湿度传感器自动浇花说明书

arduino测量土壤湿度自动浇水提醒
一、土壤湿度传感器简介1、传感器适用于土壤的湿度检测；
2、模块中蓝色的电位器是用于土壤湿度的阀值调节，
顺时针调节，控制的湿度会越大，逆时针越小
3、数字量输出D0可以与单片机直接相连，通过单片机来检测高低电平，由此来检测土壤湿度；
4、小板模拟量输出AO（0~1023）可以和AD模块相连，通过AD转换，可以获得土壤湿度更精确的数值；
二、土壤湿度传感器功能及特点本传感器体积小巧化设计，携带方便，安装、操作及维护简单。

结构设计合理，不绣钢探针保证使用寿命。

外部以环氧树脂纯胶体封装，密封性好，可直接埋入土壤中使用，且不受腐蚀。

土质影响较小，应用地区广泛。

测量精度高，性能可靠，确保正常工作。

响应速度快，数据传输效率高。

1、因为长期与水锈蚀，一般寿命在1年左右，真实情况还要看具体的加工工艺
2、通过电位器调节控制相应阀值，
湿度低于设定值时，DO输出高电平，模块提示灯亮；
湿度高于设定值时，DO输出低电平，模块提示灯灭。

3、比较器采用LM393芯片，工作稳定；
4、工作电压3.3V-5V。

3V时，在空气中AO读取的值最大为695，浸泡在水里的最小值245；
5V时，在空气中AO读取的值最大为1023，浸泡在水里的最小值245。

四、BOM表ArdunioUno*1
土壤湿度传感器*1。

Ready Now?We’ve had a state EPA-administered vehicle emissions inspection program here in Ohio for the past several years. Several counties within the state, including the county where our shop is located, have been targeted for special vehi-cle testing procedures, due to their “nonattain-ment” status.At the beginning of this year, our state EPA began testing 1996 and later OBD II-compli-ant vehicles using a “plug-and-play” test. The technician at the testing center plugs into the vehicle’s data link connector (DLC), then checks for stored diagnostic trouble codes (DTCs). He also checks to see whether the OBD II Readiness Monitors have run to com-pletion and are flagged as “Ready” or “Com-plete.” If the Check Engine light is on, the ve-hicle cannot pass. And if the Readiness Moni-tors haven’t run to completion, the vehicle getsa conventional tailpipe emis-sions test.Since the new testing p r o c e d u r e s went into ef-fect, we’ve been seeing a lot of vehicles that have failed the test because one or more of the Readiness Monitors have reported “Not Ready” or “In-complete.” I u n d e r s t a n d there are many different time frames and special driving p r o c e d u r e s that must befollowed to get these monitors to report“Ready” so our customers can pass their emis-sions tests. Some of them involve some pretty bizarre sequences, like accelerating from 0 to 30, then coming to a complete stop. (Ever try that one in traffic?) Is there an easier and quicker way to ready these vehicles? Also,how do we charge a customer for a service that we once offered for free? We have consid-ered discontinuing emissions-related repairs due to these new testing changes, but this would certainly hurt our business.John Krouse Concord, OH Federal regulations required Ohio to implement the new OBD II test you’ve described. Extensive field research has already been conducted, and it’s been determined that the OBD II systems on these newer vehicles do a very good job of de-tecting emissions control system problems before they cause costly damage and allow harmful pol-lutants into the air. When a vehicle fails a plug-and-play emissions test, its OBD II system issues specific diagnostic codes and other information that can help a tech pinpoint the problem and make quicker, more effective repairs. OBD II in-spections also can be administered more quickly than the previous emissions tests.It all sounds pretty great, doesn’t it? What your shop needs is a strategy to deal with cars that have failed the new test.There are two general monitor classifica-tions—continuous and noncontinuous. Continu-ous monitors run all the time. Noncontinuous monitors may run only once per drive cycle.When a vehicle comes in with a DTC relative to a continuous monitor, don’t erase it. For some reason, the first thing many techs want to do is turn off the Check Engine light and clear the stored DTCs. This is the wrong approach for a number of reasons.Fix the problem and drive the vehicle to en-sure the light remains out. If you’ve performed a code erase procedure either before or after re-TroubleShooterKarl SeyfertRepairing an emissions failure is no longer enough. Changes in testing procedures mean it’s also necessary to return the vehicle properly prepped and ready to pass the retest.On 1996 and later OBD II-compliant vehicles, thePCM does a very good job of spotting problems thatcould increase emissions to an unsafe level. Someemissions testing programs now are tapping into this information to verify vehicle compliance.8June 2004P h o t o : K a r l S e y f e r tpairs were completed, you’ve also reset all of the monitors to “Not Ready” or “Incomplete.” The car must now be driven until all of the required monitors have run. Even if you’ve been properly trained and have the needed drive cycle information, this adds to your repair time. And if you don’t have the drive cycle information, you could be driving around for days before the vehicle runs all the needed monitors to completion and is ready to pass a retest. That means wasted time and money.Don’t worry about the original DTC.If you’ve successfully repaired the origi-nal problem that caused the vehicle to fail the first OBD II test, the DTC will remain in the PCM’s memory as a his-tory code for about 60 warm-up cycles before it’s erased. The MIL will not be on or commanded on during the retest.And as long as the vehicle meets other test requirements (monitors complete),the vehicle should pass the retest.A different approach is required if a DTC was set when a noncontinuous monitor was run. Diagnose and repair the problem, then drive the vehicle at the same speed, load, temperature and rpm that were recorded in freeze frame data when the original DTC set. It may be necessary to repeat the drive cycle three or more times, but the PCM should eventually shut off the MIL and the vehi-cle will be ready to pass the retest.Once again, you can see the advan-tage of not erasing the DTCs and reset-ting the monitors to “Incomplete.”With good drive cycle information, it will be necessary to run only the small part of the drive cycle that involves the original DTCs. If you erase the DTCs,you’ll have to extend the drive cycle or possibly drive the vehicle several times before all the monitors will have a chance to run.Although it may be tempting, don’t rely on the customer to try to run the drive cycle and complete the monitors for you. Without the necessary drive cy-cle information, he may never drive the vehicle in the manner required to run all of the required monitors. By con-trast, a properly trained repair techni-cian can run the monitors to comple-tion in as little as 10 minutes and in a distance of two miles. Your goal should be to make the proper repair, then send the failed vehicle back for a retest withall the monitors run.If you’re doing performance work,you need drive cycle information, re-gardless of your state emissions re-quirements. The M OTOR OBD II Drive Cycle Guide is an excellent source for this information. It details the exact procedures you’ll need to follow and the driving conditions that must be sat-isfied to get the required monitors to run to completion. Procedures and conditions vary from manufacturer to manufacturer, and even among differ-ent models from the same manufactur-er. Without this information at your dis-posal, getting the job done is a hit-or-miss proposition at best.Customer education, as well as addi-tional technician training, may be re-quired regarding these types of repairs.Your customer needs to understand the steps your shop must take to ensure that his vehicle will pass a retest. Be-fore you begin an OBD II repair, check the monitor status. This will ensure that your shop allots enough time (in-cluding road tests) to handle the job.Refer to Sam Bell’s “How Not to Get MIL-Stoned” in the April 2004 issue of M OTOR for OBD II customer relations help. And if you’d like to learn more about Ohio’s E-Check program, refer to . Information about available OBD II technician training opportunities can also be found there.。

自动浇花系统策划书3篇篇一自动浇花系统策划书一、项目背景随着城市化进程的加速和人们生活水平的提高，越来越多的人开始在家中种植花卉。

然而，由于工作繁忙、出差等原因，很多人无法按时给花卉浇水，导致花卉枯萎死亡。

为了解决这一问题，我们设计了一款自动浇花系统。

二、项目目标1. 设计一款能够自动给花卉浇水的系统，解决人们因忙碌而无法按时浇水的问题。

2. 提高花卉的成活率和生长质量，让人们在家中就能享受到绿色植物带来的清新空气和愉悦心情。

3. 实现智能化控制，用户可以通过手机 APP 随时随地控制浇水时间和水量。

三、系统功能1. 定时定量浇水：用户可以根据花卉的需求，设置每天或每周的浇水时间和水量。

2. 智能感应：系统可以通过传感器感应土壤湿度，当土壤湿度低于设定值时，自动启动浇水程序。

3. 远程控制：用户可以通过手机 APP 随时随地控制浇水系统，出差或旅游时也能为花卉浇水。

4. 保护功能：当水箱缺水、水泵故障或出现其他异常情况时，系统会自动停止工作并发出警报。

四、系统组成1. 水箱：用于储存水源。

2. 水泵：将水输送到各个喷头。

3. 喷头：将水均匀地喷洒到花卉上。

4. 传感器：用于感应土壤湿度。

5. 控制模块：接收传感器信号，控制水泵启停和喷头工作。

6. 电源模块：为系统提供电源。

7. 手机 APP：用户可以通过手机 APP 远程控制浇水系统。

五、系统设计1. 水箱设计：水箱采用透明材质，方便用户观察水位。

水箱容量根据花卉数量和需水量确定，同时设计加水口和清洗口，方便加水和清洗水箱。

2. 水泵设计：根据水箱容量和花卉数量选择合适的水泵，确保水泵能够将水输送到各个喷头。

3. 喷头设计：喷头采用雾化喷头，将水均匀地喷洒到花卉上，避免浪费水资源。

4. 控制模块设计：控制模块采用微电脑控制芯片，实现定时定量浇水、智能感应、远程控制等功能。

5. 电源模块设计：电源模块采用太阳能电池板和锂电池相结合的方式，太阳能电池板为锂电池充电，锂电池为系统提供电源。

基于传感器的自动浇花系统随着现代科技的发展，人们的生活越来越依赖于智能化的设备。

自动化系统在日常生活中的应用越来越广泛。

基于传感器的自动浇花系统具有很大的潜力。

本文将介绍基于传感器的自动浇花系统的原理、功能和应用前景。

传感器是自动浇花系统的核心部件。

它可以感知环境中的土壤湿度、气温等参数，并将这些数据传输给控制器。

控制器则根据这些数据来决定是否开启水泵进行浇水。

这样，只有当土壤湿度低于一定的阈值时，水泵才会开启，进行浇水。

这样的系统可以实现对花卉的自动供水，解放人们的时间和精力，同时也可以避免由于过度浇水而导致的花卉死亡。

在功能方面，基于传感器的自动浇花系统具有很多优势。

它可以根据花卉的需求来精确调节浇水的量。

传感器可以感知到土壤湿度的变化，从而根据花卉的需要来开启或关闭水泵。

这样可以避免浪费水资源，同时也可以避免由于过度浇水而导致的花卉病虫害的发生。

自动浇花系统可以根据不同的花卉种类和生长阶段来进行浇水。

通过设定不同的阈值，可以满足不同花卉生长的需要。

自动浇花系统可以实现远程控制。

通过与手机等设备的连接，用户可以远程监控花卉的生长状态，并进行相应的调节。

这样，用户即使不在家中，也能够保持花卉的良好生长状态。

基于传感器的自动浇花系统在农业、园林等领域具有广阔的应用前景。

在农业领域，自动浇花系统可以用于蔬菜和水果的种植，提高生产效率和产量。

在园林领域，自动浇花系统可以用于公园、花坛等地方的花卉养护，保持植物的健康生长。

自动浇花系统还可以应用到室内花卉养护中，为忙碌的上班族提供便利。

基于传感器的自动浇花系统具有很大的潜力。

通过传感器的感知和控制器的调节，它可以实现对花卉的自动供水，提高水资源利用效率，提升花卉生长的质量和效果。

随着科技的不断发展，这种系统将在农业、园林等领域得到广泛应用，为人们的生活带来更多的便利和效益。

基于传感器的自动浇花系统基于传感器的自动浇花系统是指基于传感器技术的智能化浇花系统，可以根据植物的生长需要和环境条件，自动调节浇水时间和水量，提供适宜的生长环境，保证植物的健康生长。

1.引言传统的浇花方式大多是人工浇水，存在浇水时间不准确、水量不均匀、浪费水资源等问题。

随着科技的进步，利用传感器技术进行浇花已经成为一种新的趋势。

该系统通过感知植物的生长环境和生长状态，自动调控浇水系统，使得植物在合适的环境条件下生长。

2.系统结构该系统由传感器、控制器和执行器三部分组成。

传感器用于感知植物的环境和生长状态，如土壤湿度、光照强度、温度等；控制器对传感器获取的数据进行处理，并根据一定的算法和规则，决定浇水的时间和水量；执行器是根据控制器发出的指令，控制水泵进行浇水操作。

3.传感器选择可以选择土壤湿度传感器、光照传感器和温湿度传感器等，来感知植物的生长环境。

土壤湿度传感器可以实时感知土壤的湿度状况，判断植物是否需要浇水；光照传感器可以检测光照强度，用于判断植物是否缺光；温湿度传感器可以检测环境的温度和湿度，用于判断植物的生长环境是否适宜。

4. 数据处理与控制算法传感器感知到的数据需要经过处理，得到浇水的决策。

算法可以根据植物的需水量，结合环境条件，确定合适的浇水时间和水量。

当土壤湿度低于设定阈值时，触发浇水操作；当环境温度过高时，减少浇水次数等。

控制算法还可以根据植物的生长周期和生长阶段，调整浇水量和频率。

5. 执行器控制控制器根据处理后的数据，发出浇水指令控制执行器进行浇水操作。

传感器感知到土壤湿度低于设定阈值时，控制器向执行器发送开启水泵的指令，进行浇水。

当土壤湿度达到设定阈值时，控制器向执行器发送关闭水泵的指令，停止浇水。

6. 功能与优势基于传感器的自动浇花系统具有以下功能和优势：（1）智能化浇水：根据植物的生长需求和环境条件，自动调节浇水时间和水量，确保植物生长条件的合适。

（2）节约水资源：相比人工浇水，系统可以根据实际需求合理分配水量，避免浪费水资源。

基于传感器的自动浇花系统随着智能化技术的发展，许多传感器被广泛应用于各个领域。

基于传感器的自动浇花系统成为了一种热门的应用。

该系统利用各类传感器来监测植物的土壤湿度、温度和光照等指标，以实现对植物的自动浇水和光照调节，从而提高植物的生长品质和效率。

这种基于传感器的自动浇花系统由多个传感器组成，其中最关键的传感器是土壤湿度传感器。

土壤湿度传感器能够实时监测土壤的湿度，并根据设定的阈值判断是否需要给植物浇水。

当土壤湿度低于阈值时，系统会自动开启水泵，给植物进行浇水，直到湿度恢复到预设的湿度范围内，水泵才会关闭。

这样一来，系统能够根据植物的实际需求，给予适量的水分，避免过度浇水或者水分不足的情况发生。

除了土壤湿度传感器，系统还会配备温度传感器和光照传感器。

温度传感器可以实时监测植物的生长环境温度，并根据设定的温度范围，自动调整温室的通风和加热设备，以保持适宜的生长温度。

光照传感器则能够实时监测植物所处环境的光照强度，并根据设定的光照范围，自动调整设备提供的光照，以确保植物能够得到足够的光合作用所需的光照量。

基于传感器的自动浇花系统还可以通过接入云平台，实现远程监控和控制。

用户可以通过手机APP或者电脑端的浏览器，随时随地地查看和调整系统的工作状态和参数。

用户可以根据植物的品种和生长阶段，设定适宜的湿度、温度和光照范围。

系统会根据用户的设定进行工作，同时用户也可以随时修改设定参数，以满足实际需求。

基于传感器的自动浇花系统在农业和园艺领域有着广泛的应用前景。

它能够提高植物的生长品质和效率，减轻人工管理的负担，降低生产成本。

该系统的智能化和远程控制功能也使得植物的管理更加便捷和灵活。

越来越多的农民和园艺爱好者选择采用基于传感器的自动浇花系统来改善植物的生长环境，提高产量和品质。

基于传感器的自动浇花系统近年来，随着科技的不断发展，传感器技术的应用越来越广泛。

传感器是一种能够感知、测量和记录物理量或者化学量并将其转换为可以量化的电信号输出的设备。

而自动浇花系统是一种利用传感器技术来实现植物自动浇水的系统。

传感器技术在自动浇花系统中起到了关键作用。

通过土壤湿度传感器，可以实时监测土壤的湿度状况。

当土壤湿度低于一定阈值时，传感器会发送信号给控制系统，触发浇水操作。

然后，通过光照传感器，可以检测光照强度。

当光照不足时，传感器也会发送信号给控制系统，触发灯光的开启，提供足够的光照供植物生长。

还可以利用温度传感器来监测环境温度，当温度过高或过低时，及时调节温度，保护植物免受恶劣环境的影响。

传感器技术的应用还可以提高自动浇花系统的智能化程度。

通过与助手系统相连，可以实现手机远程控制浇水系统。

利用环境温度和湿度等传感器监测数据，助手系统可以为用户提供合理的浇水方案，根据植物的生长需求自动调节浇水量和频率。

将数据上传至云端，可以通过大数据分析来优化浇水方案，提高植物产量和质量。

自动浇花系统的应用有助于减轻人工浇水的工作负担。

传统的人工浇水过程费时费力，而且容易出现水浇过多或过少的问题。

而自动浇花系统可以根据植物的生长需求自动调节浇水量和频率，解放了人力，提高了工作效率。

特别是对于那些需要定时浇水的大型植物园或公园来说，自动浇花系统更是不可或缺的。

传感器技术在自动浇花系统中也存在一些挑战和限制。

传感器的精确度和可靠性是关键。

由于植物对水分的需求不同，对土壤湿度传感器的要求也不尽相同。

传感器需要准确地感知土壤湿度的变化，并与控制系统达成一致，以实现最佳的浇水效果。

传感器的价格和成本也是要考虑的因素。

较高的成本可能会限制大规模应用自动浇花系统的范围。

基于传感器的自动浇花系统在植物养护方面具有广泛的应用前景。

传感器技术可以提供实时的环境监测数据，控制系统可以根据这些数据进行智能调节。

同时也需要克服一些挑战和限制，以提高自动浇花系统的性能和可靠性。

G-9091/K13-dpLeviton Manufacturing Co., Inc.201 North Service Road, Melville, NY 11747-3138Telephone: 1-800-323-8920 • F AX: 1-800-832-9538Tech Line (8:30AM-7:00PM E.T. Monday-Friday): 1-800-824-3005For more information visit our Website at © 2014 Leviton Manufacturing Co., Inc. All rights reserved.To learn morevisit us at /humidityCat. No. IPHS5Humidity Sensorand Fan ControlAutomatically Control Humidity Level The new Leviton Humidity Sensor and FanControl automatically detects excess humidity in a room and activates the ventilation fan to lessen condensation* which helps reduce mold and mildew.The sensor uses state-of-the-art technology to continuously monitor the air in a room and automatically turn on the ventilation fan when it detects a rise in humidity. The device features easily adjustable settings for sensor sensitivity, humidity level and automatic time out which can be set to meet the specific ventilation needs of a room.As an added benefit, use of this sensor helps reduce energy usage by automatically operating the fan only when needed, reducing continuous or unnecessary use.The Humidity Sensor and Fan Control is the ideal solution for controlled ventilation in areas of the home prone to dampness, condensation and mildew such as:- Bathrooms - Basements- Laundry Rooms - Home SpasAutomatically Turns On Ventilation Fanto Reduce Condensation* T he Leviton Humidity Sensor and Fan Control will not independently eliminate condensation. It must be used with a properly sized and rated ventilation fan in anenclosed space.Air Cycle ModeFor areas in the home that require periodic ventilation on a regular basis, the Humidity Sensor and Fan Control includes an Air Cycle mode. When activated, the Air Cycle mode automatically turns on a ventilation fan fora set period of time each hour, for example every 20 minutes ON/40 minutes OFF, and repeats the cycle continuously. This provides peace of mind that particularly humid or damp areas such as basements or home spas are receiving adequate ventilation.Manual On ModeFor immediate ventilation needs, the fan may be manually switched ON or OFF by pressing the fan icon. The fan will run for 10 minutes and automati-cally turn OFF (time out period can be adjusted). If humidity levels change, the sensor will shift into automatic mode and time out accordingly.Great Look, Great FeaturesThe Humidity Sensor and Fan Controlfeatures include:- B uilt-in timer which sets the “minimum ON time”for the ventilation fan. The sensor timer settingscan be custom set to 10, 20, 30 or 45 minuteintervals- T he sensor will continue to operate the fan forthe minimum set time or until there is a reductionin room humidity level. This greatly reduces thechance of condensation developing- S ensitivity level adjustment allows the user toadjust the sensitivity of the sensor to preventfalse cycling- T he device can be manually turned on bypressing the fan icon to address immediateventilation needs.- A djustable humidity set points allow the userto set the minimum humidity level at whichthe fan will automatically operate (Adjustablehumidity set points are a requirement ofCALGREEN and CA Title 24)- R eplaces a single pole switch for control ofventilation fan or a fan/light combination- C ompatible with Incandescent, LED, CFLand Fluorescent lighting loads- R equires a neutral wire for operation- U se with existing or new ventilation bathfans up to 1/6 HP, 3 Amp motor-S crew terminals for easy installation- C ompatible with Decora® and Decora Plus™wallplates- A vailable in White, Ivory and Light Almond。