all | frequencies |
|
|
|
|
exhibits | applications |
---|---|---|---|---|---|---|---|
manual | photos | label |
app s | submitted / available | |||||||
---|---|---|---|---|---|---|---|---|
1 |
|
User manual | Users Manual | 1007.52 KiB | July 26 2023 | |||
1 |
|
Internal photos | Internal Photos | 102.46 KiB | July 26 2023 | |||
1 |
|
External photos | External Photos | 382.39 KiB | July 26 2023 | |||
1 |
|
Label | ID Label/Location Info | 136.17 KiB | July 26 2023 | |||
1 |
|
Agent letter | Cover Letter(s) | 576.75 KiB | July 26 2023 | |||
1 |
|
Antenna specification | Test Report | 353.18 KiB | July 26 2023 | |||
1 | Block Diagram | Block Diagram | July 26 2023 | confidential | ||||
1 |
|
Confidentiality request letter | Cover Letter(s) | 445.02 KiB | July 26 2023 | |||
1 |
|
Covered equipment attestation | Attestation Statements | 442.65 KiB | July 26 2023 | |||
1 |
|
Modular approval letter | Cover Letter(s) | 739.13 KiB | July 26 2023 | |||
1 | Operational Description | Operational Description | July 26 2023 | confidential | ||||
1 |
|
RF Exposure | RF Exposure Info | 70.99 KiB | July 26 2023 | |||
1 | Schematics | Schematics | July 26 2023 | confidential | ||||
1 |
|
Test report part 1 | Test Report | 2.05 MiB | July 26 2023 | |||
1 |
|
Test report part 2 | Test Report | 937.63 KiB | July 26 2023 | |||
1 |
|
Test setup | Test Setup Photos | 238.64 KiB | July 26 2023 | |||
1 |
|
US agent attestation | Attestation Statements | 94.65 KiB | July 26 2023 |
1 | User manual | Users Manual | 1007.52 KiB | July 26 2023 |
E18-MS1PA2-IPX User Manual ZigBee Wireless Module 0 E18-MS1PA2-IPX User Manual _ Contents 1 . General introduction ................................................................................................................................................................ 1 1.1 Brief introduction ............................................................................................................................................................ 1 1 .2 Characteristic function .................................................................................................................................................. 1 1 .3 ZigBee introduction ...................................................................................................................................................... 2 1.4 Application ...................................................................................................................................................................... 3 2 . Technical parameters ............................................................................................................................................................... 3 2 . 1 Limit parameter ............................................................................................................................................................ 3 2.2 Working parameters ....................................................................................................................................................... 3 3 . Mechanical characteristics ....................................................................................................................................................... 5 4 . Operation mode ....................................................................................................................................................................... 6 5. Protocol mode .......................................................................................................................................................................... 6 6 . Function description ................................................................................................................................................................. 7 6.1 Pin diagram .................................................................................................................................................................... 7 6 . 2 Pin connection instructions ........................................................................................................................................... 8 7.Quick start...................................................................................................................................................................................9 7 . 1 Network construction and communication .................................................................................................................. 9 8 . User instruction set ................................................................................................................................................................ 15 8.1 HEX read command description ................................................................................................................................. 16 8 . 2 HEX Parameter description ........................................................................................................................................ 1 7 8 . 3. HEX command data communication format ............................................................................................................ 2 1 8.4 AT Command ............................................................................................................................................................... 22 8 .4.1 AT+DEV .................................................................................................................................. 22 8 .4.2 AT+EXIT .................................................................................................................................. 22 8.4.3 AT+MODE ............................................................................................................................... 22 8.4.4 AT+RMODE ............................................................................................................................. 23 8.4.5 AT+NWK ................................................................................................................................. 23 8.4.6 AT+PANID ............................................................................................................................... 23 8.4.7 AT+KEY ................................................................................................................................... 24 8 .4.8 AT+SHORT_ADDR ................................................................................................................. 24 8.4.9 AT+MAC_ADDR ...................................................................................................................... 24 8 .4.10 AT+COOR_SHORT_ADDR .................................................................................................. 24 8.4.11 AT+COOR_MAC_ADDR ....................................................................................................... 24 8 .4.12 AT+GET_SHORT_ADDR ...................................................................................................... 25 8 .4.13 AT+GROUP ........................................................................................................................... 25 8.4.14 AT+CH .................................................................................................................................. 25 8 .4.15 AT+TXPOWER ...................................................................................................................... 25 8.4.16 AT+UART .............................................................................................................................. 26 8 .4.17 AT+SLEEP ............................................................................................................................ 26 8.4.18 AT+DATA_TIME .................................................................................................................... 26 8.4.19 AT+SOFT_ID ........................................................................................................................ 27 8.4.20 AT+RESET ............................................................................................................................ 27 8.4.21 AT+RESTORE ...................................................................................................................... 27 8.3.22 AT+GPIO_PUT ...................................................................................................................... 27 E18-MS1PA2-IPX User Manual _ 8 .4.23 AT+RGPIO_PUT ................................................................................................................... 28 8 .4.24 AT+GPIO_LEVEL .................................................................................................................. 28 8.4.25 AT+RGPIO_LEVEL ............................................................................................................... 28 8.4.26 AT+PWM ............................................................................................................................... 29 8 .4.27 AT+RPWM ............................................................................................................................ 29 8 .4.28 AT+ADC ................................................................................................................................ 29 9.User instruction ........................................................................................................................................................................ 31 9 . 1 ZigBee networking role and notice ............................................................................................................ 3 1 9 . 2 Network structure ....................................................................................................................................... 3 1 10. Hardware design .................................................................................................................................................................. 32 11. FAQ ........................................................................................................................................................................................ 33 11.1 Communication range is too short ............................................................................................................................ 33 11.2 Module is easy to damage ......................................................................................................................................... 33 11.3 Bit error rate is too high ............................................................................................................................................ 33 1 2. Production guidance ............................................................................................................................................................ 33 1 2 . 1 Reflow soldering temperature .................................................................................................................................. 3 3 12.2 Reflow soldering curve ............................................................................................................................................. 34 13. Antenna information ............................................................................................................................................................ 34 1 4. Product packaging figure ..................................................................................................................................................... 35 1. General introduction 1. 1 Brief introduction E18-MS1PA2-IPX is a small-sized 2.405GHz SMD wireless modules.The space between each pin is 1.27mm. E18-MS1PA2-IPX have been put into stable bulk production, they are applicable for various applications ( especially smart home). E18-MS1PA2-IPX adopts the original CC2 5 3 0 RF chip of TI, the chip is integrated with 8 0 5 1 MCU and wireless transceiver. Built-in PA+LNA the modules are applicable for ZigBee design and 2.405GHz IEEE 802. 15.4 protocol. All IO ports of the MCU have been pinned out for multiple development. 1.2 Characteristic function Role switch Users can switch freely between the coordinator, router and end device via UART command. Automatic networking Support power-on automatic networking. The coordinator automatically sets up the network, the end device and the router automatically searches and joins the network. Network self- healing Automatically reconnect when losing network. When intermediate node in network is lost, other networks automatically join or maintain the original network. ( Isolated nodes automatically join the original network, non- isolated nodes maintain the original network. ) When the coordinator is lost and non- isolated nodes exist in the original network, the coordinator can join the network again or coordinator of the original network PAN_ ID set by the same user join the original network. Ultra-low power consumption The device can be set as low power mode in the end state. Sleep time of the device can be changed according to the user' s using time. The standby power consumption in the low power mode is less than 2 uA. In the father node data storage time, all messages can be received within the time set by users. Configuration for data storage time When device is in the coordinator and router state, the user can set their own data storage time, and work with end device in sleep mode to save data for the end device, and sent data to the end device when it wakes up. Data saved is up to 3 data packets, if exceeded, it will automatically clear the first data ! After the data is saved, the data heap is automatically cleared. Automatic retransmission: In unicast mode, the device will automatically retransmit when failed to send to next node, and the number of retransmission per message is three. Automatic routing: The module supports network routing. Router and coordinator have network data routing function, users can conduct multi- hopping networking. Support encryption protocol : The module uses AES 1 2 8 bit encryption function, can change the network encryption 1 E18-MS1PA2-IPX User Manual _ and prevent monitoring. Users can change the network key by themselves. Only devices with the same network key can start normal networking communication. Support UART configuration: Module has built- in UART commands, the user can configure ( view) the parameters and functions of module via UART command . Communication for various types of data: Support broadcasting, multicasting and unicasting in the entire network. In the broadcast and unicast mode, it also supports several transmission methods Multi- mode selection: support through mode, semi- through mode, protocol mode, three working modes, user can switch freely Change channel : It supports change of 16 channels ranging from 11 to 26 ( 2405~2480MHZ) , different channels have different frequency. Change network PAN_ ID: Free switch of network PAN_ ID. Users can define PAN_ ID to join the corresponding network by themselves or automatically select PAN- ID to join the network. Change UART baud rate: Users can set baud rate by themselves which can be as high as 1 M, it is 8 bits by default without parity bit. Search short address: Users can find out corresponding short address according to the ( unique and fixed) MAC address of module that already joined network. GPIO control:Local/remote gpio control function there are 10 gpio for users to select. Pwm control :Local/remote pwm control function there are 5 pwm channels for users to select. ADC control:Read local/remote adc there are 7 adc channels for users to select. Command format switch: The module supports AT command and HEX command for users easy configuration and switch. Module restore:Users can restore the module via UART commands. Onekey recovery of baud rate: The module supports onekey recovery of baud rate when users forget the baud rate. The baud rate is 115200(default). Recover factory setting: Users recover the factory setting via UART commands. 1.3 ZigBee introduction ZigBee technology is a two- way wireless communication technology that features short range, low complexity, low power, low speed and low cost. There are three types of logical devices in the ZigBee network: Coordinator, Router, and End- Device. The ZigBee network consists of a Coordinator and multiple routers and End- Devices. These devices own the following functions:
( 1 ) Coordinator As the first device in the network, the coordinator is responsible for starting the entire network. . The coordinator selects a channel and a network ID ( also known as the PAN ID, the Personal Area Network ID) , and then starts the entire network. Coordinators can also be used to help establish bindings between security layer and application layer in the network. Note that the role of the coordinator mainly involves the network startup and configuration. Once these are done, the coordinator works like a router (or disappears / go away) . Due to the distribution characteristics of the ZigBee network itself, the operation of the entire network is not dependent on the existence of the coordinator.
( 2 ) Router 2 E18-MS1PA2-IPX User Manual _ The main functions of the router: to allow other devices to join the network, multi-hop routing and to assist communication of its own battery- powered son node end- devices. Typically, the router is expected to remain active, so it must use the main power supply. However, when using the tree group network mode, it allows the routing operate once at an interval of a certain cycle, so battery can be used for power supply.
( 3 ) End- Device The end- device does not have a specific responsibility for maintaining the network structure, it can sleep or wake up, so it can be a battery-powered device. 1.4 Application Home security alarm and remote keyless entry Smart home and industrial sensors Wireless alarm security system Wireless industrial-grade remote control Health care products Wireless voice, wireless headphones Automotive industry applications. 2. Technical parameters 2. 1 Limit parameter Main parameter Voltage supply (V) Blocking power ( dBm) Working temperature () 2.2 Working parameters Performance Min Max Remark 0
-40 3.6 10 85 Voltage over 3 . 6 V will cause permanent damage to module Chances of burn is slim when modules are used in short distance Main parameter Operating voltage ( V) Communication level ( V) Min. 2.5 Performance Typ. 3.3 3.3 Max. 3.6 Remark 3.3 V ensures output power For 5V TTL, it may be at risk of burning 3 E18-MS1PA2-IPX User Manual _ Working temperature () Frequency ( GHz) Power consumption TX current (mA) RX current (mA) Sleep current (A) Max Tx power (dBm) Receiving sensitivity ( dBm)
-40 2.405 19.5
-98
100 33 2.4 20
-99 85 2.480 20.5
- 100 d own Industrial design Support ISM band Instant power consumption Software is shut down Air data rate is 250kbps Main parameter Description Remark Distance for reference Protocol Packing Connector IC FLASH RAM Core Size Antenna Test condition clear and open area 1200 m ZigBee SMD 1.27mm CC2 530F256RHAT/QFN40 Built- in PA+ LNA 256 KB 8 KB 8051 MCU 16.0 * 22.5 mm IPEX 5 0 ohm impedance 4 E18-MS1PA2-IPX User Manual _ 3. Mechanical characteristics Pin No. Pin item Pin direction Application 1 2 3 4 5 6 7 8 9 10 11 12 GND VCC GPIO9 GPIO8 GPIO7 Ground, connecting to power source referential ground Power supply, must be 2.5-3.6V Input / Output Input / Output User Control Function Pin GPIO9 User Control Function Pin GPIO8 Input / Output User Control Function PinGPIO7 UART_ BAUD_ RESET Input the baud rate of module, the button can be used to restore the factory Used to restore the serial port baud rate. user forgot or did not know baud rate of 115200 (the falling edge is valid) It is used to switch AT instruction mode and HEX instruction mode AT_ HEX_ KEY Input Low level means HEX instruction mode, high level means AT NC NC UART0 _ TX UART0 _ RX RUN_ LED Output Input Output instruction mode( default) N. C N. C Serial TX pin Serial RX pin Indicate the normal running indicator of the module. Low level means the module is running normally, and high level means the module is not running 5 E18-MS1PA2-IPX User Manual _ NWK_ LED Output Indicate the module access status, low level means the module joins the network, high level means the module has no network NC NC NC GPIO6 / ADC6/ PWM4 GPIO5 / ADC5/ PWM3 GPIO4 / ADC4/ PWM2 GPIO3 / ADC3/ PWM1 GPIO2 / ADC2/ PWM0 GPIO1 / ADC1 GPIO0 / ADC0 RESET N. C N. C N. C Input / Output Input / Output Input / Output Input / Output Input / Output Input / Output Input / Output User Control Function Pin GPIO6 / ADC6 / PWM4 User Control Function Pin GPIO5 / ADC5 / PWM3 User Control Function Pin GPIO4 / ADC4 / PWM2 User Control Function Pin GPIO3 / ADC3 / PWM1 User Control Function Pin GPIO2 / ADC2 / PWM0 User Control Function Pin GPIO1 / ADC1 User Control Function Pin GPIO0 / ADC0 Input / Output Reset port 13 14 15 16 17 18 19 20 21 22 23 24 Please refer to TI official CC2 5 3 0 Datasheet for module pin definitions, software driver and protocol . 4. Operation mode Mode Node Description Mode 1
( Transparent transmission mode ) Coordinator Router End device Mode 2
( Half transparent transmission mode ) Coordinator This type of node is a transmission mode, which transmits serial data to non- sleeping devices in the network through broadcasting This type of node is in the transmission mode, passing serial data to the coordinator through on- demand.
( Note: Terminal can' t receive the transmitted data of Mode 1 in dormant mode) The module transmits data according to fixed format and full protocol. It can carry out unicast, broadcast and multicast. Please see more details in HEX command data communication format This type of node is in the transmission mode, passing serial data to the coordinator through unicast Mode 3
( Protocol mode ) Router End device C oordinator The module transmits data according to fixed format and full protocol. Can be unicast, broadcast, multicast; for details, please see more details in HEX command data communication format Router End device Data Communication Display Mode Data carrier formats can be configured by instructions:
1 Display the sender's MAC address;
2 . Display short address of sender;
3 Display the RSSI value of the shortest path of the message;
( User can configure the display mode to carry no display and any one or more display modes) )
Note: Only mode 3 can be selected for GPIO function configuration. Any mode can communicate with each other without affecting each other. 5. Protocol mode No Using mode Description 1 Broadcast When joining the network, the user can broadcast according to the commands in the whole network ( which can be divided into three broadcast modes) 1 , Broadcast Mode 1 - The message is broadcasted to all devices in the entire network. 2 , broadcast mode 2 - the message is broadcasted only to receiving devices
( except sleep mode) . 6 E18-MS1PA2-IPX User Manual _ 3 , broadcast mode 3 - the message is broadcasted to all full- functional devices
( router and coordinator) . 2 3 Multicast When joining the network, the user can multicast all the devices ( not in sleep) in the entire network. Unicast When joining the network, the user can independently communicate with the devices in the network in a short address mode according to the commands
( which can be divided into three broadcast modes) 1 , transparent transmission mode - ( no carrying information) 2 , short address mode - ( carry information for the short address) 3 , MAC address mode - ( carry information for the MAC address) 6.Function description 6. 1 Pin diagram Pin No. P0_0 P0_ 1 P0_2 P0_3 P0_4 Function indication Description ( reuse function pin can only be defined as the function rectified for the last time) Input/ Output GPIO0 / ADC0 User controlled function pin GPIO0 / ADC0 GPIO1 / ADC1 User controlled function pin GPIO1 / ADC1 GPIO2 / ADC2/ PWM0 User controlled function pin GPIO2 / ADC2 / PWM0 GPIO3 / ADC3/ PWM1 User controlled function pin GPIO3 / ADC3 / PWM1 GPIO4 / ADC4/ PWM2 User controlled function pin GPIO4 / ADC4 / PWM2 I/O I/O I/O I/O I/O 7 E18-MS1PA2-IPX User Manual _ P0_5 P0_6 P2_0 P2_ 1 P2_2 P1_2 GPIO5 / ADC5/ PWM3 User controlled function pin GPIO5 / ADC5 / PWM3 GPIO6 / ADC6/ PWM4 User controlled function pin GPIO6 / ADC6 / PWM4 GPIO7 GPIO8 GPIO9 User controlled function pin GPIO7 User controlled function pin GPIO8 User controlled function pin GPIO9 NWK_ LED To indicate module network joining state, low level means that module joins network, high level means no network. P1_3 RUN_ LED To indicate module works normally, low level means P1_6 AT_ HEX_ KEY that module works normally, high level means module does not work. To switch AT command and HEX command, low level means HEX command mode, high level means AT command mode ( default) . P1_7 UART_ BAUD_ RESET To reset baud rate, when users forget or do not know the baud rate use this button to restore factory setting
(115200) (valid for falling edge ) . P1_4 P1_5 UART0 _ RX UART0 _ TX UART RX pin UART TX pin 6.2 Pin connection instructions I/O I/O I/O I/O I/O O O I I I O 8 E18-MS1PA2-IPX User Manual _ 7.Quick start The ZigBee ad hoc network module is easy to use. In order to allow users to be quickly familiar with modules, this section will guide users to achieve configuration and communication in various modes via a simple configuration. The working mode is mode 3 (protocol mode). The user can pull down the P1 . 6 pin and conduct the HEX instruction set. In order to facilitate observation of the host computer , the experiment will use HEX command format, AT command users do not test in this test. ( AT command cannot be used for the configuration of host computer. ) In addition, the user can use the external microcontroller ( MCU) instead of test board directly to connect with module for UART command communication to achieve secondary development. 7. 1 Network construction and communication No Notes Construct network
. Connect Zigbee ad hoc module via USB to UART converter. Open host computer software Zigbee_Setting_V1. 1 , select Com port and set baud rate as 115200(default), then open port;
1
. Click read parameter to read corresponding module parameter. 9 E18-MS1PA2-IPX User Manual _
. Select node type as coordinator, write in parameter. Wait the coordinator to start constructing network and users can check module parameter. Set network parameter (when PAN ID is FFFF, it is automatic PAN ID) Read parameter when network is constructed 10 E18-MS1PA2-IPX User Manual _
. Select another module, set it as the router or end device following the same steps ( module is set as end device when leave factory (default),no need to set again, in this experiment it is end device ) 2 Communication test
. Click fixed networking of the coordinator and end device of the host computer. Corresponding info is available to be viewed. Coordinator 11 E18-MS1PA2-IPX User Manual _ End device
. For users convenience to observe, in this experiment it is HEX transmitting mode. If the device address is unknown, please input corresponding mac address and click get network address. The short address of coordinator is 0 . 12 E18-MS1PA2-IPX User Manual _
. Input random content in these 3 modes, click start. Transparent transmission From coordinator to end device From end device to coordinator Network address From coordinator to end device 13 E18-MS1PA2-IPX User Manual _ Transmitter network short address Network address From end device to coordinator MAC address From coordinator to end device MAC From end device to coordinator Transmitter MAC short address Transmitter network short address 14 Multicast E18-MS1PA2-IPX User Manual _ Broadcast broadcast only conduct Mode 1 , the entire network conduct broadcast mode experiment, other modes test by themselves ) Data function transmission needs to reflect its own characteristics in the case of multi- node network, the users can test by themselves 8. User instruction set In order to facilitate user use, E18-MS1PA2-IPX ZigBee module uses two instruction formats, namely AT instruction format and HEX instruction format. The format mode is controlled by default P1 _6 . When P1_6 = 0, the module enters HEX instruction mode. In this mode, input +++, enter the temporary AT instruction mode. AT command can be used to configure, input AT + EXIT exit temporary AT command. When P1_6 = 1, the module enters AT instruction mode. Line break endings cannot be used in AT instructions. Remarks 1 Serial data format error message HEX instruction mode F7 FF AT instruction mode +ERROR<CR><LF>
2 Coordinator device network establishment will prompt information:
HEX instruction mode FF FF AT instruction mode Builded network<CR><LF>
3 Devices joining the network will prompt information HEX instruction mode FF AA AT instruction mode Joined network<CR><LF>
15 E18-MS1PA2-IPX User Manual _ 4 Module device without or lost network will prompt information HEX instruction mode :FF 00 AT instruction mode No network<CR><LF>
5 <CR> 0x0D 6 <LF> 0x0A 8. 1 HEX read command description Command description Command format Command example Read device type Read network state Read network PAN_ ID Read network key Read local short address Read local MAC address SendFE 01 01 FF Return FB dev_type SendFE 01 02 FF Return FB nwk_state SendFE 01 03 FF Return FB pan_id SendFE 01 04 FF Return FB key SendFE 01 05 FF Return FB ShortAddr SendFE 01 06 FF Return FB Mac_Addr Read short address of father nodes SendFE 01 07 FF Return FB Coor_ shortAddr Read short MAC address of father nodes FE 01 08 FF SendFE 01 01 FF Return FB 02 SendFE 01 02 FF Return FB 01 SendFE 01 03 FF Return FB 02 F4 SendFE 01 04 FF ReturnFB 11 13 15 17 19 1B 1D 1F 10 12 14 16 18 1A 1C 1D SendFE 01 05 FF Return FB F2 EF SendFE 01 06 FF ReturnFB 89 6C 50 09 00 4B 12 00 SendFE 01 07 FF Return FB 00 00 SendFE 01 08 FF Return FB Coor _Mac_Addr Return FB 20 39 EA 0A 00 4B 12 00 Read network group number Read communication channel Read Send power Read UART baud rate Read sleep state ( valid for terminal nodes) SendFE 01 09 FF Return FB group SendFE 01 0A FF Return FB channel SendFE 01 0B FF Return FB txpower SendFE 01 0C FF Return FB baud SendFE 01 0D FF Return FB sleep_time SendFE 01 09 FF Return FB 01 SendFE 01 0A FF Return FB 0B SendFE 01 0B FF Return FB 04 SendFE 01 0C FF Return FB 09 SendFE 01 0D FF Return FB 05 16 E18-MS1PA2-IPX User Manual _ Command description Command format Command example Read data storage time of the node( valid for router and coordinator) SendFE 01 0E FF Return FB 1E SendFE 01 0E FF Return FB 1E Read all device data SendFE 01 FE FF Return FB all_info SendFE 01 FE FF ReturnFB 02 01 02 F4 11 13 15 17 19 1B 1D 1F 10 12 14 16 18 1 A 1C 1D F2 EF 89 6C 50 09 00 4B 12 00 00 00 20 39 EA 0A 00 4B 12 00 01 0B 04 09 05 Acquire short address of random MAC SendFE 09 10 Mac_Addr FF Send FE 09 10 AF 99 E9 0A 00 address in network Return FB shortAddr 4B 12 00 FF Return FB 08 35 Read remote/ local GPIO input and output CommandFE 04 20 addr gpiox FF FE 04 20 F9 DE 04 FF state Return FB 20 addr In/Out Read remote/ local GPIO level CommandFE 04 21 addr gpiox FF FE 04 21 FF FF 04 FF Read remote/ local PWM state Return FB 21 addr In/Out level Command FE 04 22 addr 22 FF Return FB 22 addr period duty1 duty2 duty3 duty4 duty5 FE 04 22 FFFF 22 FF Read remote/ local ADC state CommandFE 04 23 addr pin FF FE 04 23 FF FF 01 FF Return FB 23 addr adc_value 8.2 HEX Parameter description 8.2. 1. Device type dev_type 8.2.2. Network state nwk_state 00 coordinator 01 router 02 terminal (default) 00 no network 01 network exists 8.2.3. Network PAN_ID pan_id 0000~FFFE fixed network PAN_ID FFFF stochastic network PAN_ID 8.2.4. Network key key 16 bits network key 17 E18-MS1PA2-IPX User Manual _ 8.2.5. Network short address shortAddr 2 Byte address 8.2.6. MAC address Mac_Addr 8 Byte address 8.2.7 Short address of father nodes Coor_shortAddr 2 Byte address 8.2.8. MAC address of father nodes Coor_Mac_Addr 8 Byte address 8.2.9. Network group number group range from 1~99 (default 1 ) 8.2. 10. Channel channel range from 11~26 (default 1 1) 8.2. 11. Power txpower table (default 0dBm) t xpower power ( dBm) t xpower power ( dBm) 00 01 02
-3
- 1.5 0 03 04 05 8.2. 12. Buad rate baud table (default 115200) baud Baud rate baud 00 01 02 03 04 05 06 07 2400 4800 9600 14400 19200 38400 43000 57600 08 09 0A 0B 0C 0D 0E 0F 2.5 4.5 Baud rate 76800 115200 128000 230400 256000 460800 921600 1000000 8.2. 13. Sleep time sleep_time 0 sleep mode closed (default) Otherwise sleep mode open sleep time is sleep_time, unit S 8.2. 14. Storage time of father nodes time range from 0~ 120 (default 30) , unit S 8.2. 15. Gpio parameter 18 E18-MS1PA2-IPX User Manual _
( 1 ) gpio portal table GPIO P0_0 P0_ 1 P0_2 P0_3 P0_4 P0_5 P0_6 P2_0 P2_ 1 P2_2 HEX 00 01 02 03 04 05 06 07 08 09
(2 ) gpio input/output state In/Out 1 input state 0 output state
( 3 ) gpio state value ( invalid for input state configuration) level 0 low level 1 high level 2 switch 8.2. 16. pwm parameter
( 1 ) pwm portal table pwmx GPIO duty1 P0_2 duty2 P0_3 duty3 P0_4 duty4 P0_5 duty5 P0_6
(2 ) period period unit 62.5ns 0~0xffff
( 3 ) dutyx duty cycleunit 62.5ns 0~0xffff 8.2. 17. adc parameter
( 1 ) adc state value adc_state 0 ADC enabled 1 ADC closed
(2 ) adc sample value adc_value 0~0XFFFF 8.2. 18. Peripheral addr parameter description Addr value FFFF check/configure local information 0 ~ FFF8 check/ configure information with network address addr FFFE FFFD FFFC check/ configure information for all devices receiving broadcast
(FFFE broadcast to all devices in network FFFD broadcast to devices receiving when free (except devices in sleep) FFFC broadcast to coordinator and router) 19 E18-MS1PA2-IPX User Manual _ 8.2. 19. All information all_info dev_type ( 1 Byte ( 0 ) ) device type nwk_state ( 1 Byte ( 1 ) ) network state pan_id (2 Byte (2~3 ) ) PAN_ID key ( 16 Byte (4~20) ) network key shortAddr (2 Byte (21~22) ) network short address Mac_Addr ( 8 Byte (23~30) ) MAC address Coor_shortAddr (2 Byte ( 31~32) ) Short address of father nodes Coor_Mac_Addr ( 8 Byte ( 33~40) ) MAC address of father nodes group ( 1 Byte (41) ) network group number channel ( 1 Byte (42) ) communication channel txpower ( 1 Byte (43) ) transmit power baud ( 1 Byte (44) ) UART baud rate sleep_time ( 1 Byte (45) ) sleep state Detailed parameter for example all_info 02 01 02 F4 11 13 15 17 19 1B 1D 1F 10 12 14 16 18 1A 1C 1D F2 EF 89 6C 50 09 00 4B 12 00 00 00 20 39 EA 0A 00 4B 12 00 01 0B 04 09 05 Device type 02 ( Terminal) Network state 01 (Network exists ) Network PANID 02 F4 (PAN_ID=0X02F4) Network key 11 13 15 17 19 1B 1D 1F 10 12 14 16 18 1A 1C 1D Short address of local network F2 EF ( Short Address=0XF2EF) Local MAC address 89 6C 50 09 00 4B 12 00 20 E18-MS1PA2-IPX User Manual _ Short address of father nodes 00 00 ( Short Address=0X0000) MAC address of father nodes 20 39 EA 0A 00 4B 12 00 Network group number 01 Network channel 0B ( channel 11) Transmit power 04 (transmit power 4.5dBm) Baud rate 09 (baud rate 115200) Sleep time 05 ( sleep mode starts sleep time is 5s )
( Notes Father node reserve time is not listed here, please use corresponding command for configuration and examination. ) 8.3. HEX command data communication format 8.3. 1. Command format description Command ( COM) Data length ( LEN) Data content ( DATA) 1Byte FC 1Byte LEN DATA 8 .3.2. DATA parameter description (data is content awaiting to send) 1 ) Broadcast data Command 0 1 + type+ data Parameter description type 0 1 broadcast mode1 broadcast the message to all devices in network 0 2 broadcast mode2 broadcast the message to receiving devices( except ones in sleep mode) 0 3 broadcast mode3 broadcast the message to all functional devices ( router and coordinator) Example FC 05 01 02 31 32 33 Example explanation Transmit HEX data to network broadcast in broadcast mode 2 : 0 X3 1 0 X3 2 0X3 3 2 ) Multicast data Command 0 2 + group+data Parameter description group 0~99 number for the multicasted message Example FC 05 02 01 31 32 33 Example explanation Send HEX data to Network Group 1 0X31 0X32 0X33 21 E18-MS1PA2-IPX User Manual _ 3 ) Unicast data Command0 3+ type +addr+data Parameter description type 0 1 transparent transmission mode ( no carry message) 02 short address mode ( carry message is short address) 03 MAC address mode ( carry message is MAC address) Parameter description addr: network short address valid unicast address 0x00000xFFF8) Example FC 07 03 01 AB CD 31 32 33 Example explanation HEX data with short address to devices with 0 XADCD network address: 0 X31 0 X3 2 0 X33 8.4 AT Command 8.4. 1 AT+DEV Function Inquire/ Configure device type Format Inquire SendAT+DEV= type Return+OK<CR><LF>
Configure SendAT+DEV=?
Return DEV= type< CR> < LF>
Parameter type C Coordinator R Router E End device Example AT+DEV=C Default DEV= E 8.4.2 AT+EXIT Function:Exit the temporary AT instruction. (P1_6 pin is valid when it is pulled down into AT command.) Format: Configure Send AT+ EXIT Return+OK<CR><LF>
Example AT+EXIT 8.4.3 AT+MODE Function Format Inquire/ Configure operation mode Inquire SendAT+MODE=?
Return MODE= type< CR> < LF>
Configure Send AT+ MODE= mode Return+OK<CR><LF>
22 E18-MS1PA2-IPX User Manual _ Parameters mode 1 mode 1 (transparent mode ) 2 mode 2 (half transparent mode ) 3 mode 3 (protocol mode ) Example AT+MODE=3 Default MODE= 3 8.4.4 AT+RMODE Function Format Inquire/ Configure communication display mode Inquire SendAT+RMODE=?
Return RMODE= type< CR> < LF>
Configure Send AT+ RMODE= type Return+OK<CR><LF>
Parameter rmode (1:on, 0:off Range0-7 ) 0 bit MAC address 1bit Short address 2 bit RSSI value of message shortest path Example AT+RMODE=0 Default RMODE= 0 8.4.5 AT+NWK Function Inquire network state Format Inquire SendAT+NWK=?
Return NWK= nwk_ state< CR> < LF>
Parameter nwk_ state 0 No network 1 Existing network Example AT+NWK=
8.4.6 AT+PANID Function Format Inquire/ Configure PANID Inquire SendAT+PANID=?
Return PANID= panid< CR> < LF>
Configure Send AT+ PANID= mode Return+OK<CR><LF>
Parameter panid 23 E18-MS1PA2-IPX User Manual _ 0000-FFFE Fixed PANID FFFF Random PANID Example AT+ PANID=0XA1B2 8.4.7 AT+KEY Function Inquire/ Configure network key Inquire Format SendAT+KEY=?
Return KEY= key< CR> < LF>
Configure Send AT+ PANID= mode Return+OK<CR><LF>
Parameter key 16 Byte network key Example AT+ KEY=01030507090B0D0F00020406080A0C0D Default KEY=01030507090B0D0F00020406080A0C0D 8.4.8 AT+SHORT ADDR _ Function Format Inquire local network address Inquire SendAT+SHORT_ADDR =?
Return SHORT_ ADDR= shortaddr< CR> < LF>
Parameter shortaddr 0 000- FFFF Network short address Example AT+SHORT_ADDR=?
8.4.9 AT+MAC ADDR _ Function Format Inquire/ Configure network PANID Inquire Send AT+MAC_ ADDR=?
Return MAC_ ADDR= macaddr< CR> < LF>
Parameter macaddr 8 Byte MAC long address (unique IEEE ID) Example AT+MAC_ADDR=?
8.4. 10 AT+COOR SHORT ADDR _ _ Function Format Inquire father node network short address Inquire Send AT+ COOR_ SHORT_ ADDR= ?
Return COOR_ SHORT_ ADDR= macaddr< CR> < LF>
Parameter macaddr 8 Byte MAC long address (unique IEEE ID) Example AT+COOR_SHORT_ADDR=?
8.4. 11 AT+COOR MAC ADDR _ _ Function Inquire father node MAC address 24 E18-MS1PA2-IPX User Manual _ Format Inquire Send AT+ COOR_ MAC_ ADDR=?
Return COOR_ MAC_ ADDR= macaddr< CR> < LF>
Parameter macaddr 8 Byte MAC short address (unique IEEE ID) Example AT+COOR_MAC_ADDR=?
8.4. 12 AT+GET SHORT ADDR _ _ Function Format Inquire the network short addresses of any MAC device Inquire Send AT+ GET_ SHORT_ ADDR= macaddr Return GET_ SHORT_ ADDR= shoraddr< CR> < LF>
Parameter macaddr 8 Byte MAC Length address ( Unique IEEE ID) shoraddrt Short address of inquired device Example AT+GET_SHORT_ADDR=4B805A3D25741200 8.4. 13 AT+GROUP Function Format Inquire/ Set network group number Inquire SendAT+GROUP=?
Return GROUP= group< CR> < LF>
Set Send AT+ GROUP= group Return+OK<CR><LF>
Parameter group (0~99) Local group number Example AT+GROUP=group Default GROUP= 1 8.4. 14 AT+CH Function Inquire/ Configure wireless channel Inquire Format SendAT+CH=?
Return CH= ch< CR> < LF>
Configure SendAT+CH=ch Return+OK<CR><LF>
ch (11~26) Parameter Wireless channel Example AT+CH= 11 Default CH= 11 8.4. 15 AT+TXPOWER Function Inquire/ Configure wireless transmitting power 25 E18-MS1PA2-IPX User Manual _ Format Inquire Send AT+ TXPOWER=?
Return CH= txpower< CR> < LF>
Configure Send AT+ TXPOWER= txpower Return+OK<CR><LF>
Parameter txpower (0~4) Transmitting power Example AT+TXPOWER=4 Default TXPOWER= 4 8.4. 16 AT+UART Function Format Inquire/ Configure serial port baud rate Inquire SendAT+UART=?
Return UART= baud< CR> < LF>
Configure Send AT+ UART= baud Return+OK<CR><LF>
baud (0~ 15) Parameter Serial Port Baud Rate Example AT+UART=9 Default UART= 9 8.4. 17 AT+SLEEP Function Format Inquire/ Configure device sleep mode ( End device valid) Inquire SendAT+SLEEP=?
Return SLEEP= sleep< CR> < LF>
Configure Send AT+ SLEEP= sleep Return+OK<CR><LF>
Parameter sleep 0 close sleep mode 1~250 Sleep mode is turned on, sleeping time is 1-250 seconds Example AT+SLEEP=0 Default SLEEP= 0 8.4. 18 AT+DATA TIME _ Function Format Inquire/ Configure data reserved time Inquire SendAT+DATA_TIME=?
Return DATA_ TIME= data_ time< CR> < LF>
Configure 26 E18-MS1PA2-IPX User Manual _ Send AT+ SLEEP= data_ time Return+OK<CR><LF>
data_ time Parameter 0~ 120 Data retention time,Unit:S Example AT+DATA_TIME=30 Default DATA_TIME=30 8.4. 19 AT+SOFT ID _ Function Format Inquire software version number Inquire SendAT+SOFT_ID=?
Return SOFT_ ID= soft_ id< CR>< LF>
Parameter soft_ id software version number Example AT+SOFT_ID=?
8.4.20 AT+RESET Function Device reset Format Configure Send AT+ RESET Return+OK<CR><LF>
Example AT+ RESET=?
8.4.21 AT+RESTORE Function Restore factory settings Format Configure Send AT+ RESTORE Return+OK<CR><LF>
Example AT+RESTORE=?
8.3.22 AT+GPIO PUT _ Function Configure remote/ local GPIO input/ output mode Format Configure Send AT+ GPIO_ PUT= addr, gpiox, inout Return+OK<CR>< LF>
Parameter addr 0 000~FFF8 remote short address device FFFF local device gpiox (0~9) GPIO port number input 0 Output state 1 Input state Example AT+GPIO_PUT= 1AC0,5,0 27 E18-MS1PA2-IPX User Manual _ 8.4.23 AT+RGPIO PUT _ Function Read remote/ local GPIO input/ output mode Format Configure Send AT+ RGPIO_ PUT= addr, gpiox Return RGPIO_ PUT= addr, input< CR> < LF>
Parameter addr 0 000~FFF8 Remote short address device FFFF local device gpiox (0~9) GPIO Port number input 0 Output state 1 Input state Example AT+RGPIO_PUT= 1AC0,5 _ 8.4.24 AT+GPIO LEVEL Function Read remote/ local GPIO input/ output mode Format Configure Send AT+ GPIO_ LEVEL= addr, gpiox, level Return+OK<CR>< LF>
Parameter addr 0 000~FFF8 Remote short address device FFFF Local device gpiox (0~9) GPIO port number level 0 high level 1 low level 2 overturn Example AT+GPIO_LEVEL= 1AC0,5,2 _ 8.4.25 AT+RGPIO LEVEL Function Read remote/ local GPIO input/ output mod Format Read Send AT+ RGPIO_ LEVEL= addr, gpiox Return RGPIO_ LEVEL= addr, input, level< CR> < LF>
Parameter addr 0 000~FFF8 Remote short address device FFFF Local device gpiox (0~9) GPIO Port number input 0 Output state 1 Input mode level 28 E18-MS1PA2-IPX User Manual _ 0 High level 1 Low level Example AT+RGPIO_LEVEL= 1AC0,5 8.4.26 AT+PWM Function Configure remote/ local PWM input/ output mode Format Configure Send AT+PWM= addr,period,duty1, duty2,duty3,duty4,duty5 Return+OK<CR>< LF>
Parameter addr 0 000~FFF8 Remote short address device FFFF Local device period ( 1 = 62.5ns) 0~65535 duty1 0 Close Other channel 1 is square wave with duty cycle of 50%. duty2~ duty5 (0~65535 1 = 62.5ns) The PWM of the channel is closed when the pulse width time of the corresponding channel number is 0 or greater than the period. Example AT+ PWM= 1AC0, 1000, 1,500,500,0,500 8.4.27 AT+RPWM Function Read remote/ local PWM input/ output mode Format Read Send AT+ RPWM= addr Return RPWM=addr,period, duty1, duty2 , duty3 , duty4 , duty5 <CR><LF>
Parameter addr 0 000~FFF8 Remote short address device FFFF Local device period ( 1 = 62.5ns) 0~65535 cycle duty1 0 Close Other channel 1 is square wave with duty cycle of 50%
duty2~ duty5 (0~65535 1 = 62.5ns) The PWM of the channel is closed when the pulse width time of the corresponding channel number is 0 or greater than the period. Example AT+RPWM= 1AC0 8.4.28 AT+ADC Function Read remote/ local ADC input Format Read Send AT+ ADC= addr, adcx 29 E18-MS1PA2-IPX User Manual _ Return ADC= addr, val< CR> < LF>
Parameter addr 0 000~FFF8 Remote short address device FFFF Local device adcx (0~6) ADC Channel val (0~3300) Current acquisition voltage, unit mV ( millivolt) Example AT+ADC= 1AC0,5 30 E18-MS1PA2-IPX User Manual _ 9.User instruction 9. 1 ZigBee networking role and notice No. Description 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Module uses Zigbee ad hoc networking, consisting of one coordinator and random other devices( routers and end- devices) It has self- organization, self- routing and network multi- hopping function ( By default the network depth is 5 , there are 20 son nodes and 6 son router nodes in total). The father node device ( coordinator and router) can save data for the end- devices in sleep. The save time can be set by the user (by default it is 30 seconds, ranging from 0 to 120 seconds). Only the end device has the sleep function, sleeping within 1 2 0 S, the user can set by themselves, the default 0
( with sleep mode off) . Note: The recommended sleep time must be less than the data storage time of father node , otherwise it will affect the data reception. In network communication Short Address communication Note: The short address is randomly distributed when the device joins the network, the long address of MacAddress is the only fixed one, if the short address is unknown, the network Short Address can be found via corresponding commands according to the MacAddress , and point to point communication is conducted is used. Coordinator is unique in the network, the short address is 000 0. If unicast address is FFFF FFFD FFFC then it corresponds to three broadcast mode. When PANID is FFFF, it means automatic distribution. Networking cannot be realized ifPANID is different. When network keys are not the same the network cannot be joined. The module network key of the module remains open, the user cannot get the correct air data via software packet capture . All devices in the network have opened broadcast function. Multiple devices broadcasting at the same time or a single device broadcasting at a higher frequency will lead to a serious network congestion. Please try to avoid this situation. When multicasting module does not need to join the group, but be directly multicasted to any group according to communication usage guidance. After the multicast, the local group number will not change due to different multicast number. PWM function and sleep mode cannot be used at the same time in network, please turn off the sleep mode before turn on PWM function . After sleep mode, it can be waked up via the serial port( UART) . Note: In the sleep state, the first frame of data waked up via UART is invalid. In ZigBee network communication, the transmission cycle of single packet data should not be too fast ( generally recommended in more than 1 second) , too fast may cause data loss. ( Pay special attention to the fact that there are too many nodes in the network and the broadcast cycle is too fast, which may cause network instability. ) 9.2 Network structure The network structure of module is MESH network 31 E18-MS1PA2-IPX User Manual _ MESH network topology network has a powerful function, the network can communicate via " multi- level hopping" ; the topology can also form a very complex network; network also has self- organization, self- healing function Network structure diagram 10. Hardware design It is recommended to use a DC stabilized power supply. The power supply ripple factor is as small as possible, and the module needs to be reliably grounded. Please pay attention to the correct connection of the positive and negative poles of the power supply. Reverse connection may cause permanent damage to the module Please check the power supply to ensure it is within the recommended voltage otherwise when it exceeds the maximum value the module will be permanently damaged Please check the stability of the power supply, the voltage cannot be fluctuated frequently When designing the power supply circuit for the module, it is often recommended to reserve more than 30% of the margin, so the whole machine is beneficial for long- term stable operation. The module should be as far away as possible from the power supply, transformers, high- frequency wiring and other parts with large electromagnetic interference High- frequency digital routing, high- frequency analog routing, and power routing must be avoided under the module. If it is necessary to pass through the module, assume that the module is soldered to the Top Layer, and the copper is spread on the Top Layer of the module contact part( well grounded) , it must be close to the digital part of the module and routed in the Bottom Layer Assuming the module is soldered or placed over the Top Layer, it is wrong to randomly route over the Bottom Layer or other layers, which will affect the module' s spurs and receiving sensitivity to varying degrees It is assumed that there are devices with large electromagnetic interference around the module that will greatly affect the performance. It is recommended to keep them away from the module according to the strength of the interference. If necessary, appropriate isolation and shielding can be done Assume that there are traces with large electromagnetic interference ( high- frequency digital, high- frequency analog, power traces) around the module that will greatly affect the performance of the module. It is recommended to stay away from the module according to the strength of the interference 32 E18-MS1PA2-IPX User Manual _ If necessary, appropriate isolation and shielding can be done. If the communication line uses a 5V level, a 1k-5. 1k resistor must be connected in series (not recommended, there is still a risk of damage) Try to stay away from some physical layers such as TTL protocol at 2.4GHz , for example: USB3.0 The mounting structure of antenna has a great influence on the performance of the module. It is necessary to ensure that the antenna is exposed, preferably vertically upward. When the module is mounted inside the case, use a good antenna extension cable to extend the antenna to the outside The antenna must not be installed inside the metal case, which will cause the transmission distance to be greatly weakened. 11. FAQ 11. 1 Communication range is too short The communication distance will be affected when obstacle exists. Data lose rate will be affected by temperature, humidity and co- channel interference. The ground will absorb and reflect wireless radio wave, so the performance will be poor when testing near ground. Sea water has great ability in absorbing wireless radio wave, so performance will be poor when testing near the sea. The signal will be affected when the antenna is near metal object or put in a metal case. Power register was set incorrectly, air data rate is set as too high (the higher the air data rate, the shorter the distance). The power supply low voltage under room temperature is lower than 2 . 5 V, the lower the voltage, the lower the transmitting power. Due to antenna quality or poor matching between antenna and module. 11.2 Module is easy to damage Please check the power supply source, ensure it is 2.0V~3.6V, voltage higher than 3.6V will damage the module. Please check the stability of power source, the voltage cannot fluctuate too much. Please make sure antistatic measure are taken when installing and using, high frequency devices have electrostatic susceptibility. Please ensure the humidity is within limited range, some parts are sensitive to humidity. Please avoid using modules under too high or too low temperature. 11.3 Bit error rate is too high There are co- channel signal interference nearby, please be away from interference sources or modify frequency and channel to avoid interference;
Poor power supply may cause messy code. Make sure that the power supply is reliable. The extension line and feeder quality are poor or too long, so the bit error rate is high;
12. Production guidance 12. 1 Reflow soldering temperature Pre-heating area: maximum temperature rise is 2.5/s;
33 E18-MS1PA2-IPX User Manual _ Thermal insulation area: temperature is 150~ 190, time is 60~90s maximum temperature rise is 2.5/s;
Reflowing area: maximum temperature is 235~245 , time for above 217 is 40~80s;
Cooling area: maximum temperature drop is 4/s. 12.2 Reflow soldering curve 13. Antenna information Antenna Manufacturer:
Chengdu Ziisor Technology Co.,Ltd Antenna Model Antenna type:
Antenna gain:
TX2400-JK-11 Glue stick antenna 3Bi 34 E18-MS1PA2-IPX User Manual _ 14. Product packaging figure This module has been tested and found to comply with part 1 5 . 2 4 7 requirements for Modular Approval. This module is intended for OEM integrator. The OEM integrator is responsible for the compliance to all the rules that apply to the product into which this certified RF module is integrated. Additional testing and certification may be necessary when multiple modules are used. FCC Caution:
Any Changes or modifications not expressly approved by the party responsible for compliance could void the user' s authority to operate the equipment. 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. Host product manufacturers that they need to provide a physical or e- label stating, Contains FCC ID: 2ALPH-E18MS1PA2-IPX with their finished product. Only those antennas with same type and lesser gain filed under this FCC ID can be used with this device. The host product manufacturer is responsible for compliance to any other FCC rules that apply to the host not covered by the modular transmitter grant of certification. The final host product still requires Part 1 5 Subpart B compliance testing with the modular transmitter installed. The final host integrator must ensure there is no instruction provided in the user manual or customer documentation indicating how to install or remove the transmitter module except such device has implemented two- ways authentication between module and the host system. The final host manual shall include the following regulatory statement: This equipment has been tested and found to comply with the limits for a 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 35 E18-MS1PA2-IPX User Manual _ accept any interference received, including interference that may cause undesired operation. This module has been tested and found to comply with part 15.247 requirements for Modular Approval. This module is intended for OEM integrator. The OEM integrator is responsible for the compliance to all the rules that apply to the product into which this certified RF module is integrated. Additional testing and certification may be necessary when multiple modules are used. FCC RF Radiation Exposure Statement:
1 . This Transmitter must not be co- located or operating in conjunction with any other antenna or transmitter. 2 . This equipment complies with RF radiation exposure limits set forth for an uncontrolled environment. 3 . This equipment should be installed and operated with minimum distance 2 0 cm between the radiator&
your body. 36
1 | Label | ID Label/Location Info | 136.17 KiB | July 26 2023 |
(>) E18-MS1PA2-IPX EeEBYTE Made in China) SN: XXXXXXXXXXX FCC ID: 2ALPH-E18MS1PA2-IPX Manufacturer: Chengdu Ebyte Electronic Technology Co.,Ltd
1 | Agent letter | Cover Letter(s) | 576.75 KiB | July 26 2023 |
0-0
oul epeuec)ottION peou JOAlu COC epeueOo!JeluOe^IIO HL ALy uo!leo!J!voo jO JOl00JICI ullv lu5^5vse lov ol0nV
=i
^:l 5i lu!odde lJ|q Jno uO 5|^5iiT::i iFTTF|tF t II TuTiFEF T6ii|iuti!, Jo uoneJedoJd oul ulluo6e Jno se loo1 uolleo!JlJoo luotldInbO JOl uolleoIdde s!ql IJodoJd sluo1unoop polll1uqns leuI AJ!voo I lu6nos sl uolleoJ!v00 luot11dlnbo u0!u`JOj 1uolsAs Jo oo!p oul oqlJosop uosle 1 lBJOpog oul ul pou!JOp se poloJeLu Jo polJod1u peJnIDeJnueuJ l!un uoeo leql ol l0!luopIqel e ll ol poxJJe OA ||!k suo!le|n6J suoss1uuo|suo:Io!unutuoo uolleo!ldde s!ul uI!nA leAJdde JOJ ponluqns leul TiI Jno uo uo!eo!lJoo JOJ u0lleo!|dde oul su6!s luo6e pozlloqlne Jno JOu^^soouelsul JoJ Jleueq suolllpuoo pue s1uJOl oul ul!^6u!Ald1uoo JOjlll!qlsuodsJ ile leqo6pol^ouoe l 75 ull^ soplsOJ Il!Is0ul epeueO ooNq po!j!oods seuoleo:JIVo JOJ 7 IFV
:l,I1 pe|ec Ifi 0z, Inr Je6eofy feiep tJor;rrcfxe J
0z Inr J{9
| f fef TI poJur'J Joo i9IIcF^~fffeIfaq!Ero IIE iT7:i iRTiFiTDFi I
:DIouqFiF5IIir iFT)(5i i l
^71 rouotfdior0 08C66s198
1 | Confidentiality request letter | Cover Letter(s) | 445.02 KiB | July 26 2023 |
2023o0724 Equiprnent Autorisation Division Federal CornITiunications Cornrrlission 7435 0ak|and Mi|ls ROad Co|umbia,MD 21046 FCC ID 2ALPIIoE1 ProduCt Name 1L: :_ 1gL!
1PA2-IPiX Reg estfor Conf ential Pursuant to lSections 0.457 and O.459 of the cornnlissions ru|es,vve hereby request that the follovving documents be held cOnfidential
(List here the documents for which you are seeking confidentiality-for example
) sCherlatiCs o BloCk diagrar l Operation description hese rnateria|s contain trade secrets and proprietary inforrnation and are not custornarily released to the public. rhe public disc|osure of this inforrnation rnight be harl fulto the cornpany and provide unJustified benefits to our cornpetitors. Dafed tf, 8yf Frrer
-1 7i~ ~
5rgr,aFtfre Jul24,2023 yng Li Pnfed Gemeral Manager 0`,Defla off clhemgdu E byte Electronic Techno Co Ltd Terepnonef 18615799380
1 | Covered equipment attestation | Attestation Statements | 442.65 KiB | July 26 2023 |
Chengdu Ebyte Electronic Technology Co Ltd. C)oVered Equiprnent Certification Attestation Letter 7`24r2o23 NelmlkO NOrth Arnerica,lnc. 303 River ROad oaWa K1V1H2 Canada ATTN.I ReViewing Engineer FCC lD 2ALPH-E18FVlS1PA2-IPX
(Chengdu Ebyte Electronic Technology Co p Ltd )certifies that the equiprnent foriw.hich authorization is soughtis not covered equipment prohibited from receiving an equiprnent authorization pursuant to section 2,903 ofthe FCC rules. lote lfthe equipmentfor which the app|icant seeks authorization is produce.d by any ofthe entities identined on the current Covered List,the applicant should include an explanation on hy the equiprnentis not covered equipment.
( hw ;e ogy 4)certifies that,as ofthe date of the filing of the application,the app|icantis notidentified on the Covered List as an entity producing cOvered equiprnent. signed
L'
Printed narrtei Vong Li Title GenerallMianager C)or lpany Narne rllanager Chengdu Ebyte Electronic Technology Co Ltd. Date 7`24`2023
1 | Modular approval letter | Cover Letter(s) | 739.13 KiB | July 26 2023 |
Chengdu Ebyte Electronic Technology Co.,Ltd lVlodu|ar Transnlitter Approval|Request Federal Communications COmmission Equiprnent Authorization Div;sion 7435 0akland Mi|Is ROad COlumbia,MD 21046 USA
(C)onapany nanael Chengdu Ebyte Electronic Technology Co.,Ltd. FCC ID:2ALPH E18|Ms1PA2 IPX Dear sir/Madam,
|n accordance vvith 47CFR 15.212 I odular Transrnitters and KDB 996369 1D01 MOdule Equip Auth Guide vO2 .FCC ID 2ALPH E 8IMs1 PA2 IPX has been exal ined against the follovving requirenlents. Requireluent per 1 5.212 and I<DB 996369 DO1 The radio elennents rTlust have the radio frequency circuitry shielded physical components and tuning capacitor(s)rnay be located external to the shield,but rnust be on the rnodule assernbly Explanation frorn(3rantee
(do not write yes/no,but eXplain why product complies/ho
^`itis aChieVed) Referto externa|pho os This rnodule does have shield GOvertotal complies the requirement The rnodule rnust have buffered rnodulation/data inputs to ensure that the device ill cOmply\ ith Part 1 5 requirements vith any type ofinput signal AIl inputs 0 the rnodules are buffered iogic or n1icroproCessor inputs,total Cornplies the requirement |Please referto schematics The module rnust contain power supply regulation on the rnodule. The module r lust Contain a permanently attached antenna,or contain a unique antenna connector,and be rnarketed and opera ed only with specinc antenna(s),per 15.203,15.204(b) 15.204(c))15212(a),2929(b) The rnodule rnust demonstrate compliance in a stand alone con guration The module must be labeled with its permanently a ixed FCC ID label,or use an electronic display(see l I)B.Publication 784748). dC power,total complies the requirement,please refer ko block diagrarn or
`/odule uses 3 0`
schematics The module contains a glue stick antenna, total cOrnplies the requirenlent,please referto internal photos. The rnodule is connected to the Controlled board when testtng,F lease referto setup photos Refer to the labeI l he rnodule must conlply with all specinG rules applicable to the transmitter,including all the conditions provided in the integration instructions by the grantee. IReferto the user manual The module must comply vVith RF exposure requirements lt s cOrlplies,please referto the f PE report and user manual Nalme:YOng L Date:2023 07 24 TitleI GeneraIIVIanager signature of applicant
iq l FCC l odular Approva|Request Rev 2.1
1 | US agent attestation | Attestation Statements | 94.65 KiB | July 26 2023 |
Chengdu Ebyte Electronic Technology Co., Ltd. U.S. Agent Designation for Service of Process -
Certification Attestation Letter July 25, 2023 Nemko North America, Inc. 303 River Road Ottawa K1V 1H2 Canada ATTN.: Reviewing Engineer FCC ID: 2ALPH-E18MS1PA2-IPX FRN: 0026401604 Per section 2.911 (d)(7) of the FCC rules, (" Chengdu Ebyte Electronic Technology Co., Ltd.") certifies that the equipment for which authorization is sought is designated to the following U.S. Designated agent* for serv,ice of process:
Company Name:
Physical U.S. Company Address:
Agent name:
Agent Email Address:
FRN:
Global Product Services & Consultation LLC 328 W Palm Ave, Monrovia. CA91016 Chis. Chan cschanm@gmail.com 0033406703 The above contact person accepts the obligation for service of process. The applicant accepts to maintain an agent for no less than one year after the grantee has terminated all marketing and importation or the conclusion of any Commission-related proceeding involving the equipment. Applicant Signed:
Signed: 7 4 Ll Designated Agent Signed:
(Required, if different to Applicant):
Signed: 'Af 1j Printed name:
Title:
Company Name:
Date:
Yong Li General Manager Chengdu Ebyte Electronic Technology Co., Ltd. Jul.24, 2023 Printed name:
Title:
Company Name:
Date:
SC3078677 Chi S. Chan Technical Director Global Product Services Consultation LLC 2023-07-24
* the applicant must designate a contact located in the United States for purposes of acting as the applicaJJ.t's agent for service of process, regardless of whether the applicant is a domestic or foreign entity. An applicant located in the United States may designate itself as the agent for service of process .
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2023-07-26 | 2405 ~ 2480 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2023-07-26
|
||||
1 | Applicant's complete, legal business name |
Chengdu Ebyte Electronic Technology Co., Ltd.
|
||||
1 | FCC Registration Number (FRN) |
0026401604
|
||||
1 | Physical Address |
Building B5, Mould Industrial Park, 199# Xiqu Ave West High-tech Zone
|
||||
1 |
Building B5, Mould Industrial Park, 199# Xiqu Ave
|
|||||
1 |
Chengdu, N/A
|
|||||
1 |
China
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
v******@nemko.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2ALPH
|
||||
1 | Equipment Product Code |
E18MS1PA2-IPX
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
Y**** L******
|
||||
1 | Title |
General Manager
|
||||
1 | Telephone Number |
+86-1********
|
||||
1 | Fax Number |
+86-2********
|
||||
1 |
y******@126.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | ZigBee Wireless module | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Single Modular Approval | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Single Modular Approval. Power output listed is conducted. The module grantee is responsible for providing the documentation to the system integrator on restrictions of use, for continuing compliance of the module. The integrator installing this module into their product must ensure that the final composite product complies with the FCC requirements by a technical assessment or evaluation to the FCC rules, including the transmitter operation and should refer to guidance in KDB 996369. Separate approval is required for all other operating configurations, including portable configurations with respect to 2.1093 and different antenna configurations. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Shenzhen Huatongwei International Inspection Co.,
|
||||
1 | Name |
T******** J********
|
||||
1 | Telephone Number |
+86-7********
|
||||
1 |
t******@szhtw.com.cn
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2405.00000000 | 2480.00000000 | 0.0030000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC