Smart Water Quality Monitoring System

AdvanceTech India has the experience of undergoing multiple water quality monitoring and analysis automation systems. We have done complex projects for IIT Kharagpur, West Bengal Government, Central Water Commission (CWC), Irrigation Department, and many other renowned organizations working in the same field. We Design IoT Based Data Logging, Sensor Interfacing Dashboards on the cloud with Analysis. Multiple Parameters like pH, TDS, Dissolved Oxygen, Fluorides, and many other parameters can be covered.

Smart Water Quality Monitoring Systems: Water is necessary for life, and maintaining its purity is also most important for the health and welfare of communities everywhere. Unfortunately, the safety of our water resources is in danger by pollutants and pollution in the water. As a result, Advanced technologies like smart water quality monitoring systems have surfaced, offering effective real-time data collecting and analysis to safeguard water quality. This blog examines the developments, types, and sensor technologies that are propelling the field of smart water quality monitoring systems forward.

Evolution of Water Monitoring

In the past, routine sampling and laboratory analysis were required for regular water quality monitoring. These procedures were time taken as well as produced data slowly. Smart Water Quality Monitoring Systems, on the other hand, have completely changed the face of water management due to advanced technology breakthroughs. These systems provide constant observation, making it possible to identify pollutants right away and take protective action to protect the quality of the water.

Types of Smart Water Quality Monitoring Systems

There are two main types of smart water quality monitoring systems first one is portable and another one is stationary. Installed at fixed places including lakes, rivers, and water treatment facilities, stationary systems continuously monitor water quality parameters in real-time. On the other hand, portable systems are wearable or handheld gadgets that allow for mobile water quality monitoring; they are perfect for field measurements and quick evaluations of water bodies.

Component Description of Water Quality Monitoring System

There are different components of a water quality monitoring system and the functionality of these components is different these components are mentioned below:

Data Acquisition System (Data Logger)

Data Logger is used for recording, sensing, analyzing, and alerting the user on based of the parameters received by it. Data is recorded over time or about the location by Data Loggers, either with a built-in instrument or sensor or via external instruments and sensors. Data Logger can also be custom-built depending upon the requirements like type of display, number of channels, power source, sample rate offset settings, etc. Data Loggers are connected to sensors and act as computing brain for complete solution.

Turbidity Sensor

The turbidity sensor head is connected at the top of the sensor which is connected to the processing unit, we can connect and remove it easily. The voltage of the turbidity sensor is 3.3-5V DC.

Temperature Sensor

An Internet of Things (IoT) based smart water quality monitoring system that uses a temperature sensor can track variations in water temperature over time. This can assist experts in water quality in determining if the water is safe to drink and whether any special measures are required. This is a device which is used to measure the temperature. As this is a water temperature sensor so it is waterproof.

These sensors are suitable for installation in lakes, rivers, and other bodies of water. They can send real-time data to a central monitoring system. A central control unit processes the data gathered by the sensors and offers real-time feedback on the water’s quantity and quality.

ESP 32

The ESP32 reads the values from the sensors to determine the water’s pollution level. The objective of this water quality monitoring system using IoT is to find the quality of the water. Water pollution is the biggest problem. One of the key factors influencing health and the condition of illnesses “around kin and animals” may be water personal satisfaction. Lakes and rivers are those basic sources of drinking water, which are remarkably dependent on the physical and chemical qualities of water. Variations in pH content are conveyed to the appropriate authorities. This project will be implemented at drinking water reservoirs and municipal water tanks. To find the pH value for that, we use an ESP32 board. Ultimately, the user receives data on the pH value from the sensor to the cloud for worldwide water quality monitoring.

pH Converters

pH converters are beneficial in smart water quality monitoring systems. Current time observation is only possible because of ph convertors in smart water quality monitoring systems with IoT. These converters always provide accurate output. The exact estimate of sourness of high pH is possible only because of these pH convertors. 

TDS(Total Dissolved Solids) Converters

This is another component of a smart water quality monitoring system that enables real-time keep under observation with IoT(Internet of Things). Exact measurement of mixed matter is only possible by these converters. The results are always accurate and reliable which are generated through TDS converters.

Conclusion

Water is an essential thing for everyone and the purity of the water is another important factor that needs to be discussed. In that case, the smart water quality monitoring system plays a lead role as well as its necessary components ph convertor, TDS converters, ESP32, Temperature Sensor, Turbidity Sensor, and all of its components. All these components has the ability to change the quality of the water so that everyone can use safe, clean, and pure water. As there are two types of smart water quality monitoring systems we can use any of the types according to our requirements.

Arduino PLC | MQTT End Device | Industrial IoT device manufacturer | norvi.lk

How Programmable IoT Devices Operate

Having access to the most dependable and effective hardware speeds up the completion of your project. The ability to programme flexibly.

ESP32 Ethernet Device

When using ESP32 Ethernet, the NORVI ENET series is the best option because it has industrial-grade I/O and voltages. Both wireless and cable connectivity to the network are offered by ESP32 Ethernet. 

Industrial Arduino Mega

The NORVI Arita is an enhanced version of the NORVI Series. Five conventional variants with a choice of two potent microprocessors are offered. Arita is built to deliver all of the micro-controller's performance while maintaining reliability. It works with practically all industrial input and output formats. 

Arduino based Industrial Controller

Arduino IDE-programmable

Integrated OLED and customizable buttons for HMI

The ability to programme flexibly

LED signals for simple diagnosis

Applications Using a Programmable MQTT Device and Ultra Low Energy Batteries

Agent One Industrial Controllers are available for low power applications as well; STM32L series microcontroller-controlled devices are employed in ultra low power applications, where the devices must be powered by batteries for an extended period of time. When a device goes to sleep, the Agent One BT family is specifically built with transistor outputs to turn off external sensors.

Wall mount IoT Node

The NORVI SSN range is designed for independent installations in industrial settings with a focus on tracking sensor data or parameters from external devices. The implementations are made simple by the attachments for wall installation and pole mount. 

NORVI Controllers

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ICONIC DEVICES PVT LTD

Phone : +94 41 226 1776  Phone : +94 77 111 1776

E-mail : [email protected] / [email protected]

Web : www.icd.lk

Distributors

USA

Harnesses Motion LLC

1660 Bramble Rd. Tecumseh, MI

49286, United States

Phone : +1 (734) 347-9115

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E-mail : [email protected] MQTT End Device | Arduino PLC | Analog Input | Wireless sensor | ModBus MQTT gateway | Industrial IoT device manufacturer | WiFi Data logger

Ubidots + ESP32- Predictive Machine Monitoring

Predictive analysis of machine vibration and temp by creating mail events and a record of vibration in google sheet using Ubidots.

Story

Predictive Maintenance and Machine Health Monitoring

The rising of new technology i.e, the Internet of Things, heavy industry has started adopting sensor-based data collection to solve its biggest challenges, principal among them process downtime in the form of shutdowns and process delays. Machine monitoring also called predictive maintenance or condition monitoring is the practice of monitoring electrical equipment through sensors in order to accumulate diagnostic data. To achieve this, data acquisition systems and data loggers are used to monitor all kinds of equipment, such as boilers, motors, and engines. Following condition are measured:

Temperature and Humidity Data Monitoring

Current and Voltage Monitoring

Vibration Monitoring: In this article, we will read Temperature, vibration and publish the data in Ubidots. Ubidots supports graphs, UI, notifications, and emails. These features make it ideal for predictive maintenance analysis. We will also get the data in google sheets which will make predictive maintenance analysis more easier.

Hardware:

ESP-32

IoT Long Range Wireless Vibration And Temperature Sensor

Long-Range Wireless Mesh Modem with USB Interface

Software Used:

Arduino IDE

Ubidots

LabView Utility

Library Used:

PubSubClient Library

Wire.h

Arduino Client for MQTT

This library provides a client for doing simple publish/subscribe messaging with a server that supports MQTT

For more information about MQTT, visit mqtt.org.

Download

The latest version of the library can be downloaded from GitHub

Documentation

The library comes with a number of example sketches. See File > Examples > PubSubClient within the Arduino application.Full API Documentation.

Compatible Hardware

The library uses the Arduino Ethernet Client api for interacting with the underlying network hardware. This means it Just Works with a growing number of boards and shields, including:

Arduino Ethernet

Arduino Ethernet Shield

Arduino YUN – use the included YunClient in place of EthernetClient, and be sure to do a Bridge.begin() first

Arduino WiFi Shield - if you want to send packets greater than 90 bytes with this shield, enable the MQTT_MAX_TRANSFER_SIZE () option in PubSubClient.h.

Sparkfun WiFly Shield – when used with this library

Intel Galileo/Edison

ESP8266

ESP32The library cannot currently be used with hardware based on the ENC28J60 chip – such as the Nanode or the Nuelectronics Ethernet Shield. For those, there is an alternative library available.

Wire Library

The Wire library allows you to communicate with I2C devices, often also called "2 wire" or "TWI" (Two Wire Interface), can download from Wire.h

Basic Usage

Wire.begin()Begin using Wire in master mode, where you will initiate and control data transfers. This is the most common use when interfacing with most I2C peripheral chips.

Wire.begin(address)Begin using Wire in slave mode, where you will respond at "address" when other I2C masters chips initiate communication.

Transmitting

Wire.beginTransmission(address)Start a new transmission to a device at "address". Master mode is used.

Wire.write(data)Send data. In master mode, beginTransmission must be called first.

Wire.endTransmission()In master mode, this ends the transmission and causes all buffered data to be sent.

Receiving

Wire.requestFrom(address, count)Read "count" bytes from a device at "address". Master mode is used.

Wire.available()Returns the number of bytes available by calling receive.

Wire.read()Receive 1 byte.

Steps to send data to Labview vibration and temperature platform using IoT long-range wireless vibration, temperature sensor and long-range wireless mesh modem with USB interface:

First, we need a Labview utility application which is ncd.io Wireless Vibration and Temperature Sensor.exe file on which data can be viewed.

This Labview software will work with ncd.io wireless Vibration Temperature sensor only

To use this UI, you will need to install following drivers Install run time engine from here 64bit

32 bit

Install NI Visa Driver

Install LabVIEW Run-Time Engine and NI-Serial Runtime

Getting started guide for this product.

Uploading the code to ESP32 using Arduino IDE:

Download and include the PubSubClient Library and Wire.h Library.

You must assign your unique Ubidots TOKEN, MQTTCLIENTNAME, SSID (WiFi Name) and Password of the available network.

Compile and upload the Ncd__vibration_and_temperature.ino code.

To verify the connectivity of the device and the data sent, open the serial monitor. If no response is seen, try unplugging your ESP32 and then plugging it again. Make sure the baud rate of the Serial monitor is set to the same one specified in your code 115200.

Serial Monitor Output:

Data on serial monitor of Arduino IDE.

Making the Ubidot Work:

Create the account on Ubidot.

Go to my profile and note down the token key which is a unique key for every account and paste it to your ESP32 code before uploading.

Add a new device to your Ubidot dashboard name ESP32.

Now you should see the published data in your Ubidots account, inside the device called "ESP32".

Inside the device create a new variable name sensor in which your temperature reading will be shown.

Now you are able to view the Temperature and other sensors data which was previously viewed in the serial monitor. This happened because the value of different sensor readings is passed as a string and store in a variable and publish to a variable inside device esp32.

Create a dashboard in ubidots.

Go to data select dashboard and inside dashboard create different widgets and add a new widget to your dashboard screen.

OUTPUT

Now as the temperature/vibration increases and decreases new data available inside the various variable.

Creating Events in Ubidots

1) Select Events (from the Data dropdown).

2) To create a new event, click the yellow plus icon in the upper right corner of the screen.

Types of Events: Ubidots support already integrated events to allow you to send Events, Alerts, and Notifications to those who need to know when they need to know. Ubidots' prebuilt integrations include:

Email notifications

SMS notifications

Webhook events - learn more

Telegram notifications

Slack notifications - learn more

Voice Call notifications - learn more

Back to Normal notification - learn more

Geofence notifications - learn more

3) Then choose a device and associating variable that indicates the devices' "values".

4) Now select a threshold value for your event to trigger and compare it to device values and also select time to trigger your event.

5) Establish and configure which actions are to be executed and the message to the receiver: Send SMS, Email, Webhooks, Telegrams, Phone Calls, SLACK, and webhooks to those who need to know.

6) Configure the Event notice.

7) Determine the activity window the events may/may not be executed.

8) Confirm your Events.

The output of Event in Your Mail:

Export Your Ubidots Data to Google Sheets:

In this, we can extract the data stored in the Ubidots cloud for further analysis. The possibilities are enormous; for instance, you could create an automatic report generator and send them to your customers every week.

Another application would be device provisioning; if you have thousands of devices to deploy, and their information is in a Google Sheet, you could create a script to read the sheet and create a Ubidots data source for every line on the file. Steps to do this-

Create a Google Sheet and add two sheets to it with these names:

 Variables

Values

From your Google Sheet, click on "Tools" then "Script Editor...", then "Blank Project".

Open the Script Editor.

Add the code below (in the code section) to the script Script.

Done! now open your Google Sheet again and you'll see a new menu to trigger the functions.

Result:

Invest in IoT Devices and Enjoy Their Amazing Quality

Buying the highest quality Arduino Data Logger Temperature is only a step away from you. Simply visit Norvi as it is a leading platform offering a wide range of products available at quite reasonable prices. Invest in Arduino Data Logger Temperature with confidence and be sure it is a great electronic device that can store a number of measurements.

Using a data logger allows people enjoy more accurate measurements.

They can be taken automatically and data logging will not be subject to human error.

Data loggers are needed for various reasons, especially for making sure compliance with industry specific regulations, as well as quality and environmental control procedures. Opt for this data logger and it will certainly help to save costs through energy efficiency/environmental management.

Other than real-time acquisition and pushing to an IoT platform, data loggers are one method of keeping track of values and analyzing.  The industrial world is full of various types of data loggers and they are as follows. USB loggers which are used for Short-term trend logging with manual offload, Bluetooth (BLE) Loggers with Wireless data access via mobile devices, Web-based Systems with Long-range wireless internet access, as well as Wireless Sensors with Short-range centralized data collection.

Norvi is a top choice and this team is proud of working with the most outstanding enclosure manufacturers around the world, to provide you the best solutions for enclosing the product for protection. This company works based on the requirements of installation, and environments so that you will get the best product range such as:

NORVI Cema

Norvi IIOT

NORVI ENET

NORVI Arita

Agent 1

Agent 2

Expansion Modules

M11 E Series

M11 B Series

M12 B Series

M12 C Series

NORVI IIOT stands out due to many features:

ESP32-WROOM32 Module

Built-in 0.96 OLED Display

Built-in Button on front panel

Digital Inputs

Industrial Standard Analog Inputs

Relay Outputs

DIN-Rail mount

Supports Expansion port

NORVI ENET is another popular product offered by Norvi. Like NORVI IIOT, it also has its specific features:

ESP32-WROOM32 Module

W5500 Ethernet Connectivity

Built-in 0.96 OLED Display

Digital Inputs

Industrial Standard Analog Inputs

Relay Outputs

DIN-Rail mount

You can also get the needed technical support and have a successful project. Fast turn-around time is also guaranteed. The experts have ready to use products, which you can start your concept development on, while a device is being tailor made for you.

Norvi is a great destination where you can come across the highest quality data loggers and enjoy the best quality. All you need to visit the website and a wide range of products will be at your disposal. Look no further and choose Norvi because this is the most trustworthy source for buying affordable and the highest quality devices.

Black Friday and Cyber Monday Deals Have Arrived

Welcome to the yearly celebration of deals! We’ve kept it simple this year by just taking 20% off most of our catalog. Take some time, build a cart and enjoy a flash deal-free existence! We may run out of a few items if you wait too long though, so don’t wait until Monday if you’ve got your eye on a particularly shiny new board. Check out rules at the bottom, and here’s a list of top products on sale to give you some ideas!

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Underwater Logging for Science

Logging data with an Arduino is old-hat for most Hackaday readers. However, [Patricia Beddows] and [Edward Mallon] had some pretty daunting requirements. Their sensors were going underground and underwater as part of an effort to study conditions underwater and in caves. They needed to be accessible, yet rugged. They didn’t want to use batteries that would be difficult to take on airplanes, but also wanted more than a year of run time. You can buy all that, of course, if you are willing to pay the price.

Instead, they used off-the-shelf Arduino boards connected together inside PVC housings. Three alkaline AA batteries are compact and give them more than a year of run time. They wrote a journal paper to help other scientists use the same techniques for the Sensors journal published by the Multidisciplinary Digital Publishing Institute.

If you regularly read Hackaday, you probably won’t find the electronic part of the build remarkable. However, that’s kind of the point, as this is all off-the-shelf and inexpensive. They do however modify the boards in some cases to allow the controller to power them down, for example.

In fact, they put a lot of thought into reducing power requirements. Since your eye is more sensitive to green, for example, they use green LEDs with very low currents as indicators. They also speed up the serial bus going to sensors because they found that the increased power required was more than offset by finishing the transaction faster (and, thus, going back to sleep sooner).

The PVC enclosures are also interesting. The paper shows some practical deployments in some very harsh conditions. If you want more practical details, the Cave Pearl project has been blogging about their development of these loggers for a while. They have a good “how to” page, as well.

If an Arduino seems too last-year for you, we’ve seen long-duration logging done with ESP8266s and ESP32s. However, they did use lithium-ion cells. Spoiler alert: The ESP8266 lasts longer than the ESP32. If you want to minimize power when sending things out over a network connection, consider MQTT.

Underwater Logging for Science was originally published on PlanetArduino

Industrial IoT Devices | Programmable Ethernet IoT Device | Industrial ESP32 | NORVI

Ready for the Future - NORVI IIOT

Programmable IoT Devices - Our Arduino based PLC    s make it easy to automate processes, connect sensors, and create sophisticated automation systems. Get the most out of your IoT projects with programmable ESP32 Ethernet device. Our MQTT end device is designed to be easy to setup, while providing powerful performance. 

Industrial Arduino Mega - Get reliable, secure, and customizable control of your industrial processes with Arduino Mega PLCs. Get the best out of your system. Industrial Arduino for Automation Applications which control industrial processes with Arduino based hardware and software. Programmable with Arduino IDE.

Modbus MQTT Device - NORVI Agent Industrial IoT Node. Ready to use IoT Node. Ready for industrial applications. WiFi LoRa NB-IoT. Wall mount IoT node is designed for industrial applications and boasts a range of features including WiFi, GSM, LTE and LoRa connectivity.  Battery Powered IoT node with WiFi GSM LTE LoRa connectivity for industrial applications. Our programmable nodes are designed for powering your IoT solutions.

ModBus RTU ESP32 - MODBUS Communication on ESP32 NORVI IIOT via RS-485. ModBus RTU with ESP32 based industrial controller. MQTT over Ethernet devices - Norvi offers programmable MQTT devices come with a variety of features that make them suitable for industrial automation and IoT solutions. As a leading industrial IoT device manufacturer, NORVI Offers Industrial Controllers for IoT applications, ESP32 based Industrial Controllers, Industrial IoT Devices. Changing IOT One Device At A Time (4 - 20mA, 0 - 10V DC Analog inputs and Outputs). Programmable controllers with flexibility and open source software. 

ESP32 Data Logger - NORVI can build a WiFi Data Logger using SD card, Combining few libraries of Arduino you can access or view the Temperature & Humidity via WiFi. NORVI's Analog Input ESP32 is designed for industrial applications, allowing you to measure and monitor 0-10V or 4-20mA signals using an ESP32 controller.

NORVI Controllers

Our Address :

ICONIC DEVICES PVT LTD

Phone : +94 41 226 1776  Phone : +94 77 111 1776

E-mail : [email protected] / [email protected]

Web : www.icd.lk

Distributors

USA

Harnesses Motion LLC

1660 Bramble Rd. Tecumseh, MI

49286, United States

Phone : +1 (734) 347-9115

E-mail : [email protected]

EUROPE

CarTFT.com e.K.

Hauffstraße 7

72762 Reutlingen

Deutschland

Phone : +49 7121 3878264

E-mail : [email protected]

Products :  

ESP32 Ethernet Device

Industrial Arduino Mega

ESP32 Modbus device

Programmable sensor node

Battery Powered Programmable Sensor node

4 - 20mA ESP32

Know More About:

WiFi Datalogger

4 - 20mA Arduino device

Industrial IoT Devices

Modbus MQTT gateway

Arduino based Industrial Controller

ESP32 Data Logger - NORVI can build a WiFi Data Logger using SD card, Combining few libraries of Arduino you can access or view the Temperature & Humidity via WiFi.

ESP32 data logger

Industrial Datalogger with ESP32

WiFi Datalogger

Quality Arduino Alternative for Industrial Use

For the best quality Industrial Application of Arduino hurry up to visit Norvi. This is a leading platform offering a wide range of products available at affordable prices. Invest in Industrial Application of Arduino and you will certainly get the best value for your money. Other than real-time acquisition and pushing to an IoT platform, data loggers are one method of keeping track of values and analyzing.  The industrial world is full of various types of data loggers. These include the following types:

USB loggers which are used for Short-term trend logging with manual offload

Bluetooth (BLE) Loggers with Wireless data access via mobile devices

Web-based Systems with Long-range wireless internet access

Wireless Sensors with Short-range centralized data collection

With the ESP32 based NORVI IIOT, you can build any of those solutions in the simplest way possible. You can invest in Arduino Wifi Data Logger and see that costs can also be kept lower compared to other data-loggers. NORVI IIOT ESP32 Data-logger with Web-access is the best choice offering almost all the acquisition types you need to build the Real-time data logger with web access. It includes digital inputs (As counters or ON-OFF status detection), 0-10V Voltage Analog Inputs, 4-20 mA Current Analog Inputs, temperature inputs, load cell inputs, RS-485 communication interface, and 12C communication interface. As NORVI IIOT supports all the above input types which means you have access to the real-word parameters. The next step is storing them with time stamp. Believe it or not, NORVI IIOT AE04 range is an amazing data-logger with Web access. To keep track of time and micro-SD card support providing storage facility for the data, you can also take advantage of DS3231 Real Time Clock (RTC). You can also store the needed data in microSD card in CSV format or in a database with SQLite3 library.

Due to ESP32 based NORVI IIOT, it is also possible to implement wireless access for the logged data and real-time data. You can access or view the data by using WiFi if you combine few libraries of ESP32 Arduino. There are several examples for ESP32 to work as a datalogger and Web-interface for real-time data.

If you want Arduino Alternative for Industrial Use you can rely on Norvi again and again. Remember that if you have access to efficient hardware, you will be able to finish your project in the fastest possible time. GPIO pins are isolated and connected to the relays and inputs. You can control relays and inputs via GPIO. You will be provided with LED Indicators for Inputs, Outputs and Seria, Arduino libraries for reading analog inputs and driving OLED Display, Expansion port with UART, SPI, I2C, and 2 GPIO which lets you access external devices or modules. You can also enjoy USB Connection as a usual Arduino board to connect with the Arduino IDE. What’s more, MicroSD card support is also provided. This means that you can add a micro SD card for expanding its capacity, for applications like dataloggers. Just order this Arduino Alternative for Industrial Use and be sure to enjoy these benefits.

The Highest Quality Data Loggers by Norvi

When it comes to finding the highest quality Arduino Data Logger Temperature simply visit Norvi. This is a leading platform offering a wide range of products available at quite reasonable prices. Invest in Arduino Wifi Data Logger and you will certainly get the best value for your money. Other than real-time acquisition and pushing to an IoT platform, data loggers are one method of keeping track of values and analyzing.  The industrial world is full of various types of data loggers and they are as follows. USB loggers which are used for Short-term trend logging with manual offload, Bluetooth (BLE) Loggers with Wireless data access via mobile devices, Web-based Systems with Long-range wireless internet access, as well as Wireless Sensors with Short-range centralized data collection.

With the ESP32 based NORVI IIOT, you can build any of those solutions, simply and reliability. Due to Arduino Wifi Data Logger, costs can also be kept lower compared to other data-loggers. NORVI IIOT ESP32 Data-logger with Web-access is the best choice offering almost all the acquisition types you need to build the Real-time data logger with web access. It includes digital inputs (As counters or ON-OFF status detection), 0-10V Voltage Analog Inputs, 4-20 mA Current Analog Inputs, temperature inputs, load cell inputs, RS-485 communication interface, and 12C communication interface. As NORVI IIOT supports all the above input types which means you have access to the real-word parameters. The next step is storing them with time stamp. Believe it or not, NORVI IIOT AE04 range is an amazing data-logger with Web access. To keep track of time and micro-SD card support providing storage facility for the data, you can also take advantage of DS3231 Real Time Clock (RTC). You can also store the needed data in microSD card in CSV format or in a database with SQLite3 library.

ESP32 based NORVI IIOT enables the ability to implement wireless access for the logged data and real-time data. You can access or view the data by using WiFi if you combine few libraries of ESP32 Arduino. There are several examples for ESP32 to work as a datalogger and Web-interface for real-time data.

Arduino Data Logger Temperature is a great electronic device that can store a number of measurements. Using a data logger allows people enjoy more accurate measurements. They can be taken automatically and data logging will not be subject to human error. Data loggers are needed for a number of reasons, especially for making sure compliance with industry specific regulations, as well as quality and environmental control procedures. Opt for this data logger and it will certainly help to save costs through energy efficiency/environmental management.

Norvi is a great destination where you can find the highest quality data loggers and enjoy the best quality. All you need to visit the website and a wide range of products will be at your disposal. Look no further and choose Norvi because this is the best place for buying affordable and top-notch quality devices.

Esp32 Based Ethernet Device that provides both Wireless and wired connections to the network

Access or view the data over WiFi with Arduino Wifi Data Logger. This is the best way of keeping track of values and analyzing. Look no further and choose this Arduino Industrial Automation for better and faster production plans. Click here for more info: Esp32 Based Ethernet Device

BMP180 Barometric Pressure/Temperature/Altitude Sensor Module – Arduino + LCD

BMP180 Barometric Pressure/Temperature/Altitude Sensor Module – Arduino + LCD ****************************************************************** If You Want To Purchase the Full Project or Software Code Mail Us: [email protected] Title Name Along With You-Tube Video Link Project Changes also Made according to Student Requirements http://svsembedded.com/ è https://www.svskits.in/ M1: +91 9491535690 è M2: +91 7842358459 ****************************************************************** 1. BMP280 Pressure Sensor Module - Arduino Tutorial, 2. Arduino Weather Station Project with BMP180 and DHT11 Sensors, 3. Test of BMP180, 4. Arduino with Python LESSON 9: Measuring Pressure and Temperature with the BMP180 Sensor, 5. BME280 Pressure sensor. Getting Started With Arduino, 6. BMP280 temperature and pressure sensor on an Arduino, 7. Arduino Project: Advanced Datalogger with ATMEGA328, BMP180, DHT22, BH1750 and sd card, 8. How to make a Temperature, Pressure, Altitude Logger [Esp8266, WiFi, Arduino], 9. How to Build: Arduino Bmp180 Pressure Temperature Altitude Meter with OLED Display, 10. Arduino Weather Station Project #3 with DHT22, BMP180 and a Nokia 5110 LCD Display, 11. Pressure Sensor BMP180 Interfacing with Arduino Uno, 12. 64x32 RGB Led Matrix Display Clock Arduino Mega2560 with BMP180 - Temperature, Pressure scrolling, 13. Using BMP180 Digital temperature and pressure Sensor with Arduino, 14. Arduino with Python LESSON 13: Calculating Height from BMP180 Pressure Sensor, 15. BMP180 Arduino Tutorial | Measure Pressure & Temperature, 16. Arduino with Python LESSON 12: Calculating Height from Changes in Pressure, 17. BMP180 I2C Temp./Pressure sensor Interfacing in details | Arduino, 18. Raspberry Pi BMP180 Digital Pressure Sensor Python Tutorial, 19. Easy use of BMP280 to measure Pressure, Temperature and Altitude with Arduino + OLED, 20. What's Inside? The BMP180 Barometric Pressure Sensor, 21. BMP280 Barometric pressure and temperature sensor with Arduino, 22. Arduino and Android BlueTooth monitor Using BMP180 ( Tutorial ), 23. ESP32 Technical Tutorials: ESP32 and BMP180, 24. Nodemcu esp8266 wifi module + BMP180 + Arduino + Blynk Application” temperature, pressure & Altitude, 25. Arduino Nano: BMP180 Barometric Pressure and Temperature I2C 2 X 16 LCD Display with Visuino, 26. BMP180 Arduino Tutorial | Measure Altitude, Pressure & Temperature, 27. Add a BMP180 sensor to a Raspberry Pi Breadboard, 28. Raspberry Pi and Temperature Pressure Sensor BMP180, 29. esp8266(Nodemcu) Widget using Barometric BMP180 sensor, 30. 1.3 inch 128x64 OLED as Temperature Readout using BOSCH BMP180 on Arduino, 31. Arduino - BMP180 Barometric Pressure and I²C OLED Display, 32. Arduino Nano: Barometric Pressure and Temperature BMP180 Sensor with Visuino, 33. Display temperature from BMP180 as bargraph on LCD for Arduino, 34. Arduino BMP-280 BMP-180 Temperature Altitude Air Pressure Humidity on 16 x 2 LED, 35. HOW TO SET UP THE BMP180 BAROMETRIC PRESSURE SENSOR ON AN ARDUINO, 36. Graphical Atmospheric Pressure & Temperature Sensor with ATXMega32A4U, BMP180 and ST7735 TFT Display, 37. ESP32 with BMP180 Barometric Sensor||Tomson electronics, 38. esp8266 with BMP180 und RGB LED and implements a webservice, 39. Interface BMP180 Sensor with Arduino to measure Pressure & Temperature, 40. Arduino Nano BMP180 Digital Pressure Sensor Tutorial, 41. BMP180 pressure sensor Simulation Proteus, 42. Labview temperature and pressure reading, 43. 15 Pressure Sensor (BMP180) with arduino on Proteous, 44. BMP180 sensor under vacuum, 45. Arduino based temperature, pressure, data logger using the BMP180, 46. Lesson 18 BMP180 Digital Pressure Sensor with Raspberry Pi, 47. ESP32 BMP180 Web server with Arduino IDE, 48. Install Arduino Libraries for BMP180, 49. Particle Photon BMP180 Digital Pressure Sensor Tutorial, 50. Digital Pressure and Temperature BMP180 with Arduino Nano and OLED display, 51. How to make Arduino BMP180 Pressure, Temperature and altitude meter, 52. Lesson 5 BMP180 Digital Barometric Pressure Sensor, 53. IoT based ESP32 Wi-Fi Weather Station using DHT11 and BMP180 Sensor, 54. BMP180 Arduino Tutorial | Measure Pressure & Temperature, 55. ARDUINO PROJECT BMP180 BAROMETRIC PRESSURE AND TEMPERATURE SENSOR, 56. Tiny Altimeter with Arduino, Oled display 128x64, pressure sensor BMP180, 57. Arduino mega weather station, 58. Raspberry Pi Humidity and Temperature Sensor and Dashboard, 59. How to Use Mg811 Co2 Carbon Dioxide Gas Sensor, 60. BMP180 pressure and temperature Sensor test, 61. Arduino based temperature, pressure, data logger using the BMP180, 62. Altitude meter BMP180 with AVR, 63. skiiiD - Easiest way to code Barometric Pressure Sensor BMP 180 on Arduino, 64. BMP180 Pressure & Temperature Sensor with Arduino, 65. What is a Barometric and Temp Humidity Sensor,

[IoT] How to Send Temperature Values to Thingspeak Using Arduino and ESP8266 | Tinkercad

[IoT] How to Send Temperature Values to Thingspeak Using Arduino and ESP8266 | Tinkercad - esp8266 dht11 thingspeak arduino code | how to send data to cloud using arduino and esp8266 | how to send ultrasonic sensor data to thingspeak using nodemcu | how to upload sensor data to cloud using arduino |iot using arduino and esp8266 | thingspeak arduino upload | thingspeak arduino projects | esp-01 thingspeak | nodemcu dht11 thingspeak code | nodemcu thingspeak | dht11 humidity sensor with esp8266 and thingspeak | esp32 dht11 thingspeak.

**********************************************************************************

GET Complete Hardware kit - If You Want To Purchase the Full Project

Mail Us: [email protected]

Title Name Along With You-Tube Video Link

Project Changes also made according to Student Requirements

http://svsembedded.com/                                           https://www.svskits.in/

M1: +91 9491535690                                   M2: +91 7842358459

***********************************************************************************

 1. UPLOAD SENSORS DATA TO THINGSPEAK BY USING ARDUINO AND ESP8266, 2. [IoT] How to Upload DHT11 Temperature Humidity Values to Thingspeak using ESP8266, 3. 2 devices send data to same ThingSpeak channel, 4. Arduino | NodeMCU ESP8266 sends DHT11 Sensor Data (Temperature and Humidity) to ThingSpeak, 5. arduino + gsm module (temperature logger using thingspeak), 6. Arduino and ESP8266 Sent Sensor Data to ThingSpeak.com, 7. Arduino with Cloud in Tamil | Send temperature sensor value to ThingSpeak using WIFI ESP8266, 8. Cellular IoT | Send Data to Thingspeak Server using SIM800/900 GSM/GPRS Module, 9. Connecting ESP8266 to the Internet | Thingspeak & MQTT Protocol | Webserver connections, 10. DHT11 & NodeMCU Tutorial || Humidity & Temperature Monitoring over Thingspeak, 11. Easy Raspberry tutorial XX: Send data to Thingspeak, 12. ESP32 : MAX6675 IoT WiFi Temp Sensor and ThingSpeak Tutorial, 13. ESP8266 (Arduino IDE) DS18B20 Temperature logging to ThingSpeak, 14. ESP8266 (NodeMcu) with Thingspeak | Upload & Monitoring DHT11 Data to Thing speak from Anywhere, 15. ESP8266 + Arduino send data DHT11 Humidity and Temp To Web, 16. Esp8266 esp12 | DHT11| Thingspeak| Temperature and Humidity, 17. ESP8266 wifi module and Arduino Sending Data to thingspeak.com, 18. ETHERNET SHIELD Arduino–Upload LM35 Data to THINGSPEAK, 19. Getting Started with Arduino and the ThingSpeak Cloud, 20. Heart Beat Monitoring over Internet using ESP8266 & ThingSpeak, 21. How to Create a Channel on ThingSpeak, 22. How to Post on Twitter from Arduino with ESP8266 and ThingSpeak | ThingTweet, 23. How to Send Temperature and Humidity data to ThinkSpeank using ESP8266 DHT11 sensor and Arduino, 24. How to upload DHT11 data to Thingspeak using ESP8266, 25. How to Upload DHT11 data to ThingSpeak using NodeMcu||Getting Started with ThingSpeak||IOT||DHT11, 26. How to Use ThingSpeak and Arduino to Develop a Temperature Sensor, 27. Humidity & Temperature Monitoring over Thingspeak || using DHT11 & Node MCU, 28. ifttt and thingspeak integration, 29. iot based temperature data logger using pic microcontroller and esp8266, 30. IOT using Thingspeak & NodeMCU (Plot Temperature and Humidity), 31. LM35 with Esp8266 Thingspeak, 32. NodeMCU - Arduino Core 3. Upload LM35 Data to THINGSPEAK, 33. NodeMCU ESP8266 - Display Real Time Temperature Graph on ThingSpeak Cloud | APDaga | DumpBox, 34. Nodemcu is sending temperature and humidity data to thingspeak, 35. Read Temperature Value in Mobile App | ThingSpeak Server | MIT App Inventor, 36. Send DHT22 Temperature & Humidity data to ThingSpeak, 37. Send Microbit Data to ThingSpeak IoT Platform ESP8266 Wifi Modules, 38. Sending data to thingspeak website using esp8266 Arduino Tutotial, 39. Sending Temperature Sensor Data From Arduino to Excel and Plotting, 40. SIM 900A with arduino send temp data on thingspeak cloud.mp4, 41. Upload data to Thingspeak using REST API | IOT With Raspberry PI, 42. Upload DHT11 Temperature Humidity Values to Thingspeak using Nodemcu, 43. What is IoT ?|Send Data to ThingSpeak from Node MCU,