Variable gain amplifier for low voltage applications

Details Variable gain amplifier for low voltage applications Variable gain amplifier for low voltage applications

2000-12-20

2004-01-27

Vuong, Quochien (Department: 2685)

Telecommunications

Receiver or analog modulated signal frequency converter

Local control of receiver operation

C455S127200, C455S323000, C330S254000, C330S278000

Reexamination Certificate

active

06684065

ABSTRACT:

BACKGROUND OF THE INVENTION
Radio receivers, or tuners, are widely used in applications requiring the reception of electromagnetic energy. Applications can include broadcast receivers such as radio and television, set top boxes for cable television, receivers in local area networks, test and measurement equipment, radar receivers, air traffic control receivers, and microwave communication links among others. Transmission of the electromagnetic energy may be over a transmission line or by electromagnetic radio waves.
The design of a receiver is one of the most complex design tasks in electrical engineering. In the current state of the art, there are many design criteria that must be considered to produce a working radio receiver. Tradeoffs in the design's performance are often utilized to achieve a given objective. There are a multitude of performance characteristics that must be considered in designing the receiver.
However, certain performance characteristics are common to all receivers. Distortion and noise are two such parameters. The process of capturing the signal creates distortion that must be accounted for in the design of the radio receiver. The distortion must either be filtered out or canceled. Once a radio signal is captured, the noise surrounding the received signal in the receiver must be considered. Radio signals are often extremely weak and if noise is present in the circuit, the signal, even though satisfactorily received, can be easily lost in this noise floor. The current state of the art in receiver design is often directed to overcoming these receiver limitations in a cost effective manner.
Amplifiers are utilized to boost signal levels above the receiver noise floor. Amplification is used in many receiver functions. It is used in a fixed gain amplifier to provide a fixed gain to a signal presented to it. In providing a fixed gain a signal of a given power level presented to an amplifier is increased in power by a fixed multiplication factor. In a variable gain amplifier (“VGA”) gain is often adjusted to provide an output signal of fixed power for a variety of input signal power levels. The multiplication factor is adjusted by a control depending on the power of the input signal.
Amplification is often used in conjunction with other circuit functions. Filters often incorporate amplification to boost a desired signal's level while simultaneously rejecting unwanted signals. Attenuators also incorporate amplifiers to expand their dynamic range. Thus an attenuator with gain included can produce an output signal having more or less power than a signal input to the device, depending on the setting.
Due to inherent amplifier nonlinearities the amplifiers produce distortion. Distortion tends to vary with the signal level presented to an amplifier. Strong input signals tend to increase distortion levels. Often to limit distortion the dynamic range of an amplifier is constrained to a narrow range of input signal levels to prevent distortion from arising. Constraint on signal level affects a receiver system's overall performance.
For example constraint on input levels requires tight automatic gain control (“AGC”) of the receiver giving rise to further problems of stability, response time, and maintenance of the required signal level range. Amplifiers with an increased dynamic range are thus desirable in designing receivers to decrease distortion and to relax systems requirements.
SUMMARY OF THE INVENTION
An integrated communications system. Comprising a substrate having a receiver disposed on the substrate for converting a received signal to an IF signal. Coupled to a VGA for low voltage applications and coupled to the receiver for processing the IF signal.
The VGA includes a bank pair having a first bank of differential pairs of transistors and a second bank of differential pairs of transistors. The bank pair is cross-coupled in parallel, the IF signal is applied to the bank pair decoupled from a control signal used to control transconductance output gain of the bank pair over a range of input voltages.
A digital IF demodulator is disposed on the substrate and coupled to the VGA for low voltage applications, for converting the IF signal to a demodulated baseband signal. And a transmitter is disposed on the substrate operating in cooperation with the receiver to establish a two way communications path.


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