Voltage Protection and Control REU615 IEC 60870-5-103 ... · Voltage Protection and Control REU615...
40
Relion ® 615 series Voltage Protection and Control REU615 IEC 60870-5-103 Point List Manual
Transcript of Voltage Protection and Control REU615 IEC 60870-5-103 ... · Voltage Protection and Control REU615...
Relion® 615 series
Voltage Protection and ControlREU615IEC 60870-5-103 Point List Manual
Document ID: 1YHT530009D05Issued: 2014-05-16
Revision: BProduct version: 4.1
© Copyright 2014 ABB. All rights reserved
CopyrightThis document and parts thereof must not be reproduced or copied without writtenpermission from ABB, and the contents thereof must not be imparted to a thirdparty, nor used for any unauthorized purpose.
The software or hardware described in this document is furnished under a licenseand may be used, copied, or disclosed only in accordance with the terms of suchlicense.
TrademarksABB and Relion are registered trademarks of the ABB Group. All other brand orproduct names mentioned in this document may be trademarks or registeredtrademarks of their respective holders.
WarrantyPlease inquire about the terms of warranty from your nearest ABB representative.
ABB
Nanjing SAC Power Grid Automation Co., Ltd.
No. 11 Phoenix Road, Jiangning Development Zone
211100 Nanjing
China
Telephone: +86 25 51183000
Facsimile: +86 25 51183883
Customer hotline: 4008876268
http://www.abb.com/substationautomation
DisclaimerThe data, examples and diagrams in this manual are included solely for the conceptor product description and are not to be deemed as a statement of guaranteedproperties. All persons responsible for applying the equipment addressed in thismanual must satisfy themselves that each intended application is suitable andacceptable, including that any applicable safety or other operational requirementsare complied with. In particular, any risks in applications where a system failure and/or product failure would create a risk for harm to property or persons (including butnot limited to personal injuries or death) shall be the sole responsibility of theperson or entity applying the equipment, and those so responsible are herebyrequested to ensure that all measures are taken to exclude or mitigate such risks.
This product has been designed to be connected and communicate data andinformation via a network interface which should be connected to a securenetwork. It is the sole responsibility of the person or entity responsible for networkadministration to ensure a secure connection to the network and to take thenecessary measures (such as, but not limited to, installation of firewalls, applicationof authentication measures, encryption of data, installation of anti virus programs,etc.) to protect the product and the network, its system and interface included,against any kind of security breaches, unauthorized access, interference, intrusion,leakage and/or theft of data or information. ABB is not liable for any such damagesand/or losses.
This document has been carefully checked by ABB but deviations cannot becompletely ruled out. In case any errors are detected, the reader is kindly requestedto notify the manufacturer. Other than under explicit contractual commitments, inno event shall ABB be responsible or liable for any loss or damage resulting fromthe use of this manual or the application of the equipment.
ConformityThis product complies with the directive of the Council of the EuropeanCommunities on the approximation of the laws of the Member States relating toelectromagnetic compatibility (EMC Directive 2004/108/EC) and concerningelectrical equipment for use within specified voltage limits (Low-voltage directive2006/95/EC). This conformity is the result of tests conducted by ABB inaccordance with the product standards EN 50263 and EN 60255-26 for the EMCdirective, and with the product standards EN 60255-1 and EN 60255-27 for the lowvoltage directive. The product is designed in accordance with the internationalstandards of the IEC 60255 series.
Table of contents
Section 1 Introduction.......................................................................3This manual........................................................................................3Intended audience..............................................................................3Product documentation.......................................................................4
Product documentation set............................................................4Document revision history.............................................................4Related documentation..................................................................5
Symbols and conventions...................................................................5Symbols.........................................................................................5Document conventions..................................................................5Functions, codes and symbols......................................................6
Section 2 IEC 60870-5-103 data mappings.....................................9Overview.............................................................................................9Point list for REU615 Ver.4.1 UC01-02............................................11
Section 3 Interoperability profile for 615 series IEC60870-5-103...................................................................23Physical layer...................................................................................23
Electrical interface.......................................................................23Optical interface...........................................................................23Transmission speed....................................................................23
Link layer..........................................................................................23Application layer...............................................................................24
Transmission mode for application data......................................24COMMON ADDRESS of ASDU..................................................24Selection of standard information numbers in monitordirection.......................................................................................24
System functions in monitor directions...................................24Status indications in monitor direction....................................24Supervision indications in monitor direction...........................25Earth fault indications in monitor direction..............................25Fault indications in monitor direction......................................25Auto-reclosure indications in monitor direction.......................26Measurands in monitor direction............................................27Generic functions in monitor direction....................................27
Selection of standard information numbers in controldirection.......................................................................................27
System functions in control direction......................................27Generic functions in monitor direction....................................27
Table of contents
REU615 1Point List Manual
Basic application functions..........................................................28Miscellaneous..............................................................................28
Section 4 Glossary.........................................................................29
Table of contents
2 REU615Point List Manual
Section 1 Introduction
1.1 This manual
The point list manual describes the outlook and properties of the data pointsspecific to the IED. The manual should be used in conjunction with thecorresponding communication protocol manual.
1.2 Intended audience
This manual addresses the communication system engineer or system integratorresponsible for pre-engineering and engineering for communication setup in asubstation from an IED perspective.
The system engineer or system integrator must have a basic knowledge ofcommunication in protection and control systems and thorough knowledge of thespecific communication protocol.
1YHT530009D05 B Section 1Introduction
REU615 3Point List Manual
1.3 Product documentation
1.3.1 Product documentation set
Pla
nn
ing
&
pu
rch
ase
En
gin
ee
rin
g
Insta
llatio
n
Co
mm
issio
nin
g
Op
era
tio
n
Ma
inte
na
nce
De
co
mm
issio
nin
g,
de
insta
llatio
n &
dis
po
sa
l
Quick start guide
Quick installation guide
Brochure
Product guide
Operation manual
Installation manual
Connection diagram
Engineering manual
Technical manual
Application manual
Communication protocol manual
IEC 61850 Engineering guide
Point list manual
c
c
GUID-12DC16B2-2DC1-48DF-8734-0C8B7116124C V1 EN
Figure 1: The intended use of documents during the product life cycle
Product series- and product-specific manuals can be downloadedfrom the ABB Website http://www.abb.com/relion.
1.3.2 Document revision historyDocument revision/date Product version HistoryA/2010-07-02 3.0 First release
B/2014-05-16 4.1 Content updated to correspond to theproduct version
Download the latest documents from the ABB web sitehttp://www.abb.com/substationautomation.
Section 1 1YHT530009D05 BIntroduction
4 REU615Point List Manual
1.3.3 Related documentationName of the document Document IDIEC 60870-5-103 Communication Protocol Manual 1MRS756710
1.4 Symbols and conventions
1.4.1 Symbols
The caution icon indicates important information or warning relatedto the concept discussed in the text. It might indicate the presenceof a hazard which could result in corruption of software or damageto equipment or property.
The information icon alerts the reader of important facts andconditions.
The tip icon indicates advice on, for example, how to design yourproject or how to use a certain function.
Although warning hazards are related to personal injury, it is necessary tounderstand that under certain operational conditions, operation of damagedequipment may result in degraded process performance leading to personal injuryor death. Therefore, comply fully with all warning and caution notices.
1.4.2 Document conventionsA particular convention may not be used in this manual.
• Abbreviations and acronyms are spelled out in the glossary. The glossary alsocontains definitions of important terms.
• Push button navigation in the LHMI menu structure is presented by using thepush button icons.To navigate between the options, use and .
• Menu paths are presented in bold.Select Main menu/Settings.
• LHMI messages are shown in Courier font.To save the changes in non-volatile memory, select Yes and press .
• Parameter names are shown in italics.The function can be enabled and disabled with the Operation setting.
• Parameter values are indicated with quotation marks.
1YHT530009D05 B Section 1Introduction
REU615 5Point List Manual
The corresponding parameter values are "On" and "Off".• IED input/output messages and monitored data names are shown in Courier font.
When the function starts, the START output is set to TRUE.• This document assumes that the parameter setting visibility is "Advanced".
1.4.3 Functions, codes and symbolsTable 1: REU615 functions, codes and symbols
Function IEC 61850 IEC 60617 IEC-ANSIProtection
Three-phase non-directional overcurrentprotection, low stage PHLPTOC1 3I> (1) 51P-1 (1)
Three-phase non-directional overcurrentprotection, high stage PHHPTOC1 3I>> (1) 51P-2 (1)
Three-phase non-directional overcurrentprotection, instantaneous stage PHIPTOC1 3I>>> (1) 50P/51P (1)
Residual overvoltage protection ROVPTOV1 Uo> (1) 59G (1)
ROVPTOV2 Uo> (2) 59G (2)
ROVPTOV3 Uo> (3) 59G (3)
Three-phase undervoltage protection PHPTUV1 3U< (1) 27 (1)
PHPTUV2 3U< (2) 27 (2)
PHPTUV3 3U< (3) 27 (3)
Three-phase overvoltage protection PHPTOV1 3U> (1) 59 (1)
PHPTOV2 3U> (2) 59 (2)
PHPTOV3 3U> (3) 59 (3)
Positive-sequence undervoltage protection PSPTUV1 U1< (1) 47U+ (1)
PSPTUV2 U1< (2) 47U+ (2)
Negative-sequence overvoltage protection NSPTOV1 U2> (1) 47O- (1)
NSPTOV2 U2> (2) 47O- (2)
Frequency protection FRPFRQ1 f>/f<,df/dt (1) 81 (1)
FRPFRQ2 f>/f<,df/dt (2) 81 (2)
FRPFRQ3 f>/f<,df/dt (3) 81 (3)
FRPFRQ4 f>/f<,df/dt (4) 81 (4)
FRPFRQ5 f>/f<,df/dt (5) 81 (5)
FRPFRQ6 f>/f<,df/dt (6) 81 (6)
Three-phase thermal overload protection forpower transformers, two time constants T2PTTR1 3Ith>T 49T
Master trip TRPPTRC1 Master Trip (1) 94/86 (1)
TRPPTRC2 Master Trip (2) 94/86 (2)
Arc protection ARCSARC1 ARC (1) 50L/50NL (1)
ARCSARC2 ARC (2) 50L/50NL (2)
ARCSARC3 ARC (3) 50L/50NL (3)
Table continues on next page
Section 1 1YHT530009D05 BIntroduction
6 REU615Point List Manual
Function IEC 61850 IEC 60617 IEC-ANSIMulti-purpose protection MAPGAPC1 MAP (1) MAP (1)
MAPGAPC2 MAP (2) MAP (2)
MAPGAPC3 MAP (3) MAP (3)
MAPGAPC4 MAP (4) MAP (4)
MAPGAPC5 MAP (5) MAP (5)
MAPGAPC6 MAP (6) MAP (6)
Load shedding and restoration LSHDPFRQ1 UFLS/R (1) 81LSH (1)
LSHDPFRQ2 UFLS/R (2) 81LSH (2)
LSHDPFRQ3 UFLS/R (3) 81LSH (3)
LSHDPFRQ4 UFLS/R (4) 81LSH (4)
LSHDPFRQ5 UFLS/R (5) 81LSH (5)
Control
Circuit-breaker control CBXCBR1 I <-> O CB I <-> O CB
Disconnector control DCXSWI1 I <-> O DCC (1) I <-> O DCC (1)
DCXSWI2 I <-> O DCC (2) I <-> O DCC (2)
Earthing switch control ESXSWI1 I <-> O ESC I <-> O ESC
Disconnector position indication DCSXSWI1 I <-> O DC (1) I <-> O DC (1)
DCSXSWI2 I <-> O DC (2) I <-> O DC (2)
DCSXSWI3 I <-> O DC (3) I <-> O DC (3)
Earthing switch indication ESSXSWI1 I <-> O ES (1) I <-> O ES (1)
ESSXSWI2 I <-> O ES (2) I <-> O ES (2)
Tap changer position indication TPOSSLTC1 TPOSM 84M
Tap changer control with voltage regulator OLATCC1 COLTC 90V
Synchronism and energizing check SECRSYN1 SYNC 25
Condition monitoring
Trip circuit supervision TCSSCBR1 TCS (1) TCM (1)
TCSSCBR2 TCS (2) TCM (2)
Current circuit supervision CCRDIF1 MCS 3I MCS 3I
Fuse failure supervision SEQRFUF1 FUSEF 60
Measurement
Disturbance recorder RDRE1 - -
Three-phase current measurement CMMXU1 3I 3I
Sequence current measurement CSMSQI1 I1, I2, I0 I1, I2, I0
Three-phase voltage measurement VMMXU1 3U 3U
Residual voltage measurement RESVMMXU1 Uo Vn
Sequence voltage measurement VSMSQI1 U1, U2, U0 U1, U2, U0
Three-phase power and energy measurement PEMMXU1 P, E P, E
RTD/mA measurement XRGGIO130 X130 (RTD) X130 (RTD)
Frequency measurement FMMXU1 f f
1YHT530009D05 B Section 1Introduction
REU615 7Point List Manual
8
Section 2 IEC 60870-5-103 data mappings
2.1 Overview
These tables show the default point definitions. The user is able to freely remap allthese data. In that case PCM600 can provide an updated point list export of the newoutlook.
Indications and controls table columns
IEC 61850 name Internal signal that is mapped to the IEC 60870-5-103 point.Expressed in the form 'Logical Device.Logical Node.DataObject.Data Attribute'.
AFL-Common SA name AFL name of the corresponding data signal.
Description Signal description.
DPI value Value description. DPI value 10 means ON and value 01means OFF.
FUN Default Function Type definition for the point. Observe thatFunction Type 0 means that FUN in practice contains thegiven Device Function Type. The user-definable FunctionType definition is set to the same FUN value as default.
INF Default Information Number definition for the point. The user-definable Information Number definition is set to the sameINF value as default.
InUse 1 means that the point is taken in use as default, and 0 thatthe point is not in use as default.
ASDU ASDU point type. 1 and 2 are indications in monitoringdirection. 20 means that the point is controllable.
GI Default setting for General Interrogation. 1 means ON, 0means OFF.
Coding IEC 60870-5-103 DPI value coding. 1 means that the pointshows OFF (01) and ON (10) values only. 2 means that thepoint shows values Intermediate (00), OFF (01), ON (10)and Error (11).
Class 2 data table columns
Index Value position within the Class2 frame.
IEC 61850 name Internal signal that is mapped to the IEC 60870-5-103 point.
Description Signal description.
Default scale Value that corresponds to the maximum IEC 60870-5-103measurand value 1.
Table continues on next page
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 9Point List Manual
Frame No6 Shows if the value is present in Class2 frame 6.
Frame No7 Shows if the value is present in Class2 frame 7.
Comment Additional information.
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
10 REU615Point List Manual
2.2 Point list for REU615 Ver.4.1 UC01-02
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 11Point List Manual
Tabl
e 2:
Indi
catio
ns a
nd c
ontro
ls
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
Dev
ice
func
tion
type
- st
anda
rd d
ata
LD0.
LLN
0.LE
DR
s1.c
tlVal
-LE
D re
set
10=R
eset
indi
catio
ns a
nd a
larm
LED
s0
191
200
1
LD0.
LLN
0.Be
h.st
Val (
Test
mod
e)-
Test
mod
e10
=Tes
t mod
e O
N, 0
1=Te
stm
ode
OFF
021
11
11
LD0.
I3C
GG
IO1.
ActS
G.c
tlVal
-Pa
ram
eter
set
ting
grou
p 1
10=S
ettin
g gr
oup
1 in
use
023
11,
201
1LD
0.I3
CG
GIO
1.Ac
tSG
.ctlV
al-
Para
met
er s
ettin
g gr
oup
210
=Set
ting
grou
p 2
in u
se0
241
1,20
11
LD0.
I3C
GG
IO1.
ActS
G.c
tlVal
-Pa
ram
eter
set
ting
grou
p 3
10=S
ettin
g gr
oup
3 in
use
025
11,
201
1LD
0.I3
CG
GIO
1.Ac
tSG
.ctlV
al-
Para
met
er s
ettin
g gr
oup
410
=Set
ting
grou
p 4
in u
se0
261
1,20
11
LD0.
I3C
GG
IO1.
ActS
G.c
tlVal
-Pa
ram
eter
set
ting
grou
p 5
10=S
ettin
g gr
oup
5 in
use
027
11,
201
1LD
0.I3
CG
GIO
1.Ac
tSG
.ctlV
al-
Para
met
er s
ettin
g gr
oup
610
=Set
ting
grou
p 6
in u
se0
281
1,20
11
LD0.
TCSS
CBR
1.C
irAlm
.stV
alTC
SSC
BR1.
ALAR
MTr
ip c
ircui
t 1 a
larm
10=T
CS1
ala
rm0
361
11
1LD
0.LE
DPT
RC
1.O
p.ge
nera
l-
Glo
bal o
pera
te10
=Ope
rate
(LED
PTR
C)
068
12
01
LD0.
LED
PTR
C1.
Str.g
ener
al-
Glo
bal s
tart
10=S
tart
(LED
PTR
C)
084
12
11
Dev
ice
func
tion
type
- pr
ivat
e da
taLD
0.TR
PPTR
C1.
Op.
gene
ral
-TR
PTR
C1
inpu
t sig
nal
10=I
nput
sig
nal O
N10
11
20
1LD
0.TR
PPTR
C1.
Tr.g
ener
al-
TRPT
RC
1 tri
p ou
tput
sig
nal
10=T
rip o
utpu
t sig
nal O
N10
21
20
1LD
0.TR
PPTR
C2.
Op.
gene
ral
-TR
PTR
C2
inpu
t sig
nal
10=I
nput
sig
nal O
N10
31
20
1LD
0.TR
PPTR
C2.
Tr.g
ener
al-
TRPT
RC
2 tri
p ou
tput
sig
nal
10=T
rip o
utpu
t sig
nal O
N10
41
20
1C
TRL.
LLN
0.Lo
c.st
Val
-Lo
cal/R
emot
e st
ate
10=L
ocal
, 01=
Rem
ote
1010
11
11
CTR
L.LL
N0.
LocR
em.s
tVal
.Sta
tion
-St
atio
n st
ate
10=S
tatio
n O
N, 0
1=O
FF10
111
11
1LD
0.LL
N0.
LED
Rs2
.ctlV
al-
Res
et A
larm
LED
s10
=Res
et a
larm
LED
s on
ly10
211
200
1LD
0.TC
SSC
BR2.
CirA
lm.s
tVal
TCSS
CBR
2.AL
ARM
Trip
circ
uit 2
ala
rm10
=TC
S2 a
larm
1036
11
11
DR
.RD
RE1
.Rcd
Trg.
ctlV
al-
Trig
DR
reco
rdin
g10
=Ext
erna
l DR
trig
1041
120
01
DR
.RD
RE1
.Mem
Clr.
ctlV
al-
Cle
ar D
R m
emor
y10
=Cle
ar m
emor
y10
421
200
1LD
0.C
MST
A1.R
ecR
s.ct
lVal
-R
eset
CM
MXU
1 m
ax.d
eman
ds10
=Res
et m
ax v
alue
s10
451
200
1LD
0.LE
DPT
RC
1.St
r.phs
A-
Glo
bal s
tart-
phs
A10
=Sta
rt ph
sA10
610
21
1LD
0.LE
DPT
RC
1.St
r.phs
B-
Glo
bal s
tart-
phs
B10
=Sta
rt ph
sB10
620
21
1LD
0.LE
DPT
RC
1.St
r.phs
C-
Glo
bal s
tart-
phs
C10
=Sta
rt ph
sC10
630
21
1LD
0.LE
DPT
RC
1.O
p.ph
sA-
Glo
bal o
pera
te -p
hsA
10=O
pera
te p
hsA
1065
02
01
LD0.
LED
PTR
C1.
Op.
phsB
-G
loba
l ope
rate
-phs
B10
=Ope
rate
phs
B10
660
20
1LD
0.LE
DPT
RC
1.O
p.ph
sC-
Glo
bal o
pera
te -p
hsC
10=O
pera
te p
hsC
1067
02
01
LD0.
LLN
0.Se
tSel
d.st
Val
-Pa
ram
eter
set
ting
right
s re
serv
ed10
=Res
erve
d10
801
10
1LD
0.LL
N0.
SetC
hg.s
tVal
-Pa
ram
eter
set
tings
cha
nged
10=C
hang
ed10
811
10
1M
ultip
urpo
se in
puts
LD0.
MVG
APC
1.Q
1.st
Val
-M
VGAP
C1
inpu
t 1 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
10
11
1LD
0.M
VGAP
C1.
Q2.
stVa
l-
MVG
APC
1 in
put 2
sig
nal
10=I
nput
ON
, 01=
OFF
112
01
11
LD0.
MVG
APC
1.Q
3.st
Val
-M
VGAP
C1
inpu
t 3 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
30
11
1
Tabl
e co
ntin
ues
on n
ext p
age
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
12 REU615Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
MVG
APC
1.Q
4.st
Val
-M
VGAP
C1
inpu
t 4 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
40
11
1LD
0.M
VGAP
C1.
Q5.
stVa
l-
MVG
APC
1 in
put 5
sig
nal
10=I
nput
ON
, 01=
OFF
115
01
11
LD0.
MVG
APC
1.Q
6.st
Val
-M
VGAP
C1
inpu
t 6 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
60
11
1LD
0.M
VGAP
C1.
Q7.
stVa
l-
MVG
APC
1 in
put 7
sig
nal
10=I
nput
ON
, 01=
OFF
117
01
11
LD0.
MVG
APC
1.Q
8.st
Val
-M
VGAP
C1
inpu
t 8 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
80
11
1LD
0.M
VGAP
C2.
Q1.
stVa
l-
MVG
APC
2 in
put 1
sig
nal
10=I
nput
ON
, 01=
OFF
1111
01
11
LD0.
MVG
APC
2.Q
2.st
Val
-M
VGAP
C2
inpu
t 2 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
120
11
1LD
0.M
VGAP
C2.
Q3.
stVa
l-
MVG
APC
2 in
put 3
sig
nal
10=I
nput
ON
, 01=
OFF
1113
01
11
LD0.
MVG
APC
2.Q
4.st
Val
-M
VGAP
C2
inpu
t 4 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
140
11
1LD
0.M
VGAP
C2.
Q5.
stVa
l-
MVG
APC
2 in
put 5
sig
nal
10=I
nput
ON
, 01=
OFF
1115
01
11
LD0.
MVG
APC
2.Q
6.st
Val
-M
VGAP
C2
inpu
t 6 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
160
11
1LD
0.M
VGAP
C2.
Q7.
stVa
l-
MVG
APC
2 in
put 7
sig
nal
10=I
nput
ON
, 01=
OFF
1117
01
11
LD0.
MVG
APC
2.Q
8.st
Val
-M
VGAP
C2
inpu
t 8 s
igna
l10
=Inp
ut O
N, 0
1=O
FF11
180
11
1SR
GAP
C1,
flip
-flop
rese
t con
trol
LD0.
SRG
APC
1.R
s1.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
110
=Res
et11
101
120
01
LD0.
SRG
APC
1.R
s2.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
210
=Res
et11
102
120
01
LD0.
SRG
APC
1.R
s3.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
310
=Res
et11
103
120
01
LD0.
SRG
APC
1.R
s4.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
410
=Res
et11
104
120
01
LD0.
SRG
APC
1.R
s5.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
510
=Res
et11
105
120
01
LD0.
SRG
APC
1.R
s6.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
610
=Res
et11
106
120
01
LD0.
SRG
APC
1.R
s7.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
710
=Res
et11
107
120
01
LD0.
SRG
APC
1.R
s8.c
tlVal
-R
eset
SR
GAP
C1
flip-
flop
810
=Res
et11
108
120
01
SRG
APC
2, fl
ip-fl
op re
set c
ontro
lLD
0.SR
GAP
C2.
Rs1
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 1
10=R
eset
1111
11
200
1LD
0.SR
GAP
C2.
Rs2
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 2
10=R
eset
1111
21
200
1LD
0.SR
GAP
C2.
Rs3
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 3
10=R
eset
1111
31
200
1LD
0.SR
GAP
C2.
Rs4
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 4
10=R
eset
1111
41
200
1LD
0.SR
GAP
C2.
Rs5
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 5
10=R
eset
1111
51
200
1LD
0.SR
GAP
C2.
Rs6
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 6
10=R
eset
1111
61
200
1LD
0.SR
GAP
C2.
Rs7
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 7
10=R
eset
1111
71
200
1LD
0.SR
GAP
C2.
Rs8
.ctlV
al-
Res
et S
RG
APC
2 fli
p-flo
p 8
10=R
eset
1111
81
200
1M
ultip
urpo
se b
inar
y ou
tput
sLD
0.SP
CG
GIO
1.SP
CS0
1.O
per.c
tlVal
-O
utpu
t con
trol 1
10/0
1=O
n/O
ff11
141
120
01
LD0.
SPC
GG
IO1.
SPC
S02.
Ope
r.ctlV
al-
Out
put c
ontro
l 210
/01=
On/
Off
1114
21
200
1LD
0.SP
CG
GIO
1.SP
CS0
3.O
per.c
tlVal
-O
utpu
t con
trol 3
10/0
1=O
n/O
ff11
143
120
01
LD0.
SPC
GG
IO1.
SPC
S04.
Ope
r.ctlV
al-
Out
put c
ontro
l 410
/01=
On/
Off
1114
41
200
1LD
0.SP
CG
GIO
1.SP
CS0
5.O
per.c
tlVal
-O
utpu
t con
trol 5
10/0
1=O
n/O
ff11
145
120
01
LD0.
SPC
GG
IO1.
SPC
S06.
Ope
r.ctlV
al-
Out
put c
ontro
l 610
/01=
On/
Off
1114
61
200
1LD
0.SP
CG
GIO
1.SP
CS0
7.O
per.c
tlVal
-O
utpu
t con
trol 7
10/0
1=O
n/O
ff11
147
120
01
Tabl
e co
ntin
ues
on n
ext p
age
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 13Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
SPC
GG
IO1.
SPC
S08.
Ope
r.ctlV
al-
Out
put c
ontro
l 810
/01=
On/
Off
1114
81
200
1LD
0.SP
CG
GIO
1.SP
CS0
9.O
per.c
tlVal
-O
utpu
t con
trol 9
10/0
1=O
n/O
ff11
149
120
01
LD0.
SPC
GG
IO1.
SPC
S10.
Ope
r.ctlV
al-
Out
put c
ontro
l 10
10/0
1=O
n/O
ff11
150
120
01
LD0.
SPC
GG
IO1.
SPC
S11.
Ope
r.ctlV
al-
Out
put c
ontro
l 11
10/0
1=O
n/O
ff11
151
120
01
LD0.
SPC
GG
IO1.
SPC
S12.
Ope
r.ctlV
al-
Out
put c
ontro
l 12
10/0
1=O
n/O
ff11
152
120
01
LD0.
SPC
GG
IO1.
SPC
S13.
Ope
r.ctlV
al-
Out
put c
ontro
l 13
10/0
1=O
n/O
ff11
153
120
01
LD0.
SPC
GG
IO1.
SPC
S14.
Ope
r.ctlV
al-
Out
put c
ontro
l 14
10/0
1=O
n/O
ff11
154
120
01
LD0.
SPC
GG
IO1.
SPC
S15.
Ope
r.ctlV
al-
Out
put c
ontro
l 15
10/0
1=O
n/O
ff11
155
120
01
LD0.
SPC
GG
IO1.
SPC
S16.
Ope
r.ctlV
al-
Out
put c
ontro
l 16
10/0
1=O
n/O
ff11
156
120
01
LD0.
SPC
GG
IO2.
SPC
S01.
Ope
r.ctlV
al-
Out
put c
ontro
l 110
/01=
On/
Off
1118
11
1,20
01
LD0.
SPC
GG
IO2.
SPC
S02.
Ope
r.ctlV
al-
Out
put c
ontro
l 210
/01=
On/
Off
1118
21
1,20
01
LD0.
SPC
GG
IO2.
SPC
S03.
Ope
r.ctlV
al-
Out
put c
ontro
l 310
/01=
On/
Off
1118
31
1,20
01
LD0.
SPC
GG
IO2.
SPC
S04.
Ope
r.ctlV
al-
Out
put c
ontro
l 410
/01=
On/
Off
1118
41
1,20
01
LD0.
SPC
GG
IO2.
SPC
S05.
Ope
r.ctlV
al-
Out
put c
ontro
l 510
/01=
On/
Off
1118
51
1,20
01
LD0.
SPC
GG
IO2.
SPC
S06.
Ope
r.ctlV
al-
Out
put c
ontro
l 610
/01=
On/
Off
1118
61
1,20
01
LD0.
SPC
GG
IO2.
SPC
S07.
Ope
r.ctlV
al-
Out
put c
ontro
l 710
/01=
On/
Off
1118
71
1,20
01
LD0.
SPC
GG
IO2.
SPC
S08.
Ope
r.ctlV
al-
Out
put c
ontro
l 810
/01=
On/
Off
1118
81
1,20
01
LD0.
SPC
GG
IO2.
SPC
S09.
Ope
r.ctlV
al-
Out
put c
ontro
l 910
/01=
On/
Off
1118
91
1,20
01
LD0.
SPC
GG
IO2.
SPC
S10.
Ope
r.ctlV
al-
Out
put c
ontro
l 10
10/0
1=O
n/O
ff11
190
11,
200
1LD
0.SP
CG
GIO
2.SP
CS1
1.O
per.c
tlVal
-O
utpu
t con
trol 1
110
/01=
On/
Off
1119
11
1,20
01
LD0.
SPC
GG
IO2.
SPC
S12.
Ope
r.ctlV
al-
Out
put c
ontro
l 12
10/0
1=O
n/O
ff11
192
11,
200
1LD
0.SP
CG
GIO
2.SP
CS1
3.O
per.c
tlVal
-O
utpu
t con
trol 1
310
/01=
On/
Off
1119
31
1,20
01
LD0.
SPC
GG
IO2.
SPC
S14.
Ope
r.ctlV
al-
Out
put c
ontro
l 14
10/0
1=O
n/O
ff11
194
11,
200
1LD
0.SP
CG
GIO
2.SP
CS1
5.O
per.c
tlVal
-O
utpu
t con
trol 1
510
/01=
On/
Off
1119
51
1,20
01
LD0.
SPC
GG
IO2.
SPC
S16.
Ope
r.ctlV
al-
Out
put c
ontro
l 16
10/0
1=O
n/O
ff11
196
11,
200
1Fu
se fa
ilure
pro
tect
ion
(1 s
tage
)LD
0.SE
QR
FUF1
.Str.
gene
ral
SEQ
RFU
F1.F
USE
F_U
Gen
eral
Sta
rt10
=Gen
eral
Sta
rt22
841
21
1LD
0.SE
QR
FUF1
.Str3
Ph.g
ener
alSE
QR
FUF1
.FU
SEF_
3PH
3 ph
ase
star
t10
=3 p
hase
sta
rt22
941
21
1C
urre
nt c
ircui
t fai
lure
pro
tect
ion
CTR
L.C
CR
DIF
1.Al
m.s
tVal
CC
RD
IF1.
FAIL
Cur
rent
circ
uit f
ailu
re a
larm
10 =
Ala
rm23
11
11
1C
TRL.
CC
RD
IF1.
Op.
gene
ral
CC
RD
IF1.
ALAR
MC
urre
nt c
ircui
t fai
lure
ope
rate
10 =
Ope
rate
2390
12
01
Tap
posi
tion
(ASD
U 4
)LD
0.TP
OSS
LTC
1.Va
lWTr
.pos
Val
TPO
SSLT
C1.
TAP_
POS
Tap
posi
tion
-64.
..63
2520
14
1-
Freq
uenc
y pr
otec
tion
(FR
PFR
Q1.
.6),
6 st
ages
LD0.
FRPT
RC
1.St
r.gen
eral
FRPF
RQ
1.ST
ART
Stag
e 1
star
t1
= St
age1
sta
rt27
111
21
1LD
0.FR
PTO
F1.O
p.ge
nera
lFR
PFR
Q1.
OPR
_OFR
QO
pera
te 1
sign
al fo
r ove
rfreq
uenc
y1
= St
age1
ove
rfreq
uenc
y op
erat
e27
121
20
1LD
0.FR
PTU
F1.O
p.ge
nera
lFR
PFR
Q1.
OPR
_UFR
QO
pera
te 1
sig
nal f
orun
derfr
eque
ncy
1 =
Stag
e1 u
nder
frequ
ency
oper
ate
2713
12
01
LD0.
FRPF
RC
1.O
p.ge
nera
lFR
PFR
Q1.
OPR
_FR
GO
pera
te 1
sig
nal f
or fr
eque
ncy
grad
ient
1 =
Stag
e1 fr
eque
ncy
grad
ient
oper
ate
2714
12
01
Tabl
e co
ntin
ues
on n
ext p
age
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
14 REU615Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
FRPT
RC
2.St
r.gen
eral
FRPF
RQ
2.ST
ART
Stag
e 2
star
t1
= St
age2
sta
rt27
211
21
1LD
0.FR
PTO
F2.O
p.ge
nera
lFR
PFR
Q2.
OPR
_OFR
QO
pera
te 2
sign
al fo
r ove
rfreq
uenc
y1
= St
age2
ove
rfreq
uenc
y op
erat
e27
221
20
1LD
0.FR
PTU
F2.O
p.ge
nera
lFR
PFR
Q2.
OPR
_UFR
QO
pera
te 2
sig
nal f
orun
derfr
eque
ncy
1 =
Stag
e2 u
nder
frequ
ency
oper
ate
2723
12
01
LD0.
FRPF
RC
2.O
p.ge
nera
lFR
PFR
Q2.
OPR
_FR
GO
pera
te 2
sig
nal f
or fr
eque
ncy
grad
ient
1 =
Stag
e2 fr
eque
ncy
grad
ient
oper
ate
2724
12
01
LD0.
FRPT
RC
3.St
r.gen
eral
FRPF
RQ
3.ST
ART
Stag
e 3
star
t1
= St
age3
sta
rt27
311
21
1LD
0.FR
PTO
F3.O
p.ge
nera
lFR
PFR
Q3.
OPR
_OFR
QO
pera
te 3
sign
al fo
r ove
rfreq
uenc
y1
= St
age3
ove
rfreq
uenc
y op
erat
e27
321
20
1LD
0.FR
PTU
F3.O
p.ge
nera
lFR
PFR
Q3.
OPR
_UFR
QO
pera
te 3
sig
nal f
orun
derfr
eque
ncy
1 =
Stag
e3 u
nder
frequ
ency
oper
ate
2733
12
01
LD0.
FRPF
RC
3.O
p.ge
nera
lFR
PFR
Q3.
OPR
_FR
GO
pera
te 3
sig
nal f
or fr
eque
ncy
grad
ient
1 =
Stag
e3 fr
eque
ncy
grad
ient
oper
ate
2734
12
01
LD0.
FRPT
RC
4.St
r.gen
eral
FRPF
RQ
4.ST
ART
Stag
e 4
star
t1
= St
age1
sta
rt27
411
21
1LD
0.FR
PTO
F4.O
p.ge
nera
lFR
PFR
Q4.
OPR
_OFR
QO
pera
te 4
sign
al fo
r ove
rfreq
uenc
y1
= St
age1
ove
rfreq
uenc
y op
erat
e27
421
20
1LD
0.FR
PTU
F4.O
p.ge
nera
lFR
PFR
Q4.
OPR
_UFR
QO
pera
te 4
sig
nal f
orun
derfr
eque
ncy
1 =
Stag
e1 u
nder
frequ
ency
oper
ate
2743
12
01
LD0.
FRPF
RC
4.O
p.ge
nera
lFR
PFR
Q4.
OPR
_FR
GO
pera
te 4
sig
nal f
or fr
eque
ncy
grad
ient
1 =
Stag
e1 fr
eque
ncy
grad
ient
oper
ate
2744
12
01
LD0.
FRPT
RC
5.St
r.gen
eral
FRPF
RQ
5.ST
ART
Stag
e 5
star
t1
= St
age2
sta
rt27
511
21
1LD
0.FR
PTO
F5.O
p.ge
nera
lFR
PFR
Q5.
OPR
_OFR
QO
pera
te 5
sign
al fo
r ove
rfreq
uenc
y1
= St
age2
ove
rfreq
uenc
y op
erat
e27
521
20
1LD
0.FR
PTU
F5.O
p.ge
nera
lFR
PFR
Q5.
OPR
_UFR
QO
pera
te 5
sig
nal f
orun
derfr
eque
ncy
1 =
Stag
e2 u
nder
frequ
ency
oper
ate
2753
12
01
LD0.
FRPF
RC
5.O
p.ge
nera
lFR
PFR
Q5.
OPR
_FR
GO
pera
te 5
sig
nal f
or fr
eque
ncy
grad
ient
1 =
Stag
e2 fr
eque
ncy
grad
ient
oper
ate
2754
12
01
LD0.
FRPT
RC
6.St
r.gen
eral
FRPF
RQ
6.ST
ART
Stag
e 6
star
t1
= St
age3
sta
rt27
611
21
1LD
0.FR
PTO
F6.O
p.ge
nera
lFR
PFR
Q6.
OPR
_OFR
QO
pera
te 6
sign
al fo
r ove
rfreq
uenc
y1
= St
age3
ove
rfreq
uenc
y op
erat
e27
621
20
1LD
0.FR
PTU
F6.O
p.ge
nera
lFR
PFR
Q6.
OPR
_UFR
QO
pera
te 6
sig
nal f
orun
derfr
eque
ncy
1 =
Stag
e3 u
nder
frequ
ency
oper
ate
2763
12
01
LD0.
FRPF
RC
6.O
p.ge
nera
lFR
PFR
Q6.
OPR
_FR
GO
pera
te 6
sig
nal f
or fr
eque
ncy
grad
ient
1 =
Stag
e3 fr
eque
ncy
grad
ient
oper
ate
2764
12
01
Mul
tipur
pose
ana
log
prot
ectio
n fu
nctio
ns (6
sta
ges)
LD0.
MAP
GAP
C1.
Str.g
ener
alM
APG
APC
1.ST
ART
Stag
e 1
Star
t10
= S
tage
1 st
art
2715
10
10
1LD
0.M
APG
APC
1.O
p.ge
nera
lM
APG
APC
1.O
PER
ATE
Stag
e 1
Ope
rate
10 =
Sta
ge1
oper
ate
2715
20
10
1LD
0.M
APG
APC
2.St
r.gen
eral
MAP
GAP
C2.
STAR
TSt
age
2 St
art
10 =
Sta
ge2
star
t27
153
01
01
LD0.
MAP
GAP
C2.
Op.
gene
ral
MAP
GAP
C2.
OPE
RAT
ESt
age
2 O
pera
te10
= S
tage
2 op
erat
e27
154
01
01
LD0.
MAP
GAP
C3.
Str.g
ener
alM
APG
APC
3.ST
ART
Stag
e 3
Star
t10
= S
tage
3 st
art
2715
50
10
1LD
0.M
APG
APC
3.O
p.ge
nera
lM
APG
APC
3.O
PER
ATE
Stag
e 3
Ope
rate
10 =
Sta
ge3
oper
ate
2715
60
10
1LD
0.M
APG
APC
4.St
r.gen
eral
MAP
GAP
C4.
STAR
TSt
age
4 st
art
10=S
tart
2715
70
10
1LD
0.M
APG
APC
4.O
p.ge
nera
lM
APG
APC
4.O
PER
ATE
Stag
e 4
oper
ate
10=S
tart
2715
80
10
1LD
0.M
APG
APC
5.St
r.gen
eral
MAP
GAP
C5.
STAR
TSt
age
5 st
art
10=S
tart
2715
90
10
1LD
0.M
APG
APC
5.O
p.ge
nera
lM
APG
APC
5.O
PER
ATE
Stag
e 5
oper
ate
10=S
tart
2716
00
10
1LD
0.M
APG
APC
6.St
r.gen
eral
MAP
GAP
C6.
STAR
TSt
age
6 st
art
10=S
tart
2716
10
10
1
Tabl
e co
ntin
ues
on n
ext p
age
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 15Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
MAP
GAP
C6.
Op.
gene
ral
MAP
GAP
C6.
OPE
RAT
ESt
age
6 op
erat
e10
=Sta
rt27
162
01
01
XRG
GIO
130
Alar
m/W
arni
ngLD
0.XR
GG
IO13
0.W
rn.s
tVal
XRG
GIO
130.
WAR
NIN
GXR
GG
IO13
0 W
arni
ng10
= W
arni
ng27
201
01
01
LD0.
XRG
GIO
130.
Alm
.stV
alXR
GG
IO13
0.AL
ARM
XRG
GIO
130
Alar
m10
= A
larm
2720
20
10
1Ph
ase
over
volta
ge p
rote
ctio
n (3
sta
ges)
LD0.
PHPT
OV3
.Str.
phsA
-St
age
3 ph
sA s
tart
10 =
Sta
rt ph
sA40
440
21
1LD
0.PH
PTO
V3.S
tr.ph
sB-
Stag
e 3
phsB
sta
rt10
= S
tart
phsB
4045
02
11
LD0.
PHPT
OV3
.Str.
phsC
-St
age
3 ph
sC s
tart
10 =
Sta
rt ph
sC40
460
21
1LD
0.PH
PTO
V2.S
tr.ph
sA-
Stag
e 2
phsA
sta
rt10
= S
tart
phsA
4054
02
11
LD0.
PHPT
OV2
.Str.
phsB
-St
age
2 ph
sB s
tart
10 =
Sta
rt ph
sB40
550
21
1LD
0.PH
PTO
V2.S
tr.ph
sC-
Stag
e 2
phsC
sta
rt10
= S
tart
phsC
4056
02
11
LD0.
PHPT
OV1
.Str.
phsA
-St
age
1 ph
sA s
tart
10 =
Sta
rt ph
sA40
640
21
1LD
0.PH
PTO
V1.S
tr.ph
sB-
Stag
e 1
phsB
sta
rt10
= S
tart
phsB
4065
02
11
LD0.
PHPT
OV1
.Str.
phsC
-St
age
1 ph
sC s
tart
10 =
Sta
rt ph
sC40
660
21
1LD
0.PH
PTO
V1.S
tr.ge
nera
lPH
PTO
V1.S
TAR
TSt
age
1 ge
nera
l sta
rt10
= S
tart
stag
e 1
4084
12
11
LD0.
PHPT
OV1
.Op.
gene
ral
PHPT
OV1
.OPE
RAT
ESt
age
1 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 1
4090
12
01
LD0.
PHPT
OV2
.Op.
gene
ral
PHPT
OV2
.OPE
RAT
ESt
age
2 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 2
4091
12
01
LD0.
PHPT
OV2
.Str.
gene
ral
PHPT
OV2
.STA
RT
Stag
e 2
gene
ral s
tart
10 =
Sta
rt st
age
240
941
21
1LD
0.PH
PTO
V3.S
tr.ge
nera
lPH
PTO
V3.S
TAR
TSt
age
3 ge
nera
l sta
rt10
= S
tart
stag
e 3
4096
12
11
LD0.
PHPT
OV3
.Op.
gene
ral
PHPT
OV3
.OPE
RAT
ESt
age
3 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 3
4098
12
01
Phas
e un
derv
olta
ge p
rote
ctio
n (3
sta
ges)
LD0.
PHPT
UV3
.Str.
phsA
-St
age
3 ph
sA s
tart
10 =
Sta
rt ph
sA41
440
21
1LD
0.PH
PTU
V3.S
tr.ph
sB-
Stag
e 3
phsB
sta
rt10
= S
tart
phsB
4145
02
11
LD0.
PHPT
UV3
.Str.
phsC
-St
age
3 ph
sC s
tart
10 =
Sta
rt ph
sC41
460
21
1LD
0.PH
PTU
V2.S
tr.ph
sA-
Stag
e 2
phsA
sta
rt10
= S
tart
phsA
4154
02
11
LD0.
PHPT
UV2
.Str.
phsB
-St
age
2 ph
sB s
tart
10 =
Sta
rt ph
sB41
550
21
1LD
0.PH
PTU
V2.S
tr.ph
sC-
Stag
e 2
phsC
sta
rt10
= S
tart
phsC
4156
02
11
LD0.
PHPT
UV1
.Str.
phsA
-St
age
1 ph
sA s
tart
10 =
Sta
rt ph
sA41
640
21
1LD
0.PH
PTU
V1.S
tr.ph
sB-
Stag
e 1
phsB
sta
rt10
= S
tart
phsB
4165
02
11
LD0.
PHPT
UV1
.Str.
phsC
-St
age
1 ph
sC s
tart
10 =
Sta
rt ph
sC41
660
21
1LD
0.PH
PTU
V1.S
tr.ge
nera
lPH
PTU
V1.S
TAR
TSt
age
1 ge
nera
l sta
rt10
= S
tart
stag
e 1
4184
12
11
LD0.
PHPT
UV1
.Op.
gene
ral
PHPT
UV1
.OPE
RAT
ESt
age
1 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 1
4190
12
01
LD0.
PHPT
UV2
.Op.
gene
ral
PHPT
OV2
.OPE
RAT
ESt
age
2 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 2
4191
12
01
LD0.
PHPT
UV2
.Str.
gene
ral
PHPT
UV2
.STA
RT
Stag
e 2
gene
ral s
tart
10 =
Sta
rt st
age
241
941
21
1LD
0.PH
PTU
V3.S
tr.ge
nera
lPH
PTU
V3.S
TAR
TSt
age
3 ge
nera
l sta
rt10
= S
tart
stag
e 3
4196
12
11
LD0.
PHPT
UV3
.Op.
gene
ral
PHPT
UV3
.OPE
RAT
ESt
age
3 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 3
4198
12
01
Posi
tive
sequ
ence
und
ervo
ltage
pro
tect
ion
(2 s
tage
s)LD
0.PS
PTU
V1.S
tr.ge
nera
lPS
PTU
V1.S
TAR
TSt
age
1 ge
nera
l sta
rt10
= S
tart
stag
e 1
4284
12
11
LD0.
PSPT
UV1
.Op.
gene
ral
PSPT
UV1
.OPE
RAT
ESt
age
1 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 1
4290
12
01
Tabl
e co
ntin
ues
on n
ext p
age
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
16 REU615Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
PSPT
UV2
.Op.
gene
ral
PSPT
OV2
.OPE
RAT
ESt
age
2 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 2
4291
12
01
LD0.
PSPT
UV2
.Str.
gene
ral
PSPT
UV2
.STA
RT
Stag
e 2
gene
ral s
tart
10 =
Sta
rt st
age
242
941
21
1N
egat
ive
sequ
ence
ove
rvol
tage
pro
tect
ion
(2 s
tage
s)LD
0.N
SPTO
V1.S
tr.ge
nera
lN
SPTO
V1.S
TAR
TSt
age
1 ge
nera
l sta
rt10
= S
tart
stag
e 1
4384
12
11
LD0.
NSP
TOV1
.Op.
gene
ral
NSP
TOV1
.OPE
RAT
ESt
age
1 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 1
4390
12
01
LD0.
NSP
TOV2
.Op.
gene
ral
NSP
TOV2
.OPE
RAT
ESt
age
2 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 2
4391
12
01
LD0.
NSP
TOV2
.Str.
gene
ral
NSP
TOV2
.STA
RT
Stag
e 2
gene
ral s
tart
10 =
Sta
rt st
age
243
941
21
1R
esid
ual o
verv
olta
ge p
rote
ctio
n (3
sta
ges)
,LD
0.R
OVP
TOV1
.Str.
gene
ral
RO
VPTO
V1.S
TAR
TSt
age
1 ge
nera
l sta
rt10
= S
tart
stag
e 1
4484
12
11
LD0.
RO
VPTO
V1.O
p.ge
nera
lR
OVP
TOV1
.OPE
RAT
ESt
age
1 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 1
4490
12
01
LD0.
RO
VPTO
V2.O
p.ge
nera
lR
OVP
TOV2
.STA
RT
Stag
e 2
gene
ral o
pera
te10
= O
pera
te s
tage
244
911
20
1LD
0.R
OVP
TOV2
.Str.
gene
ral
RO
VPTO
V2.O
PER
ATE
Stag
e 2
gene
ral s
tart
10 =
Sta
rt st
age
244
941
21
1LD
0.R
OVP
TOV3
.Str.
gene
ral
RO
VPTO
V3.S
TAR
TSt
age
3 ge
nera
l sta
rt10
= S
tart
stag
e 3
4496
12
11
LD0.
RO
VPTO
V3.O
p.ge
nera
lR
OVP
TOV3
.OPE
RAT
ESt
age
3 ge
nera
l ope
rate
10 =
Ope
rate
sta
ge 3
4498
12
01
Phys
ical
bin
ary
I/O s
igna
lsLD
0.XG
GIO
110.
Ind1
.stV
al-
X110
-Inpu
t 110
=ON
, 01=
OFF
521
11
11
LD0.
XGG
IO11
0.In
d2.s
tVal
-X1
10-In
put 2
10=O
N, 0
1=O
FF52
21
11
1LD
0.XG
GIO
110.
Ind3
.stV
al-
X110
-Inpu
t 310
=ON
, 01=
OFF
523
11
11
LD0.
XGG
IO11
0.In
d4.s
tVal
-X1
10-In
put 4
10=O
N, 0
1=O
FF52
41
11
1LD
0.XG
GIO
110.
Ind5
.stV
al-
X110
-Inpu
t 510
=ON
, 01=
OFF
525
11
11
LD0.
XGG
IO11
0.In
d6.s
tVal
-X1
10-In
put 6
10=O
N, 0
1=O
FF52
61
11
1LD
0.XG
GIO
110.
Ind7
.stV
al-
X110
-Inpu
t 710
=ON
, 01=
OFF
527
11
11
LD0.
XGG
IO11
0.In
d8.s
tVal
-X1
10-In
put 8
10=O
N, 0
1=O
FF52
81
11
1LD
0.XG
GIO
110.
SPC
SO1.
stVa
l-
X110
-Out
put 1
10=O
N, 0
1=O
FF52
101
01
11
LD0.
XGG
IO11
0.SP
CSO
2.st
Val
-X1
10-O
utpu
t 210
=ON
, 01=
OFF
5210
20
11
1LD
0.XG
GIO
110.
SPC
SO3.
stVa
l-
X110
-Out
put 3
10=O
N, 0
1=O
FF52
103
01
11
LD0.
XGG
IO11
0.SP
CSO
4.st
Val
-X1
10-O
utpu
t 410
=ON
, 01=
OFF
5210
40
11
1LD
0.XG
GIO
100.
SPC
SO1.
stVa
l-
X100
-Out
put 1
10=O
N, 0
1=O
FF53
101
01
11
LD0.
XGG
IO10
0.SP
CSO
2.st
Val
-X1
00-O
utpu
t 210
=ON
, 01=
OFF
5310
20
11
1LD
0.XG
GIO
100.
SPC
SO3.
stVa
l-
X100
-Out
put 3
10=O
N, 0
1=O
FF53
103
01
11
LD0.
XGG
IO10
0.SP
CSO
4.st
Val
-X1
00-O
utpu
t 410
=ON
, 01=
OFF
5310
40
11
1LD
0.XG
GIO
100.
SPC
SO5.
stVa
l-
X100
-Out
put 5
10=O
N, 0
1=O
FF53
105
01
11
LD0.
XGG
IO10
0.SP
CSO
6.st
Val
-X1
00-O
utpu
t 610
=ON
, 01=
OFF
5310
60
11
1LD
0.XA
GG
IO13
0.In
d1.s
tVal
-XA
130-
Inpu
t 110
/01=
On/
Off
541
01
11
LD0.
XAG
GIO
130.
Ind2
.stV
al-
XA13
0-In
put 2
10/0
1=O
n/O
ff54
20
11
1LD
0.XA
GG
IO13
0.In
d3.s
tVal
-XA
130-
Inpu
t 310
/01=
On/
Off
543
01
11
LD0.
XAG
GIO
130.
Ind4
.stV
al-
XA13
0-In
put 4
10/0
1=O
n/O
ff54
40
11
1O
n-lo
ad ta
p ch
ange
r con
trolle
rLD
0.O
LATC
C1.
TapO
pErr.
stVa
lO
LATC
C1.
ALAR
MAl
arm
10 =
Ala
rm81
10
10
1
Tabl
e co
ntin
ues
on n
ext p
age
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 17Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
OLA
TCC
1.Ta
pOpR
.stV
alO
LATC
C1.
RAI
SE_O
WN
Rai
se c
omm
and
10 =
Rai
se81
20
10
1LD
0.O
LATC
C1.
TapO
pL.s
tVal
OLA
TCC
1.LO
WER
_OW
NLo
wer
com
mam
d10
= L
ower
813
01
01
LD0.
OLA
TCC
1.En
dPos
R.s
tVal
-Bl
ock
rais
e10
= R
aise
814
01
01
LD0.
OLA
TCC
1.En
dPos
L.st
Val
-Bl
ock
low
er10
= L
ower
815
01
01
LD0.
OLA
TCC
1.Pa
rOp.
stVa
lPA
RAL
LEL
Para
llel o
r sin
gle
op.
10=P
aral
lel
816
01
11
LD0.
OLA
TCC
1.Au
to.s
tVal
AUTO
Auto
or m
anua
l op.
10=A
uto
817
01
11
LD0.
OLA
TCC
1.LT
CBl
kAH
i.stV
alO
LATC
C1.
BLKD
_I_L
OD
Ove
r cur
rent
blo
ckin
g10
= B
lock
ing
8111
01
01
LD0.
OLA
TCC
1.LT
CBl
kVLo
.stV
alO
LATC
C1.
BLKD
_U_U
NU
nder
vol
tage
blo
ckin
g10
= B
lock
ing
8112
01
01
LD0.
OLA
TCC
1.LT
CR
nbk.
stVa
lO
LATC
C1.
RN
BK_U
_OV
Rai
se v
olta
ge ru
nbac
k10
= B
lock
ing
8113
01
01
LD0.
OLA
TCC
1.LT
CBl
kCirA
.stV
alO
LATC
C1.
BLKD
_I_C
IRH
igh
circ
ulat
ing
curre
nt b
lock
ing
10 =
Blo
ckin
g81
140
10
1LD
0.O
LATC
C1.
LTC
BlkS
t.stV
alO
LATC
C1.
BLKD
_LTC
BLK
Exte
rnal
blo
ckin
g10
= B
lock
ing
8115
01
01
LD0.
OLA
TCC
1.Er
rPar
Tra.
stVa
lO
LATC
C1.
PAR
_FAI
LPa
ralle
l fai
lure
det
ecte
d10
= F
ailu
re81
160
10
1LD
0.O
LATC
C1.
TapC
hg.V
alW
Tr.O
per.c
tlVa
l.Low
er-
Tap
chan
ger c
ontro
l low
er10
= L
ower
8120
020
01
LD0.
OLA
TCC
1.Ta
pChg
.Val
WTr
.Ope
r.ctl
Val.H
ighe
r-
Tap
chan
ger c
ontro
l hig
her
10 =
Hig
her
8121
0120
01
Sync
hroc
heck
LD0.
SEC
RSY
N1.
SynP
rg.s
tVal
SEC
RSY
N1.
SYN
C_I
NPR
OSy
ncho
niza
tion
in p
rogr
ess
10 =
In p
rogr
ess
8151
11
11
LD0.
SEC
RSY
N1.
FailC
md.
stVa
lSE
CR
SYN
1.C
MD
_FAI
L_AL
CB
clos
ing
requ
est f
aile
d10
= R
eque
st fa
iled
8152
11
01
LD0.
SEC
RSY
N1.
FailS
yn.s
tVal
SEC
RSY
N1.
CL_
FAIL
_AL
CB
clos
ing
com
man
d fa
iled
10 =
Com
man
d fa
iled
8153
11
01
LD0.
SEC
RSY
N1.
EnSt
.stV
alSE
CR
SYN
1.EN
ERG
_STA
TEEn
ergi
zatio
n st
ate
of li
ne a
nd b
us0
= U
nkno
wn;
1 =
Bot
h Li
ve; 2
=Li
ve li
ne D
ead
bus;
3 =
Dea
d lin
eLi
ve b
us; 4
= B
oth
Dea
d
8160
14
1-
Load
she
ddin
g (L
SHD
PFR
Q),
5 st
ages
LD0.
LSH
DPT
RC
1.St
r.gen
eral
LSH
DPF
RQ
1.ST
ART
Star
t sta
ge1
10 =
Sta
rt82
111
11
1LD
0.LS
HD
PTR
C1.
Op.
gene
ral
LSH
DPF
RQ
1.O
PER
ATE
Ope
rate
sta
ge1
10 =
Ope
rate
8212
11
01
LD0.
LSH
DPT
RC
1.R
estL
odSt
r.gen
eral
LSH
DPF
RQ
1.ST
_RES
TSt
art o
f res
tore
sta
ge 1
10 =
Sta
rt82
131
11
1LD
0.LS
HD
PTR
C1.
Res
tLod
Op.
gene
ral
LSH
DPF
RQ
1.R
ESTO
RE
Res
tore
the
load
sta
ge 1
10 =
Ope
rate
8214
11
01
LD0.
LSH
DPT
RC
2.St
r.gen
eral
LSH
DPF
RQ
2.ST
ART
Star
t sta
ge2
10 =
Sta
rt82
211
11
1LD
0.LS
HD
PTR
C2.
Op.
gene
ral
LSH
DPF
RQ
2.O
PER
ATE
Ope
rate
sta
ge2
10 =
Ope
rate
8222
11
01
LD0.
LSH
DPT
RC
2.R
estL
odSt
r.gen
eral
LSH
DPF
RQ
2.ST
_RES
TSt
art o
f res
tore
sta
ge 2
10 =
Sta
rt82
231
11
1LD
0.LS
HD
PTR
C2.
Res
tLod
Op.
gene
ral
LSH
DPF
RQ
2.R
ESTO
RE
Res
tore
the
load
sta
ge 2
10 =
Ope
rate
8224
11
01
LD0.
LSH
DPT
RC
3.St
r.gen
eral
LSH
DPF
RQ
3.ST
ART
Star
t sta
ge3
10 =
Sta
rt82
311
11
1LD
0.LS
HD
PTR
C3.
Op.
gene
ral
LSH
DPF
RQ
3.O
PER
ATE
Ope
rate
sta
ge3
10 =
Ope
rate
8232
11
01
LD0.
LSH
DPT
RC
3.R
estL
odSt
r.gen
eral
LSH
DPF
RQ
3.ST
_RES
TSt
art o
f res
tore
sta
ge 3
10 =
Sta
rt82
331
11
1LD
0.LS
HD
PTR
C3.
Res
tLod
Op.
gene
ral
LSH
DPF
RQ
3.R
ESTO
RE
Res
tore
the
load
sta
ge 3
10 =
Ope
rate
8234
11
01
LD0.
LSH
DPT
RC
4.St
r.gen
eral
LSH
DPF
RQ
4.ST
ART
Star
t sta
ge4
10 =
Sta
rt82
411
11
1LD
0.LS
HD
PTR
C4.
Op.
gene
ral
LSH
DPF
RQ
4.O
PER
ATE
Ope
rate
sta
ge4
10 =
Ope
rate
8242
11
01
LD0.
LSH
DPT
RC
4.R
estL
odSt
r.gen
eral
LSH
DPF
RQ
4.ST
_RES
TSt
art o
f res
tore
sta
ge 4
10 =
Sta
rt82
431
11
1LD
0.LS
HD
PTR
C4.
Res
tLod
Op.
gene
ral
LSH
DPF
RQ
4.R
ESTO
RE
Res
tore
the
load
sta
ge 4
10 =
Ope
rate
8244
11
01
LD0.
LSH
DPT
RC
5.St
r.gen
eral
LSH
DPF
RQ
5.ST
ART
Star
t sta
ge5
10 =
Sta
rt82
511
11
1
Tabl
e co
ntin
ues
on n
ext p
age
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
18 REU615Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
LD0.
LSH
DPT
RC
5.O
p.ge
nera
lLS
HD
PFR
Q5.
OPE
RAT
EO
pera
te s
tage
510
= O
pera
te82
521
10
1LD
0.LS
HD
PTR
C5.
Res
tLod
Str.g
ener
alLS
HD
PFR
Q5.
ST_R
EST
Star
t of r
esto
re s
tage
510
= S
tart
8253
11
11
LD0.
LSH
DPT
RC
5.R
estL
odO
p.ge
nera
lLS
HD
PFR
Q5.
RES
TOR
ER
esto
re th
e lo
ad s
tage
510
= O
pera
te82
541
10
1AR
C p
rote
ctio
nLD
0.AR
CSA
RC
1.FA
Det
.stV
alAR
CSA
RC
1.AR
C_F
LT_D
ETSt
age1
Fau
lt ar
c de
tect
ed10
=Sta
ge1
arc
dete
cted
156
211
11
01
LD0.
ARC
SAR
C1.
InR
emFA
.stV
al
Stag
e1 R
emot
e fa
ult a
rc d
etec
ted
10=S
tage
1 R
emot
e ar
c de
tect
ed15
621
21
10
1LD
0.AR
CPT
RC
1.O
p.ge
nera
lAR
CSA
RC
1.O
PER
ATE
Stag
e1 O
pera
te10
=Sta
ge1
oper
ate
156
213
12
01
LD0.
ARC
SAR
C2.
FAD
et.s
tVal
ARC
SAR
C2.
ARC
_FLT
_DET
Stag
e2 F
ault
arc
dete
cted
10=S
tage
2 ar
c de
tect
ed15
622
11
10
1LD
0.AR
CSA
RC
2.In
Rem
FA.s
tVal
St
age2
Rem
ote
faul
t arc
det
ecte
d10
=Sta
ge2
Rem
ote
arc
dete
cted
156
222
11
01
LD0.
ARC
PTR
C2.
Op.
gene
ral
ARC
SAR
C2.
OPE
RAT
ESt
age2
Ope
rate
10=S
tage
2 op
erat
e15
622
31
20
1LD
0.AR
CSA
RC
3.FA
Det
.stV
alAR
CSA
RC
3.AR
C_F
LT_D
ETSt
age3
Fau
lt ar
c de
tect
ed10
=Sta
ge3
arc
dete
cted
156
231
11
01
LD0.
ARC
SAR
C3.
InR
emFA
.stV
al
Stag
e3 R
emot
e fa
ult a
rc d
etec
ted
10=S
tage
3 R
emot
e ar
c de
tect
ed15
623
21
10
1LD
0.AR
CPT
RC
3.O
p.ge
nera
lAR
CSA
RC
3.O
PER
ATE
Stag
e3 O
pera
te10
=Sta
ge3
oper
ate
156
233
12
01
Phas
e ov
ercu
rrent
pro
tect
ion
(3 s
tage
s)LD
0.PH
IPTO
C1.
Str.p
hsA
-In
stan
teou
s st
age
phsA
sta
rt10
= ph
sA s
tart
162
340
21
1LD
0.PH
IPTO
C1.
Str.p
hsB
-In
stan
teou
s st
age
phsB
sta
rt10
= ph
sB s
tart
162
350
21
1LD
0.PH
IPTO
C1.
Str.p
hsC
-In
stan
teou
s st
age
phsC
sta
rt10
= ph
sC s
tart
162
360
21
1LD
0.PH
HPT
OC
1.St
r.phs
A-
Hig
h st
age
phsA
sta
rt10
= ph
sA s
tart
162
540
21
1LD
0.PH
HPT
OC
1.St
r.phs
B-
Hig
h st
age
phsB
sta
rt10
= ph
sB s
tart
162
550
21
1LD
0.PH
HPT
OC
1.St
r.phs
C-
Hig
h st
age
phsC
sta
rt10
= ph
sC s
tart
162
560
21
1LD
0.PH
LPTO
C1.
Str.p
hsA
-Lo
w s
tage
phs
A st
art
10=
phsA
sta
rt16
264
02
11
LD0.
PHLP
TOC
1.St
r.phs
B-
Low
sta
ge p
hsB
star
t10
= ph
sB s
tart
162
650
21
1LD
0.PH
LPTO
C1.
Str.p
hsC
-Lo
w s
tage
phs
C s
tart
10=
phsC
sta
rt16
266
02
11
LD0.
PHLP
TOC
1.St
r.gen
eral
PHLP
TOC
1.ST
ART
Low
sta
ge g
ener
al s
tart
10=
Low
sta
ge g
ener
al s
tart
162
841
21
1LD
0.PH
LPTO
C1.
Op.
gene
ral
PHLP
TOC
1.O
PER
ATE
Low
sta
ge g
ener
al o
pera
te10
= Lo
w s
tage
gen
eral
ope
rate
162
901
20
1LD
0.PH
HPT
OC
1.O
p.ge
nera
lPH
HPT
OC
1.O
PER
ATE
Hig
h st
age
gene
ral o
pera
te10
= H
igh
stag
e ge
nera
l ope
rate
162
911
20
1LD
0.PH
HPT
OC
1.St
r.gen
eral
PHH
PTO
C1.
STAR
TH
igh
stag
e ge
nera
l sta
rt10
= H
igh
stag
e ge
nera
l sta
rt16
294
12
11
LD0.
PHIP
TOC
1.St
r.gen
eral
PHIP
TOC
1.ST
ART
Inst
ante
ous
stag
e ge
nera
l sta
rt10
= In
stan
teou
s st
age
gene
ral
star
t16
297
12
11
LD0.
PHIP
TOC
1.O
p.ge
nera
lPH
IPTO
C1.
OPE
RAT
EIn
stan
teou
s st
age
gene
ral o
pera
te10
= In
stan
teou
s st
age
gene
ral
oper
ate
162
991
20
1
Ther
mal
ove
rload
pro
tect
ion
LD0.
T2PT
TR1.
Str.g
ener
alT2
PTTR
1.ST
ART
Ther
mal
sta
rt10
=Sta
rt16
810
41
21
1LD
0.T2
PTTR
1.Al
mTh
m.g
ener
alT2
PTTR
1.AL
ARM
Ther
mal
ala
rm10
=Ala
rm16
810
51
21
1LD
0.T2
PTTR
1.O
p.ge
nera
lT2
PTTR
1.O
PER
ATE
Ope
rate
10=O
pera
te16
810
61
20
1Ph
ase
curre
nts
limit
supe
rvis
onLD
0.C
MM
XU1.
HiA
lm.s
tVal
CM
MXU
1.H
IGH
_ALA
RM
Phas
e cu
rrent
s H
igh
alar
m10
=Hig
h al
arm
210
11
11
1LD
0.C
MM
XU1.
HiW
rn.s
tVal
CM
MXU
1.H
IGH
_WAR
NIN
GPh
ase
curre
nts
Hig
h w
arni
ng10
=Hig
h w
arni
ng21
02
11
11
LD0.
CM
MXU
1.Lo
Wrn
.stV
alC
MM
XU1.
LOW
_ALA
RM
Phas
e cu
rrent
s Lo
w a
larm
10=L
ow a
larm
210
31
11
1LD
0.C
MM
XU1.
LoAl
m.s
tVal
CM
MXU
1.LO
W_W
ARN
ING
Phas
e cu
rrent
s Lo
w w
arni
ng10
=Low
war
ning
210
41
11
1
Tabl
e co
ntin
ues
on n
ext p
age
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 19Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
Phas
e vo
ltage
lim
it su
perv
ison
LD0.
VMM
XU1.
HiA
lm.s
tVal
VMM
XU1.
HIG
H_A
LAR
MPh
ase
volta
ge H
igh
alar
m10
=Hig
h al
arm
211
11
11
1LD
0.VM
MXU
1.H
iWrn
.stV
alVM
MXU
1.H
IGH
_WAR
NIN
GPh
ase
volta
ge H
igh
war
ning
10=H
igh
war
ning
211
21
11
1LD
0.VM
MXU
1.Lo
Wrn
.stV
alVM
MXU
1.LO
W_A
LAR
MPh
ase
volta
ge L
ow a
larm
10=L
ow a
larm
211
31
11
1LD
0.VM
MXU
1.Lo
Alm
.stV
alVM
MXU
1.LO
W_W
ARN
ING
Phas
e vo
ltage
Low
war
ning
10=L
ow w
arni
ng21
14
11
11
Res
idua
l vol
tage
lim
it su
perv
isio
nLD
0.R
ESVM
MXU
1.H
iAlm
.stV
alR
ESVM
MXU
1.H
IGH
_ALA
RM
Res
idua
l vol
tage
Hig
h al
arm
10=H
igh
alar
m21
111
11
11
LD0.
RES
VMM
XU1.
HiW
rn.s
tVal
RES
VMM
XU1.
HIG
H_W
ARN
Res
idua
l vol
tage
Hig
h w
arni
ng10
=Hig
h w
arni
ng21
112
11
11
Circ
uit b
reak
er p
ositi
on a
nd fa
ilure
pro
tect
ion
CTR
L.C
BCIL
O1.
EnaO
pn.s
tVal
CBX
CBR
1.EN
A_O
PEN
CB
open
ena
bled
10=O
pen
enab
led
240
211
11
1C
TRL.
CBC
ILO
1.En
aCls
.stV
alC
BXC
BR1.
ENA_
CLO
SEC
B cl
ose
enab
led
10=C
lose
ena
bled
240
221
11
1C
TRL.
CBX
CBR
1.Bl
kOpn
.stV
alC
BXC
BR1.
BLK_
OPE
NC
B op
en b
lock
ed10
=Ope
n bl
ocke
d24
023
11
11
CTR
L.C
BXC
BR1.
BlkC
ls.s
tVal
CBX
CBR
1.BL
K_C
LOSE
CB
clos
e bl
ocke
d10
=Clo
se b
lock
ed24
024
11
11
CTR
L.C
BCIL
O1.
ItlBy
Pss.
stVa
lC
BXC
BR1.
ITL_
BYPA
SSC
B in
terlo
ckin
g by
pass
10=I
nter
lock
ing
bypa
ssed
240
250
11
1C
TRL.
CBC
SWI.P
os.s
tSel
d
CB
sele
cted
10=S
elec
ted
240
120
12
11
CTR
L.C
BCSW
I1.P
os.s
tVal
CBX
CBR
1.PO
SITI
ON
Circ
uit b
reak
er p
ositi
on10
=Clo
se; 0
1=O
pen;
00=I
nter
med
iate
; 11=
Erro
r24
016
01
1.2
12
Con
trolla
ble
disc
onne
ctor
1C
TRL.
DC
CIL
O1.
EnaO
pn.s
tVal
ENA_
OPE
NO
pen
enab
led
10=E
nabl
ed24
521
11
11
CTR
L.D
CC
ILO
1.En
aCls
.stV
alEN
A_C
LOSE
Clo
se e
nabl
ed10
=Ena
bled
245
221
11
1C
TRL.
DC
CIL
O1.
ItlBy
Pss.
stVa
lIT
L_BY
PASS
Inte
rlock
ing
bypa
ss10
=Byp
asse
d24
525
11
11
CTR
L.D
CXS
WI1
.Blk
Opn
.stV
alBL
K_O
PEN
Ope
n bl
ocke
d10
=Blo
cked
245
231
11
1C
TRL.
DC
XSW
I1.B
lkC
ls.s
tVal
BLK_
CLO
SEC
lose
blo
cked
10=B
lock
ed24
524
11
11
CTR
L.D
CC
SWI1
.stS
eld.
stVa
lSE
LEC
TED
DC
sel
ecte
d10
=Sel
ecte
d24
512
01
11
1C
TRL.
DC
CSW
I1.P
os.s
tVal
/ctlV
alPO
SITI
ON
DC
pos
/con
trol
10/0
1=C
lose
/Ope
n24
516
01
1,20
11
Con
trolla
ble
disc
onne
ctor
2C
TRL.
DC
CIL
O2.
EnaO
pn.s
tVal
ENA_
OPE
NO
pen
enab
led
10=E
nabl
ed24
621
11
11
CTR
L.D
CC
ILO
2.En
aCls
.stV
alEN
A_C
LOSE
Clo
se e
nabl
ed10
=Ena
bled
246
221
11
1C
TRL.
DC
CIL
O2.
ItlBy
Pss.
stVa
lIT
L_BY
PASS
Inte
rlock
ing
bypa
ss10
=Byp
asse
d24
625
11
11
CTR
L.D
CXS
WI2
.Blk
Opn
.stV
alBL
K_O
PEN
Ope
n bl
ocke
d10
=Blo
cked
246
231
11
1C
TRL.
DC
XSW
I2.B
lkC
ls.s
tVal
BLK_
CLO
SEC
lose
blo
cked
10=B
lock
ed24
624
11
11
CTR
L.D
CC
SWI2
.stS
eld.
stVa
lSE
LEC
TED
DC
sel
ecte
d10
=Sel
ecte
d24
612
01
11
1C
TRL.
DC
CSW
I2.P
os.s
tVal
/ctlV
alPO
SITI
ON
DC
pos
/con
trol
10/0
1=C
lose
/Ope
n24
616
01
1,20
11
Con
trolla
ble
earth
sw
itch
1C
TRL.
ESC
ILO
1.En
aOpn
.stV
alEN
A_O
PEN
Ope
n en
able
d10
=Ena
bled
247
211
11
1C
TRL.
ESC
ILO
1.En
aCls
.stV
alEN
A_C
LOSE
Clo
se e
nabl
ed10
=Ena
bled
247
221
11
1C
TRL.
ESC
ILO
1.Itl
ByPs
s.st
Val
ITL_
BYPA
SSIn
terlo
ckin
g by
pass
10=B
ypas
sed
247
251
11
1C
TRL.
ESXS
WI1
.Blk
Opn
.stV
alBL
K_O
PEN
Ope
n bl
ocke
d10
=Blo
cked
247
231
11
1C
TRL.
ESXS
WI1
.Blk
Cls
.stV
alBL
K_C
LOSE
Clo
se b
lock
ed10
=Blo
cked
247
241
11
1C
TRL.
ESC
SWI1
.stS
eld.
stVa
lSE
LEC
TED
DC
sel
ecte
d10
=Sel
ecte
d24
712
01
11
1
Tabl
e co
ntin
ues
on n
ext p
age
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
20 REU615Point List Manual
IEC
618
50 n
ame
AFL-
Com
mon
SA
nam
eD
escr
iptio
nD
PI v
alue
FUN
INF
InU
seAS
DU
GI
Cod
ing
CTR
L.ES
CSW
I1.P
os.s
tVal
/ctlV
alPO
SITI
ON
DC
pos
/con
trol
10/0
1=C
lose
/Ope
n24
716
01
1,20
11
Dis
conn
ecto
r pos
ition
sC
TRL.
DC
SXSW
I1.P
os.s
tVal
DC
SXSW
I1.P
OSI
TIO
ND
isco
nnec
tor 1
pos
ition
10=C
lose
;01=
Ope
n;00
=Int
erm
edia
te;1
1=Er
ror
253
11
11
2
CTR
L.D
CSX
SWI2
.Pos
.stV
alD
CSX
SWI2
.PO
SITI
ON
Dis
conn
ecto
r 2 p
ositi
on10
=Clo
se;0
1=O
pen;
00=I
nter
med
iate
;11=
Erro
r25
32
11
12
CTR
L.D
CSX
SWI3
.Pos
.stV
alD
CSX
SWI3
.PO
SITI
ON
Dis
conn
ecto
r 3 p
ositi
on10
=Clo
se;0
1=O
pen;
00=I
nter
med
iate
;11=
Erro
r25
33
11
12
CTR
L.ES
SXSW
I1.P
os.s
tVal
ESSX
SWI1
.PO
SITI
ON
Earth
sw
itch
1 po
sitio
n10
=Clo
se;0
1=O
pen;
00=I
nter
med
iate
;11=
Erro
r25
311
11
12
CTR
L.ES
SXW
I2.P
os.s
tVal
ESSX
SWI2
.PO
SITI
ON
Earth
sw
itch
2 po
sitio
n10
=Clo
se; 0
1=O
pen;
00=I
nter
med
iate
; 11=
Erro
r25
312
11
12
LHM
I LED
indi
catio
ns ty
pe 1
(2 s
tate
s)LD
0.LE
DG
GIO
1.IS
CSO
1.st
Val
-LE
D 1
sta
te10
=On
253
891
11
1LD
0.LE
DG
GIO
1.IS
CSO
2.st
Val
-LE
D 2
sta
te10
=On
253
901
11
1LD
0.LE
DG
GIO
1.IS
CSO
3.st
Val
-LE
D 3
sta
te10
=On
253
911
11
1LD
0.LE
DG
GIO
1.IS
CSO
4.st
Val
-LE
D 4
sta
te10
=On
253
921
11
1LD
0.LE
DG
GIO
1.IS
CSO
5.st
Val
-LE
D 5
sta
te10
=On
253
931
11
1LD
0.LE
DG
GIO
1.IS
CSO
6.st
Val
-LE
D 6
sta
te10
=On
253
941
11
1LD
0.LE
DG
GIO
1.IS
CSO
7.st
Val
-LE
D 7
sta
te10
=On
253
951
11
1LD
0.LE
DG
GIO
1.IS
CSO
8.st
Val
-LE
D 8
sta
te10
=On
253
961
11
1LD
0.LE
DG
GIO
1.IS
CSO
9.st
Val
-LE
D 9
sta
te10
=On
253
971
11
1LD
0.LE
DG
GIO
1.IS
CSO
10.s
tVal
-LE
D 1
0 st
ate
10=O
n25
398
11
11
LD0.
LED
GG
IO1.
ISC
SO11
.stV
al-
LED
11
stat
e10
=On
253
991
11
1LH
MI L
ED in
dica
tions
type
2 (3
sta
tes,
1:1
LED
sta
te)
LD0.
LED
GG
IO1.
ISC
SO1.
stVa
l-
LED
1 s
tate
00/0
1/11
=LED
Sta
te25
311
91
11
2LD
0.LE
DG
GIO
1.IS
CSO
2.st
Val
-LE
D 2
sta
te00
/01/
11=L
ED S
tate
253
120
11
12
LD0.
LED
GG
IO1.
ISC
SO3.
stVa
l-
LED
3 s
tate
00/0
1/11
=LED
Sta
te25
312
11
11
2LD
0.LE
DG
GIO
1.IS
CSO
4.st
Val
-LE
D 4
sta
te00
/01/
11=L
ED S
tate
253
122
11
12
LD0.
LED
GG
IO1.
ISC
SO5.
stVa
l-
LED
5 s
tate
00/0
1/11
=LED
Sta
te25
312
31
11
2LD
0.LE
DG
GIO
1.IS
CSO
6.st
Val
-LE
D 6
sta
te00
/01/
11=L
ED S
tate
253
124
11
12
LD0.
LED
GG
IO1.
ISC
SO7.
stVa
l-
LED
7 s
tate
00/0
1/11
=LED
Sta
te25
312
51
11
2LD
0.LE
DG
GIO
1.IS
CSO
8.st
Val
-LE
D 8
sta
te00
/01/
11=L
ED S
tate
253
126
11
12
LD0.
LED
GG
IO1.
ISC
SO9.
stVa
l-
LED
9 s
tate
00/0
1/11
=LED
Sta
te25
312
71
11
2LD
0.LE
DG
GIO
1.IS
CSO
10.s
tVal
-LE
D 1
0 st
ate
00/0
1/11
=LED
Sta
te25
312
81
11
2LD
0.LE
DG
GIO
1.IS
CSO
11.s
tVal
-LE
D 1
1 st
ate
00/0
1/11
=LED
Sta
te25
312
91
11
2
1YHT530009D05 B Section 2IEC 60870-5-103 data mappings
REU615 21Point List Manual
Tabl
e 3:
Clas
s 2
PRIV
ATE
mea
sura
nd fr
ames
6 a
nd 7
for R
EU61
5 va
riant
s UC
01 a
nd U
C02
Inde
xIE
C 6
1850
dat
aD
escr
iptio
nD
efau
lt sc
ale
Fram
e 6
Fram
e 7
Com
men
t1
LD0.
CM
MXU
1.A.
phsA
.inst
CVa
l.mag
Phas
e cu
rrent
A2.
4x
xn.
a in
UC
012
LD0.
CM
MXU
1.A.
phsB
.inst
CVa
l.mag
Phas
e cu
rrent
B2.
4x
xn.
a in
UC
013
LD0.
CM
MXU
1.A.
phsC
.inst
CVa
l.mag
Phas
e cu
rrent
C2.
4x
xn.
a in
UC
014
LD0.
RES
VMM
XU1.
A.re
s.in
stC
Val.m
agR
esid
ual v
olta
ge2.
4x
xn.
a in
UC
025
LD0.
CSM
SQI1
.Seq
A.c1
.inst
CVa
l.mag
Posi
tive
sequ
ence
cur
rent
2.4
xx
n.a
in U
C01
6LD
0.C
SMSQ
I1.S
eqA.
c2.in
stC
Val.m
agN
egat
ive
sequ
ence
cur
rent
2.4
xx
n.a
in U
C01
7LD
0.C
SMSQ
I1.S
eqA.
c3.in
stC
Val.m
agZe
ro s
eque
nce
curre
nt2.
4x
xn.
a in
UC
018
LD0.
T2PT
TR1.
Tmp.
mag
Tem
pera
ture
of p
rote
cted
obj
ect
1000
xx
n.a
in U
C01
9LD
0.T2
PTTR
1.Tm
pRl.m
agR
elat
ive
tem
pera
ture
of p
rote
cted
obj
ect
1000
xx
n.a
in U
C01
10LD
0.VM
MXU
1.ph
V.ph
sA.c
Val.m
agPh
ase-
to-g
roun
d vo
ltage
pha
se A
2.4
xx
11
LD0.
VMM
XU1.
phV.
phsB
.cVa
l.mag
Phas
e-to
-gro
und
volta
ge p
hase
B2.
4x
x
12LD
0.VM
MXU
1.ph
V.ph
sC.c
Val.m
agPh
ase-
to-g
roun
d vo
ltage
pha
se C
2.4
xx
13
LD0.
VMM
XU1.
PPV.
phsA
B.cV
al.m
agPh
ase-
to-p
hase
vol
tage
pha
se A
B2.
4x
x
14LD
0.VM
MXU
1.PP
V.ph
sBC
.cVa
l.mag
Phas
e-to
-pha
se v
olta
ge p
hase
BC
2.4
xx
15
LD0.
VMM
XU1.
PPV.
phsC
A.cV
al.m
agPh
ase-
to-p
hase
vol
tage
pha
se C
A2.
4x
x
16LD
0.VS
MSQ
I1.S
eqA.
c1.in
stC
Val.m
agPo
sitiv
e se
quen
ce v
olta
ge2.
4x
x
17LD
0.VS
MSQ
I1.S
eqA.
c2.in
stC
Val.m
agN
egat
ive
sequ
ence
vol
tage
2.4
xx
18
LD0.
VSM
SQI1
.Seq
A.c3
.inst
CVa
l.mag
Zero
seq
uenc
e vo
ltage
2.4
xx
19
LD0.
PEM
MXU
1.To
tW.in
stM
agAc
tive
pow
er P
1000
xx
n.a
in U
C01
20LD
0.PE
MM
XU1.
TotV
Ar.in
stM
agR
eact
ive
pow
er Q
1000
xx
n.a
in U
C01
21LD
0.PE
MM
XU1.
TotV
A.in
stM
agAp
pare
nt p
ower
S10
00x
xn.
a in
UC
0122
LD0.
PEM
MXU
1.To
tPF.
inst
Mag
Pow
er fa
ctor
1x
xn.
a in
UC
0123
LD0.
FMM
XU1.
Hz.
mag
Freq
uenc
y m
easu
rem
ent
100.
0x
xn.
a in
UC
0224
LD0.
CM
STA1
.AvA
mps
1.m
agPh
ase
curre
nt A
-dem
and
valu
e2.
4
xn.
a in
UC
0125
LD0.
CM
STA1
.AvA
mps
2.m
agPh
ase
curre
nt B
-dem
and
valu
e2.
4
xn.
a in
UC
0126
LD0.
CM
STA1
.AvA
mps
3.m
agPh
ase
curre
nt B
-dem
and
valu
e2.
4
xn.
a in
UC
01
unm
appe
dLD
0.XR
GG
IO13
0.An
In1.
inst
Mag
RTD
inpu
t 110
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In2.
inst
Mag
RTD
inpu
t 210
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In3.
inst
Mag
RTD
inpu
t 310
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In4.
inst
Mag
RTD
inpu
t 410
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In5.
inst
Mag
RTD
inpu
t 510
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In6.
inst
Mag
RTD
inpu
t 610
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In7.
inst
Mag
RTD
inpu
t 710
000
--
optio
nal U
C01
only
unm
appe
dLD
0.XR
GG
IO13
0.An
In8.
inst
Mag
RTD
inpu
t 810
000
--
optio
nal U
C01
only
Section 2 1YHT530009D05 BIEC 60870-5-103 data mappings
22 REU615Point List Manual
Section 3 Interoperability profile for 615 series IEC60870-5-103
3.1 Physical layer
3.1.1 Electrical interface
⊠ EIA RS-485
⃞ Number of loads ........................ for one protection equipment
NOTE - EIA RS-485 standard defines unit loads so that 32 of them can be operated on one line.For detailed information refer to clause 3 of EIA RS-485 standard.
3.1.2 Optical interface
⊠ Glass fibre
⃞ Plastic fibre
⃞ F-SMA type connector
⃞ BFOC/2,5 type connector
3.1.3 Transmission speed
⊠ 9 600 bit/s
⊠ 19 200 bit/s
3.2 Link layer
There are no choices for the link layer.
1YHT530009D05 B Section 3Interoperability profile for 615 series IEC 60870-5-103
REU615 23Point List Manual
3.3 Application layer
3.3.1 Transmission mode for application data
Mode 1 (least significant octet first), as defined in 4.10 of IEC 60870-5-4, is usedexclusively in this companion standard.
3.3.2 COMMON ADDRESS of ASDU
⊠ One COMMON ADDRESS OF ASDU (identical with station address)
⃞ More than one COMMON ADDRESS OF ASDU
3.3.3 Selection of standard information numbers in monitordirection
3.3.3.1 System functions in monitor directions
INF Semantics
⊠ <0> End of general interrogation
⊠ <0> Time synchronization
⊠ <2> Reset FCB
⊠ <3> Reset CU
⊠ <4> Start/restart
⊠ <5> Power on
3.3.3.2 Status indications in monitor direction
INF Semantics
⊠ <16> Auto-recloser active 1
⃞ <17> Teleprotection active
⃞ <18> Protection active
⃞ <19> LED reset
⃞ <20> Monitor direction blocked
⊠ <21> Test mode
⃞ <22> Local parameter setting
⊠ <23> Characteristic 1
⊠ <24> Characteristic 2
⊠ <25> Characteristic 3
⊠ <26> Characteristic 4
Table continues on next page
Section 3 1YHT530009D05 BInteroperability profile for 615 series IEC 60870-5-103
24 REU615Point List Manual
⃞ <27> Auxiliary input 1
⃞ <28> Auxiliary input 2
⃞ <29> Auxiliary input 3
⃞ <30> Auxiliary input 4
Note <27>...<30>: Depending on Binary I/O options and application usage there may be additionalauxiliary inputs available in the IED. As default, all "raw" binary input data are mapped to private data.It is possible for user to re-map these additional inputs into standard <27>...<30> 'Auxiliary Inputs', ifwanted.
3.3.3.3 Supervision indications in monitor direction
INF Semantics
⃞ <32> Measurand supervision I
⃞ <33> Measurand supervision V
⃞ <35> Phase sequence supervision
⊠ <36> Trip circuit supervision
⃞ <37> I>> back-up operation
⃞ <38> VT fuse failure
⃞ <39> Teleprotection disturbed
⃞ <46> Group warning
⃞ <47> Group alarm
Note <32>, <33> and <38>: IED current and voltage measurement supervision signals and alarmsare found in private data definitions. Semantics of these signals are more complex in 615 series thanwhat is defined by the IEC 60870-5-103 standard.
3.3.3.4 Earth fault indications in monitor direction
INF Semantics
⃞ <48> Earth fault L1
⃞ <49> Earth fault L2
⃞ <50> Earth fault L3
⃞ <51> Earth fault forward, for example line
⃞ <52> Earth fault reverse, for example busbar
Note: In 615 series there exist different functions (and signals) for non-directional or directional earthfault protection. Function- and stage-dependent start/pickup signals are found in private data locations.
3.3.3.5 Fault indications in monitor direction
INF Semantics
⃞ <64> Start /pick-up L1
⃞ <65> Start /pick-up L2
Table continues on next page
1YHT530009D05 B Section 3Interoperability profile for 615 series IEC 60870-5-103
REU615 25Point List Manual
⃞ <66> Start /pick-up L3
⃞ <67> Start /pick-up N
⊠ <68> General trip
⃞ <69> Trip L1
⃞ <70> Trip L2
⃞ <71> Trip L3
⃞ <72> Trip I>> (back-up operation)
⃞ <73> Fault location X in ohms
⃞ <74> Fault forward/line
⃞ <75> Fault reverse/busbar
⃞ <76> Teleprotection signal transmitted
⃞ <77> Teleprotection signal received
⃞ <78> Zone 1
⃞ <79> Zone 2
⃞ <80> Zone 3
⃞ <81> Zone 4
⃞ <82> Zone 5
⃞ <83> Zone 6
⃞ <84> General start/pick-up
⊠ <85> Breaker failure
⃞ <86> Trip measuring system L1
⃞ <87> Trip measuring system L2
⃞ <88> Trip measuring system L3
⃞ <89> Trip measuring system E
⃞ <90> Trip I>
⃞ <91> Trip I>>
⃞ <92> Trip IN>
⃞ <93> Trip IN>>
Note: Function-specific fault signals are as default mapped to private data locations in 615 series IEDs.
3.3.3.6 Auto-reclosure indications in monitor direction
INF Semantics
⊠ <128> CB ’on’ by AR
⃞ <129> CB ’on’ by long-time AR
⊠ <130> AR blocked
Note <129>: Terms 'short-' or 'long-time' AR are not directly usable in 615 series. The ARfunctionality in the IED performs AR shots (1..5) that are user configurable. See private AR datadefinitions. Depending on user AR configuration it is possible to re-map some private data intostandard data, if wanted.
Section 3 1YHT530009D05 BInteroperability profile for 615 series IEC 60870-5-103
26 REU615Point List Manual
3.3.3.7 Measurands in monitor direction
INF Semantics
⊠ <144> Measurand I
⊠ <145> Measurands I, V
⊠ <146> Measurands I, V, P, Q
⊠ <147> Measurands IN, VEN
⊠ <148> Measurands IL1,2,3, VL1,2,3, P, Q, f
3.3.3.8 Generic functions in monitor direction
INF Semantics
⃞ <240> Read headings of all defined groups
⃞ <241> Read values or attributes of all entries of one group
⃞ <243> Read directory of a single entry
⃞ <244> Read value or attribute of a single entry
⃞ <245> End of general interrogation of generic data
⃞ <249> Write entry with confirmation
⃞ <250> Write entry with execution
⃞ <251> Write entry aborted
3.3.4 Selection of standard information numbers in controldirection
3.3.4.1 System functions in control direction
INF Semantics
⊠ <0> Initiation of general interrogation
⊠ <0> Time synchronization
3.3.4.2 Generic functions in monitor direction
INF Semantics
⃞ <240> Read headings of all defined groups
⃞ <241> Read values or attributes of all entries of one group
⃞ <243> Read directory of a single entry
⃞ <244> Read value or attribute of a single entry
⃞ <245> End of general interrogation of generic data
⃞ <249> Write entry with confirmation
⃞ <250> Write entry with execution
⃞ <251> Write entry aborted
1YHT530009D05 B Section 3Interoperability profile for 615 series IEC 60870-5-103
REU615 27Point List Manual
3.3.5 Basic application functions
⃞ Test mode
⃞ Blocking of monitor direction
⊠ Disturbance data
⃞ Generic services
⊠ Private data
3.3.6 Miscellaneous
Measurands are transmitted as Class2 data using ASDU 3 or ASDU 9. The defaultMVAL scalings in 615 series devices is 2.4. User can freely reprogram the MVALfor each separate measurand.
Measurand Max. MVAL = rated value times
1.2 or 2.4
Current L1 ⊠ ⊠
Current L2 ⊠ ⊠
Current L3 ⊠ ⊠
Voltage L1-E ⊠ ⊠
Voltage L2-E ⊠ ⊠
Voltage L3-E ⊠ ⊠
Active power P ⊠ ⊠
Reactive power Q ⊠ ⊠
Frequency f ⊠ ⊠
Voltage L1 - L2 ⊠ ⊠
The IED contains additional private Class2 frames, including private measurands.User can freely select between standard or private Class2 frames.
Section 3 1YHT530009D05 BInteroperability profile for 615 series IEC 60870-5-103
28 REU615Point List Manual
Section 4 Glossary
AFL Application function block libraryASDU Application-layer service data unitDPI Double-point informationEMC Electromagnetic compatibilityFUN Function typeGI General interrogationIEC International Electrotechnical CommissionIEC 60870-5-103 1. Communication standard for protective equipment
2. A serial master/slave protocol for point-to-pointcommunication
IEC 61850 International standard for substation communication andmodeling
IED Intelligent electronic deviceINF Information numberLED Light-emitting diodeLHMI Local human-machine interfacePCM600 Protection and Control IED Manager
1YHT530009D05 B Section 4Glossary
REU615 29Point List Manual
30
31
Contact us
ABBNanjing SAC Power Grid AutomationCo., Ltd.No. 11 Phoenix Road, JiangningDevelopment Zone211100 Nanjing, ChinaPhone +86 25 51183000Fax +86 25 51183883
www.abb.com/substationautomation
1YH
T530
009D
05 B
© C
opyr
ight
201
4 A
BB
. All
right
s re
serv
ed.
