Dusun DSGW-010 IoT Gateway for Smart Water Management: Revolutionize Your Water Usage
Smart water management is the activity of planning, developing, allocating, and managing the use of water resources using a range of IoT technologies. It relies on IoT devices and aims to increase transparency and make more rational and sustainable use of these water resources. This article details the various areas of smart water management and how they work to help you pick the best IoT device for you.
What is a Smart Water Management?
Smart water management monitors, controls, and regulates the use and quality of water resources and maintains related equipment through system integration and a series of measures. The IoT gateway acts as a communication hub, allowing for smooth interaction between the system’s numerous devices and sensors.
It gathers information from various IoT devices and sensors installed across the water infrastructure, such as water quality monitors, flow meters, pressure sensors, and weather sensors. The IoT gateway communicates with these devices and retrieves data from them using wireless connectivity protocols such as Wi-Fi, Bluetooth, Zigbee, or cellular networks. When necessary, it can also deliver commands or configuration updates to the devices.
The gateway communicates with other components of the smart water
management system, such as data gathering and communication
infrastructure. It uses internet connectivity to link with cloud-based
data storage and processing systems, sending captured and preprocessed
data to the cloud platform.
Furthermore, the IoT gateway can provide real-time monitoring and control of linked devices. It is capable of receiving orders or instructions from the cloud platform and relaying them to the appropriate devices, enabling automated control and decision-making based on the analyzed data.
View Smart Water Management Gateway
Benefits of Smart Water Management
Smart water management systems can provide property managers and equipment manufacturers greater control over water usage, preventive maintenance issues, and insight into cost-saving opportunities.
Improved Equipment Performance
IoT-enabled components and sensors built into water management equipment can deliver real-time information on performance indicators including pressure levels, flow rates, and energy usage. This information enables producers to keep an eye on how the machinery is running, spot possible problems, and proactively address maintenance and optimisation requirements, ultimately improving the performance and dependability of their goods.
Predictive Maintenance
Smart sensors can track data on characteristics like temperature, vibration, and consumption patterns to continuously check the health of water management equipment. Manufacturers can use predictive maintenance procedures, identifying probable failures or performance declines in advance, by analyzing this data. This proactive strategy lowers repair costs, lessens equipment downtime, and increases customer satisfaction.
Remote Monitoring and Troubleshooting
IoT-enabled devices enable manufacturers to remotely monitor the functioning of their equipment and troubleshoot problems without being present on-site. Manufacturers can identify issues, offer remote help, and even start remote repairs or changes by gaining access to real-time data and analytics from linked devices. Time is saved, service costs are decreased, and customer support is improved through this capacity.
Effective Inventory Management
Real-time monitoring of equipment performance and utilization is made possible by IoT connectivity for manufacturers. Manufacturers can optimize inventory management and guarantee the availability of spare parts or replacement components when necessary by analyzing usage trends and predictive maintenance data. This lowers the price of inventory, limits stockouts, and boosts the effectiveness of the entire supply chain.
Smart Water Management Applications Smart apartment water management
IoT technology has completely changed how water is managed in smart apartments, giving tenants and property owners new tools to monitor and regulate water use. Smart flat water management systems provide increased efficiency, conservation, and convenience by merging IoT sensors, data analytics, and automation. Smart water monitoring is one of the most important components of IoT-based smart flat water management.
IoT sensors are carefully positioned at key water infrastructure
locations in the apartment, such as faucets, showers, toilets, and
washing machines. These smart sensors continuously gather information on water flow, consumption trends, and even spot leaks or other irregularities.
The gathered data is sent to a central IoT gateway, where it is instantly processed and examined. The ability to discover potential areas for improvement and make well-informed choices regarding water conservation is made possible by monitoring water usage at a granular level. This provides residents and property owners with insights into their consumption habits.
Fish Farming
IoT sensors placed in fish farming tanks or ponds collect data on water quality parameters such as temperature, pH levels, dissolved oxygen, and ammonia levels. The IoT gateway acts as a communication hub, receiving data from the sensors and transmitting it to the centralized data collection and communication infrastructure. The gateway preprocesses the data, filtering and aggregating it before sending it to the cloud platform for analysis.
Through the IoT gateway, fish farmers can remotely monitor the data, receive alerts, and make informed decisions regarding feeding, water exchange, and other critical factors for fish health and growth.
Chemical Wastewater Management
IoT sensors deployed in chemical wastewater treatment plants monitor parameters like pH, turbidity, chemical concentrations, and flow rates. The IoT gateway collects data from these sensors, performs initial processing, and securely transmits it to the cloud platform.
Real-time data from the gateway allows for continuous monitoring of wastewater quality, enabling timely actions to maintain compliance and optimize treatment processes. Through the gateway, operators can remotely monitor and control equipment, adjusting dosing and treatment based on data analysis, thereby improving efficiency and reducing costs.
Flood Protection
In locations that are prone to flooding, LIoT sensors such as water level sensors, rain gauges, and weather sensors are strategically placed. These sensors continually record information about the weather, precipitation, and water levels. The gathered data is sent to a centralized IoT gateway for real-time analysis.
Flood control officials may evaluate the severity of the situation, monitor the pace of increasing water levels, and forecast the possible danger of flooding by evaluating the sensor data. This early warning system prompts the right responses and promptly notifies local communities, emergency services, and key stakeholders.
The incorporation of automated control mechanisms is also made possible by IoT-based water management systems. The Internet of Things network, for instance, may be used to link distant floodgate control systems. Based on real-time data analysis, these technologies automatically modify floodgate opening and shutting.
Floodgates are devices that dynamically control water flow to avoid or lessen flooding in important regions. IoT technology also makes it easier to coordinate and communicate among different flood prevention methods. A central cloud-based platform can receive data from IoT sensors, enabling different stakeholders to access and evaluate the data at once.
This encourages cooperation and makes it possible for decision-makers to make well-informed choices based on current information.
Communication Interfaces for Smart Water Management
Smart water management systems depend on many communication interfaces to enable smooth data exchange across numerous components and stakeholders. Here are a few examples of common communication interfaces used in smart water management.
MQTT and CoAP: These two Internet of Things protocols are appropriate for devices with little resources. They provide scalability, low power consumption, and excellent efficiency. They are especially well-suited for short- to medium-range installations with a concentration on publish-subscribe messaging and real-time data transfer.
Wi-Fi: Wi-Fi is a popular option for smart water management systems in household or small-scale business settings since it offers a high-speed wireless connection and is readily accessible. Compared to other protocols, it has a greater power consumption but also good efficiency and scalability.
Cellular Networks: Cellular networks, such as 4G LTE and 5G, provide extensive coverage and dependable connection, making them appropriate for remote monitoring and control of water management systems in locations lacking Wi-Fi coverage. They have a medium to high power consumption and efficiency yet provide good security and scalability.
LoRaWAN: LoRaWAN was created primarily for long-range communication with minimal power consumption, making it appropriate for massive installations and distant locations with potentially restricted power supplies. It is less efficient than other protocols, but it outperforms them in terms of coverage, scalability, and security.
The IoT protocol that is chosen for smart water management must meet a number of criteria, including those related to range, power consumption, scalability, and infrastructure accessibility. Low-power short- to medium-range installations work well with MQTT and CoAP. Wi-Fi is ideal for home and small-scale business applications. Cellular networks provide dependable coverage over a large area. For long-range installations with insufficient power sources, LoRaWAN is perfect.
SoC Technology in Smart Water Management
System-on-Chip (SoC) technology is often utilized in smart water management due to its highly integrated approach to cramming several functionalities onto a single chip. IoT water management may become more compact and affordable using SoC technology, which will also improve their functionality and power efficiency. System-on-a-Chip (SoC) technology, which combines many functions and protocols onto a single chip, is essential to smart water management systems.
Versatility and Interoperability
Communication with several devices and protocols, including sensors, actuators, gateways, and cloud platforms, is often necessary for smart water management systems. Multiple communication protocols may be handled concurrently by a multi-protocol SoC, enabling easy interoperability between various system components.
This adaptability makes it simple to integrate the smart water management solution with a variety of tools and platforms, improving its overall usefulness and adaptability.
Reduced Hardware Complexity
There is no longer a need for separate chips or modules for each communication protocol since numerous protocols may be integrated into a single SoC. This lessens the complexity of the hardware, streamlines the design of the system, and decreases the price of production and maintenance. Additionally, it enables more space-saving and compact designs, which may be particularly advantageous in applications with limited physical area, such as water meters or small-scale water monitoring systems.
Cost Efficiency
By lowering the number of components and the complexity of the whole system, a multi-protocol SoC may save money. The total manufacture and integration costs may be greatly decreased by combining numerous functionality onto a single chip. This may be particularly helpful in large-scale deployments when cost effectiveness is essential.
Energy Efficiency
By effectively handling communication protocols, a multi-protocol SoC may reduce power use. Depending on the needs of the application, it may dynamically transition between multiple protocols, minimizing power consumption and prolonging battery life in battery-powered devices. Smart water management systems must be energy efficient, particularly in rural and off-grid areas where the availability of electricity may be restricted.
Upgradability
Utilizing a multi-protocol SoC enables compatibility with many communication standards and protocols, enabling growth and upgradeability in the future. The system may be modified or expanded when new protocols are developed or old protocols are improved without needing significant hardware changes. This capacity to be future-proof offers scalability and flexibility to shifting technological environments.
Dusun Application for Smart Water Management
Dusun IoT has provided successful solutions for projects in different scenarios such as households, industries, and businesses in terms of smart water management. Below Dusun introduces an IoT gateway that is extremely suitable for smart water management – DSGW-010. (But this is not the only suitable gateway, you can contact Dusun through the side form or chat to customize or recommend the most suitable gateway for you.)
DSGW-010 Gateway
Industrial Grade and Waterproof
DSGW-010 IoT gateway can survive hard climatic conditions, making outside installations possible. Its waterproof IP66 design guarantees dependable functioning even in damp or humid conditions.
Strong Connectivity
The gateway offers a variety of connectivity choices by supporting numerous communication protocols, including Wi-Fi, Ethernet, 3G, 4G, and NB-IoT. This makes it possible for diverse water management tools and systems to integrate seamlessly.
Advanced Security Features
A key component of any IoT deployment is security. Data sent between devices and the central management system is protected by the DSGW-010 gateway’s secure communication channels and support for encryption protocols.
Scalability and Compatibility
As the water management system develops, the gateway’s high level of scalability will enable the installation of new devices or sensors. Additionally, it allows interoperability with many IoT platforms, making a variety of systems compatible with it.
Remote Monitoring and Administration
Dusun DSGW-010 gateway enables remote monitoring and administration of water management processes. It makes it possible to gather, analyse, and regulate data in real-time, giving decision-makers the knowledge they need to optimise water use and take rapid action on problems.
Edge computing capabilities
Edge computing capabilities are built into the gateway, allowing for data processing and analysis at the network’s edge. As a result, latency is decreased, reaction times are accelerated, and system efficiency is increased.
Customization and Integration
Dusun IoT offers the ability to modify the gateway’s features and functions to meet particular requirements for smart water management. It can smoothly interface with current water management systems, giving it a flexible option for a variety of applications.
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【应用】支持蓝牙5.0协议,Silicon Labs高性能SoC在IoT“智慧照明”领域中的应用
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TE Connectivity(泰科)传感器选型指南
目录- Company Profile DIGITAL COMPONENT SENSOR DEVELOPMENT TOOLS FLOW SENSORS FORCE SENSORS HUMIDITY SENSORS LIQUID LEVEL SENSORS PHOTO OPTIC SENSORS PIEZO FILM SENSORS POSITION SENSORS PRESSURE SENSORS RATE AND INERTIAL SENSORS SCANNERS AND SYSTEMS SPEED SENSORS TEMPERATURE SENSORS TORQUE SENSORS ULTRASONIC SENSORS VIBRATION SENSORS WATER LEVEL SENSORS
型号- 7504A,3255A,T500,8011-AR,8011-AP,CD9515,DSD 25,68CM1,FS-90,FS-91,6900,4602,4604,7505A,MS4525DO,DSD 17,TSYS02D,CWW600,D5100,4610,MS8607,EPRB,XP5,805,5903 SERIES,808,89BSD,T400,4630,SDT1,P1200,606M1,PS2011AB,LDTC FAMILY,DSD 40,ELM-4000,3058A,MS5803-01BA,FMT,SIL-3,M7100,700,LS809-31,EGCS-D5,TLH100,4332M3,FTP520,MS54XX,EGCS-D0,ESP 64HD,XL403D,AST46HA,832,FN7110,HSTA,834,EB,PS501,LDM-1000,U86B,DP86,KMXP 1000,52M30,PS2021AB,M905,RVIT-Z,603,LS509-51,ELM-5000,TS318-3B0814,FN4070,H005,PT500,H009,610,RCS01-10,31207B,FTP540,CWW850,PML 1000,LDS309-11N,EPB-PW,EVS722-51,CWW1000,FN9630,GC,FN9635,FLDT1,U7100,FTP530,85F,FN4080,834M1,HTU2X,ARD154,EPB,EGAXT,VS804-21,HC,65210E,EPL,7108A,86A,CLP,AST46SW,HR,MS52XX,KMXP 2000,AST4510,KPSI 730,KPSI 735,FTP560,633,634,7531A,XFTC300,Y12AD,18FR,FTP552,FTP553,FTP554,AST4401,AST4400,AST4520,KPSI 720,U5700,KPSI 600,FN4055,KPSI 601,400,MS5803-30BA,FTP551,31206B,FN9620,DPG,TRUBLUE 255,LL-01,FN7325,DPL,DPN,64B,40A,64C,40B,HTF3000LF,52F,3022,KPSI 750,KMT37,FN3050,TPT,64X,KMT39,9916,53A,AST43LP,ESP 16HD,AST4500,KPSI 500,KPSI 501,KPSI 745,3028,86BSD,8811-01,PM50,KMA36,TSYS01,LT,TSYS02,ATA-2001,KMT36H,P900,LBB,G-SERIES,PM81,FN3030,DSD,3038,DSF,CM-01,DSH,8021-AP,8021-AR,DSL,PM83,CD375,ML,DT1,4020,TSD,6200,DSS,AST46PT,AST44LP,805M1,AST4600,DSY,TSD305,7500A,DC-SE,EGAXT3,4030,LDTC,XPM10,MS4515DO,KPSI 710,PT100,MSP300,AST20HA,XS-C,XS-D,7501A,LL-10,HTU3535PVBM/WIRE,PT101,6100,SSI,HTG351XCH,AST2000H2,KPSI 700,SSR,KPSI 705,TRUBLUE 275,LS304-31,LMM-H04,LMM-H03,FN3148,TSYS,DSD 70,7502A,7514A,P700,APS,4810A,CD1110,KPSI 330,8021-VP,8021-VR,KPSI 335,AST4000,7135A,5905 SERIES,400 SERIES,XFL212R,6000,LVM-110,KMXP 5000,KPSI 320,AST44XX,8711-01,121,FN3002,AST5100,LCS-03,FN3000,CS1120,R36,PCA 375,U5300,RT9,RT8,M3200,7100A,9400,TLH600,CPA150,HS1101LF,M210,AST20SW,KPSI 351,KPSI 353,HTU383X/WIRE,130,IT9000,KPSI 355,AST5300,AST4100,SG,CD1140,XPM4,SK,7101A,SM,FX19,MSP100,SP,EPM-5000,TPT300V,PM101,MSP340,SR,12FR GP,PT9000,AST45XX,KPSI 342,1201F,MT3A,ACH-01,SL-630,M5600,7102A,PT1000,TS,EL20-S458,8011-VP,MS5805,XFU400,MS5803,MP 2000,P981,HSTAR,KPSI 30,HTM2500LF,CS1210,AST5400,E-SERIES,MLP,FN1010,HTU2XF,HM1520LF,TS305-10C50,24FR,TRUBLUE 585,16MS,52,8011-VR,KPSI 27,MS32,KPSI 28,58,MS1451,XPM6,160,AST46XX,ESP 32HD DTC,PT1,161,ACCUSTAR EA,AST4200,PT5,DSH 16,DOG2,FX29,MMX,12FR,ESP 64HD DTC,7104A,TRUBLUE 575,FN2114,US300,9FR,9146-R,GHSE,PTX,85BSD,7105A,MS5837,9216,KMA36A,AST20PT,AST4300,MS1471,9146-T,808M1,U5600,FN2570,CD1050,EPM-4001,XP,82,MS5525DSO,85,86,TRUBLUE 555,FS-01,89,MS5607,FS-02,FS-05,FS-06,ED32I,MS5840,PS2031AB,8032-01,FN2420,R60D,3052A,154BSD,P9000,MS5611,XFC200R,EPIH,ELAF,ESP 32HD,M12,3801A,1620,KMY,65210ES,KMZ,FN2317,M150,AST46DS,11206AC,10FR,PS831,8021-01,EGCS-D1S,KPSI 300DS,1630,820M1,XPC10,TSEV,53AF,140A,SL-900,MS5637,CD1124T,EVS312-11N,MT2,MT3,CS1060,CD1095,832M1,VCS-06,MTA,VCS-04,3700,M5200,FN7080,P105,P101,9022,FS19,7131A,FC22,FC23,4630M12,9034,142A,9038,154N,4801A,9032,LIM-420,9033,5905,GHSER,7132A,LTA,ACCUSTAR IP66,LTB,4630M14,5903,PT8000,P125,TS318-5C50,T600,8102A,LTR,HM1500LF,R30A,GHSER 750-A,HTU21D,8011-01,PS801,700 SERIES,KPSI 380,NDT-1,FS20,FS22,4835A,AST43XX,D-SERIES,FS23,U5200,1201,1200,HPGS 750,FCA7300,AD-101,PS811,VS309-51N,KMXP,11207AC
芯科科技携手东胜物联提升Sub-GHz网关和智能安防产品开发,互联互通更可靠到位
芯科科技携手东胜物联提升Sub-GHz网关和智能安防产品开发,互联互通更可靠到位。通过芯科科技EFR系列多协议无线SoC产品和相关软件开发工具的支持,东胜物联推出了一系列无线模块及可编程和多协议物联网网关设备,可广泛涵盖最新版本的蓝牙、Sub-GHz、Zigbee、Z-Wave和Matter等热门无线协议的网络连接设计。
Kinghelm KH-2.54PH180-3X16P-L11.5 Pin Header Connector: Precision Connection and the Core Mechanism Driving Data Transmission
The Kinghelm KH-2.54PH180-3X16P-L11.5 2.54mm pitch three-row straight pin header connector is an excellent choice for high-density, high-performance applications. With its precise manufacturing, premium materials, and reliable performance, it offers an efficient solution for complex data transmission needs. Its broad compatibility and ease of installation further enhance its value, making it a trusted component for various industries including communications, industrial control, automotive, and medical fields.
Dusun(东胜)核心板/智能网关/行业应用网关选型表
型号- CDGW-006-1,DSGW-030,DSGW-030-1,DSGW-210-B-13,DSGW-120V2,DSGW-030-4,030,DSGW-030-5,DSGW-201-1,DSGW-030-2,DSGW-201-2,230,DSOM-010R-M,DSOM-010R-K,DSOM-010R-N,DSGW-380,DSOM-020R-K,DSOM-020R-N,DSOM-020R-P,DSOM-080M-Z,DSGW-210-B-26,DSGW-210-A-10,081,DSGW-230-11,DSGW-230-13,120,020R,DSOM-010R,080M,201,DSOM-050R,006,DSOM-090M,DSGW-210-F-18,DSGW-210-F-1,DSGW-210,DSOM-090M-J,DSOM-090M-I,DSGW-210-A-1,DSGW-090,090,092,DSGW-210-A-23,DSOM-050R-G,DSGW-210-A-22,DSGW-210-D-12,DSGW-090-4,DSGW-092-2,DSGW-210-D-11,DSGW-090-5,DSGW-092-3,DSOM-050R-J,DSOM-080M-C,DSGW-092-5,210,DSGW-380-1,DSGW-201,DSGW-120V2-1,DSGW-210-D-27,DSGW-081,CDGW-006,380,DSGW-081-3,DSGW-081-5,090M,050R,DSGW-090-2,DSGW-090-3,DSGW-092-1,DSOM-080M,010R,DSOM-020R,DSGW-210-A-8,DSGW-230
东方产品手册
型号- ORD213,OACPL314W1,ORD211,ORD217,ORT007YGL,ORL-F5BL-A1,OFOD817,OR063L,OASSR1510,OR-AQV258LH,OFOD814,ORTPD2040,ORTPT3016-H1,ORTPT3016-H2,ORD205,ORD206,ORTPD2024,OAPV2121S,ORD207,OR-6N137,OR50L,OR-6N136,OR-460A,OR-6N135,OAQH1223,ORT007RD,OR-6N139,OR-6N138,OHCPL053L,ORAQV258LH,ORM425A,OR-483W,OACPLW341,OR-352,OACPLW340,OR-351,ORAQV258P5,OR-357,OR-355,OR-354,OR481W1,OHCPL0531,OHCPL0530,OR-484W,ORTPD2060,OR0611,OR-2201,OR-2200,OTLP627M,ORT302X,ORTR-8402-F-A,OR-2202,OR060L,OMCT9001,OR3H7-4,OR-260L,OR-2611,OTLP626,ORTPD20120,OR-H11AA3,OR-H11AA2,OR-H11AA4,OR-H11AA1,OAQH3213,OTLP160G,OACPL60L,ORT009YG,OHCPL2530,OHCPL2531,ORL-F3PTB-14,OTLP621,OTLP620,OTLP160J,ORL-F3PDB,ORT016IRA,OR314,OR2611,OR-IR1206LI-CA2-CTR,OR-2630,OR2601,OR-0452,ORL-F3WC-A2,OR-0213,ORAQV258L,ORTPT3118-H1,OR-0453,OR-H61L,OR-2631,ORAQV258H,ORAQV258LHP5,OR-480W,ORTPT3018-H2,OR-IR1206ZA-CA-3T,OTLP2958,OTLP2955,OR-0223,OR064L,OTLP4597G,OTLP161J,OAQH3223,OTLP161G,OR-155E,OR-481W,ORTPD2090,OASSR-1520,OR60LW1,OR-0631,OACNTH61L,OR-0630,OR-D207,OR-D206,OR-D205,OR-MOC3041,OR-MOC3043,OR-MOC3042,ORM440A,ORT007YG,OFOD3120,OR-063L,ORT012IRA,OR-D213,OR-D211,OR357,OR-D217,OR355,OR354,OR-MOC3052,OR-MOC3051,OR352,OTLP163J,OR351,OR-MOC3053,OR-MOC304X,OR60LW,ORTR-20001-T,OAQY280S,OHCPLO53L,OR-MOC3061,OAQY217GS,OR-MOC3063,OTLP360J,OR-MOC3062,OR341,OR340,OTLP166J,OR-MOC305X,OR-2601,ORTR-9608-F,OFOD3150,OTLP250H,OTLP165J,OR-MOC306X,OR0600,ORB87,OR0601,OFOD617,OAQY282S,OAQV252G3A,OR-MOC3081,ORTPD2160D,OR-MOC3083,OR-MOC3082,OR-MOC307X,OTLP168J,OR-T308X,OTLP2303,OHCPL050L,ORTPT3121-H1,ORTR-8307,OHCPL0501,OTLP361J,OR-MOC308X,OHCPL0500,OR-0600,OR-0601,OAPV1121S,OR-T3082,OR-T3081,OR-T3083,ORTPD2015,OTLP172AM,OR-060L,OAQW214,OAQW216,OAQW210,OAQW212,ORL-F3HIRC-A2,OAQH1213,ORL-F3HIRC-A4,OR-0611,ORL-F5PDB,ORTR-9606-F,OTLP363J,OAQW217,OAQY284S,OR-M484,OR-M483,OR-AQV258P5,OACPL341W,ORPC814,ORPC815,ORPC816,O60L,ORPC817,OR-IR1206LI-CA1-CT,OR-M305X,OTLP560G,OTLP560J,OR-M3082,OR-M3083,ORPC824,ORPC825,ORTPT3125-H1,OR-M3084,ORPC827,OR357PVG,OR3223,OTLP3061S,OR-357PVG,ORL-IR908-7C-F,OR-M306X,OR-840A,OTLP3062A,OR-M3053,OR-M3054,OR-M3052,OTLP598AA,OR3213,OR-M3044,ORPC844,ORPC845,OACPL340W,ORL-PT928-6C-F,OR-M3064,ORPC847,OR-M3062,OR-M3063,OR-3H5-4,OR-H11L1,OR50LW1,OTLP561G,OTLP561J,OR-406A,OR-M304X,ORPC851,ORPC852,OR-10XX,OR5211,OR-PL2835IRC,OFODM121,OTLP187,ORM460A,OTLP185,OFODM124,OTLP182,OG3VM-351,OTLP181,OTLP180,ORTR-9909,OR-50LW,OR-314W,OR-M501,O63L,OR-3150,OR-339J,OR-MOC3010,OR-MOC3012,OR-MOC3011,OVOM1271,OR-860A,ORL-F3PTB,OR-481W1,OR-MOC3021,OG3VM-62F1,OR-MOC3023,OR-MOC3022,OR-316J,OR-425A,OFOD050L,OR-MOC301X,ORM601,OACPL341W1,ORT010IRC,OMCT62,OMCT61,ORT010IRA,OR-3H7-4,OR-MOC3032,OR-MOC3031,OR-MOC3033,OR-M308X,ORL-IR908-7C,OR-MOC302X,OASSR-4118,OR253X,OASSR-4119,OMOCD211M,OR-H11A4,OR-H11A3,OACPL- M483,OTLP224GA-2,OACPL- M484,OR-333J,OR-HIR1206ZA-CA-3T,OR1213,OACPLM61M,ORL-F5WC-A0,OASSR-4110,OASSR-4111,OR-H11A2,OR-H11A1,OR-M701,OG3VM-61,OR2530,OR2531,OTLP3023,OTLP3022,OTLP223GA,OTLP3021,OHCPL4504,OHCPL4503,OHCPL4502,OR-HIR1206LI-CA2-CTR,OMCT6,OR-483W1,OMOCD213M,ORM308X,OR806A,ORTPD212650,OR-3120,OR-PL3528IRC,ORL-F5HIRC-A2,ORL-F5HIRC-A4,OASSR-4128,ORL-F3YGC-A4,OR-AQV258LHP5,OTLP798GA,OTLP3043,OTLP3042,OTLP3041,OR-640A,OR-337J,260L,OASSR-4120,OASSR-5211,OR-T350,OR-2213,OTLP3064S,OTLP292-4,OTLP3073,OR-M3024,OR-M3022,OR-M3023,OR-2223,OR-M3042,008IRC,OR-M3043,OR450X,OG3VM-61VY2,263L,ORT114IRA-L,OG3VM-61VY1,OACPLW314,OR-341W1,OR-330J,OTLP3064,ORAQV258HP5,OTLP3063,OTLP3062,OTLP3061,OR-440A,ORL-F5GG-AA,OR-M302X,OR4504,ORT007IRA,OMOCD217M,OR-331J,OR4502,OR4503,OR26XX,OTLP3062S,OR3H7,ORL-F5YGC-AA,OR3H5,OR3H4,OR-332J,OACPL60LW,OR1223,OR3H5-4,OTLP3063S,ORL-IR928-6C,OTLP3083,OR-660A,OR-PT0805Z8-B1-3T,OTLP620-4,ORL-F5PTB,OTLP620-2,OR-2531,OR-2530,OR606A,ORTPD2151,ORM302X,ORTPD2155,ORT015IRA,OTLP781,OR480W1,OHCPL2611,OACPL60LW1,OR-PL2835PTC,OR-PL2835PTB,OTLP785,OR-C79,ORTPD2160,ORTPD2143,ORTPD2140,OR-1213,OR050L,OR-M460A,ORTPD212460,OHCPL2601,OR050X,OG3VM-601,OR0500,OR0501,OR-1223,OTLP171A,OAQY284EH,OTLP170G,ORT010SRK,OAQH2223,ORL-PT928-6B,ORL-PT928-6C,OACPL50L,OTLP170A,OTLP170J,ORTPD2165,OR-4502,OR-4503,OR-4504,OAQV212,OAQV214,OAQV210,ORTPD2151D,OR60L,OAQH2213,ORT008RD,OHCPL063L,OR-340W,OTLP555,OTLP553,OFODM8801,OR06XX,OA0H1213,ORM306X,ORL-F3RR-A1,ORL-F3RR-A4,OR-HIR0805Z8-CA-3T,OTLP3910,OASSR-3220,ORT008YGK,OR-M440A,ORT010IRC-L,ORAQV258LP5,OTLP171J,OR-AQV258HP5,OASSR1218,OR053X,ORM304X,ORT108YG,ORH11L1,OHCPL0453,OHCPL2631,OHCPL2630,OTLP523,OHCPL0452,OR-806A,ORM305X,OR825A,OTLP759,OR0530,OR0531,OR-IR0603LF-CA-4T,OR-C87,ORL-F5YY-A3,ORPC-847,OR-050L,ORPC-844,ORPC-845,OR247,OR245,OR244,OTLP385,OTLP261J,OTLP383,ORL-PT908-7C,ORPC-851,ORPC-852,OR840A,ORTR-9707,ORL-F5IRC-A4,OR-606A,OAQY214EH,ORL-F5IRC-A2,OTLP260J,OTLP224G-2,ORT912IRA,OASSR-1420,OTLP2409,OR-0530,OR-0531,OTLP240D,ORL-PT908-7C-F,OTLP240A,OAQY280EH,ORT008YG,OAQY216EH,OR-825A,OR425A,ORL-PT908-7B,OG3VM-62C1,OTLP626-4,OTLP172GAM,OTLP626-2,OR-AQV258L,OR-PL2835HIRC,OR316J,OR-4N26,OR-4N27,OR-4N28,OR-4N29,OR4N38,OR4N37,OR4N36,OR-4N25,OTLP351A,OTLP3783
Application Requirements of BLE Module on Small Devices
The application of Bluetooth wireless technology in small devices is primarily based on its solution development. The evolution of Bluetooth wireless technology has covered almost all small devices in various industries, such as POS card machines, parking lot sensors, Bluetooth vibration rods, industrial identifiers, electronic sensors, express delivery industry sensors, etc. So, what are the key requirements for the application of Bluetooth wireless technology in small devices?
应达利(Interquip)石英晶体谐振器/振荡器选型指南(详细版)
目录- COMPANY PROFILE Quartz Crystal Resonators Application introduction SMD Seam Welded Quartz Crystal Resonators with Built-in Thermlstor AT-CUT Quartz Crystal Resonators SMD Ceramic to Metal Quartz Crystal Resonators SMD All Ceramic Quartz Crystal Resonator SMD Seam Welded Quartz Crystal Resonators SMD Tuning Fork Crystal Resonators SMD Voltage Controlled Quartz Crystal Oscillator SMD Temperature Compensated Quartz Crystal Oscillators Ultra-Low Phase Noise Quartz Crystal Oscillators SMD Ceramic Enclosure Quartz Crystal Oscillators Programmable SMD Ceramic Enclosure Quartz Crystal Oscillators
型号- 165-B SERIES,HC-49S SERIES,SMCE-1210,SMCE-1612,THHF-49S3,SMLF-1610,TC900,463-F,168-B SERIES,SMCM-3225H,463-E,168-P SERIES,163-B,163-F,163-E,165-B,SMCE-2016,SMCE-3225,VC800,SMAC-1045H,463-F SERIES,THR-1612,VC800 SERIES,SMAC-7050H,163-P,HC-49S,149-B SERIES,149-F SERIES,THHF-49S2B,THHF-49S2A,TC950 SERIES,SMCM-2016H,SMCE-2520,THR-2016,160-B SERIES,SMLF-3215,163-P SERIES,SMCE-5032,TC800,163-B SERIES,163-E SERIES,163-F SERIES,SMCM-5032H,SMCE-7050,TC800 SERIES,149-B,168-B,SMHF-49C,149-E,SMHF-49B,149-F,SMHF-49D,160-B,SMCE-6035,SMLF-2012,THR-2520,463-E SERIES,TC900 SERIES,TC950,THHF-49S,168-P,149-E SERIES
Sekorm is an Authorized Distributor of MERRY that is a Famous Acoustic Sensors Manufacturer
Sekorm said: “The new generation of electroacoustic products will play a more critical role, bringing more imagination and applications to human life. This cooperation with Merry will jointly promote business development and product extension.”
What is Din41612 Connector?
The DIN41612 connector is a reliable and versatile standard in electronics, featuring modular design and customizable socket types. It is used for signal transmission, power distribution, and board-to-board connections in various industries, including telecommunications, industrial automation, and computer systems. Its durability and ability to withstand harsh environments make it a preferred choice. The connector operates by mating a male plug with a female socket, and careful installation and use are required to ensure a secure connection.
一文详解无线网关的概念、原理、应用和未来发展
无线网关(Wireless Gateway)是一种物联网设备,它主要用于连接各种无线传感器和执行器,将采集到的数据上传到云端平台进行分析和处理。本文东胜物联将从概念、原理、应用和未来发展等方面对无线网关进行详细介绍。
NIDEC(尼得科)Avtron™编码器选型指南
目录- OVERVIEW SECTION INCREMENTAL ENCODER ABSOLUTE ENCODERS SAFETY ENCODERS HAZARDOUS ENCODERS ACCESSORIES Encoder Reference Sheet
型号- 426558-03-0250,HS35A□□□□□□□□□□□,HS6M,XR125,AV850□□□□□□□□□□,426558-06-0433,AV12,XR485□□□□□□□□□□□,XR485,CBL1,HS4□□□□□□□□□□□□□,HS45□□□□□□□□□□□□,AV85A□□□□□□□□□□□,XP5-□□□□□□□□,XR4F,XR115,M7-□□□□□□□□□□□□,HS40□□□□□□□□□□□□,HS35A,SV850,CBL1□□□□□□□□□□.□,M4-□□□□□□□□□□□□,AV20,XR125□□□□□□□□□□□,XR56,SV5,AV85A,SV850□□□□□□□□□□,XR115□□□□□□□□□□□,HS6A,426558-03-0236,XP5,426411,AV32,AV30,AV485□□□□□□□□□□□,HS6M□□□□□□□□□□□□,AV685□□□□□□□□□□□,AV67A□□□□□□□□□□□,HS6A□□□□□□□□□□□□,HS35M,XR85,HS35M□□□□□□□□□□□,AV125,AV485,XR850,AV45,XR4F□□□□□□□□□□□□,426821,AV44,426820,HS25A,AV45□□□□□□□□□□□□,XR12-□□□□□□,XR5,AV115,426558-06-0472,XRB3,SV5-□□□□□□,M3,M4,AV115□□□□□□□□□□□,XR685,HS4,M7,XR85□□□□□□□□□□□,AV125□□□□□□□□□□□,426278,AV56A□□□□□□□□□□□,426307,AV5-□□□□□□,AV4,AV5,AV6A□□□□□□□□□□□□,AV44□□□□□□□XX□□□,XR12,AV12-□□□□□□,AV25□□□□□□□□□□□□□□□□□□□,XR685□□□□□□□□□□□,AV20□□□□□□□□□□□□□□□□□□□,XPH8□□□□□□□□□□□□,HS25A□□□□□□□□□□□,XPH8,426558-03-0394,AV6M□□□□□□□□□□□□,AV850,AV30□□□□□□□□□□□□,AV56S,AV32□□□□□□□□□□□□,XR5-□□□□□□,XR45□□□□□□□□□□□□,XR56□□□□□□□□□□□,AV56A,XR850□□□□□□□□□□□,AV6M,XR45,AV4□□□□□□□□□□□□□,M6C,AV6A,HS44□□□□□□□XX□□□,AV685,HS40,HS44,426342,HS45,AV67A,M6C□□□□□□□□□□□□,M3-□□□□□□□□□,AV56S□□□□□□□□□□□
蓝牙网关市场热门产品选购宝典,帮助您筛选出最适合的物联网网关
在本文中,我们将探讨不同类型的蓝牙网关及其分类,并提供一份指南,帮助您筛选出最适合的物联网网关。
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品牌:SILICON LABS
品类:Wireless Gecko SoC
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品牌:SILICON LABS
品类:Mighty Gecko Multi-Protocol Wireless SoC
价格:¥27.0929
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品牌:SILICON LABS
品类:Wireless Gecko SoC
价格:¥10.4994
现货: 50,699
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支持 3Hz ~ 26.5GHz射频信号中心频率测试;9kHz ~ 3GHz频率范围内Wi-SUN、lora、zigbee、ble和Sub-G 灵敏度测量与测试,天线阻抗测量与匹配电路调试服务。支持到场/视频直播测试,资深专家全程指导。
实验室地址: 深圳/苏州 提交需求>
拥有中等规模的SMT、DIP以及成品组装产线;支持PCBA及成品OEM/ODM代工组装制造;在嵌入式系统、物联网系统等具备专业性量产制造的项目组织和服务能力。
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