KR100717879B1 - Ultra wideband rf transmitter - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to an ultra-wideband RF transmitter.

2. The technical problem to be solved by the invention

SUMMARY OF THE INVENTION An object of the present invention is to provide an ultra-wideband RF transmitter for providing a constant gain over a wideband by providing a method of adjusting gain flatness with high linearity.

3. Summary of Solution to Invention

The present invention relates to an ultra-wideband RF transmitter, wherein, in an ultra-wideband RF transmitter, a baseband signal is converted into a current signal, and a high linear upward frequency for up-converting the converted current signal around a local oscillation signal. Conversion means; Ultra-wideband single output amplifying means for amplifying the frequency up-converted RF signal; And ultra-wideband output matching means for reducing power loss.

4. Important uses of the invention

The present invention is used for ultra wideband RF transmission.

Ultra Wideband, Wideband, RF Transmit, Converter, Amplifier

Description

Ultra wideband RF transmitter {Ultra Wideband RF transmitter}

1 is an exemplary configuration diagram of a conventional narrowband RF transmitter;

2 is a block diagram of an embodiment of an ultra-wideband RF transmission apparatus according to the present invention;

3 is a detailed circuit diagram of an embodiment of an ultra-wideband RF transmission apparatus according to the present invention.

* Explanation of symbols on the main parts of the drawing

21: high linear frequency converter 211: linear transconductor

212 dual balance mixer 22 ultra-wideband single output amplifier

23: ultra wide band output matching circuit

The present invention relates to an ultra-wideband RF transmitter, and more particularly has a high linearity, and can provide a constant gain over a wideband by providing a method for adjusting the gain flatness. It is about.

1 is an exemplary configuration diagram of a conventional narrowband RF transmitter.

As shown in FIG. 1, the conventional narrowband RF transmitter applies a direct conversion method that directly processes a received signal without passing through an intermediate frequency (IF), and raises the frequency. And a drive amplifier 102 for amplifying a signal up-modulated by the input / output frequency up-converter 101 and the up-modulated signal by the input-output frequency up-converter 101. The signal of the band is frequency up-modulated through the I / O up-frequency converter 101, and the signal modulated by the I / O up-frequency converter 101 is obtained through the driving amplifier 102.

At this time, both the input and output frequency converter 101 and the drive amplifier 102 are designed to operate only in a narrow band. In addition, a compensation circuit (Calibration Circuit) for preventing local oscillator (LO) leakage is additionally applied to the input and output frequency up-converter 101 to receive a control signal from the baseband modem to receive the local oscillator (LO) Minimize leakage

However, since the narrowband RF transmitter is designed to be operated only in the narrowband, there is a problem that it is not applicable to an ultra wideband (UWB) system.

SUMMARY OF THE INVENTION The present invention has been proposed to solve the above problems, and provides an ultra-wideband RF transmitter for providing a constant gain over a wideband by providing a method of adjusting gain flatness with high linearity. There is a purpose.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

An apparatus of the present invention for achieving the above object is, in an ultra-wideband RF transmitter, a high linear up frequency for converting the baseband signal into a current signal, and up-converting the converted current signal around a local oscillation signal Conversion means; Ultra-wideband single output amplifying means for amplifying the frequency up-converted RF signal; And ultra-wideband output matching means for reducing power loss.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of an embodiment of an ultra-wideband RF transmission apparatus according to the present invention.

As shown in FIG. 2, the ultra-wideband RF transmitter has a high linearity uplink frequency converter 21 for converting an input baseband signal into a current signal and converting the converted current signal into a frequency up-converting centering around the local oscillation signal. And an ultra-wideband single output amplifier 22 for amplifying the frequency signal up-converted by the high linear up-frequency converter 21, and an ultra-wideband output matching circuit 23 for reducing power loss of the device.

Here, the high linear up-frequency converter 21 is a linear transconductor 211 for converting a voltage signal into a current signal and a dual balance mixer 212 for modulating the current signal converted by the linear transconductor 211. It is composed of

)로 변환시키고, 선형 트랜스컨덕터(211)에 의해 변환된 전류 신호를 이중 밸런스 혼합기(212)로 입력된 국부 발진 신호를 중심으로 변조시킴으로써, 광대역 기저대역 신호를 상향 변환시킨다. 초광대역 단일 출력 증폭기(22)는 고선형 상향 주파수 변환기(21)에 의해 상향 변환된 RF 신호를 증폭시켜, 초광대역 정합 회로(23)를 통해 안테나로 유입시킨다.Referring to the operation of the ultra-wideband RF transmitter configured as described above, the linear transconductor 211 of the high linear frequency converter 21 is a baseband signal of less than 1 GHz, which is a voltage signal input thereto (broadband baseband). Signal) in a linear relationship to the current signal (of FIG.

) And up-convert the wideband baseband signal by modulating the current signal converted by the linear transconductor 211 around the local oscillation signal input to the dual balance mixer 212. The ultra wide band single output amplifier 22 amplifies the RF signal up-converted by the high linear up frequency converter 21 and enters the antenna through the ultra wide band matching circuit 23.

Here, the ultra-wideband RF transmitter does not use a separate differential to single-ended converter, but uses an ultra-wideband single output amplifier 22, thereby providing a differential to single signal converter. Since the integrated converter and amplifier are integrated into one, if the amplifier can fully amplify the output power, it does not need to consume additional current, but also when using a differential to single-ended converter. The problem of linearity degradation at the output stage may be solved.

3 is a detailed circuit diagram of an embodiment of an ultra-wideband RF transmission apparatus according to the present invention.

)으로 고정되어 있어, 저항(R2)과 인덕터(L2)의 조절에 의한 이득 평탄도 조절 기능은 거의 없고, 단지 이득(gain)의 증감에만 영향을 준다. 하지만, 저항(R1)과 인덕터(L1)를 통해 이득 평탄 조절이 가능하다.The output resistance of the ultra-wideband single output amplifier 22 is 50 ohms (

), The gain flatness adjustment function of the resistor R2 and the inductor L2 is hardly adjusted, and only the gain increases and decreases. However, the gain flatness can be adjusted through the resistor R1 and the inductor L1.

Hereinafter, a detailed circuit of the ultra-wideband RF transmitter according to the present invention will be described in detail.

The output load of the high linear frequency converter 21 is a structure in which a resistor (R1) and an inductor (L1) are connected in series, and the "Shunt-Peaking" theory ("The Design of CMOS Radio-Frequency Integrated Circuits, Ch. 8, Thomas H"). The gain flatness can be adjusted by adjusting the values of the resistor R1 and the inductor L1 based on "

Here, the inductor (L1) serves to determine the center frequency of the peaking (peaking), for example, in the case of the 3.1 ~ 5GHz band, the center frequency is near the frequency of 5GHz, the highest frequency of the band (3.1 ~ 5GHz) used Should be.

In this case, when the center frequency is lower than 5 GHz, two negative poles are positioned before 5 GHz. Therefore, a problem occurs that the gain is attenuated sharply. In the case where the center frequency is higher than 5 GHz, the inductor L1 Since the value of) decreases and the gain decreases, the value of the inductor L1 determining the center frequency should be appropriately selected. In the case of the resistor, the gain flatness is significantly changed according to the change in the value of the quality factor (Q). In particular, the change flatness may be significantly changed according to the value of the inductor L1. If an appropriate value of the inductor L1 is selected, the gain flatness can be secured by adjusting the value of the resistor R1.

The ultra-wideband single output amplifier 22 is designed to have transistors M13, M14, M15, and M16 constituting cascode, resistor Rf, capacitor Cf, and broadband characteristics constituting feedback. Load resistor R2 and inductor L2. Basically, the ultra-wideband single output amplifier 22 uses a differential structure, which uses a cascode resistor-capacitor (RC) feedback structure. The resistor Rf and the capacitor Cf in the feedback loop are not only related to the linearity and gain of the signal, but also to the stability of the amplifier.

At this time, the cascode structure is suitable for the structure of the broadband amplifier because it increases the output resistance to increase the gain, increases the isolation between the output and the input, and improves the frequency characteristic.

Since the antenna has a single input port, a differential to single-ended converter should be used, but in the present invention, the signal is extracted from one resistor R2 of the single output amplifier 22 and output.

The ultra-wideband matching circuit 23 can make broadband matching very easily by using a parallel filter structure using a resistor-capacitor RC.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, the present invention has a high linearity and provides a method for adjusting gain flatness to provide a constant gain over a wide band, and a differential to single-ended converter to an ultra wide band. Combined with a single output amplifier, the effect is to reduce current consumption.

Claims (9)

In the ultra-wideband RF transmitter, High linearity uplink frequency converting means for converting a baseband signal into a current signal and upconverting the converted current signal around a local oscillation signal; Ultra-wideband single output amplifying means for amplifying the frequency up-converted RF signal; And Ultra wideband output matching means to reduce power loss Ultra wideband RF transmission apparatus comprising a. The method of claim 1, The high linear upward frequency conversion means, Current signal conversion means for converting the voltage signal into a current signal; And Dual balanced modulation means for modulating the converted current signal Ultra wideband RF transmission apparatus comprising a. The method of claim 2, The ultra-wideband single output amplifying means, An ultra wideband RF transmitter, integrating a differential to single signal converter and an amplifier into one. The method of claim 3, wherein The ultra-wideband single output amplifying means, A transistor constituting the cascode; A first resistor and a second capacitor constituting the feedback; And An ultra wideband RF transmitter comprising a load third resistor and a third inductor designed to have broadband characteristics. The method of claim 4, wherein The ultra-wideband single output amplifying means, An ultra-wideband RF transmitter using a cascode resistor-capacitor feedback structure. The method of claim 5, The output resistance of the ultra-wideband single output amplifying means, 50 ohms

Ultra wideband RF transmitter, characterized in that is fixed to). The method of claim 6, The output load of the high linear upward frequency converting means, The ultra-wideband RF transmitter, characterized in that the second resistor and the second inductor is connected in series. The method of claim 7, wherein The high linear upward frequency conversion means, And controlling the gain flatness by adjusting the values of the first resistor and the first inductor. The method of claim 8, The ultra-wideband matching means, An ultra wideband RF transmitter using a parallel filter structure using a resistor-capacitor.

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