KS C IEC 62386-102-2012 Digital addressable lighting interface-Part 102:General requirements-Control gear《数字地址照明接口 第101部分 通用要求事项 驱动装置》.pdf

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1、 KSKSKSKSKSKSKSK KSKSKS KSKSK KSKS KSK KS KS C IEC 62386 102 102 : KS C IEC 62386 102:2012 2012 7 9 http:/www.kats.go.krKS C IEC 62386 102:2012 : ( ) ( ) ( ) : (http:/www.standard.go.kr) : :2012 7 9 2012-0286 : : ( 02-509-7 294) (http:/ www.kats.go.kr). 10 5 , . KS C IEC 62386 102:2012 i . iii 1 1 2

2、 1 3 .1 4 3 5 .3 6 .3 7 3 7.1 .3 7.2 3 7.3 4 8 5 8.1 .5 8.2 5 8.3 6 8.4 6 9 .8 9.1 , 8 9.2 (Power-on).10 9.3 - .10 9.4 MIN MAX LEVEL10 9.5 .10 9.6 11 9.7 12 9.8 .12 10 .15 11 .16 11.1 16 11.2 19 11.3 22 11.4 25 11.5 .29 12 .32 12.0 32 12.1 Physical operational parameters.37 12.2 Configuration comman

3、ds 49 12.3 Arc power control commands80 12.4 Physical address allocation.97 KS C IEC 62386 102:2012 ii 12.5 Random address allocation.98 12.6 Queries and reserved commands.116 A( ) .128 B( ) 130 .131 KS C IEC 62386 102:2012 iii 2009 1 IEC 62386 102, Digital addressable lighting interface Part 102: G

4、eneral requirements Control gear , . KS C IEC 62386 102:2012 102: Digital addressable lighting interface Part 102: General requirements Control gear 1 . 2 . . ( ) . KS C IEC 60929:2008, KS C IEC 61347 2-3, 2-3: KS C IEC 62386 101:2012, 101: 3 . 3.1 (arc power) ( ) 3.2 (arc power level) 3.3 (forward

5、frame) 3.4 (short address) KS C IEC 62386 102:2012 2 3.5 (group address) 3.6 (broadcast) 3.7 (command) 3.8 (backward frame) 3.9 (frame sequence) 3.10 (fade time) 3.11 (fade rate) 3.12 (search address) 24 3.13 (random address) 24 3.14 (scene) 3.15 (Data transfer register) DTR 3.16 (response time) KS

6、C IEC 62386 102:2012 3 3.17 (reset state) 6( ) 3.18 (global trade item number) GTIN GS1 U.P.C. . GS1(Avenue Louise 326, BE-1050 Brussels, Belgium) GS1(1009 Lenox Drive, Suite 202, Lawrenceville, New Jersey, 08648 USA) “General Specifications” 7.0 . 3.19 (data byte) 4 KS C IEC 62386 101 4.1 4.2 . 5 K

7、S C IEC 62386 101 5. . 6 KS C IEC 62386 101 6. . 7 7.1 . . 1.7 ms . 7.2 8.2 19 . 1 start bit: (logical 1, bi-phase code) 1 address byte YAAA AAAS: (bi-phase code) 1 data byte XXXX XXXX: (bi-phase code) 2 stop bits: (idle line) 7.2.1 YAAA AAAS KS C IEC 62386 102:2012 4 1 . , 16 . . Type of addresses:

8、 address byte: 64 short addresses 0 63 0AAA AAAS 16 group addresses 0 15 100A AAAS broadcast 1111 111S special commands 1010 0000 to 1111 1101 Y: short- or group address/broadcast Y = “0“: short address Y = “1“: group address or broadcast A: significant address bit S: selector bit S = “0“: data byte

9、 = direct arc power level S = “1“: data byte = command , , (S) “ ” . . 11.4 CCCC CCCC . 7.2.2 XXXX XXXX , ( S) . S = “0“: = (11.1.1 ) S = “1“: = (11.1.2 ) 11.4 . 7.3 . 8.3 11 . 1 start bit: (logical 1, bi-phase code) 1 data byte XXXX XXXX: (bi-phase code) 2 stop bits: (idle line) (= ) Yes / No 8 . Y

10、es: 1111 1111 No: ( ). 8-bit information: XXXX XXXX KS C IEC 62386 102:2012 5 8 8.1 . 1 200 . s= 67.416s2001*21Te = “1” 1 . a 7V 8V b 5V 7V 1 “1” tMAX tMIN . tMAX334 s “0” “1” 2 . 2 “1”, “0” 8.2 3 4 38 Te 19 . KS C IEC 62386 102:2012 6 3 4 8.3 5 6 Te22 11 . 5 6 8.4 7, 8, 9 . , 22 Te . 7 Te22 Te . KS

11、 C IEC 62386 102:2012 7 22 Te . , 27 Te . 11 Te27 Te . 27 Te . 27 Te 10 % . , “No“ . 1 . , 100 ms (100 ms 2 ). 2 . 7 8 9 KS C IEC 62386 102:2012 8 9 9.1 , 0.1 % 10 1 1 . (100 %) 10 1 254 . 0.1 % 100 % . 13253110)(nnX = %8.2constant)()1()(=+nXnXnX 10 1 . 10 0.1 % 21 . . (%) 8 KS C IEC 62386 102:2012

12、9 1 0.1 % n X n X n X n X n X 1 0.100 52 0.402 103 1.620 154 6.520 205 26.241 2 0.103 53 0.414 104 1.665 155 6.700 206 26.967 3 0.106 54 0.425 105 1.711 156 6.886 207 27.713 4 0.109 55 0.437 106 1.758 157 7.076 208 28.480 5 0.112 56 0.449 107 1.807 158 7.272 209 29.269 6 0.115 57 0.461 108 1.857 159

13、 7.473 210 30.079 7 0.118 58 0.474 109 1.908 160 7.680 211 30.911 8 0.121 59 0.487 110 1.961 161 7.893 212 31.767 9 0.124 60 0.501 111 2.015 162 8.111 213 32.646 10 0.128 61 0.515 112 2.071 163 8.336 214 3.550 11 0.131 62 0.529 113 2.128 164 8.567 215 34.479 12 0.135 63 0.543 114 2.187 165 8.804 216

14、 35.433 13 0.139 64 0.559 115 2.248 166 9.047 217 36.414 14 0.143 65 0.574 116 2.310 167 9.298 218 37.422 15 0.147 66 0.590 117 2.374 168 9.555 219 38.457 16 0.151 67 0.606 118 2.440 169 9.820 220 39.522 17 0.155 68 0.623 119 2.507 170 10.091 221 40.616 18 0.159 69 0.640 120 2.577 171 10.371 222 41.

15、740 19 0.163 70 0.658 121 2.648 172 10.658 223 42.895 20 0.168 71 0.676 122 2.721 173 10.953 224 44.083 21 0.173 72 0.695 123 2.797 174 11.256 225 45.303 22 0.177 73 0.714 124 2.874 175 11.568 226 46.557 23 0.182 74 0.734 125 2.954 176 11.888 227 47.846 24 0.187 75 0.754 126 3.035 177 12.217 228 49.

16、170 25 0.193 76 0.775 127 3.119 178 12.555 229 50.531 26 0.198 77 0.796 128 3.206 179 12.902 230 51.930 27 0.203 78 0.819 129 3.294 180 13.260 231 53.367 28 0.209 79 0.841 130 3.386 181 13.627 232 54.844 29 0.215 80 0.864 131 3.479 182 14.004 233 56.362 30 0.221 81 0.888 132 3.576 183 14.391 234 57.

17、922 31 0.227 82 0.913 133 3.675 184 14.790 235 59.526 32 0.233 83 0.938 134 3.776 185 15.199 236 61.173 33 0.240 84 0.964 135 3.881 186 15.620 237 62.866 34 0.246 85 0.991 136 3.988 187 16.052 238 64.607 35 0.253 86 1.018 137 4.099 188 16.496 239 66.395 36 0.260 87 1.047 138 4.212 189 16.953 240 68.

18、233 37 0.267 88 1.076 139 4.329 190 17.422 241 70.121 38 0.275 89 1.105 140 4.449 191 17.905 242 72.062 39 0.282 90 1.136 141 4.572 192 18.400 243 74.057 40 0.290 91 1.167 142 4.698 193 18.909 244 76.107 41 0.298 92 1.200 143 4.828 194 19.433 245 78.213 42 0.306 93 1.233 144 4.962 195 19.971 246 80.

19、378 43 0.315 94 1.267 145 5.099 196 20.524 247 82.603 44 0.324 95 1.302 146 5.240 197 21.092 248 84.889 45 0.332 96 1.338 147 5.386 198 21.675 249 87.239 46 0.342 97 1.375 148 5.535 199 22.275 250 89.654 47 0.351 98 1.413 149 5.688 200 22.892 251 92.135 48 0.361 99 1.452 150 5.845 201 23.526 252 94.

20、686 49 0.371 100 1.492 151 6.007 202 24.177 253 97.307 50 0.381 101 1.534 152 6.173 203 24.846 254 100.00051 0.392 102 1.576 153 6.344 204 25.534 KS C IEC 62386 102:2012 10 9.2 (Power-on) 0.5 s . 0.6 s “POWER ON-LEVEL” . MASK “POWER-ON LEVEL” . , 0.1 s “POWER-ON LEVEL” . IEC 62386 . 1 0.1 s , (STEP

21、DOWN ) . 2 (9.7 ). 3 MASK “POWER-ON LEVEL” . 9.3 - (KS C IEC 62386 101, 5. ) 500 ms , “SYSTEM FAILURE LEVEL” . MASK / . . . 9.4 MIN MAX LEVEL MIN LEVEL MAX LEVEL MIN LEVEL MAX LEVEL . MIN LEVEL MAX LEVEL . MIN MAX LEVEL . , MIN LEVEL MAX LEVEL MIN LEVEL MAX LEVEL . “0“ (OFF) “255“ (MASK) MIN MAX LEV

22、EL . 9.5 2 . KS C IEC 62386 102:2012 11 2 X s steps/s 0 No fade Not applicable 1 0.7 358 2 1.0 253 3 1.4 179 4 2.0 127 5 2.8 89.4 6 4.0 63.3 7 5.7 44.7 8 8.0 31.6 9 11.3 22.4 10 16.0 15.8 11 22.6 11.2 12 32.0 7.9 13 45.3 5.6 14 64.0 4.0 15 90.5 2.8 . “MIN LEVEL” “OFF” . “OFF” “MIN LEVEL” . ( ) . , .

23、 . 9.6 (: ) . “ ” ( ) “ ” . KS C IEC 62386 102:2012 12 9.7 “lamp(s) = off” “lamp(s) = on” . 144 2 “off” . “MIN LEVEL“ . 9.8 9.8.1 . . . 256 . 256 . DTR1 . DTR . 197 “READ MEMORY LOCATION“ . 275 “WRITE MEMORY LOCATION“ 129 “ENABLE WRITE MEMORY“ . . 0x00 . 0x01 (checksum) . . CS: = (0 - memory0x02 - m

24、emory0x03 - . - memorymemory0x00) modulo 256 . 0 0x02 . 0 9.8.2.1 , 9.8.2.19.8.2.3 . 9.8.2 9.8.2.1 0 KS C IEC 62386 102:2012 13 0 0x0E 3 . 0 32 “RESET“ . 3 0 Address Description Default valuea Memory access 0x00 address of last accessible memory location factory burn in read-only 0x01 checksum of me

25、mory bank 0 factory burn in read-only 0x02 number of last accessible memory bank factory burn in read-only 0x03 GTIN byte 0(MSB) factory burn in read-only 0x04 GTIN byte 1 factory burn in read-only 0x05 GTIN byte 2 factory burn in read-only 0x06 GTIN byte 3 factory burn in read-only 0x07 GTIN byte 4 factory burn in read-only 0x08 GTIN byte 5 factory burn in read-only 0x09 control gear firmware version (major) factory burn in read-only 0x0A control

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