Toshiba GRB200 Instruction Manual
  1. Manuals
  2. Brands
  3. Toshiba Manuals
  4. Industrial Equipment
  5. GRB200
  6. Instruction manual
Toshiba GRB200 Instruction Manual

Toshiba GRB200 Instruction Manual

Replica setting procedure for centralized busbar protection ied
Hide thumbs Also See for GRB200:
Table of Contents

Advertisement

Quick Links

6F2S1923 (Rev. 0.03)
Instruction manual
Replica setting procedure
for Centralized Busbar Protection IED (GRB200)
Notice: This supplementary manual is issued for
Instruction manual 'centralized Busbar Protection
IED GR200 series (GRB200C)'.

Advertisement

Table of Contents
loading

Related Manuals for Toshiba GRB200

Summary of Contents for Toshiba GRB200

  • Page 1 6F2S1923 (Rev. 0.03) Instruction manual Replica setting procedure for Centralized Busbar Protection IED (GRB200) Notice: This supplementary manual is issued for Instruction manual ‘centralized Busbar Protection IED GR200 series (GRB200C)’.
  • Page 2 6F2S1923 (0.03) Safety Precautions Before using this equipment, please read this chapter carefully. This chapter describes the safety precautions recommended when using the GR equipment. Before installing and using the equipment, this chapter must be thoroughly read and understood. Explanation of symbols used Signal words such as DANGER, WARNING, and CAUTION, will be followed by important safety information that must be carefully reviewed.
  • Page 3 6F2S1923 (0.03) CAUTION •Earth The earthing terminal of the equipment must be securely earthed. CAUTION •Operating environment The equipment must only be used within the range of ambient temperature, humidity and dust detailed in the specification and in an environment free of abnormal vibration. •Ratings Before applying AC voltage and current or the DC power supply to the equipment, check that they conform to the equipment ratings.
  • Page 4 For further information in terms of the disposal, the customer shall contact to a local dealer and sales staff at Toshiba Energy Systems & Solutions Corporation (Toshiba ESS, Japan).
  • Page 5 We reserve the right to make technical improvements without notice. •Copyright © Toshiba Energy Systems & Solutions Corporation 2021. All rights reserved. •Registered Trademarks Product/Equipment names (mentioned herein) may be trademarks of their respective...

  • Page 6: Table Of Contents

    6F2S1923 (0.03) Contents Introduction ............................1 Setting ..............................2 Setting Replica ..........................2 Setting CH use ........................2 2.1.1 Setting CH1-POS ......................... 12 2.1.2 Setting Hardware definition ...................... 14 SubUnit structuring ......................14 2.2.1 BI Definition settings ......................15 2.2.2 Setting procedures ..........................

  • Page 7: Introduction

    In order that a busbar is protected, the user must implement within it the busbar topology of the substation to which it is to be applied. GRB200 relay operates using a check-zone- protection zone (DIFCH) and discriminating-zone-protection zones (DIFZA, DIFZB etc.). The DIFCH zone provides an overall protection for the entire busbar, whilst the DIFZA, DIFZB etc.

  • Page 8: Setting

    6F2S1923 (0.03) Setting Setting Replica Setting CH use 2.1.1 Four setting categories are in each CH setting: (i) CH name (CH name_CH*) (ii) Bay arrangements (BayDevice_CH*, CouplerNo_CH*) (iii) Bay structures (Zone1_CH*, etc.) (iv) Zero ampere control (ZACbyCB_CH*). Figure 2.1-1 illustrates how to set the bay structures using [CH_use_CH*]. To start, the user needs to set On for every [CH use_CH*].
  • Page 9 6F2S1923 (0.03) CH name Settings [CH name_CH*] are provided in order that the user can easily identify the bay and channel information on the HMI screen. The user can enter preferred CH names using GR- TIEMS. Figure 2.1-2 shows the preferred names are displayed on Metering, Fault values of Recording, and Replica Settings.
  • Page 10 6F2S1923 (0.03) among (i) to (iv), when CH1 is accounted in Replica. feeder type [BayDevice_CH*]=Feeder: set ‘ ’ when the bay is formed below: Figure 2.1-3 Feeder setting when CH1 used coupler type [BayDevice_CH*]=Coupler: set ‘ ’ when the bay is formed below. Figure 2.1-4 Coupler setting when CH1 used For the coupler type, it is required for the user to enter a coupler number for setting [Coupler No_CH*].
  • Page 11 6F2S1923 (0.03) Figure 2.1-6 EndSection when CH1 is used [BayDevice_CH*]=Non: when other CHs is not to be employed in the busbar , set Non. Table 2.1-3 Bay arrangement settings Setting items Range Unit Contents Default BayDevice_CH* Non / Feeder / Coupler / EndSection Bay device selection Coupler No_CH* 1 –...
  • Page 12 6F2S1923 (0.03) Protection zones and Bay structure (iii) A Bay structure has been arranged with the setting [BayDevice_CH*] so that a DIF zone calculation (ZoneA/B/C/D/E/F) can be corresponded with a protection zone (Zone1/2/3/R1) on one-to-one basis in each CH. Table 2.1-4 shows the settings for zones and structures; they are provided in each CH.
  • Page 13 The user can define the absences or existence of CB on the bay structure by the setting; it is also possible to define that the form of the CB auxiliary contacts are injected to GRB200. The form is defined by selecting ‘Normally-Open (Form A)’, ‘Normally-Closed (Form B)’, or ‘Both NO and NC (Form C)’:...
  • Page 14 6F2S1923 (0.03) Setting [ZACbyCH_CH*]  The setting is for Zero-ampere control. By this control, the value of flowing current will be set ‘Zero’ unconditionally, when the CB is open in the CH. This control can operate when On is set for the setting [ZACbyCH_CH*]. On the other hand, set Off when this is not required.
  • Page 15 6F2S1923 (0.03) [BayDevice_CH*]=Coupler: Figure 2.1-9 illustrates Bay structure diagram about Coupler.  The user has to have settings: [Zone1], [Zone2], [Zone3], [ZoneR1], [DS11], [DS12],  [DS13], [DS21], and [CB]. The settings allow the user construct the bay structure, which will be identical to a coupler bay drawn in Single line diagram. Table 2.1-6 shows applicable settings in the coupler.
  • Page 16 6F2S1923 (0.03) <Case: Two CHs assigned at coupler/section> Figure 2.1-10 illustrates the case about two CHs (CHn and CHm) assignment.  Area is divided by two CHs: CHm area and CHn area. Remind that CH settings are  required for the both, as show in Figure 2.1-11. Busbar-A Busbar-B Figure 2.1-10 Example of two CHs...
  • Page 17 6F2S1923 (0.03) [BayDevice_CH*]=EndSection: Figure 2.1-14 illustrates Bay structure diagram about EndSection.  The user has to have settings: [Zone1], [DS11], [DS21], and [CB]. The settings allow  the user construct the bay structure, which will be identical to Section End drawn in Single line diagram.

  • Page 18: Setting Ch1-Pos

    6F2S1923 (0.03) Setting CH1-POS 2.1.2 MainUnit and SubUnits have Binary IO modules (BIOs). Each BIO must be corresponded with a CH based on one-to-one arrangement. For the correspondence, the BIO for CH1 can be corresponded with setting [CH1-POS]; the others BIOs for CH2, CH3, etc. are corresponded on the right hand of the CH1 automatically, when the [CH1-POS] is set.
  • Page 19 6F2S1923 (0.03) Setting [CH1-POS]=BIO#8 (example) (ii) Figure 2.1-16 exemplifies the layouts when the setting has BIO#8. Setting [CH1-Pos]=BIO#8 [IO#8] [IO#7] [IO#6] [IO#5] [IO#4] [IO#3] [IO#2] [IO#1] [VCT#1] [VCT#2] [IO#8] [IO#7] [IO#6] [IO#5] [IO#4] [IO#3] [IO#2] [IO#1] [VCT#1] [VCT#2] BIO5 A BIO5 A BIO5 A BIO5 A...

  • Page 20: Setting Hardware Definition

    6F2S1923 (0.03) Setting Hardware definition In order that Hardware in MainUnit and SubUnits is described in Replica, the user needs to set Use for the ‘Hardware definition’ settings. In SubUnit#1 and SubUnit#2, the descriptions are summarized with settings: VCT Definition and BI Definition. SubUnit structuring 2.2.1 It is required for the user to enter Use for the definition settings when an implemented...

  • Page 21: Bi Definition Settings

    6F2S1923 (0.03) Table 2.2-1 SubUnit structure settings Setting items Range Unit Contents Default SubUnit#1 SubUnit#1 is used (connected) or not NoUse Sub1 VCT#1 VCT#1 of SubUnit#1 used (installed) or not NoUse Sub1 VCT#2 VCT#2 of SubUnit#1 used (installed) or not NoUse Sub1 IO#1 IO#1 of SubUnit#1 used (installed) or not...
  • Page 22 6F2S1923 (0.03) Setting [BI1-2_CH*] For the relay operation, it has been described about the injection of CB/DS11/12/13/21 contacts in the preceding section 2.1.1(iii). To inject a contact at BI1 and BI2 circuits, the contact can be corresponded with the circuits using setting [BI1-2_CH*]. Figure 2.2-3 shows the logics and setting for the injection.
  • Page 23 6F2S1923 (0.03) BIO5A BI1-CPL 81010*1B61 Common DS12_NO_CONT_CH programmable logic & ≥1 ≥1 BI2-CPL 81010*1B71 Common DS12_NC_CONT_CH & programmable logic ≥1 ≥1 81000*EBB1 PLC_DS12_NO_CH BI1 and BI2 circuits connected to a device in CH 81000*EBC1 PLC_DS12_NC_CH 82010*1B62 DS13_NO_CONT_CH & ≥1 ≥1 82010*1B72 DS13_NC_CONT_CH &...
  • Page 24 6F2S1923 (0.03) Setting [BI7-9_CH*] Setting [BI7-9_CH*] can define that CBF start trigger is injected at BI7 and BI9 circuits. The [BI7-9_CH*] has default CBF_Start setting. It is recommended to use BI7 and BI9 circuits for the CBF start signal. BIO5A BI7-CPL 80020*1B60 To CBF...

  • Page 25: Setting Procedures

    6F2S1923 (0.03) Setting procedures It has been discussed about the settings with regard to bay arrangements in the preceding chapter, but the user may concern the setting procedures for actual busbar structures. An example of busbar structure is shown with a single line diagram in Figure 3-1. The figure illustrates that feeders and couplers are structured with CHs.

  • Page 26: Step2: Name Settings [Ch Name_Ch*]

    6F2S1923 (0.03) Step2: Name settings [CH name_CH*] This step illustrates the setting of CH name. There is no rule to decide the name of a CH. Therefore, in the example, the bay name is given: [CH name_CH1]=West Feeder [CH name_CH2], [CH name_CH3]=West Coupler [CH name_CH4]=North Section [CH name_CH5], [CH name_CH6]=South Section [CH name_CH7]=East Feeder...

  • Page 27: Step3: Device Settings [Baydevice_Ch*, Coupler No_Ch*]

    6F2S1923 (0.03) Step3: Device settings [BayDevice_CH*, Coupler No_CH*] CH1 and CH7: are assigned on ‘Feeder’, so Feeder is set for the [BayDevice_CH1] and  [BayDevice_CH7]. The settings [Coupler_No_CH1] and [Coupler_No_CH7] are left with default number ‘1’, because they are not applied here. CH2 and CH3: are assigned on ‘West coupler’, whereas CH4†...

  • Page 28: Step4: Structure Settings [Zone_Ch*], Etc

    6F2S1923 (0.03) Step4: Structure settings [Zone_CH*], etc. Step4-0:Zone definitions 3.4.1 Four basbars are structured in the single line diagram (Figure 3-1), so a protection zone (among ZoneA to ZoneF) has to be selected for Busbar-W1, W2, E1, and E4. There is no rule to select a zone.

  • Page 29: Step4-2:Coupler Definitions

    6F2S1923 (0.03) Step4-2:Coupler definitions 3.4.3 CH2 and CH3, assigned at West Coupler, are set to protect ZoneA and ZoneB. CH4, assigned at North Section, is set to protect ZoneC. CH5 and CH6, assigned at South Section, are set to protect ZoneB and ZoneD. Table 3.4-2 Settings on Step4-2 Setting items CH8 to CH24...

  • Page 30: Step4-3:Defining Chs For Non-Used

    6F2S1923 (0.03) Step4-3:Defining CHs for Non-used 3.4.4 The settings of CH8 to CH24 can be left with default Non and POS1 settings. Table 3.4-3 Settings on Step4-3 Setting items CH8 to CH24 [CH use_CH*] West North [CH name_CH*] West Coupler South Section East Feeder (no settings)

  • Page 31: Step5: Zero Ampere Settings [Zacbycb_Ch*]

    6F2S1923 (0.03) Step5: Zero ampere settings [ZACbyCB_CH*] Zero-ampere control is required at the Coupler and the Section during the CB being open. The Zero-ampere control can be performed by the acquisition of CB contact states. In the example, the CH2 to CH6 are assigned at the Coupler and the Section; therefore On is set for settings [ZABbyCB_CH2] to [ZABbyCB_CH6].

  • Page 32: Setting Items

    6F2S1923 (0.03) Setting items Settings CH settings of CBP REPRICA (Function ID: 4F0B01) Setting item Range Contents Default Units BIO#1 / BIO#2 / BIO#3 / BIO#4 / BIO#5 / BIO#6 / CH1's BIO starting position CH1-POS – BIO#6 BIO#7 / BIO#8 CH use definition CH use_CH1 Off / On...
  • Page 33 6F2S1923 (0.03) CH settings of CBP REPRICA (Function ID: 4F0B01) Setting item Range Contents Default Units Line2 definition Line2_CH2 Non /Exist – Line3 definition Line3_CH2 Non /Exist – Definition of CT position CT-Pos_CH2 Pos1 / Pos2 – Pos1 Current zero ampere control with CB ZACbyCB_CH2 Off / On –...
  • Page 34 6F2S1923 (0.03) CH settings of CBP REPRICA (Function ID: 4F0B01) Setting item Range Contents Default Units Non / NO / NC / Both / DS21_CH24 DS21 definition – DirConn Line1 definition Line1_CH24 Non /Exist – Line2 definition Line2_CH24 Non /Exist –...
  • Page 35 6F2S1923 (0.03) Hardware settings of CBP REPRICA (Function ID: 4F0B01) Default Setting item Range Contents setting value Settings in SubUnit#1 NoUse / Use – Switch to use SubUnit#1 or not NoUse SubUnit#1 Sub1 VCT#1 NoUse / Use – Switch to use VCT#1 in SubUnit#1 or not NoUse Sub1 VCT#2 NoUse / Use...

  • Page 36: Signals

    6F2S1923 (0.03) Signals Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8F0000EBCF PLC_CB_NC_CH1 CB normally close contact(CH1) 8F0001EBCF PLC_CB_NC_CH2 CB normally close contact(CH2) 8F0002EBCF PLC_CB_NC_CH3 CB normally close contact(CH3) 8F0003EBCF PLC_CB_NC_CH4 CB normally close contact(CH4) 8F0004EBCF PLC_CB_NC_CH5 CB normally close contact(CH5) 8F0005EBCF...
  • Page 37 6F2S1923 (0.03) Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8F0019EBBF PLC_CB_NO_CH20 CB normally open contact(CH20) 8F0020EBBF PLC_CB_NO_CH21 CB normally open contact(CH21) 8F0021EBBF PLC_CB_NO_CH22 CB normally open contact(CH22) 8F0022EBBF PLC_CB_NO_CH23 CB normally open contact(CH23) 8F0023EBBF PLC_CB_NO_CH24 CB normally open contact(CH24) 800000EBC0 PLC_DS11_NC_CH1...
  • Page 38 6F2S1923 (0.03) Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 800015EBB0 PLC_DS11_NO_CH16 DS11 normally open contact(CH16) 800016EBB0 PLC_DS11_NO_CH17 DS11 normally open contact(CH17) 800017EBB0 PLC_DS11_NO_CH18 DS11 normally open contact(CH18) 800018EBB0 PLC_DS11_NO_CH19 DS11 normally open contact(CH19) 800019EBB0 PLC_DS11_NO_CH20 DS11 normally open contact(CH20) 800020EBB0 PLC_DS11_NO_CH21...
  • Page 39 6F2S1923 (0.03) Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 810011EBB1 PLC_DS12_NO_CH12 DS12 normally open contact(CH12) 810012EBB1 PLC_DS12_NO_CH13 DS12 normally open contact(CH13) 810013EBB1 PLC_DS12_NO_CH14 DS12 normally open contact(CH14) 810014EBB1 PLC_DS12_NO_CH15 DS12 normally open contact(CH15) 810015EBB1 PLC_DS12_NO_CH16 DS12 normally open contact(CH16) 810016EBB1 PLC_DS12_NO_CH17...
  • Page 40 6F2S1923 (0.03) Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 820007EBB2 PLC_DS13_NO_CH8 DS13 normally open contact(CH8) 820008EBB2 PLC_DS13_NO_CH9 DS13 normally open contact(CH9) 820009EBB2 PLC_DS13_NO_CH10 DS13 normally open contact(CH10) 820010EBB2 PLC_DS13_NO_CH11 DS13 normally open contact(CH11) 820011EBB2 PLC_DS13_NO_CH12 DS13 normally open contact(CH12) 820012EBB2 PLC_DS13_NO_CH13...
  • Page 41 6F2S1923 (0.03) Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 840003EBB4 PLC_DS21_NO_CH4 DS21 normally open contact(CH4) 840004EBB4 PLC_DS21_NO_CH5 DS21 normally open contact(CH5) 840005EBB4 PLC_DS21_NO_CH6 DS21 normally open contact(CH6) 840006EBB4 PLC_DS21_NO_CH7 DS21 normally open contact(CH7) 840007EBB4 PLC_DS21_NO_CH8 DS21 normally open contact(CH8) 840008EBB4 PLC_DS21_NO_CH9...
  • Page 42 6F2S1923 (0.03) Signal connection points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 800023EBD0 DIFCH_CALCU_CH24 Additional command to join this CH's current to DIFCH calculation( CH24 810110EBB0 EXT_BRIDGE_A-B External busbar bridge command of zone-A and zone-B 820110EBB1 EXT_BRIDGE_A-C External busbar bridge command of zone-A and zone-C 830110EBB2 EXT_BRIDGE_A-D External busbar bridge command of zone-A and zone-D...
  • Page 43 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8102011B61 BI.CBF-START-B_CH1 BI signal for CBF-START(Phase-B_CH1) 8102021B61 BI.CBF-START-B_CH2 BI signal for CBF-START(Phase-B_CH2) 8102031B61 BI.CBF-START-B_CH3 BI signal for CBF-START(Phase-B_CH3) 8102041B61 BI.CBF-START-B_CH4 BI signal for CBF-START(Phase-B_CH4) 8102051B61 BI.CBF-START-B_CH5 BI signal for CBF-START(Phase-B_CH5) 8102061B61 BI.CBF-START-B_CH6...
  • Page 44 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8202211B62 BI.CBF-START-C_CH21 BI signal for CBF-START(Phase-C_CH21) 8202221B62 BI.CBF-START-C_CH22 BI signal for CBF-START(Phase-C_CH22) 8202231B62 BI.CBF-START-C_CH23 BI signal for CBF-START(Phase-C_CH23) 8202241B62 BI.CBF-START-C_CH24 BI signal for CBF-START(Phase-C_CH24) 8F03011B6F CB_CLOSE_CH1 CB is closed(CH1) 8F03021B6F CB_CLOSE_CH2...
  • Page 45 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8F01161B7F CB_NC_CONT_CH17 CB normally close contact(CH17) 8F01171B7F CB_NC_CONT_CH18 CB normally close contact(CH18) 8F01181B7F CB_NC_CONT_CH19 CB normally close contact(CH19) 8F01191B7F CB_NC_CONT_CH20 CB normally close contact(CH20) 8F01201B7F CB_NC_CONT_CH21 CB normally close contact(CH21) 8F01211B7F CB_NC_CONT_CH22...
  • Page 46 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8F00131BCF PLC_CB_NC_CH14 CB normally close contact(CH14) 8F00141BCF PLC_CB_NC_CH15 CB normally close contact(CH15) 8F00151BCF PLC_CB_NC_CH16 CB normally close contact(CH16) 8F00161BCF PLC_CB_NC_CH17 CB normally close contact(CH17) 8F00171BCF PLC_CB_NC_CH18 CB normally close contact(CH18) 8F00181BCF PLC_CB_NC_CH19...
  • Page 47 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8003101B60 DS11_CLOSE_CH10 DS11 is closed(CH10) 8003111B60 DS11_CLOSE_CH11 DS11 is closed(CH11) 8003121B60 DS11_CLOSE_CH12 DS11 is closed(CH12) 8003131B60 DS11_CLOSE_CH13 DS11 is closed(CH13) 8003141B60 DS11_CLOSE_CH14 DS11 is closed(CH14) 8003151B60 DS11_CLOSE_CH15 DS11 is closed(CH15) 8003161B60...
  • Page 48 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8001051B60 DS11_NO_CONT_CH6 DS11 normally open contact(CH6) 8001061B60 DS11_NO_CONT_CH7 DS11 normally open contact(CH7) 8001071B60 DS11_NO_CONT_CH8 DS11 normally open contact(CH8) 8001081B60 DS11_NO_CONT_CH9 DS11 normally open contact(CH9) 8001091B60 DS11_NO_CONT_CH10 DS11 normally open contact(CH10) 8001101B60 DS11_NO_CONT_CH11...
  • Page 49 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8000011BB0 PLC_DS11_NO_CH2 DS11 normally open contact(CH2) 8000021BB0 PLC_DS11_NO_CH3 DS11 normally open contact(CH3) 8000031BB0 PLC_DS11_NO_CH4 DS11 normally open contact(CH4) 8000041BB0 PLC_DS11_NO_CH5 DS11 normally open contact(CH5) 8000051BB0 PLC_DS11_NO_CH6 DS11 normally open contact(CH6) 8000061BB0 PLC_DS11_NO_CH7...
  • Page 50 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8103221B61 DS12_CLOSE_CH22 DS12 is closed(CH22) 8103231B61 DS12_CLOSE_CH23 DS12 is closed(CH23) 8103241B61 DS12_CLOSE_CH24 DS12 is closed(CH24) 8101001B71 DS12_NC_CONT_CH1 DS12 normally close contact(CH1) 8101011B71 DS12_NC_CONT_CH2 DS12 normally close contact(CH2) 8101021B71 DS12_NC_CONT_CH3 DS12 normally close contact(CH3)
  • Page 51 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8101171B61 DS12_NO_CONT_CH18 DS12 normally open contact(CH18) 8101181B61 DS12_NO_CONT_CH19 DS12 normally open contact(CH19) 8101191B61 DS12_NO_CONT_CH20 DS12 normally open contact(CH20) 8101201B61 DS12_NO_CONT_CH21 DS12 normally open contact(CH21) 8101211B61 DS12_NO_CONT_CH22 DS12 normally open contact(CH22) 8101221B61 DS12_NO_CONT_CH23...
  • Page 52 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8100131BB1 PLC_DS12_NO_CH14 DS12 normally open contact(CH14) 8100141BB1 PLC_DS12_NO_CH15 DS12 normally open contact(CH15) 8100151BB1 PLC_DS12_NO_CH16 DS12 normally open contact(CH16) 8100161BB1 PLC_DS12_NO_CH17 DS12 normally open contact(CH17) 8100171BB1 PLC_DS12_NO_CH18 DS12 normally open contact(CH18) 8100181BB1 PLC_DS12_NO_CH19...
  • Page 53 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8201091B72 DS13_NC_CONT_CH10 DS13 normally close contact(CH10) 8201101B72 DS13_NC_CONT_CH11 DS13 normally close contact(CH11) 8201111B72 DS13_NC_CONT_CH12 DS13 normally close contact(CH12) 8201121B72 DS13_NC_CONT_CH13 DS13 normally close contact(CH13) 8201131B72 DS13_NC_CONT_CH14 DS13 normally close contact(CH14) 8201141B72 DS13_NC_CONT_CH15...
  • Page 54 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8200051BC2 PLC_DS13_NC_CH6 DS13 normally close contact(CH6) 8200061BC2 PLC_DS13_NC_CH7 DS13 normally close contact(CH7) 8200071BC2 PLC_DS13_NC_CH8 DS13 normally close contact(CH8) 8200081BC2 PLC_DS13_NC_CH9 DS13 normally close contact(CH9) 8200091BC2 PLC_DS13_NC_CH10 DS13 normally close contact(CH10) 8200101BC2 PLC_DS13_NC_CH11...
  • Page 55 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8403021B64 DS21_CLOSE_CH2 DS21 is closed(CH2) 8403031B64 DS21_CLOSE_CH3 DS21 is closed(CH3) 8403041B64 DS21_CLOSE_CH4 DS21 is closed(CH4) 8403051B64 DS21_CLOSE_CH5 DS21 is closed(CH5) 8403061B64 DS21_CLOSE_CH6 DS21 is closed(CH6) 8403071B64 DS21_CLOSE_CH7 DS21 is closed(CH7) 8403081B64...
  • Page 56 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8401211B74 DS21_NC_CONT_CH22 DS21 normally close contact(CH22) 8401221B74 DS21_NC_CONT_CH23 DS21 normally close contact(CH23) 8401231B74 DS21_NC_CONT_CH24 DS21 normally close contact(CH24) 8401001B64 DS21_NO_CONT_CH1 DS21 normally open contact(CH1) 8401011B64 DS21_NO_CONT_CH2 DS21 normally open contact(CH2) 8401021B64 DS21_NO_CONT_CH3...
  • Page 57 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8400171BC4 PLC_DS21_NC_CH18 DS21 normally close contact(CH18) 8400181BC4 PLC_DS21_NC_CH19 DS21 normally close contact(CH19) 8400191BC4 PLC_DS21_NC_CH20 DS21 normally close contact(CH20) 8400201BC4 PLC_DS21_NC_CH21 DS21 normally close contact(CH21) 8400211BC4 PLC_DS21_NC_CH22 DS21 normally close contact(CH22) 8400221BC4 PLC_DS21_NC_CH23...
  • Page 58 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8000131BD0 DIFCH_CALCU_CH14 Additional command to join this CH's current to DIFCH calculation( CH14 8000141BD0 DIFCH_CALCU_CH15 Additional command to join this CH's current to DIFCH calculation( CH15 8000151BD0 DIFCH_CALCU_CH16 Additional command to join this CH's current to DIFCH calculation(...
  • Page 59 6F2S1923 (0.03) Signal monitoring points  CBP_REPRICA (Function ID: 4F0B01) Element ID Name Description 8301301BB2 EXT_BRIDGE_C-D External busbar bridge command of zone-C and zone-D 8401301BB3 EXT_BRIDGE_C-E External busbar bridge command of zone-C and zone-E 8501301BB4 EXT_BRIDGE_C-F External busbar bridge command of zone-C and zone-F 8401401BB3 EXT_BRIDGE_D-E External busbar bridge command of zone-D and zone-E...

  • Page 60: Appendixes

    6F2S1923 (0.03) Appendixes A number of setting models are developed for Replica. By the selection of a setting model by referencing single line diagram, the user can structure Feeder, Coupler and EndSection in Replica. GRB200C (Replica) - 54 -...

  • Page 61: Feeder Models

    6F2S1923 (0.03) Feeder models Model Single Line Diagram Replica setting Setting item Busbar 1 [BayDevice_CH*] Feeder [Coupler No._CH*] [Zone1_CH*] ZoneA [Zone2_CH*] [Zone3_CH*] [ZoneR1_CH*] [Zone-NoDIF_CH*] [CB_CH*] [DS11_CH*] [DS12_CH*] [DS13_CH*] [DS21_CH*] DirConn [Line1_CH*] [Line2_CH*] [Line3_CH*] [CT-Pos_CH*] Pos1 Busbar 1 Transfer Bus [BayDevice_CH*] Feeder [Coupler No._CH*] [Zone1_CH*]...
  • Page 62 6F2S1923 (0.03) Model Single Line Diagram Replica setting Setting item Both for busbar1 and Transfer bus Busbar2 [BayDevice_CH*] Feeder [Coupler No._CH*] [Zone1_CH*] ZoneA [Zone2_CH*] ZoneB [Zone3_CH*] ZoneA [ZoneR1_CH*] [Zone-NoDIF_CH*] [CB_CH*] [DS11_CH*] [DS12_CH*] [DS13_CH*] [DS21_CH*] [Line1_CH*] [Line2_CH*] [Line3_CH*] Exist [CT-Pos_CH*] Pos2 Zone 1 Busbar1 Busbar1...
  • Page 63 6F2S1923 (0.03) Model Single Line Diagram Replica setting Setting item Busbar1 Busbar2 [BayDevice_CH*] Feeder Transfer Bus [Coupler No._CH*] [Zone1_CH*] ZoneA [Zone2_CH*] ZoneB [Zone3_CH*] ZoneA [ZoneR1_CH*] [Zone-NoDIF_CH*] [CB_CH*] [DS11_CH*] [DS12_CH*] [DS13_CH*] [DS21_CH*] [Line1_CH*] [Line2_CH*] [Line3_CH*] Exist [CT-Pos_CH*] Pos1 Busbar1 Busbar2 [BayDevice_CH*] Feeder Busbar3 [Coupler No._CH*]...

  • Page 64: Bus Coupler Models

    6F2S1923 (0.03) Bus coupler models Model Single Line Diagram Replica setting Setting item Zone 1 Busbar1 ○ ○ Zone 2 Zone 1 Zone 2 Coupler Coupler [BayDevice_CH*] Busbar2 Preferred No. [Coupler No._CH*] Zone 2 Zone 3 Zone 2 [Zone1_CH*] ZoneA ZoneB Zone 3 [Zone2_CH*]...
  • Page 65 6F2S1923 (0.03) Model Single Line Diagram Replica setting Setting item Zone 1 ○ ○ Busbar1 Zone 2 Zone 1 Zone 2 Coupler Coupler [BayDevice_CH*] Busbar2 Preferred No. [Coupler No._CH*] Zone 2 Zone 3 Zone 2 [Zone1_CH*] ZoneA ZoneB DS-A Zone 3 [Zone2_CH*] [Zone3_CH*] [ZoneR1_CH*]...
  • Page 66 6F2S1923 (0.03) Model Single Line Diagram Replica setting Setting item Busbar1 Zone 1 ○ ○ Busbar2 Zone 2 Zone 2 Zone 1 Coupler Coupler [BayDevice_CH*] Preferred No. [Coupler No._CH*] Zone 2 Busbar3 Zone 3 [Zone1_CH*] ZoneA ZoneB Zone 3 [Zone2_CH*] ZoneB ZoneC [Zone3_CH*]...
  • Page 67 6F2S1923 (0.03) Model Single Line Diagram Replica setting Setting item Busbar1 ○ ○ Zone 1 Zone 1 Coupler Coupler [BayDevice_CH*] Zone 2 Zone 2 Preferred No. [Coupler No._CH*] [Zone1_CH*] ZoneA ZoneD Zone 3 Zone 3 [Zone2_CH*] ZoneB ZoneE [Zone3_CH*] ZoneC ZoneF DS-A DS-B DS-C...

  • Page 68: End-Section Model

    6F2S1923 (0.03) End-section model Model Single Line Diagram Replica setting Setting item Busbar1 EndSectiom Busbar2 [BayDevice_CH*] [Coupler No._CH*] [Zone1_CH*] ZoneA DS-A [Zone2_CH*] [Zone3_CH*] [ZoneR1_CH*] [Zone-NoDIF_CH*] [CB_CH*] [DS11_CH*] [DS12_CH*] [DS13_CH*] [DS21_CH*] [Line1_CH*] [Line2_CH*] DS-B [Line3_CH*] [CT-Pos_CH*] GRB200C (Replica) - 62 -...
  • Page 69 Revision up Records Rev. and Section Approved Checked Prepared Change place and contents Date (page) 0.00 First issue X. Tang T. Kaneko Y. Sonobe July 14 2017 July 13 July 13 July 12 0.01 Republished under the spin-off company T. Kaneko K.

Table of Contents