KKS Handbook Rev B
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LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
KKS HANDBOOK TABLE of CONTENT 1.
Introduction ......................................................................................................................................2
2.
Scope of KKS.....................................................................................................................................3
3.
4.
2.1
Type of code............................................................................................................................................3
2.2
Break down levels, prefix and breakdown symbols .............................................................................4
2.3
KKS code ................................................................................................................................................5
2.4
Contents of data characters ...................................................................................................................5
2.5
Break down level 0.................................................................................................................................6
2.6
Break down level 1.................................................................................................................................6
2.7
Break down level 2.................................................................................................................................7
2.8
Break down level 3.................................................................................................................................8
Numbering ........................................................................................................................................9 3.1
FN numbering .........................................................................................................................................9
3.2
AN numbering ........................................................................................................................................9
3.3
Numbering of valves..............................................................................................................................9
Location Code .................................................................................................................................11 4.1
5.
6.
Identification of Cables ..................................................................................................................12 5.1
Cables....................................................................................................................................................12
5.2
Cable numbering .................................................................................................................................12
Identification of I&C equipment....................................................................................................13 6.1
7.
Coding of structures ............................................................................................................................11
Signal identification.............................................................................................................................13
KKS Reference List.........................................................................................................................15 7.1
Breakdown level 1................................................................................................................................15
7.2
Breakdown level 2................................................................................................................................37
7.3
Breakdown level 3................................................................................................................................45
7.4
Signal reference list .............................................................................................................................48
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1. Introduction The main purpose of this handbook is to define the methods used by Voith Siemens for identification in mechanical, electrical, control and instrumentation engineering. For this purpose Voith Siemens has chosen the identification system KKS (G: Kraftwerk Kennzeichnen System, E: Identification Systems for Power Plants). Voith Siemens has certain guidelines which are within the limits given by VGB (Technische Vereinigung der Grosskraftwerksbetreiber E.V.). These guidelines apply on the different Break Down Levels (BDL) in the identification system. This KKS-handbook contains certain guidelines made by Voith Siemens. The KKS codes shown in this handbook are only for clarification and can not be used directly during any project. The guidelines do not replace the guidelines from VGB, listed in Chapter 1. The compendium of “Directives from the Owner to the Contractor regarding the use of KKS for Voith Siemens” on the following pages has to be studied carefully prior to any work carried out in connection with KKS coding. If there are any disputes between the Guidelines and the Handbook, the Handbook shall prevail. In this KKS Handbook there are special rules which apply for Voith Siemens and are not described in the Guidelines.
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2. Scope of KKS The Identification System for Power Plants “KKS” serves to identify Power Plants, sections of plants and items of equipment in any kind of Power Plants according to task, type and location. It also serves to identify Sub Stations and overhead lines in the same manner. The KKS key is based on the IEC and ISO standards together with the DIN 40719 PART 2 (IEC 750). These KKS guidelines do not contain rules on: • Combination of the code with other identification systems. • Methods of marking, e.g. in control rooms, local control stations, labelling off components and identification of documents. • Open text abbreviations. • Identification/numbering of drawings. The following guidelines and explanations issued by VGB are valid, and where not in contradiction to the handbook, they do apply. • KKS Guidelines (4th edition 1995) • KKS-Application Commentaries, Part A General (1st edition 1988) • KKS-Application Commentaries, Part B Engineering Discipline, Part B1, Identification in Mechanical Engineering (1st edition 1988) • KKS-Application Commentaries, Part B Engineering Discipline, Part B2, Identification in Civil Engineering (1st edition 1988) • KKS-Application Commentaries, Part B Engineering Discipline, Part B3, Identification in Electrical and Control and Instrumentation Engineering (1st edition 1988) • KKS-Application Commentaries, Part B Engineering Discipline, Part B4, Identification in Electrical and Control and Instrumentation Engineering (1st edition 1993)
2.1
Type of code
The KKS has three different types of codes, which can be used together or separately. These codes are the process-related code, the point of installation code and the location code. These codes are subdivided into 3 and 4 Break Down Levels (BDL). Process related Code Process related identification of systems and items of equipment according to their function in mechanical, civil, electrical and control and instrumentation engineering. As example there are pipes, pumps, valves, motors, measurements, switches, transformers etc. Point of installation Code Identification of points of installation of electrical and control and instrumentation equipment in installation units e.g. in cabinets, panels, consoles etc. Location Code Identification of various structures, such as dams, tunnels, buildings, floors, and rooms and fire areas.This code is also used in connection with preventive maintenance of buildings and structures. Further more this code is used to identify the location of mechanical components in the same manner as the point of installation code is used in electrical- and control and EMPLOYER.
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instrumentation engineering.
2.2
Break down levels, prefix and breakdown symbols
Definitions for prefixes and breakdown symbols for writing these codes are in DIN 40719, part 2. The following fig. 1.1 shows the role of the codes on different BDL´s.
Fig. 1.1 Break Down Levels for various types of codes The “full stop” breakdown symbol for point of installation identification must always be written. The prefix symbols may be omitted if the information content of the codes remains unambiguous. In front of these codes there is a BDL −1 and this BDL is used for identification of Power Plants and Sub Stations. It does not belong to the KKS code issued by VGB, and is not used by Voith Siemens, (see table 1.1 - 1.4). As an example the following is mentioned:
BDL -1 0 1 2 3
Area Plant Part of a plant System Equipment (part of system) Component (part of equipment)
Example Lotru HPP Unit 1 Governor Hydraulic Unit Pressure Measurement Pressure switch
KKS LOTR 10 MEX11 CP101 -S01
Table 1.1 Example, use of Break Down Levels.
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2.3
KKS code
The KKS code consists of alpha letters (A) and numbers (N). The code is divided in 4 (0-3) BDL´s in the process related code and in 3 (0-2) BDL´s in the point of installation code and the location code. BDL
0
Definition
1
Part of plant
Name
G
Type of key
(N)
N
System code
2
3
Equipment unit code
Component code
F0
F1
F2
F3
FN
A1
A2
AN
A3
B1
B2
BN
(N)
A
A
A
N N
A
A
N N N
(A)
A
A
N N
Table 1.2 KKS codes.
2.4
Contents of data characters
It shall be clearly stated that all explanations in this book are related to the process code unless otherwise specified. In the KKS key the use of the alpha symbols (A) is defined in most cases. Still there are some codes that are available for free use, see chapters 4.7 and 4.9. The definition of the use of numerical symbols (N) is defined in this book, according to the regulations valid by Voith Siemens. The letters I and O are not permitted except on BDL −1 and BDL 0 in the KKS code, to avoid misunderstanding between I and 1 (one) on one hand and O and 0 (zero) on the other hand.
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2.5
Break down level 0 BDL Definition
0
1
2
3
Part of plant
System code
Equipment unit code
Component code
Name
G
Type of key
(N)
N
F0
F1
F2
F3
FN
A1
A2
AN
A3
B1
B2
BN
(N)
A
A
A
N N
A
A
N N N
(A)
A
A
N N
Table 1.5 BDL 0. The KKS key allows the use of alpha- and numerical symbols on BDL 0. The definition of the use of numerical symbols (N) is defined in this book, according to the regulations valid by Voith Siemens. BDL 0 1 2 3 x 0
Description Unit 1 Unit 2 Unit 3 Unit x Common related Table 1.6 BDL 0 definition
2.6
Break down level 1 BDL Definition
0
1
2
3
Part of plant
System code
Equipment unit code
Component code
Name
G
Type of key
N
N
F0
F1
F2
F3
FN
A1
A2
AN
A3
B1
B2
BN
(N)
A
A
A
N N
A
A
N N N
(A)
A
A
N N
Table 1.7 BDL 1. The first seat in this BDL (F0) is used if there are two or more identical systems in the Power Plant (Sub Station) e.g. main machine sets, which have to be coded separately. When one system is common for more than one main system or there is no system counting, the F0 = 0 (zero), else the systems are numbered from 1 to 9. When F0 is not used, it is not written in the code. On this BDL (F1, F2, F3) the original KKS key applies. Some keys (F2, F3) in this group are given free for use so that they can be used as it suits the purpose of coding. This also applies to some keys on BDL 2 (A2) and on BDL 3 (B2). Some keys (F3) in the group of ancillary systems are given free for use to separate systems in various buildings. The use of these characters has been defined by Voith Siemens, and this is shown in chapter 7.1 The FN numbers are used for coding within the same system. As an example the main EMPLOYER.
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code for a generator rotor is MKA10 and for a generator stator the main code is MKA20.
2.7
Break down level 2 BDL Definition
0
1
2
3
Part of plant
System code
Equipment unit code
Component code
Name
G
Type of key
N
N
F0
F1
F2
F3
FN
A1
A2
AN
A3
B1
B2
BN
(N)
A
A
A
N N
A
A
N N N
(A)
A
A
N N
Table 1.8 BDL 2. In the KKS key equipment is coded/defined by A1, A2 e.g. valves, pumps, switches etc.. The AN number is a consecutive number which is used to number identical equipment, which is identified by A1, A2, within the same system. It has been decided by Voith Siemens how these numbers shall be used in case of parallel and serial connected systems in the mechanical engineering and also in the electrical part, where 3 phase systems are coded and A3 is used to separate e.g. cores in measurement transformers see chapter 4. When A3 is not used, it is not written in the code.
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2.8
Break down level 3 BDL Definition
0
1
2
3
Part of plant
System code
Equipment unit code
Component code
Name
G
Type of key
N
N
F0
F1
F2
F3
FN
A1
A2
AN
A3
B1
B2
BN
(N)
A
A
A
N N
A
A
N N N
(A)
A
A
N N
Table 1.9 BDL 3. B1 and B2 are defined in the KKS key and BN is used to number components inside the same system or equipment. The coding of electrical components is according to DIN 40719, part 2.
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3. Numbering The KKS code allows a certain possibility of free/individual use of numbering code elements. This chapter shows the rules for using the FN and the AN numbers. The rules defined here are binding for the KKS coding for Voith Siemens. In some cases it is possible to use some other way of numbering, in those cases Voith Siemens will set the standard for that numbering. The sources for this are the KKS Guidelines from VGB, together with Part A and Part B (booklets B1, B2, B3 and B4) also from VGB. 1. Numbering starts again when one of the preceding code elements changes. 2. Numbering may be done in units or decades. It depends on the system that’s being used. 3. Numbering is as a rule in the direction of flow. 4. Numbering shall be from left to right or from top to bottom. It is permitted to use numbering that exists in old Power Plants though it isn’t in the right direction. 5. It is preferred to use gaps in the numbering, to simplify later changes. The numbering with FN and AN shall always be in the direction of a flow as often as possible. If however the flow has two directions, one direction shall be defined as “NORMAL OPERATION”.
3.1
FN numbering
FN numbering is used to divide systems in parts or subsystems. FN is done in decades (10,20,30....etc.) or consecutive (11,12,13,14......etc) FN numbering should be minimised. If no further FN numbering is needed then the decade 10 should be used in the FN seat. Numbering with FN in large plumbing systems should be clearly divided, e.g. by areas, by levels, by machinery and by large parts of machinery with decade numbering but with consecutive numbering in parallel connected system. Example of FN numbering is found in chapter 3, Identification in mechanical engineering. Upper and lower guide valves are numbered in decades (10,20,30 ...) but individual parts of the guide valves are numbered consecutively (11,12,13 ...).
3.2
AN numbering
AN numbering is used to divide systems in single parts. AN numbering shall be in decades (_10, _20, _30 ….) or in consecutive (_11, _12, _13 …..). For numbering of electrical and pipe line systems separations shall be clear. E.g. use decade numbering for separation along main branches and use consecutive numbering for separation along parallel connected branches.
3.3
Numbering of valves
Decades numbering shall be used for valves in a main piping system, 010, 020, 030, etc. when their role/function changes, e.g. when pressure, temperature etc. change. In sub-piping systems, valves like bypass valves, control valves etc. shall be numbered 011, 012, 013.... or 021, 022, 023... etc. EMPLOYER.
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Consecutive numbering is also used for valves for control circuits, air- and water drainage, instrument valves, sampling valves and safety valves. They are numbered with _01, _02, _11,_12,...etc. The numbering of the following valves shall be grouped by counting in hundreds in the following way: 0_ _ - valves in main-pipings 1_ _ - valves in precontrol-pipings 2_ _ - valves for filling 3_ _ - valves in measuring-circuits 4_ _ - valves in drainage, discharge and flushing pipings 5_ _ - valves in vent-pipings 6_ _ - valves in sampling pipes 7_ _ - safety- valves 8_ _ - condensate-drain-instruments 9_ _ - assembly valves Numbering of measurement points Measurement points numbering is consecutive and shall be grouped by the hundreds in the following way: 0 _ _ for analog meters with control and alarm purposes. 1 _ _ for digital meters with control and alarm purposes 3 _ _ for indicating local meters, sight-glasses, meters with no control or alarm purpose and meters which are not connected to remote control
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4. Location Code 4.1
Coding of structures
The location code is used by Voith Siemens to code structures like dams, tunnels, buildings and part of buildings like rooms etc. The location code is also used to code the location of machinery in a similar way as the point of installation code is used for electrical equipment. The KKS code consists of alpha letters (A) and numbers (N). The code is divided in breakdown levels (BDL´s). The location code has 3 (0-2) BDL´s which are used in a similar way as the point of installation code. BDL Definition
0
1
2
Part of plant
Structure code
Room code
Name Type of key
G (N)
N
F0
F1
F2
F3
(N)
A
A
A
FN
A1
A2
N N (A)
AN
A3
(N) N N
(A)
F0 on BDL 1 is used where distinction between systems is needed, either in Power Plants or in Sub Stations, where more than one identical system exists. When one system is common for other systems and identical and there is no system grouping then F0 is 0, otherwise the systems are numbered from 1 to 9. All structures coded with the location code have the letter U on BDL 1 ( F1). The next two letters (F2,F3) are normally the two first letters from the process code which is typical or dominating for the structure. An example is a structure for the gates, which has the code ULP, as the gates are coded on BDL 1, with LP_ in the two first designation places for data characters. The main group of structures should be used in the same manner as the KKS-code describes in VGB, book B2.
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5. Identification of Cables 5.1
Cables
All cables shall be labelled with the following minimum information on each end of the cable: • Cable number • From information (Location) • The functionality group to which the cable belongs Identification structure Breakdown level no. Breakdown level title Type of character Example
0 Group (N)N 1
1 Location AAANN CXA01
-
2 Cable number N N N N 4 0 0 1
Cable from cubicle 1CXA01 Cable number 4001 Whole cable-number: 1CXA01-4001 5.2
Cable numbering
Cable shall be numbered sequentially. Numbers shall be issued from a common database to prevent duplication. The counting number is classified by voltage level. Numbering for breakdown level 2: 0001 to 0999 1001 to 1999 2001 to 2999 3001 to 3499 3501 to 3750 3751 to 3999 4001 to 4999 5001 to 5999 6001 to 6999 7001 to 9999
Power cables > 1 kV Power cables 60 V Measuring cables > 60 V CT-cables > 60 V VT-cables > 60 V Control cables 420kV-Systems
ABA
420kV-System
Unit 1, busbar 1
ABB
420kV-System
Unit 2, busbar 2
ABC
420kV-System
Feeder, coupling, not busbar 1 nor busbar 2
AB
AC
380 (-420) kV-Systems
380 (-420) kV-Systems
ACA
380 - 420 kV-System
Unit 1, busbar 1
ACB
380 - 420 kV-System
Unit 2, busbar 2
ACC
380 - 420 kV-System
Feeder, coupling, not busbar 1 nor busbar 2
220 (-245) kV-Systems
220 (-245) kV-Systems
ADA
220 - 245 kV-System
Unit 1, busbar 1
ADB
220 - 245 kV-System
Unit 2, busbar 2
ADC
220 - 245 kV-System
Feeder, coupling, not busbar 1 nor busbar 2
ADT
Transformer
General-purpose transformer
110 (-150) kV-Systems
110 (-150) kV-Systems
AEA
110 - 150 kV-System
Unit 1, busbar 1
AEB
110 - 150 kV-System
Unit 2, busbar 2
AEC
110 - 150 kV-System
Feeder, coupling, not busbar 1 nor busbar 2
AET
Transformer
General-purpose transformer
60 (-72) kV-Systems
60 (-72) kV-Systems
AFA
60 - 72 kV-System
Unit 1, busbar 1
AFB
60 - 72 kV-System
Unit 2, busbar 2
AFC
60 - 72 kV-System
Feeder, coupling, not busbar 1 nor busbar 2
AD
AE
AF
AG
45 (-50) kV-Systems
45 (-50) kV-Systems
AGA
45 - 50 kV-System
Unit 1, busbar 1
AGB
45 - 50 kV-System
Unit 2, busbar 2
AGC
45 - 50 kV-System
Feeder, coupling, not busbar 1 nor busbar 2
30 (-35) kV-Systems
30 (-35) kV-Systems
AHA
30 - 35 kV-System
Unit 1, busbar 1
AHB
30 - 35 kV-System
Unit 2, busbar 2
AHC
30 - 35 kV-System
Feeder, coupling, not busbar 1 nor busbar 2
AH
AJ
20 (-25) kV-Systems
20 (-25) kV-Systems
AJA
20 - 25kV-System
Unit 1, busbar 1
AJB
20 - 25kV-System
Unit 2, busbar 2
AJC
20 - 25kV-System
Feeder, coupling, not busbar 1 nor busbar 2
10 (-15) kV-Systems
10 (-15) kV-Systems
AKA
10 - 15kV-System
Unit 1, busbar 1
AKB
10 - 15kV-System
Unit 2, busbar 2
AKC
10 - 15kV-System
Feeder, coupling, not busbar 1 nor busbar 2
6 (5) kV-Systems
6 (5) kV-Systems
ALA
5 - 6kV-System
Unit 1, busbar 1
AK
AL ALB
5 - 6kV-System
Unit 2, busbar 2
ALC
5 - 6kV-System
Feeder, coupling, not busbar 1 nor busbar 2
1 (-3) kV-Systems
1 (-3) kV-Systems
AMA
1 - 3kV-System
Unit 1, busbar 1
AMB
1 - 3kV-System
Unit 2, busbar 2
AMC
1 - 3kV-System
Feeder, coupling, not busbar 1 nor busbar 2
AM
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< 1kV-Systems
< 1kV-Systems
ANA
500 - 1000V 3-phase system
Low voltage switchgear 500-1000V, 3-phase AC
ANB
max 2 XG04 < min 2 XG05 > max 3 XG06 < min 3 XG07 > max 4 XG08 < min 4 XG09 reserved XG10 in transition XG11 hand on / open XG12 hand off / close XG13 reserved XG14 reserved XG15 reserved XG16 reserved XG17 reserved XG18 ready XG19 blockated XG20 disturbed XG21 auto on XG22 reserved XG23 reserved XG24 reserved XG25 reserved XG26 reserved XG27 reserved XG28 reserved XG29 reserved XG30 reserved XG31 reserved XG32 test on XG33 reserved XG34 reserved XG35 reserved XG36 reserved XG37 reserved XG38 reserved XG39 reserved XG40 reserved XG41 reserved XG42 reserved XG43 reserved XG44 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use
NO-contact > MAX 1, ... NO-contact < MIN 1, ... NO-contact > MAX 2, ... NO-contact < MIN 2, ... NO-contact > MAX 3, ... NO-contact < MIN 3, ... NO-contact > MAX 4, ... NO-contact < MIN 4, ... please do not use in transition, ... hand on / open, ... hand off / close, ... please do not use please do not use please do not use please do not use please do not use drive READY, ... blockated, ... disturbed, ... auto on, ... please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use test on, ... please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
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reserved reserved reserved reserved reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use
Limit value derived from analog value - binary XH01 > max 1 NO-contact > MAX 1, ... XH02 < min 1 NO-contact < MIN 1, ... XH03 > max 2 NO-contact > MAX 2, ... XH04 < min 2 NO-contact < MIN 2, ... XH05 > max 3 NO-contact > MAX 3, ... XH06 < min 3 NO-contact < MIN 3, ... XH07 > max 4 NO-contact > MAX 4, ... XH08 < min 4 NO-contact < MIN 4, ... XH09 reserved please do not use XH10 reserved please do not use XH11 reserved please do not use XH12 reserved please do not use XH13 reserved please do not use XH14 reserved please do not use XH15 reserved please do not use XH16 reserved please do not use XH17 reserved please do not use XH18 reserved please do not use XH19 value simulated value simulated XH20 disturbed disturbed XH21 low failure low failure , for example 20mA XH23 reserved please do not use XH24 reserved please do not use XH25 reserved please do not use XH26 reserved please do not use XH27 reserved please do not use XH28 reserved please do not use XH29 reserved please do not use XH30 reserved please do not use XH31 reserved please do not use XH32 reserved please do not use XH33 reserved please do not use XH34 reserved please do not use XH35 reserved please do not use XH36 reserved please do not use XH37 reserved please do not use XH38 reserved please do not use XH39 reserved please do not use XH40 reserved please do not use XH41 reserved please do not use XH42 reserved please do not use XH43 reserved please do not use EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
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2007.08.03
SHEET
52 / 63
Dwg. No. / Doc. Int Doc N° Rev XH44 XH45 XH46 XH47 XH48 XH49
reserved reserved reserved reserved reserved reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use
Static individual or group fault signals - digital XM01 P supply 1 fail Power supply 1 failure, ... XM02 P supply 2 fail Power supply 2 failure, ... XM03 fuse ok 24VDC FUSE OK, ... XM04 status discrep status discrepancy XM05 reserved please do not use XM06 24 VDC fault 24VDC FAULT XM07 110/220 VDC fault 110/220 VDC fault XM08 overvolt protection overvolt protection XM09 cab power fault cabinet power fault XM10 cab door open cabinet door open XM11 reserved please do not use XM12 run time exceed run time exceed XM13 step fault step fault XM14 reserved please do not use XM15 reserved please do not use XM16 subgroup fault subgroup fault XM17 reserved please do not use XM18 grp ctrl fault group control fault XM19 alarm / warning alarm / warning XM20 trip trip XM21 unit ctrl fault unit control fault XM22 protect fault protection fault XM23 reserved please do not use XM24 reserved please do not use XM25 I/O fault I/O fault XM26 analog signal fault analog signal fault XM27 control fault control fault XM28 binary signal fault binary signal fault XM29 analog signal simulation analog signal simulation XM30 binary signal simulation binary signal simulation XM31 reserved please do not use XM32 test on test on XM33 transmitter fault transmitter fault XM34 bus fault bus fault XM35 reserved please do not use XM36 reserved please do not use XM37 reserved please do not use XM38 reserved please do not use XM39 reserved please do not use XM40 reserved please do not use XM41 I/O bus fault I/O bus fault XM42 I/O bus failure I/O bus failure EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
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Dwg. No. / Doc. Int Doc N° Rev XM43 XM44 XM45 XM46 XM47 XM48 XM49
OSM fault GPS fault emergency PB ACTIVE emergency PB TP ACTIVE emergency PB CR ACTIVE QSD-PB ACTIVE QSDR ACTIVE
Analog signals XQ01 analog signal 1 XQ02 analog signal 2 XQ03 reserved XQ04 reserved XQ05 reserved XQ06 reserved XQ07 reserved XQ08 reserved XQ09 reserved XQ10 reserved XQ11 reserved XQ12 reserved XQ13 reserved XQ14 reserved XQ15 reserved XQ16 reserved XQ17 reserved XQ18 reserved XQ19 reserved XQ20 reserved XQ21 reserved XQ22 reserved XQ23 reserved XQ24 reserved XQ25 reserved XQ26 reserved XQ27 reserved XQ28 reserved XQ29 reserved XQ30 reserved XQ31 reserved XQ32 reserved XQ33 reserved XQ34 reserved XQ35 reserved XQ36 reserved XQ37 reserved XQ38 reserved XQ39 reserved XQ40 reserved XQ41 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
OSM fault GPS fault emergency PB ACTIVE emergency PB TP ACTIVE emergency PB CR ACTIVE QSD-PB ACTIVE QSDR ACTIVE
analog signal 1 analog signal 2 please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
54 / 63
Dwg. No. / Doc. Int Doc N° Rev XQ42 XQ43 XQ44 XQ45 XQ46 XQ47 XQ48 XQ49
reserved reserved reserved reserved reserved reserved reserved reserved
Steps of control sequence XS01 Start sequence 1 ON XS02 Start sequence 2 ON XS03 Start sequence 3 ON XS04 Start sequence 4 ON XS05 Start sequence 5 ON XS06 Start sequence 6 ON XS07 Start sequence 7 ON XS08 Start sequence 8 ON XS09 Start sequence 9 ON XS10 Start sequence 10 ON XS11 Start sequence 11 ON XS12 Start sequence 12 ON XS13 Start sequence 13 ON XS14 Start sequence 14 ON XS15 Start sequence 15 ON XS16 Start sequence 16 ON XS17 Start sequence 17 ON XS18 Start sequence 18 ON XS19 Start sequence 19 ON XS20 Start sequence 20 ON XS21 reserved XS22 reserved XS23 reserved XS24 reserved XS25 reserved XS26 reserved XS27 reserved XS28 reserved XS29 reserved XS30 reserved XS31 reserved XS32 reserved XS33 reserved XS34 reserved XS35 reserved XS36 reserved XS37 reserved XS38 reserved XS39 reserved XS40 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
Start sequence 1 ON Start sequence 2 ON Start sequence 3 ON Start sequence 4 ON Start sequence 5 ON Start sequence 6 ON Start sequence 7 ON Start sequence 8 ON Start sequence 9 ON Start sequence 10 ON Start sequence 11 ON Start sequence 12 ON Start sequence 13 ON Start sequence 14 ON Start sequence 15 ON Start sequence 16 ON Start sequence 17 ON Start sequence 18 ON Start sequence 19 ON Start sequence 20 ON please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
55 / 63
Dwg. No. / Doc. Int Doc N° Rev XS41 XS42 XS43 XS44 XS45 XS46 XS47 XS48 XS49
reserved reserved reserved reserved reserved reserved reserved reserved reserved
Steps of control sequence XS51 Stop sequence 1 ON XS52 Stop sequence 2 ON XS53 Stop sequence 3 ON XS54 Stop sequence 4 ON XS55 Stop sequence 5 ON XS56 Stop sequence 6 ON XS57 Stop sequence 7 ON XS58 Stop sequence 8 ON XS59 Stop sequence 9 ON XS60 Stop sequence 10 ON XS61 Stop sequence 11 ON XS62 Stop sequence 12 ON XS63 Stop sequence 13 ON XS64 Stop sequence 14 ON XS65 Stop sequence 15 ON XS66 Stop sequence 16 ON XS67 Stop sequence 17 ON XS68 Stop sequence 18 ON XS69 Stop sequence 19 ON XS70 Stop sequence 20 ON XS71 reserved XS72 reserved XS73 reserved XS74 reserved XS75 reserved XS76 reserved XS77 reserved XS78 reserved XS79 reserved XS80 reserved XS81 reserved XS82 reserved XS83 reserved XS84 reserved XS85 reserved XS86 reserved XS87 reserved XS88 reserved XS89 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
Stop sequence 1 ON Stop sequence 2 ON Stop sequence 3 ON Stop sequence 4 ON Stop sequence 5 ON Stop sequence 6 ON Stop sequence 7 ON Stop sequence 8 ON Stop sequence 9 ON Stop sequence 10 ON Stop sequence 11 ON Stop sequence 12 ON Stop sequence 13 ON Stop sequence 14 ON Stop sequence 15 ON Stop sequence 16 ON Stop sequence 17 ON Stop sequence 18 ON Stop sequence 19 ON Stop sequence 20 ON please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
56 / 63
Dwg. No. / Doc. Int Doc N° Rev XS90 XS91 XS92 XS93 XS94 XS95 XS96 XS97 XS98 XS99
reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved
Individual control (drive control) YB01 on / open YB02 off / close YB03 hold /stop YB04 reserved YB05 higher YB06 lower YB07 reserved YB08 reserved YB09 revision YB10 reserved YB11 hand on / open YB12 hand off / close YB13 reserved YB14 hand enable YB15 hand stop YB16 hand shut-down YB17 reset YB18 acknowledge / confirm YB19 reserved YB20 reserved YB21 auto on YB22 auto off YB23 standstill YB24 spinning res YB25 generating YB26 gen condenser YB27 pumping YB28 pump condenser YB29 back to back YB30 quick changeover YB31 protection on YB32 Emergency stop YB33 step by step YB34 reserved YB35 reserved YB36 reserved YB37 reserved YB38 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
drive ON, valve OPEN, ... drive OFF, valve CLOSE, ... hold /stop please do not use Frequency HIGHER, Voltage HIGHER, ... Frequency LOWER, Voltage LOWER, ... please do not use please do not use revision, ... please do not use drive HAND ON, valve HAND OPEN, ... drive HAND OFF, valve HAND CLOSE, ... please do not use hand enable, ... hand stop, ... hand shut-down, ... PLC reset, ... device ACKNOWLEDGE, ... please do not use please do not use drive AUTO ON, ... drive AUTO OFF, ... drive STANDSTILL, ... spinning reserve generating gen condenser pumping pump condenser back to back quick changeover protection on Emergency stop step by step please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
57 / 63
Dwg. No. / Doc. Int Doc N° Rev YB39 YB40 YB41 YB42 YB43 YB44 YB45 YB46 YB47 YB48 YB49
reserved reserved PLC 1 activ / watchdog pulse PLC 2 activ alarm horn alarm light FAULT IND reserved reserved reserved reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use PLC 1 activ / watchdog pulse PLC 2 activ, ... please do not use please do not use please do not use please do not use please do not use please do not use please do not use
Excitation YE01 Excitation OFF YE02 Excitation ON (n>80%) YE03 FCR Mode request YE04 AVR Mode request YE05 CosPhi Mode request YE06 MVAr Mode Request YE07 Speed >90% YE08 PSS ON (Power System Stabilizer) YE09 Partial Stop Request (Q=0MVAr) YE10 Setpoint activation YE11 Acknowledge for warning YE12 Setpoint lower (AVR, FCR, EFCR) YE13 Setpoint higher (AVR, FCR, EFCR) YE14 GCB CLOSED YE15 timesynch YE16 reserved YE17 reserved YE18 reserved YE19 reserved YE20 reserved YE21 reserved YE22 reserved YE23 reserved YE24 reserved YE25 reserved YE26 reserved YE27 reserved YE28 reserved YE29 reserved YE30 reserved YE31 reserved YE32 reserved YE33 reserved YE34 reserved YE35 reserved YE36 reserved
Excitation OFF Excitation ON (n>80%) FCR Mode request (Field Current Regulator) ACR Mode request (Voltage Regulator) CosPhi Mode request MVAr Mode Request Speed >90% PSS ON (Power System Stabilizer) Partial Stop Request (Q=0MVAr) Setpoint activation (COS, MVAr, voltage) Acknowledge for warning Setpoint lower (AVR, FCR, EFCR) Setpoint higher (AVR, FCR, EFCR) GCB CLOSED (Generator circuit breaker) timesynch (default time 3:00AM) please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
58 / 63
Dwg. No. / Doc. Int Doc N° Rev YE37 YE38 YE39 YE40 YE41 YE42 YE43 YE44 YE45 YE46 YE47 YE48 YE49
reserved reserved reserved Setpoint reserved reserved reserved reserved reserved reserved reserved reserved reserved
Electrical Protection YF01 synchronisation START CMD YF02 QSD OFF FB for CHA01 YF03 reserved YF04 reserved YF05 reserved YF06 reserved YF07 reserved YF08 reserved YF09 reserved YF10 reserved YF11 reserved YF12 reserved YF13 reserved YF14 reserved YF15 reserved YF16 reserved YF17 reserved YF18 reserved YF19 reserved YF20 reserved YF21 reserved YF22 reserved YF23 reserved YF24 reserved YF25 reserved YF26 reserved YF27 reserved YF28 reserved YF29 reserved YF30 reserved YF31 reserved YF32 reserved YF33 reserved YF34 reserved YF35 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use Setpoint (Cosphi, voltage, MVAr) please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
synchronisation START CMD QSD OFF FB for electrical protection please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
59 / 63
Dwg. No. / Doc. Int Doc N° Rev YF36 YF37 YF38 YF39 YF40 YF41 YF42 YF43 YF44 YF45 YF46 YF47 YF48 YF49
reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved
Operating and monitoring signals YN01 on / open YN02 off / close YN03 reserved YN04 reserved YN05 higher YN06 lower YN07 reserved YN08 reserved YN09 revision YN10 reserved YN11 hand on / open YN12 hand off / close YN13 reserved YN14 hand enable YN15 hand stop YN16 hand shut-down YN17 reset YN18 acknowledge / confirm YN19 blockated YN20 reserved YN21 auto on YN22 auto off YN23 standstill YN24 spinning res YN25 generating YN26 gen condenser YN27 pumping YN28 pump condenser YN29 back to back YN30 quick changeov YN31 protection on YN32 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
drive ON, valve OPEN, ... drive OFF, valve CLOSE, ... please do not use please do not use Frequency HIGHER, Voltage HIGHER, ... Frequency LOWER, Voltage LOWER, ... please do not use please do not use revision please do not use drive HAND ON, valve HAND OPEN, ... drive HAND OFF, valve HAND CLOSE, ... please do not use hand enable hand stop hand shut-down PLC reset, ... device ACKNOWLEDGE, ... please do not use please do not use drive AUTO ON, ... drive AUTO OFF, ... drive STANDSTILL, ... spinning reserve generating gen condenser pumping pump condenser back to back quick changeover protection on please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
60 / 63
Dwg. No. / Doc. Int Doc N° Rev YN33 YN34 YN35 YN36 YN37 YN38 YN39 YN40 YN41 YN42 YN43 YN44 YN45 YN46 YN47 YN48 YN49
step by step reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved
Operating and monitoring signals YP01 Voltage signal YP02 Current signal YP03 reserved YP04 reserved YP05 reserved YP06 reserved YP07 reserved YP08 reserved YP09 reserved YP10 reserved YP11 reserved YP12 reserved YP13 reserved YP14 reserved YP15 reserved YP16 reserved YP17 reserved YP18 reserved YP19 reserved YP20 reserved YP21 reserved YP22 reserved YP23 reserved YP24 reserved YP25 reserved YP26 reserved YP27 reserved YP28 reserved YP29 reserved YP30 reserved YP31 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
step by step please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
Voltage signal Current signal please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
61 / 63
Dwg. No. / Doc. Int Doc N° Rev YP32 YP33 YP34 YP35 YP36 YP37 YP38 YP39 YP40 YP41 YP42 YP43 YP44 YP45 YP46 YP47 YP48 YP49
reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved
Analog signals YQ01 Voltage signal YQ02 Current signal YQ03 reserved YQ04 reserved YQ05 reserved YQ06 reserved YQ07 reserved YQ08 reserved YQ09 reserved YQ10 reserved YQ11 reserved YQ12 reserved YQ13 reserved YQ14 reserved YQ15 reserved YQ16 reserved YQ17 reserved YQ18 reserved YQ19 reserved YQ20 reserved YQ21 reserved YQ22 reserved YQ23 reserved YQ24 reserved YQ25 reserved YQ26 reserved YQ27 reserved YQ28 reserved YQ29 reserved YQ30 reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
Voltage signal Current signal please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
62 / 63
Dwg. No. / Doc. Int Doc N° Rev YQ31 YQ32 YQ33 YQ34 YQ35 YQ36 YQ37 YQ38 YQ39 YQ40 YQ41 YQ42 YQ43 YQ44 YQ45 YQ46 YQ47 YQ48 YQ49
reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved reserved
LOTR-VSPO-AC90-9-0050-TR 2840-004970 B
please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use please do not use
EMPLOYER.
HYDROELECTRICA – S. A.
DRAWN
KINASBERGER
2007.07.03
PLANT HPP
LOTRU CIUNGET
CHECK
TUNG
2007.07.18
ORDER No..
23674
APPR.
SALLFERT
2007.08.03
SHEET
63 / 63
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