In response to user requirements that are rapidly expanding in scope, Renesas Electronics offers microcontroller and microprocessor products that provide excellent expandability while allowing customers to make full use of existing resources.
Available in a wide array of memory and package options, Renesas microcontrollers and microprocessors are fast, highly reliable, low in cost, and deliver eco-friendly performance.
Incorporating the latest process technology, which enables integration of large-capacity flash memory, they are used in a wide array of applications, including demanding fields requiring high quality and high reliability, such as the automotive industry.
There is a robust support system in place to help reduce development costs and reduce the time required for development. It consists of a variety of development tools, including products from other companies, backed by extensive technical documentation, software libraries, and active user communities. As the world's number one MCU/MPU vendor, Renesas Electronics provides the best and most powerful solutions based on a wide selection of microcontrollers (MCUs) and microprocessors (MPUs).n
Throughout a development process of control systems, control engineers deal with challenges like shorter development time, higher quality and flexibility requirements and reusability of the control code. Since existing technologies and approaches are limited by their effectiveness, new approaches are needed A programmable logic controller (PLC) is a digital computer designed to resist hard conditions of the industrial environment. It has been an integral part of factory automation and industrial process control for decades. They control a wide sort of applications from simple lighting functions to chemical processing plants. PLCs are demanded to work flawlessly for years in industrial environments that are hazardous to the electronic components that modern PLCs are made from. PLCs must be robust and designed for immunity to electrical noise, resistance to vibration, impact, extended temperature ranges and moisture. A PLC is a hard real-time system. Output must be produced in response to input conditions within a limited time. Otherwise, an unintended operation will result. It can cause many damages
IOT based theft detection project using Renesas where image processing is use on live video to detect theft using motion and also highlight the area where motion occurred. This system secures offices/homes from theft by instantly detecting theft as well as allowing user to view the theft details thereby highlighting the theft details and saving the video in a usb drive. In this system we use a camera along with raspberry pi along with a circuit with LCD display IR for night vision and USB drive for storage. The system is powered y a 12V power supply. As soon as camera motion is detected in camera footage the system uses image processing to detect exact area of motion occurrence and highlights it accordingly. The system now transmits the images of the occurance over IOT to be viewed by user online. We here use IOT Gecko to develop the online system. Also it stores the footage in a USB drive for further reference. The user can now decode the data sent online using IOT Gecko IOT system to view the images of the motion occurance live remotely over internet. Thus the system provides an innovative approach to theft detection using IOT
Frauds related to the ATM (Automatic Teller Machine) are increasing day by day which is a serious issue. ATM security is used to provide protection against these frauds. Though security is provided for ATM machine, cases of robberies are increasing. Previous technologies provide security within machines for secure transaction, but machine is not neatly protected. The ATM machines are not safe since security provided traditionally were either by using RFID reader or by using security guard outside the ATM. This security is not sufficient because RFID card can be stolen and can be misused for robbery as well as watchman can be blackmailed by the thief. So there is a need to propose new technology which can overcome this problem. This poject proposes a system which aims to design real-time monitoring and controlling system. The system is implemented using Renesas and fingerprint module which make the system more secure, cost effective and stand alone. For controlling purpose, Embedded Web Server (EWS) is designed using Renesas which serves web page on which video footage of ATM center is seen and controlled. So the proposed system removes the drawback of manual controlling camera module and door also this system is stand alone and cost effective.
This project presents a system with high speed of operation for an advanced agriculture process which
includes cultivation based on robotic platform. The robotic system is an electromechanical (conveys a sense that it has agency of its own) and artificial agent which is steered by DC motor which has four wheels. The farm is cultivated by the machine, depending on the crop considering particular rows & specific columns. The infrared sensor detects the obstacles in the path and it also senses turning position of vehicle at end of land. The seed block can be detected and solved using water pressure. The machine can be controlled remotely and solar panel is used to charge DC battery. The Renesas is used to control and monitor the process of system motion of vehicle with the help of DC motor. The result of implemented unit is also presented.
A groundnut harvesting machine was designed and fabricated. The optimum machine diggers were The present system for groundnut harvesting involves only human labor. That is the main
problem we are now facing, and it has been rectified in this project. It is the time consuming
and tedious process. The harvested crop has to be manually cut down to separate the seeds. Here in
this system, a robot is made that can harvest the groundnut plant. The whole system is controlled by
the microcontroller Atmega8. The system operates independently. It automatically harvest the crop.
We can adjust the height of the cutter. selected.Agricultural production must double by 2050 in order to meet the expected food demand due to population growth.Precision agriculture is the key to improve productivity and efficiency in the use of resources, thus helping to achieve this goal under the diverse challenges currently faced by agriculture mainly due to climate changes, land degradation, availability of farmable land, labor force shortage, and increasing costs. Here we have proposed a modern technology for groundnut harvesting.
We are surrounded by smart devices capable of making decisions with minimal human intervention. Our home can also be made smart by implementing real-time home automation systems. It monitors parameters like power consumption and human presence. Home automation may include centralised control of electrical devices including lightings, appliances and security. Presented here is a touch-control based home automation system that can control up to six electrical devices. It also has a separate keyboard interface module for troubleshooting and system settings
This is an online blood bank management system that helps in managing various blood bank operations effectively. The project consists of a central depository containing various blood deposits available along with associated details. These details include blood type, storage area and date of storage. Maintenance and the monitoring of blood deposits become easy with the help of this system. The project is an online system that provides an option to check the availability of the required blood group within the blood bank. Moreover, the system also has added features such as patient name and contacts, blood booking and requirement of blood group is posted on the website to find available donors for a blood emergency. This online system is developed on .net platform and supported by an Sql database to store blood and user specific details.
Nowadays, controlling the traffic becomes major issue because of rapid increase in automobiles and also because of large time delays between traffic lights. So, in order to rectify this problem, we will go for density based traffic lights system. This article explains you how to control the traffic based on density.In this system, we will use IR sensors to measure the traffic density. We have to arrange one IR sensor for each road; these sensors always sense the traffic on that particular road. All these sensors are interfaced to the microcontroller. Based on these sensors, controller detects the traffic and controls the traffic system.
The main objective of online food ordering system is to automate the existing manual system with the help of advance computerized software so, that valuable data can be stored for longer period with easy accessing and manipulation of the same.
The registered user can access the account with valid credentials. User can surf the food items according to categories, Cart and online payment options are available to user. User can track their orders with the food details.
In Online Food Ordering System Admin can handle the functionalities like add new food items, edit/delete food items, Enable/Disable the food items according to season and availability. Admin have authority to view order details and update the delivery status of food. The payment transaction and user details are also viewable to admin.
A global positioning system (GPS) receiver uses information from the satellites to get precise geographical location. It not only gives information about location but also information like time, date, height and speed. The project here demonstrates how to get location (latitude and longitude), time, date, speed and course-angle information using a GPS receiver. It uses Renesas microcontroller to get data from the GPS receiver.
Sorting systems are used to bridge between production and packaging machinery. Sorting systems are used to sort items based on various criteria so that they can be packaged accordingly. Manual sorting is a time and effort intensive process. Automatic sorting systems allow for fast and efficient sorting of products. To demonstrate the sorting system we develop a RENESAS based sorting system project that uses pistons with color sensing system powered by RENESAS control to achieve this functionality. The system consists of a conveyor belt to carry products from one end to collection baskets. It consists a color sensor to sense the type of products using color sense, the system now utilizes 3 pistons with piping and control valves to control their operations. The system is powered by a RENESAS to control the sorting system. 3 collection baskets are used to collect samples sorted by the pistons mounted parallel to each one. The RENESAS coordinates with sensors and piston valves in order to achieve the desired functionality and demonstrate the fully automated product sorting system.
Automatic Railway Safety System can sense the presence of fire and smoke and generate a series of alarm driven events after it. When the fire is detected it turns on a motor which is depicted in the project as breaking system or chain pulling mechanism. Thus by this the train can be stopped and the passengers and other payloads can be safeguarded thereafter. Along with breaking, the system sounds a buzzer that would alert nearby people around it so that they can be cautious about the presence of fire in the Train. Also, an SMS is sent to the Railway Authorities which will help them to take quick decisions to take control of the fire and in evacuating the Train. Hence this project offers a very robust mechanism for safety in the Railways which works automatically with the help of RENESAS and sensors
Monitoring a patients health status requires constantly measuring his/her pulse rates. So here we propose a battery powered wearable health monitoring system that constantly monitors patient heart pulses and displays it to user through a wearable band. The system makes use of heart rate sensor to read user pulses and then display it on a display. Also it transmits these values over to the users android phone through Bluetooth module for storing data on the phone. Our system uses an Renesas controller based circuit with sensor and Bluetooth circuitry that is powered by a 9V battery to achieve this task. This system will help many in keeping track of their health and staying fit by tracking their health stats on a phone.
Latest Topics 2020
This project is used for automatically close or opens the mobile platforms in between the track trains. Normally the mobile platform connects the two platforms through which the passenger can walk on the platform to reach on the next platform Sensors are placed on the two sides of track. If the train reaches one sensor the mobile platform will automatically close and allows the train to go through the tracks and then when the train leaves the second sensor the mobile platform will automatically open the bridging platforms. The PLC will sense the presence of train by using infrared sensor. So on sensing the train on one path controller will give pulses to the stepper motor to close the mobile platform automatically.
Nowadays in rural area the cowsheds are located at the farm area where it is difficult to take care of the cows. If we assume that we can use manpower to keep take care of it but it will leads to increase the cost requirement for it. Hence we have included all the things that required doing in cowshed. A modern cowshed contains a large number of autonomous and semi-autonomous systems. These systems aim to reduce the amount of human resources and reduce time requirement for keeping eye on the Cowshed. This report deals with the system of an automated feeding of cows, providing drinking water , keeping cowshed clean as well as the safety regarded precaution taken here for reduce the labor cost or to reduce the manpower requirement. This all automated process is controlled with the programmable logic controller (PLC).
Liquid filling machine is used in beverage and glassing industries. Some of the filling machine is commercialized as water vending machine where by Reverse Osmosis water can be brought from by using money. The machine found in the market is high in price, requires complex changes in hardware and program configuration if varied liquid volume is required to be filled and most of the time; it is not fully automatic. The purpose of this project is to develop an automatic liquid filling machine. Microcontroller is used as the controller to control the automatic operation of this machine where the machine consists of conveyor system and filling stations. Microcontroller is selected as the controller because it is easier to learn and the compact size makes it easier to attach it with the system. The automatic liquid filling machine is developed to be lower in price compare to the other filling machines in the market. The machine is also easy to operate and user friendly, where simple steps are needed to operate the machine. The machine controller is also portable and can be attached with conveyor system or can be left standalone. Key Words: Glass Holder, conveyor motor , conveyor belt, relay, IR sensor, solenoid valve, Tank , RENESAS RL78.
In this project we are using vibration sensor. It is a digital sensor. In normal condition output is zero volt. Vibration is occurred 5V is occurred at vibration sensor output this model output goes to the 5 volt relay circuit this relay circuit basically used for converting 5Vsupply to the 24 volt supply to the PLC so when vibration occurs relay will turn on and it will give to the input Renesas 24 volt DC any normal condition release of and Renesas input give zero volt PLC is detecting the output of vibration sensor and turn on the buzzer so it will give the audio alert when vibration is detected.Second sensor is proximity sensor it will detect the presence of the obstacle or person. The proximity sensor output goes to the relay board and when the obstacle or person. The proximity sensor output goes to the relay board and when the obstacle present in front of the sensor at that time output of the sensor is 5 volt and in normal condition means obstacle is not present front of the sensor at that time output of sensor is zero. When obstacle/person detected at that time proximity output goes to 5V this output give to the relay board. In this circuit relay used for converting supply 5 volt to 24 volt DC to the PLC an obstacle is present at that time PLC get input 24 volt DC with the help of relay circuit PLC continuous monitoring the output of the proximity sensor and after detecting the person PLC turn on the output LED lights show with the help of this sensor we can save the electricity we can easily use this features for energy saving purpose. The third and last sensor is a level sensor it is basically used for detection the water level when water is present the motor is turn on output of Level sensor directly goes to the PLC because it is a digital sensor so PLC is continuous monitoring the water level and depending upon the level means water level is full at that time motor will off automatically and water level is low then motor is on so it is a basically application of automatic water level controller system so it will save the water.