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... ... @@ -1,1 +1,1 @@ 1 -XWiki. Xiaoling1 +XWiki.karry - Content
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... ... @@ -1,5 +1,4 @@ 1 -(% class="wikigeneratedid" %) 2 - **Contents:** 1 +**Table of Contents:** 3 3 4 4 {{toc/}} 5 5 ... ... @@ -10,56 +10,65 @@ 10 10 11 11 = 1. Introduction = 12 12 12 + 13 13 This article provide the examples for RS485-LN to connect to different type of RS485 sensors. 14 14 15 15 16 16 == 1.1 Example 1: Connect to Leak relay and VFD == 17 17 18 + 18 18 This instruction is provided by Xavier Florensa Berenguer from [[NORIA GRUPO DE COMPRAS>>url:http://www.gruponovelec.com/]]. It is to show how to use RS485-LN to connect to Relay and VFD and communicate with Mobile. The structure is like below: 19 19 20 -[[image:image-20220527091852-1.png]] 21 21 22 - Connection22 +[[image:image-20220527091852-1.png||height="547" width="994"]] 23 23 24 +**Connection** 24 24 25 25 26 26 [[image:image-20220527091942-2.png]](% style="display:none" %) 27 27 28 -Connection 29 +**Connection** 29 29 30 30 31 -Related documents: 32 +(% style="color:blue" %)**Related documents:** 32 32 33 -* [[Solar Pump with Dragino>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Relay_VFD/]] : System Structure 34 -* [[Configure Manual>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Relay_VFD/]] : Explanation on how to integrate to Node-red and to the Mobile Phone, and with link to the Github code. 35 -* [[Video Demo>>url:https://www.youtube.com/watch?v=TAFZ5eaf-MY&t=6s&ab_channel=XavierFlorensaBerenguer]] 34 +* System Structure: [[Solar Pump with Dragino>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Relay_VFD/||_mstmutation="1" style="background-color: rgb(255, 255, 255);"]] 36 36 36 +* Explanation on how to integrate to Node-red and to the Mobile Phone, and with link to the Github code: [[Configure Manual>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Relay_VFD/||_mstmutation="1" style="background-color: rgb(255, 255, 255);"]] 37 37 38 +* [[Video Demo>>url:https://www.youtube.com/watch?v=TAFZ5eaf-MY&t=6s&ab_channel=XavierFlorensaBerenguer]] 38 38 40 + 39 39 == 1.2 Example 2: Connect to Pulse Counter == 40 40 43 + 41 41 This instruction is provided by Xavier Florensa Berenguer from [[NORIA GRUPO DE COMPRAS>>url:http://www.gruponovelec.com/]]. It is to show how to use RS485-LN to connect to Pulse Counter and communicate with Mobile. This example and example 2 compose the structure for a farm IoT solution. The structure is like below: 42 42 43 -[[image:image-20220527092058-3.png]] 44 44 45 - Connection47 +[[image:image-20220527092058-3.png||height="552" width="905"]] 46 46 49 +**Connection** 47 47 48 -[[image:image-20220527092146-4.png]] 49 49 50 - Connection52 +[[image:image-20220527092146-4.png||height="507" width="906"]] 51 51 52 -* [[Pickdata MIO40 water pulse counter to LoRa with Dragino RS485-LN>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Pulse-Counter/]] : Configure Document 54 +**Connection** 55 + 56 + 57 +(% style="color:blue" %)**Related documents:** 58 + 59 +* Configure Document: [[Pickdata MIO40 water pulse counter to LoRa with Dragino RS485-LN>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Pulse-Counter/||_mstmutation="1"]] 60 + 53 53 * [[Dragino Solution in Farm>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/&file=Dragino%20on%20Farms.pptx]] 54 54 55 -== == 56 56 57 -== 1.3 Example3: Use RS485-LN with energy meters == 64 +== 1.3 Example 3: Use RS485-LN with energy meters == 58 58 59 59 === 1.3.1 OverView === 60 60 68 + 61 61 ((( 62 -**Note**:The specifications of each energy meter are different, please refer to your own energy meter specifications. 70 +(% style="color:red" %)**Note**:**The specifications of each energy meter are different, please refer to your own energy meter specifications.** 63 63 ))) 64 64 65 65 ((( ... ... @@ -68,11 +68,13 @@ 68 68 69 69 [[image:image-20220527092419-5.png]] 70 70 71 -Connection1 79 +**Connection1** 72 72 73 73 74 74 ((( 75 -How to connect with Energy Meter: 83 +(% style="color:blue" %)**How to connect with Energy Meter:** 84 + 85 + 76 76 ))) 77 77 78 78 ((( ... ... @@ -84,11 +84,11 @@ 84 84 ))) 85 85 86 86 ((( 87 -Power Source VIN to RS485-LN VIN+ 97 +Power Source **VIN** to RS485-LN **VIN+** 88 88 ))) 89 89 90 90 ((( 91 -Power Source GND to RS485-LN VIN- 101 +Power Source **GND** to RS485-LN **VIN-** 92 92 ))) 93 93 94 94 ((( ... ... @@ -97,101 +97,107 @@ 97 97 98 98 [[image:image-20220527092514-6.png]] 99 99 100 -Connection2 110 +**Connection2** 101 101 102 102 103 103 [[image:image-20220527092555-7.png]] 104 104 105 -Connection3 115 +**Connection3** 106 106 107 107 108 108 === 1.3.2 How to use the parameters of the energy meter and MODBUS commands === 109 109 120 + 110 110 If the user needs to read the parameters of the electric energy meter and use the modbus command,please refer to the appendix of the MODBUS communication protocol in the user manual of the energy meter. 111 111 112 -[[image:image-20220 527092629-8.png]]123 +[[image:image-20220601143257-10.png]] 113 113 114 114 115 -(% class="box infomessage" %) 116 -((( 117 -**Example:** AT+COMMAND1=01 03 00 00 00 01 84 0A 118 -))) 126 +(% style="color:blue" %)**Example:**(%%) AT+COMMAND1=01 03 00 00 00 01 84 0A 119 119 120 120 * The first byte : slave address code (=001~247) 129 + 121 121 * The second byte : read register value function code 131 + 122 122 * 3rd and 4th bytes: start address of register to be read 133 + 123 123 * 5th and 6th bytes: Number of registers to read 135 + 124 124 * 7th and 8th bytes: CRC16 checksum from bytes 1 to 6. 125 125 126 126 ((( 139 + 140 + 141 + 127 127 How to parse the reading of the return command of the parameter: 128 -))) 129 129 130 -(% class="box infomessage" %) 131 -((( 132 -**Example:** RETURN1:01 03 02 08 FD 7E 05 144 +(% style="color:blue" %)**Example:**(%%) RETURN1:01 03 02 08 FD 7E 05 133 133 ))) 134 134 135 135 * The first byte ARD: slave address code (=001~254) 148 + 136 136 * The second byte: Return to read function code 150 + 137 137 * 3rd byte: total number of bytes 152 + 138 138 * 4th~5th bytes: register data 154 + 139 139 * The 6th and 7th bytes: CRC16 checksum 156 + 140 140 * 08 FD is register data. Use short integer 16 bits to convert to decimal, get 2301, then 230.1V is the voltage. 141 141 142 -(% class="wikigeneratedid" %) 143 -((( 144 - 145 -))) 146 146 147 -=== **1.3.3 How to configure RS485-LN and parse output commands**===160 +=== 1.3.3 How to configure RS485-LN and parse output commands === 148 148 162 + 149 149 RS485-LN provides two configuration methods: AT COMMAND and DOWNLINK. 150 150 151 151 152 -==== **1.3.3.1 via AT COMMAND :** ====166 +==== **1.3.3.1 via AT COMMAND** ==== 153 153 154 -First, we can use **AT+CFGDEV** to get the return value, and we can also judge whether the input parameters are correct. 155 155 169 +First, we can use (% style="color:blue" %)**AT+CFGDEV**(%%) to get the return value, and we can also judge whether the input parameters are correct. 170 + 156 156 ((( 157 157 If the configured parameters and commands are incorrect, the return value is not obtained. 173 + 174 + 158 158 ))) 159 159 160 -[[image:image-20220 527092748-9.png]]177 +[[image:image-20220601143201-9.png]] 161 161 162 -AT COMMAND 179 +**AT COMMAND** 163 163 164 164 165 165 (% class="box infomessage" %) 166 166 ((( 167 - AT+DATACUTx 184 + (% _mstmutation="1" %)**AT+DATACUTx **(%%): This command defines how to handle the return from AT+COMMANDx, max reture length is 40 bytes. AT+DATACUTx=a,b,c 168 168 ))) 169 169 170 -a: length for the return of AT+COMMAND 187 +a: length for the return of AT+COMMAND 171 171 172 -b:1: grab valid value by byte, max 6 bytes .2: grab valid value by bytes section, max 3 sections.189 +b: 1: grab valid value by byte, max 6 bytes; 2: grab valid value by bytes section, max 3 sections. 173 173 174 -c: define the position for valid value. 191 +c: define the position for valid value. 175 175 176 -[[image:image-20220 527092936-10.png]]193 +[[image:image-20220601143115-8.png]] 177 177 178 -AT COMMAND 195 +**AT COMMAND** 179 179 180 180 181 181 PAYLOAD is available after the valid value is intercepted. 182 182 200 +[[image:image-20220601143046-7.png]] 183 183 184 - [[image:image-20220527093059-11.png]]202 +**AT COMMAND** 185 185 186 -AT COMMAND 187 187 188 - 189 189 You can get configured PAYLOAD on TTN. 190 190 191 -[[image:image-20220 527093133-12.png]]207 +[[image:image-20220601143519-1.png]] 192 192 193 193 ((( 194 -AT COMMAND 210 +**AT COMMAND** 195 195 ))) 196 196 197 197 ((( ... ... @@ -199,77 +199,76 @@ 199 199 ))) 200 200 201 201 ((( 202 -(% style="color: #4f81bd" %)**Example**:218 +(% style="color:blue" %)**Example**: 203 203 204 -CMD1:Read current data with MODBUS command. address:0x03 AT+COMMAND1= 01 03 00 03 00 01,1 220 +(% style="color:red" %)**CMD1:**(%%) Read current data with MODBUS command. address: 0x03 AT+COMMAND1= 01 03 00 03 00 01,1 205 205 ))) 206 206 207 207 ((( 208 -RETURN1:01 03 02 00 02 39 85 00 00(return data) 224 +RETURN1: 01 03 02 00 02 39 85 00 00(return data) 209 209 ))) 210 210 211 211 ((( 212 -AT+DATACUT1:9,1,4+5+6+7 Take the return value 00 02 39 85 as the valid value of reading current data and used to splice payload. 228 +AT+DATACUT1: 9,1,4+5+6+7 Take the return value 00 02 39 85 as the valid value of reading current data and used to splice payload. 213 213 214 214 215 215 ))) 216 216 217 217 ((( 218 -CMD2:Read voltage data with MODBUS command. address:0x00 AT+COMMAND2= 01 03 00 00 00 01,1 234 +(% style="color:red" %)**CMD2: **(%%)Read voltage data with MODBUS command. address: 0x00 AT+COMMAND2= 01 03 00 00 00 01,1 219 219 ))) 220 220 221 221 ((( 222 -RETURN2:01 03 02 08 DC BE 1D(return data) 238 +RETURN2: 01 03 02 08 DC BE 1D(return data) 223 223 ))) 224 224 225 225 ((( 226 -AT+DATACUT2:7,1,4+5 Take the return value 08 DC as the valid value of reading voltage data and used to splice payload. 242 +AT+DATACUT2: 7,1,4+5 Take the return value 08 DC as the valid value of reading voltage data and used to splice payload. 227 227 228 228 229 229 ))) 230 230 231 231 ((( 232 -CMD3:Read total active energy data with MODBUS command. address:0x0031 AT+COMMAND3= 01 03 00 31 00 02,1 248 +(% style="color:red" %)**CMD3:**(%%) Read total active energy data with MODBUS command. address: 0x0031 AT+COMMAND3= 01 03 00 31 00 02,1 233 233 ))) 234 234 235 235 ((( 236 -RETURN3:01 03 04 00 00 00 44 FA 00(return data) 252 +RETURN3: 01 03 04 00 00 00 44 FA 00(return data) 237 237 ))) 238 238 239 239 ((( 240 -AT+DATACUT3:9,1,4+5+6+7 Take the return value 00 00 00 44 as the valid value of reading total active energy data and used to splice payload. 256 +AT+DATACUT3: 9,1,4+5+6+7 Take the return value 00 00 00 44 as the valid value of reading total active energy data and used to splice payload. 241 241 ))) 242 242 243 243 ((( 244 -Payload:01 00 02 39 85 08 DC 00 00 00 44 260 +Payload: 01 00 02 39 85 08 DC 00 00 00 44 245 245 ))) 246 246 247 -[[image:image-20220 527093204-13.png]]263 +[[image:image-20220601142936-6.png]] 248 248 249 249 AT COMMAND 250 250 251 251 252 -(% style="color: #4f81bd" %)**01 is device address,00 02 is the current, 08 DC is the voltage,00 00 00 44 is the total active energy.**268 +(% style="color:blue" %)**01 is device address,00 02 is the current, 08 DC is the voltage,00 00 00 44 is the total active energy.** 253 253 254 -[[image:image-20220527093251-14.png]] 255 255 271 +[[image:image-20220601143642-2.png]] 272 + 256 256 AT COMMAND 257 257 258 258 259 259 ==== **1.3.3.2 via LoRaWAN DOWNLINK** ==== 260 260 278 + 261 261 [[image:image-20220527093358-15.png]] 262 262 263 263 ((( 264 -DOWNLINK 282 +**DOWNLINK** 265 265 ))) 266 266 267 -((( 268 - 269 -))) 270 270 271 271 ((( 272 -(% style="color: #4f81bd" %)**Type Code 0xAF**287 +(% style="color:blue" %)**Type Code 0xAF** 273 273 ))) 274 274 275 275 ((( ... ... @@ -280,7 +280,7 @@ 280 280 ))) 281 281 282 282 ((( 283 -Note: if user use AT+COMMANDx to add a new command, he also need to send AT+DATACUTx downlink. 298 +(% style="color:red" %)**Note: if user use AT+COMMANDx to add a new command, he also need to send AT+DATACUTx downlink.** 284 284 ))) 285 285 286 286 ((( ... ... @@ -315,8 +315,9 @@ 315 315 will execute an uplink after got this command. 316 316 ))) 317 317 333 + 318 318 ((( 319 -(% style="color: #4f81bd" %)**Example:**335 +(% style="color:blue" %)**Example:** 320 320 ))) 321 321 322 322 ((( ... ... @@ -323,33 +323,34 @@ 323 323 **AF 03 01 06 0A 05 00 04 00 01 00**: Same as AT+COMMAND3=0A 05 00 04 00 01,1 324 324 ))) 325 325 326 -[[image:image-20220 527093430-16.png]]342 +[[image:image-20220601144149-6.png]] 327 327 328 -DOWNLINK 344 +**DOWNLINK** 329 329 330 330 331 -[[image:image-20220 527093508-17.png]]347 +[[image:image-20220601143803-3.png]] 332 332 333 -DOWNLINK 349 +**DOWNLINK** 334 334 335 335 336 -[[image:image-20220 527093530-18.png]]352 +[[image:image-20220601144053-5.png]] 337 337 338 -DOWNLINK 354 +**DOWNLINK** 339 339 340 340 341 -[[image:image-20220 527093607-19.png]]357 +[[image:image-20220601143921-4.png]] 342 342 343 -DOWNLINK 359 +**DOWNLINK** 344 344 345 345 346 -[[image:image-20220 527093628-20.png]]362 +[[image:image-20220601142805-5.png]] 347 347 348 -DOWNLINK 349 - 364 +**DOWNLINK** 350 350 351 -=== **1.3.4 How to configure and output commands for RS485 to USB** === 352 352 367 +=== 1.3.4 How to configure and output commands for RS485 to USB === 368 + 369 + 353 353 ((( 354 354 This step is not necessary, it is just to show how to use a normal RS485 to USB adapter to connect to the meter to check the input and output. This can be used to test the connection and RS485 command of the meter without RS485-LN. 355 355 ))) ... ... @@ -372,33 +372,37 @@ 372 372 373 373 [[image:image-20220527093708-21.png]] 374 374 375 -USB 392 +**USB** 376 376 377 377 378 378 [[image:image-20220527093747-22.png]] 379 379 380 -USB 397 +**USB** 381 381 382 382 400 + 383 383 ((( 384 384 The configuration command is consistent with the AT command, input the hexadecimal command directly into the serial port, and the serial port will output the command. 385 385 ))) 386 386 387 387 ((( 388 -(% style="color: #4f81bd" %)**Example:** (%%)input:01 03 00 31 00 02 95 c4406 +(% style="color:blue" %)**Example:** (%%)input:01 03 00 31 00 02 95 c4 389 389 ))) 390 390 391 391 ((( 392 392 output:01 03 04 00 00 00 42 7A 02 411 + 412 + 393 393 ))) 394 394 395 395 [[image:image-20220527093821-23.png]] 396 396 397 -USB 417 +**USB** 398 398 399 399 400 -=== **1.3.5 How to configure multiple devices and modify device addresses**===420 +=== 1.3.5 How to configure multiple devices and modify device addresses === 401 401 422 + 402 402 If users need to read the parameters of multiple energy meters, they need to modify the device address, because the default device address of each energy meter is 01. 403 403 404 404 ((( ... ... @@ -407,15 +407,18 @@ 407 407 ))) 408 408 ))) 409 409 410 -[[image:image-20220 527093849-24.png]]431 +[[image:image-20220601142044-1.png]] 411 411 412 412 413 -**Example**:These two meters are examples of setting parameters and device addresses. 434 +(% style="color:blue" %)**Example**(%%): These two meters are examples of setting parameters and device addresses. 414 414 436 + 415 415 [[image:image-20220527093950-25.png]] 416 416 439 + 417 417 [[image:image-20220527094028-26.png]] 418 418 442 + 419 419 ((( 420 420 ((( 421 421 First of all, since the default device address of the energy meter is 01, the configuration of two energy meters will conflict, so we first connect an energy meter and configure the device address. ... ... @@ -424,7 +424,7 @@ 424 424 425 425 ((( 426 426 ((( 427 -We can use AT+CFGDEV to set the device address. 451 +We can use (% style="color:blue" %)**AT+CFGDEV**(%%) to set the device address. 428 428 ))) 429 429 ))) 430 430 ... ... @@ -434,16 +434,17 @@ 434 434 ))) 435 435 ))) 436 436 437 -[[image:image-20220 527094100-27.png]]461 +[[image:image-20220601142354-2.png]] 438 438 463 + 439 439 (% class="box infomessage" %) 440 440 ((( 441 441 **AT+CFGDEV:01 10 00 61 00 01 02 00 02,1** 442 442 ))) 443 443 444 -* 01:device adaress 469 +* 01: device adaress 445 445 446 -* 10:function code 471 +* 10: function code 447 447 448 448 * 00 61:Register address 449 449 ... ... @@ -461,48 +461,82 @@ 461 461 462 462 Its default device address is 01, and the following are the parameters for configuring two energy meters. 463 463 464 -[[image:image-20220 527094150-28.png]]489 +[[image:image-20220601142452-3.png]] 465 465 466 466 467 -[[image:image-20220 527094224-29.png]]492 +[[image:image-20220601142607-4.png]] 468 468 469 -**PAYLOAD:01 08 DF 43 62** 470 470 495 +(% style="color:blue" %)**PAYLOAD: 01 08 DF 43 62** 496 + 471 471 * 08 DF is the valid value of the meter with device address 02. 472 472 * 43 62 is the valid value of the meter with device address 01. 473 473 500 +(% style="display:none" %) (%%) 474 474 502 + 475 475 == 1.4 Example 4: Circuit Breaker Remote Open Close == 476 476 477 -This instruction is provided by Xavier Florensa Berenguer from [[NORIA GRUPO DE COMPRAS>>url:http://www.gruponovelec.com/]]. It is to show how to use RS485-LN to connect to SCHNEIDER SMART and Monitor and control your cabinet remotely with no wires and with Dragino RS485-LN LoRaWAN technology. The structure is like below: 478 478 506 +This instruction is provided by Xavier Florensa Berenguer from [[NORIA GRUPO DE COMPRAS>>url:http://www.gruponovelec.com/]]. It is to show how to use RS485-LN to connect to SCHNEIDER SMART and Monitor and control your cabinet remotely with no wires and with Dragino RS485-LN LoRaWAN technology. 507 + 508 +The structure is like below: 509 + 479 479 [[image:image-20220527094330-30.png]] 480 480 481 -Connection 512 +**Connection** 482 482 483 -* [[Circuit Breaker Remote Open Close>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Circuit_Breaker_Remote_Open_Close/]] : Configure Documen 484 484 515 +* Configure Documen: [[Circuit Breaker Remote Open Close>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Circuit_Breaker_Remote_Open_Close/||_mstmutation="1"]] 485 485 517 + 486 486 == 1.5 Example 5: SEM Three Energy Meter with RS485-BL or RS485-LN == 487 487 520 + 488 488 This instruction is provided by Xavier Florensa Berenguer from [[NORIA GRUPO DE COMPRAS>>url:http://www.gruponovelec.com/]]. It is to show how to use RS485-BL to connect to SEM Three Energy Meter and send the data to mobile phone for remote minitor. The structure is like below: 489 489 490 -* [[Connect to SEM Three>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/RS485-BL/Application_Note/&file=Dragino%20RS485BL%20and%20pickdata%20SEM%20Three%20v1.pdf ]] : Configure Document ForRS485-BL523 +* Configure Document For RS485-BL: [[Connect to SEM Three>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/RS485-BL/Application_Note/&file=Dragino%20RS485BL%20and%20pickdata%20SEM%20Three%20v1.pdf||_mstmutation="1" style="background-color: rgb(255, 255, 255);"]] 491 491 492 -* [[Connect to SEM Three>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/SEM_Three_Energy_Meter/&file=SEM%20three%20and%20Dragino%20RS485-LN%20v1.pdf ]] : Configure Documentfor RS485-LN525 +* Configure Document for RS485-LN: [[Connect to SEM Three>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/SEM_Three_Energy_Meter/&file=SEM%20three%20and%20Dragino%20RS485-LN%20v1.pdf||_mstmutation="1"]] 493 493 494 494 495 -== 1.6 Example 6:CEM C31 485-T1-MID Energy Meter with RS485-LN == 528 +== 1.6 Example 6: CEM C31 485-T1-MID Energy Meter with RS485-LN == 496 496 530 + 497 497 This instruction is provided by Xavier Florensa Berenguer from [[NORIA GRUPO DE COMPRAS>>url:http://www.gruponovelec.com/]]. It is to show how to use RS485-LN to connect to CEM C31 485-T1-MID and send the data for remote minitor. The structure is like below: 498 498 499 -* [[CEM C31 485-T1-MID>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/ELECTRICAL%20CABINET/&file=ELECTRICAL%20CABINET%20READINGS.pdf ]] : Configure Document ForRS485-LN533 +* Configure Document For RS485-LN: [[CEM C31 485-T1-MID>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/ELECTRICAL%20CABINET/&file=ELECTRICAL%20CABINET%20READINGS.pdf||_mstmutation="1" style="background-color: rgb(255, 255, 255);"]] 500 500 501 501 502 -== 1.7 Example 7:Schneider Electric PLC M221 with RS485-BL == 536 +== 1.7 Example 7: Schneider Electric PLC M221 with RS485-BL == 503 503 538 + 504 504 [[image:image-20220527094556-31.png]] 505 505 541 + 506 506 Network Structure 507 507 508 508 * [[Reference Instruction>>url:https://www.dragino.com/downloads/index.php?dir=RS485-LN/Application_Note/Schneider%20Electric%20PLC/]] 545 + 546 + 547 +== 1.8 Example 8: This sketch is supposed to test Dragino RS485-BL (Modbus master), using an Arduino UNO as a Modbus slave. == 548 + 549 + 550 +This sketch uses 4 registers: some of them can be set by Dragino with a command, another is used to store value from a DS18B20 temperature sensor, or a random generated number. All data is 16bit uint, but the sketch shows also how to represent booleans and negative numbers. 551 + 552 +In the next days I will be adding more documentation, but I think it already explains users how to build their own modbus sensor to pair with Dragino RS485-BL. 553 + 554 +This is released the code under GNU LGPL licence on Github: 555 + 556 +[[https:~~/~~/github.com/zorbaproject/ArduinoModbusForDraginoRS485>>url:https://github.com/zorbaproject/ArduinoModbusForDraginoRS485]] 557 + 558 + 559 +== 1.9 Example 9: RS485-LN and ultrasonic flow meter transmission data == 560 + 561 + 562 +It shows how to use RS485-LN to connect to an ultrasonic flow meter and read the data from the ultrasonic flow meter. 563 + 564 + 565 + 566 +* **Specific steps**: RS485-LN with ultrasonic flow meter 567 +*
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