Pulse or digital communications – Transmitters – Antinoise or distortion
Reexamination Certificate
1999-12-13
2003-12-30
Phu, Phoung (Department: 2631)
Pulse or digital communications
Transmitters
Antinoise or distortion
C375S238000
Reexamination Certificate
active
06671330
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention is directed to a power amplifier of the type having at least one switched output stage with a power bridge circuit formed by switch elements connected to a floating intermediate circuit voltage, as well as with at least one digital pulse width modulator that generates pulse-width-modulated control signals for all of the switch elements of the power bridge circuit from digital input signals in order to generate an output stage voltage according to an output stage switch clock.
2. Description of the Prior Art
In power amplifiers of this type, high powers must be regulated with extreme accuracy. This is particularly the case for gradient amplifiers in a magnetic resonance tomography apparatus. The same is true, for example, in inductive heating devices in x-ray units or for the drive control of electric motors.
In a gradient amplifier, an alternating current on the order of magnitude of ±300 V given a current on the order of magnitude of 300 A is generated with a power bridge circuit. The power amplifier must exhibit such high precision that the current flow for each of the three gradient coils can be set in the mA range. The turn-on phases of the individual switch elements in the power bridge circuit, which are essentially defined by the output stage switch clock or clocks, must therefore be capable of being essentially continuously varied as to their respective time duration. For this reason, pulse width modulators of gradient amplifiers have conventionally been implemented in purely analog fashion, in order to allow the switching times of the switch elements, which, for example, can be power transistors, to be controlled as finely as desired.
Particularly power amplifiers having a number of switched output stages require a high component outlay due to the corresponding number of analog pulse-width modulators and also require correspondingly complicated electrical connections since, in this case, a number of phase-shifted delta-shaped voltages are required. The required, high number of components in the known power amplifiers leads to a correspondingly large structural volume as well as to correspondingly high manufacturing costs.
German Patent 197 09 767 discloses a method for operating a power amplifier of the above-described type with a number of switched output stages wherein the pulse-width-modulated control signals are cyclically exchanged between the switched output units. As a result, a good distribution of energy that, for example, is fed back to a load, is achieved among all switched output stages without requiring special discharge or energy distribution means between the switched output stages.
A power amplifier of the type initially described is disclosed, for example, in U.S. Pat. No. 4,673,887. A digital pulse width modulator has, as the basic components for generating pulse-width-modulated control signals, a clock generator, a clock divider as well as at least one shift register. The clock divider generates an on/off pulse sequence from a clock signal of the clock generator, this on/off pulse sequence being supplied to the shift register. The shift register is fashioned such that a phase relation of the on/off pulse sequence can be shifted. The pulse-width-modulated control signals are ultimately formed from a logic operation of the phase-shifted on/off pulse sequence with the non-phase-shifted on/off pulse sequence.
German OS 196 19 208 discloses a further power amplifier having a digital pulse width modulator. This pulse width modulator contains a digital sigma-delta modulator that converts an arbitrary, band-limited input signal into an output signal that is a pulse-width-modulated representation of the input signal.
German OS 38 03 583 discloses a further power amplifier having a digital pulse width modulator. This modulator contains a so-called fine stage that includes a counter as well as a port. The counter is thereby capable of being set to a prescribable reference value. The port is opened upon the setting of this reference value and the counter counts from the reference value down to zero. When zero is reached, the port closes. A pulse-width-modulated control signal is ultimately generated by the opening and closing of the port. Among the disadvantages of this known power amplifier is that the modulator does not react immediately to a change in reference value while the counter is counting down, but takes this into consideration no earlier than after the end of the count-down.
PCT Application WO 98/20608 discloses a further power amplifier having a digital pulse width modulator. The central components of the this modulator are a data memory, an upward counter as well as downward counter. During a prescribable period duration, the upward counter counts dependent on a clock frequency from a start value up to a maximum value that it retains until the end of the period duration or the upward counter assumes the start value after it has reached the maximum value, and stays at the re-assumed start value until the end of the period duration. The downward counter behaves correspondingly inverse thereto. The current values of both counters are compared with a value, for example a reference value, prescribable in the data memory. Given equality, signals are generated that ultimately determine a pulse-width modulated control signal. Given a change in the reference value within a period duration, there is the risk that the modulator will get out of step. For a defined operation of the modulator, the reference value thus can be modified only from period duration to period duration. This offers a dynamic behavior which is insufficient for many applications.
SUMMARY OF THE INVENTION
It is an object of the present invention is to provide a power amplifier of the type initially described wherein the aforementioned disadvantages of the prior art are alleviated.
This object is inventively achieved in a power amplifier having at least one switched output stage with a power bridge circuit formed by a number of switch elements that is connected to a floating intermediate circuit voltage, and also has at least one pulse width modulator that generates pulse-width-modulated control signals for all of the switch elements of the power bridge circuit from input signals in order to generate at least one output stage voltage according to an output stage switch clock. The pulse width modulator is fashioned as a digital pulse width modulator to which digital input signals can be supplied and whose pulse-width-modulated control signals are based on the control signals of an analog pulse width modulator, so that the generated output stage voltages closely approximate analog curve.
In the inventive power amplifier, thus, the switch behavior of the digital pulse width modulator simulates the switch behavior of an analog pulse width modulator. The generated output stage voltages thus approximate an analog curve, i.e. exhibit an analog curve or a nearly analog curve. The inventive power amplifier thus delivers exact output stage switch clocks, so that the current flux generated in an inductive load that is across at the outputs of the power amplifier exhibits high precision. The inventive power amplifier is thus ideally employable for operating gradient coils of a magnetic resonance tomography apparatus.
The digital pulse width modulator utilized in the inventive power amplifier has a significantly smaller structural size compared to an analog pulse width modulator. The inventive power amplifier according to claim
1
thus requires less installation space.
In a preferred embodiment of the invention, at least two switched output stages are series-connected at the output side so that the power amplifier has an output voltage that corresponds to the sum of these output stage voltages. In a further version, all switched output stages can be driven with switch signals that are offset relative to one another. As a result of this measure, the maximum output voltage as well as the effective switching frequency are
Lenz Helmut
Schwingenschloegl Christian
Phu Phoung
Schiff & Hardin & Waite
Siemens Aktiengesellschaft
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