BS EN 60870-5-101:1996:2002 Edition
$215.11
Telecontrol equipment and systems. Transmission protocols – Companion standard for basic telecontrol tasks
| Published By | Publication Date | Number of Pages |
| BSI | 2002 | 188 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | BRITISH STANDARD |
| 2 | Committees responsible for this British�Standard |
| 3 | Contents |
| 6 | Foreword Foreword to amendment A1 Foreword to amendment A2 Contents |
| 11 | 1 Scope and object 2 Normative references |
| 12 | 3 Definitions 3.1 companion standard 3.2 group (of information objects) 3.3 control direction 3.4 monitor direction 3.5 system parameter 3.6 network-specific parameter 3.7 station-specific parameter 3.8 object-specific parameter |
| 13 | 4 General rules 4.1 Protocol structure Figure 1 – Selected standard provisions of the defined telecontrol companion standard 4.2 Physical layer |
| 14 | Figure 2 – Interfaces and connections of controlling and controlled stations 4.3 Link layer 4.4 Application layer |
| 15 | 4.5 User process 5 Physical layer 5.1 Selections from ISO and ITU-T standards Table 1 – Selection from V.24/V.28 |
| 16 | Table 2 – Selection from X.24/X.27 for interfaces to synchronous digital signal multiplexers 6 Link layer 6.1 Selections from IEC�60870-5-1: Transmission frame formats |
| 17 | 6.2 Selections from IEC�60870-5-2: Link transmission procedures Figure 75 – State transition diagram by Grady Booch/Harel |
| 18 | Table 10 – Permissible combinations of unbalanced link layer services |
| 19 | Figure 76 – Unbalanced transmission procedures, primary and secondary stations |
| 20 | Figure 77 – State transition diagram for unbalanced transmission primary to secondary |
| 21 | Figure 78 – State transition diagram for unbalanced transmission secondary to primary |
| 22 | Table 11 – Permissible combinations of balanced link layer services |
| 23 | Figure 79 – Balanced transmission procedures, primary and secondary link layers |
| 24 | Figure 80 – State transition diagram for balanced transmission primary to secondary |
| 25 | Figure 81 – State transition diagram for balanced transmission secondary to primary |
| 27 | Table 12 |
| 28 | Table 13 Table 14 – Effects of different resets 7 Application layer and user process 7.1 Selections from IEC�60870-5-3: General structure of application data |
| 30 | Figure 3 |
| 31 | 7.2 Selections from IEC 60870-5-4: Definition and coding of application information elements Figure 4 |
| 32 | Table 3 |
| 33 | Table 4 Table 5 Table 6 Table 7 |
| 34 | Table 8 Figure 5 |
| 35 | Figure 82 |
| 37 | Figure 6 |
| 38 | Figure 83 – Station interrogation via a concentrator station using the originator address |
| 39 | Figure 84 – Command transmission via a concentrator station using the originator address |
| 40 | Table 9 |
| 41 | Figure 7 |
| 42 | Figure 8 |
| 43 | Figure 9 Figure 10 Figure 11 |
| 44 | Table 15 |
| 58 | 7.3 Definition and presentation of the specific ASDUs Figure 12 – ASDU: M_SP_NA_1 Single-point information without time tag |
| 59 | Figure 13 – ASDU: M_SP_NA_1 Sequence of single-point information without time tag |
| 60 | Figure 14 – ASDU: M_SP_TA_1 Single-point information with time tag |
| 61 | Figure 15 – ASDU: M_DP_NA_1 Double-point information without time tag |
| 62 | Figure 16 – ASDU: M_DP_NA_1 Sequence of double-point information without time tag |
| 63 | Figure 17 – ASDU: M_DP_TA_1 Double-point information with time tag |
| 64 | Figure 18 – ASDU: M_ST_NA_1 Step position information |
| 65 | Figure 19 – ASDU: M_ST_TA_1 Step position information with time tag |
| 66 | Figure 20 – ASDU: M_BO_NA_1 Bitstring of�32 bit |
| 67 | Figure 21 – ASDU: M_BO_TA_1 Bitstring of�32 bit |
| 68 | Figure 22 – ASDU: M_ME_NA_1 Measured value, normalized value |
| 69 | Figure 23 – ASDU: M_ME_NA_1 Sequence of measured values, normalized values |
| 70 | Figure 24 – ASDU: M_ME_TA_1 Measured value, normalized value with time tag |
| 71 | Figure 25 – ASDU: M_ME_NB_1 Measured value, scaled value |
| 72 | Figure 26 – ASDU: M_ME_NB_1 Sequence of measured values, scaled values |
| 73 | Figure 27 – ASDU: M_ME_TB_1 Measured value, scaled value with time tag |
| 74 | Figure 28 – ASDU: M_ME_NC_1 Measured value, short floating point number |
| 75 | Figure 85 – ASDU: M_ME_NC_1 Sequence of measured values, short floating point number |
| 76 | Figure 29 – ASDU: M_ME_TC_1 Measured value, short floating point number with time tag |
| 77 | Figure 30 – ASDU: M_IT_NA_1 Integrated totals |
| 78 | Figure 86 – ASDU: M_IT_NA_1 Sequence of integrated totals |
| 79 | Figure 31 – ASDU: M_IT_TA_1 Integrated totals with time tag |
| 80 | Figure 32 – ASDU: M_EP_TA_1 Event of protection equipment with time tag |
| 81 | Figure 33 – ASDU: M_EP_TB_1 Packed start events of protection equipment with time tag |
| 82 | Figure 34 – ASDU: M_EP_TC_1 Packed output circuit information of protection equipment with time tag |
| 83 | Figure 35 – ASDU: M_PS_NA_1 Packed single-point information with status change detection |
| 84 | Figure 36 – ASDU: M_ME_ND_1 Measured value, normalized value without quality descriptor |
| 85 | Figure 37 – ASDU: M_ME_ND_1 Sequence of measured values, normalized values without quality descriptor |
| 86 | Figure 64 – ASDU: M_SP_TB_1 Single-point information with time tag CP56Time2a |
| 87 | Figure 65 – ASDU: M_DP_TB_1 Double-point information with time tag CP56Time2a |
| 89 | Figure 66 – ASDU: M_ST_TB_1 Step position information with time tag CP56Time2a |
| 90 | Figure 67 – ASDU: M_BO_TB_1 Bitstring of 32 bits with time tag CP56Time2a |
| 92 | Figure 68 – ASDU: M_ME_TD_1 Measured value, normalized value with time tag CP56Time2a |
| 94 | Figure 69 – ASDU: M_ME_TE_1 Measured value, scaled value with time tag CP56Time2a |
| 96 | Figure 70 – ASDU: M_ME_TF_1 Measured value, short floating point number with time �tag CP5… |
| 98 | Figure 71 – ASDU: M_IT_TB_1 Integrated totals with time tag CP56Time2a��� |
| 100 | Figure 72 – ASDU: M_EP_TD_1 Event of protection equipment with time tag CP56Time2a |
| 101 | Figure 73 – ASDU: M_EP_TE_1 Packed start events of protection equipment with time tag CP56Time2a |
| 102 | Figure 74 – ASDU: M_EP_TE_1 Packed output circuit information of protection equipment with time tag CP56Time2a |
| 103 | Figure 38 – ASDU: C_SC_NA_1 Single command |
| 104 | Figure 39 – ASDU: C_DC_NA_1 Double command |
| 105 | Figure 40 – ASDU: C_RC_NA_1 Regulating step command |
| 106 | Figure 41 – ASDU: C_SE_NA_1 Set-point command, normalized value |
| 107 | Figure 42 – ASDU: C_SE_NB_1 Set-point command, scaled value |
| 108 | Figure 43 – ASDU: C_SE_NC_1 Set-point command, short floating point number |
| 109 | Figure 44 – ASDU: C_BO_NA_1 Bitstring of�32 bit |
| 110 | Figure 45 – ASDU: M_EI_NA_1 End of initialization Figure 46 – ASDU: C_IC_NA_1 Interrogation command |
| 111 | Figure 47 – ASDU: C_CI_NA_1 Counter interrogation command |
| 112 | Figure 48 – ASDU: C_RD_NA_1 Read command |
| 113 | Figure 50 – ASDU: C_TS_NA_1 Test command |
| 114 | Figure 51 – ASDU: C_RP_NA_1 Reset process command |
| 115 | Figure 52 – ASDU: C_CD_NA_1 Delay acquisition command |
| 116 | Figure 53 – ASDU: P_ME_NA_1 Parameter of measured values, normalized value |
| 117 | Figure 54 – ASDU: P_ME_NB_1 Parameter of measured values, scaled value |
| 118 | Figure 55 – ASDU: P_ME_NC_1 Parameter of measured values, short floating point number |
| 119 | Figure 56 – ASDU: P_AC_NA_1 Parameter activation |
| 120 | Figure 57 – ASDU: F_FR_NA_1 File ready |
| 121 | Figure 58 – ASDU: F_SR_NA_1 Section ready |
| 122 | Figure 59 – ASDU: F_SC_NA_1 Call directory, select file, call file, call section |
| 123 | Figure 60 – ASDU: F_LS_NA_1 Last section, last segment |
| 124 | Figure 61 – ASDU: F_AF_NA_1 ACK file, ACK section |
| 125 | Figure 62 – ASDU: F_SG_NA_1 Segment |
| 126 | Figure 63 – ASDU: F_DR_TA_1 Directory |
| 127 | 7.4 Selections from IEC 60870-5-5: Basic application functions Table 16 – Respond priorities of the controlled station |
| 129 | Table 17 – ASDUs involved in the station interrogation procedure |
| 130 | Figure 87 – Hierarchical presentation of the allocation of common addresses of ASDUs to LRUs (example) |
| 131 | Figure 88 – Sequential procedure of station interrogation to all LRUs of a specific controlled station (example) |
| 132 | Figure 89 – General counter model |
| 133 | Figure 90 – Sequential procedure of spontaneously transmitted integrated totals (mode�A) |
| 134 | Figure 91 – Sequential procedure of interrogation of integrated totals (mode�B) |
| 135 | Figure 92 – Sequential procedure of memorizing of integrated totals without reset (mode�C) Figure 93 – Sequential procedure of memorizing of integrated totals with reset (mode�C) |
| 137 | Figure 94 – Addressing of files (example) |
| 138 | Figure 95 – Request from protection equipment |
| 139 | Figure 96 – Request from substation automation system |
| 140 | Figure 97 – Structure of disturbance data of a protection equipment |
| 141 | Figure 98 – Allocation of data types (ASDUs) of IEC 60870-5-103 to the sections of disturbance data files |
| 143 | Figure 99 – Allocation of the data unit type 23 to the directory F_DR_TA_1 |
| 144 | Table 18 – Allocation of type identification to type identification (IEC�60870�5�101�and�IEC�60870-5-103) Table 19 – Example for the definition of information object addresses (directory�or�subdirectory) |
| 145 | Tabel 20 – Allocation of SOF status of file to SOF status of fault (IEC�60870�5�101�and�IEC�60870�5-103) |
| 146 | Figure 100 – Sequential procedure, transmission of the directory |
| 147 | Figure 101 – Sequential procedure, transmission of disturbance data files |
| 151 | Figure 102 – Record of sequences of events in the section of a data file |
| 153 | Figure 103 – Sequential procedure, transmission of sequences of events |
| 154 | Figure 104 – Section of a data file containing sequences of recorded analogue values |
| 156 | Figure 105 – Sequential procedure, transmission of sequences of recorded analogue values |
| 157 | Table 21 – Type identifications for background scan Figure 106 – Sequential procedure, read procedure |
| 158 | 8 Interoperability |
| 159 | 8.1 System or device 8.2 Network configuration 8.3 Physical layer |
| 160 | 8.4 Link layer 8.5 Application layer |
| 165 | 8.6 Basic application functions |
| 169 | Annex A (informative) Proof of the synchronization stability of frame format class FT 1.2 A.1 Introduction A.1.1 UART definition |
| 170 | A.1.2 Frame format definitions FT 1.2 |
| 171 | A.1.3 Explanatory information on the proofs according to A.2 Proof of the shift insusceptibility of the specified characters A.2.1 Shift insusceptibility of START 68H |
| 172 | A.2.2 Shift insusceptibility of START 10H A.2.3 Shift insusceptibility of SINGLE CHARACTER E5H |
| 173 | A.2.4 Shift insusceptibility of SINGLE CHARACTER A2H |
| 174 | A.2.5 Shift insusceptibility of END 16H A.3 Proof of the mutual shift insusceptibility of the characters A.3.1 Shift insusceptibility of START 68H against START 10H |
| 175 | A.3.2 Shift insusceptibility of START 10H against START 68H A.3.3 Shift insusceptibility of SINGLE CHARACTER E5H against START 68H |
| 176 | A.3.4 Shift insusceptibility of START 68H against SINGLE CHARACTER E5H A.3.5 Shift insusceptibility of SINGLE CHARACTER E5H against START 10H |
| 177 | A.3.6 Shift insusceptibility of START 10H against SINGLE CHARACTER E5H A.3.7 Shift insusceptibility of SINGLE CHARACTER A2H against START 68H |
| 178 | A.3.8 Shift insusceptibility of START 68H against SINGLE CHARACTER A2H A.3.9 Shift insusceptibility of SINGLE CHARACTER A2H against START 10H |
| 179 | A.3.10 Shift insusceptibility of START 10H against SINGLE CHARACTER A2H A.3.11 Shift insusceptibility of SINGLE CHARACTER A2H against SINGLE CHARACTER E5H |
| 180 | A.3.12 Shift insusceptibility of SINGLE CHARACTER E5H against SINGLE CHARACTER A2H A.4 Shift insusceptibility for frames with variable block length |
| 184 | Annex B (informative) Admittance of line idle intervals between characters of frame format class�FT�1.2 Figure B.1 – Shift of a character caused by an inverted additional line idle bit Figure B.2 – Relation of even and odd bit pattern to the parity bit |
| 185 | Figure B.3 – Shifted bit pattern |
| 186 | Annex ZA (normative) Normative references to international publications with their corresponding European … |
