Amplifiers – With semiconductor amplifying device – Including current mirror amplifier
Reexamination Certificate
2002-11-26
2004-11-16
Singleton, Michael B. (Department: 2817)
Amplifiers
With semiconductor amplifying device
Including current mirror amplifier
C330S264000, C330S301000, C327S052000, C327S053000, C327S108000, C327S109000
Reexamination Certificate
active
06819182
ABSTRACT:
BACKGROUND OF THE INVENTION
(1) Field of the Invention
This invention relates generally to high-speed amplifiers and relates more particularly to buffer amplifiers used in communication devices to amplify the signals of a voltage-controlled oscillator (VCO) and to isolate said VCO from a load connected to said amplifier in a frequency range of GHz as for e.g. the Bluetooth technology.
(2) Description of the Prior Art
Modern wireless communication devices use high-frequency signals: 900 MHz to 1900 MHz for cellular phones and higher, up to 6 GHz, for other systems, such as wireless LANs. For example, radios for the “Bluetooth” standard” operate in the unlicensed Industrial, Scientific and Medical (ISM) band at 2.4 GHz. Signals at such frequencies are difficult to generate and to control. They have also a tendency to interfere with each other, as they are easily coupled by parasitic properties present in all electronic components, including integrated circuits
A buffer amplifier is designed to follow low-level stages. This will then present a sufficiently high enough input impedance so it is not considered a significant load to that stage. The intermediate or buffer amplifier stage, while not representing a load must then have a sufficiently low output impedance to drive successive stages. One example for such a low level stage is a voltage-controlled oscillator. An oscillator for optimum performance cannot be loaded down, it needs an intermediate stage following. This will then present a sufficiently high enough input impedance so it is not considered a significant load to the oscillator. The intermediate or buffer stage, while not representing a load must then have a sufficiently low output impedance to drive successive stages
A buffer amplifier is often used to amplify the signals of a VCO and to isolate the VCO from a load connected to the buffer amplifier. For a usage in the GHz frequency range the reverse biased (output to input) isolation should be in the range of 20-30 dB. The quality of said isolation has direct influence on the quality of the VCO signals. The power consumption of said buffer amplifier is another important attribute. Designing such a system is still a challenge for the designer.
U.S. Pat. No. (6,163,222 to Kobayashi) teaches a buffer amplifier to be connected to an oscillator for outputting an oscillation signal, comprising an amplifier circuit for amplifying the level of the oscillation signal and frequency selective means connected to the output terminal of the amplifier circuit, wherein the fundamental harmonic or the secondary higher harmonic of the oscillation signal is outputted by switching the frequency selective means.
U.S. Pat. No. (5,714,914 to Zhou) discloses a high power, low noise voltage-controlled oscillator (VCO) in a transmitter such as a cellular radiotelephone. The VCO includes a resonant circuit, an active part connected to the resonant circuit, and a buffer amplifier, connected to the active part, for isolating the VCO from a load connected to the buffer amplifier. The buffer amplifier is a linear amplifier including a transistor, and the active part and the buffer amplifier may be connected by a capacitance for reducing coupling between the active part and the buffer amplifier.
U.S. Pat. No. (5,960,334 to Nakano) shows an amplifier for amplifying a local oscillation signal of a receiving section or a carrier signal of a transmitting section and a portable telephone apparatus using this amplifier. Said amplifier comprises an amplifying transistor, a parallel resonance circuit, a bypass capacitor and a switching means for switching between a connected state and a disconnected state of a connection point.
SUMMARY OF THE INVENTION
A principal object of the present invention is to achieve a high isolation and high-speed buffer amplifier capable to handle frequencies in the GHz range.
A further object of the present invention is to achieve said buffer amplifier consuming minimal power.
A further object of the present invention is to achieve a basic amplifier stage for said buffer amplifier to be applicable for different applications as differential ended input, single ended input, differential ended output and single ended output.
In accordance with the objects of the invention a circuit for a high isolation, high-speed buffer amplifier capable of handling frequencies in the range of GHz has been achieved. Said amplifier comprises a basic amplifier stage comprising amplifying means using the push-pull mode having an input and an output, wherein the input are signals to be amplified and the output current at the output node has a high reverse isolation from said input signals. Additionally means of power supply for said circuit and a current source for the bias current are provided.
In accordance with the objects of this invention a circuit for a high isolation, high-speed buffer amplifier capable of handling frequencies in the range of GHz having a differential ended input and a differential ended output has been achieved. Said amplifier comprises two basic amplifying stages comprising amplifying means using the push-pull mode having an input and an output, wherein the input are signals to be amplified and the output current at the output node has a high reverse isolation from said input signals. The output load is hooked up between the output nodes of said two basic amplifying stages. Additionally means of power supply for said circuit and a current source for the bias current is provided.
In accordance with further objects of the invention a circuit for a high isolation, high-speed buffer amplifier capable of handling frequencies in the range of GHz having a differential ended input and a single ended output has been achieved. Said amplifier comprises a first basic amplifier stage comprising amplifying means using the push-pull mode having an input and an output, wherein the input are signals to be amplified and the output current at the output node has a high reverse isolation from said input signals. Furthermore said amplifier comprises an input stage of a basic amplifier stage comprising amplifying means using the push-pull mode having an input and an output, wherein the input are signals to be amplified and the output is linked to said first basic amplifier stage. The output load is hooked up between the output node of said first basic amplifier stage and a node being capacitively coupled to ground. Additionally means of power supply for said circuit and a current source for the bias current is provided.
In accordance with further objectives of the invention a method to achieve a high isolation and high-speed buffer amplifier is achieved. Said method is comprising as first step to split a input signal in several paths, followed by amplifying the split signal in each signal path in several stages using source follower transistors, to combine again the split and amplified signals and to mirror the amplified output current applying a multiplication factor.
REFERENCES:
patent: 5179355 (1993-01-01), Harvey
patent: 5714914 (1998-02-01), Zhou
patent: 5960334 (1999-09-01), Nakano
patent: 6163222 (2000-12-01), Kobayashi
Anghinolfi et al., “ICON, a Current Mode Preamplifier in CMOS Technology for use with High Rate Particle Detectors”, IEEE 1991, 11 2-9, Proc. of the Nuclear Science Symp. and Medical Imaging Conf., pp. 629-633.
An Offset Compensated and High-Gain CMOS Current-Feedback Op-Amp., 1998 IEEE Trans. on Circuits & Sys., vol. 45, No. 1, Jan. 1998, pp. 85-90, Assi et al.
Mucha, “Fully Differential, Current Conveyor Based CMOS Operational Amplifier”, Int'l Journal of Electronics, 1993, vol. 74, No. 5, pp. 697-703.
Ackerman Stephen B.
Dialog Semiconductor GmbH
Saile George O.
Singleton Michael B.
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