Computer graphics processing and selective visual display system – Display driving control circuitry – Display power source
Reexamination Certificate
2001-09-04
2002-12-10
Shalwala, Bipin (Department: 2673)
Computer graphics processing and selective visual display system
Display driving control circuitry
Display power source
C345S204000
Reexamination Certificate
active
06492984
ABSTRACT:
BACKGROUND OF THE INVENTION
Most computer systems consist of a processor unit and a number of peripheral devices coupled to the processor unit. The peripheral devices send and receive information to and from the processor and, typically, each peripheral device is separately connected to the processor unit by an individual set of cables, with each set of cables having a number of wires. The wires may be used for transferring information from the processor unit to the peripheral, as in the case of digital pixel data transferred to an active matrix flat panel display; or, the wires may used for transferring digital information from the peripherals to the processor unit, as in the case of digital data transferred from a keyboard or mouse to the processor unit.
FIG. 1
illustrates a conventional computer system
100
having a processor unit
101
and a number of peripherals coupled to the processor. The peripherals include a keyboard
102
, a mouse
103
, a display
104
, a digital camera
105
, and a pair of speakers
106
a
and
106
b
. As shown in
FIG. 1
, each of the peripherals is coupled to the processor unit through an individual cable assembly. Accordingly, the display
104
is coupled to the processor
101
through cable assembly
110
, the keyboard
102
is coupled to the processor
101
through cable assembly
111
, the mouse
103
is coupled to the processor
101
through cable assembly
112
, the digital camera
105
is coupled to the processor
101
through cable assembly
114
, and the pair of speakers
106
a
and
106
b
are coupled to the processor
101
through cable assemblies
115
a
and
115
b
. As can be seen from
FIG. 1
, this conventional computer system
100
requires a large number of wires to be coupled directly to the processor
101
. This configuration is undesirable for a myriad of reasons which should be obvious to one of ordinary skill in the art.
In order to reduce the number of wires that the user must connect to a processor unit, information may be sent to and from a hub system where it is then routed to the proper peripheral. The hub system may be designed as a stand alone device or it may, preferably, be implemented within one of the peripherals, with each of the other peripherals being coupled thereto.
FIG. 2
illustrates a computer system
200
having a hub system
201
coupled to a processor unit
202
. In the prior art embodiment illustrated in
FIG. 2
, the hub system
201
is implemented within a display
203
and is fully integrated within the display
203
. Additional peripherals, such as a keyboard
204
, a mouse
205
, a digital camera
206
and a pair of speakers
207
a
and
207
b
are each coupled to the hub system
201
. The hub system
201
acts as a pass through port or routing system. As shown in
FIG. 2
, the processor unit
202
and the hub system
201
are coupled together by two different cable assemblies
210
a
and
210
b
. One of the cable assemblies
210
a
is used for transferring digital pixel data to display
203
, and the other cable assembly is used for serially communicating digital data back and forth between the processor unit
202
and the hub system
201
. Digital pixel data intended to be displayed is received over the first cable assembly
210
a
, retained, and properly processed for display by the display
203
. However, the serial digital data intended for any of the other peripherals is received over the second cable assembly
210
b
, passed through the hub system
201
, and routed to the proper peripheral. Accordingly, each of the other peripherals sends information to the processor unit
202
or receives information from the processor unit
202
through the hub system
201
over cable assembly
210
b
; while the display
203
receives digital pixel data over cable assembly
210
a.
In one prior art embodiment, the cable assembly
210
a
will include four twisted wire differential pairs. This configuration is common in a computer system which uses TMDS communications for the transfer of digital pixel data from the processor unit
202
to the display
203
. In a TMDS system, a single twisted wire differential pair is used for each of the primary red, green and blue pixel data streams and a fourth twisted wire differential pair for transmitting a clock signal. Alternatively, the cable assembly
210
a
may include more than four twisted wire differential pairs depending upon the type of communications protocol used for transferring the digital pixel data. For example, a system which uses an LVDS communications protocol would require five twisted wire pairs for transferring the digital pixel data to the display
203
.
FIG. 3
illustrates a prior art system for communicating digital pixel data over a first cable assembly
210
a
in a first direction from processing unit
202
to display
203
; and, for communicating digital data over a second cable assembly
210
b
in a second direction from any of the peripherals coupled to the hub system of display
203
to processing unit
202
. As shown, a transmitter
301
is implemented within the processor
202
for transmitting digital pixel data from the processor
202
to the display
203
. A receiver
302
is implemented within the display
203
having a hub system for receiving digital pixel data for display from the processor
202
. As indicated earlier, in a system which utilizes a TMDS communications protocol for transferring digital pixel data to display
203
, cable assembly
210
a
is actually comprised of four twisted wire pairs, with a first twisted wire pair
305
a
used for transmitting red pixel data from the processor
202
to display
203
, a second twisted wire pair
305
b
used for transmitting green pixel data from the processor
202
to display
203
, and a third twisted pair
305
c
used for transferring blue pixel data from the processor
202
to display
203
. The fourth twisted wire pair
305
d
is used for routing a clock signal from the processor
202
to the display
203
for synchronizing the digital pixel data at the receiver
302
. Alternatively, the system may use any other appropriate communications protocol for transferring digital pixel data to the display
203
, in which case the number of twisted wire differential pairs (or single wires) coupled between the processing unit
202
and the display
203
may vary.
Referring again to
FIG. 2
, cable assembly
210
b
will also include multiple wires for transmitting digital data to the processor
202
from each of the peripherals coupled to the hub system of display
203
. These wires may use any one of various communications such as Universal Serial bus. The number of wires used in cable assembly
210
b
is dependent upon the particular system configuration. For example, it is desirable to be able to transmit digital data from the digital camera to the processor, while also transmitting data from the mouse or keyboard and accordingly multiple wires are required. Accordingly, as shown in
FIG. 3
, the processor unit
202
further includes a receiver
310
, while the display
203
with hub system includes a transmitter
315
. The transmitter
315
of the display
203
with hub system routes digital information incoming from the other peripherals coupled to the display
203
to the receiver in the processor
202
. The prior art embodiment in
FIG. 3
shows three twisted wire differential pairs
306
a-c
which may be used for communicating digital data from the peripherals coupled to the hub system of display
203
to the processing unit
202
. It is understood, that in the prior art, any number of twisted wire pairs may be used for transferring such data. In the prior art embodiment illustrated in
FIG. 3
, the transmitter
315
generates its own clock reference signal on line
306
c.
While the computer system illustrated in
FIG. 2
may reduce the overall number of cable assemblies coupled directly to the processor
202
, it is still undesirable because it requires a large number of wires. Accordingly, what is needed is a simpler system for linking the processor unit with the hub syst
Patel Nitin
Shalwala Bipin
Silcon Image, Inc.
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