA, FM DIP,

FM NI and CSA dust ignition-proof

3 R
U Supply voltage

maximum load resistance

Lmax

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.

Dead time, time constant

Dynamic behavior, current output

Dynamic behavior, digital output (HART electronics)

Presentation of the dead time and the time constant:

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

Max. 40 30 69

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

Dead time (t1) [ms] Dead time (t1) [ms] +

min. 200 230 230

Max. 1000 1030 1030

Time constant T63 (t2) [ms]

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

14 Endress+Hauser

A0019786

Deltapilot S FMB70

Reading cycle

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

• Cyclic (burst): max. 3/s, typical 2/s
The device commands the BURST MODE function for cyclic 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, PROFIBUS PA

Dynamic behavior, FOUNDATION Fieldbus

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

Dead time (t1) [ms] Dead time (t1) [ms] +

Time constant T63 (t2) [ms]

min. 75 105 105

Max. 1275 1305 1305

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

Reading cycle (PLC)

• Acyclic: typically 25/s

• Cyclic: typically 30/s (dependent on the number and type of function blocks used in a closed­control loop)

Cycle time (update time)

min. 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.

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)

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

Dead time (t1) [ms] Dead time (t1) [ms] +

Time constant T63 (t2) [ms]

min. 85 115 115

Max. 1085 1115 1115

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

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)

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 15

Deltapilot S FMB70

Damping

Alarm current setting

Firmware version

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

• Via local display, handheld terminal or PC 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"

• Factory setting: 2 s

Designation Option

Min alarm current J

HART burst mode PV J

Min alarm current + HART burst mode PV J

1) Product Configurator, order code for "Additional options 1" and "Additional options 2"

Designation 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 71

1)

1)

Protocol-specific data HART

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

Manufacturer ID 17 (11 hex)

Device type ID 26 (1A 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 under:

• www.endress.com

• www.fieldcommgroup.org

HART load Min. 250 Ω

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

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

Supported functions • Burst mode

• Additional transmitter status

• Device locking

• Alternative measuring modes

16 Endress+Hauser

Deltapilot S FMB70

Protocol-specific data PROFIBUS PA

Manufacturer ID 17 (11 hex)

Identification number 154F 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 under:

DD files

Output values Measured values 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 values 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.

• 1503: Compatibility mode for the old Deltapilot S generation

(DB50, DB50L, DB51, DB52, DB53).

• 154F: Identification number for the new Deltapilot S generation

(FMB70).

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

Protocol-specific data FOUNDATION Fieldbus

Manufacturer ID 452B48 hex

Device type 100B 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)

DD files Information and files under:

CFF files

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

Number of ITK test campaign • IT054800 (device revision 6)

Link-Master (LAS) capable Yes

Choice of "Link Master" and "Basic
Device"

Node address Factory setting: 247 (F7 hex)

• www.endress.com

• www.fieldcommgroup.org

• 6.01 (device revision 7)

• IT085600 (device revision 7)

Yes; Factory setting: Basic Device

Endress+Hauser 17

Supported functions Field diagnostics profile (only with FF912)

The following methods are supported:

• Reboot

• Configure error as warning or alarm

• HistoROM

• Peakhold

• Alarm info

• Sensor trim

Number of VCRs • 44 (device revision 6)

• 24 (device revision 7)

Number of Link Objects in VFD 50

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

Deltapilot S FMB70

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)

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

Display block Contains parameters to configure the

onsite display

Process temperature (channel 2)

• Pressure peakhold indicator (channel 4)

• Counter for max. pressure transgressions (channel

5)

No output values

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Deltapilot S FMB70

Function blocks

Block Content Number

Blocks

Resource Block The Resource Block contains all the data that uniquely identify the

device. It is an electronic version of a nameplate of 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 value based on the configured action. This
block normally receives its inputs from AI Blocks. The block enables
the selection of maximum, minimum, average and ‘first good’ values.
Inputs IN1 to IN4 can be shown 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
value that is a non-linear function of the input value. 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 may be
used as a totalizer that counts up until reset or as a batch totalizer
that has a setpoint, where the integrated or accumulated value is
compared to pre-trip and trip settings, generating a binary signal
when the setpoint is reached.

This block contains all process alarm conditions (working like a
comparator) and presents 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:

Instantiate Function Block YES YES

Number of additional instantiatable function blocks 11 5

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Power supply

4... 20mA

Test

Test

Test

4... 20mA Test

1

8

6

7

2

3

4

5

1

4

5

2

3

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 be
observed →  63.

All explosion protection data are given in separate documentation which is available upon

‣

request. The Ex documentation is supplied as standard with all Ex-systems →  63.

Devices with integrated overvoltage protection must be grounded →  23.

‣

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

‣

Terminal assignment 4 to 20 mA HART

Deltapilot S FMB70

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 →  21

PROFIBUS PA and FOUNDATION Fieldbus

A0020158

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

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Deltapilot S FMB70

Test

Test

Supply voltage 4 to 20 mA HART

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

• As-delivered state

• Minimum supply voltage: 11.5 V DC

A0019992

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

• Minimum supply voltage: 10.5 V DC

PROFIBUS PA

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

• Ex ia: 10.5 to 30 V DC

FOUNDATION Fieldbus

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

• Ex ia: 10.5 to 30 V DC

Current consumption

• 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 over 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 over 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.

A0019993

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)

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