Breaking News
Design How-To

Evaluate home video entertainment wireless network options

NO RATINGS
Page 1 / 2 Next >
More Related Links
View Comments: Newest First | Oldest First | Threaded View
Chee Choy
User Rank
Author
re: Evaluate home video entertainment wireless network options
Chee Choy   12/20/2012 11:58:39 PM
NO RATINGS
A digital wireless camera system that can be a home movie maker, video conferencing, local or remote video surveilliance, baby monitor, video intercom, live outdoor telecast. Standard wireless digital camera system only USD120.00 Software included http://professionalre.blogspot.com

Kinnar
User Rank
Author
re: Evaluate home video entertainment wireless network options
Kinnar   11/12/2010 7:40:31 PM
NO RATINGS
It would be good it the user can select the data rate to be sent over each MIMO Channel that way the product will be reusable if the product can support upto 60Mbps. Yes a product which can support 60Mbps as of today will be too costly and it should surely support variable data rate which can be setup by the user.

agk
User Rank
Author
re: Evaluate home video entertainment wireless network options
agk   11/8/2010 10:47:50 AM
NO RATINGS
Home video wireless technology is highly usefull in a hose with multiple television screes. The cable we run can be avoided and positioning of the TV sets can be changed now and then to uplift the mood of viewing. The 4 x 4 MIMO technology is ultra wide band technology and can become a usefull gadget in home when it is made in large scale to the point of economy

Most Recent Comments
michigan0
 
SteveHarris0
 
realjjj
 
SteveHarris0
 
SteveHarris0
 
VicVat
 
Les_Slater
 
SSDWEM
 
witeken
Most Recent Messages
9/25/2016
4:48:30 PM
michigan0 Sang Kim First, 28nm bulk is in volume manufacturing for several years by the major semiconductor companies but not 28nm FDSOI today yet. Why not? Simply because unlike 28nm bulk the LDD(Lightly Doped Drain) to minimize hot carrier generation can't be implemented in 28nm FDSOI. Furthermore, hot carrier reliability becomes worse with scaling, That is the major reason why 28nm FDSOI is not manufacturable today and will not be. Second, how can you suppress the leakage currents from such ultra short 7nm due to the short channel effects? How thin SOI thickness is required to prevent punch-through of un-dopped 7nm FDSOI? Possibly less than 4nm. Depositing such an ultra thin film less then 4nm filum uniformly and reliably over 12" wafers at the manufacturing line is extremely difficult or not even manufacturable. If not manufacturable, the 7nm FDSOI debate is over!Third, what happens when hot carriers are generated near the drain at normal operation of 7nm FDSOI? Electrons go to the positively biased drain with no harm but where the holes to go? The holes can't go to the substrate because of the thin BOX layer. Some holes may become trapped at the BOX layer causing Vt shift. However, the vast majority of holes drift through the the un-dopped SOI channel toward the N+Source,...

Datasheets.com Parts Search

185 million searchable parts
(please enter a part number or hit search to begin)
Like Us on Facebook
EE Times on Twitter
EE Times Twitter Feed