0b-esp8266ex_datasheet_en_v4.6
xiaoe WiFi WT8266-S2 产品说明书
WT8266-S2 WiFi ModuleExtreme / Open / Small / EasySpecificationVersion 1.12016/7/13Disclaimer and Copyright NoticeInformation in this document, including URL references, is subject to change without notice.THIS DOCUMENT IS PROVIDED AS IS WITH NO WARRANTIES WHATSOEVER, INCLUDING ANYWARRANTY OF MERCHANTABILITY, NON-INFRINGEMENT, FITNESS FOR ANY PARTICULARPURPOSE, OR ANY WARRANTY OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATIONOR SAMPLE. All liability, including liability for infringement of any proprietary rights, relating to useof information in this document is disclaimed. No licenses express or implied, by estoppel orotherwise, to any intellectual property rights are granted herein.The WiFi Alliance Member Logo is a trademark of the WiFi Alliance.All trade names, trademarks and registered trademarks mentioned in this document are property oftheir respective owners, and are hereby acknowledged.NoteAs the product upgrade or other reasons, this manual may change. Shenzhen Wireless-Tag Technology Co., Ltd has right to modify the contents of this manual without any notice or warning. This manual is only as a guide,Wireless-Tag Technology Co., Ltd Spareno effort to provide accurate information in this manual, but the Wireless-Tag can't guarantee manual there is no problem , all statements in this manual, information and suggestions do not constitute any guarantee of express or implication.Contents1.Overview ....................................................................................................................................................... - 5 -2. Main Features .............................................................................................................................................. - 5 -3. Hardware Specifications .............................................................................................................................. - 6 -3.1 System Diagram ..................................................................................................................................... - 6 -3.2Pin Description ....................................................................................................................................... - 6 -3.3Electrical Characteristic .......................................................................................................................... - 9 -3.3.1Maximum Ratings ............................................................................................................................ - 9 -3.3.2Recommended Operating Environment ......................................................................................... - 9 -3.3.3Digital Port Characteristics .............................................................................................................. - 9 -3.4Power Consumption ............................................................................................................................... - 9 -3.4.1Operating Power Consumption ....................................................................................................... - 9 -3.4.2Standby Power Consumption ........................................................................................................ - 10 -3.5RF Characteristics ................................................................................................................................. - 10 -3.5.1RF Configuration and General Specifications of Wireless LAN ...................................................... - 10 -3.5.2 RF Tx Characteristics ..................................................................................................................... - 11 -3.5.3RF Rx Characteristics ..................................................................................................................... - 11 -4. Mechanical Dimensions ............................................................................................................................. - 11 -4.1Module Size .......................................................................................................................................... - 11 -4.2 Schematics ........................................................................................................................................... - 13 -5. Product Trial .............................................................................................................................................. - 14 -1.OverviewWT8266-S2 Wi-Fi module is a low consumption, high performance Wi-Fi network control module designed by Wireless-Tag. It can meet the IoT application requirements in smart power grids, building automation, security and protection, smart home, remote health care etc.The module's core processor ESP8266 integrates an enhanced version of Tensilica's L106 Diamond series 32-bit processor with smaller package size and 16 bit compact mode, main frequency support 80 MHz and 160 MHz, support RTOS, integrated Wi-Fi MAC / BB / RF / PA / LNA, on-board ceramic antenna and ipex connector.The module supports standard IEEE802.11 b / g / n protocol, a complete TCP / IP protocol stack. It can be used to host the application or to offload Wi-Fi networking functions from another application processor.2. Main Features∙Operating Voltage: 3.3V∙Operating Temperature:-40 - 85°C∙CPU Tensilica L106o RAM 50KB(Available)o Flash 16Mbit∙Systemo802.11 b/g/no IntegratedTensilica L106 ultra-low power 32-bitmicro MCU, with 16-bit RSIC. The CPU clock speed is 80MHz. It can also reach a maximum value of 160MHz.o WIFI 2.4 GHz,supportWPA/WPA2o Ultra-Small 18.6mm*15.0mmo Integrated10 bit high precision ADCo Integrated TCP/IP Stacko IntegratedTR switch, balun,LNA, Power amplifier and matching networko Integrated PLL, Regulator and power source management components, +20 dBm output power in 802.11b modeo Supports antenna diversityo Deep sleep current < 20uA, Power down leakage current < 5uAo Rich interface on processor: SDIO 2.0, (H) SPI, UART, I2C, I2S, IRDA, PWM, GPIOo STBC, 1x1 MIMO, 2x1 MIMO, A-MPDU & A-MSDU aggregation & 0.4s guard intervalo Wake up ,build the connection and transmit packets in < 2mso Standby power consumption<1.0mW (DTIM3)o Support AT remote upgrades and cloud OTA upgradeo Support STA/AP/STA+AP operation modesoFCC/CE/RoHs3. Hardware Specifications3.1 System DiagramESP8266ESP826616MbitSPI FLASH16MbitSPI FLASH 26MHzXTAL26MHz XTAL VDD_MCU VDD_MCU VDD33VDD33WT8266-S22 Χ UART 2 Χ UART 1 Χ I2S 1 Χ I2S 1 Χ ADC 1 Χ ADC 1 Χ SPI 1 Χ SPI GPIOGPIO 1 Χ I2C 1 Χ I2C 1 Χ IR 1 Χ IRFigure-1System Diagram3.2Pin DescriptionFigure-2 Physical Map (Top View)Figure-3 WT8266-S2 Pinout (Top View) Table 1 Pin Definition and DescriptionNote:Table-2 Pin ModeTable-3 Interface Description3.3Electrical Characteristic 3.3.1Maximum RatingsTable- 4. Maximum Ratings3.3.2Recommended Operating EnvironmentTable -5 Recommended Operating Environment3.3.3Digital Port CharacteristicsTable -6 Digital Port Characteristics3.4Power Consumption3.4.1Operating Power ConsumptionTable -7 Operating Power ConsumptionNote: RX mode data packet length is 1024 bytes; 3.4.2Standby Power ConsumptionThe following current consumption is based on 3.3V supply and 25°C ambient with internalregulators.Values are measured at antenna port without SAW filter. All thetransmissionmeasurements valuesare based on 90% duty cycle, continuous transmission mode.Table -8 Standby Power Consumption①: Modem-Sleep requires the CPU to be working, as in PWM or I2S applications. According to802.11 standards (like U-APSD), it saves power to shut down the Wi-Fi Modem circuit whilemaintaining a Wi-Ficonnection with no data transmission. E.g. in DTIM3, to maintain a sleep 300mswake 3ms cycle to receive AP’s Beacon packages, the current is about 15mA.②: During Light-Sleep, the CPU may be suspended in applications like Wi-Fi switch. Withoutdatatransmission, the Wi-Fi Modem circuit can be turned off and CPU suspended to save poweraccording to the 802.11 standard (U-APSD). E.g. in DTIM3, to maintain a sleep 300ms-wake 3mscycle to re ceive AP’s Beacon packages, the current is about 0.9mA.③: Deep-Sleep does not require Wi-Fi connection to be maintained. For application with long timelags between data transmission, e.g. a temperature sensor that checks the temperature every 100s,sleep 300s and waking up to connect to the AP (taking about 0.3~1s), the overall average current isless than 1mA. 3.5RF Characteristics3.5.1RF Configuration and General Specifications of Wireless LANTable-9 RF Configuration and General Specifications of Wireless LAN3.5.2 RF Tx CharacteristicsTable-10 Emission Characteristics3.5.3RF Rx CharacteristicsTable-11RF Receiving Characteristics4. Mechanical Dimensions4.1Module SizeFigure -4 Module Size (Front View)Figure -5 Module Size (Side View)Figure -6 Module Size - shieldingcase (Side View)4.2 SchematicsFigure -7 WT8266-S2 Schematics5. Product Trial∙∙ Forum :∙ Technical Support :**************************-Linkedin: /company/9452027?trk=cws-btn-overview-0-0。
esb8266参数
esb8266参数
您可能指的是ESP8266,这是一种常用的Wi-Fi模块。
ESP8266有很多参数和配置选项,以下是一些常见的参数:1. `AT+CWMODE`:设置Wi-Fi模式,有三种模式可选:Station (客户端模式)、SoftAP(热点模式)和SoftAP+Station(同时支持客户端和热点模式)。
2. `AT+CWJAP`:连接到指定的Wi-Fi网络,需要提供网络名称和密码。
3. `AT+CIPSTART`:建立TCP或UDP连接到目标服务器,需要提供服务器的IP地址和端口号。
4. `AT+CIPSEND`:发送数据到已经建立的TCP或UDP连接中。
5. `AT+CIPCLOSE`:关闭当前的TCP或UDP连接。
6. `AT+CIFSR`:获取ESP8266的IP地址信息。
7. `AT+RST`:重启ESP8266模块。
以上只是一些常见的命令和参数,ESP8266还有很多其他的AT指令和配置选项可供使用。
具体的参数和用法可以参考ESP8266的官方文档或相关资料。
低功耗WIFI芯片ESP8266规格书
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↯抐 802.11n, MCS7, POUT =+14dBm 㘴㟅 802.11b, ▔栎 1024 ⷦ唑, -80dBm 㘴㟅 802.11g, ▔栎 1024 ⷦ唑, -70dBm 㘴㟅 802.11n, ▔栎 1024 ⷦ唑, -65dBm 侊兮㈔㧉㲰㆞ 䂀ㄵ䧰䦯 唑厌㲰㆞ DTIM 1 唑厌㲰㆞ DTIM 3 ␂㧉
安信可-NodeMCU-8266 规格书-中文说明书
NodeMCU-8266规格书版本V1.2版权©2020免责申明和版权公告本文中的信息,包括供参考的URL地址,如有变更,恕不另行通知。
文档“按现状”提供,不负任何担保责任,包括对适销性、适用于特定用途或非侵权性的任何担保,和任何提案、规格或样品在他处提到的任何担保。
本文档不负任何责任,包括使用本文档内信息产生的侵犯任何专利权行为的责任。
本文档在此未以禁止反言或其他方式授予任何知识产权使用许可,不管是明示许可还是暗示许可。
文中所得测试数据均为安信可实验室测试所得,实际结果可能略有差异。
Wi-Fi联盟成员标志归Wi-Fi联盟所有。
文中提到的所有商标名称、商标和注册商标均属其各自所有者的财产,特此声明。
最终解释权归深圳市安信可科技有限公司所有。
注意由于产品版本升级或其他原因,本手册内容有可能变更。
深圳市安信可科技有限公司保留在没有任何通知或者提示的情况下对本手册的内容进行修改的权利。
本手册仅作为使用指导,深圳市安信可科技有限公司尽全力在本手册中提供准确的信息,但是深圳市安信可科技有限公司并不确保手册内容完全没有错误,本手册中的所有陈述、信息和建议也不构成任何明示或暗示的担保。
文件制定/修订/废止履历表版本日期制定/修订内容制定核准V1.02016.10.04首次制定杨小飞V1.12019.03.04资料更改谢一骥V1.22020.04.23资料更改谢一骥目录一、产品概述 (5)二、电气参数 (7)三、外观尺寸 (8)四、管脚定义 (9)五、原理图 (11)六、设计指导 (11)七、回流焊曲线图 (12)八、包装信息 (13)九、联系我们 (13)一、产品概述NodeMCU-8266开发板是安信可针对ESP8266模组而设计的一款核心开发板,该开发板延续了NodeMCU1.0经典设计,引出全部I/O至两侧的排针,开发者可以根据自己的需求连接外设。
使用面包板进行开发和调试时,两侧的标准排针可以使操作更加简单方便。
esp8266-01wifi模块用户手册
ESP8266 WiFi模块用户手册目录术语和缩写 ....................................................... 错误!未定义书签。
1. 产品简介 ......................................................... 错误!未定义书签。
. 概述 ......................................................... 错误!未定义书签。
产品特性 ................................................. 错误!未定义书签。
模块封装 ................................................. 错误!未定义书签。
模块基本参数 ............................................. 错误!未定义书签。
. 硬件介绍 ..................................................... 错误!未定义书签。
. 功耗 ......................................................... 错误!未定义书签。
. 射频指标 ..................................................... 错误!未定义书签。
. 尺寸 ......................................................... 错误!未定义书签。
. WiFi 天线 .................................................... 错误!未定义书签。
. 推荐炉温曲线 ................................................. 错误!未定义书签。
ESP8266_Module Application Design Guide
Reference schematic
Espressif Systems Confidential 2014年8月29日
射频天线接口
芯片输出阻抗为 50 ,无需对芯片进行匹配,但建议保留 型匹配网络 对天线进行匹配。
50 Ω
Reference schematic
Espressif Systems Confidential 2014年8月29日
ESP8266EX特点简介:
ESP8266EX 模组的器件只需要 7 个电阻电容电感、 1 个无源晶振 及 1 个 flash 组成。 射频部分实现全内部集成,并且内部带有自动校准功能。
量产无需专用的仪器来测试。
Espressif Systems Confidential
2014年8月29日
Pin 8 9 10 12 13 14 15 16 18 19 20 21 22 23 24 25 26 Name XPD_DCDC MTMS MTDI MTCK MTDO GPIO2 GPIO0 GPIO4 SD_DATA_2 SD_DATA_3 SD_CMD SD_CLK SD_DATA_0 SD_DATA_1 GPIO5 U0RXD U0TXD 高电平 输出高电平 输入且有内部上拉电阻 输入且有内部上拉电阻 输入且有内部上拉电阻 输入且有内部上拉电阻 输出,有很多电平翻转 输出,有很多电平翻转 输入且有内部上拉电阻 输入且高阻 输入且高阻 输入且高阻 输入且高阻 输入且高阻 输入且高阻 输入且有内部上拉电阻 输入且有内部上拉电阻 输出,有很多电平翻转
第一次软件下载前
必须功能 HSPICLK HSPIQ HSPID HSPICS
天线控制 Yes [0]
可做扩展 GPIO16 (可内部下拉) GPIO14 (可内部上拉) GPIO12 (可内部上拉) GPIO13 (可内部上拉) GPIO15 (可内部上拉) GPIO2 (可内部上拉)
ESP8266系列芯片技术文档变更说明书
文件编号Document No.ESP-00-2-007-03文件名称Document Name产品/工艺变更通知Product/Process Change Notice(PCN)文件版本Document Version1.1保存期限Retention Period3年3 yearsESP8266 系列芯片技术文档变更ESP8266 Series Chip Product Technical Document ChangePCN编号PCN No.PCN-02-20190716提出日期Issue Date of PCN2019/7/16产品名称Product Name ESP8266EXESP8285变更日期Proposed Date of Change2019/8/1封装类型/尺寸Package Type/Size QFN 5X5首次出货日期Proposed Date of FirstShipmentNA客户批准/Customer Consent: 需要批准/Approval Required通知,无需批准/Notification, Approval Not Required变更等级/Classification of Change: 主要变更/Major 轻微变更/Minor变更原因/Reason for Change:ESP8266 系列产品技术文档中有关产品在Deep-sleep 模式下的GPIO hold 功能描述有误,故进行相关内容的修改。
The description of GPIO hold function of ESP8266 series of products working in the Deep-sleep mode in the technical documents of ESP8266 series of products is incorrect, so the relevant content needs to be modified.变更描述/Description of Change:删除ESP8266 系列产品的技术文档中有关产品在Deep-sleep 模式下的GPIO hold 功能的描述。
ESP8266新手入门调试指导(补全)
ESP8266 ESP-01调试全进程–利用指导测试&编写&汇总by fairyhui一接线注意:本系统是! 请勿接5V !新版(全IO口引出版):此版本假假想从FLASH启动进入AT系统,只需CH-PD引脚接VCC或接上拉(不接上拉的情形下,串口可能无数据),其余三个引脚可选择悬空或接VCC(但群里(@云海之梦)反映接VCC后致使无法正常启动)(GPIO0为高电平代表从FLASH启动,GPIO0为低电平代表进入系统升级状态,此刻能够通过串口升级内部固件RST(GPIO16)可做外部硬件复位利用)测试系统不同,接线方式也选择多多,请列位依照自己的情形进行选择,推荐接法:在CH-PD和VCC之间焊接电阻后,将UTXD,GND,VCC,URXD连上USB-TTL(二者的TXD和RXD交叉接)即可进行测试旧版(AT指令版):该版本中间四根线悬空即可。
群里(@ZR(小R))反映:接线正确的情形下,连上USB转TTL,红灯蓝灯闪烁一下以后全灭,此现象为模块电流过大,超过了USB转TLL模块的经受范围。
解决方法:1. CH-PD换一个阻值更大的上拉电阻;2.换个经受电流大一点USB转TLL模块(群众们也能够自己改造)(@ZR(小R))反映:在供电不足的情形下,收到的响应为乱码。
请列位检查下供电电压是不是足够。
二上电:正常工作验证本模块能够工作在三种模式:1. STA 2 .AP 3 .AP+STA,出厂设置为第三种上电后,蓝色灯微弱闪烁后熄灭,红灯长亮1. 搜索无线网络,可见ESP_XXXXXX已经处于列表中(后面的数字是MAC地址后几位)连接该网络以后,查看连接状态:搜索该网络,也可连接上:2.利用进行测试:软件配置如以下图:注意:(1)波特率一样在出厂情形下默许的是115200。
假设是在115200情形下收到的是乱码能够试试其他波特率(旧版本的默许波特率可能是其他数值)。
(2)在输入命令后必需再按一下回车键,然后再按发送!3.利用进行测试注意:勾选上“发送新行”发送死令AT+RST(重启模块),返回如下:三测试测试前先阅读:(1)Espressif IoT AT指令集描述了该模块支持的AT命令该网页命令描述更清楚一些(2) ESP8266测试方式汇总.pdf 测试的具体流程测试进程参照:ESP8266作为TCP效劳器端利用心得.pdf 犯错的缘故分析及处置四测试例程原先推荐的测试例程比较粗略,那个地址放上我自己的测试进程,明白得可能有误,仅供参考。