eNet-ZBP113 User Manual
Contents
1. When configured as Router or End Devices PO 6 outputs high level after reset If the module has connected to a network PO 6 will output 1HZ square wave PO 7 outputs low level after reset It will output a high level when receive data The holding time is determined by the total receive time of a package data Serial port default settings Default baud rate 38400bps Recommended configuration 38400bps Baud rate range 1200 38400bps Parity None Data 8bit Stop 1bit Serial port data sending limitation Max package size 256 Byte User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 11 Wee BestU 2 3 Product Specification Table 2 2 Product Specification eNet ZBP113 NH ZigBee Wireless sensor network module Remark mA TXD 120mA Max mA RXD 40mA Max mA Standby 35 mA Max Frequency Range 2 405GHz 2 480GHz RF Channel Quantities 16 TX Rate 250Kbps Max RX sensitivity 97dBm TX Power 10 20 dBm Adjustable 20dBm default Output Impedance 50 ohm Wireless Protocol ZigBee 2007 Network Node 65535 Max Configured Node Coordinator Router Network Topology Mesh Network MESH Distance 1600 meters Visible open transmission distance User Manual Copyright 02014 Shenzhen BestU Intelligent Technology Co Ltd 12 v4 BestU eNet ZBP113 B ZigBee Wireless sensor network mo2. Short Add 0000 MAC Add 00 12 4B 00 03 C4 2D 1E Radio Channel Channel 11 e Setting TX Power 20dbm X CoM Baud Rate 38400 v Setting Figure 3 6 Restart module 7 Connect the module Click Get Para and check the parameters is right User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 18 v4 BestU eNet ZBP113 B ZigBee Wireless sensor network module 4 Configuration Command 4 1 Configuration Command Format Configuration Command is composed of Beginning Characters Length Control Field Data and Checksum Figure 4 1 Configuration Command Format 1 Beginning Characters Consists of 1byte OxFE by default 2 Length Consists of 1byte It s the number of byte of Control Field and Data 3 Control Field It consists of 1byte and indicates the current command type The configuration command list of eNet ZB module is shown as below Table 4 1 Configuration Command List NO Control Field HEX Description 1 0x01 Read PANID 2 0x41 Set PANID 3 0x02 Read device type 4 0x42 Set device type 5 0x03 Read Short Address 6 0x04 Read communication channel 7 0x44 Set communication channel 8 0x05 Read Serial port baud rate 9 0x45 Set Serial port baud rate 10 0x06 Read user ID 11 0x46 Set user ID 12 0x07 Read transmission mode 13 0x47 Set transmission mode 14 0x08 Read transmission power User Manua
3. ZigBee networks with different ID in the same room will not interfere with each other 2 What is network short address of ZigBee How does it work The network address is assigned by Coordinator when a device connects to network The short address of Coordinator is always Ox0000 The short address is the address of transmitter or receiver If the short address is not OxFFFE such as 0x0039 it means that the module has joined a network 3 What are Coordinator Router End Device ZigBee network node has three network forms Coordinator Router End Device Coordinator Network coordinator node Used to create a ZigBee network WPAN Formation and assign short address Router Network router node Used to passing on data from other devices find the most suitable routing path and assign short address when a node joins the network End Device Network router node Contains just enough functionality to talk to the parent node either the Coordinator or a Router it cannot relay data from other devices This relationship allows the node to be asleep a significant amount of the time thereby giving long battery life 4 Howto control eNet ZBP113 ZigBee module by microcontroller eNet ZBP113 ZigBee can connect to any microcontroller with serial port Microcontroller communicates with and configures the module by serial port The level of eNet ZBP113 is 3 3V It can be connected with 3 3V level MCU directly If using a 5V level MCU level shifter
4. 0x05 sess nnnn nennen stern nn nns n 24 4 2 10 Set serID 0x46 iine iet bi mt ro er rr Ede ER ERA 25 4 2 44 Read UserID COX06 iae EES 25 4 2 12 Set Transmission Mode 0x47 essere 25 4 2 13 Read Transmission Mode 0X07 ccsccesscesscesecsseceseceeeceseceseceaecneecesesnaeenaeenes 26 4 2 14 Set Transmission Power Iva 26 4 2 15 Read Transmission Power IO 27 4 2 16 Read Device MAC Address OO 27 4 2 17 System Reset ION4Al enne n r Ean Ar EPER E aT ERNA aran 27 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 2 WwW BestU eNet ZBP113 ZigBee Wireless sensor network module 5 Data Transmission Ee 28 5 1 Transparent Transmtsslon sees eene eene nnne nennen nnne eene nne nn esee nnn 28 5 1 1 Direct Transparent Transmission Mode 28 5 1 2 Transparent Transmission with Short Address 28 5 1 3 Transparent Transmission with MAC Address ssssssssesssssssssssssssressssresssress 29 5 1 4 Transparent Transmission with User ID 29 5 2 Point to Point Transmission eene ener nnne enean 30 5 2 1 Point to Point Transmission with Short address 31 5 2 2 Point to Point Transmission with User ID 31 NEM Module Network 32 6 1 ZigBee network Node 32 6 1 1 ele ET ER 6 1 2 allie uL 32 6 1 3 End Delega ss s eege 33 6 2 ZigBee MESH Character eei disece ed abed ch
5. BestU eNet ZBP113 ZigBee Wireless sensor network module 4 2 15 Read Transmission Power 0x08 This command is used to read current transmission power For the format of this command refer to Table 4 9 Transmission Power Example The current transmission power is 1dbm Send FE 01 08 07 Response FE 02 88 04 8C 4 2 16 Read Device MAC Address 0x09 This command is used to read MAC address The format of this command is as follow Table 4 10 MAC Address Name Length Byte Description MAC 8 Current MAC Address Example Current MAC address is 00 EF DF 16 AA 54 4A 32 Send FE 01 09 08 Response FE 09 89 32 4A 54 AA 16 DF EF 00 EE 4 2 17 System Reset 0x4A This command is used to reset system The Module will reset in 1s when it receive the reset command Example Send FE 01 4A 49 Right Response FE 02 CA 00 CA Error Response FE 02 CA 01 CB User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 27 v4 BestU eNet ZBP113 BH ZigBee Wireless sensor network module 5 Data Transmission Mode eNet ZBP113 has two transmission mode transparent transmission and point to point transmission In transparent transmission mode the data can transmit from Coordinator to Router or from Router to Coordinator but cannot from Router to Router In point to point transmission mode data can be transmitted between any two nodes response include the case of Router to Router
6. N Note The maximum length of Data package should be less than 256 Byte 5 1 Transparent Transmission Transparent transmission can be subdivided into four modes Direct transparent transmission mode Transparent transmission mode with short address Transparent transmission mode with MAC address Transparent transmission mode with user ID Note In transparent transmission mode data can be transmitted only between Coordinator and Router The data can be received by all the routers while it s sent from Coordinator to Router since it is broadcast 5 1 1 Direct Transparent Transmission Mode Direct Transparent Transmission mode is default data transmission mode for eNet ZBP113 When eNet ZBP113 is in this mode data package that does not match the format shown as Figure 4 1 Configuration Command Format will be transmitted by ZigBee network 5 1 2 Transparent Transmission with Short Address When the module is in this mode the short address 2 bytes of the module will be added on the end of original data before the package is transmitted The format is as follow User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 28 WwW BestU eNet ZBP113 ZigBee Wireless sensor network module Figure 5 1 Transparent transmission mode with short address It needs to be set as transparent transmission mode with short address before using the module in this mode Refer to section 4 2 12 Set Tra
7. NH ZigBee Wireless sensor network module 5 2 1 Point to Point Transmission with Short address Data can be exchanged between any two nodes in this mode The short address 2 bytes of the module will be added on the end of original data before the package is transmitted Example Tx module s short address is Ox0045 Rx modules short address is 0x0067 Original Data FD OA 00 67 12 34 56 78 90 AB CD EF Tx module send FD OA 00 67 12 34 56 78 90 AB CD EF 00 45 Only the module which short address is 0x0067 can receive this data package 5 2 2 Point to Point Transmission with User ID In this mode the Coordinator can communicate with any Router while Router only can communicate with Coordinator The User ID 2 bytes of the module will be added on the end of original data before the package is transmitted Example Tx modules user ID is 0xX0045 Rx modules user ID is 0x0067 Original Data FD OA 00 67 12 34 56 78 90 AB CD EF Tx module send FD OA 00 67 12 34 56 78 90 AB CD EF 00 45 Only Router which User ID is 0x0067 can receive this data User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 31 v4 BestU eNet ZBP113 N ZigBee Wireless sensor network module 6 Module Network 6 1 ZigBee network Node ZigBee devices are of three node types Coordinator Router and End Device 6 1 1 Coordinator The Coordinator forms the root of the network tree and might bridge to other networks It assigns short addr
8. Set the network parameters User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 16 V BestU eNet ZBP113 ZigBee Wireless sensor network module 4 Setthe Radio parameters Set the Channel or TX Power and click Setting to finish the setting E W ZigBee Config Tool V1 0 COM om v Baud Rate 38400 poles PANID Point Type Coordinator D Setting Short Add 0000 MAC Add 00 12 4B 00 03 C4 2D 1E Radio Channel Channel 11 v TX Power 20dbm e COM Baud Rate 38400 x Setting Figure 3 4 Set the Radio parameters 5 Set the COM parameters Set the Baud Rate and click the Setting to finish the Setting E W ZigBee Config Tool V1 0 COM om v Baud Rate 38400 rr PANID 1998 Point Type Coordinator Setting Short Add 0000 MAC Add 00 12 4B 00 03 C4 2D 1E Radio Channel Channel 11 v l Setting TX Power 20dbm X com Baud Rate 38400 X Figure 3 5 Set the UART parameters User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 17 dai Best eNet ZBP113 NH ZigBee Wireless sensor network module 6 Restart the module Click the Restart to make the module work with the parameters set by steps before after restart E W ZigBee Config Tool V1 0 COM con7 Baud Rate 38400 pss PANID ae ET H Point Type Coordinator D Setting
9. by the Read PAN ID command If the node Router or End Device has joined a network the PAN ID will be same with Coordinator s otherwise it will be OxFFFE 8 Whatis the MAC address MAC address is known as IEEE address a 64 bits unique address purchased from IEEE organization It can be a an ID for ZigBee module User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 41 v4 BestU eNet ZBP113 BH ZigBee Wireless sensor network module Appendix III Technical Support Customers who buy products from Best U or the Formal Agent authorized can enjoy the technical services as below Six months warranty Free technical support Repair Service Free software upgrading service Free software code Enjoy preferential policy when purchasing OEM ODM service Cannot enjoy free repair service under following cases we will have the service fee according to the matter of fact Cannot provide valid purchasing certificate Exceed free Six months warranty Software and Hardware issues occur in your own develop Issues by modifying software sources Fault and damage by unauthorized use of hardware error power on error operation Liquid inlet damp mildew erosion Fault and Damage by impact crush flop scratch but not product quality Irresistible natural factors Commitment to customers not by Best U should be fulfilled by people who promise Best U does not assume any
10. is as below User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 21 We Best eNet ZBP113 NH ZigBee Wireless sensor network module Table 4 3 Device Type Name Length Byte Description 0x00 Coordinator Device Type 1 0x01 Router Example The module needs to be set as Coordinator Send FE 02 42 00 42 Right Response FE 02 C2 00 C2 Error Response FE 02 C2 01 C3 4 2 4 Read Device Type 0x02 This command is used to read current device type For the format of this command refer to Table 4 3 Device Type Example The module is Router type Send FE010201 Response FE 02 82 01 83 4 2 5 Read Device Short Address 0x03 This command is used to read current short address The format of this command is as follow Table 4 4 Short Address Name Length Byte Description ADDR H 1 Current Network short address high byte ADDR L 1 Current Network short address low byte Example The device s network short address is Ox1ED6 Send FE 01 03 02 Response FE 03 83 1E D6 78 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 22 v4 BestU eNet ZBP113 NH ZigBee Wireless sensor network module 4 2 6 Set Communication Channel 0x44 This command is used to configure communication channel there are 16 channels which from 11 to 26 located in 2 4GHz band The format of this command is as follow Table 4 5 Communicatio
11. should be concerned 5 Why the PAN ID that read from module will add 1 automatically after you changed it It happens actually Coordinator can creates a network that contains one or more Routers User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 40 v BestU eNet ZBP113 NH ZigBee Wireless sensor network module Router can maintain part of network when the Coordinator is power off Since all device in ZigBee network share the same PAN ID the Coordinator will detect a network with same PAN ID that maintained by Router after it power on again In order to avoid conflict this Coordinator will add 1 to its PAN ID and create a new network How to Solve There are some choices a Modify the PAN ID of Router or End Device to the old PAN ID 1 or OxFFFF and make Router or End Device join the new network created by Coordinator b Turn off all nodes except the Coordinator Modify the PAN ID of the Coordinator and restart the Coordinator Power other nodes 6 Advantage and Disadvantage of PAN ID OxFFFF Advantage if modify the PAN ID of Router to OxFFFF this node will restart and join a network automatically LO determines which network to join without any user intervention Disadvantage if there is more than one network the node will join a network randomly 7 Why the PAN ID read from the module is OxFFFE after reset while you intent to set it as OxFFFF What you read from the module is the current PAN ID
12. 0x01 Transparent transmission with short address Transfer 1 0x02 Transparent transmission with MAC address mode 0x03 Transparent transmission with user ID Ox04 Point to point transmission with short address User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 25 YW BestU eNet ZBP113 NH ZigBee Wireless sensor network module Name Length Byte Description 0x05 Point to point transmission with User ID Example Set transmission mode as transparent transmission Send FE 02 47 00 47 Right Response FE 02 C7 00 C7 Error Response FE 02 C7 01 C8 4 2 13 Read Transmission Mode 0x07 This command is used to read current transmission mode For the format of this command refer to Table 4 8 Transmission Mode Example Current transmission mode is transmission transmission Send FE 01 07 06 Response FE 02 87 00 87 4 2 14 Set Transmission Power 0x48 This command is used to set wireless transmission power The format of this command is as follow Table 4 9 Transmission Power Name Length Byte Description 0x00 Transmission Power 3dbm Transfer 0x01 Transmission Power 2dbm mode 0x19 Transmission Power 22dbm Example Set Transmission power as 1dbm Send FE 02 48 04 4C Right Response FE 02 C8 00 C8 Error Response FE 02 C8 01 C9 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 26 v4
13. 113 can act as Coordinator and Router Since the Router also act as END device END device is not necessary here A ZigBee Network contain one Coordinator and one or more Router All the nodes in a same network share the same PANID For default type configuration of eNet ZBP113 refers to Appendix I Module Default Parameters 6 3 1 Coordinator Configuration Here is an example that shows how to configure a module as a Coordinator E W ZigBee Config Tool V1 0 COM Com Baud Rate 39400 pue di 5 Point Typ Coordinator 7 Setting Short Add 0000 MAC Add 00 12 4B 00 03 C4 2D 1E Radio TX Power 2 dbm Z com Setting Baud Rate 38400 e Zetting Figure 6 1 Coordinator Settings User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 34 V BestU eNet ZBP113 ZigBee Wireless sensor network module 6 3 2 Router settings Here is an example that shows how to configure a module as a Router fy ZigBee Config Tool V1 0 COM om Baud Rate 28400 NetWork n CE Point Er ESCH Short Add EEDF MAC Add 00 12 4B 00 03 C4 2D DD Radio Channel C Channel 11 v p Setting TX Power 2 dbm e COM Baud Rate 38400 E Figure 6 2 Router Settings User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 35 WwW BestU eNet ZBP113 ZigBee Wireless sensor network module 6 3 3 Join
14. a ikiaikainen iniaiaiai 33 6 3 eNet ZBP113 Network Test 34 6 3 1 Coordinator Configuration cecinere expe ika 34 6 3 2 Ro tet TE 35 6 3 3 Joining A Network 36 6 3 5 Network Communication Test 37 7 Contact TTT 38 Appendix Default Parameters cerea rere enn un eere nna a a uno ES eov EN naa Y ERES EE Ye Y NE a aa aaa RR 39 Pqecpnalllot v 40 Appendix III Technical Support eeeeeee esee eese esee eee nnne nnne nnn nnsnnnn nennen nnns sunu 42 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 3 v4 BestU eNet ZBP113 NH ZigBee Wireless sensor network module 1 Product Overview 1 1 Product Description eNet ZBP113 module is a ZigBee embedded wireless module which is based on TI CC2530F256 and designed by BestU The features of the chip such as low power excellent performance of a leading RF transceiver SoC for IEEE 802 15 4 with 8051MCU TI Z Stack protocol stack and etc make it a robust and complete ZigBee RFACE remote control solution ETETETT i eNET 28P11 t p Z Er con3 4 eNet ZBP113 module operates in the unlicensed 2 4GHz ISM Industrial Scientific and Medical band with data rate up to 250kb s Sixteen channels are allocated in the 2 4 GHz band with each channel requiring 5 MHz of bandwidth Self organizing network and easy to use are the main features of eNet ZBP113module It is not necessary for you to unde
15. al Port 1 0x02 Baud Rate 38400 Badu Rate 0x03 Baud Rate 57600 0x04 Baud Rate 115200 Example Set Serial Rate as 115200 Send FE 02 45 04 49 Right Response FE 02 C5 00 C5 Error Response FE 02 C5 01 C6 4 2 9 Read Serial Rate 0x05 This command is used to read current serial rate For the format of this command refer to Table 4 6 Serial Port Rate Example Current Serial Rate is 115200 Send FE 01 05 04 Response FE 02 85 04 89 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 24 Wee Best eNet ZBP113 NH ZigBee Wireless sensor network module 4 2 10 Set User ID 0x46 This command is used to configure User ID The format of this command is as follow Table 4 7 User ID Name Length Byte Description USERID H 1 Current User ID High Byte USERID L 1 Current User ID low Byte Example Set user ID as 0x0045 Send FE 03 46 00 45 8C Right Response FE 02 C6 00 C6 Error Response FE 02 C6 01 C7 4 2 11 Read User ID 0x06 This command is used to read User ID For the format of this command refer to Table 4 7 User ID Example Current User ID is Ox0045 Send FE 01 06 05 Response FE 03 86 00 45 CC 4 2 12 Set Transmission Mode 0x47 This command is used to configure transmission mode The format of this command is as follow Table 4 8 Transmission Mode Name Length Byte Description Dt Transparent transmission
16. dule 2 4 Electric Property 2 4 1 Absolute Ratings Table 2 3 Absolute Ratings Parameter Min Max Remark Supply Voltage 0 3V 3 6V Pin 0 3V VDD 0 6V Temp Range 40 C 85 C 2 4 2 Operating Ratings Table 2 4 Operating Ratings Parameter Min Max Remark Supply Voltage 2 7V 3 3V Temp Range 40 C 85 C Humidity Range 096 9096 No Condensation User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 13 v4 BestU eNet ZBP113 ZigBee Wireless sensor network module 2 5 Typical Application eNet ZB serials modules provide transparent data transmission through serial port The typical application as below PEE Control Center MCU or MPU TXD TXD VDD 3 3V VDD ken VED vc Figure 2 3 Typical Application Diagram ZigBee Module Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 14 User Manual Wa Best eNet ZBP113 NH ZigBee Wireless sensor network module 3 Configuration eNet ZBP113 provides convenient and efficient configuration methods Users can reconfigure parameters with configuration commands or with configuration software tool on PC The module will work with new parameters after reset 3 1 Configuration command Configuration commands are need if you want to change the configuration with using a MCU or MPU Please refer to Figure 2 3 Typical Application Diagram and 4 2 configura
17. e 6 1 3 End Device An End Device can join an existing ZigBee network It contains just enough functionality to talk to the parent node either the Coordinator or a Router It cannot relay data from other devices This relationship allows the node to be asleep a significant amount of the time thereby giving long battery life There may be more than one End Device in a ZigBee network They ask the parent node if there is any data or task need to deliver to it when it wakes up from sleep mode It s suitable for applications such as periodic communication with small amount of data 6 2 ZigBee MESH Character ZigBee MESH main character Consists of 1 x Coordinator and N x Router Each node can send and receive data and passing on data from other nodes as a router Any nodes can communicate even though other codes are out of power overall including coordinator the two nodes can communicate with each other Each node in the network Coordinator or Router can maintain the network As long as there is one node is running the new node can join the network by this node Thenew node obtains automatically the short address and keep it fixed Path calculation is automatically Data transmission does not rely on a certain node User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 33 v4 BestU eNet ZBP113 N ZigBee Wireless sensor network module 6 3 eNet ZBP113 Network Test eNet ZBP
18. e e XR ree ERR 4 1 2 Le crnciER APTUS 6 1 3 Development Kits certe etie edit etie erri E EE 7 1 3 1 eDuino UNO Wireless Kit 7 1 3 2 Simple Wireless Kite cs eit titer sre crat s Pr E REESE FER EEEE 8 2 Hardware TEE 9 2 1 MIB 9 2 2 Je m 10 2 3 Product Specification e dre eere ri eir er eer rr ees 12 2 4 Electric Property nc dc eh inre da a E E Re seess 13 2 4 1 Absolute Ratihgs cere n Er aiai 13 2 4 2 Operating Ratings eee eene nennen nennen seen rnnt nne seinen nnn 13 2 5 Typical AppliCatiOn E 14 3 CONNEUrION 15 3 1 Configuration Commande 15 3 2 Configuration software siiis aridan aranana aaaea aS a oia A ERa EATA ARa nnne senti eaii ia 15 4 Configuration Command ssssssssssssssssesssssssssssesssssssssssossssssssnssossssssssssssessssssssssssssssss 19 4 1 Configuration Command Format 19 4 2 Configuration Command Description 21 4 2 1 Set PANID Hierger eege 21 4 2 2 Read PANID 0x01 35 rm ita teta ee es Pie rare ea isi 21 4 2 3 Set Device Type 0x42 iieri oreet eere Yo e koe e ao Ra e Ros a 21 4 2 4 Read Device Type 0x02 sssssssesssssseeeeeee eene ener nnne nnn n 22 4 2 5 Read Device Short Address 0x03 esses 22 4 2 6 Set Communication Channel Ox44 sese 23 4 2 7 Read Communication Channel IOvpa 24 4 2 8 Set Serial Port Rate 0x45 nnne nnne nnne 24 4 2 9 Read Serial Rate
19. eNet ZB ZigBee Module User Manual ssl BestU eNet ZBP113 Module Networking Firmware Version Manual User Manual V1 0 August 16 2014 BestU wy www bestni com en v4 BestU eNet ZBP113 NH ZigBee Wireless sensor network module Copyright Statement Unless otherwise noted the eNet ZB Serials includes but not limit to eNet ZBP113 eNet ZBP111 eNet ZBP211 eNet ZBP213 eNet eNet ZB Serials ZigBee wireless module and its related Intellectual Property owned by Shenzhen BestU Intelligent Technology Co Ltd Without the permission of Shenzhen BestU Intelligent Technology Co Ltd No one can modify distribute or copy any part of this document Legal Disclaimer The source code software documents in company with eDuino UNO Shenzhen BestU Intelligent Technology Co Ltd does not provide any guarantee Not matter specific connotative including but not limited to specific purpose all the risk should be undertook by end user If coming out bug in the program end user undertakes the all the necessary fee of service modification amends Version Updated Version Updated Date Description 1 0 2014 08 16 Released User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 1 v BestU eNet ZBP113 NH ZigBee Wireless sensor network module Catalogue 1 PRODUCUOVErVIEW 4 1 1 Product DescriptlOTDu us reisen eres err nas Sane sirvan eere rra Rene
20. ess for child node when they join the network In this type of network ZigBee coordinator typically keeps continuously active and no low power state requiring a more robust power supply There is exactly one ZigBee Coordinator in each network since it is the device that started the network originally There should be different PANID for different network s Coordinator so if a network with the same PANID is detected in the same room the PANID of Coordinator which power on latter will automatically add 1 6 1 2 Router As well as running an application function a Router can act as an intermediate router passing on data from other devices It can also assign short address for child node In a ZigBee network ZigBee Router typically keeps continuously active and no low power state A network with one Coordinator and more than one Router can be called ZigBee MESH network The data sent by any node will automatically route to the target node The short address that Router obtain when it join a MESH network will be fixed and can be used as the address of point to data transmission Even Coordinator power down Router can still maintain the network and communicate with each other A new node can obtain short address from Router when they join the network Router is normally called FFD Full Function Device User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 32 v4 BestU eNet ZBP113 B ZigBee Wireless sensor network modul
21. ight 2014 Shenzhen BestU Intelligent Technology Co Ltd 29 We Best eNet ZBP113 NH ZigBee Wireless sensor network module with the command that listed in Table 4 1 Configuration Command List Example User ID is Ox0045 Original Data 12 34 56 78 90 AB CD EF Transferred Data 12 34 56 78 90 AB CD EF 00 45 5 2 Point to Point Transmission Point to point transmission is composed of beginning character Length Short Address User ID Data Figure 5 4 Point to point transmission format Table 5 1 Point to point transmission format Name Length Byte Description Beginning 1 Fixed as OxFD Character Length 1 Including length of Short Address User ID Data Byte short address or user ID high byte Address 2 Byte2 short address or user ID low byte Data 1 32 1 32bytes user data Point to point transmission can be subdivided into two modes Point to point transmission by short address Point to point transmission by user ID N Note When the module is in point to point transmission mode the data which does not match the format that shown as Figure 5 4 Point to point transmission format or is same with the command that listed in Table 4 1 Configuration Command List will be transmitted in transparent transmission mode Refer to section 5 1 Transparent Transmission Mode User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 30 v4 BestU eNet ZBP113
22. il support bestni com Sale Support Tel 86 755 22360817 Email sales bestni com 13088872937 About BestU Hi we are BestU we believe that you will be more happy and better with our products and services Our technology focused on loT and open hardware We own the Brain the microcontroller module for Industry Area like a brain to manipulate the various branches We own the Brick providing base IOT modules like WIFI ZigBee NFC BLE etc to bring down your development threshold to quickly build your product prototype We own the Low Kit providing the lowest hardware for you to evaluate and build your product Better because of your good we hope the products and services we have can make you be more excellent More info please visit www bestni com User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 38 v4 BestU eNet ZBP113 BH ZigBee Wireless sensor network module Appendix I Default Parameters Parameter Name Default Value PANID 0x199B Communication Channel 11 Module Type Coordinator Transmission Power 20 dBm Serial Rate 38400 bps Transmission Mode Transparent Transmission User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 39 v BestU eNet ZBP113 BH ZigBee Wireless sensor network module Appendix II FAQ 1 What is PAN ID PAN ID is an ID for ZigBee network Different ZigBee network has different PAN ID The
23. ing A Network Power the Coordinator before the Router PO_6 of both modules will output a 1Hz pulse to indicate network establishing complete Check the Short Add of the Router by click on Get para button If the Short Add isn t OXFFFE the Router has joined the network n W ZigBee Config Tool V1 0 camy com comi Baud Rate 38400 KEE PAND e Point Type Router D Setting Short Add EEDF MAC Add O00 12 4B 00 03 C4 2D DD Radio Channel Channel 11 v Setting TX Power 20dbm Ge COM Baud Rate 38400 v Setting Figure 6 3 Router have joined the network User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 36 LI BestU eNet ZBP113 ZigBee Wireless sensor network module 6 3 5 Network Communication Test When the network is available data can exchange between the Coordinator and Router Open HyperTerminal on PC Send strings Hello Router from Coordinator and the Router receives the strings Both the Coordinator and Router can send or receive data a Hyper Terminal ud Hyper Terminal File Edit View Help File Edit View Help TO tOO Hello Router Hello coordinator Figure 6 4 Network Communication Test User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 37 v4 BestU eNet ZBP113 B ZigBee Wireless sensor network module 7 Contact US Technical Support Tel 86 755 22360817 13088872937 Ema
24. l Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 19 v BestU eNet ZBP113 NEN 3 ZigBee Wireless sensor network module NO Control Field HEX Description 15 0x48 Set transmission power 16 0x09 Read device MAC address 17 Ox4A Reset system 4 Data There are many kinds of command For more details refer to 4 2 Configuration Command description 5 Checksum it s octal arithmetic sum of Beginning Character Length Control Field and User ID User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 20 v4 BestU eNet ZBP113 NH ZigBee Wireless sensor network module 4 2 Configuration Command Description 4 2 1 Set PANID 0x41 This command is used to set PANID The format of this command is as below Table 4 2 PANID Command format Name Length Byte Description PANID H 1 High Byte of current PANID PANID L 1 Low Byte of current PANID Example The PANID need to be set as Ox199B Send FE 03 41 19 9B F6 Right Response FE 02 C1 00 C1 Error Response FE 02 C1 01 C2 4 2 2 Read PANID 0x01 This command is used to set PANID For the format of this command refer to Table 4 2 PANID Command format Example The current PANID is 0x199B Send FE 01 01 00 Response FE 03 81 19 9B 36 4 2 3 Set Device Type 0x42 This command is used to configure device type Coordinator or Router The format of this command
25. n Channel Name Length Byte Description 0x00000800 Channel 11 2405MHz 0x00001000 Channel 12 2410MHz 0x00002000 Channel 13 2415MHz 0x00004000 Channel 14 2420MHz 0x00008000 Channel 15 2425MHz 0x00010000 Channel 16 2430MHz 0x00020000 Channel 17 2435MHz 0x00040000 Channel 18 2440MHz Channel 4 0x00080000 Channel 19 2445MHz 0x00100000 Channel 20 2450MHz 0x00200000 Channel 21 2455MHz 0x00400000 Channel 22 2460MHz 0x00800000 Channel 23 2465MHz 0x01000000 Channel 24 2470MHz 0x02000000 Channel 25 2475MHz 0x04000000 Channel 26 2480MHz Example Set the communication channel as20 Send FE 05 44 00 00 10 00 57 Right Response FE 02 C4 00 C4 Error Response FE 02 C4 01 C5 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 23 v4 BestU eNet ZBP113 B ZigBee Wireless sensor network module 4 2 7 Read Communication Channel 0x04 This command is used to read current communication channel For the format of return data refer to Table 4 5 Communication Channel Example The current communication channel is 21 Send FE 01 04 03 Response FE 05 84 00 00 20 00 A7 4 2 8 Set Serial Port Rate 0x45 This command is used to set UART rate The format of this command is as follow Table 4 6 Serial Port Rate Name Length Byte Description 0x00 Baud Rate 9600 0x01 Baud Rate 19200 Seri
26. nsmission Mode 0x47 and the data should not be same with the command that listed in Table 4 1 Configuration Command List Example Short Address0x199B Original Data 12 34 56 78 90 AB CD EF Transferred Data 12 34 56 78 90 AB CD EF 19 9B 5 1 3 Transparent Transmission with MAC Address When the module is in this mode the MAC address 8 bytes of the module will be added on the end of original data before the package be transmitted The format is as follow Figure 5 2 Transparent Transmission Data with MAC It needs to be set as transparent transmission mode with MAC address before using the module in this mode Refer to section 4 2 12 Set Transmission Mode 0x47 and the data should not be same with the command that listed in Table 4 1 Configuration Command List Example Current MAC address is 00 EF DF 16 AA 54 4A 32 Original Data 12 34 56 78 90 AB CD EF Transferred data 12 34 56 78 90 AB CD EF 00 EF DF 16 AA 54 4A 32 5 1 4 Transparent Transmission with User ID When the module is in this mode the User ID 2 bytes of the module will be added on the end of original data before the package be transmitted The format is as follow 1732 Byte Data Figure 5 3 Transparent Transmission Data Format with User ID It needs to be set as transparent transmission mode with User ID before using the module in this mode Refer to section 4 2 12 Set Transmission Mode 0x47 and the data should not be same User Manual Copyr
27. o Ltd 9 WwW BestU eNet ZBP113 ZigBee Wireless sensor network module 2 2 Pin Out noo oo oo EE SEES E E SR ET Ul o Figure 2 2 Pin out diagram Table 2 1 Pin out description Pin NO Pin Name Direction Function Remark 1 VDD 3 3V Power 2 GND GND 3 TX O TXD TTL 3 3V 4 RX l RXD TTL 3 3V 5 RTS NC Reserve 6 CTS NC Reserve 7 PO 7 O Communication State 1HZ square wave output 8 PO_6 O Network Connection 1HZ square wave output in State specific case 9 RST l RST Reserve 10 PO_O NC Reserve 11 NC mE 12 GND 13 NC 14 NC 15 P2_0 NC Reserve User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 10 v BestU eNet ZBP113 NEN ZigBee Wireless sensor network module 16 P1 7 m NC Reserve 17 P1 6 NE NC Reserve 18 P15 NC Reserve 19 P1 3 NC Reserve 20 P12 NC Reserve N Note The reserved pins mentioned above do not need to pay attention in actual case Only need to connect RX TX VDD and GND PO 6 amp PO0 7 Output Specification When configured as Coordinator PO_6 outputs high level after reset If ZigBee protocol working regularly PO_6 outputs 1HZ square wave PO 7 outputs low level after reset It will output a high level when receive data The hold time is determined by the total receive time of a package data
28. responsibilities User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 42
29. rstand complex ZigBee protocol All the processing part of ZigBee protocol can be done internally by eNet ZBP113 module What you only need to do is to sending and receiving data via serial port which can shorten lead time of product tremendously Meanwhile eNet ZBP113 module has the advantage of low power and low cost As a consequence eNet ZBP113 module is the best choice for remote monitoring application such as smart home smart grid industrial automation and security monitoring and etc BestU provides two kinds of ZigBee application protocols within the eNet ZBP113 module one for networking communication protocol another for point to point communication protocol The eNet ZB series modules are named according to their hardware and software features in the User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 4 d BestU eNet ZBP113 ZigBee Wireless sensor network module following form REECH CR ER Product Type P for product C for maker Firmware Type 1 Networking 2 7 Point to Point Antenna Type 0 PCB Antenna 1 SMA Antenna 2 Chip Antenna Hardware Version 1 Pin header 2 Postage stamp hole 3 Pin header with Power Amplifier 4 Postage stamp hole with Power Amplifier User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 5 v4 BestU eNet ZBP113 NH ZigBee Wireless sensor network module 1 2 Package List Table 1 1 Package lis
30. t Product Name eNet ZBP113 Standard Configuration 1 eNet ZBP113 1 2 2 4G Antenna 1 Optional Accessories 1 eDuino UNO 2 eNet Test A base board User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 6 WwW BestU eNet ZBP113 ZigBee Wireless sensor network module 1 3 Development Kits There are two available development kits for eNet ZBP113 eDuino UNO wireless kit and Simple Wireless kit 1 3 1 eDuino UNO Wireless Kit eNet ZBP113 eDuino UNO eDuino UNO kit What s included in the eDuino UNO kit Table 1 2 Package List of eDuino UNO Kit Part Description Quantity PCS eNet ZBP113 1 2 4GHz Antenna 2 5dBi 1 eDuino UNO 1 Jumper 2 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 7 V BestU eNet ZBP113 ZigBee Wireless sensor network module 1 3 2 Simple Wireless Kit eNet Test A eNet ZBP113 Simple Wireless kit What s included in the Simple Wireless kit Table 1 3 Package List of Simple Wireless Kit Part Description Quantity PCS eNet ZBP113 1 2 4GHz Antenna 2 5dBi 1 eNet Test A 1 User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 8 V BestU eNet ZBP113 ZigBee Wireless sensor network module 2 Hardware Feature 2 1 Dimensions UNIT mm Figure 2 1 Dimensions User Manual Copyright 2014 Shenzhen BestU Intelligent Technology C
31. tion command description 3 2 Configuration software 1 Toconnect the module with Serial Port Click Connect button E W ZigBee Config Tool V1 0 lcl pen COM Com Baud Rate 38400 Connect pin PANID Point Type D Setting Short Add MAC Add Radio Channel e Setting TX Power COM Baud Rate X Setting Figure 3 1 Connect the Module User Manual Copyright 2014 Shenzhen BestU Intelligent Technology Co Ltd 15 dai BestU eNet ZBP113 NH ZigBee Wireless sensor network module 2 Getthe parameters from the Module Click the Get Para to get the current parameters of the module r W ZigBee Config Tool V1 0 COM om Baud Rate 38400 C set Pore DD PANID 199B Point Type Coordinator D Setting Short Add 0000 MAC Add 00 12 4B 00 03 C4 2D 1E Radio Channel Channel 11 v Setting TX Power 20dbm X COM Baud Rate 38400 x Setting Figure 3 2 Get the parameters 3 Set the Network parameters Set the PANID or change the Point type Click Setting button to finish the setting P W ZigBee Config Tool V1 0 com om Baud Rate 38400 pru pu PANID Point Type Coordinator D Short Add 0000 MAC Add 00 12 4B 00 03 C4 2D 1E Radio Channel Channel 11 v Setting TX Power 20dbm X COM Baud Rate 38400 x Setting Figure 3 3
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