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RRSSMM110000 ((RReellaayy SSeettttiinngg aanndd MMoonniittoorriinngg SSyysstteemm))
The PC interface software RSM100 allows users to access Toshiba GR-series relays
from a local or remote personal computer (PC), to view active data or data stored in the
relay, to analyze the data, and to change the settings.
� Functional overview
� System configuration
� FAQ
Relay
RS-232C
D-type 9-way connector Straight-through type Personal
computer
BA 0V
VIEW
RESET
Vn 100/110/115/120V
MADE IN JAPAN
110/125V D CVdc
fn 50Hz
GRL100
206B-13-40
In
Model
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
2
Functional overview
RSM100 supports the following functions:.
Viewing and analyzing records
Event, fault and disturbance records stored in the relay can be extracted and sequentially
displayed (in the order of occurrence). They can be stored in the PC and printed out.
Waveform data in the disturbance record can be displayed, edited, measured and analyzed in
detail.
Viewing active data
Power system quantities measured by the relay, status of binary inputs, binary outputs and
measuring elements of the relay are retrieved and displayed.
3
Viewing and changing settings
Setting data in the relay can be extracted and displayed. They can be edited on-line or off-line
and transferred to the relay to change the settings.
Test functions
Switches can be set to block automatic monitoring or to enable testing using a single voltage
source. Settings required to test measuring elements and timers can be set. Automatic testing
can be started manually.
4
System configuration
Minimum System Configuration
The minimum system configuration required to run RSM100 is as follows:
� Personal computer (PC) provided with the minimum system requirement for theinstalled operating system. (*)
� Operating system:
Windows® 7, English version (**)
Windows® 8.1, English version (**)
Windows® 10, English version which is equal or larger than 1607 (**)
� Internet Explorer TM (Version 7 or later) (**)
� Hard disk: 100 MB or more required for RSM100 software
� Display: 640 × 480 pixels or more
� PC/AT keyboard
� Pointing device (Mouse, Track ball, etc.)
� CD-ROM device
� RS-232C port (D-type 9-way connector, straight-through type): Refer to the following figure.
� RS-232C cable
Note: (*) The PC, whose installed operating system serves user for comfortable operation, is recommended. For details, refer to the web site of Microsoft Corporation.
(**) Windows and Internet Explorer are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other
countries.
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
PC RELAY
(Open)
(Open)
(Open)
(Open)
(RD)
(TD)
(GND)
(RTS)
(CTS)
Straight Through
Connection
5
Access from a local PC
Connect the local PC with the relay by connecting an RS-232C cable to the RS-232C port at the lower left corner of the front panel of the relay.
Relay
RS-232C
D-type 9-way connectorStraight typePersonal
computer
BA 0V
VIEW
RESET
Vn 100/110/115/120V
MADE IN JAPAN
110/125V DCVdc
fn 50Hz
GRL100
206B-13-40
In
Model
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
6
Access from a remote PC
The figures below show the configuration of the RSM system.
The relays are connected to the RS-232C port of the remote PC via a protocol converter (type G1PR2) and a communications network (WAN, telephone line via modems, etc).
Connection via RS485
The relays are connected through twisted-pair cables and up to 32 relays can be connected. The total length of twisted-pair cable should not exceed 1200 m.
PROTOCOL CONVERTOR
1 4
COMMUNICATIONS
NETWORK
1 2 32
97 98 128
RS232RS232
VIEW
RESET
Vn --
Made in Japan
110/1 25V DCVdc
f n 5 0Hz
GR D11 040 0A-11-1 1
I n
M odel
Typ e
1A
ALARM
IN SERVICE
TRIP
Ia
CANCEL
OVERCURRENT RELAY
ENTER
END
0.0 A
TOSHIBA
BA 0V
VIEW
RESET
Vn 1 00/110 /115/ 120V
MADE IN JAPAN
110/12 5V D CVdc
fn 50Hz
GRL100
20 6B-13-4 0
In
Mod el
T yp e
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V63.5V
63.5V
IaIb
Ic
0.50A0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
BA 0V
VIEW
RESET
Vn 1 00/1 10/115 /120 V
M ADE IN JAPAN
11 0/125V DCVdc
f n 5 0Hz
GRL100
206B-13- 40
I n
M odel
T ype
1A
TESTING
ALARM
IN SERVICE
TRI P
Metering 1Va
Vb
Vc
63.5V63.5V
63.5V
IaIb
Ic
0.50A0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
VIEW
RESET
Vn --
Made in Japa n
11 0/ 125V DCVdc
fn 50Hz
GRD1 10400A-11 -11
In
Model
Ty pe
1A
ALARM
IN SERVIC E
TRIP
Ia
CANCEL
OVERCURRENT RELAY
ENTER
END
0.0 A
TOSHIBA
BA 0V
VIEW
RESET
Vn 100/ 11 0/115 /120V
M ADE IN JAPAN
110/ 125V DCVdc
fn 50 Hz
GRL100
2 06B-13 -40
In
Mo del
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
BA 0V
VIEW
RESET
Vn 100 /110/11 5/12 0V
MAD E IN JAPAN
1 10/125V DCVdc
fn 50Hz
GRL100
206B-13 -40
In
Model
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
129130160
VIEW
RESET
Vn --
M ade in Japan
110 /125V DCVdc
fn 50 Hz
GRD110400A-11- 11
In
M ode l
T yp e
1 A
ALARM
IN SERVICE
TRIP
Ia
CANCEL
OVERCURRENT RELAY
ENTER
END
0.0 A
TOSHIBA
BA 0V
VIEW
RESET
Vn 10 0/11 0/ 115/1 20V
MADE I N JAPAN
110 /12 5V DCVd c
fn 50 Hz
GRL100
2 06 B-13-4 0
In
M odel
Ty pe
1 A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V63.5V
63.5V
IaIb
Ic
0.50A0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
5
BA 0V
VIEW
RESET
Vn 10 0/11 0/1 15/1 20V
MADE I N J APAN
110/ 12 5V DCVd c
fn 50 Hz
GRL100
2 06 B- 13-4 0
In
Mo de l
Ty pe
1 A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
VbVc
63.5V
63.5V63.5V
Ia
IbIc
0.50A
0.50A0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
225226256
PROTOCOL
CONVERTOR
TYPENO.VOLTAGE
G1PR2-108-01
DC110V
2004-08
MADE IN JA PAN
POWER
ALARM
IRIG-B
1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
TX
RX
TOSHIBA
TOSHIBA Corporation
8
OPTICAL INTERFACE UNITOPTICAL INTERFACE UNITOPTICAL INTERFACE UNITOPTICAL INTERFACE UNIT
Type
Mode l
Vdc
G1IF2
MADE I N JAP AN
POWER
RX OPT
TX OPT
110A -10-00
110V dc/ 100V ac
RS485Interfac e
TOSHIBA
OPTICAL/RS485
INTERFACE
VIEW
RESET
Vn --
Ma de in Japa n
11 0/ 125V DCVdc
fn 50Hz
GRD110400A-11 -11
In
Model
Ty pe
1A
ALARM
IN SERVICE
TRIP
Ia
CANCEL
OVERCURRENT RELAY
ENTER
END
0.0 A
TOSHIBA
BA 0V
VIEW
RESET
Vn 100/ 11 0/115 /120V
M ADE IN JAPAN
110/ 125V DCVdc
fn 50 Hz
GRL100
2 06B-13 -40
In
Mo del
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
BA 0V
VIEW
RESET
Vn 100/110 /115 /120V
M ADE IN JAPAN
110/1 25V DCVdc
fn 50Hz
GRL100
20 6B-13 -40
In
Mo del
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V63.5V
63.5V
IaIb
Ic
0.50A0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
OPTICAL INTERFACE UN ITOPTICAL INTERFACE UN ITOPTICAL INTERFACE UN ITOPTICAL INTERFACE UN IT
Type
Model
Vdc
G1I F2
MADE IN JAP AN
POWER
RX OPT
TX OPT
110A -10-00
110V dc/ 100V ac
RS485Interfac e
TOSHIBA
OPTICAL/RS485
INTERFACE
7
Connection via fibre optic cable
The relays are connected through fibre optic cables and up to 8 relays can be connected.
The length of each fibre optic cable should not exceed 1200 m (using 62.3/125mm GI fibre).
PROTOCOL CONVERTOR
1 2 8
COMMUNICATIONS
NETWORK
1 2 8
RS232RS232PROTOCOLCONVERTOR
TYPENO.VOLTAGE
G1PR2-180-01
DC110V
2004-08
MADE I N JAPAN
POWER
ALARM
IRIG-B
1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
TX
RX
TOSHIBA
TOSHIBA Corporation
VIEW
RESET
Vn --
Made in Japan
110/125V D CVdc
fn 50Hz
GRD110400A-11-11
In
Model
Type
1A
ALARM
IN SERVICE
TRIP
Ia
CANCEL
OVERCURRENT RELAY
ENTER
END
0.0 A
TOSHIBA
BA 0V
VIEW
RESET
Vn 100/110/115/120V
MADE IN JAPAN
110/125V DCVdc
fn 50Hz
GRL100
206B-13-40
In
Model
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
BA 0V
VIEW
RESET
Vn 100/110/115/120V
MADE IN JAPAN
110/125V DCVdc
fn 50Hz
GRL100
206B-13-40
In
Model
Type
1A
TESTING
ALARM
IN SERVICE
TRIP
Metering 1Va
Vb
Vc
63.5V
63.5V
63.5V
Ia
Ib
Ic
0.50A
0.50A
0.50A
7 8 9
4 5 6
1 2 3
0 . -
ENDCANCELENTER
LINE DIFFERENTIAL PROTECTIONTOSHIBA
8
FAQ
The following lists show frequently asked questions and answers regarding the RSM100
software and waveform data analysis software.
RSM100
Q. RSM100 cannot connect to a relay. 1
A. Check the following:
-Check that the relay is powered up.
-At both relay and PC, check that the connecting cable is securely attached.
-Check that the connecting cable is the straight-through type.
-RSM100 is designed for upward compatibility, so a relay cannot be connected when using
RSM100 of a revision older than that supplied with the relay.
-If RSM100 is re-installed, it is first necessary to delete the older version.
-If possible, disconnect and then re-connect the power to the relay and then attempt to
connect the PC again.
Check the following Communication-Option settings.
-Check that RS232C is selected.
-Check that the COMM port number in use corresponds to the setting number.
-Check that the transmission rate of RSM100 corresponds to that of the relay.
-Check that 9600bps is selected in case of a relay type without transmission rate setting.
Q. The setting data file, saved by an old version of RSM100, cannot be opened by a new
version of the RSM100.
2
A. First, save the file in Off-line mode, and then open the saved file in On-line mode.
Q. It takes time to display the “Menu” screen when connecting to a relay.3
A. It may take time from specifying the relay model and the file name to displaying the “Menu”
screen depending on type of PC. Therefore, please wait for a while.
Q. Printout data of a Group other than that of Active Group saved when the saved file is open in
off-line operation.
4
A. First, open the file and change Active Group into a Group to printout, and return the Setting
menu, and save the changed Active group with new file name. And then, open the new file
again and printout the changed Active group data.
Q. A different item is displayed when opening the file by RSM100 whose version is older than
that when it has been saved.
5
A. Configuration data for displaying may be different between them. Try to open the file the
version of RSM100 when it has been saved, or the later.
Q. A setting box is blank and an item is not displayed when connecting to a relay.6
A. The version of RSM100 may be old. Use the version of RSM100 attached with the relay or
the later.
9
Waveform data analysis
Q. When displaying waveform records without voltage, messages of “No 3-phase voltages.” and “No voltage
drops.” are shown.
1
A. In default, the fault information is calculated automatically as “Measurement Result of Fault Section”when
data is opened. The above messages are shown in the case of no voltage. So click [Set] on menu bar, click
[Option] in the drop-down menu, and remove the checkmark of “Fault Section Calculation” in the dialog box.
And then the messages aren’t shown from the next starting.
Q. In spite of inputting current by three-phase equilibrium, all is the same phase in Vector diagram. 2
A. In Vector diagram, the default setting of phase reference angle is “Phase A Voltage” even though the model
without voltage. So change the phase reference angle “Phase A Voltage” into a current. Click [Set] on menu
bar, click [Reference phase] in the drop-down menu, and select the desired channel and current in the
“Channel” and “Phase order” drop-down list boxes.
Q. When displaying the RMS value in the GRB100 relay, only certain channel’s voltage or current information
is shown.
3
A. If other channel’s voltage or current information will be shown, click [Set] on menu bar, click [Phase rotation]
in the drop-down menu, and select any channel’s voltage or current in the drop-down list box.
Q. The phase angle display is “---” in RMS value.4
A. The default setting of phase reference angle is “Phase A Voltage” even though the model without voltage.
So change the phase reference angle into a current. Click [Set] on menu bar, click [Reference phase] in the
drop-down menu, and select the desired channel and current in the “Channel” and “Phase order” drop-down
list boxes.
Q. The upper half of RMS value is all “---”.5
A. The upper half of the screen for RMS value displays voltage information and the lower half of that current
information. Therefore the upper half is shown as “---” in the case of the model without voltage and the lower
half is “---” in the case of the model without current.
Q. In Symmetrical Component, the positive, the negative and the zero sequence components are displayed, it
isn’t clear what voltage or current has these components.
6
A. This function displays the positive, the negative and the zero sequence components of the voltage or
current selected by [Set] menu. So, click [Set] on menu bar, click [Phase rotation] in the drop-down menu,
and read the selected voltage or current.
Q. It is hard to see the waveform of Binary data for its yellow color.7
A. Change the color as follows: Click [File] on menu bar, click [Properties] in the drop-down menu, click
[Elements] button in the dialog box, click [Binary Elements(CH select)], select the data, click [Edit] button,
and select the Ch number (data) and desired color in the drop-down list boxes.
10
Q. When viewing the recorded waveform, it takes long time to designate the file by starting RSM100. 8
A. By running “hakei.exe” as an executable file in the installed folder and opening the waveform file (extension
OSC), it is not necessary to start RSM100 for displaying the waveform. And it is more convenient that the
files with extension OSC run “hakei.exe” directly by the folder option of Explorer.
Q. The waveform displayed by disturbance record would like to be stored as COMTRADE file type.9
A. Designate the file name and the place to store by clicking [Analysis] on menu bar and [Save As ComTrade
File Type] in the drop-down menu.
Q. The saved waveform data file cannot be open.10
A. Make sure the software version of the waveform data analysis. Open the file by the latest version. The
version can be checked with the [Help] menu.
Q. Cannot print waveform data on setting the direction of paper to “width” in the [Print Waveform] menu.11
A. This function is not supported depending on the printer, however, it is possible by the following procedure.
(1) Click [File] → [Print] → [Print Waveform] and display the [Print Waveform] dialog box.
(2) Click [Print Setup] and display the [Print Setup] dialog box.
(3) Select the A3 for original size in page setting, and select the A4 for output paper size.
(4) Execute the print after setting the direction of paper to “width”.
Q. There is a difference between the number of characters of Signal name set on the “Setting” screen between
that of the name displayed as binary signal in Waveform.
12
A. The name of binary signal can be displayed up to 12 characters. Therefore, it is recommended the
maximum 12 characters are set on the “Setting” screen.
Trademarks used in this text: Microsoft, Windows 7 Windows 8.1, Windows 10 and Internet Explorer are registered trademarks of Microsoft Corporation. Other trademarks and trade names may be used in this document to refer to either the entities claiming the marks and names of their products. TOSHIBA Energy Systems & Solutions Corporation disclaims any proprietary interest in trademarks and trade names other than its own.