CN201409128Y - RF (Radio Frequency) transceiver correction device used for ZIF (zero intermediate frequency ) or LMF (Low Medium Frequency) structure - Google Patents

Abstract

The utility model provides an RF (Radio Frequency) transceiver correction device used for a ZIF (zero intermediate frequency ) or LMF (Low Medium Frequency) structure, comprising a detection module which is multiplexed with an RF transceiver and suitable for detecting analog signals; an AD (analog-digital) converter which is connected with the detection module and used for transforming the analogsignals into digital signals; and a compensator module which is connected between the AD converter and an analog baseband processing circuit of a transmitter of the RF transceiver and suitable for compensating the analog baseband processing circuit of the transmitter of the RF transceiver according to the digital signals. The RF transceiver correction device overcomes the problem in the prior artthat the correction method of carrier leak of the transceiver relies on the assistance of a digital baseband chip, thereby increasing the interface complexity of a transceiver chip and the digital baseband chip, narrowing the range of two-way selection and being not beneficial to reducing the system cost.

Description

The radio frequency transceiver means for correcting that is used for zero intermediate frequency or Low Medium Frequency structure

Technical field

The utility model relates to the communications field, in particular to a kind of radio frequency transceiver means for correcting that is used for zero intermediate frequency or Low Medium Frequency structure.

Background technology

Adopt the transceiver of zero intermediate frequency or Low Medium Frequency structure not need the outer mirror image rejects trap of sheet, power consumption and area are little, the integrated level height, thereby be subjected to extensive use.In the middle of these two kinds of structures, reasons such as electric capacity, substrate coupling or base band DC maladjustment can cause carrier wave (being local oscillator) signal to enter in the output spectrum of radio frequency sending set, and this effect is called carrier leak (CarrierLeak is called for short CL).Carrier leak can worsen the linearity of late-class circuit (power amplifier etc.), the skew of the planisphere initial point that causes transmitting.After going out, carrier transmit also can cause interference to other radio-frequency front-ends.In CDMA (Code Division Multiple Access, code division multiple access) system, carrier leak can be raised Noise Background, reduces the capacity of channel.Thereby need suppressed carrier to leak, to alleviate above-mentioned ill effect.

In zero intermediate frequency or Low Medium Frequency radio frequency transceiver, the carrier leak signal be positioned among the signal spectrum or the distance signal frequency band very near, can not utilize filter to be suppressed.The symmetry and the enhancing isolation that improve domain help the suppressed carrier leakage, but are unable to cope with the influence of factors such as environment, temperature, technology instability.So for some bigger systems of output dynamic requirements, only depend on said method can not satisfy system, need take other measures further to proofread and correct carrier leak to the requirement that suppressed carrier leaks.

Current transceiver carrier leak bearing calibration needs transceiver and digital baseband chip (Baseband Processor) collaborative work to finish correction.This method needs digital baseband chip or sheet external circuit to assist, and has not only increased the complexity of transceiver chip and digital baseband chip interface, and has dwindled the selectable range of digital baseband chip.

Fig. 1 shows the transceiver carrier leak correcting circuit schematic diagram of correlation technique.When this method is proofreaied and correct carrier leak, radio-frequency (RF) switch RFSW closure, the carrier leak signal flows to digital baseband chip through behind the down conversion link of receiver, digital baseband chip detects direct current signal in the received signal, and adds corresponding predistortion (Pre-distortion) according to the information that this direct current signal carries and offset carrier leak.Fig. 2 shows the another kind of transceiver carrier leak correcting circuit schematic diagram of correlation technique.The difference of Fig. 2 and Fig. 1 is that digital baseband chip output control word adds DC maladjustment in transmitter chain and offsets carrier leak.

In realizing the utility model process, the inventor finds that the bearing calibration of transceiver carrier leak in the prior art relies on the assistance of digital baseband chip, increase the complex interfaces degree of transceiver chip and digital baseband chip, dwindled the two-way choice scope, be unfavorable for reducing system cost.

The utility model content

The utility model aims to provide a kind of transceiver means for correcting and method that is used for zero intermediate frequency or Low Medium Frequency structure, the bearing calibration that can solve transceiver carrier leak in the prior art relies on the assistance of digital baseband chip, increased the complex interfaces degree of transceiver chip and digital baseband chip, dwindle the two-way choice scope, be unfavorable for reducing the problem of system cost.

In embodiment of the present utility model, a kind of transceiver means for correcting that is used for zero intermediate frequency or Low Medium Frequency structure is provided, comprising:

Detection module, itself and radio frequency transceiver are multiplexing, are suitable for detecting analog signal;

Analog to digital converter, it is connected with detection module, and being suitable for analog signal conversion is digital signal;

Compensating module, it is connected between the transmitter Analog Baseband treatment circuit of analog to digital converter and transceiver, is suitable for according to digital signal, and the transmitter Analog Baseband treatment circuit of transceiver is compensated.

Preferably, above-mentioned signal detection module comprises radio-frequency (RF) switch and radio-frequency (RF) signal strength detector, and wherein, radio-frequency (RF) switch is connected between the input of the output of transmitter mixer of radio frequency transceiver and radio-frequency (RF) signal strength detector; Radio-frequency (RF) signal strength detector and radio frequency transceiver are multiplexing.

Preferably, signal detection module comprises low-converter and baseband-detection unit, and baseband-detection unit input is connected with the output of low-converter.

Preferably, above-mentioned compensating circuit comprises: the control branch road is used for determining control word according to digital signal; The first DC compensation branch road is used for according to control word carrier signal being compensated, to reduce the carrier leak signal; The first DC compensation branch road output is connected with the input or the output of the transmitter Analog Baseband treatment circuit of radio frequency transceiver; The baseband-detection unit comprises the baseband signal intensity detector, and wherein, baseband signal intensity detector and radio frequency transceiver are multiplexing.

Preferably, the baseband-detection unit also comprises low pass or band pass filter, second switch and variable gain amplifier, and wherein, second switch is connected between the input of the output of variable gain amplifier and low pass or band pass filter; The output of low pass or band pass filter is connected with the input of baseband signal intensity detector; Low pass or band pass filter are the baseband filters multiplexing with the receiver of radio frequency transceiver; The baseband signal intensity detector is power detector or amplitude detector, and variable gain amplifier is a programmable gain amplifier.

Preferably, above-mentioned carrier leak means for correcting also comprises: the skew local oscillator produces circuit, and its output is connected with the input of described low-converter; The skew local oscillator produces circuit and comprises: frequency mixer, and its rf inputs connects the local oscillation signal of radio frequency transceiver, and its low frequency input terminal connects low frequency signal; Radio-frequency (RF) switch, it is connected between the input of the transmitter mixer output of radio frequency transceiver and low-converter; Wherein, the input of low-converter is connected with the output of the radio frequency amplifier of radio frequency transceiver; The input of radio frequency amplifier is connected with the output of the transmitter mixer of radio frequency transceiver.

Preferably, above-mentioned carrier leak means for correcting also comprises radio-frequency (RF) switch, and wherein, radio-frequency (RF) switch is connected between the input of the output of radio frequency amplifier of radio frequency transceiver and low-converter.

Preferably, above-mentioned compensating circuit also comprises: place the second DC compensation branch road of transmitter mixer, its input is connected with the output of control branch road.

Preferably, above-mentioned described frequency mixer is an orthogonal mixer, the skew local oscillation circuit also comprises except that the N circuit, wherein, two orthogonal radio frequency inputs of orthogonal mixer connect two orthogonal local oscillation signals of radio frequency transceiver respectively, and two low frequency input terminal is connected with two quadrature outputs that remove the N circuit; The input that removes the N circuit connects the local oscillation signal or the low frequency signal of radio frequency transceiver; N is an integer.

Preferably, above-mentioned carrier leak means for correcting also comprises: first switch and bias current sources, and wherein, an end of first switch is connected with the source electrode of the base band input transistors of radio frequency transceiver; Bias current sources is connected between the other end and ground of first switch.

The multiplexing signal detection module of the foregoing description utilization and radio frequency transceiver detects the intensity of carrier leak signal, utilize the conversion of signals after analog to digital converter will detect to be digital signal, and utilize compensating circuit that the transmitter Analog Baseband treatment circuit of transceiver is compensated according to digital signal, the assistance that makes means for correcting not rely on digital baseband chip has reduced power consumption and chip area, reduced system cost, overcome the assistance of the bearing calibration dependence digital baseband chip of transceiver carrier leak in the prior art, increased the complex interfaces degree of transceiver chip and digital baseband chip, dwindle the two-way choice scope, be unfavorable for reducing the problem of system cost.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, constitutes the application's a part, and illustrative examples of the present utility model and explanation thereof are used to explain the utility model, do not constitute improper qualification of the present utility model.In the accompanying drawings:

Fig. 1 shows the transceiver carrier leak correcting circuit schematic diagram of correlation technique;

Fig. 2 shows the another kind of transceiver carrier leak correcting circuit schematic diagram of correlation technique;

Fig. 3 shows the transceiver means for correcting module map that is used for zero intermediate frequency or Low Medium Frequency structure according to an embodiment of the utility model;

Fig. 4 shows the transceiver means for correcting schematic diagram according to an embodiment of the utility model;

Fig. 5 shows the transceiver means for correcting schematic diagram according to a preferred embodiment of the utility model;

Fig. 6 shows the schematic diagram according to the DC maladjustment compensating module DCOC of an embodiment of the utility model;

Fig. 7 shows the schematic diagram that produces circuit LO_OFG according to the skew local oscillator of an embodiment of the present utility model;

Fig. 8 shows the transceiver means for correcting schematic diagram according to a preferred embodiment of the utility model;

Fig. 9 shows according to the homophase of an embodiment of the utility model and proofreaies and correct schematic diagram;

Figure 10 shows the transceiver means for correcting schematic diagram that is used for transceiver according to a preferred embodiment of the utility model;

Figure 11 shows the carrier leak bearing calibration flow chart that is used for transceiver according to an embodiment of the utility model.

Embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

Fig. 3 shows the transceiver means for correcting module map that is used for zero intermediate frequency or Low Medium Frequency structure according to an embodiment of the utility model, comprising:

Detection module 10, itself and radio frequency transceiver are multiplexing, are suitable for detecting the intensity of analog signal;

Analog to digital converter 20, it is connected with detection module 10, and being suitable for above-mentioned analog signal conversion is digital signal;

Compensating module 30, it is connected between the transmitter Analog Baseband treatment circuit of analog to digital converter 20 and transceiver, is suitable for according to above-mentioned digital signal, and the transmitter Analog Baseband treatment circuit of transceiver is compensated.

The intensity of 10 pairs of carrier leak signals of detection module that present embodiment utilization and radio frequency transceiver are multiplexing detects, utilize the conversion of signals after analog to digital converter 20 will detect to be digital signal, and utilize the transmitter Analog Baseband treatment circuit of 30 pairs of transceivers of compensating module to compensate according to digital signal, the assistance that makes means for correcting not rely on digital baseband chip has reduced power consumption and chip area, reduced system cost, overcome the assistance of the bearing calibration dependence digital baseband chip of transceiver carrier leak in the prior art, increased the complex interfaces degree of transceiver chip and digital baseband chip, dwindle the two-way choice scope, be unfavorable for reducing the problem of system cost.

Preferably, detection module comprises radio-frequency (RF) switch and radio-frequency (RF) signal strength detector, and wherein, radio-frequency (RF) switch is connected between the input of the output of transmitter mixer of transceiver and radio-frequency (RF) signal strength detector; The radio-frequency (RF) signal strength detector is the radio-frequency (RF) signal strength detector multiplexing with transceiver, and it is.

Fig. 4 shows the transceiver means for correcting schematic diagram according to an embodiment of the utility model, present embodiment multiplex receiver radio frequency receiving signal intensity detector detected carrier is leaked, signal after detecting by analog to digital converter ADC digitlization then, and flowing to correction control circuit CALCC, the tuning DC maladjustment compensating module of CALCC DCOC is to reach the purpose of proofreading and correct carrier leak.All circuit all are integrated in the front-end chip, do not need the assistance of digital baseband chip or sheet external circuit.This method multiplex receiver radio frequency receiving signal detector has been saved power consumption and chip area greatly.Radio frequency amplifier RFAmp is in closed condition in the middle of the trimming process, avoids producing to external world interference.

Preferably, detection module comprises low-converter and baseband-detection unit, and wherein, baseband-detection unit input is connected with the output of low-converter.

Fig. 5 shows the transceiver means for correcting schematic diagram according to a preferred embodiment of the utility model.In the present embodiment, at first the carrier leak signal is down-converted to Analog Baseband, multiplex receiver baseband receiving signals detector RSSI _BBDetect, the signal after detecting by the ADC digitlization, and flow to correction control circuit CALCC, the tuning DC maladjustment compensating module of CALCC DCOC is to reach the purpose of proofreading and correct carrier leak.All circuit all are integrated in the front-end chip, do not need the assistance of digital baseband chip or sheet external circuit.Trimming process only is concerned about the monotonicity of input, and is not high to the linearity and the noise requirements of down-conversion mixer.Therefore the area and the power consumption of down-conversion mixer can be optimized.This method multiplex receiver baseband receiving signals detector has been saved power consumption and chip area greatly.Receiver RF amplifier RFAmp is in closed condition in the middle of the trimming process, avoids producing to external world interference.Low noise amplifier LNA and receiver frequency mixer RMixer are in closed condition in the trimming process, have avoided outer bound pair to proofread and correct and have produced interference.

Preferably, compensating module comprises:

The control branch road is used for determining control word according to digital signal;

The first DC compensation branch road DCOC (DC offset Correction) is used for according to above-mentioned control word carrier signal being compensated, to reduce the carrier leak signal.

The control branch road of compensating module in the present embodiment, determine that according to the digital signal that analog-to-digital conversion obtains control word is input to the first DC compensation branch road, the first DC compensation branch road is finished compensation to carrier signal according to this control word, to reach the purpose that minimizes the carrier leak signal.

Fig. 6 shows the schematic diagram according to the DC maladjustment compensating module DCOC of an embodiment of the utility model.This circuit is connected in parallel on the size of the adjustable interwoven crystal pipe in N position at input transistors M1 or M2 two ends by change, produces certain DC voltage difference between VO+ and VO-, thereby offsets the DC maladjustment of difference channel.

Preferably, the baseband-detection unit comprises the baseband signal intensity detector, and wherein, the baseband signal intensity detector is the baseband signal intensity detector multiplexing with transceiver.

Preferably, the baseband-detection unit also comprises low pass filter LPF (Low-Pass Filter) or band pass filter, second switch and variable gain amplifier VGA (Variable GainAmplifier), wherein, second switch is connected between the input of the output of variable gain amplifier and low pass or band pass filter; The output of low pass or band pass filter is connected with the input of baseband signal intensity detector; Low pass or band pass filter are the baseband filters multiplexing with the receiver of transceiver.

Utilize low pass or band pass filter that the analog baseband signal of low-converter output is carried out low pass or bandpass filtering in the present embodiment, and utilize variable gain amplifier to regulate the size of signal after the filtering, again will be through filtering and the signal after regulating input to the baseband signal intensity detector and finish detection.Like this, filtering unnecessary radio-frequency component in the analog baseband signal to be detected, reduced High-frequency Interference to the influence that testing result produces, the useful signal that will remove simultaneously after the interference is regulated, and the detection range of itself and baseband signal intensity detector is adapted.

Preferably, the baseband signal intensity detector is power detector or amplitude detector, and variable gain amplifier is a programmable gain amplifier.

The baseband signal intensity detector is a power detector in the present embodiment, and the size of its output voltage is corresponding to the watt level of detected analog baseband signal; Or amplitude detector, the size of its output voltage is corresponding to the amplitude size of detected analog baseband signal.The power of analog baseband signal and amplitude are the important parameters that characterizes its intensity, so detect its power or amplitude, then obtain the intensity of detected analog baseband signal.

Preferably, above-mentioned transceiver means for correcting also comprises: the skew local oscillator produces circuit, and its output is connected with the input of low-converter.

Present embodiment utilization skew local oscillator produces circuit and generates the skew local oscillation signal, and offers low-converter, is down-converted to the conversion of analog baseband signal to realize radiofrequency signal.

Preferably, above-mentioned transceiver means for correcting also comprises: radio-frequency (RF) switch RFSW (RadioFrequency Switch), it is connected between the input of the transmitter mixer output of transceiver and low-converter.

Present embodiment utilizes the break-make of radio-frequency (RF) switch control change circuit, and when radio-frequency (RF) switch was closed, radiofrequency signal inputed to low-converter, low pass filter, variable gain amplifier and the baseband signal intensity detector of translation circuit, and trimming process begins; When radio-frequency (RF) switch disconnected, radiofrequency signal was blocked, and can not input to low-converter, low pass filter, variable gain amplifier and the baseband signal intensity detector of translation circuit, and trimming process finishes.

Preferably, the input of above-mentioned low-converter is connected with the output of the radio frequency amplifier of transceiver; The input of radio frequency amplifier is connected with the output of the transmitter mixer device of transceiver.In the present embodiment, after the radiofrequency signal of being exported by the radio frequency amplifier of front end of emission is carried out down-conversion and detection, carrier signal is compensated.

Preferably, above-mentioned transceiver means for correcting also comprises radio-frequency (RF) switch, and wherein, radio-frequency (RF) switch is connected between the input of the output of radio frequency amplifier of transceiver and low-converter.

Present embodiment utilizes the break-make of radio-frequency (RF) switch control change circuit, when radio-frequency (RF) switch is closed, input to low-converter, low pass filter, variable gain amplifier and the baseband signal intensity detector of translation circuit by the radiofrequency signal of radio frequency amplifier output, trimming process begins; When radio-frequency (RF) switch disconnected, radiofrequency signal was blocked, and can not input to low-converter, low pass filter, variable gain amplifier and the baseband signal intensity detector of translation circuit, and trimming process finishes.

Preferably, the first DC compensation branch road output is connected with the input of the transmitter Analog Baseband treatment circuit of transceiver, at the input of Analog Baseband treatment circuit carrier signal is compensated.

Preferably, the input of the first DC compensation branch road is connected with the output of the transmitter Analog Baseband treatment circuit of transceiver, output at the Analog Baseband treatment circuit compensates carrier signal, the carrier signal that is caused by the transmitter mixer device is compensated, be fit to present embodiment.

Preferably, above-mentioned compensating module also comprises:

Place the second DC compensation branch road of transmitter mixer, its input is connected with the output of control branch road.

Preferably, skew local oscillator generation circuit comprises:

Frequency mixer, its rf inputs connects the local oscillation signal of transceiver, and its low frequency input terminal connects low frequency signal.

Preferably, above-mentioned low frequency signal is the low frequency signal that crystal oscillating circuit produces on outer low frequency signal of importing of sheet or the sheet.

Preferably, above-mentioned skew local oscillator produces circuit and comprises: frequency mixer and remove the N circuit, and wherein, the rf inputs of frequency mixer connects the local oscillation signal of transceiver, and its low frequency input terminal is connected with output except that the N circuit; The input that removes the N circuit connects the local oscillation signal or the low frequency signal of transceiver; N is an integer.Fig. 7 shows the schematic diagram that produces circuit LO_OFG according to the skew local oscillator of an embodiment of the present utility model, comprise two orthogonal mixers (IMixer, QMixer) and one and remove the N circuit, its annexation is: the input that removes the N circuit is connected to the local oscillation signal LO of front end of emission, two quadrature outputs that should remove the N circuit be connected respectively to the low frequency input terminal of two orthogonal mixers, and two orthogonal radio frequency inputs of orthogonal mixer are connected to two the orthogonal local oscillation signal LOI and the LOQ of front end of emission.As seen, the output signal of skew local oscillator generation circuit and the difference on the frequency of carrier leak signal are LO/N.

Preferably, low frequency signal is the low frequency signal that crystal oscillating circuit produces on outer low frequency signal of importing of sheet or the sheet.

Preferably, the skew local oscillator produces circuit and comprises: pair of orthogonal frequency mixer and remove the N circuit, wherein, two orthogonal radio frequency inputs of orthogonal mixer connect two orthogonal local oscillation signals of transceiver respectively, and two low frequency input terminal is connected with two quadrature outputs that remove the N circuit; The input that removes the N circuit connects the local oscillation signal or the low frequency signal of transceiver; N is an integer.

Preferably, low frequency signal is the low frequency signal that crystal oscillating circuit produces on outer low frequency signal of importing of sheet or the sheet.

Fig. 8 shows the transceiver means for correcting schematic diagram according to a preferred embodiment of the utility model, as shown in Figure 8, also comprises: first switch and bias current sources, and wherein, an end of first switch is connected with the source electrode of the base band input transistors of transceiver; Bias current sources is connected between the other end and ground of first switch.

In the present embodiment, when switch disconnects, to proofreading and correct with circuitry phase, when switch closure, quadrature network is proofreaied and correct, by homophase and quadrature branch are separately proofreaied and correct, reduced the resolution requirement of analog to digital converter ADC, further reduced the chip area and the power consumption of correcting circuit, overcome in the prior art when proofreading and correct the carrier leak of I (In-Phase, homophase) branch road, do not cut off Q (Quadrature, quadrature) therefore the influence of branch road needs high-resolution ADC, has increased the problem of power consumption and chip area.

In the above-described embodiments, homophase and quadrature branch are separately proofreaied and correct, when promptly proofreading and correct in-phase branch I, cut off the influence of quadrature branch Q.

When not cutting off the Q branch road, carrier leak CL derives from I and Q two parts, can be expressed as:

$\mathrm{CL}=\sqrt{A_{\mathrm{CL},I}^2+A_{\mathrm{CL},Q}^2}\sin ({\mathrm{\ω}}_{\mathrm{LO}}t+{\tan }^{-1}\frac{A_{\mathrm{CL},I}}{A_{\mathrm{CL},Q}})---\left(1\right)$

Wherein, A _{CL, I}And A _{CL, Q}Represent the carrier leak signal amplitude that I branch road and Q branch road cause respectively, ω _LOThe frequency of expression local oscillator (Local Oscillator is called for short LO) signal.Power (the P of carrier leak _CL1) can be expressed as:

${\mathrm{<figure-callout\; id="1"\; label="P\; CL"\; filenames="Y2009201081270027H1.png"\; state="\{\{state\}\}">P</figure-callout>}}_{\mathrm{CL}}\&Proportional;10\log (A_{\mathrm{CL},I}^2+A_{\mathrm{CL},Q}^2)---\left(2\right)$

If the carrier leak amplitude on I road has reduced dA _{CL, I}=xA _{CL, I}, and with A _{CL, I}Be expressed as yA _{CL, Q}, the power variation of carrier leak is so:

${\mathrm{dP}}_{\mathrm{CL}1}(x,y)=10\log \left[\frac{1+{(1-x)}^2\&CenterDot;y^2}{1+y^2}\right]---\left(3\right)$

When x=1, power variation reaches maximum:

|dP _CL1(y)| _max＝10log(1+y ²) (4)

As seen, the power variation of carrier leak depends on the carrier leak signal amplitude A of I/Q two-way _{CL, I}And A _{CL, Q}Between magnitude relationship.For carrying out smoothly that guaranteed output detects, the power variation of carrier leak should be greater than the detectable precision of power-sensing circuit.Suppose that the detectable precision of power-sensing circuit is 1.5dB, promptly requires dP _CL1(x y) greater than 1.5, then must have:

|dP _CL1(y)| _max＝10log(1+y ²)＞1.5?(5)

Fig. 9 shows according to the homophase of an embodiment of the utility model and proofreaies and correct schematic diagram, and as shown in Figure 9, calculating can draw y＞0.64 (3.8dB).This just means that the carrier leak on I road can only be suppressed to the low 3.8dB of carrier leak than Q road at most.If the carrier leak on Q road is-30dBm that the I road can only be suppressed to-33.8dBm so.If the carrier leak on I road is original just than more than the low 3.8dB in Q road, the correction on I road just can't correctly be carried out.

Carrier leak on the Q road is-situation of 30dBm under, be suppressed to I road carrier leak-below the 50dBm, then therefore y should be less than 0.1,

|dP _CL1(y)| _max＜0.04dB (6)

So the precision of power-sensing circuit also is less than 0.04dB.For the power detector of 50dB input range, require the precision of ADC to reach 10bit.If the scope of power detection increases, the required precision of ADC also can further improve.

When cutting off the Q branch road, only proofread and correct the I branch road, the result of Jiao Zhenging is just irrelevant with the magnitude relationship of I/Q two-way carrier leak so.Therefore, the power variation absolute value that needs only carrier leak is greater than the power detection precision, and trimming process just can normally be carried out.For the RSSI (Received Signal Strength Indicator, the indication of received signal intensity) of 90dB input detection range, 6bit accuracy A DC can provide the power detection precision of 1.4dB.As long as the power of carrier leak is in detection range, and the variable quantity of power is greater than 1.4dB, and this variation just can be detected.Therefore the carrier leak on I road can be repressed lower.Yet when the Q road did not cut off, the accuracy of detection of 1.4dB can only be suppressed to the carrier leak on I road than the carrier leak on Q road hanged down about 4dB.Unless the carrier leak on Q road itself is very little, otherwise the correction of the carrier leak on I road does not just have much effects.

Figure 10 shows the transceiver means for correcting schematic diagram that is used for transceiver according to a preferred embodiment of the utility model, as shown in figure 10, comprise a radio-frequency (RF) switch RFSW, first switch SW 1 and second switch SW2, a down-conversion mixer DMixer, a skew local oscillator produces circuit LO_OFG, a variable gain amplifier VGA, an analog to digital converter ADC, a correction control circuit CALCC and two tunable DC maladjustment compensating module DCOC.Its annexation is: the input of radio-frequency (RF) switch RFSW is connected to the output of transmitter mixer TMixer, the output of this radio-frequency (RF) switch is connected to an input of down-conversion mixer, another input of down-conversion mixer is connected to the output that the skew local oscillator produces circuit, the output of this down-conversion mixer is connected to the input of variable gain amplifier, the output of this variable gain amplifier is connected to the input of second switch SW2, the output of this switch is connected to the input of receiver low pass filter RLPF, the output of this low pass filter is connected to the input of receiver baseband receiving signals intensity detector RSSIBB, the output of this baseband receiving signals intensity detector is connected to the input of analog to digital converter, the output of this analog to digital converter is connected to the input of correcting controller, two outputs of this correcting controller are connected to the input of two DC maladjustment compensating modules, the input of this DC maladjustment compensating module is connected to the orthogonal input TI/TQ of transmitter, and its output is connected to the input of the low pass filter TLPF of transmitter.

Figure 11 shows the carrier leak bearing calibration flow chart that is used for transceiver according to an embodiment of the utility model, may further comprise the steps:

S102, the signal detection device of multiplex transmitting and receiving machine detects the intensity of carrier leak signal;

S104 carries out analog-to-digital conversion to the signal after detecting, and obtains digital signal of carrier leakage;

S106, compensating module be according to digital signal of carrier leakage, and the transmitter Analog Baseband treatment circuit of transceiver is carried out the DC maladjustment compensation.

The signal detection device of present embodiment multiplex transmitting and receiving machine detects the intensity of carrier leak signal, utilize the conversion of signals after analog to digital converter will detect to be digital signal, and utilize compensating module that the transmitter Analog Baseband treatment circuit of transceiver is compensated according to digital signal, the assistance that makes means for correcting not rely on digital baseband chip has reduced power consumption and chip area, reduced system cost, overcome the assistance of the bearing calibration dependence digital baseband chip of transceiver carrier leak in the prior art, increased the complex interfaces degree of transceiver chip and digital baseband chip, dwindle the two-way choice scope, be unfavorable for reducing the problem of system cost.

Preferably, the intensity of carrier leak signal detected specifically comprise:

Adopt the radio frequency receiving signal intensity detector that the intensity of carrier leak signal is detected.

Preferably, the transmitter Analog Baseband treatment circuit of transceiver being carried out the DC maladjustment compensation specifically comprises:

The carrier leak signal is carried out down-frequency conversion, obtain the analog baseband signal of carrier leak;

Detect the analog baseband signal of described carrier leak by the baseband signal intensity detector.

Preferably, the transmitter Analog Baseband treatment circuit of transceiver being carried out the DC maladjustment compensation specifically comprises:

The quadrature branch of shutter transceiver adopts the binary search algorithm to find optimum DC maladjustment compensating signal that the in-phase branch of transceiver is compensated;

Open quadrature branch, adopt the binary search algorithm to find optimum DC maladjustment compensating signal that quadrature branch is compensated.

Present embodiment adopts binary search algorithm relatively, and it is simple to calculate the algorithm of finding the solution, and is not subjected to the influence of factors such as temperature, technology, environment, good stability.Adopt the algorithm of binary search, correction time is shorter, makes to proofread and correct at the interval that powers on or launch data.

Preferably, in-phase branch/quadrature branch compensated specifically comprise:

Adopt the binary search algorithm to find optimum DC maladjustment compensating signal that the transmitter Analog Baseband treatment circuit of transceiver is compensated;

Adopt the binary search algorithm to find optimum DC maladjustment compensating signal that the transmitter mixer of transceiver is compensated.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present utility model or each step can realize with the general calculation device, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation element forms, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in the storage device and carry out by calculation element, perhaps they are made into each integrated circuit modules respectively, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the utility model is not restricted to any specific hardware and software combination.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection range of the present utility model.

Claims (10)

1. a radio frequency transceiver means for correcting that is used for zero intermediate frequency or Low Medium Frequency structure is characterized in that, comprising:

Detection module, itself and described radio frequency transceiver are multiplexing, are suitable for detecting analog signal;

Analog to digital converter, it is connected with described detection module, and being suitable for described analog signal conversion is digital signal;

Compensating module, it is connected between the transmitter Analog Baseband treatment circuit of described analog to digital converter and described transceiver, is suitable for according to described digital signal, and the transmitter Analog Baseband treatment circuit of described radio frequency transceiver is compensated.

2. carrier leak means for correcting according to claim 1 is characterized in that, described detection module comprises radio-frequency (RF) switch and radio-frequency (RF) signal strength detector, wherein

Described radio-frequency (RF) switch is connected between the input of the output of transmitter mixer of described radio frequency transceiver and described radio-frequency (RF) signal strength detector;

Described radio-frequency (RF) signal strength detector and described radio frequency transceiver are multiplexing.

3. carrier leak means for correcting according to claim 1 is characterized in that,

Described detection module comprises low-converter and baseband-detection unit, and described baseband-detection unit input is connected with the output of described low-converter.

4. carrier leak means for correcting according to claim 1 is characterized in that, described compensating module comprises:

The control branch road is used for determining control word according to described digital signal;

The first DC compensation branch road is used for according to described control word described carrier signal being compensated, to reduce the carrier leak signal;

The described first DC compensation branch road output is connected with the input or the output of the transmitter Analog Baseband treatment circuit of described radio frequency transceiver;

Described baseband-detection unit comprises the baseband signal intensity detector, and wherein, described baseband signal intensity detector and described radio frequency transceiver are multiplexing.

5. carrier leak means for correcting according to claim 3 is characterized in that, described baseband-detection unit also comprises low pass or band pass filter, second switch and variable gain amplifier, wherein

Described second switch is connected between the input of the output of described variable gain amplifier and described low pass or band pass filter;

The output of described low pass or band pass filter is connected with the input of described baseband signal intensity detector;

Described low pass or band pass filter are the baseband filters multiplexing with the receiver of described radio frequency transceiver;

Described baseband signal intensity detector is power detector or amplitude detector, and described variable gain amplifier is a programmable gain amplifier.

6. carrier leak means for correcting according to claim 3 is characterized in that, also comprises:

The skew local oscillator produces circuit, and its output is connected with the input of described low-converter;

Described skew local oscillator produces circuit and comprises: frequency mixer, and its rf inputs connects the local oscillation signal of described radio frequency transceiver, and its low frequency input terminal connects low frequency signal;

Radio-frequency (RF) switch, it is connected between the input of the transmitter mixer output of described radio frequency transceiver and described low-converter;

Wherein, the input of described low-converter is connected with the output of the radio frequency amplifier of described radio frequency transceiver;

The input of described radio frequency amplifier is connected with the output of the transmitter mixer of described radio frequency transceiver.

7. carrier leak means for correcting according to claim 3 is characterized in that, also comprises radio-frequency (RF) switch, wherein

Described radio-frequency (RF) switch is connected between the input of the output of radio frequency amplifier of described radio frequency transceiver and described low-converter.

8. carrier leak means for correcting according to claim 4 is characterized in that, described compensating module also comprises:

Place the second DC compensation branch road of described transmitter mixer, its input is connected with the output of described control branch road.

9. carrier leak means for correcting according to claim 8 is characterized in that, described frequency mixer is an orthogonal mixer, and described skew local oscillation circuit also comprises except that the N circuit, wherein

Two orthogonal radio frequency inputs of described orthogonal mixer connect two orthogonal local oscillation signals of described radio frequency transceiver respectively, and two low frequency input terminal is connected with described two quadrature outputs that remove the N circuit;

The described input that removes the N circuit connects the local oscillation signal or the low frequency signal of described radio frequency transceiver;

Described N is an integer.

10. according to each described carrier leak means for correcting among the claim 3-9, it is characterized in that, also comprise: first switch and bias current sources, wherein

One end of described first switch is connected with the source electrode of the base band input transistors of described radio frequency transceiver;

Described bias current sources is connected between the other end and ground of described first switch.

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