In the era of digital technology and automation, Printed Circuit Boards (PCB) are widely used in digital & electronics product. PCB is interlinked with the Embedded systems, Internet of Things, and Electronics hardware design. The PCB boards demand is increased in the market with competitive growth in consumer electronics and the automotive industry, thrive for making new digital products for the consumers. With IoT taking over the market, huge numbers of small products with smart features are being made. For all these products, designing circuits on small PCB is becoming a must. As India is developing in the Electronics field tremendously, there is a very good scope in this field. The size and beauty of an electronic product lie in the hand of a designer. Thus, PCB designers play a vital role in electronics. The PCB design process consists of the component placement and routing to make electrical connectivity on a manufactured printed circuit board. The specialized CAD software is used to do much of the work of layout. The printed circuit board design can be manufactured as bulk using several machines in PCB fabrication industries including drilling, punching, plating and final fabrication processes that are performed through highly automated machines. With the EDA(Electronic Design Automation) tool, we do the schematic capturing. PCB designing Software is a tool used to make the layout of the circuit of an electronic device. PCB mounts various electronic components such as resistors, capacitors, transistors and IC's. With this software, we are able to visualize and test the working of the circuit. It also facilitates the accuracy and productivity of the PCB design process. The consumer electronics industry is currently dominating the market due to the high demand for smartphones, smart home appliances and smart devices. The PCB designing field is unwavering until new products are coming into the market, the scope of PCB designing will be there.
What is wearable technology? In the era of technology and innovation, wearable sensor technology is the most prominent and demanded technology in healthcare & Automobile industry applications. These smart electronic devices can be worn and designed, embedded in cloth or can even be implanted in the user's body and controlled by either microprocessor or microcontroller. Having the ability to send and receive data through the internet. We can control this device's smartphone app, cloud computing for displaying the result. We can use numerous sensors in wearable technology like temperature sensor, pulse sensor, pressure sensor to allow them to monitor and record the human body & nature activity. There are a huge number of applications available in the market like smartwatches, smart glasses to track the human body activity including blood pressure, temperature, heartbeat, oxygen level. Why is it useful? This technology offers the user’s safety. They are also promoting healthier living as it encourages fitness, healthy eating, exercising and also medical care access. The healthcare system gives the remote monitoring of patients, wearable provides real-time access to health records and provides quicker diagnosis and treatment of conditions. Most sensors can track motion, heart, brain pulse and muscle activity. They track the number of steps you take, the calories you burn, your heart rate and how long you sleep. Fitness trackers are available in a range of prices and form factors, depending on your needs. These devices are used for tracking information on a real-time basis. The rapid acquisition of such devices placed wearable technology at the forefront of the IoT. The growth of mobile networks enabled the development of this technology. This technology is evolving rapidly into an important category of IoT. The engineers are working to make it easier to use and less costly.
What exactly is the role of an embedded systems designer? To answer that question, we need to first know what embedded systems are. In simple terms, embedded systems can be defined as a system that is a combination of computer memory, processor, input/output peripheral devices that have some specific purpose. An embedded engineer works largely on hardware, their role ranges from coding and testing to debugging mainly hardware but to some extent they work on software as well. One of the basic requirements of an Embedded systems designer or engineer is that one should be thorough with the subject. An embedded systems engineer should not only have knowledge about hardware terminologies, but an embedded systems engineer is indispensable if they have knowledge in both hardware and linking it to the software. Some of the technical knowledge that an embedded systems engineer should have are: Good understanding of electronic components. Ability to solve complex problem statements of the real world. Great expertise in programming language including data structures(C, C++, Embedded C). Great expertise & understanding of circuit design, functionality, logic flow involved in the system. Understanding of Computer Architecture, RAM/ROM memories/ and other peripheral devices. Ability to read Datasheet, Reference book for developing software. Understanding of Microcontroller and microprocessor: A sound knowledge about how to interface microcontroller and microprocessor with the different peripherals. Should know how to analyze schematics and have some knowledge about PCB designing (though it is not mandatory but will always give you an edge over others). Should have knowledge about hardware circuit design. Good command in writing code for various protocols like UART, I2C, SPI, RS232, etc. Understanding of debugging, testing and verification. Ready to adapt to new technologies.
IoT is making tasks easier and efficient with its promise of connecting machines. For engineers, the rapid adoption of IoT technology is changing the future trajectory of their careers. The IoT will replace various low-skill jobs with high-skill engineering jobs. Simultaneously, our economy is evolving into what has been called the “creative economy,” where anyone can create valuable content. IoT is the platform which has plenty of job opportunities not only for IT engineers but IoT has a great opportunity for electronics, electrical, instrumentation engineers also. Around 20 percent of logistics organisations are using drones for searching and monitoring activities. “So through IoT we want to tell every engineer that IoT has a bright future and there will be so many jobs for engineers in the coming time. IoT is the platform which will make human lives easy and without engineers, there is no world for IoT”. Tell us what you think about t “Does engineers really got a plethora of opportunities in IoT” “IoT is the great revolution in technology waiting to happen” Varun Goyal EMTECH FOUNDATION
Emtech Foundation provides the payment flexibility opportunity for Post-Graduation Certification Program. We strongly believe that money should not become a roadblock in the way of your career and learning. So, we are providing different fees option: Easy Instalments: After the initial admission fee payment, we divide the rest of the course fee into 2 equal instalments to reduce your stress of onetime payment. In essence, you pay the fee in a total of 3 instalments. Easy Payment Options: Emtech Foundation also provides the flexibility to pay through debit/credit card cards and net banking. We also accept cheques. Pre-Approved Education Loan (Financial Aid): We are strongly believed in the money should not be a roadblock in the way of your learning; we are helping to take a loan from various financial companies at a substantially lower interest rate. Fee Waiver on One-Time Payment: Emtech Foundation also offers a fee waiver option on One-time Payment. Those candidates who opt for paying the full fees in one go. With the PG certification Flexi-payment options, you don’t need to wait for fulfilling your dreams in electronics. Join Us Now! Varun Goyal Emtech Foundation
Embedded system is a combination of software and hardware to make specific purpose devices and used in a wide variety of applications such as Smart Building, Smart city, Smart Transport & Logistics, Smart Retails, etc. In Embedded System we embed software into the hardware to make specific purpose device and brain of this system is either Microcontroller or Microprocessor. General Purpose Device are those devices we can use for multiple purposes or can do multiple tasks at the same time as your Personal computer, Smartphone, Laptop, etc. Through Smart Phone, we can watch videos, send emails, chatting, calling, etc. Specific Purpose Devices are those devices used for one purpose only and can say one task at one time like Air Conditioner, Wifi Router, Virtual Reality Glasses, Microwave, Speedometer, Projector, Home Automation, etc. Varun Goyal EMTECH Foundation