KR101512556B1 - Envelope tracking power supply - Google Patents

Abstract

The present invention relates to a power supply apparatus, An envelope tracking module that receives power from the power supply unit, acquires envelope information based on the transmission signal, and acquires envelope power based on the envelope information; A transmission signal amplifier for receiving power from any one of the power supply unit and the envelope tracking module and amplifying a transmission signal; And a second section, which is a stabilization section of the envelope tracking module, connects the power supply section and the transmission signal amplifier to the envelope tracking module in a first section, which is an unstable section of the envelope tracking module, And a switching unit.

Description

Envelope Tracking Power Supply {ENVELOPE TRACKING POWER SUPPLY}

The present invention relates to an envelope tracking power supply.

Various functions are being implemented in mobile devices according to the development of wireless communication technology. Existing home appliances have a greater importance in achieving the best performance than power consumption. However, in battery-powered mobile devices, it is important to achieve optimal performance with limited power.

The same phenomenon occurs in the front-end product group, which is one of the important parts of wireless communication. The front-end products include a power amplifier (PA), a switch, an LNA (Low Noise Amplifier), and the like. Here, the power amplifier is responsible for RF transmissions and can have the greatest effect on battery consumption.

Therefore, much research is being conducted to improve the operation efficiency of the power amplifier. Particularly, the technology that has been attracting attention is the technology using an envelope tracking modulator. The power supply apparatus using the Envelope Tracking Modulator can reduce power consumption compared to the conventional method.

Patent Documents 1 and 2 disclosed in the following prior art documents disclose a power supply apparatus using an envelope tracking modulator, but a configuration for improving a power supply problem due to a settling time of an envelope tracking modulator Is not disclosed.

US Published Patent 2012-0269240 Japanese Patent Laid-Open No. 2006-0254345

SUMMARY OF THE INVENTION It is an object of the present invention to provide a power supply device that improves power supply problems due to the settling time of an envelope tracking modulator.

Also, the present specification is intended to provide a power supply device capable of supplying stable power to an amplifier for amplifying a transmission signal.

According to an aspect of the present invention, there is provided an envelope tracking power supply apparatus comprising: a power supply unit; An envelope tracking module that receives power from the power supply unit, acquires envelope information based on the transmission signal, and acquires envelope power based on the envelope information; A transmission signal amplifier for receiving power from any one of the power supply unit and the envelope tracking module and amplifying a transmission signal; And a switching unit having a first switch for controlling connection between the power supply unit and the transmission signal amplifier and a second switch for controlling connection between the envelope tracking module and the transmission signal amplifier.

The envelope tracking module may include an envelope tracking module and a transmission signal amplifier. The envelope tracking module may include a power amplifier and a transmission signal amplifier, .

The first switch and the second switch may include a field effect transistor.

According to another aspect of the present invention, there is provided an envelope tracking power supply device including: a transmission signal supplier; An envelope tracking module for acquiring envelope information based on a transmission signal from the transmission signal providing unit and acquiring an envelope power source based on the envelope information; A transmission signal amplifier for acquiring a transmission signal from the transmission signal providing unit and amplifying the transmission signal; And a power supply unit for supplying power to the envelope tracking module, wherein the transmission signal amplifier can receive power from any one of the power supply unit and the envelope tracking module.

The envelope tracking power supply unit may include a switching unit having a first switch for controlling connection between the power supply unit and the transmission signal amplifier and a second switch for controlling connection between the envelope tracking module and the transmission signal amplifier .

Wherein the envelope tracking power supply unit connects the power supply unit and the transmission signal amplifier to a first section which is an unstabilized section of the envelope tracking module and a second section which is a stabilization section of the envelope tracking module, And a switching unit for connecting the transmission signal amplifier.

The transmission signal amplifier may receive power from the power supply unit in the first section, and may receive power from the envelope tracking module in the second section.

The first switch and the second switch may include a field effect transistor.

It is possible to provide a power supply device that improves the power supply problem due to the settling time of the envelope tracking modulator.

Further, according to the disclosure of the present specification, it is possible to provide a power supply device capable of supplying stable power to an amplifier for amplifying a transmission signal.

1 is a schematic diagram of a transmission signal amplifier employed in a front-end product.
2 is a schematic diagram of a transmission signal amplifier using an envelope tracking technique.
3 is a block diagram of an envelope tracking power supply.
4 is a block diagram of an envelope tracking power supply apparatus according to an embodiment of the present invention.
5 is a diagram showing a voltage supplied from a conventional envelope tracking modulator to a transmission signal amplifier.
6 is a diagram illustrating a voltage supplied to the transmission signal amplifier by the envelope tracking power supply unit according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The same or similar reference numerals are used throughout the drawings for portions having similar functions and functions.

In addition, in the entire specification, when a part is referred to as being 'connected' with another part, it is not only a case where it is directly connected, but also a case where it is indirectly connected with another element in between do.

Also, to include an element means to include other elements, not to exclude other elements unless specifically stated otherwise.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a schematic diagram of a transmission signal amplifier employed in a front-end product.

Referring to FIG. 1, the transmission signal amplifier 20 may acquire a transmission signal, amplify the transmission signal, and provide the amplified transmission signal to the antenna.

At this time, the transmission signal amplifier 20 may be provided with a fixed voltage Vdd. That is, the transmission signal amplifier 20 can receive a constant voltage regardless of the level of the transmission signal.

In this case, as shown in FIG. 1, when the level of the transmission signal is low, a large amount of energy may be consumed as heat or the like.

2 is a schematic diagram of a transmission signal amplifier using an envelope tracking technique.

The envelope tracking power supply apparatus shown in FIG. 2 may include a transmission signal amplifier 20 and an envelope tracking modulator 30.

As described above, the transmission signal amplifier 20 may acquire a transmission signal, amplify the transmission signal, and provide the amplified transmission signal to the antenna.

The envelope tracking modulator 30 may obtain envelope information of the transmission signal. The envelope tracking modulator 30 may supply power to the transmission signal amplifier 20 based on the envelope information.

The envelope tracking modulator 30 supplies a low voltage when the level of the transmission signal is low and a high voltage when the level of the transmission signal is high. Thus, the envelope tracking modulator 30 can increase the efficiency of power consumption.

3 is a block diagram of an envelope tracking power supply.

Referring to FIG. 3, the envelope tracking power supply apparatus may include a transmit signal providing unit 40, a power supply unit 50, an envelope tracking modulator 60, and a transmit signal amplifier 70.

The transmission signal providing unit 40 may provide a transmission signal to the transmission signal amplifier 70. Also, the transmission signal providing unit 40 can acquire the envelope information of the transmission signal based on the transmission signal. The transmission signal providing unit 40 may provide the envelope tracking modulator 60 with envelope information of the transmission signal. Specifically, the transmission signal providing unit 40 may be implemented as a baseband digital IC.

The power supply unit 50 may provide power to the envelope tracking modulator. In the case of a mobile device, the power supply unit 50 may be implemented as a battery.

 The envelope tracking modulator 30 may supply power to the transmission signal amplifier 20 based on the envelope information. Specifically, the envelope tracking modulator 30 may include a DC / DC converter and a switching element for the DC / DC converter. Therefore, the envelope tracking modulator 30 can vary the power supply based on the envelope information. More specifically, the envelope tracking modulator 30 supplies a low voltage when the level of the transmission signal is low, and can supply a high voltage when the level of the transmission signal is high.

The transmission signal amplifier 70 may acquire a transmission signal, amplify the transmission signal, and provide the amplified transmission signal to the antenna. In particular, the transmission signal amplifier 70 may be driven by a power source provided by the envelope tracking modulator 60.

On the other hand, as described above, the envelope tracking modulator 60 includes a DC / DC converter. Also, in a mobile device, a pro-end module including a PA repeatedly turns on / off to conserve battery power. Repeated on / off also occurs in the envelope tracking modulator 60. Accordingly, the settling time when switching from the off state to the on state is an important factor in performance evaluation.

The DC / DC converter included in the envelope tracking modulator 60 includes a bandgap reference circuit. At this time, in the case of a bandgap reference circuit which is essentially provided in the DC / DC converter, a settling time of 50 to 60 us is generally required.

On the other hand, a settling time of 10us or more is generally required even in the case of the latest DC / DC converter.

Stable power is not supplied to the transmission signal amplifier 70 during the settling time period of the envelope tracking modulator.

Therefore, a method for supplying stable power to the transmission signal amplifier 70 during the settling time period of the envelope tracking modulator 30 needs to be introduced.

4 is a block diagram of an envelope tracking power supply apparatus according to an embodiment of the present invention.

4, the envelope tracking power supply unit may include a transmission signal providing unit 100, a power supply unit 400, an envelope tracking modulator 200, a transmission signal amplifier 300, and a switching unit 500 .

The transmission signal providing unit 100 may provide a transmission signal to the transmission signal amplifier 300. Also, the transmission signal providing unit 100 can acquire the envelope information of the transmission signal based on the transmission signal. In addition, the transmission signal providing unit 100 may provide the envelope tracking modulator 200 with the envelope information of the transmission signal. Specifically, the transmission signal providing unit 200 may be implemented as a baseband digital IC.

The power supply unit 400 may provide power to the envelope tracking modulator 200. In the case of a mobile device, the power supply unit 400 may be implemented as a battery.

 The envelope tracking modulator 200 may receive power from the power supply unit 400. In addition, the envelope tracking modulator 200 can acquire an envelope power source based on the envelope information. The envelope tracking modulator 200 may supply envelope power to the transmission signal amplifier 300. Specifically, the envelope tracking modulator 200 may include a DC / DC converter and a switching device for the DC / DC converter. Therefore, the envelope tracking modulator 200 can vary the power supply based on the envelope information. More specifically, the envelope tracking modulator 200 supplies a low voltage when the level of the transmission signal is low, and can supply a high voltage when the level of the transmission signal is high.

The transmission signal amplifier 300 may acquire a transmission signal, amplify the transmission signal, and provide the amplified transmission signal to the antenna. In particular, the transmission signal amplifier 300 may be driven by a power source provided by any one of the power supply unit 400 and the envelope tracking modulator 200.

That is, the power supply unit 400 or the envelope tracking modulator 200 can supply power to the transmission signal amplifier 300.

The switching unit 500 may include a first switch SW1 and a second switch SW2. The first switch SW1 may control connection between the power supply unit 400 and the transmission signal amplifier 300. [ That is, the first switch SW1 can turn on / off the connection between the power supply unit 400 and the transmission signal amplifier 300. The second switch SW2 may control a connection between the envelope tracking modulator 200 and the transmission signal amplifier 300. That is, the second switch SW2 can turn on / off the connection between the envelope tracking modulator 200 and the transmission signal amplifier 300.

When power is applied to the envelope tracking modulator 200, it may take a certain time until the envelope tracking modulator 200 is stabilized. In this case, a section from when the envelope tracking modulator 200 is energized to when the envelope tracking modulator 200 is stabilized is defined as a first section (non-stabilizing section). In addition, a section from the first section until the envelope tracking modulator 200 is turned off is defined as a second section (stabilization section).

In the first section, the envelope tracking modulator 200 can not supply power to the transmission signal amplifier 300 stably.

Therefore, in the power supply apparatus according to an embodiment of the present invention, the power supply unit 400 may supply power to the transmission signal amplifier 300 in the first period. To this end, the first switch SW1 of the switching unit 500 may connect the power supply unit and the transmission signal amplifier to a first section, which is an unstabilized period of the envelope tracking module.

Meanwhile, in the second section, since the envelope tracking modulator 200 is in a stabilized state, it can supply power to the transmission signal amplifier 300 stably.

Therefore, in the power supply apparatus according to an embodiment of the present invention, the envelope tracking modulator 200 can supply power to the transmission signal amplifier 300 in the second section. The second switch SW2 of the switching unit 500 may be connected to the envelope tracking modulator 200 and the transmission signal amplifier 300 in a second section of the envelope tracking modulator 200, .

Meanwhile, according to an embodiment of the present invention, the first switch SW1 may include a plurality of field effect transistors. The plurality of field effect transistors may be connected to each other in series.

In addition, the second switch SW2 may include a plurality of field effect transistors.

The plurality of field effect transistors may be connected to each other in series.

Generally, the voltage provided to the transmit signal amplifier 300 is typically between 3.0 and 4.2 V, and may be up to 5 V. When a 2.5 V transistor element is used in the switch portion 500, the breakdown voltage of the transistor may not be exceeded through the multi-stage configuration of the transistor.

Meanwhile, it is preferable that the field effect transistor has a small switching resistance value. This is because, when the switching resistance value is large, a voltage drop factor of the supplied voltage occurs. Therefore, it is preferable that the field effect transistor is implemented with a sufficient width.

As described above, the envelope tracking power supply apparatus according to an embodiment of the present invention can supply stable power to the transmission signal amplifier by the power supply unit during the settling time of the envelope tracking modulator.

5 is a diagram showing a voltage supplied from a conventional envelope tracking modulator to a transmission signal amplifier.

Referring to FIG. 5, it can be confirmed that a sufficient voltage is not supplied to the transmission signal amplifier during the settling time of the envelope tracking modulator. That is, power can not be stably supplied to the transmission signal amplifier in the non-stabilizing period of the envelope tracking modulator.

6 is a diagram illustrating a voltage supplied to the transmission signal amplifier by the envelope tracking power supply unit according to the embodiment of the present invention.

Referring to FIG. 6, it can be confirmed that a sufficient voltage is supplied to the transmission signal amplifier from the beginning. That is, in the non-stabilizing period of the envelope tracking modulator, the power supply unit supplies power to the transmission signal amplifier. In the stabilization period of the envelope tracking modulator, the envelope tracking modulator supplies power to the transmission signal amplifier, This is possible. In this embodiment, only a time of 100 ns is required for stable power supply. This is the typical switching time.

The above-described method according to the embodiment of the present invention can be used individually or in combination. Further, the steps constituting each embodiment can be used individually or in combination with the steps constituting the other embodiments.

In addition, the above-described method can be implemented in a recording medium readable by a computer or the like using, for example, software, hardware, or a combination thereof.

According to a hardware implementation, the methods described so far can be applied to various types of application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays processors, controllers, micro-controllers, microprocessors, and other electronic units for performing other functions.

According to a software implementation, the procedures and functions described herein may be implemented in separate software modules. The software modules may be implemented in software code written in a suitable programming language. The software code may be stored in a storage unit and executed by a processor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It falls within the scope of the invention.

100: transmission signal demultiplexer
200: Envelope Tracking Modulator
300: Transmit signal amplifier
400: Power supply
500: switching part

Claims (8)

Power supply;
An envelope tracking module that receives power from the power supply unit, acquires envelope information based on the transmission signal, and acquires envelope power based on the envelope information;
A transmission signal amplifier receiving power from any one of the power supply unit and the envelope tracking module and amplifying the transmission signal; And
And a switching unit having a first switch for controlling a connection between the power supply unit and the transmission signal amplifier and a second switch for controlling connection between the envelope tracking module and the transmission signal amplifier,
Wherein the switching unit connects the power supply unit and the transmission signal amplifier to a first section that is an unstable section of the envelope tracking module. The apparatus of claim 1,
And the envelope tracking module and the transmission signal amplifier are connected to each other in a second section, which is a stabilization section of the envelope tracking module. 3. The method of claim 2,
Wherein the first switch and the second switch include a field effect transistor. Transmit signal demultiplexer;
An envelope tracking module for acquiring envelope information based on a transmission signal from the transmission signal providing unit and acquiring an envelope power source based on the envelope information;
A transmission signal amplifier for acquiring the transmission signal from the transmission signal providing unit and amplifying the transmission signal; And
And a power supply unit for supplying power to the envelope tracking module,
Wherein the transmission signal amplifier receives power from any one of the power supply unit and the envelope tracking module and receives power from the power supply unit in a first section that is an unstable section of the envelope tracking module. 5. The method of claim 4,
And a switching unit having a first switch for controlling connection between the power supply unit and the transmission signal amplifier, and a second switch for controlling connection between the envelope tracking module and the transmission signal amplifier. 5. The method of claim 4,
A switching unit connecting the power supply unit and the transmission signal amplifier to the first section and connecting the envelope tracking module and the transmission signal amplifier to a second section that is a stabilization period of the envelope tracking module;
And an envelope tracking power supply. 7. The receiver of claim 6,
And the second section is powered from the envelope tracking module. 8. The method of claim 7,
Wherein the first switch and the second switch include a field effect transistor.

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