ISO/IEC 10192-3:2017

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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– 4 – ISO/IEC 10192-3:2017 © ISO/IEC 2017
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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– 6 – ISO/IEC 10192-3:2017 © ISO/IEC 2017
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
1) ISO (the International Organization for Standardization) and IEC (the International Electrotechnical Commission)
form the specialized system for worldwide standardization. National bodies that are members of ISO or IEC
participate in the development of International Standards through technical committees established by the
respective organization to deal with particular fields of technical activity. ISO and IEC technical committees
collaborate in fields of mutual interest. Other international organizations, governmental and non-governmental, in
liaison with ISO and IEC, also take part in the work. In the field of
...