trasfer jet communication

TRANSFER JET COMMUNICATION By,

M.Anandhi.

CONTENT • Introduction• Need for Transfer JET• Transfer JET coupler• Transfer layer• Sequence communication• Working principle• Transfer jet Vs. Bluetooth• Transfer JET camera• TOSHIBA( TC35420)• Features• Applications• Conclusion

INTRODUCTION

TRANSFER JET COMMUNICATION:

• Bringing close together two devices.

• Point to point communication

NEED FOR TRANSFER JET• Securable, • Speed of 560 mbps through a simple touch

Speed of UWB

Ease of NFC

TRANSFER JET COUPLER• It is based on electric induction field as it opposes radiation field..• It generates longitudinal electric field.•Hence there is no polarisation and device align at angle .• Inductive power dissipation.

FIELD STRENGTH• Far field strength =1/ range•Near field strength=1/(range)^2• Far Field->radiates power•Near field->there is no radiation of power , stores power.

WORKING •Two devices have chip embedded inside.•It uses electric induction field as a medium.• Vertically vibrating between the two coupler•It loses power in 4.5 ghz bandwidth.

SEQUENCE COMMUNICATIONTypes of modes• Stationary devices --initiator mode • Mobile device --responder mode

TRANSFER JET VS BLUETOOTH• Minimize the distance.• There is no risk of un authorized.•Minimize the data leakage.• Power dissipation.

TRANSFER JET CAMERA

• It is possible to charge the battery of the camera just by placing on the cradle• And if the camera placed on the cradle with its power on, it is possible to transmit pictures and movies to a personal computer by using transfer jet while charging the battery.

TOSHIBA(TC34520)• Transfer jet made up of some biggest name in

technology called Toshiba• Not require external ROM or oscillator• This IC is embedded in a substrate using Murata’s

component Embedding technologies enabling the realisation of industries smallest dimension• This implements transfer jet functions with wireless,

digital signal processing , host – interface and memory interface function in a single chip using RF – CMOS process .

FEATURES

• Safe & Flexible • One chip transceiver • Built in RF parts , RF switch , matching circuits and LNA

(low noise amplifier)• Very high speed host interface• Low power consumption• Single power supply• Compact and low profile package

USE CASES…• Printing photos: photos can be printed by touching the

printing device• Saving videos: data can be saved by touching the

device in which data is to be saved.• Getting information:

information can be obtained by touching the device.

APPLICATIONS

CONCLUSION• Transfer jet is a

technology, still in the works by Sony and few other Japanese firms

• It has a data throughput of 375 Mbps which is higher than the Bluetooth and or even NFC.