Pulse or digital communications – Transceivers – Modems
Reexamination Certificate
1999-01-20
2003-10-21
Liu, Shuwang (Department: 2634)
Pulse or digital communications
Transceivers
Modems
C375S219000, C375S233000, C375S290000
Reexamination Certificate
active
06636560
ABSTRACT:
FIELD OF THE INVENTION
This invention relates generally to data communications over public switched telephone networks (PSTN)
10
(refer to
FIG. 3
for an exemplary system useful for implementing the present invention) and similarly operated private branch exchanges (PBX) and other like networks; and, in particular, to the high speed transmission of digital data using the voiceband frequencies over such networks.
BACKGROUND OF THE INVENTION
Transmissions over the public switched telephone network (PSTN)
10
using voiceband frequencies are described in Townshend U.S. Pat. Nos. 5,801,695; 5,809,075; and 5,835,538 relating to “High Speed Communications System for Analog Subscriber Connections,” and Internet white papers of 3Com U.S. Robotics on x2™ technology (http://x2.usr.com /technology/whitepapers.html) and of Rockwell Semiconductor Systems on K56flex™ technology (http:// www.nb.rockwell.com/K56flex/whitepapers/k56whitepaper.html), the entireties of which (including entireties of all references cited therein) are incorporated herein by reference.
The feature that distinguishes x2™ and K56flex™ modem technologies from xDSL (digital subscriber line) technologies is its use of the line card
12
presently used in the local exchange
14
for digitization of voice as a data symbol generator. In this manner, a digital modem effectively sits in the local exchange
14
without any new equipment being placed in the exchange and with the local telco (telephone company) being unaware of the use of its line card
12
as a symbol generator. An important aspect of this idea is that the transmitter physically resides in the service provider's building and that only the final conversion to symbols is done by the line card
12
. If there is a lot of redundancy in the symbols, bandwidth will be wasted on the trunk. For instance, if the modulation requires an 8-bit symbol to transmit 6 bits of data then for every 8 bits transmitted over the digital telephony trunk there will be two “wasted” bits that do not contribute to the data rate of the modem. In the x2 technology, data rates of 56kbps are claimed for the standard digital telephone call rate of 7 bits (one bit often being lost to telco signaling) at 8 kHz. There is therefore no redundancy in the bits sent from the remote transmitter in the service provider
16
, over the telco trunk digital network, to the line card
12
. Therefore, without changing the line card
12
, we cannot increase the “arithmetic” capacity above 56 kbps. By arithmetic capacity we mean the capacity obtained by counting the number of bits per second used to generate the signal put onto the wire by the line card
12
. The Shannon capacity of the wire is probably much higher, but to get closer to this capacity we require to transmit a signal onto the wire with more degrees of freedom than 56 kbps.
SUMMARY OF THE INVENTION
In order to increase the capacity further, we modify the line card
12
in the local exchange
14
to increase the arithmetic capacity of the system in a manner that minimizes the increase in cost of the line card
12
. We propose increasing the sampling rate of the card
12
as a method for increasing the data rate of the modem. This method comes at a minimal cost as TI (Texas Instruments') chipsets in the line cards
12
presently in use are capable of higher sampling rates and the data rate can be increased over band limited channels by using partial response techniques to send data symbols above the Nyquist limit.
REFERENCES:
patent: 3388330 (1968-06-01), Kretzmer
patent: 4558454 (1985-12-01), Hills et al.
patent: 4720839 (1988-01-01), Feher et al.
patent: 5528625 (1996-06-01), Ayanoglu et al.
patent: 5801695 (1998-09-01), Townshend
patent: 5809075 (1998-09-01), Townshend
patent: 5835538 (1998-11-01), Townshend
patent: 6052412 (2000-04-01), Ruether et al.
Wu et al., Class-IV PRS above the Nyquist rate, IEE Proceedings, vol. 135, No. 2, pp. 183-191, Apr. 1988.*
Internet white paper of 3Com U.S. Robotics on x2™ technology(http://x2.usr.com / technology / whitepapers.html).
Internet white paper of Rockwell Semiconductor Systems on K56flex ™ technology(http: / / www.nb.rockwell.com / K56flex / whitepapers / k56whitepaper.html).
“Contrasting Performance of Faster Binary Signaling with QAM”, AT&T Bell Laboratories Technical Journal, vol. 63, No. 8, Oct. 1984, pp. 1419-1445, (Foschini, G.J.).
Brady III W. James
Liu Shuwang
Telecky , Jr. Frederick J.
Texas Instruments Incorporated
Williams Tammy L.
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