Pulse or digital communications – Transmitters – Angle modulation
Reexamination Certificate
2000-03-03
2002-03-19
Pham, Chi (Department: 2631)
Pulse or digital communications
Transmitters
Angle modulation
C375S279000
Reexamination Certificate
active
06359937
ABSTRACT:
TECHNICAL FIELD OF THE INVENTION
The present invention relates to wireless systems and, more particularly, to a method and apparatus for performing analog mode operations in a wireless TDMA system, wherein in-phase (I) and quadrature (Q) values are used to represent audio information and data in the analog mode of operation.
BACKGROUND OF THE INVENTION
FIG. 1
illustrates a wireless system
1
. The wireless system
1
comprises a plurality of cells
2
, each of which comprises a transceiver
3
that is electrically coupled to an antenna
4
. Each transceiver
3
and its respective antenna
4
together comprise a base station. In wireless systems that utilize the well-known time division multiple access (TDMA) communications protocol, digital voice and data are transmitted using I, Q pairs. The I, Q pairs are modulated/demodulated using a modulation/demodulation technique known as quadrature phase shift keying (QPSK). This is typically viewed as a TDMA mode of operation because the I, Q pairs are used to produce bit transitions that represent the voice and data. Therefore, this type of operation will be referred to hereinafter as the TDMA mode of operation.
Many TDMA systems in use today are also capable of operating in what is typically referred to as an analog mode of operation. In the analog mode, audio and data signals are transmitted by converting digital samples representative of the signals into analog signals and by FM modulating the analog signals for transmission over air. Therefore, the analog mode utilizes FM modulation as opposed to the QPSK modulation technique utilized in the TDMA mode. The standards for implementing the analog mode and the TDMA mode in a TDMA system are set forth in the Air Interface Standard, IS-138.
It is known in TDMA systems to utilize one set of hardware components in the transceiver front end for TDMA mode operations and another set of hardware components for analog mode operations. This is because data and voice are normally represented by I, Q pairs in the TDMA mode and by digital samples of the analog waveform in the analog mode. Also, separate hardware has been utilized for performing QPSK modulation and FM modulation. Of course, utilizing separate sets of hardware components increases the complexity of the transceiver as well as the costs associated with these components. It would be desirable to provide a transceiver that utilizes a single set of hardware components for TDMA mode and analog mode operations. Utilizing a single set of hardware components for both modes could reduce the costs and complexity of the transceiver.
FIG. 2
represents the components of a known transceiver of a wireless TDMA system for operating in the analog mode. The hardware components that are utilized in the transceiver for TDMA mode operations are not shown in
FIG. 2
for ease of illustration. The hardware components that are utilized for the analog mode include the encoder
12
, the decoder
13
, the digital-to-analog converter (DAC)
14
, the analog-to-digital converter (ADC)
15
, the ADC
18
, the DAC
19
, the FM demodulation hardware
20
and the FM modulation hardware
21
.
In order to transmit audio signals in the analog mode, a digital signal processor (DSP)
22
outputs a digital representation of an analog voice signal to the DAC
19
, which converts the digital representation into an analog waveform and outputs the analog waveform to the FM modulation hardware
21
. The FM modulation hardware
21
frequency modulates the analog waveform for transmission over air. When an FM modulated audio signal is received by the transceiver
10
, the FM demodulation hardware
20
demodulates the analog audio signal and delivers the demodulated signal to the ADC
18
, which converts the analog audio signal into a digital representation of the analog audio signal. The digital representation of the analog audio signal is then delivered to the DSP
22
, which processes the digital signal in accordance with various software routines and delivers the processed digital signal to other components of the base station for routing to the mobile telephone switch office (MTSO).
When a data signal is to be transmitted by the base station to a mobile unit (not shown) using the analog mode, the main controller
23
delivers a digital representation of the data signal to the encoder
12
, which encodes each bit of the digital data into a digital representation of the corresponding analog waveform. The encoded signal is then delivered to the DAC
14
. The DAC
14
converts the encoded signal into an analog data signal, which is then delivered to the FM modulation hardware
21
. The FM modulation hardware
21
FM modulates the signal for transmission over air.
When a data signal is received by the transceiver
10
when it is operating in the analog mode, the FM demodulation hardware
20
demodulates the RF signal, which is then converted by the ADC
15
into a digital signal. The digital signal is then delivered to the decoder
13
, which decodes the digital signal into a digital message that is usable by the main controller
23
. The decoder
13
then delivers the digital message to the main controller
23
, which processes the digital message to extract the content. The main controller
23
of the base station routes the signals to the MTSO.
As stated above, separate hardware components are used for performing TDMA mode and analog mode operations in the TDMA system shown partially in FIG.
2
. It would be advantageous to provide a transceiver that could perform all of these functions without the need for separate hardware components. Eliminating certain hardware components may reduce the complexity of the transceiver and the costs associated with the transceiver. Accordingly, a need exists for a method and apparatus for use in a transceiver that enable the same hardware components to be used for TDMA and analog mode operations.
SUMMARY OF THE INVENTION
The present invention provides a method and apparatus for use in a transceiver of a wireless system that enable analog mode operations to be performed using in-phase (I) and quadrature (Q) values. Since TDMA mode operations are normally performed using I and Q values, the method and apparatus of the present invention enable, but do not require, the same hardware components to be utilized for TDMA and analog mode operations. The apparatus of the present invention comprises a processor, such as, for example, a digital signal processor (DSP), that performs FM modulation to generate I, Q pairs when the transceiver is operating in the analog mode. The processor also performs the I, Q encoding and decoding operations that are normally performed in hardware in transceivers operating in the TDMA mode.
When transmitting in the analog mode, the processor encodes and FM modulates a digital representation of the signal to be transmitted into I, Q pairs and outputs the I, Q pairs to a digital-to-analog converter (DAC) comprised by the apparatus. The DAC converts the digital I, Q pairs into analog signals and outputs the analog signals to an I, Q cosine wave generator. The cosine wave generator generates an in-phase cosine wave and a quadrature cosine wave having amplitudes that are proportional to the I and Q values, respectively. The cosine waves are summed for transmission over air.
When receiving in the analog mode, a frequency converter converts the received radio frequency (RF) signal down to an intermediate frequency (IF). A digital down converter converts the received signal into digital I and Q values and outputs them to the processor. The processor then decodes the I and Q values into a digital representation of the received signal to extract the signal content.
Other features and advantages of the present invention will become apparent from the following description, drawings and claims.
REFERENCES:
patent: 5418818 (1995-05-01), Marchetto et al.
patent: 5960040 (1999-09-01), Cai et al.
patent: 6025758 (2000-02-01), Lu
patent: 6032028 (2000-02-01), Dickey et al.
patent: 6091765 (2000-07-01), Pietzold, III et al.
Leonard Eric David
Thomson David James
Lucent Technologies - Inc.
Pham Chi
Phu Phuong
Thomas Kayden Horstemeyer & Risley LLP
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