GBZ20965-2007 English PDF
Basic dataStandard ID: GB/Z 20965-2007 (GB/Z20965-2007)Description (Translated English): Control network HBES technology specification -- Home and building control system Sector / Industry: National Standard Classification of Chinese Standard: N10 Classification of International Standard: 25.040 Word Count Estimation: 372,367 Date of Issue: 2007-07-09 Date of Implementation: 10/1/2007 Quoted Standard: GB/T 2423.3-1993; GB/T 2423.5-1995; GB/T 9387; GB/T 15157.7-2002; GB/T 17045-2006; GB/T 17626.5-1999; GB/T 17737.1-2000; GB/T 18380.1-2001; GB/T 20438-2006; ISO/IEC 15018; IEC 60050-191; IEC 60189-2; IEC 60364-4-44; IEC 60670-1-2002; IEC 60754-2; IEC 60807-2; IEC 60807-3; EN ISO 9000 SERIES; EN ISO 16484-2; EN 50065 SERIES; EN 50065-1-2001; EN 50065-4-6-2004; EN 50065-7-2001; EN 50081-1; EN 50082 -1; EN 50083 SERIES; EN 50160-1999; EN 50173-1-2002; EN 50174-1-2000; EN 50174-2-2000; EN 50290 SERIES; EN 55016-1-2-2004; EN 55022; EN 55022 + A1; EN 55024; EN 60068-2-1; EN 60068-2-2; EN 60068-2-6; EN 60068-2-14; EN 60068-2-30; EN 60603-8; EN 60715; EN 60721-3-3; EN 60742; ENV 61000-2-2; EN 61000-3-2; EN 61000-3-3; EN 61000-4-2; EN 61000-4-3; EN 61000-4 - 4; EN 61000-4-6, TR Adopted Standard: EN 50090-2005, MOD Regulation (derived from): ?National Standard Announcement 2013 No.10 Issuing agency(ies): Ministry of Health of the People's Republic of China Summary: This standard specifies the event-based control of distributed bus system-the overall structure HBES (Home and Building Elec-tronic System) is, developed management procedures HBES's, specifies the requirements for the media-independent layer and media-related layers, consistent product norms and standards and installation requirements of testing and evaluation. This standard applies to automatic control systems and product design, manufacturing, integration, such as installation and maintenance, especially for residential areas and building control. GBZ20965-2007: Control network HBES technology specification -- Home and building control system---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order. GB /Z 20965-2007 Control network HBES technology specification.Home and building control system ICS 25.040 N10 National Standardization Technical Document of the People's Republic of China GB /Z20965-2007 Control Network HBES Technical Specification for Residential and Building Control System Released on.2007-07-09 General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China China National Standardization Administration issued ContentForeword XIII Introduction XV 1 Scope 1 2 Normative references 1 3 Terms and Definitions 4 3.1 Definition in GB/T 9387 4 3.2 Definitions identified in this guidance document 4 4 Abbreviations 17 5 System Overview 21 5.1 Architecture 21 5.1.1 Overview 21 5.1.2 HBES Reference Model 21 5.1.3 Reference Point and Function Group 28 5.1.4 Interface standardization for specific reference points 29 5.1.5 System Features 31 5.2 General technical requirements 34 5.2.1 Overview 34 5.2.2 Topology, cabling and power supplies for equipment connected to twisted pair or coaxial media 34 5.2.3 Security 35 5.2.4 Environmental conditions 38 5.2.5 Electromagnetic Compatibility Requirements for Devices Connected to Twisted Pair or Coaxial Media 39 5.2.6 Reliability 52 5.3 General functional safety requirements for HBES products 54 5.3.1 Overview 54 5.3.2 General requirements 54 5.3.3 Functional safety requirements 56 6 Application Features 59 6.1 Application Structure 59 6.1.1 Overview 59 6.1.2 Application Structure 60 6.2 Class 1 HBES User Process 61 6.2.1 Overview 61 6.2.2 Object Model 61 6.2.3 Group Object Services 61 6.2.4 Interface Object Server 65 7 Media Independent Layer 68 7.1 Class 1 HBES Application Layer 68 7.1.1 Overview 68 GB /Z20965-2007 7.1.2 Communication mode and service primitives 68 7.1.3 Application Layer Protocol Data Unit (APDU) 69 7.1.4 Application Layer Services 72 7.1.5 Application Layer Parameters 122 7.2 Class 1 HBES transport layer, network layer and data link layer common part 122 7.2.1 Overview 122 7.2.2 Requirements for the physical layer and the unrelated data link layer 122 7.2.3 Network layer requirements 129 7.2.4 Transport layer requirements 137 8 Media and Media Related Layers 157 8.1 Class 1 HBES Power Line 157 8.1.1 Overview 157 8.1.2 Requirements for Class 1 HBES Power Line PL110 157 8.1.3 Requirements for Class 1 HBES Power Line PL132 174 8.2 Twisted pair 183 based on Class 1 HBES network 8.2.1 Overview 183 8.2.2 Requirements for Type 1 HBES Twisted Pair Type 0 (TP0) 183 8.2.3 Requirements for Type 1 HBES Twisted Pair Type 1 (TP1-64 and TP1-256).200 9 System Management---Management Procedures 229 9.1 Overview 229 9.2 Network Management Procedures 229 9.2.1 Overview 229 9.2.2 NM_IndividualAddress_Read 229 9.2.3 NM_IndividualAddress_Write 230 9.2.4 NM_SerialNumberDefaultIA_Scan 232 9.2.5 NM_IndividualAddress_SerialNumber_Read 233 9.2.6 NM_IndividualAddress_SerialNumber_Write 233 9.2.7 NM_DomainAddress_Read 234 9.2.8 NM_DomainAddress_Write 235 9.2.9 NM_DomainAddress_Scan 237 9.2.10 NM_Router_Scan 238 9.2.11 NM_SubnetworkDevices_Scan 239 9.2.12 NM_SubnetworkAddress_Read 239 9.2.13 NM_IndividualAddress_Reset 240 9.2.14 NM_IndividualAddress_Scan 241 9.2.15 NM_IndividualAddress_Check 241 9.2.16 NM_IndividualAddress_Check_LocalSubnetwork 242 9.2.17 NM_GroupAddress_Check 243 9.2.18 NM_FunctionalBlock_Scan 244 9.3 Equipment Management Procedures 244 9.3.1 Overview 244 9.3.2 General exception handling 244 9.3.3 DM_Connect 244 GB /Z20965-2007 9.3.4 DM_Disconnect 246 9.3.5 DM_Authorize 247 9.3.6 DM_SetKey 247 9.3.7 DM_Restart 248 9.3.8 DM_Delay 248 9.3.9 DM_IndividualAddressRead 249 9.3.10 DM_IndividualAddressWrite 249 9.3.11 DM_DomainAddressRead 249 9.3.12 DM_DomainAddressWrite 249 9.3.13 DM_ProgMode_Switch 249 9.3.14 DM_GroupObject_Link_Read 250 9.3.15 DM_GroupObject_Link_Write 251 9.3.16 DM_MemWrite 251 9.3.17 DM_MemVerify 253 9.3.18 DM_MemRead 254 9.3.19 DM_UserMemWrite 255 9.3.20 DM_UserMemVerify 257 9.3.21 DM_UserMemRead 258 9.3.22 DM_InterfaceObjectWrite 259 9.3.23 DM_InterfaceObjectVerify 260 9.3.24 DM_InterfaceObjectRead 261 9.3.25 DM_InterfaceObjectScan 263 9.3.26 DM_LoadStateMachineWrite 264 9.3.27 DM_LoadStateMachineVerify 271 9.3.28 DM_LoadStateMachineRead 273 9.3.29 DM_RunStateMachineWrite 275 9.3.30 DM_RunStateMachineVerify 277 9.3.31 DM_RunStateMachineRead 279 9.3.32 DM_LCSlaveMemWrite 281 9.3.33 DM_LCSlaveMemVerify 282 9.3.34 DM_LCSlaveMemRead 283 9.3.35 DM_LCExtMemWrite 284 9.3.36 DM_LCExtMemVerify 285 9.3.37 DM_LCExtMemRead 286 9.3.38 DM_LCExtMemOpen 287 9.3.39 DM_LCRouteTableStateWrite 287 9.3.40 DM_LCRouteTableStateVerify 288 9.3.41 DM_LCRouteTableStateRead 289 10 Product consistency assessment 290 10.1 Overview 290 10.2 Applicable Standard 290 10.2.1 Overview 290 10.2.2 Agreement 290 GB /Z20965-2007 10.2.3 Electrical Safety 290 10.2.4 Electromagnetic Compatibility (EMC) 290 10.2.5 Environment 290 10.2.6 Functional Safety 290 11 Installation Requirements - General Requirements for Class-1 HBES Twisted Pair Cabling 290 11.1 Overview 290 11.2 System and Wiring 291 11.3 Cabling Models and General Requirements 291 11.3.1 General requirements for segment connections 291 11.3.2 HBES Control Bus, Coexistence of Broadband Multimedia and Mains 292 11.4 Infrastructure Requirements 294 11.4.1 Overview 294 11.4.2 Pre-configuration of the installation space 297 11.5 Type 1 HBES twisted pair connector 302 11.6 Cable and Mounting Accessories Requirements 303 11.6.1 Channel and Link Performance 303 11.6.2 TP Cable Characteristics 303 11.6.3 Annex 304 11.7 Electrical Safety and Functional Safety 305 11.7.1 Electrical Safety 305 11.7.2 Functional isolation of the bus segment 306 11.7.3 Functional Safety 306 11.8 EMC 306 11.9 Grounding and Shield Grounding for Lightning Protection 307 11.10 Fire protection and fire resistance requirements 307 11.11 Environmental aspects 307 11.12 Management and Documentation 307 11.13 Inspection and Testing 307 Appendix A (informative) Certification 308 Appendix B (informative) Example of a method for determining the safety integrity level 309 Appendix C (informative) Development of safety requirements for hazardous and essential functions 311 Appendix D (informative) Some examples of non-safety related HBES applications 318 Appendix E (informative) Example 320 of the transport layer facing connection state machine state diagram Appendix F (informative) wiring model 331 Appendix G (informative) Pre-deployment and planning aspects 334 Appendix H (informative) Performance of building comfort levels 337 Appendix I (Informative) Existing Standardized Connectors 349 for Type 1 HBES TP Type 0 and Type 1 Appendix J (informative) Document 351 Appendix K (informative) Cable/channel and link requirements 352 References 354 Figure 1 Single address 7 Figure 2 Group Address 8 GB /Z20965-2007 Figure 3 HBES Reference Model Overview 22 Figure 4 HBES application process 24 Figure 5 HBES device application process structure 24 Figure 6 HBES device application process model 24 Figure 7 User Process Link 25 Figure 8 Communication Resource Management 26 Figure 9 Communication Resource User Interface 26 Figure 10 Example of device management functions using a generic interface 27 Figure 11 Application Process Management 27 Figure 12 User interface 28 of the application process resource Figure 13 Reference Point and Function Group 28 Figure 14 Example of multiple reference points facing away from network media 28 Figure 15 Example of multiple reference points for network media 28 Figure 16 Gateway 29 between different network segments Figure 17 Reference point hierarchy 29 Figure 18 Standard Interface Location 30 Figure 19 Figure 30 to Figure 22 used symbol 30 Figure 20 Single wire connection 30 Figure 21 Two-wire connection with uninterrupted bus when the device is not connected (recommended) 30 Figure 22 Two-wire connection with bus interruption when the device is not connected 30 Figure 23 General Interface Location 31 Figure 24 Process Interface Location 31 Figure 25 HBES interactive application 32 Figure 26 Geographical distribution of buildings 32 Figure 27 Power supply unit for the HBES device 34 Figure 28 Separate protection barriers for installing HBES devices separately 37 Figure 29 Protective separation adjacent to the installation of HBES equipment 37 Figure 30 Standard effective range 40 Figure 31 Power supply unit mains connection test 42 Figure 32 Power Supply Unit Bus Connection Test 43 Figure 33 Mains connection test for bus devices 43 Figure 34 Media Interface Test for Bus Devices 43 Figure 35 General interface, process interface, and input/output connection test for bus devices 44 Figure 36 Power supply unit mains connection test 44 Figure 37 Power Supply Unit Bus Connection Test 45 Figure 38 Mains connection test for HBES equipment 45 Figure 39 Media Interface Test for HBES Devices 46 Figure 40 Common Interface, Process Interface, and Input/Output Connection Test for HBES Devices 46 Figure 41 Electrostatic discharge 47 Figure 42 anechoic chamber test 47 Figure 43 Top view 48 Figure 44 Side view 1 48 Figure 45 Side view 2 48 GB /Z20965-2007 Figure 46 Side view 3 49 Figure 47 Test setup for the EN61000-4-6 test 49 Figure 48 Example of test arrangement in an anechoic chamber 50 Figure 49 Side View 1 (Example) 50 Figure 50 Side View 2 (Example) 50 Figure 51 Side View 3 (Example) 51 Figure 52 Side View 4 (Example) 51 Figure 53 Wireless Transmit Interference Voltage Test Arrangement on Bus Cable 52 Figure 54 Wireless emission interference voltage test arrangement on the mains terminal 53 Figure 55 Test setup for common mode noise current test on bus cable 53 Figure 56 Test setup for voltage dips and changes 53 Figure 57 Application Structure 60 Figure 58 Possible information flow 60 Figure 59 User Process Model 61 Figure 60 Data structure of group objects 62 Figure 61 Read group object value 64 Figure 62 Request to receive a read group object value 64 Figure 63 Write Group Object Value 65 Figure 64 Update of Receive Group Object Values 65 Figure 65 Structure of the interface object 66 Figure 66 Message flow for the A_PropertyValue_Read service 67 Figure 67 Message Flow for the A_PropertyValue_Write Service 68 Figure 68 Message Flow for the A_PropertyDescription_Read Service 68 Figure 69 Application layer interaction for non-remote authentication services 69 Figure 70 Application layer interaction of the remote verification service 69 Figure 71 APDU Example 70 Figure 72 ASAP map to TSAP example 72 Figure 73 TSAP map to ASAP 73 Figure 74 Processing Requests and Responses 73 Figure 75 Packet flow of the A_Group_Value_Read service 73 Figure 76 A_GroupValue_Read-PDU Example 74 Figure 77 A_GroupValue_Response-PDU example 74 with ASAP data length greater than 6 bits Figure 78 A_GroupValue_Response-PDU Example 74 with ASAP data length equal to or less than 6 bits Figure 79 Packet flow of the A_Group_Value_Write service 75 Figure 80 A_GroupValue_Write-PDU example 76 with ASAP data length greater than 6 bits Figure 81 A_GroupValue_Write-PDU example 76 with ASAP data length equal to or less than 6 bits Figure 82 A_IndividualAddress_Write-PDU Example 77 Figure 83 A_IndividualAddress_Read-PDU Example 78 Figure 84 A_IndividualAddress_Response-PDU Example 78 Figure 85 A_IndividualAddressSerialNumber_Read service message flow 80 Figure 86 A_IndividualAddressSerialNumber_Read-PDU Example 80 Figure 87 A_IndividualAddressSerialNumber_Response-PDU Example 81 Figure 88 A_IndividualAddressSerialNumber_Write-PDU Example 82 GB /Z20965-2007 Figure 89 A_ServiceInformation_Indication_Write-PDU Example 83 Figure 90 A_DomainAddress_Write-PDU 84 Figure 91 A_DomainAddress_Read-PDU Example 85 Figure 92 A_DomainAddress_Response-PDU Example 86 Figure 93 A_DomainAddressSelective_Read-PDU Example 87 Figure 94 A_NetworkParameter_Read-PDU Example 88 Figure 95 A_NetworkParameter_Response-PDU Example 88 Figure 96 A_NetworkParameter_Write-PDU Example 90 Figure 97 A_PropertyValue_Read-PDU Example 92 Figure 98 A_PropertyValue_Response-PDU Example 92 Figure 99 A_PropertyValue_Write-PDU Example 94 Figure 100 A_PropertyDescription_Read-PDU Example 96 Figure 101 A_PropertyDescription_Response-PDU Example 96 Figure 102 A_DeviceDescriptor_Read-PDU Example 98 Figure 103 A_DeviceDescriptor_Response-PDU Example 98 Figure 104 A_Link_Read service message flow 99 Figure 105 A_Link_Read-PDU Example 99 Figure 106 A_Link_Response-PDU Example 100 Figure 107 Packet flow of the A_Link_Write service 100 Figure 108 A_Link_Write-PDU Example 101 Figure 109 A_ADC_Read-PDU Example 102 Figure 110 A_ADC_Response-PDU Example 102 Figure 111 A_Memory_Read-PDU example 103 Figure 112 A_Memory_Response-PDU Example 104 Figure 113 A_Memory_Write-PDU Example 105 Figure 114 A_MemoryBit_Write-PDU 108 Figure 115 A_UserMemory_Read-PDU Example 110 Figure 116 A_UserMemory_Response-PDU 110 Figure 117 A_UserMemory_Write-PDU 112 Figure 118 A_UserMemoryBit_Write-PDU Example 114 Figure 119 A_UserManufacturerInfo_Read-PDU Example 116 Figure 120 A_UserManufacturerInfo_Response-PDU 117 Figure 121 A_Restart-PDU example 118 Figure 122 A_Authorize_Request-PDU example 119 Figure 123 A_Authorize_Response-PDU Example 119 Figure 124 A_Key_Write-PDU Example 120 Figure 125 A_Key_Response-PDU Example 121 Figure 126 Data link layer interaction 123 Figure 127 Exchange of L_Data service primitives 124 Figure 128 Frame_format parameter 125 Figure 129 Encoding of the extended frame format 126 Figure 130 Network layer interconnection (not for bridges or routers) 129 Figure 131 Basic functions of a router or bridge 130 GB /Z20965-2007 Figure 132 Example of format of an NPDU 130 Figure 133 Transport Layer Interaction 137 Figure 134 Example of TPDU format 137 Figure 135 Transmission Control Field 138 Figure 136 Structure example of MAU 158 Figure 137 Signal Code 159 Figure 138 Idealized overlap of 105.6 kHz and 115.2 kHz 160 Figure 139 Example of a PL inductive coupling line 160 Figure 140 Typical PL Topology Example 161 Figure 141 Character 162 Figure 142 Structure of the data message 162 Figure 143 Structure of the confirmation frame 162 Figure 144 PL110 generation matrix 163 Figure 145 Galois-field GF2 operation 163 Figure 146 Three-phase system 164 Figure 147 Domain Address 165 Figure 148 Single Address 165 Figure 149 Group Address 165 Figure 150 Format 1s, frame field with standard field name abbreviations 166 Figure 151 Format 1s, L_Data_Standard Request Frame Format 166 Figure 152 Control field 166 Figure 153 Test octet 167 Figure 154 Frame field with standard field name abbreviation 167 Figure 155 Format 1e, L_Data_Extended Request Frame Format 168 Figure 156 Extended Control Field 168 Figure 157 Format 2, short confirmation frame format 169 Figure 158 L_Data - time frame of the request frame 171 Figure 159 Complete Frame Encapsulation (Data Message) 176 Figure 160 Primitive Overview 176 Figure 161 Frame field 177 with standard field name abbreviations Figure 162 L_Data request standard frame format 177 Figure 163 Control field 178 Figure 164 NPCI field 178 Figure 165 Frame field with standard field name abbreviations 179 Figure 166 L_Data_Extended request frame format 179 Figure 167 Extended Control Field 179 Figure 168 Data field (ACK) in a positive acknowledgment frame 180 Figure 169 Complete Confirmation Frame Package 180 Figure 170 NRZ line code 183 Figure 171 Character Format 184 Figure 172 Transmitter rising and falling edges 184 Figure 173 Repeater maximum conversion time 186 Figure 174 TP0 Power Specifications 188 GB /Z20965-2007 Figure 175 Power Dynamic Internal Impedance Measurement Test Set 188 Figure 176 Falling Edge and Overcurrent Measurements 189 Figure 177 TP0 network with distributed power supply 189 Figure 178 Voltage/Current Specifications for a Node 190 Figure 179 Voltage/Current Specifications for a Fully Distributed Power Supply with 6-8 Power Supply Nodes 191 Figure 180 Common part of the frame structure 193 Figure 181 Control field 193 Figure 182 CTRLE field 194 Figure 183 Format 1s, L_Data_Standard frame format with standard field name abbreviation 194 Figure 184 Format 1e, L_Data_Extended Frame Format with Standard Field Name Abbreviations 195 Figure 185 EFF field 195 Figure 186 Format 2, short confirmation frame format 196 Figure 187 Transfer Definition.199 Figure 188 Format 1s, complete L_Data_Standard request frame format.199 Figure 189 Format 1e, complete L_Data_Extended request frame format.200 Figure 190 Logical structure of physical layer type TP1.201 Figure 191 octet 202 mapped to serial characters Figure 192 "1" bit structure 202 Figure 193 "0" bit structure 203 Figure 194 Delayed logic "0" 204 Figure 195 Two logical "0" overlap examples 204 Figure 196 Transmission Method 207 Figure 197 Transmitter Feature Example 207 Figure 198 Example 208 of the TP1-64 Transmitter Block Diagram Figure.199 Example of the TP1-256 Transmitter Block Diagram (Ilimit=0.4A) 208 Figure.200 Relationship between frame data and asynchronous signals 209 Figure.201 Relationship between digital signal and serial bit stream 210 Figure 202 Example of a dimmer 211 Figure 203 Physical segment 213 Figure 204 Physical segment 214 combined into a line Figure 205 Line 214 combined into the domain Figure 206 Network Topology 215 Figure 207 Control field 218 Figure 208 Frame field 218 with standard field name abbreviation Figure 209 Format 1s, L_Data_Standard Frame Format 218 Figure 210 Verify Octet 219 Figure 211 Frame field 219 with standard frame field abbreviation Figure 212 Format 1e, L_Data_Extended Frame Format 220 Figure 213 Extended Control Field 220 Figure 214 Format 3-L_Pol_Data Request Frame Format 221 Figure 215 L_Pol_Data response frame structure 221 Figure 216 Format 2 - Short Confirmation Frame Format 222 Figure 217 Character Timing 222 GB /Z20965-2007 Figure 218 Priority operation 223 Figure 219 Guarantee of Fair Access 224 Figure 220 State machine 228 of the data link layer Figure 221 Topology example 291 Figure 222 HBES Installation Space (IS) Principles 292 Figure 223 HBES installation space layout 293 Figure 224 Example of a general infrastructure for a cabling system in a building 296 Figure 225 Campus (Campus) Infrastructure 297 Figure 226 Building Infrastructure 298 Figure 227 Horizontal infrastructure 299 Figure 228 Apartment unit and single residential infrastructure 300 Figure 229 Actual location of the installation space in the room 301 Figure 230 Standardized HBES Connector 302 Figure A. 1 Certification procedure 308 Figure B. 1 Risk reduction. general concept 309 Figure F. 1 general wiring model 332 Figure F. 2 Topology - Case A 333 Figure F. 3 Topology - Case B 333 Figure G. 1 Association of building wiring and building comfort performance levels 335 Figure H. 1 Location of the application/device 347 Figure I. 1 Existing connector 350 for HBES and mains Table 1 Layer Management Functions 25 Table 2 General Management Functions 26 Table 3 Application Management Entity (AME) Function Example 27 Table 4 Connection type 33 Table 5 Applicable standards for HBES equipment 36 Table 6 provides a common method of providing insulation for protective separations. Table ......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of GBZ20965-2007_English be delivered?Answer: Upon your order, we will start to translate GBZ20965-2007_English as soon as possible, and keep you informed of the progress. The lead time is typically 1 ~ 3 working days. The lengthier the document the longer the lead time.Question 2: Can I share the purchased PDF of GBZ20965-2007_English with my colleagues?Answer: Yes. The purchased PDF of GBZ20965-2007_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.Question 3: Does the price include tax/VAT?Answer: Yes. Our tax invoice, downloaded/delivered in 9 seconds, includes all tax/VAT and complies with 100+ countries' tax regulations (tax exempted in 100+ countries) -- See Avoidance of Double Taxation Agreements (DTAs): List of DTAs signed between Singapore and 100+ countriesQuestion 4: Do you accept my currency other than USD?Answer: Yes. If you need your currency to be printed on the invoice, please write an email to Sales@ChineseStandard.net. In 2 working-hours, we will create a special link for you to pay in any currencies. Otherwise, follow the normal steps: Add to Cart -- Checkout -- Select your currency to pay. |
