Honeywell enCore FC, enCore FC1, enCore MC1, enCore Operating Instructions Manual

FC1-OI-EN h 2017-11-16

as of 2017-11-16

From Basic System version 03-22

Flow Computer

Device Series enCore FC

FC1, MC1

Manual
Operating Instructions

Page 2 of 120

Operating Instructions

enCore FC

Disclaimer

The information contained in this document is the property of Honeywell. The following
information is to be used exclusively for the intended purpose. This document or its
contents may not be reproduced, published or made available to a third party in whole
or in part without the express permission of Elster GmbH.

All information and descriptions in this Operating Instructions have been compiled
after careful examination. Nevertheless, errors cannot be completely excluded.
Honeywell therefore does not guarantee the completeness or correctness of the
content. The manual cannot be understood as a guarantee of product properties. It
also describes properties that are only available as an option.

Honeywell is in no case liable to third parties for direct, special or consequential
damages. The information in this document is subject to change without notice.

With regard to extended product liability, the data and material properties listed may
only be regarded as guidelines and must always be checked and, if necessary,
corrected on a case-by-case basis. This is particularly true where safety aspects are
concerned.

Further support is available from your local office or representative. The address can
be found on the Internet or at Honeywell.

The passing on and reproduction of this manual or parts thereof is only permitted with
the written permission of Honeywell.

If the product described herein is improperly handled, repaired or modified by
unauthorized persons or if Honeywell spare parts other than original spare parts are
used, the warranty will be void.

This product may contain or be derived from third party material, including software.
Third party material may be subject to license terms, notices, restrictions and
obligations of the Licensor. The licenses, notices, restrictions and obligations, if any,
may be found in the materials accompanying the Product, in the documents or files
containing the material of third parties, in a file called third_party_licenses on the
media containing the Product, or at www.honeywell.com/ps/thirdpartylicenses.

Copyright © 2017 Elster GmbH, D-55252 Mainz-Kastel. All rights reserved.

Dortmund, October 2017

enCore FC

Operating Instructions

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Contents

1 General Information 8

1.1 The enCore/enSuite Concept 8

1.2 Scope of Delivery 9

2 About these Instructions 11

2.1 Target Group Definition 11

2.2 The enCore FC Manual at a Glance 13

2.3 Text Labelling 15

2.3.1 Presentation of Safety and Risk Instructions 15

2.3.2 Paragraph Formats 16

2.3.3 Character Formats 17

2.3.4 Character Formats in Flow Charts 18

2.4 Limitation of Liability 19

2.5 Applicable Standards and Guidelines 20

3 Security considerations for your network 21

4 Safety 23

4.1 General Safety Instructions 23

4.2 Intended Use 25

4.3 Unacceptable use while Impaired 26

4.4 Operator Liability 26

5 Design and Function 28

5.1 Functional Description of enCore FC devices 28

5.1.1 Number of Streams and their Flow Directions 29

5.1.2 International Standards 29

5.2 Device Description 30

5.3 Operation Panel 31

5.3.1 Device Keys 32

5.3.2 Touch Screen 32

Contents

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5.3.3 Operation and Navigation within the Display 33

5.3.4 Security Switch 36

5.3.5 LEDs 36

5.4 Interfaces (Rear Side of Device) 39

5.5 Available Process Boards 40

5.5.1 ExMFE5 Process Board 40

5.5.2 MFE7 Process Board 43

5.5.3 MSER4 Process Board 43

5.5.4 ESER4 Process Board 44

5.5.5 MFA8 Process Board 44

6 Assembly Instructions 45

6.1 Line Connection 45

6.2 Power Supply and Grounding 47

6.3 Installation and Conversion of Process Boards 48

6.3.1 Insert a Process Board in a Free Board Slot 49

6.4 Connection Diagrams 54

6.4.1 General Recommendations for Signal and Data Cable 55

6.4.2 Pt100 (EEx i) via ExMFE5 Board 57

6.4.3 Pt100 (EEx d) via MFE7 Board 58

6.4.4 Analog Measurement Transmitter (EEx i) via ExMFE5 Board 59

6.4.5 Analog Measurement Transmitter (EEx d) via MFE7 Board
(without barrier) 60

6.4.6 Analog Measurement Transmitter (EEx i) via MFE7 Board
(barrier in sink mode) 61

6.4.7 Analog Measurement Transmitter (EEx i) via MFE7 Board
(barrier in source mode) 62

6.4.8 HART Measurement Transmitter (EEx i) via ExMFE5 Board 63

6.4.9 HART Measurement Transmitter (EEx d) via MFE7 Board
(without barrier, internal Power Supply) 65

6.4.10 HART Measurement Transmitter (EEx d) via MFE7 Board
(without barrier, external Power Supply) 67

6.4.11 HART Measurement Transmitter (EEx i) via MFE7 Board
(barrier in sink mode) 69

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6.4.12 HART Measurement Transmitter (EEx i) via MFE7 Board

(barrier in source mode) 71

6.4.13 HART Measurement Transmitter (EEx d) via MFE7 Board

(redundant, without barrier) – Burst Mode 73

6.4.14 HART Measurement Transmitter (EEx i) via MFE7 Board

(redundant, barrier in source mode) – Burst Mode 75

6.4.15 HART Measurement Transmitter (EEx d) via MFE7 Board

(Multi-Master, without barrier) – Multidrop Mode (from Basic
System 03-25) 77

6.4.16 HART Measurement Transmitter (EEx i) via MFE7 Board

(Multi-Master, barrier in source mode) – Multidrop Mode (from
Basic System 03-25) 79

6.4.17 Gas Meter (Turbine): Encoder Index, 2 LF/HF Sensors (EEx i)

via ExMFE5 Boards 81

6.4.18 Gas Meter (Turbine): Encoder Index, 2 LF/HF Sensors (EEx i)

via MFE7 Board 82

6.4.19 Gas Meter (Turbine) SMRI Bi-directional: 2 HF Sensors, Flow

Direction Detection (EEx i) via MFE7 Board 84

6.4.20 Gas Meter (Turbine) SMRI Bi-directional:

Flow Direction Detection Internal (EEx i) via MFE7 Board 85

6.4.21 Q.Sonic Ultrasound Gas Meter: Serial RS485 (EEx d) via

MFE7 Board 87

6.4.22 Q.Sonic6 Ultrasound Gas Meter: Serial RS485 (EEx d) via

MFE7 Board 88

6.4.23 FLOWSIC600 Ultrasound Gas Meter: Serial RS485 (EEx d)

via MFE7 Board 89

6.4.24 Serial Interface through COM Port (CPU or MSER4-Board) 90

6.4.25 Analog Output over MFA8 Board (0/4 ... 20 mA) 92

6.4.26 Message Output over MFA8 Board 93

6.4.27 Pulse Output over MFA8 Board 95

7 Device Configuration and Commissioning 96

7.1 Device Configuration 97

7.2 Commissioning the Measurement System 98

7.2.1 Checking Device Settings 99

7.2.2 Checking Measurement Input Values 99

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7.2.3 Checking Output Signals 99

7.2.4 Checking Digital Communication (Modbus, etc.) 99

7.2.5 Checking Measurements and Calculations 99

7.2.6 End of Commissioning (from Basic System 03-24) 99

7.2.7 Sealing (if necessary) 100

8 Maintenance 101

8.1 Battery Replacement 101

8.1.1 Changing Batteries 102

8.2 Cleaning 104

8.3 Technical Assistance Center (TAC) 105

8.4 Replacement Parts and Accessories 105

8.5 Warranty Conditions 106

9 Decommissioning/Disposal 107

9.1 Storage 107

9.2 Disposal 108

10 Technical Data 109

10.1 General Information 109

10.2 Input channels 110

10.3 Outputs 111

10.4 Interfaces for Digital Communication 112

10.5 Data Protocols 112

10.5.1 Data protocols and its TCP default port (Ethernet) 113

10.6 Housing dimensions 114

10.6.1 1/3 housing width 114

10.6.2 1/2 housing width 115

11 FAQs 116

11.1 How to report a security vulnerability to Honeywell? 116

11.2 Limitations for multidrop and burst mode up to basic system version ≤
03-24 116

Contents

enCore FC

Operating Instructions

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12 Index 118

13 Appendix 120

Operating Instructions

1 General Information

1.1 The enCore/enSuite Concept

enCore is the name of an Elster product platform for advanced measure-

ment devices. All enCore devices are based on the same hardware
components and software concepts. Both the hardware and software of
enCore devices have a modular design; the configuration of the process
board equipment and the arrangement of software components are variable.
On one hand, the software components consist of basic functionalities,
which are provided by the Basic System with its System Function Blocks

(abbreviated as: SFBs), and on the other hand consist of application-related
functionalities, which come with different Application Function Blocks

(abbreviated as: AFB). Owing to this modular design principle, each device
can be optimally adapted to individual requirements.

enSuite is the name of the PC software supporting all enCore devices along

with a number of other Elster devices. The enSuite software provides tools
for configuration, parameterization, diagnosis, software downloads and other
services.

Parameterization in enSuite

Please note that the changes that you make in parameterization
of enSuite become active in the device only when you activate the
action Transfer parameterization to device and after the enCore

device restarts (automatically).

 volume “Configuration fo Device Software” of enCore FC
manual

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enCore FC

1 General Information

enCore FC

Operating Instructions

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1.2 Scope of Delivery

The enCore FC's scope of delivery includes:

enCore device:

Electronic Flow Computer enCore FC1

Electronic Flow Computer enCore MC1

confirmation of conformity

factory test protocol

dispatch list/delivery note

manuals:

„Instructions for Use in Legal Metrology” (FC1 only)

„Operating Instructions”

enSuite installation CD

USB cable Type A/B

accessories (plugs incl. housing)

1.2.1 Honeywell (Elster GmbH) Contact Information

enCore
FC1

1

2

enCore
MC1

()3

You can contact our sales and service department at:

Elster GmbH (manufacturer)
Steinern Straße 19-21 55252
Mainz-Kastel/Germany

1

Only for devices used in legal metrology.

2

Only for devices that are not used in legal metrology.

3

optional

General Information 1

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enCore FC

Phone: +49 6134 605-0
Email: info@elster.com
Website: www.elster-instromet.com

You can reach our Technical Assistance Center (TAC) at:

Phone: +49 231 937110-88
Email: ElsterSupport@Honeywell.com
Website: www.elster-instromet.com

enCore FC

Operating Instructions

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2 About these Instructions

The present documentation are the Operating Instructions of the overall
documentation, and describe the assembly, installation, commissioning and
maintenance of the flow computer enCore FC series (called enCore FC
below).

These instructions make it possible to work with the enCore FC in a safe and
efficient manner.

Compliance with all the safety and handling instructions specified in these
Operating Instructions is a prerequisite to working with the enCore FC in a
safe manner and using it properly, and for obtaining accurate measurement
and calculation results.

In addition, compliance is also necessary with the guidelines, standards,
local accident prevention regulations and general safety regulations that
apply for the enCore FC's area of application.

The illustrations in this manual serve to depict the facts that are being
explained, and therefore may differ from the actual design of the enCore FC
depending on the configuration of the device and enSuite.

The data and material properties that are presented below are
guidelines. They must be reviewed for each individual case and
corrected if required.

2.1 Target Group Definition

The present documentation is directed to qualified electricians in the fields of
switch cabinet construction and maintenance, as well as qualified personnel
with specialized knowledge in device assembly and commissioning.

The qualifications for different areas of activity are listed below:

• trained individual
A person, who has been instructed by the plant operator in an

About these Instructions 2

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Operating Instructions

enCore FC

informational session on the tasks assigned to him or her, and on
possible hazards in case of improper behavior.

• specialist personnel
A person who has the ability, because of his or her technical
training, knowledge and experience, as well as his or her
knowledge of the relevant regulations, to carry out the work
assigned to him or her at the enCore FC, and to recognize and
avoid possible hazards independently.

• gas specialist
A person who has the ability, because of his or her technical
training, knowledge and experience, as well as his or her know-
ledge of the relevant standards and regulations, to carry out work in
gas systems, and to recognize possible hazards independently. A
gas specialist receives training for the specific location in which he
or she works, and is acquainted with the relevant standards and
regulations.

• authorized metrology expert
A person who has the ability and is authorized, because of his or
her technical training, knowledge and experience, to carry out
legally relevant tasks in gas systems within the scope of legal
metrology. An authorized metrology expert is acquainted with the
relevant standards and legal regulations that apply in specific
countries. In the European Union the legally relevant tasks are
executed by designated notified bodies.

• qualified electrician
A person who has the ability, because of his or her technical
training, knowledge and experience, as well as his or her know-
ledge of the relevant standards and regulations, to carry out work in
electrical systems, and to recognize and avoid possible hazards
independently. A qualified electrician receives training for the
specific location in which he or she works, and is acquainted with
the relevant standards and regulations.

2 About these Instructions

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Operating Instructions

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2.2 The enCore FC Manual at a Glance

The manual for the enCore FC device series is modular:

For all device types that can be used in legal metrology, there is a volume
that specifically describes the legally relevant functions and characteristics.
All other volumes of the manual apply to all devices of the enCore FC series,
i.e. they are independent of the device type.

The manual consists of the following volumes:

• “Instructions for Use in Legal Metrology”, enCore FC1 only
This volume focuses on the legally relevant properties and
functions of the FC1 flow computer.

• “Operating Instructions”
This volume describes the assembly, installation, commissioning
and maintenance of all enCore FC devices.

• “Configuration of Device Software”
This volume describes parameterizing devices of the enCore series
with the software system enSuite, the software download and
further services.

• “Basic System with SFBs”
This volume describes the basic system, which provides all basic
functions of the device software. The basic system e.g. manages
the system resources, the I/O boards or the connection to other
devices via digital protocols.

• Functionality of individual Application Function Blocks

Each volume describes the parameterization, function and
operation of each AFB. These volumes always describe the full
range of functions of the respective AFBs.

About these Instructions 2

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enCore FC

Delivery form of the individual volumes

Die Anleitung zur „Verwendung im gesetzlichen Messwesen“ und
die „Betriebsanleitung“ sind Produktbestandteile und werden in
gedruckter Form mit dem Gerät ausgeliefert.

Bewahren Sie diese Dokumente in unmittelbarer Nähe des
enCore FC zur Verwendung für das Fachpersonal der benannten
Stellen sowie für das Installations-, Bedienungs-, Wartungs- und
Reinigungspersonal jederzeit zugänglich auf.

Alle weiteren Bände des enCore FC-Handbuchs können Sie im
PDF-Format aus unserer Docuthek (www.docuthek.com)

herunterladen. Zusätzlich stehen hier die Anleitung zur „Operating
Instructions“ sowie die „Betriebsanleitung“ in digitaler Form zur
Verfügung.

Die Dokumente in der Docuthek werden regelmäßig aktualisiert.

Manuals as product components

The volume “Use in Legal Metrology” and this “Operating
Instructions” are product components and delivered in printed
form with the device. Therefore, these must always be kept in the
immediate vicinity of the enCore FC and easily accessible to the
installation, operational, maintenance and cleaning personnel.

All other volumes of the enCore FC manual can be downloaded
from our Docuthek (www.docuthek.com) in PDF format. In

addition, the instructions for "Use in Legal Metrology" as well as
the "Operating instructions" are available in digital form.

The documents in the Docuthek are regularly updated.

2 About these Instructions

enCore FC

Operating Instructions

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2.3 Text Labelling

Texts containing different contents are labelled differently. With the help of
following characteristics, you can identify which content of the text is pro-
vided to you:

2.3.1 Presentation of Safety and Risk Instructions

Hazard Warnings

Hazard warnings indicate hazardous situations which may result in material
damage and bodily harm or even death if disregarded.

Hazard warnings are described below:

DANGER WORD!

Type of danger

Consequences in case of non-compliance

Avoiding danger

The danger word signals the hazard level:

• DANGER!
… indicates an imminently hazardous situation that leads to death
or severe injuries.

• WARNING!
… indicates a possibly hazardous situation that may lead to death
or severe injury.

• CAUTION!
… indicates a possibly hazardous situation that may lead to slight
or minor injuries.

• ATTENTION!
… indicates a possibly hazardous situation that may lead to
material damage.

About these Instructions 2

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Safety Instructions

Safety instructions include notes and information which if disregarded may
lead to functions not working correctly or not working at all.

Safety instructions are described below:

Safety instruction (optional)

Safety instruction text

Tips and recommendations

Tips include notes and information that make it easier for the user to operate
the enCore FC.

Tips are described below:

Heading (optional)

Hint text

2.3.2 Paragraph Formats

► This triangle prompts you for an action.

 This character will show you the immediate result of your action.

For the enCore FC symbol, the result of your operation is shown in

Example

Multi-row examples are marked by two continuous blue lines and the
keyword “Example”.

running operation of the device after you have transferred an enSuite
parameterization to the device and the device is restarted with this para-
meterization.

2 About these Instructions

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Operating Instructions

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2.3.3 Character Formats

Example Use

Time Service

 chapter 2.3.3 Character

Formats (p. 17)

Tab Parameters

[OK]
[F1]

<Modbus AFB >

[Group 1.]Modbus

Names of the individual SFB and AFB soft-
ware elements of the enCore FC.

References to additional information are
marked with an arrow. If the arrow refers to
information within document, these referen-
ces are formated as hyperlinks in blue font.
You directly go to corresponding text pas-
sage by clicking the blue text.

Marking of graphic screen elements or
messages which you find again on the
screen. These include, for example, menu
items, marking of tabs and parameters.

Marking of buttons and keys are additionally
framed with square brackets.

Place holders are specified in angle-
brackets and represent the corresponding,
current value of your system – as in the ex-
ample the name of the Modbus AFB.

Optional information is specified in square
brackets. In the example, Group 1 is shown

only when a group has been created in your
device.

admin1

www.docuthek.com

Texts which you enter in enSuite in the
corresponding field.

links (Hyperlink)

About these Instructions 2

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Operating Instructions

enCore FC

generated counters

Example Use

Date & time

You can navigate through different displays
of enCore FC via hyperlinks. In the example,
you change to the Date & time display.

Update date and time

Actions are also marked in the enCore FC
display as hyperlinks. You carry out a
specific functionality when you activate an
action. In the example, the system time of
the device is updated.

readme.txt

All the alphabetical strings which depict
sheer ASCII character strings such as
identifier for physical quantities, directory or
file names.

Table 2-1: Character formats

2.3.4 Character Formats in Flow Charts

The individual elements are highlighted in the flow charts as shown in the
following. That way, they can be distinguished properly even on a black-and-
white printout:

Example Use

[V Input]

“Event messages”

enSuite parameters are presented with
square brackets and font color [green].

Export values, e.g. generated Flow

Conversion AFB

counters, have a

proportional font and blue font color.

Event-messages which are activated or
reset by an AFB are marked in quotation
marks and orange font.

Table 2-2: Character formats in flow charts

2 About these Instructions

enCore FC

Operating Instructions

Page 19 of 120

2.4 Limitation of Liability

All specifications and instructions in these Operating Instructions were
compiled after taking into consideration the applicable standards and
regulations, the current state of the art and the knowledge and experience
we gained over the years.

The manufacturer assumes no liability for loss due to:

• non-compliance with these Operating Instructions

• unintended use

• use of the device by non-instructed personnel

• unauthorized device modifications

• technical changes

• use of non-authorized replacement parts

The actual scope of delivery may differ from the explanations and de-
scriptions included here in case of special device designs, the use of
additional order options or because of the latest technical changes.

The obligations arranged in the delivery contract apply, as do the General
Terms and Conditions, manufacturer delivery conditions and current legal
regulations that apply at the time the contract was concluded.

Read through these Operating Instructions carefully before
beginning any work to and with the enCore FC, especially before
commissioning the device!

The manufacturer assumes no liability for loss and malfunctions
that result from non-compliance with these instructions.

We reserve the right to make technical changes within the scope of im-
proving performance characteristics and continuous development of the
device.

About these Instructions 2

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Operating Instructions

enCore FC

2.5 Applicable Standards and Guidelines

The construction, production and operation of the enCore FC is based on
the following standards and guidelines:

4

• EN 12405-1

5

Gas meter – Conversion devices – Part 1: Volume conversion

• EN 61000-6-2
Electromagnetic compatibility – Immunity for industrial environ-
ments

• EN 61000-6-3
Electromagnetic compatibility – Emission standard for residential,
commercial and light-industrial environments

• EN 60079-0
Explosive atmospheres – Equipment – General requirements

• EN 60079-11
Explosive atmospheres – Equipment protection by intrinsic safety “i”

• EN 60079-17
Explosive atmospheres – Electrical installations inspection and
maintenance

• EN 60079-25
Explosive atmospheres – Intrinsically safe systems

4

Further applicable standards and guidelines result from the specific fields of

application of the individual device.

5

Only applies to converters of the enCore FC series.

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Operating Instructions

enCore FC

3 Security considerations for your network

enCore FC devices are used in modern accounting infrastructures and
network control technology with the task of transmitting process information
such as counters, measurements and messages to an accounting center or
control station. Such a connection represents a significant security risk and
therefore careful consideration must be given to the design.

Reporting a security issue to Honeywell

As soon as you encounter a possible security gap of a Honeywell
product, please report it directly to Honeywell.

 FAQs 11.1 How to report a security vulnerability to Honeywell?
(p. 116)

Enforce a strong password policy

here are different attacks on passwords today, so you should follow the

T
best practices for managing your passwords. Here are some of the best
practices:

• Always change default passwords.

• Choose strong passwords.

Use a combination of uppercase and lowercase letters, numbers,
and special characters when assigning a password.

In addition, protection increases with the password length. A strong
password consists of at least 8 characters.

Document deviations of the best practices

If the system does not allow one of the best practices to be
followed this should be documented. For example: maybe you do
not allow the special character "=" in the password.

Security considerations for your network 3

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Operating Instructions

enCore FC

Preventing unauthorized external access using a firewall

To reduce the risk to your network, we highly recommend to include a
firewall or some other mechanism to limit the network traffic between the
(external) central accounting center resp. control station and the (internal)
network of the gas measuring plant.

Furthermore, we recommend to allow protocols and ports only that are
actually used for data exchange with the external network, e.g. by adding
these to the white list of the firewall ( 10.5.1 Data protocols and its TCP

default port (Ethernet), p. 113).

For example:

Fig. 3-1: Router and firewall between measurement plant and control station

plus data exchange via Modbus TCP in a trusted network – example

Operating Instructions

4 Safety

4.1 General Safety Instructions

WARNING!

Risk of explosion

A risk of explosion exists if the enCore FC device (FC1 or
MC1) is improperly assembled and connected!

• The enCore FC device must be installed outside of Ex zones
0, 1 and 2.

• Assemblies which are authorized as associated category ib
electrical equipment with intrinsically safe electrical circuits in
accordance with EN 60079-11 can be installed in the enCore
FC device, e.g. input boards with the label ExMFE5. The
enCore FC device is therefore suitable for connecting to
transmitters, pulse and signal sensors that are located in the
potentially explosive area e.g. in zone 1. A mixed connection
of intrinsically safe and non-intrinsically safe circuits is not
permitted for these assemblies.

• Only measurement transmitters and pulse sensors that follow
at least the requirements of the intrinsically safe protection
class [Ex ib Gb] II C may be connected to the ExMFE5
assembly terminals provided for that purpose.

• When using input boards of ExMFE5 type, it is not permitted
(according to the EC type examination certificate ATEX) to
include more than one ExMFE5 board (i.e. more than one
associated apparatus) into the same intrinsically safe circuit.

• All signals from the potentially explosive area (zone 0,
zone 1, zone 2) must be regulated using suitable Ex isolators
if they are connected to some other assembly group that is
not the input board ExMFE5.

enCore FC

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Safety 4

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Operating Instructions

enCore FC

• The regulations in the relevant standards, especially
EN 60079-0, EN 60079-11, EN 60079-17 and EN 60079-25,
must be obeyed unconditionally.

Safety and warning instructions

The following safety and warning instructions must be observed
unconditionally:

• Any individual appointed to perform work on or with the
enCore FC device must read and understand these
Operating Instructions before beginning work. This also
applies if the individual concerned has already worked with
such a device or a similar one, or was instructed by the
manufacturer.

• In order to avoid risks and to ensure that the enCore FC
device performs in an optimal manner, no changes or
modifications that were not expressly authorized by the
manufacturer may be performed on the device.

• The enCore FC device must not be exposed to temperatures
below −25°C or above +60°C during storage.

• A temperature that is between −10°C and +55°C must be en-
sured while the enCore FC device is being operated.

• The power supply in enCore FC device is over a 24 V DC,
and this supply must be protected externally using a 1A time-
delay fuse.

• The grounding system is connected to the power supply
socket PE for potential equalization.

• The threshold values listed in the certificates of conformity
(e.g. EC type examination certificate ATEX) for the boards to
be connected to the device must be observed.

The threshold values that are listed in the certificate of conformity
for the applicable authorization must be observed while using the
device within the scope of legal metrology e.g. of EU type
examination certificate (MID).

4 Safety

enCore FC

Operating Instructions

Page 25 of 120

For a description of the process boards  refer to chapter 5.5

Available Process Boards (p. 40).

4.2 Intended Use

The enCore FC device is designed and constructed exclusively for its
intended use as described here.

All enCore FC devices are process computer which process information on
the externally connected measurement devices and signal sensors.

The specific intended use varies according to device type:

• enCore FC1

The FC1 is mainly used for (fiscal) gas measurement. In this case,
the main task of the device is to convert the gas volume measured
at the measurement conditions to base conditions (volume
conversion). Moreover, the corresponding thermal energy and
mass can be calculated. The measured and/or calculated data can
be recorded and monitored.

The FC1 can also carry out other functions and calculations
depending on the scope of application (e.g. volume or mass flow
conversion for liquids).

Moreover, the FC1 can also be used to measure, record and
monitor other process signals.

• enCore MC1

The MC1 is a process computer, which processes the information
from the connected external measurement devices and signal
sensors. This device type is mainly used in industrial gas measure-
ment. The main tasks of the device are monitoring and controlling
processes. The measured and/or calculated data can be recorded
and archived.

Safety 4

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Operating Instructions

enCore FC

Compliance with all the specifications in these “Operating Instructions” also
falls under the device's intended use.

Any use of the enCore FC that goes beyond or deviates from its intended
use is considered a misuse of the device, and may lead to hazardous
situations.

Claims of any kind due to loss resulting from non-intended use of the device
are excluded.

Adhering to age and profession-specific regulations

When selecting a personnel, make sure to comply with the
specific regulations of the overall gas system that concern age
and occupation.

4.3 Unacceptable use while Impaired

Individuals whose ability to react is impaired, e.g. because of drugs, alcohol
or medication, are not permitted to operate, assemble and configure the
device. The operator is responsible for the careful selection of the personnel.

4.4 Operator Liability

The enCore FC is used in industrial applications. The operator of the device
is therefore subject to legal obligations of occupational health and safety.

In addition to the safety instructions in these Operating Instructions, current
regulations of safety, accident prevention and environmental protection must
be observed for the enCore FC area of application.

The following items especially apply:

• The operator must ensure compliance with the current regulations
of safety, accident prevention and environmental protection that
apply for the overall system in which the enCore FC is integrated.

• The operator must keep himself or herself informed of the
applicable occupational health and safety regulations, and
determine, over the course of a risk assessment, the additional

4 Safety

enCore FC

Operating Instructions

Page 27 of 120

risks that arise from the specific working conditions when the
enCore FC is being used. The operator must include these items in
the form of Operating Instructions for the enCore FC.

• The operator must review, over the entire operational life of the
enCore FC, whether the Operating Instructions prepared by him or
her correspond to the current status of the bodies of regulations,
and adapt the instructions if necessary.

• The operator must definitively regulate and establish the respon-
sibilities for enCore FC assembly, connection, commissioning,
operation and maintenance.

• The operator must ensure that all employees who work with the
enCore FC have read and understood these Operating Instructions.
In addition, the operator must train these personnel at regular
intervals and inform them of the risks involved with the device.

• The operator of the overall system in which the enCore FC is
integrated must provide the personnel with the required protective
equipment.

In addition, the operator is responsible for ensuring the enCore FC is always
in a technically perfect state. The following therefore apply:

• The operator must ensure that the installation and maintenance
work described in these Operating Instructions are performed
properly.

• The operator must have all safety installations checked regularly to
ensure they function correctly and are complete.

Operating Instructions

5 Design and Function

5.1 Functional Description of enCore FC devices

The specific function of an enCore device depends on its device type
( chapter 4.2 Intended Use, p. 25):

• enCore FC1

The FC1 is a process computer, which is mainly used as a flow
computer for natural gas, thus to measure and calculate the gas
flow.

• enCore MC1

The MC1 is a monitoring and controlling unit, mainly for use in
industrial gas measurement.

For these special tasks, various measuring devices are connected to the
device (depending on the application, e.g. gas meter, pressure transmitter,
temperature transmitter and gas quality measurement device).

The enCore FC provides various interface options for the various types of
measurement device types:

Device Type Connection Option

gas meter • pulse interface for turbine, rotary piston or

other pulse-generating gas meters

• serial interface for ultrasonic gas meters via
a manufacturer-specific digital protocol

• interface for gas meters with an encoder
index

pressure transmitter • 4 … 20 mA analog input

• HART protocol interface

temperature transmitter • resistance input for Pt100 with 4-wire

technology

• HART protocol interface

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enCore FC

5 Design and Function

enCore FC

Operating Instructions

Page 29 of 120

Device Type Connection Option

gas quality
measurement devices

• serial interface

• LAN interface

Table 1: Interface options

5.1.1 Number of Streams and their Flow Directions

The number of streams and their flow directions are variable since device
hardware and software can be extended. This number depends upon the
number of board slots available, individual hardware settings and the soft-
ware configuration.

5.1.2 International Standards

Flow Computers of the enCore FC device series support the following
international standards for the calculation of the gas characteristics which
are used for flow conversion. Which standards are supported in detail varies
according to device type:

Value Selectable Calculation Standard

compressibility • AGA8-92 DC (ISO 12213-2)

• SGERG-88 (ISO 12213-3)

• AGA-NX19 mod

• AGA-NX19 mod BR.KOR.3H

• AGA-NX19 GOST

• GOST 30319.2-2015

• GOST 30319.3-2015

gas density, relative density • AGA8-92 DC (ISO 12213-2)

• ISO 6976

• GOST 30319.3-2015

heating value, Wobbe index • ISO 6976

Design and Function 5

Page 30 of 120

Operating Instructions

enCore FC

Table 2: International standards

Depending on the field of application, the enCore FC supports other
European or international standards as well.

5.2 Device Description

The enCore FC is housed in a 19“ housing with 1/3 overall width (max. 4
process boards) or 1/2 overall width (max. 7 process boards).
screen as well as the 2 function keys and 5 navigation keys for operation are
located on the front panel. In addition, the USB connection, security switch
and 2 status LEDs are located on the front panel.

At the rear side of the device, the CPU board provides a LAN interface and
two RS232/RS422/RS485 serial interfaces. Devices with protocol interfaces
can be connected to these interfaces, e.g. gas quality measuring devices.

Various other I/O boards can be mounted from the rear side of the device.
The maximum number of boards depends upon the housing design. A
maximum of four process boards can be installed in a device with 1/3 overall
width, while a maximum of seven can be installed in a device with 1/2 overall
width.

6 The touch

The configuration of the I/O board equipment is variable. In principle, any I/O
board can be inserted into any slot. There might be individual limitations de-
pending on the type of the board.

The following board types are currently available:

6

 chapter 9.6 Housing dimensions (p. 93)

• ExMFE5 Ex input board

• MFE7 input board

• MFA8 output board

• digital communication boards MSER4

• digital communication boards ESER4