Amplifiers – With periodic switching input-output
Reexamination Certificate
2003-04-30
2004-08-24
Lam, Tuan T. (Department: 2816)
Amplifiers
With periodic switching input-output
C330S258000
Reexamination Certificate
active
06781451
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to a circuit for a differential amplifier. More particularly, the present invention relates to a system and method for controlling output-common-mode voltages in differential amplifiers without tail currents.
2. Background Art
An important advantage in transitioning to finer-geometry complementary metal oxide (CMOS) processes is the ability to use low-voltage power supplies, which corresponds to a lower-power operating environment. Although CMOS processes fulfill the need for low-power operating requirements and consumption, a need still exists to be able to achieve large signal swings from these CMOS amplifiers in order to maintain adequate signal-to-noise ratios. Several conventional approaches to providing differential amplifiers with reasonably large output swings exist. A few of these traditional approaches are discussed in greater detail below.
Several metrics exist for rating and measuring the overall performance of differential amplifiers. Among these metrics are total current, slew current, and output swing. As known in the art, differential amplifiers include an inverting input and a non-inverting input and corresponding inverting and non-inverting outputs. The total current for differential amplifiers, therefore, is measured by adding the absolute value of the current detected at both the inverting and non-inverting outputs.
Slew current is defined as the amount of current detected at one amplifier output port when completely tilting one input to the other. Typically, slew current is used as a measure of an amplifier's efficiency. Another important metric is the output swing, which is a measure of how far the amplifier can go from rail to rail before it begins losing gain. Although a number of different techniques exist for providing large signal output swings in CMOS amplifiers, each of these techniques suffers from at least one major disadvantage.
For example, while certain amplifiers maybe able to produce large output swings, these same amplifiers may be slow or inefficient. Other amplifiers that may be faster, may sacrifice efficiency for speed. Finally, other amplifiers that may provide reasonably large output swings and high efficiency, may be unable to reject output common-mode voltage disturbances. Common-mode voltage, as understood in the art, may be created as a result of imbalances in transistor performance and power supply variations. Common-mode voltage may also result from the input source directly or from a previous amplification stage.
Although particular types of differential amplifiers provide tail current sources as an effective technique for resolving problems associated with common-mode voltages, tail current sources create inefficiencies and inherently reduce headroom swing in these amplifiers. Therefore, a need exists to be able to derive high output swings from low-power power supplies in CMOS differential amplifiers without tail current sources.
BRIEF SUMMARY OF THE INVENTION
Consistent with the principles of the present invention as embodied and described herein, an embodiment of the invention includes a switched capacitor feedback circuit configured to switch between two or more timing phases of operation. The circuit includes (i) a plurality of input ports configured to receive a corresponding plurality of input signals therethrough, and (ii) at least one output port configured to output an adjusting signal. Next, the corresponding plurality of input signals includes a number of primary signals and two or more reference signals. The adjusting signal is produced based upon a comparison between the number of primary signals and at least one of the reference signals, the comparison occurring during a first of the timing phases. Finally, the primary signals are adjusted in accordance with the adjusting signal during a second of the timing phases.
Another embodiment of the invention includes a switched capacitor feedback circuit including (i) a plurality of input ports configured to receive a corresponding plurality of input signals therethrough, and (ii) at least one output port, the output port being configured to output an adjusting signal. The corresponding plurality of input signals includes a number of primary signals and two or more reference signals, all of the signals being associated with a first timing phase of operation. The adjusting signal is produced based upon a comparison between the number of primary signals and at least one of the reference signals. Also included is a pair of active devices having gates thereof coupled together, the gates being configured to receive the adjusting signal. The active devices are configured to (i) provide a gain to the adjusting signal in accordance with a predetermined gain factor, and (ii) facilitate an adjustment to the number of primary signals based upon the gain during a second timing phase of operation.
Features and advantages of the present invention include an ability to control or eliminate output common-mode voltage variations in a differential amplifier without the need of providing a tail current source. This approach facilitates the realization of differential amplifiers with larger output swings that are low-power, fast, and operate efficiently.
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International Search Report issued Jul. 24, 2003 for Appln. No. PCT/US01/41576, 4 pages .
Duncan Ralph
Kwan Tom W.
Singor Frank W.
Broadcom Corporation
Lam Tuan T.
Sterne Kessler Goldstein & Fox P.L.L.C.
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