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Title
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1 -LLDS12-LoRaWAN LiDAR ToF Distance Sensor User Manual
1 +LDDS75 - LoRaWAN Distance Detection Sensor User Manual
Content
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1 1  (% style="text-align:center" %)
2 -[[image:image-20220610095606-1.png]]
2 +[[image:1654846127817-788.png]]
3 3  
4 -
5 5  **Contents:**
6 6  
7 -{{toc/}}
8 8  
9 9  
10 10  
... ... @@ -14,38 +14,33 @@
14 14  
15 15  = 1.  Introduction =
16 16  
17 -== 1.1 ​ What is LoRaWAN LiDAR ToF Distance Sensor ==
15 +== 1.1 ​ What is LoRaWAN Distance Detection Sensor ==
18 18  
19 19  (((
20 20  
21 21  
22 22  (((
23 -The Dragino LLDS12 is a (% style="color:blue" %)**LoRaWAN LiDAR ToF (Time of Flight) Distance Sensor**(%%) for Internet of Things solution. It is capable to measure the distance to an object as close as 10 centimeters (+/- 5cm up to 6m) and as far as 12 meters (+/-1% starting at 6m)!. The LiDAR probe uses laser induction technology for distance measurement.
24 -)))
21 +The Dragino LDDS75 is a (% style="color:#4472c4" %)** LoRaWAN Distance Detection Sensor**(%%) for Internet of Things solution. It is used to measure the distance between the sensor and a flat object. The distance detection sensor is a module that uses (% style="color:#4472c4" %)** ultrasonic sensing** (%%)technology for distance measurement, and (% style="color:#4472c4" %)** temperature compensation**(%%) is performed internally to improve the reliability of data. The LDDS75 can be applied to scenarios such as horizontal distance measurement, liquid level measurement, parking management system, object proximity and presence detection, intelligent trash can management system, robot obstacle avoidance, automatic control, sewer, bottom water level monitoring, etc.
25 25  
26 -(((
27 -The LLDS12 can be applied to scenarios such as horizontal distance measurement, parking management system, object proximity and presence detection, intelligent trash can management system, robot obstacle avoidance, automatic control, sewer, etc.
28 -)))
29 29  
30 -(((
31 -It detects the distance between the measured object and the sensor, and uploads the value via wireless to LoRaWAN IoT Server.
32 -)))
24 +It detects the distance** (% style="color:#4472c4" %) between the measured object and the sensor(%%)**, and uploads the value via wireless to LoRaWAN IoT Server.
33 33  
34 -(((
35 -The LoRa wireless technology used in LLDS12 allows device to send data and reach extremely long ranges at low data-rates. It provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption.
36 -)))
37 37  
38 -(((
39 -LLDS12 is powered by (% style="color:blue" %)**8500mAh Li-SOCI2 battery**(%%), it is designed for long term use up to 5 years.
40 -)))
27 +The LoRa wireless technology used in LDDS75 allows device to send data and reach extremely long ranges at low data-rates. It provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption.
41 41  
42 -(((
43 -Each LLDS12 is pre-load with a set of unique keys for LoRaWAN registrations, register these keys to local LoRaWAN server and it will auto connect after power on.
29 +
30 +LDDS75 is powered by (% style="color:#4472c4" %)** 4000mA or 8500mAh Li-SOCI2 battery**(%%); It is designed for long term use up to 10 years*.
31 +
32 +
33 +Each LDDS75 pre-loads with a set of unique keys for LoRaWAN registrations, register these keys to local LoRaWAN server and it will auto connect if there is network coverage, after power on.
34 +
35 +
36 +(% style="color:#4472c4" %) * (%%)Actually lifetime depends on network coverage and uplink interval and other factors
44 44  )))
45 45  )))
46 46  
47 47  
48 -[[image:1654826306458-414.png]]
41 +[[image:1654847051249-359.png]]
49 49  
50 50  
51 51  
... ... @@ -52,47 +52,45 @@
52 52  == ​1.2  Features ==
53 53  
54 54  * LoRaWAN 1.0.3 Class A
55 -* Ultra-low power consumption
56 -* Laser technology for distance detection
57 -* Operating Range - 0.1m~~12m
58 -* Accuracy - ±5cm@(0.1-6m), ±1%@(6m-12m)
59 -* Monitor Battery Level
48 +* Ultra low power consumption
49 +* Distance Detection by Ultrasonic technology
50 +* Flat object range 280mm - 7500mm
51 +* Accuracy: ±(1cm+S*0.3%) (S: Distance)
52 +* Cable Length : 25cm
60 60  * Bands: CN470/EU433/KR920/US915/EU868/AS923/AU915/IN865
61 61  * AT Commands to change parameters
62 62  * Uplink on periodically
63 63  * Downlink to change configure
64 -* 8500mAh Battery for long term use
57 +* IP66 Waterproof Enclosure
58 +* 4000mAh or 8500mAh Battery for long term use
65 65  
60 +== 1.3  Specification ==
66 66  
62 +=== 1.3.1  Rated environmental conditions ===
67 67  
64 +[[image:image-20220610154839-1.png]]
68 68  
69 -== 1. Probe Specification ==
66 +**Remarks: (1) a. When the ambient temperature is 0-39 ℃, the maximum humidity is 90% (non-condensing);**
70 70  
71 -* Storage temperature :-20℃~~75℃
72 -* Operating temperature - -20℃~~60℃
73 -* Operating Range - 0.1m~~12m①
74 -* Accuracy - ±5cm@(0.1-6m), ±1%@(6m-12m)
75 -* Distance resolution - 5mm
76 -* Ambient light immunity - 70klux
77 -* Enclosure rating - IP65
78 -* Light source - LED
79 -* Central wavelength - 850nm
80 -* FOV - 3.6°
81 -* Material of enclosure - ABS+PC
82 -* Wire length - 25cm
68 +**b. When the ambient temperature is 40-50 ℃, the highest humidity is the highest humidity in the natural world at the current temperature (no condensation)**
83 83  
84 84  
85 85  
72 +=== 1.3.2  Effective measurement range Reference beam pattern ===
86 86  
87 -== 1.4  Probe Dimension ==
74 +**(1) The tested object is a white cylindrical tube made of PVC, with a height of 100cm and a diameter of 7.5cm.**[[image:image-20220610155021-2.png||height="440" width="1189"]]
88 88  
89 89  
90 -[[image:1654827224480-952.png]]
91 91  
78 +**(2)** The object to be tested is a "corrugated cardboard box" perpendicular to the central axis of 0 °, and the length * width is 60cm * 50cm.[[image:image-20220610155021-3.png||height="437" width="1192"]]
92 92  
80 +(% style="display:none" %) (%%)
81 +
82 +
93 93  == 1.5 ​ Applications ==
94 94  
95 95  * Horizontal distance measurement
86 +* Liquid level measurement
96 96  * Parking management system
97 97  * Object proximity and presence detection
98 98  * Intelligent trash can management system
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99 99  * Robot obstacle avoidance
100 100  * Automatic control
101 101  * Sewer
93 +* Bottom water level monitoring
102 102  
103 103  
104 -
105 -
106 106  == 1.6  Pin mapping and power on ==
107 107  
108 108  
109 -[[image:1654827332142-133.png]]
99 +[[image:1654847583902-256.png]]
110 110  
111 111  
112 -= 2.  Configure LLDS12 to connect to LoRaWAN network =
102 += 2.  Configure LDDS75 to connect to LoRaWAN network =
113 113  
114 114  == 2.1  How it works ==
115 115  
116 116  (((
117 -The LLDS12 is configured as LoRaWAN OTAA Class A mode by default. It has OTAA keys to join LoRaWAN network. To connect a local LoRaWAN network, you need to input the OTAA keys in the LoRaWAN IoT server and power on the LLDS12. It will automatically join the network via OTAA and start to send the sensor value. The default uplink interval is 20 minutes.
107 +The LDDS75 is configured as LoRaWAN OTAA Class A mode by default. It has OTAA keys to join LoRaWAN network. To connect a LoRaWAN network, you need to input the OTAA keys in the LoRaWAN IoT server and power on the LDDS75. If there is coverage of the LoRaWAN network, it will automatically join the network via OTAA and start to send the sensor value
118 118  )))
119 119  
120 120  (((
121 -In case you cant set the OTAA keys in the LoRaWAN OTAA server, and you have to use the keys from the server, you can [[use AT Commands >>||anchor="H6.A0UseATCommand"]]to set the keys in the LLDS12.
111 +In case you can't set the OTAA keys in the LoRaWAN OTAA server, and you have to use the keys from the server, you can [[use AT Commands >>||anchor="H3.A0ConfigureLDDS75viaATCommandorLoRaWANDownlink"]]to set the keys in the LDDS75.
122 122  )))
123 123  
124 124  
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129 129  )))
130 130  
131 131  (((
132 -[[image:1654827857527-556.png]]
122 +[[image:1654848616367-242.png]]
133 133  )))
134 134  
135 135  (((
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137 137  )))
138 138  
139 139  (((
140 -(% style="color:blue" %)**Step 1**(%%): Create a device in TTN with the OTAA keys from LSPH01.
130 +(% style="color:blue" %)**Step 1**(%%): Create a device in TTN with the OTAA keys from LDDS75.
141 141  )))
142 142  
143 143  (((
144 -Each LSPH01 is shipped with a sticker with the default device EUI as below:
134 +Each LDDS75 is shipped with a sticker with the default device keys, user can find this sticker in the box. it looks like below.
145 145  )))
146 146  
147 147  [[image:image-20220607170145-1.jpeg]]
148 148  
149 149  
140 +For OTAA registration, we need to set **APP EUI/ APP KEY/ DEV EUI**. Some server might no need to set APP EUI.
150 150  
151 -You can enter this key in the LoRaWAN Server portal. Below is TTN screen shot:
142 +Enter these keys in the LoRaWAN Server portal. Below is TTN V3 screen shot:
152 152  
153 153  
154 154  **Register the device**
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309 309  |(% style="width:160px" %)0x01|(% style="width:163px" %)Normal Uplink|(% style="width:173px" %)[[Normal Uplink Payload>>||anchor="H2.3A0200BUplinkPayload"]]
310 310  |(% style="width:160px" %)0x02|(% style="width:163px" %)Reply configures info|(% style="width:173px" %)[[Configure Info Payload>>||anchor="H4.3A0GetFirmwareVersionInfo"]]
311 311  
312 -
313 -
314 -
315 315  === 2.3.8  Decode payload in The Things Network ===
316 316  
317 317  While using TTN network, you can add the payload format to decode the payload.
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480 480  * Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band
481 481  * Use the Join successful sub-band if the server doesn’t include sub-band info in the OTAA Join Accept message ( TTN v2 doesn't include)
482 482  
483 -
484 -
485 -
486 486  === 2.6.3  CN470-510 (CN470) ===
487 487  
488 488  (((
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593 593  * Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band
594 594  * Use the Join successful sub-band if the server doesn’t include sub-band info in the OTAA Join Accept message ( TTN v2 doesn't include)
595 595  
596 -
597 -
598 -
599 599  === 2.6.5  AS920-923 & AS923-925 (AS923) ===
600 600  
601 601  (((
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822 822  * The sensor is detected when the device is turned on, and it will flash 4 times quickly when it is detected.
823 823  * Blink once when device transmit a packet.
824 824  
825 -
826 -
827 -
828 828  == 2.8  ​Firmware Change Log ==
829 829  
830 830  
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895 895  * The LiDAR probe is cover by dirty things; the reading might be wrong. In this case, need to clean the probe.
896 896  * The sensor window is made by Acrylic. Don’t touch it with alcohol material. This will destroy the sensor window.
897 897  
898 -
899 -
900 -
901 901  = 4.  Configure LLDS12 via AT Command or LoRaWAN Downlink =
902 902  
903 903  (((
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1002 1002  )))
1003 1003  * (((
1004 1004  Example 2: Downlink Payload: 0100003C ~/~/ Set Transmit Interval (TDC) = 60 seconds
1005 -
1006 -
1007 -
1008 1008  )))
1009 1009  
1010 -
1011 -
1012 -
1013 1013  == 4.2  Set Interrupt Mode ==
1014 1014  
1015 1015  Feature, Set Interrupt mode for GPIO_EXIT.
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1038 1038  Example 2: Downlink Payload: 06000003 ~/~/ Set the interrupt mode to rising edge trigger
1039 1039  )))
1040 1040  
1041 -
1042 -
1043 -
1044 1044  == 4.3  Get Firmware Version Info ==
1045 1045  
1046 1046  Feature: use downlink to get firmware version.
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1312 1312  * (% style="color:red" %)**IN865**(%%):  LoRaWAN IN865 band
1313 1313  * (% style="color:red" %)**CN470**(%%): LoRaWAN CN470 band
1314 1314  
1315 -
1316 -
1317 -
1318 1318  = 10. ​ Packing Info =
1319 1319  
1320 1320  
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1329 1329  * Package Size / pcs : cm
1330 1330  * Weight / pcs : g
1331 1331  
1332 -
1333 -
1334 -
1335 1335  = 11.  ​Support =
1336 1336  
1337 1337  * Support is provided Monday to Friday, from 09:00 to 18:00 GMT+8. Due to different timezones we cannot offer live support. However, your questions will be answered as soon as possible in the before-mentioned schedule.
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