Amplifiers – Combined with automatic amplifier disabling switch means
Reexamination Certificate
2001-01-04
2002-10-29
Shingleton, Michael B (Department: 2817)
Amplifiers
Combined with automatic amplifier disabling switch means
C330S295000, C330S12400D, C333S101000, C333S103000, C333S104000
Reexamination Certificate
active
06472935
ABSTRACT:
TECHNICAL FIELD
The present invention is related to power amplifiers such as those used in cellular communications systems. More specifically, the present invention teaches a power amplifier having at least two output power devices and a mechanism for switching the output path between these two power devices. The first output power device is designed for power efficient signal amplification at the power amplifier's highest output power level. The second output power device is designed for power efficient signal amplification at the output power level that the power amplifier is most likely to operate. By switching between the two power devices according to the output power level, a high level of efficiency can be achieved across a broad range of operating states of the power amplifier.
BACKGROUND ART
The power efficiency of an amplification device such as a transistor varies with operating conditions. For example, a power amplifier designed for power efficiency at one supply voltage may well be inefficient at another supply voltage. However, applications abound that require the power amplifier to operate under varying conditions (e.g., different supply voltages) yet would benefit greatly from power efficient operation. In fact, while there are a variety of design constraints that may be imposed upon any power amplifier application, power efficiency is almost invariably a fundamental design objective.
By way of example, in most communication systems it is preferred that the power amplifier operate efficiently yet maintain acceptable linearity over the desired supply voltage range. To that end, the typical power amplifier is adjusted to achieve peak efficiency at a single output power level and supply voltage. In general, to operate at peak efficiency requires that the voltage swing at the output of the power amplifier be as large as possible. But, improving efficiency by increasing the voltage swing tends to reduce the linearity of the power amplifier. There is therefore, a tradeoff between power efficiency and linearity, with improvements in one coming at the expense of the other.
Many cellular communication systems, such as the CDMA cellular system, require that the power amplifier deliver a wide range of output powers. For more details regarding CDMA cellular systems, please see the Electronic Industry Association's publication EIA/TIA IS-95, which is incorporated herein by reference in its entirety. As will be appreciated, the power amplifier must safely operate at its highest power level. Being designed for the highest power level, a single power amplifier tends to operate less efficiently at lower, more commonly used, power levels. Hence the life of a battery-operated device is shortened because efficient power amplification is unavailable at the more commonly used power levels since a single power amplifier must be designed for the highest power level.
Communication systems such as CDMA cellular systems merely illustrate one example of the multiplicity of power amplifier applications that require operation at numerous operating states. In order to address the shortcomings of the prior art, what is needed is a power amplifier that can achieve high power efficiency at several operating states.
SUMMARY OF THE INVENTION
In order to achieve the foregoing and in accordance with the present invention, a variety of power amplifiers having at least two output power devices and a mechanism for switching the output path between these two power devices are taught herein. The first output power device is designed for power efficient signal amplification at the power amplifier's highest output power level, therefore the first power device may be described as a high power amplifier (HPA). The second output power device is designed for power efficient signal amplification at the output power level that the power amplifier is most likely to operate, therefore the second power device may be described as a low power amplifier (LPA). By switching between the two power devices according to the output power level, a high level of efficiency can be achieved across a broad range of operating states of the power amplifier.
A first embodiment of the present invention teaches a switchable path power amplifier suitable for amplifying an input signal received at a power amplifier input in order to generate an output signal at a power amplifier output. The switchable path power amplifier has first and second power devices, the first substantially optimized for power efficient signal amplification at the first output power level, and the second substantially optimized for power efficient signal amplification at the second output power level. The switchable path power amplifier also includes state determination circuitry arranged to determine the power level at which the switchable path power amplifier is operating, and a combining network arranged to decouple a disabled power device from an output load coupled to the switchable path power amplifier, such that any effect of the disabled power device upon an amplified electrical signal generated by the enabled power device is negligible. The state determination circuitry is further operable to a) enable the first power device and disable the second power device when the switchable path power amplifier is operating at the first output power level and b) enable the second power device and disable the first power device when the switchable path power amplifier is operating at the second output power level.
The first power device is intended for amplifying the input signal during a first operating state of the switchable path power amplifier and includes a first power device input coupled to the power amplifier input and a first power device output. The second power device is intended for amplifying the input signal during a second operating state of the switchable path power amplifier and includes a second power device input coupled to the power amplifier input and a second power device output. The combining network device includes first and second combining network device inputs coupled to the first and second power device outputs, respectively, and a combining network device output coupled to the power amplifier output. The combining network device is operable to select between the first and second power devices such that only one of the power devices drives the power amplifier output.
One embodiment of the combining network device transforms the power amplifier output impedance into the output impedance required for the proper operation of the enabled power device through the use of dual matching network devices. Each power device, both the LPA and HPA, is connected to the power amplifier output through parallel matching network devices, which transform the output impedance at the power amplifier output into the proper output impedance for the operation of the enabled power device.
Another embodiment of the combining network device further protects the performance of the LPA by modifying the parallel connection thereby reducing the effect of the HPA on LPA performance. The first matching network device transforms the output impedance into an output impedance preferred by the HPA which is then passed through both a switch and the second matching network device to ensure the LPA sees the correct output impedance at the power amplifier output for proper operation. In this embodiment, the overall efficiency is thereby improved due to the reduced effect of the HPA on the overall implementation.
Another related embodiment of the present invention contemplates a switchable path power amplifier having three or more power devices (i.e. a low power amplifier LPA, an intermediate power amplifier IPA and a high power amplifier HPA). In this embodiment, each of the three or more power devices would be suitably designed for a particular operating state (e.g., output power level). The state determination circuitry would therefore operate to enable the appropriate power device, and simultaneously disable the other power devices.
Yet another embodiment o
King Joel R.
Olsen Gordon A.
Yenigalla Prasad
Maxim Integrated Products Inc.
Perkins Coie LLP
Shingleton Michael B
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