Wireless direct sequence spread spectrum digital cellular telephone system
First Claim
1. In a wireless telephone system comprising a base station equipped with multiple transmitting/receiving units, and a multiplicity of user handsets equipped with single transmitting/receiving units, the improvement characterized byeach transmitter/receiver units comprising:
- analog-digital and digital-analog conversion means to convert analog voice signals to digital form to form digitized voice signals and convert digital signals to analog voice signals respectively;
a source of pseudo-noise digital signals whose signal pattern repeats with a specified period;
means to modulate said digitized voice signals with said pseudo-noise digital signals and produce thereby a baseband spread-spectrum signal, including means to demodulate said baseband spread-spectrum signal, using the same pseudo-noise signal, to produce digital voice signals from received spread-spectrum signals;
each user handset unit employing a unique pseudo-noise digital signal identical to that of a transmitter-receiver in the base station unit;
means in each handset and in the base station to generate a single radio-frequency carrier whose nominal frequency is selected in uniform spaced increments of the spread-spectrum signal across an available communications band;
means in each transmitter/receiver to modulate said carrier frequency with said spread-spectrum signal to produce a transmission signal, and means to demodulate such a transmission signal to produce a baseband spread-spectrum signal;
antenna means in each handset and base station unit to transmit or receive said transmission signal;
said base station, incorporating one transceiver for each active user handset.
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Accused Products
Abstract
The present invention is directed to novel implementation techniques which makes orthogonal CDMA practical in an a short range mobile telephone environment where significant multipath fading exists. Specifically, novel techniques for establishing the time base, frequency, and power control necessary to achieve orthogonality. Use of a high power sounding burst on the outbound link permits: 1) antenna diversity selection to minimize the probability of a faded condition, 2) local frequency locking at the subscriber terminal which avoids the requirement for a costly precision frequency standard, and 3) essentially instantaneous inbound power control based on the outbound receive signal level. This is effective since time division duplexing is used and both transmission and reception take place on the same frequency. With the short frame structure and unique placement of the sounding burst the correlation between the outbound and inbound path losses is very high. Thus, the signal structure and control algorithms result in a greatly reduced signal level range at the base station/PBX to achieve high efficiency in a orthogonal CDMA system. Real world effects such as filtering, multipath time spread, and time base error destroy orthogonality and introduce a degree of cross coupling between supposedly orthogonal channels. Thus, the system provides accurately controlled power levels in this highly dynamic environment.
265 Citations
15 Claims
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1. In a wireless telephone system comprising a base station equipped with multiple transmitting/receiving units, and a multiplicity of user handsets equipped with single transmitting/receiving units, the improvement characterized by
each transmitter/receiver units comprising: -
analog-digital and digital-analog conversion means to convert analog voice signals to digital form to form digitized voice signals and convert digital signals to analog voice signals respectively; a source of pseudo-noise digital signals whose signal pattern repeats with a specified period; means to modulate said digitized voice signals with said pseudo-noise digital signals and produce thereby a baseband spread-spectrum signal, including means to demodulate said baseband spread-spectrum signal, using the same pseudo-noise signal, to produce digital voice signals from received spread-spectrum signals; each user handset unit employing a unique pseudo-noise digital signal identical to that of a transmitter-receiver in the base station unit; means in each handset and in the base station to generate a single radio-frequency carrier whose nominal frequency is selected in uniform spaced increments of the spread-spectrum signal across an available communications band; means in each transmitter/receiver to modulate said carrier frequency with said spread-spectrum signal to produce a transmission signal, and means to demodulate such a transmission signal to produce a baseband spread-spectrum signal; antenna means in each handset and base station unit to transmit or receive said transmission signal; said base station, incorporating one transceiver for each active user handset. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. In a wireless telephone system comprising a base station equipped with multiple transmitting/receiving units, and a multiplicity of user handsets equipped with single transmitting/receiving units, the improvement comprising:
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each transmitter/receiver unit comprising; analog-digital and digital-analog conversion means to convert analog voice signals to digital form to form digitized voice signals and convert digital signals to analog voice signals, respectively; a source of pseudo-noise digital signals whose signal pattern repeats with a specified period; means to modulate said digitized voice signals with said pseudo-noise digital signals and produce thereby a baseband spread-spectrum signal, including means to demodulate said baseband spread-spectrum signal, using the same pseudo-noise signal, to produce digital voice signals from received spread-spectrum signals; each user handset unit employing a unique pseudo-noise digital signal identical to that of a transmitter-receiver in the base station unit; means in each handset and in the base station to generate a single radio-frequency carrier whose nominal frequency is selected in uniform spaced increments of the spread-spectrum signal across an available communication band; means in each transmitter/receiver to modulate said carrier frequency with said spread-spectrum signal to produce a transmission signal, and means to demodulate such a transmission signal to produce a baseband spread-spectrum signal; first antenna means in said base station unit to transmit or receive said transmission signal and second antenna means in each handset, each said second antenna means including a whip antenna and a loop antenna and means for selecting one of said loop or whip antenna according to the power of signals detected thereby; said base station, incorporating one transceiver for each user handset. - View Dependent Claims (11, 12, 13, 14, 15)
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Specification