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One of the important criteria of the modern cars is digital control of the vehicle. Because of the quick development of embedded technology, the high performance embedded processor is inserted into auto industry it has low cost, high reliability and other features that meet the needs of modern automobile industry. In this project we have introduced an embedded system which is a combination of different CAN bus systems. Aasiya Aslam Tamboli | Prof. Sunil S. Shivdas "Observations of can Bus Control System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-6 , October 2018, URL: https://www.ijtsrd.com/papers/ijtsrd18897.pdf Paper URL: http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/18897/observations-of-can-bus-control-system/aasiya-aslam-tamboli
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International Journal of Trend in
International Open
ISSN No: 2456
@ IJTSRD | Available Online @ www.ijtsrd.com
Observations of cAasiya Aslam Tamboli
K.B.P College of Engineering
ABSTRACT One of the important criteria of the modern cars is digital control of the vehicle. Because of the quick development of embedded technology, the high performance embedded processor is inserted into auto industry; it has low cost, high reliability and other features that meet the needs of modern automobile industry. In this project we have introduced an embedded system which is a combination of different CAN bus systems. KEY WORDS: CAN, LM35 I. MCP 2515 Microchip technologies MCP 2515 is a controller area network (CAN).It has the ability to transmit and receive both remote and data frames. The MCP2515 has two acceptance masks and six acceptance filters that are used to clean the unwanted messages. The MCP 2515 has three pins that can be designed as general purpose inputs and two pins that are designed as digital output.The inputs are connected to switch contacts and the outputs to the LED indicators.The MCP 2515 also have internal pull-up resisitors. Before communicating with the CAN bus,MCP2515 should be properly configured.configuration is achieved by loading the control registers with the specific value. During MCP2515 initialization these valus are read via SPI interface.The MCP 2515 interfaces with microcontrollers (MCUs) via SPI i.e. serial peripheral interface.
Figure 1: MCP 2515
International Journal of Trend in Scientific Research and Development (IJTSRD)
International Open Access Journal | www.ijtsrd.com
ISSN No: 2456 - 6470 | Volume - 2 | Issue – 6 | Sep
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
Observations of can Bus Control System
Aasiya Aslam Tamboli1, Prof. Sunil S. Shivdas2 1Student, 2Professor
Engineering, Shivaji University, Satara, Maharashtra
One of the important criteria of the modern cars is digital control of the vehicle. Because of the quick development of embedded technology, the high performance embedded processor is inserted into auto
as low cost, high reliability and other features that meet the needs of modern automobile industry. In this project we have introduced an embedded system which is a combination of different
technologies MCP 2515 is a controller area network (CAN).It has the ability to transmit and
The MCP2515 has two acceptance masks and six acceptance filters that are used to clean the unwanted messages.
three pins that can be designed as general purpose inputs and two pins that are designed as digital output.The inputs are connected to switch contacts and the outputs to the LED indicators.The
up resisitors.
icating with the CAN bus, the MCP2515 should be properly configured. The configuration is achieved by loading the control
During MCP2515 initialization these valus are read via SPI interface.
microcontrollers (MCUs) via SPI i.e. serial peripheral interface.
II. SPI BUS- SPI makes use of different clock,select and data lines to choose the device you wish to talk to.SPI devices communicate in full duplex mode.The SPI bus operates with a single master device and one or more slave devices. The standard SPI interface has been modifed here which uses commom signal line for both serial in(SI) and serial out(SO) lines.These lines have been isolated from each other via resisitor.Thirequires three I/O pins to implement SPI interace. III. CAN BUS MODULE PIN OUT AND
CONNECTION-
Figure 2: CAN Bus Module
There are variety of CAN applications which include vehicles (via OBDII or J1939) and industrial monitoring and controls. The driven which has the abilty of monitoring five external inputs (i.e. twoanalog and three digital) and automatically creating messages based on their value. This node also controls two digital outputs. The system supports maximum CAN b125kbps. IV. TEMPERATURE SENSORTemperature sensor is basically used to sense the temperature. We have used a Temperature sensor named LM35. This temperature sensor has the ability to sense the temperature of the atmosphere around it
Research and Development (IJTSRD)
www.ijtsrd.com
6 | Sep – Oct 2018
Oct 2018 Page: 1609
an Bus Control System
Maharashtra, India
SPI makes use of different clock,select and data lines to choose the device you wish to talk to.SPI devices communicate in full duplex mode.The SPI bus
tes with a single master device and one or more
The standard SPI interface has been modifed here which uses commom signal line for both serial in(SI) and serial out(SO) lines.These lines have been isolated from each other via resisitor.This method requires three I/O pins to implement SPI interace.
CAN BUS MODULE PIN OUT AND
Figure 2: CAN Bus Module
There are variety of CAN applications which include vehicles (via OBDII or J1939) and industrial
The CAN node is interrupt driven which has the abilty of monitoring five
twoanalog and three digital) and automatically creating messages based on their value. This node also controls two digital outputs. The system supports maximum CAN bus speed of
TEMPERATURE SENSOR Temperature sensor is basically used to sense the temperature. We have used a Temperature sensor named LM35. This temperature sensor has the ability to sense the temperature of the atmosphere around it
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456
@ IJTSRD | Available Online @ www.ijtsrd.com
or the temperature of any machine which is connected to it or even it can give the temperature of the human body. The LM35 sensors have the outputwhich is linearly proportional to thetemperature. Temperature sensor is an analog sensor anoutput in analog form. This analog signal is fed to ADC i.e. analog to digital converter, which will convert it into digital form. Once the signal converted into analog form, the microcontroller can process the digital temperature signal as application.
Figure 3: LM35 Temperature sensor V. OUTPUT
Figure 4: Output on LCD
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
or the temperature of any machine which is connected to it or even it can give the temperature of the human
the output voltage to the Celsius
Temperature sensor is an analog sensor and gives the output in analog form. This analog signal is fed to ADC i.e. analog to digital converter, which will convert it into digital form. Once the signal is
into analog form, the microcontroller can process the digital temperature signal as per the
: LM35 Temperature sensor
Figure 4: Output on LCD
VI. CONCLUSION One of the important criteria of the modern cars is digital control of the vehicle. Because of the quick development of embedded technology, the high performance embedded processor is inserted into auto industry; it has low cost, high reliability and otherfeatures that meet the needs of modern automobile industry. In this project we have introduced an embedded system which is a combination of different CAN bus systems. The proposed high-speed CAN bus system has a practical value and significance, which sproblem of automotive system applications. In order to achieve full sharing of data between the nodes and to enhance their collaborative work, it has ARM as the main controller which makes full use of the highperformance of ARM. In practical appsystem promotes efficient data transfer among different node. Digital control of vehicle is very important criteriathis project we are introducing a system with a combination of CAN bus system, so that we reduce the wired harness, and maintenance is easy to carry out. Therefore the system becomes safe and reliable. VII. REFERENCES 1. Kumar, M., A. Verma, and A. Srividya, Response
Time Modeling of Controller Area Network (CAN). Distributed Computing and Networking, 2009: p. 163-174.
2. Tindell, K., A. Burns, and A.J. Wellings, Calculating controller area network (CAN) message response times. Control Engineering Practice, 1995. 3(8): p. 1163
3. Marwedel, P., Embedded System Design: Embedded Systems Foundations of CyberPhysical Systems2010: Springer Verlag.
4. Estrada, B. and P. Mariano, Development of uclinux Platform for Cal Poly Super Project, 2008, California Polytechnic State University.
5. Lu, Z., X. Zhang, and C. Sun. An Embedded System with uClinux based on FPGA. in 2008 Pacific-Asia Workshop on Computational Intelligence and Industrial Application, 2, 691694. 2008. Li, S., et al., Continuous and RealTime Data Acquisition Embedded
6. System for EAST. IEEE Transactions on Nuclear Science,, 2010. 57(2): p. 696
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470
Oct 2018 Page: 1610
One of the important criteria of the modern cars is digital control of the vehicle. Because of the quick development of embedded technology, the high performance embedded processor is inserted into auto
it has low cost, high reliability and other features that meet the needs of modern automobile
In this project we have introduced an embedded system which is a combination of different
speed CAN bus system has a practical value and significance, which solves the problem of automotive system applications. In order to achieve full sharing of data between the nodes and to enhance their collaborative work, it has ARM as the main controller which makes full use of the high-performance of ARM. In practical applications, this system promotes efficient data transfer among
very important criteria. In this project we are introducing a system with a combination of CAN bus system, so that we reduce
maintenance is easy to carry out. Therefore the system becomes safe and reliable.
Kumar, M., A. Verma, and A. Srividya, Response-Time Modeling of Controller Area Network (CAN). Distributed Computing and Networking,
Tindell, K., A. Burns, and A.J. Wellings, Calculating controller area network (CAN) message response times. Control Engineering
(8): p. 1163-1169.
Marwedel, P., Embedded System Design: Embedded Systems Foundations of Cyber-
2010: Springer Verlag.
Estrada, B. and P. Mariano, Development of uclinux Platform for Cal Poly Super Project, 2008, California Polytechnic State University.
Lu, Z., X. Zhang, and C. Sun. An Embedded System with uClinux based on FPGA. in 2008
Workshop on Computational Intelligence and Industrial Application, 2, 691-
Li, S., et al., Continuous and Real-Time Data Acquisition Embedded
System for EAST. IEEE Transactions on Nuclear (2): p. 696-699.
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456
@ IJTSRD | Available Online @ www.ijtsrd.com
7. LI, Q. and X. ZHANG, Development of Embedded RTOS uClinux on ARM. Journal of Changchun University of Science and Technology (Natural Science Edition), 2009. 32267.
8. Li, M., Design of Embedded Remote Temperature Monitoring System Based on Advanced RISC Machine. Electrotechnics Electric, 2009.
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
velopment of Embedded RTOS uClinux on ARM. Journal of Changchun University of Science and Technology
32(2): p. 264-
Li, M., Design of Embedded Remote Temperature Monitoring System Based on Advanced RISC
technics Electric, 2009. 6.
9. Zhang, Q.S., et al., Application of Embedded Technology for Induced Polarization Instrument. Advanced Materials Research, 2012. 229.
10. Prodanov, W., M. Valle, and R. Buzas, A controller area network bus transceiver behmodel for network design and simulation. IEEE Transactions on Industrial Electronics, 2009. 56(9): p. 3762- 3771. 442
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470
Oct 2018 Page: 1611
Zhang, Q.S., et al., Application of Embedded Technology for Induced Polarization Instrument. Advanced Materials Research, 2012. 383: p. 224-
Prodanov, W., M. Valle, and R. Buzas, A controller area network bus transceiver behavioral model for network design and simulation. IEEE Transactions on Industrial Electronics, 2009.
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