05-10-2009, 09:01 PM
i want more full deatiled seminar
05-10-2009, 09:01 PM
i want more full deatiled seminar
10-10-2009, 11:23 AM
need full content
10-10-2009, 04:21 PM
28-01-2010, 11:31 AM
sir i want the fullreport on this topic
28-01-2010, 12:07 PM
30-06-2010, 08:42 AM
Contactless Energy Transfer System
plz give more data and links
30-06-2010, 08:48 PM
06-08-2010, 07:49 PM
new topic in paper s of ece
wanted plese sen drto momidivenkatesh[at]gmail.com
11-08-2010, 06:37 PM
we want some more detailed info regarding this topic, so that we can put a research paper on it
12-08-2010, 12:07 AM
I also want to know abt this..its an intresting topic.
12-08-2010, 08:39 AM
sir..,
i need a detailed explanation regarding this topic to present as a seminar in my college..
07-09-2010, 10:55 AM
pls send seminar ppt and report on Contactless energy transfer system
16-09-2010, 12:36 PM
i want to know more on contactless energy transfer .plz mail me at cute.bhardwaj[at]gmail.com
25-09-2010, 10:09 AM
for more information about Contactless Energy Transfer please follow the links:
https://seminarproject.net/Thread-co...orld--4329 https://seminarproject.net/Thread-contac...bile-world
25-09-2010, 10:16 AM
CONTACTLESS ENERGY TRANSFER ABSTRACT
In this paper a new topology for contactless energy transfer is proposed and tested that can transfer energy to a moving actuator using inductive coupling. The proposed topology provides long-stroke contactless energy transfer capability in a plane and a short-stroke movement of a few millimeters perpendicular to the plane. In addition, it is to lerant to small rotations. The experimental setup consists of a platform with one secondary coil, which is attached to a linear actuator and a 3-phase brushless electromotor. Underneath the platform is an array of primary coils that are each connected to a half-bridge square wave power supply. The energy transfer to the electromotor is measured while the platform is moved over the array of primary coils by the linear actuator. The secondary coil moves with a stroke of 18cm at speeds over 1m/s, while up to 33W power is transferred with 90% efficiency.
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