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Transcript of ISO 14617-6-E
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Reference numberISO 14617-6:2002(E)
ISO 2002
INTERNATIONAL STANDARD
ISO14617-6
First edition2002-09-01
Graphical symbols for diagrams Part 6: Measurement and control functions
Symboles graphiques pour schmas
Partie 6: Fonctions de mesurage et de contrle
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ISO 14617-6:2002(E)
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ISO 2002 All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm, without permission in writing from either ISO at the address below or ISO's member body in the country of the requester.
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ii ISO 2002 All rights reserved
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Contents Page
Foreword .................................................................................................................................................................... iv Introduction................................................................................................................................................................. v 1 Scope.............................................................................................................................................................. 1 2 Normative references.................................................................................................................................... 1 3 Terms and definitions ................................................................................................................................... 2 4 Functional links and junctions .................................................................................................................... 3 5 Point of measurement................................................................................................................................... 5 6 Operation of final controlling elements ...................................................................................................... 5 7 Information-processing functions............................................................................................................. 10 8 Binary logic functions................................................................................................................................. 20 9 Back-up functions ....................................................................................................................................... 20 10 Examples of use of symbols in control loops.......................................................................................... 21 Bibliography.............................................................................................................................................................. 23
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Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through ISO technical committees. Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 3.
The main task of technical committees is to prepare International Standards. Draft International Standards adopted by the technical committees are circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this part of ISO 14617 may be the subject of patent rights. ISO shall not be held responsible for identifying any or all such patent rights.
ISO 14617-6 was prepared by Technical Committee ISO/TC 10, Technical product documentation, Subcommittee SC 10, Process plant documentation and tpd-symbols.
ISO 14617 consists of the following parts, under the general title Graphical symbols for diagrams :
Part 1: General information and indexes Part 2: Symbols having general application Part 3: Connections and related devices Part 4: Actuators and related devices Part 5: Measurement and control devices Part 6: Measurement and control functions Part 7: Basic mechanical components Part 8: Valves and dampers Part 9: Pumps, compressors and fans Part 10: Fluid power converters Part 11: Devices for heat transfer and heat engines Part 12: Devices for separating, purification and mixing Part 15: Installation diagrams and network maps Other parts are under preparation.
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Introduction
The purpose of ISO 14617 in its final form is the creation of a library of harmonized graphical symbols for diagrams used in technical applications. This work has been, and will be, performed in close cooperation between ISO and IEC. The ultimate result is intended to be published as a standard common to ISO and IEC, which their technical committees responsible for specific application fields can use in preparing International Standards and manuals.
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INTERNATIONAL STANDARD ISO 14617-6:2002(E)
ISO 2002 All rights reserved 1
Graphical symbols for diagrams
Part 6: Measurement and control functions
1 Scope
This part of ISO 14617 specifies graphical symbols for measurement and control functions in diagrams, with the same symbols in simple applications possibly representing instead components or devices implementing such functions. For graphical symbols for measurement and control components and devices, see ISO 14617-5.
For the fundamental rules of creation and application of graphical symbols in diagrams, see ISO 81714-1.
For an overview of ISO 14617, information on the creation and use of registration numbers for identifying graphical symbols used in diagrams, rules for the presentation and application of these symbols, and examples of their use and application, see ISO 14617-1.
2 Normative references
The following normative documents contain provisions which, through reference in this text, constitute provisions of this part of ISO 14617. For dated references, subsequent amendments to, or revisions of, any of these publications do not apply. However, parties to agreements based on this part of ISO 14617 are encouraged to investigate the possibility of applying the most recent editions of the normative documents indicated below. For undated references, the latest edition of the normative document referred to applies. Members of ISO and IEC maintain registers of currently valid International Standards.
ISO 31-11:1992, Quantities and units Part 11: Mathematical signs and symbols for use in the physical sciences and technology
ISO 14617-1:2002, Graphical symbols for diagrams Part 1: General information and indexes
ISO 14617-2:2002, Graphical symbols for diagrams Part 2: Symbols having general application
ISO 14617-3:2002, Graphical symbols for diagrams Part 3: Connections and related devices
ISO 14617-4:2002, Graphical symbols for diagrams Part 4: Actuators and related devices
ISO 14617-5:2002, Graphical symbols for diagrams Part 5: Measurement and control devices
ISO 14617-8:2002, Graphical symbols for diagrams Part 8: Valves and dampers
ISO 81714-1:1999, Design of graphical symbols for use in the technical documentation of products Part 1: Basic rules
IEC 60617-12:1997, Graphical symbols for diagrams Part 12: Binary logic elements
IEC 60617-13:1993, Graphical symbols for diagrams Part 13: Analogue elements
IEC 61175:1993, Designations for signals and connections
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3 Terms and definitions
For the purposes of this part of ISO 14617, the following terms and definitions apply.
NOTE The list has been restricted to terms whose meaning is not obvious and which have not been defined elsewhere in an International Standard, or which have been defined in various ways in different standards. In preparing these definitions, ISO and IEC standards on terminology have been consulted; see the references in parentheses. However, most of the definitions in those standards were prepared by different technical committees within a restricted scope. This means that many terms so defined have to be given more general or neutral definitions when applied in the context of graphical symbols.
3.1 control purposeful action on or in a system to meet specified objectives
[IEC 60050-351]
NOTE Control may include monitoring and safeguarding in addition to the control action itself.
3.2 operation transfer of mechanical parts
[IEC 60050-441]
EXAMPLE The closing member of a shut-off valve or the contacts of an electromechanical switching device.
NOTE 1 The transfer direction may be defined as an opening operation, closing operation, ON-operation, OFF-operation, etc.
NOTE 2 The term has a specific meaning in conjunction with electric measuring relays. An over/under- relay is operating when its characteristic quantity reaches the set value by increasing/decreasing in value (IEC 60050-448).
3.3 manual control control of an operation by human intervention
[ISO 5598, IEC 60050-351]
3.4 automatic control, operation self-acting (not needing human intervention) [ISO 5598, IEC 60050-351]
3.5 final controlling element element which directly changes the output variable of a controlling system (manipulated variable)
[IEC 60050-351]
3.6 delay device device providing a time interval between the instant when an actuating force is applied or removed and the instant when the consequent change of position or state of the affected parts start
3.7 automatic return device device for returning movable parts, such as those of a valve to initial position (at-rest position), after an actuating force has been removed
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3.8 detent device which retains movable parts, for example, those of a valve, in a certain position until sufficient force is applied to overcome the detaining force in order to move the parts to another position
[ISO 5598]
3.9 latching device mechanical device giving movable parts, for example, those of a valve, the possibility to move in one direction but preventing them from returning until the latch has been released
[ISO 5598]
3.10 blocking device mechanical device preventing movable parts, for example, those of a valve, from moving in any direction until the blocking device has been released
3.11 interlocking device mechanical device making the operation of movable parts of one component, for example, a contactor, dependent on the position or state of another component with movable parts
[IEC 60050-441]
3.12 information processing performing of operations on data to obtain or treat information
3.13 primary location location of measuring instruments, potentiometers etc. accessible to an operator
cf. auxiliary location (3.14)
3.14 auxiliary location location of measuring instruments, potentiometers etc. not accessible to an operator, for example, behind a panel.
cf. primary location (3.13)
4 Functional links and junctions
4.1 Symbols of a basic nature
4.1.1 401 Functional connection
See R401 (4.2.1) and R402 (4.2.2).
4.1.2 501
Joint of connections
See R501 (4.2.3).
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4.2 Application rules for the symbols in 4.1
4.2.1 R401 Symbols for connections may cross each other.
4.2.2 R402 When confusion between symbols 401 (4.1.1) and 405 (3-4.1.5) to 410 (3-4.1.10) for other types of connections is likely, symbol 431 (4.3.1) shall be added.
4.2.3 R501 The diameter of the dot should be five times the width of the line.
The symbol may be omitted in a T-joint. For an example, see X505 (3-5.5.5).
4.3 Symbols giving supplementary information
4.3.1 431 Pure functional type
4.3.2 249 Direction of propagation, energy, or signal flow (simplex)
See R247 (4.4.1).
4.3.3 250 Direction of propagation, energy, or signal flow, alternative directions (half-duplex)
See R247 (4.4.1).
4.3.4 251 Direction of propagation, energy, or signal flow simultaneously in both directions possible (full-duplex)
See R247 (4.4.1).
4.3.5 234 Analogue signal
4.3.6 235 Digital signal
4.3.7 236 Binary signal
4.4 Application rules for the symbols in 4.3
4.4.1 R247 The symbol shall be shown on the connecting line and located such that it does not touch any other symbol.
The symbol may also be used to indicate the transfer direction of a component or device, in which case the symbol should be located on the outline of the basic symbol.
4.5 Application examples
See clause 10.
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5 Point of measurement
5.1 Symbol of a basic nature
5.1.1 1011 Point of measurement
See R1011 (5.2.1).
5.2 Application rule for the symbol in 5.1
5.2.1 R1011 The symbol shall be used if it is necessary to clearly indicate the location of the point of measurement. For an example, see X1011 (5.5.1).
5.3 Symbol giving supplementary information
None.
5.4 Application rule for the symbol in 5.3
None.
5.5 Application examples
5.5.1 X1011
249, 401, 1011, 2062
Measurement inside and near the bottom of a pressure vessel
5.5.2 X1012
249, 401, 405
Measurement in a pipeline
The use of symbol 1011 (5.1.1) is not regarded as necessary.
6 Operation of final controlling elements
6.1 Symbols of a basic nature
6.1.1 1021
Manual operation of a final controlling element
6.1.2 1022
Automatic operation of a final controlling element
The input may be a binary (#) or an analogue () signal. See R1021 (6.2.1).
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6.2 Application rules for the symbols in 6.1
6.2.1 R1021 If necessary, the input or inputs shall be provided with signal designations (see IEC 61175) indicating the action of the signals.
When the final controlling element is of the bistable type, two input signals are needed. For an example, see X1032 (6.5.12). In many cases the diagram may be simplified by indicating the two inputs by only one functional link provided with two signal names. For an example, see X1033 (6.5.13).
6.3 Symbols giving supplementary information
6.3.1 651 Form 1
200 %
6.3.2 652 Form 2
200 %
Delay device where the action is delayed when the direction of movement is towards the centre of the arc
See R651 (6.4.1).
6.3.3 653
200 %
Delay device where the action is delayed in both directions
See R651 (6.4.1).
6.3.4 654
200 %
Automatic return device
The return direction is towards the apex.
See R652 (6.4.2) and R1022 (6.4.3).
6.3.5 655
200 %
Detent for detaining in a discrete position
See R652 (6.4.2).
6.3.6 659
200 %
Detent for detaining in any position
See R652 (6.4.2).
6.3.7 660
200 %
Detent for detaining in any position, drift to the left permitted
See R1023 (6.4.4).
6.3.8 661 200 %
Latching device
6.3.9 664 200 %
Blocking device
6.3.10 666 200 %
Interlocking device
6.4 Application rules for the symbols in 6.3
6.4.1 R651 The double line shall be attached to the symbol for the element of a component or device that is delayed. For examples, see X653 (4-4.5.3), X654 (4-5.5.4) and X1023 (6.5.3).
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6.4.2 R652 The symbol may be omitted if the behaviour of the component is understood by the symbol for the actuator, cf. 4-5.1, R683 (4-5.2.3) and R685 4-5.2.5). For example, see 4-5.5.
6.4.3 R1022 Besides signifying the meaning automatic return when the control signal changes to zero (shut-off valves) or a lower value (control valves), the symbol shall be used for indication of automatic return when the auxiliary supply voltage or pressure fails.
When the symbol is used in connection with a symbol for a valve (see ISO 14617-8) the following applies.
Symbol pointing towards the symbol for the valve: valve returns to, or towards, closed position when the control signal becomes zero or decreases, or when the auxiliary supply fails for examples, see X1022 (6.5.2), X1026 (6.5.6), and X1028 (6.5.8). Cf. R5101 (8-4.2.1).
If no ambiguity is likely, the symbol may be omitted in this case.
Symbol pointing from the symbol for the valve: valve returns to, or towards, open position when the control signal becomes zero or decreases, or when the auxiliary supply fails for an example, see X1027 (6.5.7). Cf. R5101 (8-4.2.1).
The symbol may be supplemented by a figure n %, indicating restricted closing or opening. For examples, see X1029 (6.5.9) and X1030 (6.5.10).
When the symbol is used in connection with symbols for devices other than valves (e.g. a pump), the corresponding principle applies. For example, an automatic return symbol pointing towards the symbol for a pump implies that the pump stops (will take on its inactive state) when the output signal becomes zero or when the supply fails. For an example, see X1031 (6.5.11).
6.4.4 R1023 When the symbol is used in connection with a symbol for a valve, the following applies.
Symbol pointing towards the symbol for the valve: safe and permitted drift is towards closed state of the valve for an example, see X1035 (6.5.15).
Symbol pointing from the symbol for the valve: safe and permitted drift is towards open state of the valve.
6.5 Application examples
NOTE For more examples of the application of symbols for automatic return, detaining, latching, delaying, etc., see ISO 14617-4:2002, 4.5.
6.5.1 X1021
403, 1021, 2101
Manual operation of valve
6.5.2 X1022
403, 654, 1021, 2101
Manual operation of valve with automatic return to closed position
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6.5.3 X1023
403, 651, 654, 1021, 2101
Manual operation of valve with delayed automatic return to closed position
6.5.4 X1024
403, 655, 1021, 2101
Manual operation of valve with two stable positions, closed and open
6.5.5 X1025
403, 659, 1021, 2101
Manual operation of valve with infinite number of stable positions
6.5.6 X1026
401, 403, 654, 1022, 2101
Automatic operation of valve with automatic return to closed position
When the statement ABC is true (the signal has taken on its 1-state), the valve is opened. When the statement ABC is not true (the signal has taken on its 0-state), or when the auxiliary supply fails, the valve returns to its closed position.
6.5.7 X1027
401, 403, 654, 1022, 2101
Automatic operation of valve with automatic return to open position
When the statement ABC is true (the signal has taken on its 1-state), the valve is closed. When the statement ABC is not true (the signal has taken on its 0-state), or when the auxiliary supply fails, the valve returns to its open position.
6.5.8 X1028
234, 401, 403, 654, 1022, 2101
Automatic operation of valve controlled by analogue signal
The throughput increases/decreases when the value of the analogue signal increases/decreases. When the analogue signal takes on its minimum value or when the auxiliary supply fails, the valve closes.
6.5.9 X1029
401, 403, 654, 1022, 2101
Automatic operation of valve with automatic return towards closed position
When the statement ABC is true (The signal has taken on its 1-state.) the valve is opened. When the statement ABC is not true (The signal has taken on its 0-state.) or when the auxiliary supply fails, the valve returns to 20 % open position.
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6.5.10 X1030
401, 403, 654, 1022, 2101
Automatic operation of valve with automatic return towards open position
When the statement ABC is true (the signal has taken on its 1-state), the valve is closed. When the statement ABC is not true (the signal has taken on its 0-state), or when the auxiliary supply fails, the valve returns to 70 % open position.
6.5.11 X1031
401, 403, 654, 1022, 2301
Automatic operation of pump
When the binary input signal stands at its 1-state the pump is running. When the binary input signal takes on its 0-state or when the auxiliary supply fails, the pump stops.
6.5.12 X1032
401, 403, 655, 1022, 2101
6.5.13 X1033
401, 403, 655, 1022, 2101
Automatic operation of valve with two stable positions, open and closed
When the binary signal OPEN takes on its 1-state in the form of a pulse, the valve is instantaneously opened. When the binary signal CLOSE takes on its 1-state in the form of a pulse the valve is instantaneously closed.
Two methods are shown.
6.5.14 X1034
401, 403, 659, 1022, 2101
Automatic operation of valve with infinite number of stable positions
When the binary signal OPEN takes on its 1-state the valve starts opening. When the binary signal CLOSE takes on its 1-state the valve starts closing. As soon as the input signal turns to 0-state the operation is interrupted.
6.5.15 X1035
234, 401, 403, 659, 1022, 2101
Automatic operation of valve controlled by analogue signal
The throughput increases/decreases when the value of the analogue signal increases/decreases. If the analogue signal or the auxiliary supply (if any) fails, the valve remains in its latest position.
6.5.16 X1036
401, 403, 660, 1022, 2101
Automatic operation of valve with infinite number of stable positions
When the binary signal OPEN takes on its 1-state the valve starts opening. When the binary signal CLOSE takes on its 1-state the valve starts closing. As soon as the input signal turns to 0-state the operation is interrupted. Drift towards the closed position is permitted.
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7 Information-processing functions
7.1 Symbols of a basic nature
NOTE For general application rules, see R1041 (7.2.1) to R1045 (7.2.5).
7.1.1 1041
Information-processing function
7.1.2 1042
Information-processing function performed by time-sharing, for example, in a programmable device or computer
See R1046 (7.2.6).
7.2 Application rules for the symbols in 7.1
7.2.1 R1041 When a symbol is provided with an enabling input, this input shall be located 90 apart from the input. For examples, see X1043 (7.5.3) and X1044 (7.5.4).
When the symbols are used for analogue signals and provided with an enabling input, the effect of the enabling signal when this has taken on its disabling state shall be noted on the opposite side of the enabling input, when applicable. For an example, see X1073 (7.5.33).
7.2.2 R1042 The asterisk shall be replaced with
first, a letter symbol for measured or initiating variable according to 7.3.1; second, a letter symbol for modifier according to 7.3.1, when applicable; and third, a letter or more letters for function according to 7.3.1. The double asterisk shall be replaced with
a symbol according to 7.3.2 if the letter symbol for function is A, S or Z, when applicable, or else shall be omitted;
a symbol according to 7.3.3 if the letter symbol for function is Y. 7.2.3 R1043 If necessary, the symbols may be extended to give place for a code consisting of many
letters:
7.2.4 R1044 An identifying number may be located below the letter code for function.
7.2.5 R1045 For analogue-converting or -computing functions (letter code Y), the use of symbols according to IEC 60617-13 may be used instead of the symbols given in 7.1.
7.2.6 R1046 If all measurement and control functions (except those directly connected to the process flow) are performed by time-sharing, symbol 1041 (7.1.1) may be used instead.
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7.3 Symbols giving supplementary information
7.3.1 Letter symbols for data processing functions
NOTE For application rules, see R1051 (7.4.4) to R1067 (7.4.20).
Symbol Measured or initiating variable
Modifier Function
7.3.1.1 1051 A Alarming
7.3.1.2 1052 B Displaying discrete state
7.3.1.3 1053 C Controlling
7.3.1.4 1054 D Density Difference
7.3.1.5 1055 E Electric variable Sensing
7.3.1.6 1056 F Flow rate Ratio, fraction
7.3.1.7 1057 G Gauge, position, length Viewing
7.3.1.8 1058 H Hand
7.3.1.9 1059 I Indicating
7.3.1.10 1060 J Power Scanning
7.3.1.11 1061 K Time Time rate of change
7.3.1.12 1062 L Level
7.3.1.13 1063 M Moisture, humidity Momentarily
7.3.1.14 1064 N Users choice Users choice
7.3.1.15 1065 O Users choice
7.3.1.16 1066 P Pressure, vacuum Connection of test point
7.3.1.17 1067 Q Quality Integral, total Integrating, summing
7.3.1.18 1068 R Radiation Registering, recording
7.3.1.19 1069 S Speed, frequency Switching
7.3.1.20 1070 T Temperature Transmitting
7.3.1.21 1071 U Multi-variable Multi-function
7.3.1.22 1072 V Users choice Impact on process by valve, pump, etc.
7.3.1.23 1073 W Weight, force Multiplying
7.3.1.24 1074 X Unclassified Unclassified
7.3.1.25 1075 Y Users choice Converting, computing
7.3.1.26 1076 Z Number of events, quantity
Emergency or safety acting
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7.3.2 Letter codes for set values
7.3.2.1 1081 H High
7.3.2.2 1082 HH
7.3.2.3 1083 H2
Very high
7.3.2.4 1084 HHH
7.3.2.5 1085 H3
Extremely high
7.3.2.6 1086 L Low
7.3.2.7 1087 LL
7.3.2.8 1088 L2
Very low
7.3.2.9 1089 LLL
7.3.2.10 1090 L3
Extremely low
7.3.2.11 1091 HL High or low
7.3.3 Other general functions
NOTE Symbols for other general functions are to be found in ISO 14617-2. However, in order to facilitate the use of this part of ISO 14617, some of the symbols are also shown here. For the construction of mathematical expressions, see ISO 31-11.
7.3.3.1 115 Amplification
NOTE The triangle is pointed in the direction of transmission.
7.3.3.2 123
Delay
t1 is the switch-on delay, t2 the switch-off delay.
See R112 (7.4.1) and the explanation in 2-4.3.2.9.
7.3.3.3 124 Hysteresis
7.3.3.4 133 Form 1
7.3.3.5 134 Form 2
High limitation
7.3.3.6 135 Form 1
7.3.3.7 136 Form 2
Low limitation
7.3.3.8 137 Dead band; threshold
7.3.3.9 138 Selection of highest value
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7.3.3.10 139 Selection of lowest value
7.3.3.11 140 Comparing
7.3.3.12 142 Logic AND-function
7.3.3.13 143 Logic OR-function
7.3.3.14 145 Complex function
See R116 (7.4.2).
7.3.3.15 161
Dividing
NOTE The symbol for division in the form of an oblique stroke is not used because reserved for conversion, see symbol 112 (2-4.3.2.2).
7.3.3.16 162 Bias
See R117 (7.4.3).
7.3.3.17 163 Reverse
7.3.3.18 181
Logic negation (shown at an input and an output)
7.3.4 Indication of location
NOTE For application rules, see R1101 (7.4.21).
7.3.4.1 1101
Primary location in a central control room, for example, of a control station
7.3.4.2 1102
Auxiliary location in a central control room
7.3.4.3 1103
Primary location in a local control room or on a local control panel
See R1102 (7.4.22).
7.3.4.4 1104
Auxiliary location in a local control room or on a local control panel
See R1102 (7.4.22).
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7.4 Application rules for the symbols in 7.3
7.4.1 R112 If only switch-on delay occurs, t2 shall be omitted or replaced with 0. If only switch-off delay occurs, t1 shall be omitted or replaced with 0. If t1 = t2, the notation may be replaced with the letter t centred.
The notations may be replaced with the actual values.
If the delay type is obvious, the notations may be left out.
7.4.2 R116 The shall be supported by an indication of the function or a reference to an explanation. This information shall be stated within square brackets, for example, [Table 1].
7.4.3 R117 The asterisk shall be replaced with +, , or , depending on the type of bias. 7.4.4 R1051 When two or more code letters for function according to the last column in 7.3.1 occur, the
order of sequence shall be
G, I, B, R, C, T, X, Y, Q, S, Z, A
Examples of complete letter codes according to this rule:
QRC Quality recording and control
EIC Indication and control of electric variable, for example, voltage
TIT Temperature indication and transmitting
FRCQ Flow rate recording and control with summation of volume
PDICA Pressure difference indication, control and alarm
7.4.5 R1052 A Users choice letter shall be used for unlisted meanings used repetitively in a project. The meanings shall be explained on the diagram or in a supporting document.
7.4.6 R1053 The letter C for function shall be used both for feedback and open loop control functions as well as for the setting of reference values. However, for control by switching on or off by the operator or by the process itself the letter S shall be used for function.
7.4.7 R1054 The letter G for function refers to viewing, for example, by means of a sight glass or a television monitor.
7.4.8 R1055 The letter H for initiating variable stands for all types of manual actuation, for example, setting of reference value for feedback control and stop/start of a pump.
7.4.9 R1056 The letter I for function applies to analogue and digital readout functions of an actual measurement. It may also be used for indication of a setting value.
NOTE 1 For discrete indication, see letter B.
NOTE 2 For simultaneous indication and recording, see R1062 (7.4.15).
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7.4.10 R1057 In the electrical field, the letter J as measured variable represents active power. For reactive power and apparent power, the letter J shall be used and, outside the circle, the annotation REACT. or APPAR.
7.4.11 R1058 The letter K as modifier shall be used for, for example, acceleration (SK) and temperature derivative (TK).
7.4.12 R1059 The letter M as modifier refers to a pulse-shaped output signal. The function of a manually actuated push-button (with automatic return) should be indicated thus:
7.4.13 R1060 The letter P as function shall be used to indicate the possibility of connecting, for example, a testing device to a process flow path, for example, a flow rate indicator. For an example, see X1052 (7.5.12).
7.4.14 R1061 The letter Q as measured variable should be supplemented with an indication outside the circle, specifying the type of quality.
7.4.15 R1062 The letter R as function shall be used for simultaneous recording and indication.
7.4.16 R1063 For the choice between letters C and S as function, see R1053 (7.4.6).
7.4.17 R1064 When the letter U for multivariable is used, it shall be made obvious to the reader of a diagram which variables are indicated, this being done, for example, by using the diagram itself or by a reference to an explanation.
7.4.18 R1065 When the letter U for multi-function is used, it shall be made obvious to the reader of a diagram which functions are indicated, this being done, for example, by a reference to an explanation.
7.4.19 R1066 The letter X shall be used for unlisted meanings used only to a limited extent. The letter may have any number of meanings as measured variable and any number of meanings as function. The meaning shall be defined just outside the circle.
7.4.20 R1067 The letter Z as measured variable shall be used when control or monitoring responses are event-driven as opposed to time- or time schedule-driven. The letter may also signify presence or state.
7.4.21 R1101 The symbols for location may be placed at any height inside the symbols given in 7.1. Absence of a location symbol indicates that
the location has not been decided or is of less interest, or the device implementing the function is field-mounted. It shall be stated on the diagram which of these two possibilities applies, if it is not already obvious.
7.4.22 R1102 The symbol may be supplemented with information on the name of the local control room or the local control panel, just outside the symbols from 7.1, for example, COMPRESSOR, i.e. the local control room or local control panel for a compressor.
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16 ISO 2002 All rights reserved
7.5 Application examples
NOTE In the application examples, the signal direction is from left to right if not otherwise specified by the use of symbols 249 (4.3.2) to 251 (4.3.4).
7.5.1 X1041
181, 401, 1041, 1069, 1075
Information processing function with negated input
When the statement COLD is true, then the statementSTART is not true (is false).
7.5.2 X1042
181, 401, 1041, 1056, 1072
Information processing function with negated output
When the statement NOTRDY (not ready) is true, then the statement OPEN is not true.
7.5.3 X1043
401, 1041, 1069, 1075
Information processing function with enabling
When the statement START1 is true, the statement START2 is true provided the statement ENABLE istrue.
7.5.4 X1044
181, 401, 1041, 1069, 1070
Information processing function with negated enabling(disabling)
If the temperature is low, then the statement ALARM is true provided the statement SW_OFF is not true.
7.5.5 X1045
401, 659, 1041, 1056, 1075
Information processing function with retained output signal
The value of the signal FLOWR2 (flow rate 2) is the same as that of the signal FLOWR1. However, if FLOWR1 disappears, FLOWR2 maintains its latest value.
7.5.6 X1046
401, 1041, 1058, 1069
Manual switching, for example, for start and stop of motor-pump set
7.5.7 X1047
401, 1041, 1053, 1058, 1059
Manual setting of set value of feedback controlfunction with indication of set value, or manual control of control valve with indication
7.5.8 X1048
249, 401, 405, 1041, 1056, 1059
Flow rate indication
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ISO 2002 All rights reserved 17
7.5.9 X1049
249, 401, 1041, 1059, 1060, 2301
Pump motor power indication
7.5.10 X1050
249, 401, 405, 1041, 1055, 1068
Voltage registering
7.5.11 X1051
249, 401, 405, 1041, 1066, 1070
Pressure transmitting
7.5.12 X1052
401, 405, 1041, 1066
Pressure testing facility by direct connection to process flow
7.5.13 X1053
249, 401, 405, 1041, 1056, 1068, 1070
Flow rate transmitting and registering of ratio between two flow rates
7.5.14 X1054
249, 301, 401, 405, 1041, 1054, 1059, 1066, 1070, 2602
Difference pressure transmitting for strainer and indication
7.5.15 X1055
249, 401, 405, 1041, 1051, 1060, 1068, 1070, 1081
Temperature registering by scanning and alarm at high temperature
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18 ISO 2002 All rights reserved
7.5.16 X1056
249, 401, 405, 1041, 1056, 1067, 1068, 1070
Recording of flow rate with summation of volume
7.5.17 X1057
249, 401, 1041, 1059, 1062, 2061
Indication of level in a vessel
7.5.18 X1058
401, 1041, 1057, 1062, 2061
Indication of level in a vessel by viewing
7.5.19 X1059
249, 401, 1011, 1041, 1059, 1070, 2061
Measuring point inside and at top of vessel, temperature transmitting and indication
7.5.20 X1060
249, 401, 1041, 1057, 1070, 1074
Television transmission and monitoring
7.5.21 X1061
249, 401, 1041, 1053, 1058, 1059, 1060
Indication and feedback control of electric reactive power
7.5.22 X1062
249, 401, 405, 1041, 1051, 1066, 1081
High-pressure alarm
7.5.23 X1063
249, 401, 405, 1041, 1069, 1070, 1086
Temperature switching
The output signal takes on its 1-state when the temperature assumes a value below the set point.
7.5.24 X1064
181, 249, 401, 405, 1041, 1069, 1070, 1086
Temperature switching
The output signal takes on its 0-state when the temperature assumes a value below the set point.
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ISO 2002 All rights reserved 19
7.5.25 X1065
249, 401, 1041, 1051, 1059, 1062, 1068, 1070, 1091, 2061
Indicating and transmitting of level in a vessel, registering and alarm at high or low level
7.5.26 X1066
106, 401, 1041, 1056, 1075
Summing of flow rate signals:
D = A + B C
7.5.27 X1067
106, 401, 1041, 1056, 1075
Subtraction of flow rate signals:
C = A B
7.5.28 X1068
234, 401, 1041, 1056, 1075
Square root extraction of flow rate signal
7.5.29 X1069
133, 234, 401, 1041, 1056, 1075
Limitation of high values of flow rate signal
7.5.30 X1070
139, 234, 401, 1041, 1056, 1075
Selection of the lowest flow rate signal
7.5.31 X1071
112, 234, 235, 401, 1041, 1056, 1075
Conversion of analogue flow rate signal to digital form
7.5.32 X1072
234, 401, 1041, 1056, 1075
Flow rate computing
When the enabling binary signal takes on its 1-state the output signal is the same as the input signal. When the enabling signal takes on its 0-state the output signal assumes a value representing 100 % of the rated value of the flow rate.
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20 ISO 2002 All rights reserved
7.5.33 X1073
181, 234, 401, 1041, 1056, 1075
Flow rate computing
When the enabling binary signal takes on its 0-state the output signal is the same as the input signal. When the enabling signal takes on its 1-state the output signal assumes a value representing 20 % of the rated value of the quantity being measured.
7.5.34 X1074
234, 401, 659, 1041, 1062, 1075
Level computing
When the enabling binary signal takes on its 1-state the output signal is the same as the input signal. When the enabling signal takes on its 0-state the output signal retains its latest momentary value.
7.5.35 X1075
249, 401, 1041, 1059, 1070, 1101
Temperature indication in central control room
7.5.36 X1076
249, 401, 1041, 1059, 1070, 1102
Temperature indication in central control room; instrument not accessible to the operator
7.5.37 X1077
249, 401, 1041, 1059, 1070, 1103
Temperature indication in local control room designated +B5R16 or on local control panel in that room
8 Binary logic functions
See IEC 60617-12.
9 Back-up functions
9.1 Symbols of a basic nature
See 7.1.
9.2 Application rule for symbols in 9.1
9.2.1 R1201 Back-up functions shall be indicated by a symbol abutted on the symbol for the ordinary function and unconnected to the functional link. For an example, see X1081 (9.5.1).
9.3 Symbol giving supplementary information
None.
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ISO 2002 All rights reserved 21
9.4 Application rule for symbol in 9.3
None.
9.5 Application example
9.5.1 X1081
249, 401, 1041, 1042, 1053, 1059, 1070
Temperature indication and control performed by computer with back-up by discrete device
10 Examples of use of symbols in control loops
10.1 X1101
401, 403, 654, 1022, 1041, 1058, 1069, 2101
Manual, remote control of valve with automatic return to closed position
10.2 X1102
249, 401, 403, 501, 659, 1022, 1041, 1057, 1058, 1059, 1069, 1070, 2101
Manual, remote control of valve with infinite number of stable positions and indication of the valve position
10.3 X1103
201, 234, 401, 403, 654, 1022, 1041, 1053, 1058, 1059, 2101
Manual, remote control of control valve with indication of set value
10.4 X1104
201, 249, 401, 403, 654, 1022, 1041, 1053, 1056, 1058, 1059, 1068, 1070, 2101
Flow rate feedback control
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22 ISO 2002 All rights reserved
10.5 X1105
201, 249, 301, 401, 403, 654, 1022, 1041, 1042, 1053, 1056, 1058, 1059, 1068, 1070, 2101, 2501
Temperature-flow rate cascade control
10.6 X1106
201, 249, 401, 403, 654,1022, 1041, 1042, 1053, 1056, 1058, 1059, 1070, 1075, 2101
Flow rate feedback control, based on square-root value of flow rate
10.7 X1107
181, 201, 249, 401, 403, 654, 1022, 1041, 1042, 1053, 1056, 1058, 1059, 1069, 1070, 1075, 1081, 2101
Flow rate feedback control with automatic closing of valve at flow ratehigher than set value
10.8 X1108
101, 106, 181, 249, 401, 403, 654, 1022, 1041, 1056, 1058, 1063, 1067, 1069, 1070, 1081, 2101, IEC
Flow rate feedback control where valve opens at manual command and closes when preset volume reached or by manual stop command
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ISO 14617-6:2002(E)
ISO 2002 All rights reserved 23
Bibliography
[1] ISO 5598:1985, Fluid power systems and components Vocabulary
[2] IEC 60050-351, International Electrotechnical Vocabulary Part 351: Automatic control
[3] IEC 60050-441, International Electrotechnical Vocabulary Part 441: Switchgear, controlgear and fuses
[4] IEC 60050-448, International Electrotechnical Vocabulary Part 448: Power system protection
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ISO 14617-6:2002(E)
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