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Last modified by Xiaoling on 2023/09/19 09:20
From version 88.2
edited by Edwin Chen
on 2022/07/15 00:07
Change comment: There is no comment for this version
To version 162.2
edited by Xiaoling
on 2023/06/05 15:32
Change comment: There is no comment for this version

Summary

Details

Page properties
Title
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1 -LA66 LoRaWAN Module
1 +LA66 LoRaWAN Module User Manual
Author
... ... @@ -1,1 +1,1 @@
1 -XWiki.Edwin
1 +XWiki.Xiaoling
Content
... ... @@ -8,21 +8,31 @@
8 8  
9 9  = 1.  LA66 LoRaWAN Module =
10 10  
11 -
12 12  == 1.1  What is LA66 LoRaWAN Module ==
13 13  
14 14  
15 15  (((
16 -[[image:image-20220715000242-1.png||height="110" width="132"]]
15 +(((
16 +[[image:image-20220719093358-2.png||height="145" width="220"]](% style="color:blue" %)** **
17 +)))
17 17  
19 +(((
20 +
21 +)))
22 +
23 +(((
18 18  (% style="color:blue" %)**Dragino LA66**(%%) is a small wireless LoRaWAN module that offers a very compelling mix of long-range, low power consumption, and secure data transmission. It is designed to facilitate developers to quickly deploy industrial-level LoRaWAN and IoT solutions. It helps users to turn the idea into a practical application and make the Internet of Things a reality. It is easy to create and connect your things everywhere.
19 19  )))
26 +)))
20 20  
21 21  (((
22 -(% style="color:blue" %)**LA66**(%%) is a ready-to-use module that includes the (% style="color:blue" %)**LoRaWAN v1.0.4 protocol**(%%). The LoRaWAN stack used in LA66 is used in more than 1 million LoRaWAN End Devices deployed world widely. This mature LoRaWAN stack greatly reduces the risk to make stable LoRaWAN Sensors to support different LoRaWAN servers and different countries' standards. External MCU can use AT command to call LA66 and start to transmit data via the LoRaWAN protocol.
29 +(((
30 +(% style="color:blue" %)**LA66**(%%) is a ready-to-use module that includes the (% style="color:blue" %)**LoRaWAN v1.0.3 protocol**(%%). The LoRaWAN stack used in LA66 is used in more than 1 million LoRaWAN End Devices deployed world widely. This mature LoRaWAN stack greatly reduces the risk to make stable LoRaWAN Sensors to support different LoRaWAN servers and different countries' standards. External MCU can use AT command to call LA66 and start to transmit data via the LoRaWAN protocol.
23 23  )))
32 +)))
24 24  
25 25  (((
35 +(((
26 26  Each LA66 module includes a (% style="color:blue" %)**world-unique OTAA key**(%%) for LoRaWAN registration.
27 27  )))
28 28  
... ... @@ -29,15 +29,19 @@
29 29  (((
30 30  Besides the support of the LoRaWAN protocol, LA66 also supports (% style="color:blue" %)**open-source peer-to-peer LoRa Protocol**(%%) for the none-LoRaWAN application.
31 31  )))
42 +)))
32 32  
33 33  (((
45 +(((
34 34  LA66 is equipped with (% style="color:blue" %)**TCXO crystal**(%%) which ensures the module can achieve stable performance in extreme temperatures.
35 35  )))
48 +)))
36 36  
37 37  
38 38  == 1.2  Features ==
39 39  
40 -* Support LoRaWAN v1.0.4 protocol
53 +
54 +* Support LoRaWAN v1.0.3 protocol
41 41  * Support peer-to-peer protocol
42 42  * TCXO crystal to ensure RF performance on low temperature
43 43  * SMD Antenna pad and i-pex antenna connector
... ... @@ -47,9 +47,9 @@
47 47  * Firmware upgradable via UART interface
48 48  * Ultra-long RF range
49 49  
50 -
51 51  == 1.3  Specification ==
52 52  
66 +
53 53  * CPU: 32-bit 48 MHz
54 54  * Flash: 256KB
55 55  * RAM: 64KB
... ... @@ -68,401 +68,172 @@
68 68  * LoRa Rx current: <9 mA
69 69  * I/O Voltage: 3.3v
70 70  
71 -
72 72  == 1.4  AT Command ==
73 73  
74 -AT Command is valid over Main TXD and Main RXD. Serial Baud Rate is 9600. AT commands can be found in AT Command documents.
75 75  
88 +AT Command is valid over Main TXD and Main RXD. Serial Baud Rate is 9600. AT commands can be found in[[ AT Command documents>>https://www.dropbox.com/sh/wtq43za8sykpgta/AABAEE02uEAsRU-JV7bzEhMba?dl=0]].
76 76  
90 +
77 77  == 1.5  Dimension ==
78 78  
79 -[[image:image-20220517072526-1.png]]
80 80  
94 +[[image:image-20220718094750-3.png]]
81 81  
82 82  
83 83  == 1.6  Pin Mapping ==
84 84  
99 +[[image:image-20220720111850-1.png]]
85 85  
86 -[[image:image-20220523101537-1.png]]
87 87  
88 -
89 -
90 90  == 1.7  Land Pattern ==
91 91  
104 +
92 92  [[image:image-20220517072821-2.png]]
93 93  
94 94  
108 += 2.  FAQ =
95 95  
96 -= 2.  LA66 LoRaWAN Shield =
110 +== 2.1  Where to find examples of how to use LA66? ==
97 97  
98 98  
99 -== 2.1  Overview ==
113 +(% class="wikigeneratedid" %)
114 +Below products are made by LA66. User can use their examples as reference:
100 100  
101 -LA66 LoRaWAN Shield is the Arduino shield base on LA66. Users can use LA66 LoRaWAN Shield to rapidly add LoRaWAN or peer-to-peer LoRa wireless function to  Arduino projects.
116 +* [[LA66 Shield for Arduino>>doc:Main.User Manual for LoRaWAN End Nodes.LA66 LoRaWAN Shield User Manual.WebHome]]
117 +* [[LA66 USB Adapter>>doc:Main.User Manual for LoRaWAN End Nodes.LA66 USB LoRaWAN Adapter User Manual.WebHome]]
102 102  
119 +== 2.2  How to Compile Source Code for LA66? ==
103 103  
104 -== 2.2  Features ==
105 105  
106 -* Arduino Shield base on LA66 LoRaWAN module
107 -* Support LoRaWAN v1.0.4 protocol
108 -* Support peer-to-peer protocol
109 -* TCXO crystal to ensure RF performance on low temperature
110 -* SMA connector
111 -* Available in different frequency LoRaWAN frequency bands.
112 -* World-wide unique OTAA keys.
113 -* AT Command via UART-TTL interface
114 -* Firmware upgradable via UART interface
115 -* Ultra-long RF range
122 +Compile and Upload Code to ASR6601 Platform:[[Instruction>>Compile and Upload Code to ASR6601 Platform]]
116 116  
117 117  
118 -== 2.3  Specification ==
125 +== 2.3  Can i use LA66 module's internal I/O without external MCU, So to save product cost? ==
119 119  
120 -* CPU: 32-bit 48 MHz
121 -* Flash: 256KB
122 -* RAM: 64KB
123 -* Input Power Range: 1.8v ~~ 3.7v
124 -* Power Consumption: < 4uA.
125 -* Frequency Range: 150 MHz ~~ 960 MHz
126 -* Maximum Power +22 dBm constant RF output
127 -* High sensitivity: -148 dBm
128 -* Temperature:
129 -** Storage: -55 ~~ +125℃
130 -** Operating: -40 ~~ +85℃
131 -* Humidity:
132 -** Storage: 5 ~~ 95% (Non-Condensing)
133 -** Operating: 10 ~~ 95% (Non-Condensing)
134 -* LoRa Tx Current: <90 mA at +17 dBm, 108 mA at +22 dBm
135 -* LoRa Rx current: <9 mA
136 -* I/O Voltage: 3.3v
137 137  
128 +Yes, this is possible, user can refer[[ the source code from ASR >>https://github.com/asrlora/asr_lora_6601/tree/master/projects/ASR6601SE-EVAL/examples/lora]]to get examples for how to its I/O Interfaces.
138 138  
139 -== 2.4  Pin Mapping & LED ==
140 140  
131 +== 2.4  Where to find Peer-to-Peer firmware of LA66? ==
141 141  
142 142  
143 -== 2.5  Example: Use AT Command to communicate with LA66 module via Arduino UNO. ==
134 +Instruction for LA66 Peer to Peer firmware :[[ Instruction >>doc:Main.User Manual for LoRaWAN End Nodes.LA66 LoRaWAN Shield User Manual.Instruction for LA66 Peer to Peer firmware.WebHome]]
144 144  
145 145  
137 +== 2.5 How can i use J-LInk to debug LA66? ==
146 146  
147 -== 2.6  Example: Join TTN network and send an uplink message, get downlink message. ==
148 148  
140 +(% style="color:#037691" %)**The steps are as follows:**
149 149  
150 150  
151 -== 2.7  Example: Log Temperature Sensor(DHT11) and send data to TTN, show it in DataCake. ==
143 +(% style="color:blue" %)**1. Install J-Link software from**
152 152  
145 +[[https:~~/~~/www.segger.com/downloads/jlink/>>url:https://www.segger.com/downloads/jlink/]]
153 153  
154 154  
155 -== 2. Upgrade Firmware of LA66 LoRaWAN Shield ==
148 +(% style="color:blue" %)**2. Expose PA6 / PA7 / RSTN of LA66.**
156 156  
157 157  
158 -=== 2.8.1  Items needed for update ===
151 +[[image:image-20230605151850-1.png]]
159 159  
160 -1. LA66 LoRaWAN Shield
161 -1. Arduino
162 -1. USB TO TTL Adapter
163 163  
154 +[[image:image-20230605151850-2.png]]
164 164  
165 165  
166 -[[image:image-20220602100052-2.png||height="385" width="600"]]
157 +(% style="color:blue" %)**3. Connect JLINK, and switch mother board SW1 to ISP. Wire connection as below:**
167 167  
159 +**LA66 PA6 < ~-~- > JLINK SWDIO (Pin 7)**
168 168  
169 -=== 2.8.2  Connection ===
161 +**LA66 PA7 < ~-~- > JLINK SWCLK (Pin 9)**
170 170  
163 +**LA66 RSTN < ~-~- > JLINK RESET (Pin 15)**
171 171  
172 -[[image:image-20220602101311-3.png||height="276" width="600"]]
165 +**LA66 GND  < ~-~- > JLINK GND (Pin 8)**
173 173  
167 +[[image:image-20230605151850-3.png||height="629" width="1182"]]
174 174  
175 -(((
176 -(% style="color:blue" %)**LA66 LoRaWAN Shield**(%%)  **<->** (% style="color:blue" %)**USB TTL**
177 -)))
169 +(% style="display:none" %) (%%)
178 178  
179 -(((
180 -(% style="background-color:yellow" %)**GND  <-> GND
181 -TXD  <->  TXD
182 -RXD  <->  RXD**
183 -)))
171 +(% style="color:blue" %)**4. Copy \SN50v3\tools\FLM\ASR6601.FLM to \Keil\ARM\ Flash\**
184 184  
173 +(% style="display:none" %) [[image:image-20230605151850-4.png]]
185 185  
186 -Put a jumper cap on JP6 of LA66 LoRaWAN Shield. ( the jumper is to power on LA66 module)
187 187  
188 -Connect USB TTL Adapter to PC after connecting the wires
176 +(% style="color:blue" %)**Add ASR6601 256KB Flash to Flash Download**
189 189  
178 +[[image:image-20230605152412-12.png]]
190 190  
191 -[[image:image-20220602102240-4.png||height="304" width="600"]]
192 192  
181 +[[image:image-20230605151851-6.png]]
193 193  
194 -=== 2.8.3  Upgrade steps ===
195 195  
184 +(% style="color:blue" %)**5. Modify \SN50v3\Projects\Applications\DRAGINO-LRWAN-AT\cfg\gcc.ld, to 0x08000000.**
196 196  
197 -==== 1.  Switch SW1 to put in ISP position ====
186 +[[image:image-20230605151851-7.png]]
198 198  
188 +[[image:image-20230605151851-8.png]]
199 199  
200 -[[image:image-20220602102824-5.png||height="306" width="600"]]
201 201  
191 +(% style="color:red" %)Note**: After debug, user should change the Flash address back to 0x0800D000, and upload the OTA bootloader to LA66. Otherwise, the compiled program doesn’t support OTA update.**
202 202  
203 203  
204 -==== 2.  Press the RST switch once ====
194 +(% style="color:blue" %)**6. Comment the low power function in main.c.**
205 205  
206 206  
207 -[[image:image-20220602104701-12.png||height="285" width="600"]]
197 +[[image:image-20230605151851-9.png]]
208 208  
209 209  
200 +(% style="color:blue" %)**Click Debug mode to debug.**
210 210  
211 -==== 3.  Open the Upgrade tool (Tremo Programmer) in PC and Upgrade ====
202 +[[image:image-20230605151851-10.png||height="293" width="1275"]]
212 212  
213 213  
214 -(((
215 -(% style="color:blue" %)**1. Software download link:  [[https:~~/~~/www.dragino.com/downloads/index.php?dir=LSN50-LoRaST/Utility/LSN50N/>>https://www.dragino.com/downloads/index.php?dir=LSN50-LoRaST/Utility/LSN50N/]]**
216 -)))
205 +[[image:image-20230605151851-11.png||height="739" width="1275"]](% style="display:none" %)
217 217  
207 +(% style="display:none" %) (%%)
218 218  
219 -[[image:image-20220602103227-6.png]]
209 += 3.  Order Info =
220 220  
221 221  
222 -[[image:image-20220602103357-7.png]]
212 +**Part Number:**  (% style="color:blue" %)**LA66-XXX**
223 223  
214 +(% style="color:blue" %)**XXX**(%%): The default frequency band
224 224  
216 +* (% style="color:red" %)**AS923**(%%):  LoRaWAN AS923 band
217 +* (% style="color:red" %)**AU915**(%%):  LoRaWAN AU915 band
218 +* (% style="color:red" %)**EU433**(%%):  LoRaWAN EU433 band
219 +* (% style="color:red" %)**EU868**(%%):  LoRaWAN EU868 band
220 +* (% style="color:red" %)**KR920**(%%):  LoRaWAN KR920 band
221 +* (% style="color:red" %)**US915**(%%):  LoRaWAN US915 band
222 +* (% style="color:red" %)**IN865**(%%):  LoRaWAN IN865 band
223 +* (% style="color:red" %)**CN470**(%%): LoRaWAN CN470 band
224 +* (% style="color:red" %)**PP**(%%):  Peer to Peer LoRa Protocol
225 225  
226 -(% class="wikigeneratedid" id="HSelecttheCOMportcorrespondingtoUSBTTL" %)
227 -(% style="color:blue" %)**2. Select the COM port corresponding to USB TTL**
226 += 4.  FCC Statement =
228 228  
229 229  
230 -[[image:image-20220602103844-8.png]]
229 +(% style="color:red" %)**FCC Caution:**
231 231  
231 +Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
232 232  
233 +This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
233 233  
234 -(% class="wikigeneratedid" id="HSelectthebinfiletoburn" %)
235 -(% style="color:blue" %)**3. Select the bin file to burn**
236 236  
236 +(% style="color:red" %)**IMPORTANT NOTE: **
237 237  
238 -[[image:image-20220602104144-9.png]]
238 +(% style="color:red" %)**Note:**(%%) This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
239 239  
240 +—Reorient or relocate the receiving antenna.
240 240  
241 -[[image:image-20220602104251-10.png]]
242 +—Increase the separation between the equipment and receiver.
242 242  
244 +—Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
243 243  
244 -[[image:image-20220602104402-11.png]]
246 +—Consult the dealer or an experienced radio/TV technician for help.
245 245  
246 246  
249 +(% style="color:red" %)**FCC Radiation Exposure Statement: **
247 247  
248 -(% class="wikigeneratedid" id="HClicktostartthedownload" %)
249 -(% style="color:blue" %)**4. Click to start the download**
251 +This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment.This equipment should be installed and operated with minimum distance 20cm between the radiator& your body.
250 250  
251 -[[image:image-20220602104923-13.png]]
252 -
253 -
254 -
255 -(% class="wikigeneratedid" id="HThefollowingfigureappearstoprovethattheburningisinprogress" %)
256 -(% style="color:blue" %)**5. Check update process**
257 -
258 -
259 -[[image:image-20220602104948-14.png]]
260 -
261 -
262 -
263 -(% class="wikigeneratedid" id="HThefollowingpictureappearstoprovethattheburningissuccessful" %)
264 -(% style="color:blue" %)**The following picture shows that the burning is successful**
265 -
266 -[[image:image-20220602105251-15.png]]
267 -
268 -
269 -
270 -= 3.  LA66 USB LoRaWAN Adapter =
271 -
272 -
273 -== 3.1  Overview ==
274 -
275 -LA66 USB LoRaWAN Adapter is designed to fast turn USB devices to support LoRaWAN wireless features. It combines a CP2101 USB TTL Chip and LA66 LoRaWAN module which can easy to add LoRaWAN wireless feature to PC / Mobile phone or an embedded device that has USB Interface.
276 -
277 -
278 -== 3.2  Features ==
279 -
280 -* LoRaWAN USB adapter base on LA66 LoRaWAN module
281 -* Ultra-long RF range
282 -* Support LoRaWAN v1.0.4 protocol
283 -* Support peer-to-peer protocol
284 -* TCXO crystal to ensure RF performance on low temperature
285 -* Spring RF antenna
286 -* Available in different frequency LoRaWAN frequency bands.
287 -* World-wide unique OTAA keys.
288 -* AT Command via UART-TTL interface
289 -* Firmware upgradable via UART interface
290 -
291 -
292 -== 3.3  Specification ==
293 -
294 -* CPU: 32-bit 48 MHz
295 -* Flash: 256KB
296 -* RAM: 64KB
297 -* Input Power Range: 5v
298 -* Frequency Range: 150 MHz ~~ 960 MHz
299 -* Maximum Power +22 dBm constant RF output
300 -* High sensitivity: -148 dBm
301 -* Temperature:
302 -** Storage: -55 ~~ +125℃
303 -** Operating: -40 ~~ +85℃
304 -* Humidity:
305 -** Storage: 5 ~~ 95% (Non-Condensing)
306 -** Operating: 10 ~~ 95% (Non-Condensing)
307 -* LoRa Tx Current: <90 mA at +17 dBm, 108 mA at +22 dBm
308 -* LoRa Rx current: <9 mA
309 -
310 -
311 -== 3.4  Pin Mapping & LED ==
312 -
313 -
314 -
315 -== 3.5  Example: Send & Get Messages via LoRaWAN in PC ==
316 -
317 -
318 -Assume user already input the LA66 USB LoRaWAN Adapter OTAA Keys in TTN and there is already TTN network coverage.
319 -
320 -
321 -(% style="color:blue" %)**1. Connect the LA66 USB LoRaWAN adapter to PC**
322 -
323 -
324 -[[image:image-20220602171217-1.png||height="538" width="800"]]
325 -
326 -
327 -Open the serial port tool
328 -
329 -[[image:image-20220602161617-8.png]]
330 -
331 -[[image:image-20220602161718-9.png||height="457" width="800"]]
332 -
333 -
334 -
335 -(% style="color:blue" %)**2. Press the reset switch RST on the LA66 USB LoRaWAN Adapter to reset it.**
336 -
337 -The following picture appears to prove that the LA66 USB LoRaWAN Adapter successfully Join the LoRaWAN network
338 -
339 -
340 -[[image:image-20220602161935-10.png||height="498" width="800"]]
341 -
342 -
343 -
344 -(% style="color:blue" %)**3. See Uplink Command**
345 -
346 -Command format: (% style="color:#4472c4" %)** AT+SENDB=<confirn_status>,<Fport>,<data_len>,<data>**
347 -
348 -example: AT+SENDB=01,02,8,05820802581ea0a5
349 -
350 -[[image:image-20220602162157-11.png||height="497" width="800"]]
351 -
352 -
353 -
354 -(% style="color:blue" %)**4. Check to see if TTN received the message**
355 -
356 -[[image:image-20220602162331-12.png||height="420" width="800"]]
357 -
358 -
359 -
360 -== 3.6  Example: Send PC's CPU/RAM usage to TTN via python ==
361 -
362 -
363 -**Use python as an example:**[[https:~~/~~/github.com/dragino/LA66/blob/main/Send_information_to_TTN_WindosPC.py>>https://github.com/dragino/LA66/blob/main/Send_information_to_TTN_WindosPC.py]]
364 -
365 -
366 -(% style="color:red" %)**Preconditions:**
367 -
368 -(% style="color:red" %)**1. LA66 USB LoRaWAN Adapter works fine**
369 -
370 -(% style="color:red" %)**2. LA66 USB LoRaWAN Adapter  is registered with TTN**
371 -
372 -
373 -
374 -(% style="color:blue" %)**Steps for usage:**
375 -
376 -(% style="color:blue" %)**1.**(%%) Press the reset switch RESET on the LA66 USB LoRaWAN Adapter
377 -
378 -(% style="color:blue" %)**2.**(%%) Run the python script in PC and see the TTN
379 -
380 -[[image:image-20220602115852-3.png||height="450" width="1187"]]
381 -
382 -
383 -
384 -== 3.7  Example: Send & Get Messages via LoRaWAN in RPi ==
385 -
386 -
387 -Assume user already input the LA66 USB LoRaWAN Adapter OTAA Keys in TTN and there is already TTN network coverage.
388 -
389 -
390 -(% style="color:blue" %)**1. Connect the LA66 USB LoRaWAN Adapter to the Raspberry Pi**
391 -
392 -[[image:image-20220602171233-2.png||height="538" width="800"]]
393 -
394 -
395 -
396 -(% style="color:blue" %)**2. Install Minicom in RPi.**
397 -
398 -(% id="cke_bm_509388S" style="display:none" %) (%%)Enter the following command in the RPi terminal
399 -
400 - (% style="background-color:yellow" %)**apt update**
401 -
402 - (% style="background-color:yellow" %)**apt install minicom**
403 -
404 -
405 -Use minicom to connect to the RPI's terminal
406 -
407 -[[image:image-20220602153146-3.png||height="439" width="500"]]
408 -
409 -
410 -
411 -(% style="color:blue" %)**3. Press the reset switch RST on the LA66 USB LoRaWAN Adapter.**
412 -
413 -The following picture appears to prove that the LA66 USB LoRaWAN Adapter successfully entered the network.
414 -
415 -
416 -[[image:image-20220602154928-5.png||height="436" width="500"]]
417 -
418 -
419 -
420 -(% style="color:blue" %)**4. Send Uplink message**
421 -
422 -Format: (% style="color:#4472c4" %)**AT+SENDB=<confirn_status>,<Fport>,<data_len>,<data>**
423 -
424 -example: AT+SENDB=01,02,8,05820802581ea0a5
425 -
426 -
427 -[[image:image-20220602160339-6.png||height="517" width="600"]]
428 -
429 -
430 -
431 -Check to see if TTN received the message
432 -
433 -[[image:image-20220602160627-7.png||height="369" width="800"]]
434 -
435 -
436 -
437 -== 3.8  Example: LA66 USB Module got a message from LA66 LoRa Shield and send the sensor data to NodeRed. ==
438 -
439 -
440 -
441 -== 3.9  Upgrade Firmware of LA66 USB LoRaWAN Adapter ==
442 -
443 -
444 -
445 -
446 -= 4.  Order Info =
447 -
448 -
449 -**Part Number:**  (% style="color:blue" %)**LA66-XXX**(%%), (% style="color:blue" %)**LA66-LoRaWAN-Shield-XXX** (%%) **or**  (% style="color:blue" %)**LA66-USB-LoRaWAN-Adapter-XXX**
450 -
451 -
452 -(% style="color:blue" %)**XXX**(%%): The default frequency band
453 -
454 -* (% style="color:red" %)**AS923**(%%):  LoRaWAN AS923 band
455 -* (% style="color:red" %)**AU915**(%%):  LoRaWAN AU915 band
456 -* (% style="color:red" %)**EU433**(%%):  LoRaWAN EU433 band
457 -* (% style="color:red" %)**EU868**(%%):  LoRaWAN EU868 band
458 -* (% style="color:red" %)**KR920**(%%):  LoRaWAN KR920 band
459 -* (% style="color:red" %)**US915**(%%):  LoRaWAN US915 band
460 -* (% style="color:red" %)**IN865**(%%):  LoRaWAN IN865 band
461 -* (% style="color:red" %)**CN470**(%%): LoRaWAN CN470 band
462 -* (% style="color:red" %)**PP**(%%):  Peer to Peer LoRa Protocol
463 -
464 -
465 -= 5.  Reference =
466 -
467 -* Hardware Design File for LA66 LoRaWAN Shield, LA66 USB LoRaWAN Adapter : [[Download>>https://www.dropbox.com/sh/a3wbmdcvqjxaqw5/AADZfvAiykJTK624RgMquH86a?dl=0]]
468 -
253 +
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