这个蓝牙音箱,想要成为一个好时巧克力外形的灯泡

通用技术考试多功能台灯设计方案设计方案：多功能台灯
1. 外观设计：
- 采用简约、现代风格作为整体设计风格，外观整洁大方； - 可使用金属或塑料材质进行制作，使灯具质感更加耐用。

2. 灯具设计：
- 采用LED灯源，提供明亮而均匀的照明效果；
- 可设计为可调节亮度的灯具，满足不同环境下的需求； - 设计夜灯功能按钮，提供柔和的光线，方便夜间使用； - 配备自动感应开关，根据光线感应自动关闭或打开灯具。

3. 多功能设计：
- 配备USB接口，方便用户充电各种移动设备；
- 设计一个无线充电功能，可简化充电过程；
- 设计置物台，方便放置手机、笔记本等小物件。

4. 操作设计：
- 设计一个触摸屏或旋钮式按钮，方便用户控制亮度和色温； - 设计一个电子显示屏，显示日期、时间、天气等信息；
- 配备遥控器，方便用户在远距离控制。

5. 其他功能：
- 配备音箱，支持蓝牙连接，提供音乐播放功能；
- 设计温度计，显示环境温度；
- 配备闹钟功能，满足用户的起床需求。

通过以上设计方案，多功能台灯可以满足用户对照明、充电、放置物品等多种需求。

设计时考虑到美观性、便利性和实用性，提供了多种功能和控制方式，以提升用户体验。

IMPORTANT NOTICE FOR TI REFERENCE DESIGNSTexas Instruments Incorporated("TI")reference designs are solely intended to assist designers(“Buyers”)who are developing systems that incorporate TI semiconductor products(also referred to herein as“components”).Buyer understands and agrees that Buyer remains responsible for using its independent analysis,evaluation and judgment in designing Buyer’s systems and products.TI reference designs have been created using standard laboratory conditions and engineering practices.TI has not conducted any testing other than that specifically described in the published documentation for a particular reference design.TI may make corrections,enhancements,improvements and other changes to its reference designs.Buyers are authorized to use TI reference designs with the TI component(s)identified in each particular reference design and to modify the reference design in the development of their end products.HOWEVER,NO OTHER LICENSE,EXPRESS OR IMPLIED,BY ESTOPPEL OR OTHERWISE TO ANY OTHER TI INTELLECTUAL PROPERTY RIGHT,AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT,IS GRANTED HEREIN,including but not limited to any patent right,copyright,mask work right, or other intellectual property right relating to any combination,machine,or process in which TI components or services are used. Information published by TI regarding third-party products or services does not constitute a license to use such products or services,or a warranty or endorsement e of such information may require a license from a third party under the patents or other intellectual property of the third party,or a license from TI under the patents or other intellectual property of TI.TI REFERENCE DESIGNS ARE PROVIDED"AS IS".TI MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE REFERENCE DESIGNS OR USE OF THE REFERENCE DESIGNS,EXPRESS,IMPLIED OR STATUTORY,INCLUDING ACCURACY OR COMPLETENESS.TI DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY,FITNESS FOR A PARTICULAR PURPOSE,QUIET ENJOYMENT,QUIET POSSESSION,AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO TI REFERENCE DESIGNS OR USE THEREOF.TI SHALL NOT BE LIABLE FOR AND SHALL NOT DEFEND OR INDEMNIFY BUYERS AGAINST ANY THIRD PARTY INFRINGEMENT CLAIM THAT RELATES TO OR IS BASED ON A COMBINATION OF COMPONENTS PROVIDED IN A TI REFERENCE DESIGN.IN NO EVENT SHALL TI BE LIABLE FOR ANY ACTUAL,SPECIAL,INCIDENTAL,CONSEQUENTIAL OR INDIRECT DAMAGES,HOWEVER CAUSED,ON ANY THEORY OF LIABILITY AND WHETHER OR NOT TI HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES,ARISING IN ANY WAY OUT OF TI REFERENCE DESIGNS OR BUYER’S USE OF TI REFERENCE DESIGNS.TI reserves the right to make corrections,enhancements,improvements and other changes to its semiconductor products and services per JESD46,latest issue,and to discontinue any product or service per JESD48,latest issue.Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All semiconductor products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its components to the specifications applicable at the time of sale,in accordance with the warranty in TI’s terms and conditions of sale of semiconductor products.Testing and other quality control techniques for TI components are used to the extent TI deems necessary to support this warranty.Except where mandated by applicable law,testing of all parameters of each component is not necessarily performed.TI assumes no liability for applications assistance or the design of Buyers’products.Buyers are responsible for their products and applications using TI components.To minimize the risks associated with Buyers’products and applications,Buyers should provide adequate design and operating safeguards.Reproduction of significant portions of TI information in TI data books,data sheets or reference designs is permissible only if reproduction is without alteration and is accompanied by all associated warranties,conditions,limitations,and notices.TI is not responsible or liable for such altered rmation of third parties may be subject to additional restrictions.Buyer acknowledges and agrees that it is solely responsible for compliance with all legal,regulatory and safety-related requirements concerning its products,and any use of TI components in its applications,notwithstanding any applications-related information or support that may be provided by TI.Buyer represents and agrees that it has all the necessary expertise to create and implement safeguards that anticipate dangerous failures,monitor failures and their consequences,lessen the likelihood of dangerous failures and take appropriate remedial actions.Buyer will fully indemnify TI and its representatives against any damages arising out of the use of any TI components in Buyer’s safety-critical applications.In some cases,TI components may be promoted specifically to facilitate safety-related applications.With such components,TI’s goal is to help enable customers to design and create their own end-product solutions that meet applicable functional safety standards and requirements.Nonetheless,such components are subject to these terms.No TI components are authorized for use in FDA Class III(or similar life-critical medical equipment)unless authorized officers of the parties have executed an agreement specifically governing such use.Only those TI components that TI has specifically designated as military grade or“enhanced plastic”are designed and intended for use in military/aerospace applications or environments.Buyer acknowledges and agrees that any military or aerospace use of TI components that have not been so designated is solely at Buyer's risk,and Buyer is solely responsible for compliance with all legal and regulatory requirements in connection with such use.TI has specifically designated certain components as meeting ISO/TS16949requirements,mainly for automotive use.In any case of use of non-designated products,TI will not be responsible for any failure to meet ISO/TS16949.Mailing Address:Texas Instruments,Post Office Box655303,Dallas,Texas75265Copyright©2014,Texas Instruments Incorporated。

QSG148: Getting Started with the Silicon Labs Bluetooth® Mesh Lighting Demonstration in SDK 1.xThis document provides step-by-step instructions to demonstratea basic Bluetooth mesh network. In this demo, three Wireless Starter Kit (WSTK)-based devices are provisioned as two Lights and one Switch. The mobile application allows the control of ei-ther the group of Lights or an individual Light. By pressing but-tons on the Switch device, you can control the ON/OFF states and brightness for all lights in the same group. The demo is open-sourced and provides a good demonstration of a basic Bluetooth mesh network.The Bluetooth Mesh mobile app is intended to demonstrate the Silicon Labs Bluetooth Mesh technology together with the Bluetooth Mesh SDK sample apps. The mobile app is a reference app for the Bluetooth Mesh mobile ADK but it should not be taken as a starting point for customers to create their own mobile apps. For guidance on creating mobile apps with the Bluetooth Mesh mobile ADK, refer to AN1200: Bluetooth® Mesh for iOS and Android ADK.KEY POINTS•Prerequisite for the demo•Hardware set-up of WTSKs •Bluetooth mesh SDK installation in Simplicity Studio•Demo firmware installation •Instructions for provisioning, configuring, and controlling network nodes using the Android smartphone applicationPrerequisites 1. PrerequisitesThe Silicon Labs Bluetooth mesh lighting demonstration is designed to illustrate Bluetooth mesh operation without any need to config-ure or compile software. To get started with the Bluetooth mesh demo, obtain the following.1.1 Order Development KitsThe Blue Gecko Bluetooth SoC Wireless Starter Kit is the easiest and fastest way to start the evaluation and development of your own Bluetooth mesh applications. To get started with the Bluetooth mesh demo, you need to have three (3) EFR32™ WSTK main boards and radio boards. These can be obtained by ordering any of the Wireless Starter Kit options below.Option 1:QTY(3) of PN: SLWSTK6020B kits: /products/development-tools/wireless/bluetooth/blue-gecko-bluetooth-low-energy-soc-starter-kitOption 2:QTY(1) of PN: SLWSTK6000B kit: /products/development-tools/wireless/mesh-networking/mighty-gecko-starter-kitOption 3: QTY(1) of PN: SLWSTK6006A kit: /products/development-tools/wireless/efr32xg21-wireless-starter-kitThis demo requires either EFR32MG21, EFR32BG13, EFR32MG13, EFR32BG12, or EFR32MG12 radio boards. If you already have the WSTK Main Boards, you can purchase the required radio boards here.Note: This document references the boards provided in PN: SLWSTK6020B. The radio board provided in SLWSTK6000B and SLWSTK6006A as well as the radio board mentioned above can be substituted for the EFR32BG13 board referenced in this document.1.2 Download Simplicity StudioGo to: /simplicity-studio to download the latest Simplicity Studio version compatible with your computer’s operat-ing system.1.3 Download Bluetooth Mesh by Silicon Labs Mobile App from iTunes or Google PlayiTunes:https:///us/app/bluetooth-mesh-by-silicon-labs/id1411352948?mt=8Google Play:https:///store/apps/details?id=com.siliconlabs.bluetoothmesh&hl=enNote: The minimum requirement for the smartphone is Android 6 (API23).1.4 Obtaining SupportYou can access the Silicon Labs support portal at https:///support through Simplicity Studio Resources. Click the “Email-Support” link and log in with your self-registered credentials. Use the support portal to contact Customer Support for any ques-tions you might have about the demonstration.2. About the Bluetooth Mesh SDKThe Silicon Labs Bluetooth mesh stack is an advanced Bluetooth mesh protocol stack implementing the Bluetooth mesh standard. It can run alongside the Bluetooth Low Energy (LE) stack, using a common link layer, which allows using LE features in parallel. The Silicon Labs Bluetooth mesh stack is meant for Silicon labs Wireless Gecko SoCs and modules.The Silicon Labs Bluetooth mesh stack provides multiple APIs for the developer to access the Bluetooth mesh functionality. Two modes are supported.1.Standalone mode (also referenced as SoC mode), where both the Bluetooth mesh stack and the application run in a WirelessGecko SoC or module. The application can be developed with the C programming language.work Co-Processor (NCP) mode, where the Bluetooth stack runs in a Wireless Gecko and the application runs on a separatehost MCU. For this use case, the Bluetooth stack can be configured into NCP mode where the API is exposed over a serial inter-face such as UART.2.1 Bluetooth Mesh Stack FeaturesThe features of the Silicon Labs Bluetooth stack are listed in the following table. For details on the features of the Bluetooth Low Ener-gy stack, refer to QSG139: Getting Started with Bluetooth® Software Development.Table 2.1. Bluetooth Mesh Stack FeaturesTable 2.2. Supported Models2.2 Bluetooth Mesh Stack Limitations(1) The node belongs to a single network but the network may have multiple network keys to encrypt the traffic.3. Getting Started3.1 Preparing the WSTKThe layout of the Wireless Starter Kit (WSTK) Main Board with attached EFR32BG13 radio board is shown in the following figure:Figure 3.1. WSTK Main Board with Radio Board Attached1.Connect a Blue Gecko Radio Board to the WSTK Main Board.Use radio board SLWRB4104A EFR32BG13 2.4 GHz (+10 dBm) for this demo experience.2.Connect the WSTK to a PC using the "J-Link USB" connector and the cable provided with the starter kit.3.If not already set, turn the Power switch to "AEM" position.4.Repeat the above steps for the other two kits so all three kits are connected to your computer.Verifying the Setup:1.Check that the blue "USB Connection Indicator" LED (next to “J-Link USB”) turns on or starts blinking.2.Check that the Main Board LCD display turns on and displays a Silicon Labs logo.For more detailed information regarding the Starter Kit, refer to UG279: EFR32BG13 Blue Gecko Bluetooth Starter Kit User's Guide.3.2 Open Simplicity Studio and Install Bluetooth Mesh SDKBluetooth mesh SDK is installed using the Simplicity Studio package manager.1.Open Simplicity Studio and log in using your Silicon Labs account.2.Click the Download Update icon (red/green down arrow under the menu bars), and click Package Manager.3.Go to the SDKs tab to install Bluetooth mesh SDK.4.In the Launcher screen, check if the preferred SDK is “Bluetooth mesh SDK + Platform”. If not, click the link provided to change thepreferred SDK to “Bluetooth mesh SDK + Platform”.You can find more detailed instructions for Simplicity Studio in QSG139: Bluetooth Development with Simplicity Studio.3.3 Install the Demonstration FirmwareWhen the devices are connected to your PC with a USB cable, you can see three devices listed in the Device window in Simplicity Studio. Select the J-link for a device to display demonstrations, examples, and documentation associated with the Bluetooth Mesh SDK.For this demo, you need to flash two devices with BT Mesh – Light Example and one device with BT Mesh – Switch Example.To install the firmware, click the demo. In the Mode drop-down in the next dialog, select Run. Click [Start].3.4 Use the Demo with an Android SmartphoneMake sure that all three devices have the status of “unprovisioned” on the device LCD screen before starting with the application. Open the Bluetooth Mesh App by Silicon Labs on your Android phone.Follow the procedures below to set up and use the demonstration.1.Go to provisioning view and search for unprovisioned devices.2.Select the Bluetooth mesh device you want to provision and configure.3.Enter the descriptive name for the device and the network you want to add it to.Note: The Android application has a pre-generated network and group, but you can add more groups to the application if you like. The network and node database can be erased by long-pressing the network in the main view and by pressing the trash icon.To configure the newly provisioned Bluetooth mesh:1.Right after provisioning the Android application connects the proxy service on the node.2.During configuration select the Bluetooth mesh features (proxy, relay, low power, and friend) that you want to enable.a.Notice that if you disable proxy, the node can no longer be directly accessed over GATT.3.Select the functionality (mesh model) that you want to enable.4.Select the group you want to add the device to.Note: The information view shows the Bluetooth mesh node features, such as Unicast address, UUID, and security keys as well as the supported mesh models. It can be used for debug purposes.To control a Bluetooth mesh node with the Android application:1.Select the network and group you want to control .2.The application will show the available nodes in that group.3.You can control the light:a.Pressing the light bulb icon will send an On/Off message.b.Moving the upper slider will send Light Lightness (dimming) messages.c.Moving the medium and lower sliders will send CTL (temperature and delta UV) messages.d.Pressing [STORE] stores the corresponding scene.4.By going to devices view and either swiping or long-pressing a node you can then either delete or reconfigure the node.Once the Android application has been used to provision a light bulb and a light switch to a network and group, the light switch (WSTK) can also be used to control the light bulb (WSTK) with the PB0 and PB1 buttons.PB0 button:•Short press: Decrease Light Lightness by 10%•Medium press: Decrease CTL (temperature) value•Long press: Send Off message•Very long press (5 seconds or more): Recall scene 1PB1 button:•Short press: Increase Light Lightness by 10%•Medium press: Increase CTL (temperature) value•Long press: Send On message•Very long press (5 seconds or more): Recall scene 23.5 Use the Demo with an iOS SmartphoneMake sure that all three devices have the status of “unprovisioned” on the device LCD screen before starting with the Mobile App.Open the Bluetooth Mesh App by Silicon Labs on your iOS phone.Follow the procedures below to set up and use the demonstration.1.Create a Bluetooth mesh network.2.Select the network and create a group.3.Go to the provisioning view and search for unprovisioned devices.4.Select the Bluetooth mesh device you want to provision and configure.The network and node database can be erased by left-swiping the network in the main view and then pressing the trash icon.To provision a Bluetooth mesh device and configure the node:1.During provisioning select the network you want to add the device to.2.During configuration select the Bluetooth mesh features (proxy, relay, low power and friend) that you want to enable.a.Notice that if you disable proxy, the node can no longer be directly accessed over GATT.3.Select the group you want to add the device to.4.Finally select the functionality (mesh model) that you want to enable.Note: The information view shows the Bluetooth mesh node features, such as Unicast address, UUID, and security keys as well as the supported mesh models. It can be used for debug purposes.To control a Bluetooth mesh node with the iOS application:1.Select the network and group you want to control.2.The application will show the available nodes in that group.3.You can control the light:a.Pressing the light bulb icon will send an On/Off message.b.Moving the upper slider will send Light Lightness (dimming) messages.c.Moving the medium and lower sliders will send CTL (temperature and delta UV) messages.d.Pressing [STORE] stores the corresponding scene.4.By going to the Devices view and tapping a node name you can reconfigure the node. To remove the node from the network, left-swipe it and press the trash icon.Once the iOS application has been used to provision a light bulb and a light switch to a network and group, the light switch (WSTK) can also be used to control the light bulb (WSTK) with the PB0 and PB1 buttons.PB0 button:•Short press: Decrease Light Lightness by 10%•Medium press: Decrease CTL (temperature) value•Long press: Send Off message•Very long press (5 seconds or more): Recall scene 1PB1 button:•Short press: Increase Light Lightness by 10%•Medium press: Increase CTL (temperature) value•Long press: Send On message•Very long press (5 seconds or more): Recall scene 24. Next StepsTo understand how the demo works, see AN1098: Understanding the Silicon Labs Bluetooth Mesh Lighting Demonstration .Explore the other documentation provided by Silicon Labs to get started with customizing your own Bluetooth mesh applications. SDK-specific documentation is provided under SDK Documentationon the Getting Started tab of the Launcher perspective.Next StepsIoT Portfolio/IoT SW/HW /simplicity Quality /quality Support & Community /communitySilicon Laboratories Inc.400 West Cesar Chavez Austin, TX 78701USADisclaimerSilicon 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. Silicon Labs reserves the right to make changes without further notice to the product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Without prior notification, Silicon Labs may update product firmware during the manufacturing process for security or reliability reasons. Such changes will not alter the specifications or the performance of the product. Silicon Labs shall have no liability for the consequences of use of the information supplied in this document. This document does not imply or expressly grant any license to design or fabricate any integrated circuits. The products are not designed or authorized to be used within any FDA Class III devices, applications for which FDA premarket approval is required, or Life Support Systems without the specific written consent of Silicon Labs. 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 Labs products are not designed or authorized for military applications. Silicon Labs products shall under no circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, ormissiles capable of delivering such weapons. Silicon Labs disclaims all express and implied warranties and shall not be responsible or liable for any injuries or damages related to use of a Silicon Labs product in such unauthorized applications.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®, Gecko OS, Gecko OS Studio, ISOmodem®, Precision32®, ProSLIC®, Simplicity Studio®, SiPHY®, Telegesis, the Telegesis Logo®, USBXpress®, Zentri, the Zentri logo and Zentri DMS, Z-Wave®, and others are trademarks or registered trademarks of Silicon Labs. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is a registered trademark of ARM Limited. Wi-Fi is a registered trademark of the Wi-Fi Alliance. All other products or brand names mentioned herein are trademarks of their respective holders.。

musiclevels拾音灯正品说明书一、产品简介musiclevels拾音灯是一款专为音乐爱好者和专业音乐家设计的高品质音乐灯。

其造型简约时尚，外壳采用高强度铝合金材质，具有轻巧便携、耐用的特点。

musiclevels拾音灯采用先进的LED技术，能够提供明亮、均匀的光照，确保您在不同的演出环境中都能够获得精确的音符显示。

二、产品特点1. 高亮度LED显示：musiclevels拾音灯采用高亮度LED灯珠，能够提供明亮均匀的光照。

无论是在昏暗的舞台还是在室内排练室，都能够清晰地看到音符的显示，帮助您更好地掌握音乐节奏。

2. 多功能模式：musiclevels拾音灯提供多种模式切换，包括自动模式、手动模式和节拍模式。

自动模式下，灯光会根据音乐的节奏自动调整亮度和颜色，营造出独特的舞台效果。

手动模式下，您可以根据个人需求调整灯光亮度和颜色。

节拍模式下，灯光会根据设定的节拍频率闪烁，帮助您更加准确地把握音乐的节奏。

3. 电池供电：musiclevels拾音灯内置充电电池，可以通过USB接口进行充电。

一次充电可以提供长时间的使用，无需频繁更换电池，方便实用。

4. 调光功能：musiclevels拾音灯提供多种亮度调节选项，可以根据不同场景的需要进行调整，无论是在室内还是室外，都可以保证清晰的音符显示。

5. 轻巧便携：musiclevels拾音灯采用轻巧的设计，重量仅为200克左右，便于携带和放置。

无论您是在舞台上演出还是在家中排练，musiclevels拾音灯都能够满足您的需求。

三、使用方法1. 打开开关：将musiclevels拾音灯的开关拨到ON的位置即可打开电源。

2. 选择工作模式：长按开关键3秒钟，音符图标会显示在屏幕上，此时即可通过轻按调节键选择不同的工作模式。

您可以根据需要选择自动模式、手动模式或节拍模式。

3. 调整亮度：短按调节键可调整musiclevels拾音灯的亮度。

根据个人喜好和不同环境需求，您可以选择合适的亮度。

简易彩灯的制作方法说实话简易彩灯的制作方法这事，我一开始也是瞎摸索。

我就想着搞点好看的彩灯挂家里，肯定特有氛围。

我试过拿那种小的灯泡，就像咱们以前见到的手电筒里的小电珠那种。

最开始我直接想把线接上电池，寻思这就能亮了呗，结果呢，根本不亮。

后来才知道得有个完整的电路才行。

于是我找了些导线，把灯泡、电池连起来，这才亮了。

可这还不算彩灯呢，只是孤零零一个亮着的灯泡。

我又想啊，得想办法让它好看点儿。

我找来了一些彩色的纸，想把灯泡包起来，可纸太厚了，光都透不出来多少。

后来我换了那种特别薄的卫生纸，把它浸湿了包在灯泡外面，等干了之后，嘿，就有点那种朦胧的彩色感觉了。

但是这卫生纸不结实啊，稍微一碰就破了。

然后我就去翻箱倒柜，发现了那种彩色的塑料薄膜，这玩意儿不错。

我把塑料薄膜剪成小块儿，再用双面胶小心翼翼地贴在灯泡外面。

这时候看着就有点彩灯的样子了。

还有电池怎么安放也是个问题。

我一开始就把电池随随便便放边上，结果线一动，电池就掉了，电路就断了。

我想办法找了个小盒子，在盒子上掏几个洞，把电池固定在里面，线也从洞里引出来，这样就稳当了。

我觉得要是多做几个这样的小彩灯，最好能把它们串起来。

串的时候要小心啊，我有一次就不小心把两根导线弄短路了，那灯泡一下就灭了。

那该怎么串呢？我就是把一个灯泡的其中一根导线和下一个灯泡的一根导线连接在一起，就像咱们穿珠子似的，依次连接好，全部连好后再把这一串的两端接在电池的两极上。

就这么一步步的，有时候一个小小的改动或者多做几次尝试，就能让彩灯更好看更完整一些。

不过这些都是我自己瞎捣鼓出来的方法，可能还有更聪明更简便的办法，要是大家知道也可以试试。

我记得有次我想让彩灯一闪一闪的，我就想是不是能像电视里演的那样，加个什么能控制电流的东西呢。

我也不确定那东西叫啥，然后我就去上网查了查，一查才知道那叫闪烁器。

我就又从网上买了个闪烁器，按照说明连接在电路里，这小彩灯就真的一闪一闪的了，可有意思了。

悬浮灯泡计划书1. 引言悬浮灯泡是一种新颖的照明产品，它能够悬浮在空中，为人们提供照明效果。

本计划书旨在介绍悬浮灯泡的设计理念、技术实现和市场推广计划。

2. 设计理念悬浮灯泡的设计理念是通过磁力原理实现灯泡的悬浮效果。

传统的灯泡需要使用灯座固定在天花板上，而悬浮灯泡通过在灯泡底部嵌入磁体，与上方的悬浮装置产生磁吸效应，使灯泡能够悬浮在空中。

悬浮灯泡的设计不仅追求实用性，同时也注重美观性。

灯泡的外观设计简洁大方，给人以现代科技的感觉。

悬浮效果的呈现为人们提供了一种独特的观赏体验，增加了产品的使用价值。

3. 技术实现悬浮灯泡的技术实现通过两个关键组件：磁体和悬浮装置。

3.1 磁体悬浮灯泡的底部嵌入了一个强力磁体，用于与悬浮装置产生磁吸效应。

磁体的选材和形状设计对于悬浮效果起着重要作用。

我们将选用具有良好磁吸效果的材料，并进行优化设计，以确保灯泡能够稳定地悬浮在空中。

3.2 悬浮装置悬浮装置是用于支撑和悬浮灯泡的关键组件。

我们将采用电磁悬浮技术，通过控制电流和磁场来实现对灯泡的悬浮效果。

悬浮装置还需要具备稳定性和安全性，确保灯泡在悬浮过程中不会发生意外。

4. 市场推广计划悬浮灯泡具有独特的设计和技术实现，有着广阔的市场需求。

我们将通过以下方式推广和销售悬浮灯泡：•线上渠道：通过互联网平台，如电商网站和社交媒体，发布产品信息和宣传视频，吸引用户关注和购买。

同时，与知名电商合作，增加产品曝光度。

•线下渠道：与家居建材商店和家装公司合作，将悬浮灯泡纳入产品供应链。

通过展示和演示，吸引消费者的兴趣并促成销售。

此外，参加家博会等相关展览，提高品牌知名度。

•产品差异化：为了在市场竞争中脱颖而出，我们将注重产品的差异化。

除了悬浮效果，我们还将引入智能控制、可调光等功能，增加产品的附加值。

•推广活动：定期举办悬浮灯泡的推广活动，如悬浮体验活动、抽奖活动等，吸引人们的注意和参与度。

通过活动增加用户体验，提高产品口碑。

5. 结束语本计划书介绍了悬浮灯泡的设计理念、技术实现和市场推广计划。

蓝牙智能LED工作原理及其操作步骤随着高科技产品的普及，安全、舒适、便利的生活环境已经不再是一个梦幻。

由于智能家居系统可以为人们提供更加轻松、有序、高效的现代生活环境，因此已经成为建筑商争相追逐的热点,随着智能家居市场推广普及的进一步落实，培育起消费者的使用习惯，智能家居市场的前景一片光明。

而目前如果用遥控器必将使用干电池而造成环境污染，危害人类生存环境。

伴随着LED低能耗节能灯具的日益普及目前手机用户也日渐庞大，况且全球主流手机厂家的新款手机均支持低功耗蓝牙技术。

云里物里开发的蓝牙智能LED灯方案，是基于Nordic芯片开发，采用BLE技术，让手机或其他移动终端取代各类遥控器和开关。

操作简单，只需保持灯通电，打开手机LED灯光控制软件，选择你要控制的LED，就能控制LED灯光的开关、强弱及颜色，让家庭环境多姿多彩。

它还有6大定制功能，它们分别为照明系统场景模式设置,用户习惯记忆,声控/语音控制,APP或硬件的定制,手机绑定模式,防止他人控制。

如此神奇的LED灯，它是如何实现上述强大功能的呢？这里结合图1对它的原理做一番简介，蓝牙智能LED灯由手机APP和与手机通过蓝牙通信的LED控制器和由RGB三基色配色的LED灯珠组成，其中用户通过手机APP的操作可完成照明系统场景模式设置,用户习惯记忆等6大功能来实现灯光控制，该LED控制器包含了无线芯片nRF51822、LED驱动以及RGB 控制器、5V电源和提供3.3V直流电的电源管理单元。

但打开手机APP时有3个模式可供用户选择，1.开关模式2.白光模式3.RGB调光模式，其中RGB调光模式是在APP显示的圆形色盘上移动后确定颜色值来调整LED灯珠的颜色的。

图1了解了基本原理后，下面我们来看看操作步骤。

第一步：演示APP，在APP STORE或安卓市场搜索“Minew灯”,（如图2）下载并安装。

图2图3第二步：点击并打开“Minew灯”图标并运行该程序，（见图3）将见到一个APP界面。

“感应灯”的制作感应灯是一种自动感应人体活动的灯具，当人靠近或离开时自动开关灯光。

它可以广泛应用于家居照明、商业场所照明、公共场所照明等各个领域。

下面我将介绍一下感应灯的制作过程。

首先，我们需要准备以下材料和工具：1.高度可调的感应开关模块，可通过调节距离和灵敏度来控制感应距离和感应角度；2.LED灯珠或LED灯带，可根据需要选择合适的数量和颜色；3.透明的灯罩或灯泡壳，用来保护LED灯珠；4.电源适配器或电池盒，用于供电；5.线材、焊锡、焊锡丝等；6.剪刀、工具刀、钳子、螺丝刀等基本工具。

接下来，我们来具体制作感应灯。

第一步，连接电源和感应开关模块。

将电源适配器或电池盒的正负极与感应开关模块的相应接口焊接连接好。

第二步，进行灯珠或灯带的布线。

将灯珠或灯带的正极和负极分别与感应开关模块的相应接口焊接连接好。

如果使用灯珠，可以选择串联或并联的方式连接多个灯珠，并将其连接到感应开关模块。

第三步，安装灯罩或灯泡壳。

将LED灯珠放入透明的灯罩或灯泡壳中，确保灯珠与灯罩或灯泡壳密封连接，以保证安全。

第四步，调节感应开关模块。

根据实际需要，通过调节感应开关模块的距离和灵敏度来控制感应距离和感应角度。

可以通过旋钮或螺丝刀来进行调节。

第五步，连接电源并测试。

将电源适配器或电池盒的正负极与感应开关模块的接口连接好，确保电源正常供电。

然后测试灯光效果，当有人靠近时，灯光应自动亮起，当没有人时，灯光应自动关闭。

最后，进行安装和固定。

根据具体情况，可以选择将感应灯固定在墙壁、天花板或其他合适的位置。

使用螺丝或胶水等方式进行固定，确保灯具稳定且不易松动。

以上就是感应灯的制作过程，通过简单的材料和工具，我们可以制作出一个实用的感应灯。

感应灯的制作不仅能提升居家、商业场所或公共场所的照明效果，还能节省能源和提高安全性。

希望这篇文章对您有所帮助！。

磁铁灯泡制作方法
磁铁灯泡是一种特别的灯泡，具有吸附在金属表面的易用性和方便性。

然而，在市场上购买这种产品会相对昂贵。

因此，在这篇文章中，我
们将向您介绍制作磁铁灯泡的方法。

材料
1.灯泡
2.磁铁
3.电线
4.电烙铁
步骤
1.购买灯泡和磁铁。

灯泡可以根据自己的需要选择不同的尺寸和颜色，而磁铁则需要适合所选灯泡的大小。

2.打开灯泡的底部。

首先，拆下底部金属盖子，注意不要用力过猛，
以免破坏灯泡。

3.连接电线。

连接电线和灯泡底部金属部分，确保线路顺畅且稳定。

在连接过程中，可以使用钳子或手套保护手指。

4.连接磁铁。

将磁铁与灯泡接触面固定相连，以确保磁铁可以牢固地
吸附在金属表面上。

5.装配灯泡。

将底部盖子重新固定到灯泡底部，并注意确保金属部分接触良好，并未受损。

6.测试。

将新制成的灯泡插入插座，注意将电线插入正确位置，确保电流可以正常传输。

7.完成。

让灯泡照亮您的房间，享受您的新装置。

总结
磁铁灯泡是一种方便人们生活的小工具。

制作磁铁灯泡并不是特别困难，只需要一些基础材料和耐心。

遵循以上步骤，您可以轻松地制作出属于自己的磁铁灯泡，以供使用。

但是，无论完成的制品看起来还是使用上都不能与市面上的产品相比，因此对于安全使用还是需要谨慎。