ISO/IEC 10192-3:2017
(Main)Information technology — Home electronic system (HES) interfaces — Part 3: Modular communications interface for energy management
Information technology — Home electronic system (HES) interfaces — Part 3: Modular communications interface for energy management
ISO/IEC 10192-3:2017(E) this part of ISO/IEC 10192 specifies a Universal Communication Module (UCM) that transfers energy management data via a home network between an end device and an energy management agent (specified in ISO/IEC 15067-3) or an energy service provider. This document specifies the mechanical, electrical and logical characteristics of the interfaces of UCM to an end device and a choice of interfaces to a home communications network.
Technologies de l'information — Interfaces de systèmes électroniques domestiques (HES) — Partie 3: Titre manque
General Information
Standards Content (Sample)
ISO/IEC 10192-3
Edition 1.0 2017-11
INTERNATIONAL
STANDARD
colour
inside
Information technology – Home electronic system (HES) interfaces –
Part 3: Modular communications interface for energy management
ISO/IEC 10192-3:2017-11(en)
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ISO/IEC 10192-3
Edition 1.0 2017-11
INTERNATIONAL
STANDARD
colour
inside
Information technology – Home electronic system (HES) interfaces –
Part 3: Modular communications interface for energy management
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
ICS 35.200 ISBN 978-2-8322-5099-0
Warning! Make sure that you obtained this publication from an authorized distributor.
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– 2 – ISO/IEC 10192-3:2017 © ISO/IEC 2017
CONTENTS
FOREWORD . 7
INTRODUCTION . 8
1 Scope . 10
2 Normative references . 10
3 Terms, definitions and abbreviated terms . 11
3.1 Terms and definitions . 11
3.2 Abbreviated terms . 11
4 Conformance . 12
5 Physical/electrical Interface . 12
5.1 Form factors . 12
5.2 Removal and exchange of a UCM . 12
5.3 Block diagram . 12
6 Serial protocol . 13
6.1 Protocol data unit . 13
6.2 Message Type field . 13
6.3 Payload length field . 14
6.4 Checksum field . 15
6.5 Bit and byte order . 15
6.5.1 Bit order within a byte . 15
6.5.2 Byte order for multi-byte messages . 15
6.6 Message synchronization and timing . 15
6.6.1 Message sequencing . 15
6.6.2 Link layer timing . 15
6.6.3 Randomized link layer retries . 17
6.6.4 Application layer timing . 17
6.7 SGD handling of conflicting messages . 18
7 Simple Protocol . 18
8 Link layer . 19
8.1 Use of link layer messages . 19
8.2 Link layer ACK/NAK . 19
8.3 Message Type “supported query” . 20
9 Data-link messages . 21
9.1 Message format . 21
9.2 Interface power limit negotiation . 23
9.3 Bit rate negotiation . 24
9.4 Power-up and state reset . 25
9.5 Security . 25
9.6 Setting slot numbering . 25
10 Basic DR application (Message Type = 0x08, 0x01) . 26
10.1 Basic DR application commands . 26
10.1.1 Message format . 26
10.1.2 Basic message fixed length . 30
10.1.3 Event Duration field . 30
10.1.4 Grouped messages . 31
10.2 Usage and details of basic DR application messages . 31
10.2.1 Request for power level (Opcode 0x06) . 31
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ISO/IEC 10192-3:2017 © ISO/IEC 2017 – 3 –
10.2.2 Relative price commands (Opcode 0x07 and 0x08) . 32
10.2.3 Time remaining in present price period (Opcode 0x09) . 33
10.2.4 Operating state monitoring (Opcodes 0x12 and 0x13) . 33
11 Intermediate DR application (Message Type = 0x08, 0x02) . 35
11.1 Intermediate DR message set . 35
11.2 Usage and details of Intermediate DR application messages . 38
11.2.1 Info request . 38
11.2.2 Get/Set UTC time . 41
11.2.3 Get/Set energy price . 42
11.2.4 Get/Set tier . 44
11.2.5 Get/Set temperature offset. 45
11.2.6 Get/Set set point . 46
11.2.7 Autonomous cycling . 47
11.2.8 Demand reduction – terminate cycling . 49
11.3 Demand response event schedules . 49
11.3.1 Function . 49
11.3.2 Send scheduled events request . 50
11.4 Energy consumption . 50
11.4.1 Function . 50
11.4.2 Commodity read . 50
11.4.3 Get/Set CommodityType . 53
12 Commissioning and network messages (Message Type = 0x08, 0x04) . 55
13 Pass-Through Mode . 55
13.1 Pass-Through method . 55
13.1.1 General . 55
13.1.2 Full Encapsulation in the Message Payload . 56
13.1.3 Message Type Field . 56
13.1.4 Message Type Support Query . 56
13.1.5 Maximum Message Length Negotiation . 56
13.1.6 Pass-Through mode protocols . 56
13.2 Pass-Through mode protocols. 56
13.2.1 USNAP 1.0 protocol Pass-Through . 56
13.2.2 SEP1.0 or 1.1 Pass-Through . 57
13.2.3 ClimateTalk Pass-Through . 57
13.2.4 General Internet Protocol Pass-Through . 57
13.2.5 ISO/IEC 14543-4-3 Pass-Through . 58
13.2.6 ISO/IEC 14543-3-1 Pass-Through . 58
13.2.7 ISO/IEC 14908-1 Pass-Through . 59
13.2.8 SunSpec Pass-Through . 59
14 Typical communication exchanges . 59
15 General security principles . 60
16 Load management event randomization . 60
Annex A (normative) Low voltage DC form factor . 62
A.1 General . 62
A.2 Limitations . 62
A.3 Power for UCM . 62
A.4 Mechanical interface . 62
A.4.1 DC form factor board layout . 62
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A.4.2 Module configuration . 63
A.4.3 Form factor . 66
A.4.4 Housing materials . 66
A.4.5 Connector type . 66
A.4.6 Pin assignments . 67
A.5 Electrical interface . 67
A.5.1 Electrical Interface Levels . 67
A.5.2 Signal timing . 67
A.5.3 Interface circuits . 68
A.6 Data transfer protocol . 68
A.6.1 Control signals. 68
A.6.2 Clock and data rate . 69
A.6.3 Multiple slots . 69
A.7 Link layer data flow . 69
A.8 Messages . 69
A.8.1 Frame structure . 69
A.8.2 Message synchronization (frame delimiting) . 69
A.8.3 Message filling (inter-message byte filling) . 69
A.8.4 Command/Response encoding . 70
A.8.5 Checksum calculation . 70
A.8.6 Master/Slave . 70
A.8.7 Flow control . 70
A.8.8 Error detection and recovery . 70
A.9 Operation . 71
A.9.1 Transaction sequence. 71
A.9.2 SPI data transfer state machine . 74
A.9.3 SGD transmitter operation . 75
A.9.4 SGD device receiver operation . 75
A.9.5 UCM operations . 76
Annex B (informative) Description of DC form factor applications . 77
B.1 General . 77
B.2 Applications of ISO/IEC 24379 . 77
B.3 Physical Form Factor Review . 77
B.4 Observations with regard to UCM and ATA confusion . 78
B.4.1 General . 78
B.4.2 ATA into Smart Grid Device . 78
B.4.3 Universal Communication Module into ATA device bay . 78
B.5 Conclusion . 78
Annex C (normative) AC form factor. 79
C.1 General . 79
C.2 Physical form . 79
C.2.1 AC SGD and AC UCM connector . 79
C.2.2 AC enclosure requirements . 84
C.3 AC power . 87
C.4 Obtaining message sync . 89
Annex D (normative) Fletcher checksum . 90
D.1 Checksum method . 90
D.2 Calculating the checksum . 90
D.3 Decoding the checksum . 90
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ISO/IEC 10192-3:2017 © ISO/IEC 2017 – 5 –
Annex E (informative) Example Visual Basic code . 91
Annex F (informative) Guideline for computing average price. 92
F.1 Average Price versus Time Varying Charges . 92
F.2 Relative price command . 92
F.3 Explanation for non-regulated utilities . 93
F.4 Summary . 93
Annex G (informative) Product safety considerations . 95
Bibliography . 96
Figure 1 – Illustrations of the modular communications interface (MCI) concept . 9
Figure 2 – Modular communications interface (MCI) block diagram . 13
Figure 3 – Link layer timing . 16
Figure 4 – Application layer timing . 17
Figure 5 – Non-linear event duration scaling . 31
Figure 6 – Non-linear relative price scaling . 33
Figure 7 – Illustration of energy storage capacity . 53
Figure 8 – Internet Protocol Pass-Through (IPv6) . 58
Figure 9 – Illustration of randomization of events by communications modules . 61
Figure A.1 – DC form factor PCB dimensions . 63
Figure A.2 – DC form factor housing dimensions – top view . 64
Figure A.3 – DC form factor housing dimensions – side view . 65
Figure A.4 – DC form factor housing dimensions – end view . 66
Figure A.5 – Pin assignment . 67
Figure A.6 – SPI Mode 0 bit timing . 67
Figure A.7 – SPI transaction sequence: SGD-initiated message to the UCM . 71
Figure A.8 – SPI transaction sequence: UCM-initiated message to the SGD . 72
Figure A.9 – SPI data transfer state machine . 74
Figure C.1 – Panel-mount AC connector form factor (device side shown) and pin-out . 80
Figure C.2 – PCB-mount AC UCM connector (housing) . 80
Figure C.3 – Cable AC UCM connector (housing) . 81
Figure C.4 – Panel mount AC SGD connector form factor dimensions . 82
Figure C.5 – PCB mount connector dimensions . 83
Figure C.6 – Cable connector dimensions . 83
Figure C.7 – Contact dimensions for cable connector and PCB mount connector . 84
Figure C.8 – Reserved area and dimensions on SGD (receptacle) . 85
Figure C.9 – Right side and top view of maximum UCM dimensions . 86
Figure C.10 – Left side and bottom view of maximum UCM dimensions . 87
Figure C.11 – Typical RS-485 polarity and byte transfer . 88
Figure C.12 – RS-485 connections . 88
Table 1 – Protocol data unit format . 13
Table 2 – Message type assignments . 14
Table 3 – Message timing requirements . 16
Table 4 – Basic/Intermediate DR application layer timing parameters . 18
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Table 5 – Mandatory message summary . 19
Table 6 – ACK/NAK Packet . 19
Table 7 – Link layer NAK codes . 20
Table 8 – Message type “supported query” . 20
Table 9 – Data-link message format . 21
Table 10 – Data-link command set . 22
Table 11 – Interface power level indicator codes . 23
Table 12 – Bit rate indicator . 25
Table 13 – Basic application data format . 26
Table 14 – Basic DR application command set . 27
Table 15 – Operating state codes . 34
Table 16 – Operating-state codes for usage conditions . 35
Table 17 – Intermediate DR application command set (command byte description) . 36
Table 18 – Intermediate DR application command set . 37
Table 19 – Response code values . 38
Table 20 – Commissioning and network messages . 55
Table 21 – Pass-Through message . 56
Table 22 – USNAP1.0 over serial . 56
Table 23 – SEP1.0 or 1.1 over serial. 57
Table 24 – ClimateTalk over serial . 57
Table 25 – ISO/IEC 14543-4-3 over serial . 58
Table 26 – ISO/IEC 14543-3-1 over serial . 59
Table 27 – ISO/IEC 14908-1 over serial . 59
Table 28 – SunSpec over serial . 59
Table A.1 – Low voltage interface signal definitions . 68
Table A.2 – SPI physical timing requirements . 73
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ISO/IEC 10192-3:2017 © ISO/IEC 2017 – 7 –
INFORMATION TECHNOLOGY –
HOME ELECTRONIC SYSTEM (HES) INTERFACES –
Part 3: Modular communications interface for energy management
FOREWORD
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