Santa Clara, Calif. - The WHDI
(Wireless Home Digital Interface) standard for streaming uncompressed 1080p
video around the house will enter the 3D era in the fourth quarter when the
WHDI Consortium promises an update that adds wireless 3D streaming.
The update to the 1.0
standard will support all of the 3D formats supported by the wired HDMI 1.4a
standard, and products incorporating the update could appear as soon as
January's CES, consortium president Les Chard told TWICE.
The 3D update will be followed in the second quarter of 2011 by
WHDI 2.0, which will add support for 2Kx4K HD resolution with up to four times
the resolution of standard Blu-ray 1080p at 2,160x4,096 pixels, the consortium
said. The 2.0 spec will also reduce power consumption to make WHDI more
suitable than before for use in battery-operated portable devices, and it will
make it easier to combine WiFi 802.11n and WHDI on a single chip, Chard added.
Products incorporating WHDI 2.0 could hit the market by the third
quarter of 2011, he continued.
WHDI 1.0 was finalized
late last year, though pre-standard WHDI was already appearing in Sony and
Philips TV products, Zinwell and
Gefen wireless dongles, and an IDX professional video camera, the consortium
said. LG recently switched to 5GHz-band WHDI from a competing 60GHz in-room
wireless HD technology, Chard noted, because of the competing technology's
With WHDI 1.0, a settop box or other video source is able to
transmit a 1080p/60Hz Deep Color video stream more than 100 feet through walls
to multiple TVs around the house. Likewise, because the technology supports low-power consumption modes for portable
devices, battery-operated laptops and cellphones could stream 1080p
video to a display or receive 1080p video from a source within the home.
The addition of 3D support and 2.0 improvements will not reduce WHDI's
range nor reduce the number of simultaneous streams of different sources (13 or
more) that could occur in a house, Chard said, because "a lot of packets in 1.0
The 2.0 standard
will also enhance WHDI's benefits in portable battery-operated devices, the
consortium noted. With 2.0, power consumption will be reduced to less than 1
watt from less than 2 watts. Combined with the greater ease of combining WiFi
and WHDI on a single chip, Chard said, WHDI will migrate faster to such mobile
devices as cellphones to stream stored HD video to a compatible TV or to play
cellphone-stored games on a TV with no latency. "You can turn your cellphone
into a Wii," he said.
The 2.0 spec will
leverage many of the shared attributes of 802.11n and WHDI to facilitate WiFi/WHDI
integration, he said. Both technologies, for example, use OFDM (orthogonal
frequency division multiplexing) and MIMO (multiple input multiple output)
transmission technologies, and both operate in the 5GHz unlicensed band (though
802.11n is also permitted to operate in the 2.4GHz band). HHDI 2.0 and 802.11n
could operate simulatenously in the same channel
Also to facilitate
cellphone adoption, the 2.0 spec will permit WHDI processing on a cellphone's
DSP chip, and with "small hardware modifications" to the cellphone, cellphone
makers will need only load WHDI software onto their DSP chips to deliver WHDI
at a "very reduced cost," Chard said.
WHDI 1.0 solutions
for portable solutions have already appeared in the form of a USB dongle for
laptops and companion adapter for TVs. Brightview offers one such solution in
the U.S., and Asus has one in the works, Chard said. In the fourth quarter of
this year, he said he expects top-tier PC suppliers to offer 1.0 dongles for
laptops, notebooks and netbooks, with such devices arriving with embedded WHDI
1.0 in the first quarter of 2011.