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User Manual for Monitor Pro models including: WH3 2BHCF-WH3, 2BHCFWH3, WH3 2BHCF-WH3 Lora Gateway, WH3 2BHCF-WH3, Lora Gateway, Gateway
Monitor Pro Ltd WH3 2BHCF-WH3 2BHCFWH3 wh3
File Info : application/pdf, 25 Pages, 556.15KB
DocumentDocumentAug09th 2023 LoRa Gateway _4G User Manual V 2.2 LoRa Gateway (4G) --User Manual V2.2 -1- Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 1 Product overview The 4G LoRa Gateway is an ultra-long-range wireless data acquisition gateway dedicated to receiving the signals from our company's LoRa-based temperature and humidity sensors. The 4G LoRa Gateway supports TCP, UDP, HTTP, RS485 and MODBUS-RTU interfaces and other communication interfaces.. The LoRa Gateway uses a high-performance 32-bit industrial processor and an industrial-grade wireless module, which are featured by high reliability, stability and data security. It supports local sound and light alarms, SMS alarms, GPRS alarms and other alarm methods. Unlike conventional ASK,FSK and GFSK, this gateway uses LoRa, a proprietary spread spectrum modulation technology to greatly improved the receiving sensitivity. A link budget up to 157 db has greatly increased the wireless communication distance. Combined with our LoRa sensors, the distance in open air can reach up to 5 km. 2 Product features Support 4G RS-485 Support MODBUS-RTU Compatible with TCP/UDP/HTTP One outlet for connecting alarming device Multiple alarming methods An external USB interface specially for configuring the operating mode by user The LoRA Sensor parameters can be configured GPRS downward Anti-collision: Mutual interferences can be prevented by advanced anti-collision technology Security: Encryption algorithm and certification ensure data security and prevent link eavesdropping and cracking Metal shell resistance to high pressure and easy to install and use ] -2- Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 3 Technical Parameters RF frequency RF receiver sensitivity 917MHz -148dBm RF modulation mode LoRa LoRa Sensor identification angle Omni-directional Interface TCP/UDP/HTTP/RS485/MODBUS-RTU LED Three LED (RF, NET, power) Firmware update Communication protocol Flash memory Supply power Support Private protocol 32Mb DC12V Net weight 0.27kg Operating temperature Operating humidity Dimension Frequency band -20°C to +60°C 5% to 95% (non-condensing) 112mm*105mm*27mm LTE-TDD B34/B38/B39/B40/B41 LTE-FDD B1/B2/B3/B4/B5/B7/B8/B12/B13/ B18/B19/B20/B25/B26/ B28/B66 UMTS/HSPA+ B1/B2/B4/B5/B6/B8/B19 ] -3- Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 GSM/GPRS/EDGE 850/900/1800/1900MHz 4 Definition of interfaces 4.1 Appearance ] -4- Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 4.2 All interfaces Interface A. LED lights B. Extension interfaces C. USB D. Switch of power E. Charging interface F. SIM card slot G. RF antenna interface H. 4G antenna interface Functions RF, NET and Power successively Extension functions (see the description in below 4.3 part) Configure the device and save the log Turn on/off Connect the power adapter Insert the SIM card Connect the RF antenna Connect the 4G antenna 4.3 Extension interfaces 1- RS-485B Interface ] -5- Functions RS-485B Aug09th 2023 2- RS-485A 3- GND 4- OUT 5-GND 6-12V LoRa Gateway _4G User Manual V 2.2 RS-485A Ground Output Ground 12V output 5 Status of the LED indicator lights Blue light - RF Status of the RF light On without flashing Flash for 0.1 second Explanations OTA/Bulk read and write configuration Receive the LoRa Sensors' data Green light - NET Staus of the NET light On without flashing On for 0.1 second then off for 0.1 second On for 0.1 second then off for 0.2 second On for 0.1 second then off for 0.9 second On 0.1 for second then off for 2.9 seconds ] Explanations OTA /Read or write configuration/connected Unable to read IMEI/wait for the phone to be connected Receive SMS Connected to the GPRS network Connected to the 4G network -6- Aug09th 2023 On for 1 second then off for 2 seconds On for 0.5 second then off for 0.5 second LoRa Gateway _4G User Manual V 2.2 Unable to connect to the 4G network Unable to read the SIM card Red light - Power Status of the Power light Explanations On without flashing Flash every 2 seconds OTA/bulk read and write configuration/power adapter connected Power adapter not connected 6 4G Protocol Please read the document of LoRa Gateway 4G protocol. 7 HTTP Protocol Please read the document of LoRa Gateway HTTP protocol. 8 RS485 Data Protocol 8.1 Report automatically Please read the document of LoRa Gateway RS485 Protocol Supporting Automatic Report. ] -7- Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 8.2 Modbus Protocol LoRa Gateway supports the standard RS485 Modbus protocol. Please read the document of RS485 Modbus Protocol. 9 Command List The following are ASCII commands, which can be configured via SMS or by serial port or 4G. Note: $$$$$$ is the password and the default password is 000000. Attention: (1) The default configuration is to send a piece of GPRS data to the Tzone platform every 5 min; If the SIM card needs a specified APN to use, please set the 011 command. (2) Configure the RTC time of the LoRa gateway: The machine cannot calibrate the time by itself, so when the server receives the machine data, the following information can be sent to the machine to modify the machine's RTC time (The Tzone server already has this function): Format: @UTC,yyyy-MM-dd HH:mm:ss# Example: @UTC,2021-11-24 02:56:43# Set the APN (Access Point Name) Format: *$$$$$$,011,APN,Username,Password,PDP_type,auth_type# Notes: The username and password can be empty. For example: *000000,011,cmnet,,,0,1# Explanation: China Mobile's APN is "cmnet", and the username and password are empty,PDP_type is IP,auth_type is PAP; After you send the command via SMS, the mobile phone will receive the ] -8- Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 following message. Receive:'011'OK *000000,011,cmnet,,,0,1# If you send the command via serial port, the serial port will receive the following reply: CMD bytes: 18 *000000,011,cmnet,,,0,1# ComdType:011(SETAPN) APNnumber:cmnet Username: Password: APN Type:00 Auth Type:01 NO. SMS command 001 Modify user password 003 Set a preset SMS number 008 Extension setting ] Format *$$$$$$,001,@@@@@@# *$$$$$$,003,SMS Number# *$$$$$$,008,ABCDEFG# -9- Explanations $$$$$$ : old password @@@@@@ : new Password (default:000000) SMS Number: Must be less than 25 characters A=0, disable Sensor ACK Aug09th 2023 009 Change band ] *$$$$$$,009,S# - 10 - LoRa Gateway _4G User Manual V 2.2 downward function; A=1, enable Sensor ACK downward function (default); Note: When the Sensor ACK is disabled, the machine will no longer return the ACK information to the Sensor. B=0, C=0, D=0, default, D=1, close all SMS functions; E=0, F=0, G=0, disable Server ACK function, default; G=1, enable Server ACK function Note: If Server ACK function is enabled, every time the machine sends data to the server, the server must return @ACK,Packet index (Hex converted into decimal)# to the machine. Then the machine will send the next data to the server. Otherwise, the previous data will be sent repeatedly. S=0, work in 900/1800 Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 011 Set APN, Username, Password *$$$$$$,011,APN,Username, Password,PDP_type,auth_type# S=1, work in 850/1900 S=2, Automatic selection S=3, not set (default) Note: The default parameter is S=3, without the setting of the frequency band. If the GSM module supports three frequencies (900/1800/1900), then you could set the parameter to S=0; if the GSM module supports four frequencies (850/900/1800/1900), then you could set the parameter to S=1. APN: < 28 characters; Username: <28character ; Password: <28 character; * If there is no username or password, then leave it blank. PDP_type:0-IP,default, PDP_type:1-IPV6, PDP_type:2-IPV4V6, PDP_type:3-PPP; auth_type:0-NONE, auth_type:1-PAP,default, auth_type:2-CHAP, auth_type:3-PAP or CHAP ] - 11 - Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 014 Set DNS *$$$$$$,014, X,DNS1,DNS2# Disable the DNS 015 Set IP Address and port number *$$$$$$,015,X,IP,PORT# ] - 12 - Note: PDP_type and auth_type can be left empty. The default is PDP_type:0, auth_type:1, To leave them empty is suitable for most situations. For example: *000000,011,CMNET,,# X=0 Disable the DNS(default) X=1 Enable the DNS DNS is the domain name server , xxx.xxx.xxx.xxx X=0 Use IP to connect the server X=1 Use DN to connect the server IP : xxx.xxx.xxx.xxx DN: (Domain name) www.xxx.com If the HTTP protocol is selected, please write URL in here PORT : [1,65535] If the HTTP protocol is Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 016 Enable/Disable GPRS functions *$$$$$$,016,X# 018 Set the time intervals of GPRS data *$$$$$$,018,X# 019 Set the GPRS mode *$$$$$$,019,X# 020 Set the local alarm function *$$$$$$,020,X# 021 Set GPRS data include LBS information or not 030 Set the SMS alarm function *$$$$$$,021,X# *$$$$$$,030, ABCDEFG# selected, no need to set IP or Port. X=0 Disable GPRS unctions X=1 Enable GPRS Functions (default) X=0 stop send time interval GPRS =[10,6000] Time interval (Unit: Sec) (Default: 300) X=0, use UDP mode X=1, use TCP mode (default) X=0, disable X=1, enable (default) X=0, disable X=1, enable (default) A=1, enable SMS alarm for temperature and humidity; the alarm condition is in 142 (default); B=1; C=1; D=0; E=0; ] - 13 - Aug09th 2023 040 Set RS485 port 041 RS485 working mode 042 RS485 address 043 RS485 anti-Reread ] LoRa Gateway _4G User Manual V 2.2 *$$$$$$,040, A,B,C,D # *$$$$$$,041, X# *$$$$$$,042, AB# *$$$$$$,043, X# F=0; G=0; A: Baud rate selection [1200,115200], 9600 (default); B: Data bit, 0-8 bit (default), 1-9 bit C: Stop bit, 0-0.5 bit, 1-1 bit (default) 2-1.5 bit, 3-2bit D: Parity Check bit 0-Null (default), 1-Even parity, 2-Odd parity X:0-Report automatically; X:1-Modbus protocol (default), Should add the LoRa Sensor to each channel; AB:[0-F], cannot be 00, default:01 X:[0-3600],unit:s,default:0 - 14 - Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 It is only used in the RS485 automatic report mode. 044 Max online time of the sensor *$$$$$$,044, X# X:[0-86400],unit:s,default:3600 Beyond this time period, the LoRa Gateway will consider sensor is offline. It is only used for the Modbus protocol. 136 Enable RF function *$$$$$$,136,X# X:0, disable RF function X:1, enable RF function (default 142 Set the temperature and humidity *$$$$$$,142,X,Temp_H,Temp_L, X=0: disable this alarm functions for LoRa Sensor RH_H,RH_L# function (default) X=1, enable this function. The alarm threshold is the configured value of this command. If the LoRa Sensor's temperature is above Temp_H or below Temp_L and the humidity is above RH_H or below RH_L, the alarm will be given. The alarm will be withdrawn after recovery; X=2, enable this ] - 15 - Aug09th 2023 ] - 16 - LoRa Gateway _4G User Manual V 2.2 function. The alarm threshold is the configured value of each sensor. Its alarm situation is same with the sensor's. X=3, enable this function. If the Lora Sensor's temperature exceeds Temp_H, the alarm is given. If the temperature drops below Temp_L, the alarm is withdrawn; If the Lora Sensor's humidity exceeds RH_H, the alarm is given; if the humidity drops below RH_L, the alarm is withdrawn; X=4, enable this function. If Lora Sensor's temperature drops below Temp_L, the alarm is given; if it is restored above Temp_H, the alarm is Aug09th 2023 ] - 17 - LoRa Gateway _4G User Manual V 2.2 withdrawn. If the Sensor's humidity drops below RH_L, the alarm is given; if the humidity is recovered above RH_H, the alarm is withdrawn. Temp_H: High-temperature threshold, [-55~125] Unit: , Default: 100; Temp_L: Low-temperature threshold, [-55~125] Unit: , Default: 0 RH_H: High-humidity threshold, [0~100] Unit: %, Default:100 RH_L: Low-humidity Aug09th 2023 144 Add a LoRa sensor ] *$$$$$$,144,X,Y,ID# - 18 - LoRa Gateway _4G User Manual V 2.2 threshold, [0~100] Unit: %, Default: 0 X: LoRa sensor type X=0, TAG07/TAG07B/TAG08/TAG 08B/TAG08L/TAG09 (Humidity unit % TAG) X=2,TAG07B/TAG08B (Humidity unit 0.1% ) X=3,TAG09 (double temperature) X=4,TAG11 Y: Channel, [1,100]; ID: LoRa sensor ID, 8 characters; Note:The number of all sensor should not be more than 100. By default, all sensor in all ranges can be received. This function needs to be configured only when binding sensor and using RS485 Modbus mode, and the TAG07B default is %, TAG08B default humidity unit Aug09th 2023 144 Add a LoRa sensor ] LoRa Gateway _4G User Manual V 2.2 *$$$$$$,144,X,Y,ID,N# is 0.1%. X: LoRa sensor type X=0, TAG07/TAG07B/TAG08/TAG 08B/TAG08L/TAG09 (Humidity unit % TAG) X=2,TAG07B/TAG08B (Humidity unit 0.1% ) X=3,TAG09 (double temperature) X=4,TAG11 Y: Channel, [1,100]; ID: LoRa sensor ID, 8 characters; N:The number of sensor ID added, followed by 1 Note:The number of all sensor should not be more than 100. By default, all sensor in all ranges can be received. This function needs to be configured only when binding sensor and using RS485 Modbus mode, and the TAG07B default is %, TAG08B default humidity unit is 0.1%. - 19 - Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 145 Delete a LoRa Sensor *$$$$$$,145,X,Y# 146 Delete all LoRa Sensors *$$$$$$,146,1# 147 Query all added LoRa Sensors *$$$$$$,147,1# 148 Select the reboot time when RF *$$$$$$,148,X# does not receive the data 200 Set GPRS transmission format *$$$$$$,200,X# 201 Set Http proxy server *$$$$$$,201,X,IP,PORT# X: Sensor type X=0, TAG07/TAG07B/TAG08/TAG 08B (tag with humidity unit %) X=2,TAG07B/TAG08B (tag with humidity unit 0.1%. By default, the TAG08B humidity unit is 0.1%). X=3,TAG09 (double temperature) X=4,TAG11 Y: Channel, [1,100]; Note: The Sensor ID can only be queried through the serial port. X: [1,1440] Default: 20 Unit : min X:0-TCP/IP (default); X:1-Http X=0 Disable X=1 Enable IP:Proxy Server IP PORT:[1,65535] ] - 20 - Aug09th 2023 500 Clear flash data 600 Auto Reboot 800 Query command *$$$$$$,500# *$$$$$$,600,X,Y# *$$$$$$,800,X # LoRa Gateway _4G User Manual V 2.2 Proxy Server Port Clear the stored data in the flash memory of the machine X=0, disable his function X=1, enable this function. (Default) Y: Reboot time interval, [10,9999], unit: min, (Default: 1440) X: The command to be queried 801 Read the IMEI number *$$$$$$,801# 900 Issue the LoRa Sensor commands *$$$$$$,900,ID,cmd# 901 Delete the sensor's issued command list that has been recorded 990 Initialize the machine *$$$$$$,901# *$$$$$$,990,099# ] - 21 - Use this command to get the IMEI, firmware version and GSM module version of the LoRa Gateway ID: Sensor ID; cmd: Sensor command. Please see the LoRa Sensor's issuing command list. Note: To use the function , please enable the ACK function of LoRa Sensor This command will set all parameters to factory default Aug09th 2023 991 Reboot now *$$$$$$,991# LoRa Gateway _4G User Manual V 2.2 values (except for the password/frequency band). Reboot the LoRa Gateway 10 Data query TZONE cloud platform. Please register an account and add a device. After adding a device, you can query the data by device ID. For more details, please log in and view the help documentation. Tzone cloud platform website: http://cloud.tzonedigital.com/ Tzone Server Domain: t-gateway.tzonedigital.cn(default) Tzone Server Port: 54929 (default) URLhttp://g.cloud.tzonedigital.cn:18811/ReceiveHTTP ] - 22 - Aug09th 2023 LoRa Gateway _4G User Manual V 2.2 ] - 23 - FCC Warning 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 inte rference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 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 interferenceto 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: - Reorient or relocate the receiving antenna. - Reorient or relocate the receiving antenna. - Reorient or relocate the receiving antenna. - Consult the dealer or an experienced radio/TV technician for help important announcemen Radiation Exposure Statement 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 and your body. ISED Statement - English: This device complies with Industry Canada license - exempt RSS standard(s). Operation is subject to the following two conditions: (1) This device may not cause interference, and (2) This device must accept any interference, including interference that may cause undesired operation of the device. The digital apparatus complies with Canadian CAN ICES-3 (B)/NMB-3(B). - French: Le présentappareilestconforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitationestautorisée aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareildoit accepter tout brouillageradioélectriquesubi, mêmesi le brouillageest susceptible d'encompromettre le fonctionnement. l'appareil numérique du ciem conforme canadien peut - 3 (b) / nmb - 3 (b). For Receiver: This device meets the exemption from the routine evaluation limits in section 2.5 of RSS 102 and compliance with RSS 102 RF exposure, users can obtain Canadian information on RF exposure and compliance. cet appareil est conforme à l'exemption des limites d'évaluation courante dans la section 2.5 du cnr - 102 et conformité avec rss 102 de l'exposition aux rf, les utilisateurs peuvent obtenir des données canadiennes sur l'exposition aux champs rf et la conformité. This equipment complies with Canada radiation exposure limits set forth for an uncontrolled environment. The device is inst alled and operat ed w it hout rest rict ion. Cet équipement est conforme Canada limites d'exposition aux radiations dans un environnement non contrôlé. Di e In st al l at i o n u n d d e r Be t r i e b d e r Au sr ü st u n g si n d u n e i n ge sch r än k t . For Transmitter: This device meets the exemption from the routine evaluation limits in section 2.5 of RSS 102 and compliance with RSS 102 RF exposure, users can obtain Canadian information on RF exposure and compliance. cet appareil est conforme à l'exemption des limites d'évaluation courante dans la section 2.5 du cnr - 102 et conformité avec rss 102 de l'exposition aux rf, les utilisateurs peuvent obtenir des données canadiennes sur l'exposition aux champs rf et la conformité. This equipment complies with Canada radiation exposure limits set forth for an uncontrolled environment. The device is inst alled and operat ed w it hout rest rict ion. Cet équipement est conforme Canada limites d'exposition aux radiations dans un environnement non contrôlé. Di e In st al l at i o n u n d d e r Be t r i e b d e r Au sr ü st u n g si n d u n e i n ge sch r än k t .