ZLG9021P0-1蓝牙模块数据手册 V0.93

HC-09蓝牙串口通信模块用户手册V1.3地址：广州市天河区科韵路天河软件园建工路19号608室广州汇承信息科技有限公司邮编：510665电话：************网址：软件版本：HC-09V1.3硬件版本：V1.0发布日期2020年04月29日修改记录1.增加“A T+LED”指令。

（2020.04.29）2.修正IBEACON功能。

（2020.05.12）HC-09蓝牙串口通信模块是新一代的基于Bluetooth Specification BLE蓝牙协议的数传模块。

无线工作频段为2.4GHz ISM，调制方式是GFSK。

模块最大发射功率为0dBm，接收灵敏度-93dBm，空旷环境下和iphone4s可以实现50米超远距离通信。

模块采用邮票孔封装方式，可贴片焊接，模块大小18.5mm×13mm×2.2mm，很方便客户嵌入应用系统之内。

模块采用TI的CC2541芯片，配置256K Byte空间，支持AT指令，用户可根据需要更改角色（主、从模式）以及串口波特率、设备名称等参数，使用灵活。

产品尺寸管脚定义HC-09模块适用于贴片焊接，共有16个引脚，板载PCB天线，引脚具体定义如下表：引脚定义I/O方向说明1GND模块公共地2VCC输入电源脚，要求直流3.3V电源，供电电流不小于100mA 3TXD输出UART输出口，3.3V TTL电平4RXD输入，弱上拉UART输入口，3.3V TTL电平5DC输入仿真、烧录时钟脚，请悬空6DD输入/输出仿真、烧录数据脚，请悬空7SCL悬空8SDA悬空9P1.1输出模块连线指示，连线前为高电平，连线后输出低电平。

10P1.0悬空11P0.7输出模块指示灯输出脚（注①）12P0.6输入，弱上拉主机清除记忆，连线状态下会主动断线（注②）13P0.5悬空14P0.3悬空15P0.2悬空16RST输入，弱上拉模块复位脚，要求不小于10ms的低电平进行复位注①：模块指示灯输出脚，高电平输出，接LED时请串接电阻。

BRD4301A Reference ManualManualThe Blue Gecko family of the Silicon Labs' Bluetooth modules delivers a high-perform-ance, low energy and easy-to-use Bluetooth solution integrated into a small form factorpackage. Blue Gecko Bluetooth modules combine an integrated antenna, a high per-formance Bluetooth transceiver, an energy efficient 32-bit MCU and a ready to useBluetooth software and SDK.The ultra-low power operating modes and fast wake-up times of the Silicon Labs' ener-gy friendly 32-bit MCUs, combined with the low transmit and receive power consump-tion of the Bluetooth radio, result in a solution optimized for battery powered applica-tions.The Silicon Labs fully certified Bluetooth modules and software are designed to help de-velopers accelerate time to market and reduce development costs and compliance risksby providing a versatile, plug-and-play Bluetooth solution.Development and evaluation of the BGM113 Bluetooth module is possible by attachingthe BRD4301A board to the Wireless Starter Kit (WSTK) Mainboard. This gives accessto the WSTK display, buttons and additional features offered by using the available Ex-pansion Boards.Rev. 1.00BRD4301A Radio Board Description 1. BRD4301A Radio Board DescriptionThe BRD4301A Radio Board contains the BGM113 Blue Gecko Bluetooth Module soldered onto a carrier board with two connectors. The connectors on the carrier board are used for attaching the BRD4301A on to a Silicon Labs Wireless Starter Kit Main-board BRD4001A and together these two boards and the software in the BGM113 Module make up the Blue Gecko Bluetooth Module Wire-less Starter Kit.The BGM113 Bluetooth module and the software are designed to help developers accelerate time to market with end-product design projects. This versatile plug-and-play Bluetooth solution also reduces development costs and minimizes compliance risks. The BGM113 Module is ideal for applications requiring Bluetooth connectivity such as used in connected home, health and fitness, wearables and point-of-sale terminal applications. The BGM113 includes an energy friendly ARM Cortex M4 MCU.A major benefit offered by the BGM113 is that no RF or Bluetooth protocol expertise is required. The BGM113 can be used as a periph-eral along with an external host MCU or applications may be embedded into the built-in MCU using the Bluegiga BGScript™ scripting language. Complete standalone solutions may thus be created with minimal need for external components.1.1 BGM113 Module Block DiagramThe BGM113 Module block diagram is illustrated in the figure below.Lowest power mode with peripheral operational:EM0—ActiveEM2—Deep SleepEM1—Sleep EM4—Hibernate EM4—ShutoffEM3—StopFigure 1.1 Block Diagram| Smart. Connected. Energy-friendly.Rev. 1.00 | 12. System SummaryIntegrated Bluetooth radio and energy friendly MCU•Bluetooth 4.1 compliant and upgradeable to Bluetooth 4.2.•TX power up to +3 dBm•RX sensitivity down to -93 dBm•Integrated high-efficiency chip antenna•38.4 MHz Cortex M4 with DSP instructions and floating-point unit for efficient signal processing•256 kB Flash memory•32 kB RAMLow Energy Consumption•8.8 mA TX current @ 0 dBm•8.7 mA RX current•63 μA/MHz in Energy Mode 0 (EM0)• 1.4 μA EM2 Deep Sleep Current (full RAM retention) and CRYO timer running from ULFRCO• 1.1 μA EM3 Stop current (State/RAM retention, RFSENSE disabled)•Wake on Radio with signal strength detection, preamble pattern detection, frame detection and timeoutWide selection of MCU peripherals•12-bit 1 Msamples/s ADC• 2 x Analog comparator•IDAC (current output DAC)•Up to 14 pins connected to analog channels (APORT) shared between analog comparators, ADC and IDAC •14 General Purpose I/O pins with output state retention and asynchronous interrupts•8-channel DMA controller•12-channel Peripheral Reflex System•Hardware Crypto Acceleration with public key support•Protocol Timer tightly coupled to the radio• 2 x 16-bit Timer/Counter• 3 + 4 Compare/Capture/PWM Channels•32-bit Real Time Counter and Calendar•16-bit Low Energy Timer for waveform generation•16-bit Ultra Low Energy Timer/Counter for periodic wake-up from any Energy Mode•16-bit Pulse Counter with asynchronous operation•Watchdog Timer with dedicated RC Oscillator @ 50 nA• 2 x Universal Synchronous/Asynchronous Receiver/Transmitter (UART/SPI/Smart Card (ISO 7816) / IrDA/I2S)•Low Energy UART (LEUART)•I²C interface with SMBus support and address recognition in EM3 StopIntegrated Bluetooth Smart Software•Bluetooth 4.1 compliant•Central and peripheral roles•Up to 8 simultaneous connections•L2CAP, ATT, GAP, SM and GATT•Any GATT based Bluetooth Smart profile•100 kbps throughputFlexible easy to use APIs•BGAPI™ serial protocol API over UART for modem usage•BGLIB™ host API/library which implementing BGAPI serial protocol•BGScript™ scripting language for standalone usage•Profile Toolkit for creating GATT based servicesFree Software Development Kit (SDK)•BGLIB C source code•BGScript development tools•BGScript and BGLIB example applications•Profile Toolkit examples•DocumentationCertifications•Bluetooth qualified (pending)•CE, FCC, IC, Japan and South-Korea (pending)Wide Operating Range•Supply voltage: 1.85 V to 3.8 V with DC/DC bypass mode •Supply voltage: 2.4 V to 3.8 V with DC/DC enabled •Temperature range: -40°C to +85°C3. BRD4301A Connector3.1 BRD4301A Connector Pin AssociationsThe figure below shows the pin mapping on the connector to the radio pins and their corresponding function on the Wireless Starter Kit Mainboard.GNDF9 / PF3 / VCOM_RTS 3v3NC / P36P200Upper RowNC / P38NC / P40NC / P42NC / P44DBG_SWDIO / PF1 / F0NC / F14BUTTON0 / PD14 / F12LED0 / PD14 / F10VCOM_CTS / PF2 / F8DBG_RESET / F4NC / F2NC / F16VCOM_TX / PA0 / F6PTI_DATA / PB12 / F20NC / F18USB_VBUS5VBoard ID SCLGNDBoard ID SDAUSB_VREG F7 / PA1 / VCOM_RX F5 / tied high / VCOM_ENABLE F3 / NCF1 / PF0 / DBG_SWCLK P45 / NCP43 / NC P41 / NC P39 / NC P37 / tied high / SENSOR_ENABLE F11 / PD15 / LED1F13 / PD15 / BUTTON1F15 / NC F17 / NCF19 / PB13 / PTI_FRAME F21 / NC GNDVMCU_INEXP3 / PF2 / P0P201Lower RowEXP5 / PF3 / P2NC / P4NC / P6GNDVRF_INP35 / NC P7 / PD13 / EXP10P5 / PB13 / EXP8P3 / PB12 / EXP6P1 / PB11 / EXP4P33 / NC P31 / NC P29 / NC P27 / PF1P25 / PF0P23 / PD15P21 / PD14P19 / NC P17 / NC P15 / NC P13 / PC10 / EXP16P11 / PA1 / EXP14P9 / PA0 / EXP12NC / P34NC / P32NC / P30NC / P28NC / P26NC / P24NC / P22NC / P20NC / P18NC / P16NC / P14EXP15 / PC11 / P12NC / P10NC / P8Figure 3.1 Radio Board Connectors3.2 BRD4301A Connector TypeBRD4301A contains two dual-row, female socket, 0.05" pitch polarized connectors (P/N: SFC-120-T2-L-D-A-K-TR) which provide the interface to the Wireless Starter Kit Mainboard. The Mainboard has the corresponding male header pin connectors (P/N: TFC-120-02-F-D-LC-ND).BRD4301A ConnectorMechanical Details 4. Mechanical DetailsModule board is illustrated in the figures below.The BGM113 BluetoothFigure 4.1 BRD4301A Top View Array Figure 4.2 BRD4301A Bottom ViewRev. 1.00 | 5Board Revision History and Errata 5. Board Revision History and Errata5.1 Revision HistoryRadio Board revision is printed on the backside of the BRD4301A Radio Board.Table 5.1. Radio Board Revision History5.2 ErrataRev. A00No known errata for this board revision. | Smart. Connected. Energy-friendly.Rev. 1.00 | 6Document Revision History 6. Document Revision HistoryRevision 1.002015-07-08Initial document revision.Silicon Laboratories Inc.400 West Cesar Chavez Austin, TX 78701USASmart.Connected.Energy-Friendly .Products/productsQuality /qualitySupport and CommunityDisclaimerSilicon Laboratories intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Laboratories products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and "Typical" parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Laboratories reserves the right to make changes without further notice and limitation to product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Silicon Laboratories shall have no liability for the consequences of use of the information supplied herein. This document does not imply or express copyright licenses granted hereunder to design or fabricate any integrated circuits. The products are not designed or authorized to be used within any Life Support System without the specific written consent of Silicon Laboratories. A "Life Support System" is any product or system intended to support or sustain life and/or health, which, if it fails, can be reasonably expected to result in significant personal injury or death. Silicon Laboratories products are not designed or authorized for military applications. Silicon Laboratories products shall under no circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, or missiles capable of delivering such weapons.Trademark InformationSilicon Laboratories Inc.® , Silicon Laboratories®, Silicon Labs®, SiLabs® and the Silicon Labs logo®, Bluegiga®, Bluegiga Logo®, Clockbuilder®, CMEMS®, DSPLL®, EFM®, EFM32®, EFR, Ember®, Energy Micro, Energy Micro logo and combinations thereof, "the world’s most energy friendly microcontrollers", Ember®, EZLink®, EZRadio®, EZRadioPRO®, Gecko®, ISOmodem®, Precision32®, ProSLIC®, Simplicity Studio®, SiPHY®, Telegesis, the Telegesis Logo®, USBXpress® and others are trademarks or registered trademarks of Silicon Laborato-ries Inc. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is a registered trademark of ARM Limited. All other products or brand names mentioned herein are trademarks of their respective holders.。

ZLG52810P0-1-TC 广播自定义数据以及iBeacon蓝牙模块AN02040201 1.0.03 Date:2020/12/17©2020 Guangzhou ZHIYUAN Electronics Co.,Ltd.修订历史目录1.简介 (1)1.1概述 (1)1.2举例 (1)1.2.1可发现可连接+ 自定义数据广播 (1)1.2.2可发现不可连接+ 自定义数据广播 (1)1.2.3标准iBeacon (1)1.2.4取消自定义广播数据 (2)2.免责声明 (3)1.简介1.1 概述客户在开发产品中有各种各样的需求，针对这种情况，ZLG52810P0-1-TC模块提供简洁的AT指令接口让客户按需配置自己的广播包数据，满足需求。

本问中提到的“自定义广播包数据”为广播包中AD Type = Manufacturer Specific Data的数据。

温馨提示：模块连接之后，不能进行广播，只有断开连接才能广播。

1.2 举例下面将举例详细说明如何通过AT指令配置属于自己的模块。

1.2.1 可发现可连接+ 自定义数据广播需求1：我希望在广播包中有自定义数据0x01 0x02 0x03 0x04，连接之后又能支持透传功能。

第一步，用户输入以下指令：AT+ADTY:0第二步，用户输入以下指令：AT+MFSD:01020304第一步将模块配置为可发现可连接模式，第二步输入自定义数据。

1.2.2 可发现不可连接+ 自定义数据广播需求2：模块不需要透传功能，不希望被手机或者其他设备连接，只需不断对外广播自定义数据0xaa 0xbb 0xcc 0xdd 就可以了。

第一步，用户输入以下指令：AT+ADTY:1第二步，用户输入以下指令：AT+MFSD:AABBCCDD第一步将模块配置为可发现不可连接模式，第二步输入自定义数据，需要注意的是16进制数转字符时候都要用大写字母表示，如果输入“AT+MFSD:aabbccdd”则会返回错误指令。

FS-QN9021模组数据手册版本：V1.1日期：2015-07-27版本日期描述作者审核1.02015.031.12015.071.产品概述FS-QN9021是采用NXP单模BLE(Bluetooth Low Energy)芯片QN9021作为核心的超低功耗射频收发模块，遵循低功耗蓝牙协议，适用于短距离无线通信组网领域。

QN9021是一款集成了32位ARM Cortex-M0处理器，2.4GHz RF收发器，以及丰富的存储资源和外设的优质芯片，搭配板载高性能倒F型天线，使得模组具备了高灵敏度、高处理能力、低功耗、低成本等特点。

此外，在搭配板载天线的同时预留了外置天线接口，采用半孔封装形式，尺寸小（12.75mm*17.80mm*1mm），应用场合广泛。

2.产品特性（1）整体成本低，性能优秀（2）主从一体，可同时连接8个从设备（3）超低功耗（4）OTA升级技术（5）多种接口（I2C、SPI、UART）3.应用范围（1）运动&健康产品（2）智能家居产品（3）PC无线外设（4）智能穿戴设备（5）汽车电子设备4.规格参数技术指标参数备注工作频率2400MHz~2483.5MHz频率偏移±5kHz发射功率-20dBm~4dBm步进2dBm接收灵敏度-95dBm W/O DC/DC工作电压 2.4V~3.6V发射电流13.4mA W/O DC/DC接收电流13.7mA W/O DC/DC待机电流2uA数据接口Uart、SPI、I2C通讯距离50m无遮挡可视距离工作温度-40℃~85℃尺寸大小17.80mm*12.75mm*1mm5.引脚定义管脚编号引脚名称描述1VCC Power supply2P0_70:SWCLK(I):Default to SWCLK(input with pull-up)1:P0_7(I/O):GPIO2:AIN3(AI):ADC input channel33:ACMP1-(AI):Analog comparator1negative input 3P0_60:SWDIO(I/O):Default to SWDIO(input with pull-up)1:P0_6(I/O):GPIO2:AIN2(AI):ADC input channel23:ACMP1+(AI):Analog comparator1positive input 4P0_30:P0_3(I/O):GPIO1:CLKOUT0(O):Clock output02:T0_ECLK(I/O):Timer0external clock input or PWMoutput5P0_00:P0_0(I/O):GPIO1:TXD0(O):UART0Tx data output with pull-up2:DAT0(I/O):In4-wire mode,SPI0output data.In3-wiremode,data I/O3:RTCI(I):RTC input capture6P1_70:P1_7(I/O):GPIO1:RXD0(I):UART0Rx data input2:DIN0(I):SPI0input data in4-wire mode,invalid in3-wire mode3:T0_0(O):Timer0PWM output7P3_00:P3_0(I/O):GPIO1:T2_1(I/O):Timer1input capture/clock or PWM output2:AIN0(AI):ADC input channel03:ACMP0+(AI):Analog comparator positive input 8P3_10:P3_1(I/O):GPIO1:T0_2(I/O):Timer0input capture/clock or PWM output2:AIN1(I):ADC input channel13:ACMP0-(I):Analog comparator negative input 9ANT Antenna10GND Ground11GND Ground12RESET Hardware reset,active low13P2_30:P2_3(I/O):GPIO1:SDA(I/O):I2C data transmit2:ACMP0_O(O):Analog comparator result output3:T3_0(I/O):Timer3input capture/clock or PWM output 14P2_40:P2_4(I/O):GPIO1:SCL(I/O):I2C master clock output with pull-up2:PWM1(O):PWM1output3:T3_ECLK(I/O):Timer3external clock input or PWMoutput15P2_60:P2_6(I/O):GPIO1:PWM1(O):PWM1output2:T2_0(I/O):Timer2input capture/clock or PWM output 16P2_70:P2_7(I/O):GPIO1:ACMP1_O(O):Analog comparator result output2:PWM0(O):PWM0output3:T1_ECLK(I/O):Timer1external clock input or PWMoutput17P1_00:P1_0(I/O):GPIO1:DIN1(I):SPI1input data in4-wire mode,invalid in3-wire mode2:RXD1(I):UART1Rx data3:T2_ECLK(I/O):Timer2external clock input or PWMoutput18P1_10:P1_1(I/O):GPIO1:DAT1(I/O):In4-wire mode,SPI1output data.In3-wiremode,data I/O2:TXD1(O):UART1Tx data3:T1_0(I/O):Timer1input capture/clock or PWM output 19P1_20:P1_2(I/O):GPIO1:nCS1_0(I/O):SPI1slave select for master/slave mode2:CTS1(I):UART1CTS3:ADCT(AI):ADC conversion external trigger20P1_30:P1_3(I/O):GPIO1:SPICLK1(I/O):SPI1clock2:RTS1(O):UART1RTS3:CLKOUT1(O):Clock output16.注意事项（1）假若将FS-QN9021模组焊接在PCB板上，天线对应位置需要做禁止铺铜处理，否则会对蓝牙信号造成干扰。

页数：第1 页，共4 页描述XL9021提供的演示板，用于DC5V~36V输入，输出电流2.5A的降压恒压应用演示，最高转换效率可以达到95%。

XL9021是同步整流降压型DC-DC转换芯片，固定开关频率150KHz，可减小外部元器件尺寸，方便EMC设计。

芯片具有出色的线性调整率与负载调整率，输出电压支持1.25V~25V间任意调节。

芯片内部集成短路保护、过流保护、过温保护等可靠性模块。

XL9021为标准SOP8封装，集成度高，外围器件少，应用灵活。

DEMO原理图引脚介绍物料清单页数：第2 页，共4 页DEMO实物图实物图正面实物图反面PCB布局PCB顶层截图PCB底层截图页 数：第 3 页， 共 4 页典型性能参数E f f i c i e n c y (%)Output current(A)O u t p u t v o l t a g e (V )Output current(A)5.0V 输出效率曲线 5.0V 输出线性调整率与负载调整率曲线瞬态负载响应波形瞬态负载响应波形（VIN=12V ，VOUT=5.0V ，IOUT=0.1至1A ） （VIN=24V ，VOUT=5.0V ，IOUT=0.1至1A ）EN 引脚开关机波形 EN 引脚开关机波形（VIN=12V ，VOUT=5.0V ，IOUT=0.5A ） （VIN=24V ，VOUT=5.0V ，IOUT=0.5A ）页数：第4 页，共4 页应用信息输入电容选择在连续模式中，转换器的输入电流是一组占空比约为VOUT/VIN的方波。

为了防止大的瞬态电压，必须采用针对最大RMS电流要求而选择低ESR(等效串联电阻)输入电容器。

对于大多数的应用，1个100uF的输入电容器就足够了，它的放置位置尽可能靠近XL9021的位置上。

最大RMS电容器电流由下式给出：IRMS≈IMAX*√VOUT(VIN-VOUT)VIN其中，最大平均输出电流IMAX等于峰值电流与1/2 峰值纹波电流之差，即IMAX=ILIM-△IL/2。

Tel: 949.610.0008Approved & CertifiedRF ModuleDATASHEETShrunk an Arduino to the size of a finger-tipand made it Wireless!RFduino is a Bluetooth 4.0 Low Energy BLE RF Modulewith Built-In ARM Cortex M0 Microcontroller for Rapid Development and Prototyping ProjectsSimple to use Arduino IDE and sketches running on professional grade hardwareRFD22121 USB Shield RFD22122 RGB LED / Button Shield RFD22123 S ervo Shield RFD22124 PCB USB Shield RFD22125 Proto Shield An RFduino "Shield" is a modular accessory that directly plugs into the RFduino.RFD22126 D ual AAA Battery ShieldRFD22127 Single AAA Battery Shield RFD22128 CR2032 Battery Shield RFD22130 MicroSD Shield RFD22131 Dual Relay Shield RFD22102 RFduino DIPStackable & plugs directly into breadboards RFD22102 RFduino DIP Based On RFD22301 RF Digital RF Module RFD90101, RFD90102, RFD90103, RFD90104, RFD90105 Eval / Dev KitsTel: 949.610.0008Approved & CertifiedRF ModuleDescriptionMin Max NotesVDD - Supply Voltage2.1 V3.6 V General Purpose I/O (GPIO) input high voltage0.7 * VDD VDD General Purpose I/O (GPIO) input low voltage VSS 0.3 * VDD Output standard drive current Output high drive currentMax 3 pinsULP Current with RC OSC RunningTransmit Current Receive Current ARM CPU Running Current Dimensions:X: 0.900" (22.86mm) Y: 1.140" (28.95mm)Z: 0.725" (18.4mm) RFD22121 USB Programmer (Included in dev kits)Tel: 949.610.0008Approved & CertifiedRF ModuleTel: 949.610.0008Approved & Certified RF ModuleThe links below direct to the App Store, where you can download the 4 sample apps to your iOS device (i.e. iPad / iPhone). Temperature App:https:///us/app/rfduino-temperature/id668832196?mt=8Color Wheel App:https:///us/app/rfduino-colorwheel/id685753295?mt=8Approved & Certified RF ModuleTel: 949.610.0008Dimensions:X: 0.900" (22.86mm)Y: 1.514" (38.46mm)Z: 0.725" (18.4mm)RFD22122 RGB LED / Pushbutton ShieldThe RFD22122 RGB LED / Pushbutton shield plugs onto the RFduino. It has 2 button inputs with 10k resistor pull downs and it also has an RGB LED with series LEDs.Dimensions:X: 0.900" (22.86mm)Y: 0.920" (23.37mm)Z: 0.725" (18.4mm)Approved & Certified RF ModuleTel: 949.610.0008Dimensions:X: 0.900" (22.86mm)Y: 1.400" (35.56mm)Z: 0.725" (18.4mm)RFD22124 PCB USB ShieldThe RFD22124 PCB USB shield is the exact same item as the RFD22121 USB shield shown above, except it does not have a formed metal USB connector, it instead uses a PCB type USB connector.Dimensions:X: 0.900" (22.86mm)Y: 1.384" (35.15mm)Z: 0.725" (18.4mm)Approved & Certified RF ModuleTel: 949.610.0008Dimensions:X: 0.900" (22.86mm)Y: 0.900" (22.86mm)Z: 0.722" (18.34mm)RFD22126 Dual AAA Battery ShieldThe RFD22126 Dual AAA Battery shield, requires two AAA batteries. It has a step-up regulator that is set to supply 3.3V output, even when the AAA batteries drop in voltage as they run down over time.Dimensions:X: 1.000" (25.54mm)Y: 3.050" (77.47mm)Z: 0.900" (22.86mm)Tel: 949.610.0008Approved & CertifiedRF ModuleADimensions:X: 0.900" (22.86mm)Y: 2.980" (75.69mm) Z: 0.922" (23.42mm)The RFD22128 CR2032 Coin Battery shield, requires one CR2032 3V battery.RFD22128 CR2032 Coin Battery Shield Dimensions:X: 0.900" (22.86mm) Y: 1.850" (46.99mm) Z: 0.720" (18.3mm)Approved & Certified RF ModuleTel: 949.610.0008Dimensions:X: 0.900" (22.86mm)Y: 0.910"(23.11mm)Z: 0.725" (18.4mmRFD22131 Dual Relay ShieldThe RFD22131 Dual Relay shield provides two SPDT, independently controlled relays.Dimensions:X: 0.900" (22.86mm)Y: 1.400" (35.56mm)Z: 0.775" (19.69mm)Approved & Certified RF ModuleTel: 949.610.0008RFD90103 RFduino Dev KitApproved & Certified RF ModuleTel: 949.610.0008CE, ETSI, IC, FCC Compliance InformationThe RFD22301 is IC and FCC Modular Approved and Certified for Canada and USA, therefore for use of the RFD22301 module in your product does not require further IC or FCC testing for an intentional radiator for compliance of the RFD22301. Detail instructions and IC and FCC notices shown later in this data sheet. Any modifications made to the RFD22301 will void the IC and FCC Approval and Certification. The RFD22301 has an integrated on-board chip antenna. You simply include the RFD22301 in your product and follow the IC and FCC notices and information below and place the appropriate label on your product to indicate that it includes an IC and FCC approved module and no further testing would be required for the module.The RFD22301 is CE (ETSI) Tested. See declaration of conformity later in this document.Tel: 949.610.0008Approved & CertifiedRF ModuleCE, ETSI, IC, FCC Approved & CertifiedSee RFD22301 datasheet at: /RFD22301RFD22301 RFduino SMT version is ideal for ultra small size applications and its perfect for Here is the wiring diagram for the RFD22301 RFduino SMT Module for connecting to theRFD22121 USB programming (shield) dongle. The RFD22102 RFduino DIP directly plugsinto the RFD22121 USB programming module. The RFD22301compliance approved SMT module is placed onto a DIP board to create the RFD22102RFduino DIP form factor.Plugs directly into breadboardsTel: 949.610.0008Approved & CertifiedRF ModuleIndustry Canada InformationThis device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device.Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.IC LABELRelating to Model Number R25 (RFD Part Number: RFD22301)The unit should have a permanently attached label in a conspicuous location with the following statement:NOTES:1. Industry Canada does not specify the size of the label or the lettering thereon. The only requirement is that the text be legible.Approved & Certified RF ModuleTel: 949.610.0008SAMPLE FCC STATEMENT TO BE INCLUDED IN USER'S MANUAL Relating to Model Number R25 (RFD Part Number: RFD22301) INSTRUCTION TO THE USER (if device DOES NOT contain a digital device)The user is cautioned that changes or modifications not expressly approved by the party responsible for compliance could void the user’s authorit y to operate this equipment.INSTRUCTION TO THE USER (if device contains a digital device)This equipment has been tested and found to comply with the limits for a class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:* Reorient or relocate the receiving antenna.* Increase the separation between the equipment and receiver.* Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.* Consult the dealer or an experienced radio/TV technician for help.In order to maintain compliance with FCC regulations, shielded cables must be used with this equipment. Operation with non-approved equipment or unshielded cables is likely to result in interference to radio and TV reception. The user is cautioned that changes and modifications made to the equipment without the approval of manufacturer could void the user's authority to operate this equipment.Approved & Certified RF ModuleTel: 949.610.0008FCC LABELRelating to Model Number R25 (RFD Part Number: RFD22301)The unit should have a permanently attached label in a conspicuous location with the following statement:NOTES:1. The FCC does not specify the size of the label or the lettering thereon. The only requirement is that the text be legible.2. If the entire label can not be placed on the unit due to space constraint, only FCC ID may be displayed on the unit. In such cases, the compliance statement will have to be included in the "user’s manual". NOTE: Device must be smaller than a man’s palm.** If the unit also interfaces with phone line, it requires additional information on the label - refer to part 68 information **Approved & Certified RF ModuleTel: 949.610.0008RoHSDeclaration Of ConformityNovember 17, 2013RF Digital declares that part numbers• RFD22301• RFD22102• RFD22121• RFD22122• RFD22123• RFD22124• RFD22125• RFD22126• RFD22127• RFD22128• RFD22130• RFD22131are manufactured with RoHS materials.RF Digital Corporation1601 Pacific Coast Highway, Suite 290Hermosa Beach, CA 90254Approved & Certified RF ModuleTel: 949.610.0008DECLARATION OF CONFORMITYNovember 17, 2013RF Digital declares that part numbers• RFD22301 (Model Number R25)• RFD22102comply with ETSI EN 300 440-2 power requirementsas called out in the R&TTE V1.2.1 DirectiveTechnical documents for the above mentioned part numbers are held atRF Digital Corporation1601 Pacific Coast Highway, Suite 290Hermosa Beach, CA 90254Approved & Certified RF ModuleTel: 949.610.0008Important NoticeRFduino is being manufactured by RF Digital Corp. (hereafter referred to as RF Digital).RF Digital reserves the right to make corrections, modifications, and/or improvements to the productand/or its specifications at any time without notice.RF Digital assumes no liability for the user’s product and/or applications.RF Digital products are not authorized for use in safety-critical applications, including but not limited to life-support applications.RF Digital assumes no liability for parts or their application beyond replacement or refunding the original purchase price.All trademarks and trade names belong to their respective owners.Information provided in this document is for reference only. The user must conduct testing and prototyping on their own for their own application. This document only provides an example of a possible use for the parts shown in this design and requires actual testing to confirm its accuracy or validity or proper application. There is NO suggestion that the devices shown in this document should be used for the implied application. There is no guarantee or warranty of suitability for any specific application. The information disclosed in this document is AS-IS. By using any information contained in this document you are assuming all risks and liability associated therewith. RF Digital reserves the right to make corrections, modifications, changes and/or improvements to specifications or details at any time without notice or obligation. RF Digital assumes no liability for the user’s product and/or applications. RF Digital products are not authorized for use in safety-critical applications, including but not limited to life-support applications. RF Digital assumes no liability for parts or their application beyond replacement or refunding the original purchase price paid to RF Digital.Limited Product WarrantyRF Digital warrants that RF Devices manufactured by RF Digital are free from defects in material and workmanship, for Ninety (90) Days from date of delivery. RF Devices covered by this warranty and returned to RF Digital within the Ninety Day Warranty Period will be eligible for replacement, repair, or credit, limited to the amount RF Digital was paid for the RF Device. To obtain a remedy under this Warranty, the following conditions must be met: (1) Customer must notify RF Digital in writing promptly on discovery of the deficiency with reasonable detail within the Warranty Period; (2) Customer must return the RF Devices to RF Digital promptly upon receipt of an RMA f rom RF Digital, at Customer’s risk and expense; and (3) RF Digital confirms the claimed deficiency is present. If all of these conditions are met, RF Digital, at its sole option, will either replace or repair the RF Device or credit Customer’s account for the amount the Customer paid to RF Digital for the RF Device.End of document.。

芯片式DTU综合测控通信管理单元的研究与应用发布时间：2021-01-12T04:21:29.624Z 来源：《河南电力》2020年8期作者：罗俊平1 何炬良2 吴旦3 袁路路4 潘旭辉5 陈海倩6 韩利群7 [导读] 面向配电网自动化、智能化的客观需求，本文针对DTU的小型化、微型化进行了尝试，重点研究了DTU硬件构成的关键部分--综合测控通信管理单元。

通过对核心处理单元、无线通信方式及以太网络等方面的开发设计，研发出了一种具有数据采集功能、传输通信功能、加密、触屏显示等多重功能的综合管理单元，助力国家智能电网建设。

罗俊平1 何炬良2 吴旦3 袁路路4 潘旭辉5 陈海倩6 韩利群7（1.中国南方电网有限责任公司；2.3.4.5.6.7南方电网数字电网研究院有限公司）摘要：面向配电网自动化、智能化的客观需求，本文针对DTU的小型化、微型化进行了尝试，重点研究了DTU硬件构成的关键部分--综合测控通信管理单元。

通过对核心处理单元、无线通信方式及以太网络等方面的开发设计，研发出了一种具有数据采集功能、传输通信功能、加密、触屏显示等多重功能的综合管理单元，助力国家智能电网建设。

关键词：DTU；综合管理单元；模块化；智能电网Research and Application of Chip DTU Integrated Measurement and Control Communication Management Unit xxx1，xxx1，xxx1，2（1. xxx）Abstract：Facing the objective needs of distribution network automation and intelligence，this paper attempts to miniaturize and miniaturize DTU，this paper focuses on the key part of DTU hardware composition -- integrated measurement and control communication management unit. Through the development and design of core processing unit，wireless communication mode and Ethernet，a comprehensive management unit with data acquisition function，transmission and communication function，encryption，touch screen display and other functions is developed，boost the construction of National Smart Grid. Key words：DTU；integrated management unit；modularization；smart grid前言随着科技的发展，人民生活水平日益提高的同时对于电力系统的要求也越来越高，传统电力系统由于及设计、装备的局限性很难满足需求，需要改造升级，智能电网的需求越来越强烈[1-3]。

ZLG52810Demo Kit 用户手册蓝牙模块UM02040201 1.0.04 Date:2020/12/17©2020 Guangzhou ZHIYUAN Electronics Co.,Ltd.修订历史目录1. ZLG52810Demo Kit 开发套件简介 (1)1.1产品图片 (1)1.2产品特性 (1)2. ZLG52810P0-1-TC蓝牙模块简介 (2)3. ZLG52810Demo Kit 管脚说明 (3)3.1.1J2/J3接口管脚说明 (3)3.1.2J1/J8接口管脚说明 (4)3.1.3J7接口管脚说明 (4)3.1.4J9管脚说明 (5)4.免责声明 (7)1.ZLG52810Demo Kit 开发套件简介ZLG52810Demo Kit是为广大企业用户、电子工程师、创客和高校师生精心设计的基于ZLG52810P0-1-TC蓝牙模块的评估工具，方便用户短时间内对ZLG52810P0-1-TC蓝牙模块进行测试评估，加快产品上市。

ZLG52810Demo Kit集成ZLG52810P0-1-TC蓝牙模块，并引出该模块的所有引脚，方便用户评估。

针对蓝牙5.0应用对功耗有特殊需求的特点，该评估板将电源通过短接帽与模块连接，可以方便用户测试模块功耗和外围功能扩展。

评估板支持电池供电，方便用户进行智能设备的开发评估。

1.1 产品图片ZLG52810Demo Kit实物如图1.1所示。

图1.1 ZLG52810Demo Kit实物1.2 产品特性●Mini-USB供电或电池供电；●集成ZLG52810P0-1-TC蓝牙模块；●集成按键和LED；●集成USB转串口功能；●引出蓝牙模块所有引脚，方便用户进行评估；●双层PCB工艺，尺寸：70mm×60mm。

2.ZLG52810P0-1-TC蓝牙模块简介ZLG52810P0-1-TC 是基于Nordic52810蓝牙SoC设计的一款低成本、小尺寸但速率更高、功耗更低的蓝牙5.0 模块，该模块采用半孔工艺将I/O 引出，帮助客户绕过繁琐的射频硬件设计、开发与生产，加快产品上市。

ConnectCore93 System-on-ModuleContact Digi technical support:Digi offers multiple technical support plans and service packages.Contact us at+1952.912.3444or visit us at /support.FeedbackTo provide feedback on this document,email your comments to*****************Include the document title and part number(ConnectCore93System-on-Module,900025493P)in the subject line of your email.l Two-way set-associative16KB system cache with parity support.l Two-way set-associative16KB code cache with parity support.l Boot ROM(256KB).n Neural processing unit(NPU):l NPU targets8-bit and16-bit integer RNN.l Handles8-bit weights.n System debug:l Arm CoreSight debug and trace technology.l Embedded trace FIFO(ETF)with4KB internal storage to provide trace buffering.l Unified trace capability for dual core Cortex-A55and Cortex-M33.l Cross Triggering Interface(CTI).l5-pin JTAG.n Image sensor interface(ISI):l Standard pixel formats commonly used in many camera input protocols.l Programmable resolutions up to2K.l Image processing for:o Supports one source of up to2K horizontal resolution.o Supports pixel rate up to200Mpixel/s.l Image down scaling via decimation and bi-phase filtering.l Color space conversion.l Interlaced to progressive conversions.n Connectivity:l x2USB2.0controllers and PHYs interfaces.l x2CAN/CAN-FD.l x2I3C.l x232-pin FlexIO modules.l x3uSDHC.l x2Ethernet controllers:o x1Gigabit Ethernet controller with support for Energy Efficient Ethernet(EEE),Ethernet AVB and IEEE1588.o x1Gigabit Ethernet controller with support for TSN in addition to EEE,Ethernet AVB and IEEE1588.l x8LPSPI.l x8I2C.l x8LPUART.n Multimedia:l LCDIF display controller,which can drive any of three displays:o MIPI DSI:up to1920x1200p60.o LVDS Tx:up to1366x768p60or1280x800p60.o Parallel display:up to1366x768p60or1280x800p60.About the ConnectCore93SOM Safety instructions l2-lane MIPI CSI-2interface:o Compliant with MIPI CSI-2specification v1.2and MIPI D-PHY specification v1.2.o Support up to2Rx data lanes(plus1Rx clock lane).o Support80Mbps-1.5Gbps per lane data rate in high speed operation.o Support10Mbps data rate in low power operation.l4-lane MIPI DSI display with data supplied by the LCDIF:o Compliant with MPI DSI specification v1.2and MIPI D-PHY specification v1.2.o Capable of resolutions achievable with a200MHz pixel clock and active pixel rate of140 Mpixel/s with24-bit RGB.o Support80Mbps-1.5Gbps data rate per lane in high speed operation.o Support10Mbps data rate in low power operation.l Audio:o x3SAI interfaces:o SAI1supports2-lane and SAI3supports1lane.o SAI2supports4lanes.o SAI2and SAI3support glue-less switching between PCM and stereo DSD operation.o x1SPDIF.o24-bit PDM supports up to8-microphones(4lanes).n Up to1GB,16-bit LPDDR4memory.n Up to8GB,8-bit eMMC memory.n NXP PCA9451Power Management IC(PMIC):l x6Step down regulators.l x5Linear regulators.l x1Load switch.n IEEE802.11a/b/g/n/ac/ax WLAN interface.n Bluetooth version5.3.Safety instructionsn The ConnectCore93SOM cannot be guaranteed operation due to the radio link and so should not be used for interlocks in safety critical devices such as machines or automotiveapplications.n The ConnectCore93SOM has not been approved for use in(this list is not exhaustive): l nuclear applicationsl explosive or flammable atmospheresn There are no user serviceable components inside the ConnectCore93SOM.Do not modify the ConnectCore93in any way.Modifications may exclude the SOM from any warranty and cancause the ConnectCore93to operate outside of regulatory compliance for a given country,leading to the possible illegal operation of the radio.n Use industry standard ESD protection when handling the ConnectCore93SOM.n Take care while handling to avoid electrical damage to the PCB and components.n Do not expose ConnectCore93SOM to water or moisture.n Use this product with the antennas specified in the ConnectCore93SOM user guides.n The end user must be told how to remove power from the ConnectCore93SOM or to locate the antennas20cm from humans or animals.Block diagramsThe figures below show block diagrams of the ConnectCore93module and of the NXP i.MX93application processor.ConnectCore93modulei.MX93application processorPower interfacesReference power diagramThe following diagram represents the power architecture of the ConnectCore93module in a typical application:BootstrapBootstrapModule pinoutConnectCore 93System-on-Module26Module pinout External signals and pin multiplexing The microprocessor used on this module,like all CMOS devices,can be driven into a latch-up condition if any I/O pin is driven outside of its associated power rail.Care must be takento:n Never drive an I/O pin beyond its positive rail or below ground.n Never drive an I/O pin from an external power source during the power-on or reset sequences.n Never hot-swap the module or interrupt its ground connection to external circuitry.Latch-up is a condition that can cause excessive current draw and result in excessiveheating of the microprocessor or its power supplies.This excessive heating canpermanently damage the microprocessor and/or its supporting components.When you use an external supply on the carrier board supporting the ConnectCore93module,make sure this supply is NOT back driving i.MX93I/Os while their power rails arenot enabled.For example,this can happen when an external3.3V supply is available on thecarrier board and this supply powers components driven by i.MX93I/Os.In this case,Digirecommends you enable the external power supply after internal3.3V is enabled,or addthe necessary protection circuitry to avoid back voltage(leakage).ConnectCore93System-on-Module27。

广州周立功单片机科技有限公司以一顶三的ibeacon ，使用不将就以一顶三的ibeacon，使用不将就摘要：讲述目前市面上ibeacon微信摇一摇产品只能推送一个信息，为了提高我们的代理芯片的竞争力，可以升级成可以推送三个消息。

推送目的：干货分享是否原创：是关键字：ibeacon、BLE、蓝牙4.0正文：iBeacon是苹果公司2013年9月发布的移动设备用OS（iOS7）上配备的新功能。

其工作方式是，配备有低功耗蓝牙（BLE）通信功能的设备使用BLE技术向周围发送自己特有的ID，接收到该ID的应用软件会根据该ID采取一些行动。

目前市面上ibeacon最多的是微信摇一摇广告消息推送，只要打开手机蓝牙，然后打开微信摇一摇便可以收到ibeacon所绑定推广的消息。

使用简单快捷，因为微信基本是人人都有，所以ibeacon将会很普遍。

现在市面上的ibeacon微信摇一摇基站价格基本在35人民币以上，而且每个ibeacon都只能推送一个消息，如果需要同时推送多个消息时候，那么就需要购买多个ibeacon基站。

例如，一个博物馆展厅有100个文物，每个文物都需推送消息，那么就需要100个ibeacon基站。

如果一个基站可以推送三个或更多的消息，那么就可以节省了三分之二以上成本，下面来介绍推广多个消息的方法。

ibeacon的工作原理为每一个时间间隔发送一个广播包，原理是比较简单。

如果我们改成每一个时间间隔发送三个广播包，那么我们就可以推送三个消息了。

这种方法会增加了电池功耗，相同容量的电池，使用时间将会变短，如果只推送一个消息时候，可以将其他两个消息关闭，那么电池耗电不会增加。

这样增加了这个扩展功能后，相信这个ibeacon产品会比现在只能推送一个消息的产品更有优势。

恩智浦联合周立功公司（ZLG）推出其于QN902x的ibeacon蓝牙芯片和模块，此芯片或模块能方便用户快捷简单开发产品，同时也支持常见的第三方APP软件进行测试和使用。

BGM13P32 Module Radio Board BRD4306B Reference ManualThe BRD4306B Blue Gecko Radio Board contains a Blue Gecko BGM13P32 modulewhich integrates Silicon Labs' EFR32BG13 Blue Gecko SoC into a small form factor module. The fully certified module contains all components (a high-performance trans-ceiver, an energy efficient 32-bit MCU, crystals, RF passives, and antenna) required for a system-level implementation of Bluetooth® Low Energy and proprietary wireless net-works operating in the 2.4 GHz band with 18 dBm output power.RADIO BOARD FEATURES•Wireless Module: BGM13P22F512GA•CPU core: ARM Cortex®-M4 with FPU •Flash memory: 512 kB•RAM: 64 kB•Operation frequency: 2.4 GHz•Transmit power: 18 dBm•Integrated chip antenna, RF matchingnetwork, crystals, and decoupling•8 Mbit low-power serial flash for over-the-air updatesThe BRD4306B Blue Gecko Radio Board plugs into the Wireless Starter Kit Mainboard,which is included with the Blue Gecko Starter Kit and gives access to display, buttons,and additional features from expansion boards. With the supporting Simplicity Studiosuite of tools, developers can take advantage of graphical wireless application develop-ment, BGScript for Python-like scripting, and visual energy profiling and optimization.This document contains a brief introduction and description of the BRD4306B RadioBoard features, focusing on the RF performance.Table of Contents1. Introduction (3)2. Radio Board Connector (4)2.1 Introduction (4)2.2 Radio Board Connector Pin Associations (4)3. Radio Board Block Summary (5)3.1 Introduction (5)3.2 Radio Board Block Diagram (5)3.3 Radio Board Block Description (5)3.3.1 Wireless Module (5)3.3.2 Radio Board Connectors (5)3.3.3 Serial Flash (5)3.3.4 Serial EEPROM (5)4. Mechanical Details (6)5. EMC Compliance (7)5.1 Introduction (7)5.2 EMC Regulations for 2.4 GHz (7)5.2.1 ETSI EN 300-328 Emission Limits for the 2400-2483.5 MHz Band (7)5.2.2 FCC15.247 Emission Limits for the 2400-2483.5 MHz Band (7)5.2.3 Applied Emission Limits for the 2.4 GHz Band (7)6. RF Performance (8)6.1 Radiated Power Measurements (8)6.1.1 Radiated Measurements in the 2.4 GHz Band (8)7. EMC Compliance Recommendations (9)7.1 Recommendations for 2.4 GHz ETSI EN 300-328 Compliance (9)7.2 Recommendations for 2.4 GHz FCC 15.247 Compliance (9)8. Board Revision History (10)9. Errata (11)10. Document Revision History (12)Introduction 1. IntroductionThe BRD4306B Radio Boards provide a development platform (together with the Wireless Starter Kit Mainboard) for the Silicon Labs Blue Gecko BGM13P32 modules.By carrying the BGM13P32 module, the BRD4306B Radio Board is designed to operate in the 2400-2483.5 MHz with the maximum of 18 dBm output power.To develop and/or evaluate the BGM13P32 module, the BRD4306B Radio Board can be connected to the Wireless Starter Kit Main-board to get access to display, buttons, and additional features from expansion boards (EXP boards).2. Radio Board Connector2.1 IntroductionThe board-to-board connector scheme allows access to all BGM13P32 GPIO pins as well as the RESETn signal. For more information on the functions of the available pins, see the BGM13P32 data sheet.2.2 Radio Board Connector Pin AssociationsThe figure below shows the mapping between the connector and the BGM13P32 pins and their function on the Wireless Starter Kit Mainboard.GNDF9 / PA3 / VCOM.#RTS_#CS 3v3NC / P36P200Upper RowNC / P38NC / P40NC / P42NC / P44DBG.TMS_SWDIO_C2D / PF1 / F0DISP_ENABLE / SENSOR_ENABLE / PD15 / F14BUTTON0* / LED0** / PF6 / F12BUTTON0* / LED0** / PF6 / F10VCOM.#CTS_SCLK / PA2 / F8DBG.RESET_C2CKps / MODULE_RESET / F4DBG.TDO_SWO / PF2 / F2DISP_SI / PC6 / F16VCOM.TX_MOSI / PA0 / F6PTI0.DATA / PB11 / F20DISP_EXTCOMIN / PD13 / F18USB_VBUS 5V Board ID SCL GNDBoard ID SDAUSB_VREG F7 / PA1 / VCOM.RX_MISO F5 / PA5 / VCOM_ENABLE F3 / PF3 / DBG.TDI_C2Dps F1 / PF0 / DBG.TCK_SWCLK_C2CK P45 / NCP43 / NC P41 / NC P39 / NC P37 / PD15 / DISP_ENABLE / SENSOR_ENABLE F11 / PF7 / BUTTON1* / LED1**F13 / PF7 / BUTTON1* / LED1**F15 / PC8 / DISP_SCLK F17 / PD14 / DISP_SCS F19 / PB13 / PTI0.SYNC F21 / NC GNDVMCU_IN VCOM.#CTS_SCLK / PA2 / P0P201Lower RowVCOM.#RTS_#CS / PA3 / P2UIF_LED0 / PF4 / P4UIF_LED1 / PF5 / P6GNDNCP35 / NCP7 / PC9P5 / PC8 / DISP_SCLK P3 / PC7P1 / PC6 / DISP_SI P33 / PF7 / BUTTON1* / LED1**P31 / PF6 / BUTTON0* / LED0**P29 / PF2 / DBG.TDO_SWOP27 / PF1 / DBG.TMS_SWDIO_C2DP25 / PF0 / DBG.TCK_SWCLK_C2CKP23 / PD15 / DISP_ENABLE / SENSOR_ENABLEP21 / PD14 / DISP_SCSP19 / PD13 / DISP_EXTCOMIN P17 / NC P15 / NC P13 / PC10P11 / PA1 / VCOM.RX_MISO P9 / PA0 / VCOM.TX_MOSI NC / P34NC / P32NC / P30NC / P28NC / P26PTI0.DATA / PB11 / P24PTI0.SYNC / PB13 / P22VCOM_ENABLE / PA5 / P20PA4 / P18NC / P16NC / P14PC11 / P12DBG.TDI_C2Dps / PF3 / P10NC / P8* The corresponding port should be configured to input.** The corresponding port should be configured to output .Figure 2.1. BRD4306B Radio Board Connector Pin MappingRadio Board ConnectorRadio Board Block Summary 3. Radio Board Block Summary3.1 IntroductionThis section gives a short introduction to the blocks of the BRD4306B Radio Board.3.2 Radio Board Block DiagramThe block diagram of the BRD4306B Radio Board is shown in the figure below.Figure 3.1. BRD4306B Block Diagram3.3 Radio Board Block Description3.3.1 Wireless ModuleThe BGM13P22F512GA module incorporated on the BRD4306B Blue Gecko Radio Board features a 32-bit Cortex®-M4 with FPU core, 512 kB of flash memory, 64 kB of RAM, crystals, and a 2.4 GHz band transceiver with RF passives and integrated antenna output pow-er up to 18 dBm. For additional information on the BGM13P22F512GA, refer to the BGM13P data sheet.3.3.2 Radio Board ConnectorsTwo dual-row, 0.05” pitch polarized connectors make up the BRD4306B Radio Board interface to the Wireless Starter Kit Mainboard. For more information on the pin mapping between the BGM13P22F512GA and the Radio Board Connector, refer to section 2.2 Radio Board Connector Pin Associations.3.3.3 Serial FlashThe BRD4306B Radio Board is equipped with an 8 Mbit Macronix MX25R SPI flash that is connected directly to the BGM13P32 to support over-the-air (OTA) updates. For additional information on the pin mapping see the BRD4306B schematic.3.3.4 Serial EEPROMThe BRD4306B Radio Board is equipped with a serial I2C EEPROM for board identification and to store additional board related infor-mation.4. Mechanical DetailsThe BRD4306B Radio Board is illustrated in the figures below.40 mm20 mmFigure 4.1. BRD4306B Top ViewFigure 4.2. BRD4306B Bottom ViewMechanical DetailsEMC Compliance 5. EMC Compliance5.1 IntroductionCompliance of the fundamental and harmonic levels of the BRD4306B Radio Board is tested against the following standards:• 2.4 GHz:•ETSI EN 300-328•FCC 15.2475.2 EMC Regulations for 2.4 GHz5.2.1 ETSI EN 300-328 Emission Limits for the 2400-2483.5 MHz BandBased on ETSI EN 300-328, the allowed maximum fundamental power for the 2400-2483.5 MHz band is 20 dBm EIRP. For the unwan-ted emissions in the 1 GHz to 12.75 GHz domain, the specific limit is -30 dBm EIRP.5.2.2 FCC15.247 Emission Limits for the 2400-2483.5 MHz BandFCC 15.247 allows conducted output power up to 1 Watt (30 dBm) in the 2400-2483.5 MHz band. For spurious emissions the limit is -20 dBc based on either conducted or radiated measurement, if the emission is not in a restricted band. The restricted bands are speci-fied in FCC 15.205. In these bands the spurious emission levels must meet the levels set out in FCC 15.209. In the range from 960 MHz to the frequency of the 5th harmonic, it is defined as 0.5 mV/m at 3 m distance which equals to -41.2 dBm in EIRP.Additionally, for spurious frequencies above 1 GHz, FCC 15.35 allows duty-cycle relaxation to the regulatory limits. For the EmberZNet PRO the relaxation is 3.6 dB. Therefore, the -41.2 dBm limit can be modified to -37.6 dBm.If operating in the 2400-2483.5 MHz band, the 2nd, 3rd, and 5th harmonics can fall into restricted bands. As a result, for those harmon-ics the -37.6 dBm limit should be applied. For the 4th harmonic the -20 dBc limit should be applied.5.2.3 Applied Emission Limits for the 2.4 GHz BandThe above ETSI limits are applied both for conducted and radiated measurements.The FCC restricted band limits are radiated limits only. In addition, Silicon Labs applies the same restrictions to the conducted spec-trum. By doing so, compliance with the radiated limits can be estimated based on the conducted measurement, by assuming the use of an antenna with 0 dB gain at the fundamental and the harmonic frequencies.The overall applied limits are shown in the table below.Table 5.1. Applied Limits for Spurious Emissions for the 2.4 GHz Band6. RF Performance6.1 Radiated Power MeasurementsDuring measurements, the BRD4306B Radio Board was attached to a Wireless Starter Kit Mainboard which was supplied by USB. The voltage supply for the Radio Board was 3.3 V. The radiated power was measured in an antenna chamber by rotating the board 360 de-grees with horizontal and vertical reference antenna polarizations in the XY , XZ, and YZ cuts. The measurement planes are illustratedin the figure below.Figure 6.1. Illustration of Reference Planes with a Radio Board Plugged into the Wireless Starter Kit MainboardNote: The radiated measurement results presented in this document were recorded in an unlicensed antenna chamber. Also, the radi-ated power levels may change depending on the actual application (PCB size, used antenna, and so on). Therefore, the absolute levels and margins of the final application are recommended to be verified in a licensed EMC testhouse.6.1.1 Radiated Measurements in the 2.4 GHz BandThe supply for the module (VDD) was 3.3 V provided by the mainboard; for details, see the BRD4306B schematic. The transceiver was operated in continuous carrier transmission mode. The output power of the radio was set to 18 dBm based on the conducted measure-ment.The fundamental was set to the frequency where the maximum antenna gain was measured. The results are shown in the table below.Note: The frequency in which the antenna gain has its maximum value can vary between modules due to the technological spreading of the passive RF components and the antenna.Table 6.1. Maximums of the Measured Radiated Powers in EIRP [dBm]As shown in the table, the level of the fundamental is 17.2 dBm. The strongest harmonic is the double-frequency one and it is compliant with the -37.6 dBm applied limit with large margin.RF PerformanceEMC Compliance Recommendations 7. EMC Compliance Recommendations7.1 Recommendations for 2.4 GHz ETSI EN 300-328 ComplianceAs shown in the previous section, the power of the fundamental frequency of the BRD4306B Blue Gecko Radio Board with 18 dBm output is compliant with the 20 dBm limit of the ETSI EN 300-328 regulation. The harmonic emissions are under the -30 dBm limit with large margin.7.2 Recommendations for 2.4 GHz FCC 15.247 ComplianceAs shown in the previous section, the power of the fundamental frequency of the BRD4306B Blue Gecko Radio Board with 18 dBm output is compliant with the 30 dBm limit of the FCC 15.247 regulation. The harmonic emissions are under the -37.6 dBm applied limit with margin.Board Revision History 8. Board Revision HistoryTable 8.1. BRD4306B Radio Board RevisionsNote: The silkscreen marking on the board (e.g. PCBxxxx A00) denotes the revision of the PCB. The revision of the actual Radio Board is laser printed in the "Board Info" field on the PCB. Also, it can be read from the on-board EEPROM.Errata 9. ErrataThere are no known errata at present.Document Revision History 10. Document Revision HistoryRevision 1.00June, 2018•Initial document release. Silicon Laboratories Inc.400 West Cesar Chavez Austin, TX 78701USASimplicity StudioOne-click access to MCU andwireless tools, documentation,software, source code libraries &more. Available for Windows,Mac and Linux!IoT Portfolio /IoT SW/HW /simplicity Quality /quality Support and CommunityDisclaimer Silicon Labs intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Labs products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and "Typical" parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. 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AW824BPT/BET蓝牙模块DS01010101 1.0.02 Date:2020/12/31—————————————— 概述 AW824BPT/BET 是广州立功科技股份有限公司开发的一款基于QN9021和LPC824的BLE 二次开发模块，是简单、快捷、高效的BLE 开发方案。

—————————————— 产品特性 工作电压 3.0V~3.6V （拥有高精度ADC 参考源Vref ）；工作电压2.8V~3.6V （参考源Vref 精度要求不高）；发射功率：-20dbm~4dbm 通过AT 指令可调；接收灵敏度 -93dbm ；高达50kbps 数据传输速率；32位ARM Cotex-M0 + 处理器； 32KB 片内Flash ，8KB 片内SRAM ； 支持蓝牙透传功能； 支持ADC 、SPI 、I2C 、UART 、PWM ； 内置高精度ADC 参考源Vref ； 降低高精度ADC 外围设计难度； 支持蓝牙4.0———————————— 产品应用 ◆ 汽车电子； ◆ 智能家居； ◆ 医疗设备； ◆ 仪器仪表；◆ 休闲玩具；———————————————————————————————— 典型应用©2020 Guangzhou ZLG Technology Corp.,Ltd.修订历史目录1. 产品简介 (1)1.1产品概述 (1)1.2产品特性 (1)1.3订购信息 (1)2. 引脚功能 (3)2.1引脚分布 (3)2.2引脚说明 (3)3. 电气特性 (7)3.1绝对最大额定值 (7)3.2功耗参数 (7)3.3工作条件 (7)3.4无线参数 (8)4. 典型应用电路 (9)5. 天线布局规范 (10)5.1板载天线布局注意事项 (10)5.2外接天线布局注意事项 (10)6. 封装尺寸 (11)7. 包装信息 (13)8. 生产指导 (15)8.1存储与运输 (15)8.2湿敏等级 (15)8.3回流焊温度参考曲线 (15)9. 免责声明 (17)1. 产品简介1.1 产品概述AW824BPT/BET蓝牙核心模块是广州立功科技股份有限公司基于NXP的蓝牙4.0 BLE 芯片和MCU芯片LPC824开发的一款低功耗、高性能，支持二次开发的蓝牙4.0 BLE模块。

RC52810A蓝牙5.3（BLE）透传模块说明手册摘要此技术规格文档主要介绍RC52810A Bluetooth®低功耗蓝牙串口通信说明及使用规范。

如需自主开发固件，您可以使用SDK集成开发环境（IDE）将自己的应用嵌入到集成的低功耗蓝牙协议栈之上。

文档信息版本更新注：本文档将会不定期优化更新，在使用此文档前，请确保为最新版本。

文档中的信息仅供智汉RF Crazy®的授权用户或许可人使用。

没有智汉RF Crazy®的书面授权，请勿将本文档或其部分内容印制或作为电子文档副本传播目录1.产品概述 (5)主要特点 (5)设备模式说明 (6)设备状态 (7)2.封装尺寸及脚位定义 (7)3.串口透传协议说明 (10)4.BLE协议说明(APP接口) (10)Service UUID (10)BLE数据接收UUID (10)BLE数据发送UUID (10)AT指令操作UUID (11)5.串口AT指令 (12)AT命令表 (12)进入AT指令模式 (13)退出AT指令模式 (13)设备名称 (13)MAC地址 (14)串口回显 (14)显示设备状态 (15)设备角色 (15)从角色广播参数 (16)连接间隔 (17)从角色Service (18)断开连接 (18)Beacon参数 (19)发射功率 (19)休眠模式 (20)串口波特率 (21)用户鉴权 (21)设备重启 (22)恢复出厂设置 (22)固件版本 (23)6.用APP测试透传功能 (24)7.PC端测试工具 (27)使用前准备 (27)连接步骤说明 (27)8.IOS APP编程参考 (30)9.主机（MCU）参考代码（透传） (32)联系我们 (33)附录A：BLE模块应用方案提示 (34)附录B：BLE模块硬件规格说明 (35)1.产品概述智汉科技RF Crazy®RC52810A是基于Nordic的nRF52810SoC设计开发的高性能、高灵敏、超低功耗的蓝牙5.3（BLE）模块。

a module solution provider WS2118E00 User GuideWS2118-00 Development KitDrift 0.2Copyright © JORJIN TECHNOLOGIES INC. 2018Index1. INTRODUCTION (2)2. GETTING STARTED (3)2.1.S YSTEM REQUIREMENTS (3)2.2.A PPLICATION SOFTWARE SETUP (3)3. HARDWARE DESCRIPTION (4)3.1.B OARD OVERVIEW (4)3.2.WS2118-00 MODULE CONNECTIONS (5)3.3.P OWER SUPPLY (6)3.4.O THER JUMPERS (7)3.5.E XTENSION CONNECTORS (7)3.6.P USH-BUTTONS (8)3.7.JTAG CONNECTOR (8)3.8.LED S (8)3.9.STM32L151CBU6 MICROCONTROLLER (8)3.10.H ARDW ARE SETUP (8)4. SCHEMATIC DIAGRAMS (10)5. HISTORY CHANGE (14)1. INTRODUCTIONThe Jorjin WS2118-00 is Bluetooth® Low Energy and Sub-1GHz dual band module. The WS2118E00 is the development kit for WS2118-00. The WS2118E00 provides a set of hardware resources for RF signal evaluation of both BLE and Sub-1GHz and development platform. It also provides a set of hardware resources for a wide range of application scenarios: sensor data (accelerometer, pressure and temperature sensor, needs additional sensor board), remote control (buttons and LEDs) and debug message management through USB virtual COM. Three power options are available (USB only, battery only and external power supply plus USB) for high application development and testing flexibility.Figure 1: WS2118E00 development kit2. GETTING STARTED2.1. System requirementsThe application software require:●PC with Intel® or AMD® processor running one of the following Microsoft®operating systems:-Windows XP SP3-Windows Vista-Windows 7-Windows 10●At least 128 MB of RAM●USB ports●At least 40 MB of available hard disk space●Adobe Acrobat Reader 6.0 or later.2.2. Application software setupPlease download the application from below link.BlueNRG-1 DK SW package:/content/st_com/en/products/embedded-software/evaluation-t ool-software/stsw-bluenrg1-dk.htmlBLUENRG family GUI:/content/st_com/en/products/embedded-software/wireless-con nectivity-software/stsw-bnrgui.htmlAnd please contact Jorjin to get more application and development software.3. HARDWARE DESCRIPTION 3.1. Board overviewThe following figure and table describe physical sections of the board.Figure 2: WS2118E00 board componentsAB CD E FGHI JKLMN O PQ R S T U VW(1)STM32 is not intended to be programmed by users3.2. WS2118-00 module connectionsThe WS2118-00 dual band module (Figure 2: "WS2118E00 board components" –region A) has 2 RF signal connector. One is for BLE (region B), another is for sub-1GHz RF(region C).The microcontroller of BlueNRG-1 is connected to various components such as buttons, and LEDs. The following table describes the microcontroller pin functions.3.3. Power supplyGreen LED CR1 (Figure 2: WS2118E00 board components" – region J) signals the board is being powered, either via:●micro USB connector J4 (Figure 2: WS2118E00 board components" – region D) ●batteries(region L)●an external DC power supply plus micro USB connectorThe following table describes the power supply modes available on the WS2118E00 board and corresponding jumper settings.3.4. Other jumpersThe following jumpers are available:3.5. Extension connectorsWS2118-00 module signal test points are shared on two Arduino-compliant connector rows: CN1, CN3 (Figure 2: "WS2118E00 board components" – region E) and CN2, CN4 (region F). See Table 2: "WS2118-00 module pin description with board functions".You can also install some sensor module board in the WS2118E00 kit platform through these extension connectors. Please contact Jorjin to get more information.3.6. Push-buttonsThe board has one user button to reset the microcontroller (Figure 2: " WS2118E00 board components" – region H) and one further button for application purposes (region I).3.7. JTAG connectorA JTAG connector (Figure 2: " WS2118E00 board components" – region G) allows BlueNRG-1 microcontroller programming and debugging with an in-circuit debugger and programmer such as ST-LINK/V2.Only SWD mode is supported.3.8. LEDsLEDs CR1 (green, power LED) and CR2 (red) are available on the board (Figure 2: "WS2118E00 board components" – regions J and K).3.9. STM32L151CBU6 microcontrollerThe most important feature of the STM32L151CBU6 48-pin microcontroller (Figure 2: "WS2118E00 board components" – regions M) is the USB to serial bridge providing an I/O channel with the BlueNRG-1 device.The microcontroller is connected to the BlueNRG-1 device through an ST2378E level translator (region O).The STM32L microcontroller on the board is not intended to be programmed by users. ST provides a pre-programmed firmware image for the sole purpose of interfacing BlueNRG-1 to a USB host device (e.g., a PC). The JTAG connector (Figure 2:"WS2118E00 board components" – regions N) is only for Jorjin internal used.3.10. Hardware setup1.Connect one2.4GHz antenna to BLE U.FL connector (Figure 2: "WS2118E00 boardcomponents" – regions B). Connect one 868MHz antenna to Sub-1GHz U.FLconnector (regions C)2.Configure the board to USB power supply mode as per the jumper settings inTable 3: “WS2118E00 kit platform power supply modes”3.Connect the board to a PC via USB cable (connector J4)4.Verify the power indication LED CR1 is on.4. SCHEMATIC DIAGRAMSFigure 3: WS2118E00 Arduino connectorsFigure 4: WS2118E00 JTAGFigure 5: WS2118E00 WS2118-00 moduleFigure 6: WS2118E00 Power circuitFigure 7: WS2118E00 Level translatorFigure 8: WS2118E00 Micro ControllerFigure 9: WS2118E00 LED, Switch, and EEPROM5. HISTORY CHANGE。

PAN9028 Wi-Fi Dual Band 2.4 GHz/5 GHz and Bluetooth® ModuleModule Integration GuideRev. 0.2OverviewThe PAN9028 is a 2.4 GHz/5 GHz ISM band Wi-Fi and Bluetooth radio module, which includes a wireless radio and a power management IC for easy integration of Wi-Fi and Bluetooth connectivity into various electronic devices.Features•Dual band 2.4 GHz/5 GH z 802.11 a/b/g/n/ac Wi-Fi and Bluetooth combo module •Supports 802.11i security standards through AES, CCMP, and more security mechanism •802.11e Quality of Service is supported for multimedia application•IEEE 802.11ac (Wave 2), 1×1 spatial stream with data rates up to 433 Mbps (MCS9, 80 MHzchannel bandwidth)•IEEE 802.11ac MU-MIMO beamformee •Bluetooth 5 (includes Low Energy)•Dual simultaneous and independent WLAN and Bluetooth operation•Dynamic Rapid Channel Switching (DRCS) for simultaneous operation in 2.4 GHz and 5 GHzbands•Indoor location and navigation withIEEE 802.11mc •Power management with sleep clock •Coexistence interface for arbitration of co-located WLAN, Bluetooth, or mobile wireless system(e.g. LTE or ZigBee®)•Generic interfaces include SDIO 3.0 and high speed UART for host processor connection •Software driver Linux®Characteristics•Surface Mount Type (SMT)24 mm × 12 mm × 2.8 mm•NXP®88W8987 WLAN 2.4 GHz/5 GHz and Bluetooth single-chip solution inside •Single power sup ply: 3.3 V with Marvell®88PG823 Power Management IC (optional) •Tx power: 16 dBm at 802.11b•Rx sensitivity: -97 dBm at 802.11b DSSS 1 Mbps •IEEE 802.11ac 20 MHz, 40 MHz, 80 MHz channel bandwidth•Long and Short Guard Interval support •Current consumption Wi-Fi typical 320 mA (at Tx) and 70 mA (at Rx)•SDIO 1 bit or 4 bit•Wide temperature range of -30 °C to 85 °CBlock DiagramBy purchase of any of the products described in this document the customer accepts the document's validity and declares their agreement and understanding of its contents and recommendations. Panasonic Industrial Devices Europe GmbH (Panasonic) reserves the right to make changes as required at any time without notification. Please consult the most recently issued Module Integration Guide before initiating or completing a design.© Panasonic Industrial Devices Europe GmbH 2021.This specification sheet is copyrighted. Reproduction of this document is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Do not disclose it to a third party.All rights reserved.This Module Integration Guide does not lodge the claim to be complete and free of mistakes.Engineering Samples (ES)If Engineering Samples are delivered to the customer, these samples have the status “Engine ering Samples”. This means that the design of this product is not yet concluded. 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It should not be construed as guaranteeing specific functionality of the product as described or suitable for a particular application.Any provided (source) code shall not be used or incorporated into any products or systems whose manufacture, use or sale is prohibited under any applicable laws or regulations.Any outlined o r referenced (source) code within this document is provided on an “as is” basis without any right to technical support or updates and without warranty of any kind on a free of charge basis according to § 516 German Civil Law (BGB) including without limitation, any warranties or conditions of title, non infringement, merchantability, or fitness for a particular purpose. Customer acknowledges that (source) code may bear defects and errors.The third-party tools mentioned in this document are offered by independent third-party providers who are solely responsible for these products. Panasonic has no responsibility whatsoever for the performance, product descriptions, specifications, referenced content, or any and all claims or representations of these third-party providers. Panasonic makes no warranty whatsoever, neither express nor implied, with respect to the goods, the referenced contents, or any and all claims or representations of the third-party providers.To the maximum extent allowable by Law Panasonic assumes no liability whatsoever including without limitation, indirect, consequential, special, or incidental damages or loss, including without limitation loss of profits, loss of opportunities, business interruption, and loss of data.Table of Contents1About This Document (6)1.1Purpose and Audience (6)1.2Revision History (6)1.3Use of Symbols (6)1.4Related Documents (7)2Overview (8)3PAN9028 Module (9)3.1Block Diagram (9)3.2Land Pattern (10)3.3Footprint (11)3.4Solder Mask (12)3.5Placement (12)4Power Supply (14)5RF Path (15)5.1External Antenna (15)5.2RF Trace (15)6One-Layer Example for Module Variant ENWF940[x]A1EF (18)7mSDIO Adapter (19)7.1Functional Blocks (19)7.2Resistor Jumper Configuration (19)7.3Part Placement (20)8Reference Design (21)8.1Schematic (21)8.2PCB Layout (22)9Regulatory and Certification Information (24)10Restricted Use (25)10.1Life Support Policy (25)10.2Restricted End Use (25)11Contact Details (26)11.1Contact Us (26)11.2Product Information (26)1 About This Document1.1 Purpose and AudienceThis Module Integration Guide is intended to support the easy integration of the PAN9028 into a product and to ensure the compliance with regulatory requirements.This guide gives an overview about the hardware design requirements by providing a reference design, which is the evaluation board of the PAN9028.It is intended for hardware design and Original Equipment Manufacturers (OEM) engineers.The product is referred to as “the PAN9028” or “the module” within this document.1.2 Revision History1.3 Use of Symbols1.4 Related DocumentsFor related documents please refer to the Panasonic website 11.2 Product Information.PAN9028 Wi-Fi/Bluetooth Module 2 Overview 2 OverviewThe PAN9028 is a dual band 2.4 GHz and 5 GHz 802.11 a/b/g/n/ac Wi-Fi radio module withintegrated Bluetooth BR/EDR/Low Energy (LE), specifically designed for highly integrated and cost-effective applications. The simultaneous and independent operation of the two standards enables very high data rates (802.11ac) and low-power operation (Bluetooth LE). Integratedpower management, a fast dual-core CPU, 802.11i security standard support, and high-speed data interfaces deliver the performance for the speed, reliability, and quality requirements ofnext generation products. Tx power calibration data, Wi-Fi, and Bluetooth system parameters are pre-stored on the One Time Programmable memory of the PAN9028 during production at Panasonic. This simplifies passing the certification process for PAN9028 customers.Furthermore, the module reduces design, test, and calibration effort resulting in reduced time-to-market compared to discrete solutions.Integrating Wi-Fi and Bluetooth wireless connectivity allows high throughput applications forindustrial devices and appliances. The combination of Wi-Fi and Bluetooth provides the highest flexibility for connectivity.This Module Integration Guide applies to the PAN9028 WLAN/Bluetooth combo module and the PAN9028 mSDIO Adapter development platform.This document is structured into two main parts:•The hardware integration of the PAN9028 module.•The PAN9028 mSDIO Adapter as an example for the module integration.For related documents please refer to 11.2 Product Information.3 PAN9028 Module3.1 Block DiagramFor Module Variant ENWF940[x]A1EF:For Module Variant ENWF940[x]A2EF:3.2 Land PatternFor Module Variant ENWF940[x]A1EF:Top ViewFor Module Variant ENWF940[x]A2EF:Top View3.3 Footprint3.4 Solder MaskIt is recommended to use the following layout for the soldering mask to reduce voids on the thermal pads. Use the dimensions:✓The Resist Mask should be 50 µm bigger than the pad size (☯ 3.3 Footprint).✓The Solder Mask should be 50 µm smaller than the pad size (☯ 3.3 Footprint); they are separated in two semi circles with 300 µm distance and a shifting about 150 µm.Layout3.5 PlacementThe following requirements must be met:✓Keep this product away from heat. Heat is the major cause of decreasing the life of these products.✓Keep this product away from other high frequency circuits.The antenna requires a cutout area of 8 mm x 5 mm under the PAN9028 module. This “Keep out Area” shall be located in every layer under the module antenna. Note for example the “Keep out Are a” in all four layers of the PAN9028 evaluation board.It is recommended to verify the perfect position of the module in the target application before fixing the design.Antenna Placement RecommendationIt is recommended to place the module:•In the center (horizontal) of mother PCB.•At the edge (horizontal) of mother PCB.Top View4 Power SupplyThe following conditions must be met:✓The supply voltage must be free of AC ripple voltage (for example from a battery or a low noise regulator output). For noisy supply voltages, provide a decoupling circuit (for examplea ferrite in series connection and a bypass capacitor to ground of at least 47 µF directly atthe module).✓The supply voltage should not be exceedingly high or reversed. It should not carry noise and/or spikes.5 RF Path5.1 External AntennaThe PAN9028 module has a 50 ohm RF pin (SMD pad). Connect an external antenna directly or via a connector (e.g. U.FL) with RF trace to this RF pin. This RF trace shall be matched to50 ohm 5.2 RF Trace.5.2 RF TraceEnsure that the RF trace impedance is nearly 50 ohm. It is recommended to use a CoplanarWaveguide with Ground (CPWG) design. The impedance is related to the trace width, thedistances of the trace to the ground layers and the material of the PCB.The following design recommendation shall be met:✓Trace impedance of 50 ohm✓Trace length shall not exceed 2 cm✓Via fence around the trace✓Crossing no other lines (power supply, interfaces or clock traces)Example 1: 50 ohm Coplanar Waveguide with Ground on mSDIO AdapterExample 2: 50 ohm Coplanar Waveguide with Ground and Micro ViasPAN9028 Wi-Fi/Bluetooth Module 6 One-Layer Example for Module Variant ENWF940[x]A1EF6 One-Layer Example for Module VariantENWF940[x]A1EFFunctionality•WLAN interface: SDIO with 3.3 V•Bluetooth interface: SDIO with 3.3 V•On-board antenna•No GPIOs connected•Reset available7 mSDIO Adapter7.1 Functional Blocks7.2 Resistor Jumper Configuration7.3 Part Placement8 Reference Design 8.1 Schematic8.2 PCB Layout 8.2.1 Top Layer8.2.2 Second Layer8.2.3 Third Layer8.2.4 Bottom LayerPAN9028 Wi-Fi/Bluetooth Module 9 Regulatory and Certification Information 9 Regulatory and Certification InformationTBDPAN9028 Wi-Fi/Bluetooth Module 10 Restricted Use 10 Restricted Use10.1 Life Support PolicyThis Panasonic Industrial Devices Europe GmbH product is not designed for use in life supportappliances, devices, or systems where malfunction can reasonably be expected to result in asignificant personal injury to the user, or as a critical component in any life support device orsystem whose failure to perform can be reasonably expected to cause the failure of the lifesupport device or system, or to affect its safety or effectiveness.Panasonic customers using or selling these products for use in such applications do so at theirown risk and agree to fully indemnify Panasonic Industrial Devices Europe GmbH for anydamages resulting.10.2 Restricted End UseThis Panasonic Industrial Devices Europe GmbH product is not designed for any restrictedactivity that supports the development, production, handling usage, maintenance, storage,inventory or proliferation of any weapons or military use.Transfer, export, re-export, usage or reselling of this product to any destination, end-user or any end-use prohibited by the European Union, United States or any other applicable law is strictlyprohibited.PAN9028 Wi-Fi/Bluetooth Module 11 Contact Details 11 Contact Details11.1 Contact UsPlease contact your local Panasonic Sales office for details on additional product options andservices:For Panasonic Sales assistance in the EU, visithttps:///about-us/contact-usEmail: *********************.comFor Panasonic Sales assistance in North America, visit the Panasonic website“Sales & Support” to find assistance near you athttps:///distributorsPlease visit the Panasonic Wireless Technical Forum to submit a question athttps://11.2 Product InformationPlease refer to the Panasonic Wireless Connectivity website for further information on ourproducts and related documents:For complete Panasonic product details in the EU, visithttp://pideu.panasonic.de/products/wireless-modules.htmlFor complete Panasonic product details in North America, visit/rfmodules。