International Journal of Engineering Research in Electronics and Communication Engineering(IJERECE)

Monthly Journal for Electronics and Communication Engineering

Volume3,February 2016,

Topic : Design And Development Of ARINC 717 Protocol

Authors:Smitha M R || Aparna

Abstract:ARINC has provided leadership in developing specifications and standards for avionics equipment, and one of the standard protocol used for communication bus is ARINC 717. This communication occurs between Digital flight data acquisition unit (DFDAU) and Digital flight data recorder (DFDR). The basic unit of information defined by the ARINC 717 protocol is a 12- bit word. The Programmable bit rates of ARINC 717 are 384, 768, 1536, 3072, 6144, 12288, 24576, 49152 and 98304 bits/sec (32, 64, 128, 256, 512, 1024, 2048, 4096 and 8192 words/sec). The data is serially transmitted in ARINC 717. The top level architecture of the ARINC 717 protocol has 4 modules ARINC 717 transmitter, ARINC 717 receiver, Transmit and Receive 32*12-bit FIFO to store and fetch the data, and ARINC 717 clock generation. In this proposed work a Hardware Descriptive Language (HDL) based design and development of the ARINC 717 protocol for standard data bus communication. The input data is taken from Digital flight data acquisition unit. This continuous data stream is stored in a 32*12-bit FIFO. The encoder module at ARINC 717 transmitter converts a continuous data stream into a 12 bit encoded Harvard Bi-Phase (HBP) format which are then encoded to form ARINC 717 frames. This encoded data is decoded using both Harvard bi-phase and bi-polar return to zero at the receiver. The decoded data is stored in the Receive FIFO. Then the continuous stream of output data is taken for recording in Digital flight data recorder. The design and development is done using Xilinx software..

Keywords: ARINC 717, BPRZ decoding, DFDAU, DFDR, FIFO, HBP encoding, , VHDL

Download Paper


DOI: 01.1617/vol3iss2pid108


Related Articles

Design and Implementation of nRF Based Smart Home System Using IoT

Authors: J.Krishna Chaithanya || Dr. T. Ramashri

Doi : 01.1617/vol4iss3pid024

Volume4 ,March 2016.

Real-Time Vehicle Tracking Using GSM & GPS with Location Display on Google Maps Using Raspberry Pi

Authors: J.Krishna Chaithanya || Dr. T. Ramashri

Doi : 01.1617/vol4iss3pid025

Volume4 ,March 2016.

Obstacle Avoiding Intelligent Robot

Authors: Prof.S. B. Mandlik || Miss.Kshirsagar Snehal D , Miss. Gaikwad Jyoti B , Miss.Wagh Varsha S , Miss. Ingale komal M

Doi : 01.1617/vol4iss3pid026

Volume4 ,March 2016.

Increased Learning In Retinal Blood Vessel Segmentation Approach Based on Fuzzy-C Means Clustering and Mathematical Morphology

Authors: Naluguru Udaya Kumar || Tirumala Ramashri

Doi : 01.1617/vol4iss3pid027

Volume4 ,March 2016.

A Review on Atmospheric Effects on Free Space Optical Link

Authors: Shaik.Taj Mahaboob || A.Sree Madhuri

Doi : 01.1617/vol4iss3pid028

Volume4 ,March 2016.

Efficient Medical Image Compression based on Region of Interest

Authors: S. Muni Rathnam || T. Ramashri

Doi : 01.1617/vol4iss3pid029

Volume4 ,March 2016.

CBIR Based Crack Detection System for Surface Traffic

Authors: Dr.Abraham Mathew || Dr.S. Saravanan, Dr. P. Mohanaiah

Doi : 01.1617/vol4iss3pid030

Volume4 ,March 2016.

IOT Based Digital Notice Board

Authors: K.Dinesh || M.Siva Ramakrishna

Doi : 01.1617/vol4iss3pid031

Volume4 ,March 2016.

Automatic Monitoring and Controlling of Greenhouse System using Zigbee

Authors: G. Hima Bindu || K. Lokesh Krishna , K. Hemalatha

Doi : 01.1617/vol4iss3pid032

Volume4 ,March 2016.

Hybrid Image Classification using ACO with Fuzzy Logic for Textured and Non-Textured Images

Authors: Subba Rao K || Dr. Sambasivarao N , Dr. Sammulal P

Doi : 01.1617/vol4iss3pid033

Volume4 ,March 2016.



Editor-in-Chief

Editor Image

Dr.Zhongfu Tan
National Professor,
North China Electric Power University,
CHINA


View more

IMPACT FACTOR: 3.689

ISSN(Online): 2394-6849

Google Scholar Profile

Thomson Reuters ID : q-6288-2016.
ORCiD Research ID : 0000-0001-9540-6799

All Issues


DOWNLOAD

Copy-Right Form Paper Template

ACCEPTANCE RATIO

ACCEPTANCE RATIO: 29.74%
ARTICLES PUBLISHED:0489
PAPER RECEIVED:01630
Journal Code : IJERECE
Electronic ISSN : 2394-6849
Impact Factor : 3.689
Frequency : monthly
Contact : info@ijerece.com

IFERP OTHER JOURNALS


Subscribe

           Email:

SOCIAL MEDIA