The TEA5767 Module is a single-chip FM Radio IC circuit designed for low-voltage applications, making it ideal for use in embedded systems and microcontroller platforms like Arduino and other 3.3V development boards. This versatile chip includes intermediate frequency selectivity and an integrated FM demodulator. Its ease of interfacing compatibility with the I2C communication protocol makes it straightforward to connect to other development boards. With minimal additional components, it can function as a stand-alone radio receiver. The TEA5767 supports a frequency range of 88MHz to 108MHz, allowing it to tune into FM stations in India, Japan, Europe, and the United States.

From Classroom to Lab: Exploring SUAS’s Specialized Robotics & Automation Labs

At the heart of engineering excellence is the ability to build, test, and innovate — and that’s exactly what students at Symbiosis University of Applied Sciences, Indore (SUAS) experience every day. As a modern private university in Indore, SUAS blends academic knowledge with practical expertise, especially in its B.Tech in Automation & Robotics program. But what truly sets SUAS apart is its world-class laboratory infrastructure, designed to mirror the most advanced industry settings.

Real-World Learning Begins in the Lab

While many universities emphasize theory, Indore Symbiosis focuses on real-world application. Students spend a significant portion of their time in specialized labs, engaging with the same equipment, tools, and technologies used by industry professionals. SUAS follows a 70:30 model — 70% practical learning and 30% theoretical instruction — making it one of the top universities in Indore for hands-on engineering education.

Key Laboratories at SUAS

🔧 Automation Lab

This lab gives students access to industrial automation components like programmable logic controllers (PLCs), human-machine interfaces (HMIs), sensors, and actuators. Here, students simulate and implement automated systems just as they would in automotive, manufacturing, or packaging industries.

🤖 Robotics Lab

Equipped with robotic arms, Arduino kits, and programmable systems, this lab allows students to build and test robots from scratch. They learn everything from robotic movement and path planning to vision-guided robotics and AI integration.

⚙️ Microprocessors & Embedded Systems Lab

Students get hands-on with microcontrollers like 8051, PIC, and ARM boards, learning how to build embedded systems — the backbone of smart robots and automation devices. The lab supports courses in embedded C, IoT systems, and device-level programming.

🛠️ Lucas-Nülle Lab Setup

Through international collaboration, SUAS integrates Lucas-Nülle’s Germany-based training systems, known for bridging academic learning with practical engineering. These systems simulate real industrial environments and enhance technical training to a global standard.

Innovation Starts Here

Labs at SUAS are not just for coursework. Students regularly use them for capstone projects, hackathons, and startup prototypes — from 3D-printed robotic parts to drones and home automation systems. Supported by SUAS’s incubation center and mentorship programs, students can transform classroom ideas into real innovations.

Why It Matters

In a field like automation and robotics, real lab exposure gives students a serious edge. They not only understand theoretical models but can also wire, program, and troubleshoot physical systems — a skillset highly prized by employers in India and abroad.

Conclusion

For aspiring engineers seeking the perfect blend of academic learning and hands-on experience, Symbiosis University of Applied Sciences, Indore delivers through its specialized labs and industry-driven curriculum. It’s no wonder SUAS is widely regarded as one of the best universities in Indore for engineering in the automation era.

Buying Electronic Components Online in India — What to Keep in Mind

Electronics is a field where small parts make a big difference. If you're building something — a simple sensor circuit, maybe a GSM tracker, or even just testing modules — sourcing the right components is half the work.

Going shop to shop looking for capacitors, ICs, or GPRS modules can be draining. Not to mention, stock may not be available, or the part isn’t original. That’s where online sellers come in.

Why Online Works Better (Most of the Time)

Instead of wasting hours traveling or calling five vendors, it’s easier to go online and search the part directly. You get to check datasheets, ratings, specs, pricing — all at once. It’s a better way to find both common and rare components.

In India, the trend is clear: more developers, students, and even R&D engineers now prefer to buy electronic components online. It's faster and often cheaper, too.

Looking for Specific Parts Like GPRS Modules?

Not every local store stocks communication modules. A GPRS module is commonly used in IoT, vehicle tracking, or remote data transmission projects. Online, you can compare multiple options, check if it’s quad-band, serial-compatible, or needs an antenna, etc. That’s hard to do in a store with no documentation or help.

Be Cautious With Semiconductors

If you’re sourcing semiconductors, ICs, or microcontrollers, don’t compromise on quality. Faulty or cloned parts can damage your boards. It’s always safer to stick with semiconductor distributors in India who have proper sourcing, and ideally, tie-ups with top semiconductor companies in India.

Use reliable sources, particularly for projects where long-term dependability is important, such as medical or industrial construction. They may be slightly more expensive, but you can avoid problems later.

The Benefits of Sites Like OM Electronics

OM Electronics provides a fair combination between working stock, clear specifications, and a respectable choice. Whether you want Arduino boards, relays, resistors, or modules, they have categories that are easy to browse. Bulk ordering is available too, which is useful for college labs or small companies.

The interface is clean, and support is better than most smaller sellers. If you're serious about online sourcing, having 2–3 such trusted sites bookmarked really helps.

Final Words

Buying electronic parts online is no longer risky like it was five years ago. With verified platforms, fast logistics, and better inventory systems, sourcing has become smoother. Just remember to avoid unknown sellers and always double-check specs before buying.

Whether it’s a sensor, GPRS module, or a logic IC, you now have more control over quality and delivery. That’s a big win for anyone working in electronics today.

Improve Precision with High-Quality Soldering Tips in India

In electronics assembly and repair, the quality of your soldering depends as much on the tip as it does on the iron. A precise, durable, and well-maintained soldering tip can mean the difference between a perfect joint and a failed circuit. That's why professionals across manufacturing, servicing, and DIY sectors are increasingly choosing reliable soldering tips in India from Ascomp Inc..

At Ascomp Inc., we understand that every application requires the right tool for the job. We offer a wide range of premium soldering tips compatible with all major soldering stations. Whether you're working with micro-components or heavy-duty connections, we have the right tip for you.

What Are Soldering Tips?

Soldering tips are the metal parts at the end of a soldering iron that transfer heat to the components and solder. These tips come in various shapes and sizes—conical, chisel, bevel, and needle—each suited for specific applications. For example:

Conical tips are ideal for precision work.

Chisel tips offer broader surface contact for larger joints.

Bevel tips combine control and surface area, ideal for drag soldering.

Our range of soldering tips in India is designed for both leaded and lead-free soldering applications, ensuring efficient heat transfer and long service life.

Features of Ascomp Inc. Soldering Tips

High Thermal Conductivity: Made from copper cores with iron plating for fast heat-up and consistent performance.

Oxidation Resistant Coating: Prolongs tip life and maintains solderability.

Wide Compatibility: Fits Hakko, Weller, Quick, Goot, and other major soldering stations.

Variety of Shapes: Available in over 30 tip geometries for all kinds of soldering tasks.

Affordable Pricing: Cost-effective without compromising on quality.

Applications of Soldering Tips in India

The demand for reliable soldering tips in India spans across a wide spectrum of industries:

Electronics Manufacturing: Essential for assembly lines producing PCBs, mobile phones, and consumer gadgets.

Repair & Servicing Centers: Crucial for rework on circuit boards and connectors.

DIY and Hobby Projects: For enthusiasts working on Arduino, Raspberry Pi, and robotics.

Educational Labs: Used in technical training institutes and engineering colleges.

Automotive Electronics: For sensor and ECU soldering work.

Why Choose Ascomp Inc.?

Trusted Supplier: We provide only high-grade, performance-tested soldering tips.

Bulk Order Facility: Ideal for factories, service centers, and educational institutions.

Quick Delivery: Pan-India shipping with reliable inventory management.

Technical Support: Our team helps you select the correct tip for your application.

After-Sales Service: Assistance in usage, maintenance, and tip care.

Which Are the Most Advanced Electronic Laboratory Equipment for Education in India?

Electronic laboratory equipment is an integral part of educational institutions, where it allows the student to gain some practical experience regarding electrical and electronic concepts. Since technology is always under innovation, modern laboratories require good quality and innovative implements to enhance the learning experience in laboratories. Finding the right electronic laboratory equipment manufacturer and supplier in India is the right degree of precision, reliability, and durability. With advanced Electronic laboratory equipment, students learn technical skills along with a practical understanding of circuits, microcontrollers, and communication systems. In this blog, we mentioned some of the most advanced electronic laboratory equipment for education in India.

8 Most Advanced Electronic Laboratory Equipment for Education in India

Digital Oscilloscope

A digital oscilloscope is an essential measuring and analyzing device for electrical signals in real time. It has become a crucial teaching tool for students in many educational labs teaching waveforms, voltage levels, and signal analysis. Modern oscilloscopes are high bandwidth, touch screen, and with advanced triggering, making them quite efficient for the student to learn.

Function Generator

A function generator is an essential device used to generate different kinds of electrical waveforms, like sine, square, and triangular waves. The function generator is mainly used for circuit testing in educational laboratories or for research projects. Advanced models have frequency modulation, phase-locking capabilities, and digital control for precision.

According to Wikipedia, In electrical engineering, a function generator is usually a piece of electronic test equipment or software used to generate different types of electrical waveforms over a wide range of frequencies. Some of the most common waveforms produced by the function generator are the sine wave, square wave, triangular wave and sawtooth shapes.

Spectrum Analyzer

Spectrum analyzers measure the electric signal frequency spectrum. They teach students about signal strength, bandwidth, and distortion from communication systems. Modern spectrum analyzers include high-speed digital processing, a touchscreen interface, and wireless connectivity for remote monitoring.

Digital Multimeter

It is an essential tool used in measurements of voltage, current, and resistance. The modern Digital Multimeter offers high resolution, data logging, Bluetooth connectivity, and more, so it is a good educational tool.

Microcontroller Development Board

Embedded microcontroller development boards such as Arduino and Raspberry Pi are used in educational institutions to teach students the fundamentals of an embedded system. With this board, students will be able to develop real-time applications, offering a practical platform in terms of programming and integration of hardware into software.

Power Supply Unit

Testing and powering electronic circuits require a regulated power supply. In a modern power supply, digital displays along with programmable voltage settings and overcurrent protection safeguard the integrity of experiments in the laboratory.

Soldering and Desoldering Station

Soldering stations are the stations used to assemble and repair electronic circuits. A high-class soldering station, with highly sensitive temperature regulation and ESD-protected working features, includes high-speed heating for student learning through PCB designing and repairing techniques.

Wireless Communication Trainer Kit

A wireless communication trainer kit is intended to help the student understand a number of different wireless technologies such as Bluetooth, Wi-Fi, and RF communication. These kits make it possible to demonstrate complex wireless concepts with practical demonstrations and experiments.

Enhancing Engineering Education in India through Advanced Electronic Laboratory Equipment

In accordance with a research study done by Smart Learning Environments, adding high-technology Electronic laboratory equipment, including augmented reality (AR) systems in the educational process of engineering improves the level of practical skills and students' understanding of complex contents. The analysis showed that students trained by using AR tools improved their skills for working with laboratory instruments like an oscilloscope and a function generator and obtained better practice-based assessment results. This helped build not only confidence but also relieved the cognitive load of having their familiarization with equipment through virtual devices before the real experiment was undertaken. Such advanced tools in engineering curricula at Indian colleges help close that gap between the knowledge acquired and the moment of practical application, hence setting up an effective learning environment.

Why Choose Eduscope India?

Eduscope India is the leading electronic laboratory equipment manufacturer and supplier in India, that offers high-quality innovative and educational solutions for laboratories. Steady on precision and durability, products from Eduscope India address the latest industry standard.

 This equipment helps in learner practice and real-time experiments to boost students' learning abilities. In addition, Eduscope India offers extended support by providing proper installation, training, and maintaining all its products.

Conclusion

Electronics Laboratory Equipment for students is something that needs to be chosen right to provide the students with practical experience and technical know-how. The advanced laboratory equipment mentioned above increases the efficiency of learning by providing the student with problem-solving skills and innovation. For any institution looking for the best electronic laboratory equipment manufacturer and supplier in India, Eduscope India is one of the finest, with its commitment to quality, reliability, and customer support. A laboratory investment in quality helps to prepare future-ready learning environments in electronics preparation for real-world applications.

Top 10 Skills You’ll Learn in an Embedded System Development Course in India

Today, with advanced technology in every field, the world has taken a big step toward creating new industries and innovations. It is one of the most challenging and exciting fields, and it's worth investing in by enrolling in an embedded system development course in India. The knowledge and skills gained are useful for outstanding performance in various domains such as IoT, robotics, and automotive technology. Here, we look at the top 10 skills you would learn in an embedded system development course, including a fascinating project initiative, TechnosCOE.

1. Familiarity with Microcontrollers and Microprocessors

Microcontrollers and microprocessors are the foundation base for embedded systems. Courses include architecture, functioning, and programming, with hands-on experience in popular controllers such as Arduino, PIC, and ARM, which form the backbone of most embedded applications.

2. Programming Languages

One of the main emphases of an embedded system development course in India is acquiring skills in programming languages such as C and C++. These skills are essential to writing firmware and developing applications for embedded systems. It also makes some courses introduce Python for scripting and debugging purposes to improve a student's versatility.

3. Real-Time Operating Systems (RTOS)

The creation of efficient and reliable systems is based on the understanding of how RTOS works. These courses cover the principles of multitasking, scheduling, and inter-process communication. By mastering RTOS concepts, students can develop systems for industries such as telecommunications and healthcare.

4. Circuit Design and PCB Development

These contain custom circuitry designs and a printed circuit board (PCB). The knowledge gained from developing circuitry robust and efficient within Eagle and Altium Designer gives immense value toward the prototyping and product development phase.

5. Sensor integration and data acquisition

Modern embedded systems interact with the physical world through sensors. Courses teach students how to integrate sensors, process their data, and use it in meaningful ways. Applications include temperature monitoring, motion detection, and environmental sensing, among others.

6. IoT (Internet of Things) Development

IoT has changed the face of industries, and at the center of this change is the concept of embedded systems. Students are taught to design devices that are internet-enabled, which can talk to other devices, and perform analytics in real-time data. The same skill can be applied to smart home automation and industrial applications.

7. Embedded Linux

Training on Embedded Linux is generally a part of an embedded system development course in India. It is a highly versatile and widely used open-source software in the world of embedded systems. A student learns how to develop applications, configure the kernel, and build custom distributions for different types of devices.

8. Debugging and Testing Techniques

Debugging is a key tool in embedded system development. Students become experts in using tools like JTAG debuggers and oscilloscopes to identify and debug those issues. Techniques on testing address all the requirements for the performance and safety of the system.

9. Communication Protocols

Understanding communication protocols is very important to the embedded engineers. The curriculum covers some popular protocols such as I2C, SPI, UART, CAN, and Ethernet, which are usually used in applications such as car systems and automation in industrial places.

10. Project Management and Documentation

Beyond technical skills, students also learn project management techniques and documentation practices. These soft skills ensure that they can efficiently collaborate with teams, manage timelines, and maintain accurate records of their work.

Role of TechnosCOE in Embedded Learning

Most embedded system courses include real-world projects that allow students to apply their skills practically. TechnosCOE is one such project, an initiative designed to bridge the gap between theoretical knowledge and practical application. TechnosCOE offers students opportunities to work on cutting-edge projects involving IoT, robotics, and smart devices.

This initiative focuses on teamwork, innovation, and problem-solving, ensuring learners are industry-ready. Through the TechnosCOE, students are exposed to real-world challenges and learn how to apply embedded system principles to develop effective solutions.

Why Choose an Embedded System Development Course in India?

India is turning out to be a fast-growing hub for embedded technology. Industries like automotive, healthcare, and consumer electronics will have a vast number of opportunities. Embedded system development courses offered in India will ensure expert faculty members, state-of-the-art labs, and industrial collaborations. They also offer internship and placement support, which proves to be perfect for career growth.

Conclusion

The course on embedded system development course in India not only gives the students technical expertise but also prepares them for dynamic and rewarding careers. Mastering microcontrollers to developing IoT solutions, these skills are invaluable in today's technology-driven world. Initiatives like TechnosCOE further enhance the learning experience, making these courses a worthwhile investment for aspiring engineers.

A Guide to setting up and maintaining an Atal Tinkering Lab 

A Guide to setting up and maintaining an Atal Tinkering Lab 

Imagine a space where young innovators can turn their ideas into reality, explore cutting-edge technology, and solve real-world problems. An Atal Tinkering Lab (ATL) offers precisely this a platform for students to engage in hands-on learning and foster creativity. Whether you’re a school leader or an educator, setting up and maintaining an ATL can transform your educational environment. This guide will help you navigate the process effectively. 

What Is an Atal Tinkering Lab? 

Atal Tinkering Labs are innovation workspaces established under the Atal Innovation Mission by the Government of India. These labs aim to cultivate curiosity and problem-solving among students aged 12–18 by providing access to advanced tools like 3D printers, robotics kits, and IoT devices. 

Why Set Up an ATL? 

Promotes Experiential Learning: Students learn by doing, not just memorizing. 

Encourages Innovation: A space to develop groundbreaking ideas and projects. 

Prepares for Future Careers: Exposure to STEM fields and technological skills. 

Steps to Set Up an Atal Tinkering Lab 

1. Apply for ATL Grants 

Schools affiliated with CBSE, ICSE, or state boards can apply for funding through the Atal Innovation Mission. Grants of up to ₹20 lakhs are provided, covering lab setup and operational expenses for five years. 

2. Design the Space 

Select a Location: Choose a spacious, well-lit area (minimum 1,500 sq. ft.). 

Plan the Layout: Divide the lab into sections for ideation, experimentation, and prototyping. 

Foster Collaboration: Use open seating, whiteboards, and project displays to encourage teamwork. 

3. Procure Equipment 

The lab must have tools and technologies such as: 

Basic Kits: Screwdrivers, pliers, and soldering tools. 

Robotics and Electronics: Arduino, Raspberry Pi, and robotics kits. 

3D Printing: Printers and modeling software. 

Internet of Things (IoT): Sensors, microcontrollers, and IoT modules. 

Make sure all equipment aligns with the guidelines provided by AIM. 

4. Recruit Mentors and Trainers 

Involve Experts: Collaborate with local engineers, educators, and entrepreneurs. 

Train Teachers: Conduct workshops to equip educators with ATL methodologies. 

5. Engage Students 

Workshops and Competitions: Organize regular sessions to introduce students to ATL tools. 

Innovation Challenges: Host hackathons or themed competitions to inspire creativity. 

Maintaining an ATL 

1. Regular Equipment Upkeep 

Inspect tools and machines periodically. 

Replace damaged or outdated equipment promptly. 

2. Monitor Usage 

Maintain logs of student projects and equipment usage. 

Encourage responsible handling of tools. 

3. Continuous Training 

Organize refresher workshops for teachers and mentors. 

Stay updated with the latest technology trends. 

4. Promote Community Engagement 

Partner with local organizations for sponsorships or mentorship. 

Showcase student projects in exhibitions and online platforms. 

Success Stories 

Smart Irrigation System: A student group designed a system to monitor soil moisture and automate irrigation, benefiting local farmers. 

Disaster Alert App: A team developed an app that sends alerts during floods, earning recognition at a national level. 

Challenges and How to Overcome Them 

Funding Limitations 

Seek additional sponsorships from local businesses or alumni networks. 

Low Participation 

Introduce ATL activities into the regular curriculum to boost student involvement. 

Skill Gaps in Teachers 

Partner with ed-tech companies for training programs. 

Start building your Atal Tinkering Lab today! 

Are you ready to revolutionize education with an Atal Tinkering Lab? Start today and empower students to innovate, create, and solve real-world challenges. Together, let’s build a future where learning knows no boundaries. 

Transform your school into a hub of innovation Speak to an Expert Now! 

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Arduino UNO R3 DIP with ATmega328P

Are you looking to buy the Arduino Uno R3 CH340G ATMEGA328P Development Board for your next Arduino project?

Don’t look any further! Ainow, your trusted electronic component supplier in India, offers you this exceptional development board, fully compatible with Arduino Uno R3 projects. In the world of electronics and programming, the Uno R3 CH340G ATMEGA328P Development Board is more than just a microcontroller board; it’s a gateway to endless possibilities.

This board is engineered with precision and durability to meet the needs of both beginners and experienced enthusiasts. Its versatility knows no bounds – whether you’re into robotics, IoT, home automation, or creative automation projects, this board is perfect.

Even new Arduino users will find it easy to use, thanks to the plug-and-play design and user-friendly interface. This development board’s ATmega328P microcontroller and CH340G USB-to-serial converter chip make sure seamless data transfer and efficient performance. You’ll be amazed at how fast your Arduino projects will run with this board.

we believe in offering the best value for your investment. You can buy the Uno R3 CH340G ATMEGA328P Development Board for a competitive price, with no hidden charges. Our nationwide shipping ensures your order reaches you in perfect condition and in the fastest time possible.

We detail Arduino code for making a smart dustbin, the required components, and the circuit diagram for making an automatic dustbin in our blog smart dustbin project using Arduino.

For using this Uno R3 Board compatible with Arduino in your small or DIY projects, you will need some essential components, such as

Breadboard

Wire jumpers

Power supply or batteries

Motors made by BO

Drivers of motor vehicles

The sensors

Check out the Arduino Uno R3 compatible board

Best Electronic Components Suppliers in Delhi - Campus Component

In the ever-evolving world of electronics, finding a reliable and trustworthy source for high-quality electronic components is essential. Campus Component, a leading electronic components distributor in India, stands out as a premier destination for a wide range of components catering to diverse industry needs. With a commitment to excellence, Campus Component has established itself as the go-to partner for engineers, hobbyists, and businesses seeking top-notch electronic components and exceptional customer service.

A Comprehensive Range of Electronic Components

Campus Component boasts an extensive inventory of electronic components, encompassing a vast spectrum of categories, including:

Microcontrollers and Development Boards: Discover a comprehensive selection of microcontrollers and development boards from renowned brands like Arduino, ESPRESSIF, and NUVOTON, empowering you to bring your electronic creations to life.

Sensors: Enhance your projects with a diverse range of sensors, including temperature sensors, proximity sensors, and accelerometers, enabling you to interact with the physical world with precision and accuracy.

Relays: Control and regulate electrical circuits with a broad assortment of relays, including power relays, PCB relays, and solid-state relays, ensuring reliable and efficient power management.

Wireless Modules: Expand the connectivity of your projects with a wide array of wireless modules, including Bluetooth modules, Wi-Fi modules, and LoRa modules, enabling seamless communication and data exchange.

Campus Component: Your Trusted Source for Electronic Components

In a landscape brimming with electronic components distributors, Campus Component distinguishes itself with its unwavering commitment to quality, customer-centric approach, and dedication to innovation. Whether you're seeking a single resistor or a comprehensive suite of components for your next project, Campus Component stands as a reliable partner, ensuring you have access to the high-quality electronic components you need to bring your ideas to life.

Embrace the Power of Electronics with Campus Component

Join Campus Component's growing community of engineers, hobbyists, and businesses and discover the power of high-quality electronic components. With an extensive inventory, unwavering commitment to quality, and customer-centric approach, Campus Component is your one-stop shop for all your electronic components needs.

Testing equipments Manufacturer, Suppliers and Exporter in India

Testing equipment is a broad term that encompasses a wide range of tools and devices used to evaluate the properties and performance of materials, products, and processes. These instruments play a vital role in ensuring the quality and safety of goods and services, and they are used in a variety of industries, including manufacturing, construction, healthcare, and environmental protection.Testing equipment can be broadly categorized into two main types: destructive and non-destructive. Destructive testing involves damaging or destroying the item being tested in order to assess its properties. This type of testing is often used for materials testing, such as tensile testing and impact testing. Non-destructive testing, on the other hand, does not damage the item being tested. This type of testing is often used for product testing, such as ultrasonic testing and radiographic testing. The most common types of testing equipment include: Voltmeters and ammeters: These devices are used to measure electrical voltage and current, respectively. Multimeters: These devices combine the functions of a voltmeter, ammeter, and ohmmeter into a single unit. Oscilloscopes: These devices are used to display electrical signals as waveforms on a screen. Signal generators: These devices are used to generate electrical signals of different frequencies and amplitudes. Power supplies: These devices are used to provide a stable source of electrical power. Ovens and furnaces: These devices are used to heat materials at controlled temperatures. Centrifuges: These devices are used to separate substances of different densities from solutions. Incubators: These devices are used to provide controlled temperature environments for the growth of cultures. In addition to these general-purpose testing instruments, there are also many specialized types of testing equipment that are designed for specific applications. For example, there are testing instruments for measuring the hardness of metals, the strength of concrete, the purity of water, and the emissions of vehicles. Testing equipment is an essential tool for ensuring the quality and safety of goods and services. It is used in a wide variety of industries, and it plays a vital role in protecting the public health and safety. Here is a list of common testing equipment used in school and college laboratories: 1.Microscopes: Compound microscope Stereo microscope 2. Glassware: Beakers Test tubes Petri dishes Graduated cylinders 3. Chemistry Equipment: Bunsen burners Pipettes pH meters Centrifuges 4. Physics Equipment: vernier calipers Oscilloscopes Spectrometers Electromagnets 5. Biology Equipment: Dissection kits Microtomes Incubators Autoclaves 6. Environmental Testing: Weather stations pH meters for soil testing Water quality testing kits 7. Electronics Equipment: Multimeters Function generators Oscilloscopes Breadboards 8. Computer Science Lab: Computers and laptops etwork analyzers Microcontroller boards (e.g., Arduino, Raspberry Pi) 9. Geology Equipment: Rock and mineral kits Sediment sieves GPS devices 10. Material Science: Tensile testing machines Hardness testers Microhardness testers 11. Safety Equipment: Safety goggles Lab coats Emergency showers and eyewash stations 12. General Lab Equipment: Hot plates Magnetic stirrers Scales and balances Autoclaves 13.Mathematics Lab: Geometric models Graphing calculators Mathematical manipulatives 14.Language Lab: Headphones with microphones Language learning software Recording equipment 15.Robotics Lab: Robot kits Sensors (e.g., ultrasonic sensors, gyroscopes) Programmable controllers 16. Astronomy Lab: Telescopes Star charts Solar filters 17. Health Science Lab: Stethoscopes Blood pressure monitors Skeleton models 18. Psychology Lab: Reaction time timers Psychophysiological monitoring equipment Cognitive testing tools

Best Robotics and Electronic Components Company

Robotbanao is the best robotics and electronic components manufacturer in india.you can buy a variety ranges of Robotics equipments like Arduino, Raspberry Pi and Wide Range of Electronic Components,Bo motor, DC motors, Drone Parts, Amplifiers, Resistors, development boards, transistors.

The project involves using an Arduino Nano to read data from a DHT11 temperature and humidity sensor and display that data on an LCD5110 display module. The DHT11 sensor uses a thermistor and a humidity sensing element to measure temperature and humidity, respectively. The sensor is connected to the Arduino Nano via a digital pin. The Arduino reads data from the sensor by sending a request signal, and the sensor responds with a data signal containing temperature and humidity readings. The LCD5110 display module is a monochrome LCD display that is commonly used with Arduino boards. It communicates with the Arduino via SPI (Serial Peripheral Interface) protocol, using five pins for communication: SCLK, DIN, DC, CS, and RESET. The Arduino Nano is programmed to read data from the DHT11 sensor and display that data on the LCD5110 display module. The Adafruit_PCD8544.h library is used to control the display, and the dht.h library is used to read data from the sensor. In the setup() function, the LCD display is initialized and the display contrast is set. The loop() function contains the main code for the project. It reads temperature and humidity data from the DHT11 sensor using the dht.h library, formats the data as a string, and displays it on the LCD5110 display using the Adafruit_PCD8544.h library. The display is updated every second to show the latest temperature and humidity readings. Overall, the project uses a combination of hardware and software to measure and display temperature and humidity data in real-time. (at Bangalore, India) https://www.instagram.com/p/CpM6Rw8LOQU/?igshid=NGJjMDIxMWI=

University of Florida researchers “MacGyver” together an open-source, Arduino controlled ventilator using a microcontroller board, a ham radio DC power supply, and air-tight PVC water pipes and lawn-sprinkler valves purchased from a local Home Depot.

Engineering and medical colleagues at UF worked with an open-source network with others from Canada, India, Ireland, Vietnam and Brazil.

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Open Source Ventilator Project homepage

How to get started with an Atal Tinkering Lab in your school ?

Imagine a space where students can transform their wildest ideas into real-world innovations. That’s the magic of an Atal Tinkering Lab (ATL). Designed to nurture creativity and foster scientific temper, ATLs are becoming a vital part of schools across India. If you’re wondering how to bring this revolutionary lab to your school, you’re in the right place. Let’s dive into the step-by-step process to set up an ATL and empower young minds to dream big. 

What Is an Atal Tinkering Lab? 

An Atal Tinkering Lab is an initiative by the Atal Innovation Mission (AIM) under NITI Aayog, aimed at creating an environment for innovation and entrepreneurship in schools. These labs provide students with tools and technologies like 3D printers, robotics kits, and electronics to tinker, experiment, and innovate. 

Why Should Your School Set Up an ATL? 

Encourage Innovation: ATLs cultivate problem-solving and critical thinking skills in students. 

Hands-on Learning: Students learn by doing, which is essential for STEM education. 

Career Readiness: Exposure to advanced technologies prepares students for future career opportunities. 

Community Impact: Your school becomes a hub for local innovation, benefiting students and the community. 

Steps to Get Started 

1. Understand the ATL Guidelines 

Visit the Atal Innovation Mission website to access the official guidelines and eligibility criteria. Ensure your school meets the basic requirements: 

Your school must be affiliated with a recognized education board. 

You need a minimum space of 1,500–2,000 sq. ft. to set up the lab. 

The school should show a commitment to fostering innovation. 

2. Apply for the ATL Grant 

The Government of India provides a grant of INR 20 lakhs over five years to approved schools. Here’s how to apply: 

Go to the AIM website and fill out the online application form. 

Provide detailed information about your school, infrastructure, and vision for the ATL. 

Submit supporting documents such as your school’s affiliation certificate, building layout, and commitment letter. 

3. Prepare the Infrastructure 

Once your application is approved, focus on setting up the physical space: 

Allocate a well-lit, ventilated room measuring at least 1,500 sq. ft. 

Ensure the space has basic amenities like electricity, internet connectivity, and storage facilities. 

Design the lab to foster creativity with flexible seating and display areas. 

4. Procure Equipment 

The ATL grant includes funds for purchasing equipment. Make a list of essential tools, such as: 

3D Printers for prototyping. 

Robotics Kits to explore automation. 

Electronics Development Boards like Arduino and Raspberry Pi. 

Tools and Consumables for crafting and experimentation. 

Collaborate with vendors listed on the AIM website to ensure quality and compliance. 

5. Hire and Train Staff 

Select passionate teachers or staff to manage the lab. Provide them with training on using ATL equipment and mentoring students. AIM often conducts workshops and webinars to upskill ATL coordinators. 

6. Engage Students 

Organize workshops, hackathons, and challenges to spark interest among students. Encourage them to participate in initiatives like ATL Marathons and Innovation Challenges to showcase their ideas. 

7. Collaborate with Mentors and Industry Experts 

Build a network of mentors, including engineers, scientists, and entrepreneurs, to guide students. Partner with local industries and universities for technical support and funding. 

8. Monitor and Evaluate 

Use AIM’s monitoring tools to track the lab’s performance. Regularly assess: 

The number of projects developed. 

Student participation and engagement. 

Feedback from teachers and mentors. 

Tips for Sustaining the ATL 

Involve the Community: Host open houses to showcase student projects to parents and local stakeholders. 

Secure Additional Funding: Seek sponsorships or grants from private organizations to expand your lab. 

Promote Peer Learning: Encourage students to share knowledge and work on collaborative projects.