Combined multiplexer and switched gain circuit

Amplifiers – With semiconductor amplifying device – Including differential amplifier

Reexamination Certificate

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Details

C330S310000, C327S407000, C327S408000, C327S411000, C341S139000

Reexamination Certificate

active

06674327

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to a multiplexer for multiplexing analog signals from a primary channel and a diversity channel in a diversity receiver and, more particularly, to a combined multiplexer and switched gain circuit for multiplexing differential analog signals from a primary channel and a diversity channel in a diversity receiver, where the multiplexer provides a gain path and a no-gain path for both the primary channel signals and the diversity channel signals.
2. Discussion of the Related Art
Historically, communications systems sampled analog signals to provide signal processing in the system. Modern trends generally represent signals in communications systems as time sampled digital data signals. Because of the availability of very high frequency circuits, it has become possible to process digital signals at higher and higher frequencies into the 100's of MHz. Digital signal processing offers the advantages of flexibility for change, absolute accuracy without the need for calibration of analog components that are subjected to temperature and aging effects, and the ability to perform very complex signal processing at modest costs. Further, digital signal processing offers the possibility of sharing circuit components for multiple tasks, further reducing system hardware and related costs. However, digital circuit components become very expensive at high frequencies. Further, for those digital systems that process both radio frequency (RF) and intermediate frequency (IF) signals, extreme care must be taken to maintain the accuracy of the signal, especially for waveforms employing complex modulation.
Cellular telephone base stations employ many receiver circuits for receiving and processing cellular telephone signals. Each receiver circuit typically employs two channels, a primary channel and a diversity channel, each having a separate antenna, so that the receiver circuit can select which of the two received signals is the strongest for subsequent processing. Some receiver circuits combine the primary channel and diversity channel signals for increased performance. This allows the receiver to be more reliable by lessening the chance that cellular calls are dropped. However, receivers of this type have been limited in their effectiveness for reducing circuit components, reducing the size and cost of IF sampling circuits, and maintaining signal fidelity at high frequencies.
Receiver circuits for cellular base stations employ automatic gain control (AGC) using variable gain amplifiers (VGAs) and multiplexers for amplifying and selecting analog signals propagating through the primary and diversity channels. The analog signals are also applied to an analog-to-digital converter (ADC) to be converted to digital signals for digital processing. One or more ADCs are employed at various locations in the circuit relative to the VGA and multiplexer.
The known Analog Devices AD6600 Diversity Receiver chipset provides independent channel attenuation, multiplexing, signal gain and analog-to-digital conversion on a single chip. In this design, an analog multiplexer is preceded by individual variable gain attenuator stages for each channel and a peak detecting gain control circuit.
U.S. Pat. No. 5,861,831 discloses a clock-to-clock auto-ranging ADC that operates directly on an analog signal in the IF band or higher to track it's gain range on a clock-to-clock basis to produce a digital signal that maintains high resolution of the analog signal without clipping or loss of signal sensitivity. The ADC samples the analog signal at sufficiently high frequency so that a peak detector can accurately determine the maximum signal level over at least one-half of a signal period, and then reset the signal gain going into the ADC prior to the beginning of the next sample period. The '831 patent offers improvements for analog-to-digital conversion, but does not address the multiplexing architecture for high frequency. Further, combining all of the functions as is done in the '831 patent onto a single chip slows the speed of the signal throughput and compromises the isolation between the primary and diversity channels.
National Semiconductor has a diversity receiver chipset of the type being discussed herein that operates at high frequency, but requires several separate chips in various architectures. Further, this chipset does not multiplex the analog signals, but has a separate parallel VGA and ADC path for each primary and diversity channel. This design provides good isolation, but drives up the cost of implementation.
SUMMARY OF THE INVENTION
In accordance with the teachings of the present invention, a combined multiplexer and switched gain circuit is disclosed that selectively multiplexes differential analog signals from a primary channel and a diversity channel in a diversity receiver to a single output. The circuit is based on a current mode logic design where a plurality of separate conduction paths are provided between a voltage line and a current source. An output of the circuit is coupled to each conduction path so that the differential analog signals from the primary channel and the diversity channel can be selectively outputted from the circuit. Each conduction path includes a gain device, such as a degenerative resistor, that provides signal gain or no signal gain for that conduction path. Control signals are selectively applied to switching devices in each conduction path so that a particular conduction path can be independently selected to provide the multiplexing.
In one embodiment, the switching devices are heterojunction bipolar transistors. The differential analog signals in the primary channel are applied to the base terminal of bipolar transistors in two of the conduction paths, and the differential analog signals in the diversity channel are applied to the base terminal of bipolar transistors in two of the other conduction paths. One of the primary channel conduction paths and one of the diversity channel conduction paths provide signal gain, and the other primary channel conduction path and the other diversity channel conduction path provide no signal gain. A separate control signal is applied to the base terminal of other bipolar transistors in each conduction path so that a particular conduction path can be selected to provide current flow and cause the analog signal applied to that conduction path to be provided on the output.


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“Diversity Receiver Chipset CLC5526, CLC5957 and CLC 5902”; National Semiconductor Corporation; Feb. 9, 2000; 5 pgs.
Brannon, B., “Designing a Superheterodyne Receiver Using an IF Sampling Diversity Chipset”, Analog Devices, Inc.; 2000; 3 pgs.
Oki, A.K., Gorman, G.K., Camou, J.B., Umemoto, D.K. and Kim, M.E.; “A GaAs HBT Monolithic Microwave Switched-Gain Amplifier with +31 db to -31 dB Gain in 2 dB Increments”, IEEE 1989 Microwave and Millimieter-Wave Monolithic Circuits Symposium, pps. 83-86.

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