CN1268000A - Receiver with internal low-noise high-frequency amplifier - Google Patents

Abstract

A receiver with built-in low-noise high-frequency amplifier, includes: a high-pass filter, for carry out a high-pass filtering to the high-frequency signal; an antistatic unit, for the prevention of electrostatics contained in high-frequency signals; a low-noise high-frequency amplifier, for using single-gate field-effect transistors to amplify and output the signals when the electric field intensity of the high-frequency signals is weak; a high-frequency switching unit, for bypassing the high-frequency signals when the electric field intensity of the high-frequency signals is high; and a controller, for judging the electric field intensity of the high-frequency signals based on Automatic Gain Control, and outputing control signals to selectively drive a low-noise high-frequency amplifier and a high-frequency switching unit.

Description

Be built-in with the receiving system of low-noise high-frequency amplifier

The present invention relates to be used for amplifying the HF receiver of faint high-frequency signal, for example television set by low-noise high-frequency amplifier; Be particularly related to a kind of receiving system that is built-in with low-noise high-frequency amplifier, it can guarantee high-gain, good low-noise characteristic and good linearty.

Fig. 1 is the schematic block diagram according to the receiving system that is built-in with low-noise high-frequency amplifier of prior art.

As shown in the figure, this receiving system that is built-in with low-noise high-frequency amplifier comprises: the low-noise high-frequency amplifier 1 that is made of field-effect transistor FET1, be used to receive switch control voltage CTR, and the high-frequency signal RF that will be input to first grid terminal G1 is to amplify according to the set yield value of bias voltage that is input to second grid terminal G2 and to export as bias voltage; High frequency bypass block 2 is used for not making high-frequency signal RF bypass during amplifying high frequency signal RF when low-noise high-frequency amplifier 1; Switch control unit 3 is used for the operation of control high frequency bypass block 2 under the control of switch control voltage CTR; VHF/UHF separative element 4 is used for from that amplify by low-noise high-frequency amplifier 1 or separate very high frequency(VHF) and hyperfrequency from the high-frequency signal RF through high frequency bypass block 2 bypass; Amplifier 5 and 6 is used for amplifying respectively the VHF signal and the UHF signal that are separated; Tuner 7 is used for being the corresponding passage of output signal selection from amplifier 5 or amplifier 6 according to the tuning data of slave microcomputer 12 (waiting to illustrate) output, and the high-frequency signal of this passage is converted to intermediate-freuqncy signal; Intermediate frequency amplifying unit 8 is used to amplify intermediate-freuqncy signal and output from tuner 7 outputs; Intermediate frequency detecting unit 9 is used for detecting original image signal from the intermediate-freuqncy signal IF that is amplified; Picture intelligence processing unit 10 is used for suitably handling so that show at CPT11 from the faint picture intelligence of intermediate frequency detecting unit 9 outputs; And microcomputer 12, be used for AGC (automatic gain control) voltage V from 9 outputs of intermediate frequency detecting unit _AGCCompare with a predetermined registration operation voltage, and output is corresponding to the switch control voltage CTR of comparative result.

With reference to Fig. 2 the operation of the receiving system that is built-in with low-noise high-frequency amplifier of prior art is described below.

Under the situation of microcomputer 12 output high level switch control voltage CTR, low-noise high-frequency amplifier 1 is activated, and under the situation of microcomputer 12 output low level switch control voltage CTR, then is that high frequency bypass block 2 is activated.Therefore, the high-frequency signal RF by antenna ANT input according to the difference of switch control voltage CTR, is provided for VHF/UHF separative element 4 by low-noise high-frequency amplifier 1 or by high frequency bypass block 2.

VHF/UHF separative element 4 is isolated VHF signal and UHF signal and output from the high-frequency signal by the input of above-mentioned path, two kinds of signals of this that exported are then amplified by amplifier 5 and 6 respectively.

Tuner 7 is carried out the selection function of the output signal of the output signal of pair amplifier 5 or amplifier 6 according to the tuning data of slave microcomputer 12 output, and the high-frequency signal of respective channel is converted to intermediate-freuqncy signal and output.

To be amplified to predetermined level from the intermediate-freuqncy signal of tuner 7 outputs by intermediate frequency amplifying unit 8, intermediate frequency detecting unit 9 detects original image signal from the intermediate-freuqncy signal of being amplified.By picture intelligence processing unit 10 detected picture intelligence like this is presented on the CPT11.

Simultaneously, when output high level switch controlling signal CTR thereby driving low-noise high-frequency amplifier 1, microcomputer 12 is read from the AGC (automatic gain control) voltage V of intermediate frequency detecting unit 9 outputs by input port A/D _AGC, and this voltage and herein a predeterminated voltage compared, the opereating specification of switch control voltage CTR is set according to this comparative result then.

The opereating specification that switch control voltage CTR is set is in order to prevent because the variation of the electric field strength of high-frequency signal RF or because AGC (automatic gain control) voltage V _AGCVariation and make low-noise high-frequency amplifier 1 start continually or close.

For this purpose, microcomputer 12 changes the opereating specification that is used to start or cut out the switch control voltage CTR of low-noise high-frequency amplifier 1 in manufacture process, or after product puts goods on the market, carry out this work by the televiewer, its excursion is Va0 Van and Vb0 Vbn.For example, change comparatively strong zone at signal, the opereating specification of switch control voltage CTR is set to the scope of broad, i.e. Van and Vbn.

When microcomputer 12 with AGC (automatic gain control) voltage V _AGCAfter comparing with its inner input operating range Vbn that is provided with, if identify AGC (automatic gain control) voltage V _AGCThan input operating range Vbn height, then to judge what imported be a faint high-frequency signal RF to microcomputer 12, so its output high level switch control voltage CTR.

On the other hand, when carrying out above-mentioned the comparison, if judge AGC (automatic gain control) voltage V _AGCVan is low than minimum operation voltage, and then to judge what imported be the last one high-frequency signal to microcomputer 12, so its output low level switch control voltage CTR.

Under the situation of output high level switch control voltage CTR, it is by the resistance R 1 of low-noise high-frequency amplifier 1, R3 and R4 dividing potential drop, and be provided to the first grid electrode G1 of field-effect transistor FET11, noise is wherein removed by capacitor C3.

Simultaneously, the high level switch control voltage CTR that is exported is also by resistance R 7 and R8 dividing potential drop and be provided to the second gate electrode G2 of field-effect transistor FET11, thereby is provided with a certain size gain for field-effect transistor FET11.

Therefore, when providing first grid electrode G1 to field-effect transistor FET11 by antenna ANT and capacitor C1 with high-frequency signal RF, it outputs to drain electrode D then according to being exaggerated by the set yield value of the voltage that is loaded into the second gate electrode G2.

The high-frequency signal RF that is amplified by field-effect transistor FET11 is provided to VHF/UHF separative element 4 by resistance R 5 and capacitor C7, handles with aforementioned manner then.At this moment, the transistor Q1 of switch control unit 3 is made power supply terminal voltage B1 flow into earth point by transistor Q1 thus, thereby high frequency bypass block 2 is closed by high level that exported switch control voltage CTR conducting.

Simultaneously, under the situation of microcomputer 12 output low level switch control voltage CTR, field-effect transistor FET11 is cut off, and transistor Q1 also is cut off.

Therefore, low-noise high-frequency amplifier 1 is closed and high frequency bypass block 2 is switched to " ON " state, makes that the high-frequency signal RF by antenna ANT and capacitor C1 is sent to VHF/UHF separative element 4 via diode D1 and D2 and capacitor C8.

The result is that as shown in Figure 2, microcomputer 12 is according to AGC (automatic gain control) voltage V _AGCVariation the ON/OFF opereating specification of switch control voltage CTR is changed into " Va0-Vb0 " or " Van-Vbn ", thereby the field-effect transistor FET11 that can prevent low-noise high-frequency amplifier 1 is in critical point conducting or end continually.

But, for receiver according to prior art, the problem of the AGC (automatic gain control) voltage though it adopts the double gated field-effect transistor to solve this amplifier in low-noise high-frequency amplifier and frequent switch and improved the S/N characteristic, yet its inaccessible high-gain, and has the shortcoming that NF (noise factor) characteristic reduces.

Therefore, an object of the present invention is to provide a kind of receiving system that is built-in with low-noise high-frequency amplifier, it has guaranteed high-gain, good low-noise characteristic and the good linearity by using single grid type GaAs field-effect transistor.

Another object of the present invention provides a kind of receiving system that is built-in with low-noise high-frequency amplifier, under the excessive situation of the electric field difference between VHF frequency band and the UHF frequency band, amplify a faint electric field signal, in this respect, prevented that stronger electric field signal is exaggerated relatively, thereby made it can not disturb this faint electric field signal.

In order to realize these and other advantage and according to purpose of the present invention, as this paper enforcement and broad sense explanation, a kind of receiving system that is built-in with low-noise high-frequency amplifier is provided, has comprised: a high pass filter is used for the high-frequency signal that receives by antenna is carried out high-pass filtering; One antistatic unit is used for preventing by the contained static of the high-frequency signal of high pass filter; One low-noise high-frequency amplifier under the fainter situation of the electric field strength of the high-frequency signal of being imported, is used for the high-frequency signal from the output of antistatic unit is amplified and exporting by the single grid type field-effect transistor that uses its inside to provide; One HF switch unit under the electric field strength condition with higher of the high-frequency signal of being imported, is used to make the high-frequency signal bypass from the output of antistatic unit; And a controller, be used for according to judging the electric field strength of high-frequency signal, and export a control signal optionally to drive low-noise high-frequency amplifier and HF switch unit from the AGC (automatic gain control) voltage of tuning part output.

This receiving system that is built-in with low-noise high-frequency amplifier comprises that also the intermediate frequency that is connected to rear end, antistatic unit blocks the unit, is used for blocking the contained intermediate frequency of high-frequency signal.

In the receiving system that is built-in with low-noise high-frequency amplifier of the present invention, high pass filter is made up of capacitor and coil.

In the receiving system that is built-in with low-noise high-frequency amplifier of the present invention, antistatic unit comprises that two are connected in parallel and diode that direction is opposite, thereby blocks positive polarity static and negative polarity static simultaneously.

In the receiving system that is built-in with low-noise high-frequency amplifier of the present invention, low-noise high-frequency amplifier comprises: resistance R 31-R33 and R38 are used for providing DC bias voltage when from switch control unit output switch control voltage B+, so that the conducting field-effect transistor; With diode D33, be used for providing the conducting electric current to a grid.

In the receiving system that is built-in with low-noise high-frequency amplifier of the present invention, controller comprises: microcomputer, be used for judging electric field strength by comparing with the inner voltage that is provided with from the AGC (automatic gain control) voltage of tuning part output, and according to comparative result output high level signal or low level signal; And switch control unit, be used for switch control voltage being provided to tuning part according to output signal from microcomputer.

In order to realize above purpose, a kind of receiving system that is built-in with low-noise high-frequency amplifier is provided, it comprises: high pass filter is used for the high-frequency signal that the input terminal by antenna receives is carried out high-pass filtering; Antistatic unit is used for blocking positive polarity static and negative polarity static that the high-frequency signal by high pass filter contains; Intermediate frequency blocks the unit, is used for blocking the intermediate frequency that the high-frequency signal by antistatic unit contains; Be connected to the UHF filter that intermediate frequency blocks the rear end, unit, be used for only making the UHF frequency band of high-frequency signal to pass through; Be connected to the VHF filter that intermediate frequency blocks the rear end, unit, be used to make the VHF frequency band of high-frequency signal to pass through; Be connected to the UHF and the VHF low-noise high-frequency amplifier of UHF filter and VHF filter rear end respectively, it is under the fainter situation of the electric field strength of the high-frequency signal of being imported, driven by switch control voltage from switch control unit output, and by using inner single grid type field-effect transistor that the signal from UHF filter and the output of VHF filter is amplified and exporting; Be connected in parallel to the UHF and the VHF HF switch unit that are positioned at the low-noise high-frequency amplifier behind UHF filter and the VHF filter respectively, it is under the electric field strength condition with higher of institute's input high-frequency signal, driven by switching voltage from switch control unit output, and by using inner single grid type field-effect transistor to make the output signal bypass of UHF filter and VHF filter; Tuner is used for and will be amplified to appropriate level from each low-noise high-frequency amplifier or from the high-frequency signal of each HF switch unit output; UHF and VHF switch control unit are used under the control of microcomputer switch control voltage being provided to each low-noise high-frequency amplifier or each HF switch control unit; Intermediate frequency and image processing unit are used for the intermediate-freuqncy signal regeneration original image signal from tuner output, and it is amplified to the level that is suitable for showing on CPT, thus output; And microcomputer, be used for and will compare, and control the driving of each switch control unit according to comparative result from the AGC (automatic gain control) voltage of tuner output and the voltage of internal preset.

In the receiving system that is built-in with low-noise high-frequency amplifier of the present invention, optionally drive each switch control unit according to the signal band of being imported.

Comprise and be used to provide the part that the accompanying drawing that the present invention is further understood has constituted specification, shown embodiments of the invention, and be used from specification one and explain principle of the present invention.

Wherein:

Fig. 1 is the block diagram according to the receiving system that is built-in with low-noise high-frequency amplifier of prior art;

Fig. 2 is the schematic diagram that shows according to operative relationship between the AGC (automatic gain control) voltage of prior art and the low-noise high-frequency amplifier;

Fig. 3 is the block diagram that is built-in with the receiving system of low-noise high-frequency amplifier according to an embodiment of the invention; With

Fig. 4 is the block diagram that is built-in with the receiving system of low-noise high-frequency amplifier in accordance with another embodiment of the present invention.

To the preferred embodiment of the present invention that show in the accompanying drawing be elaborated below.

Fig. 3 is the block diagram that is built-in with the receiving system of low-noise high-frequency amplifier according to an embodiment of the invention.

As shown in the figure, this receiving system that is built-in with low-noise high-frequency amplifier comprises: high pass filter 31 is used for the high-frequency signal RF that the input terminal ANT IN by antenna receives is carried out high-pass filtering and blocks the static that is included among the high-frequency signal RF; Antistatic unit 32 is used for blocking positive polarity static and negative polarity static that the high-frequency signal by high pass filter 31 comprises; Intermediate frequency blocks unit 33, is used for blocking the intermediate frequency that the high-frequency signal by antistatic unit 32 comprises; Low-noise high-frequency amplifier 34, it is under the fainter situation of the electric field strength of institute's input high-frequency signal, driven by switch control voltage B+, and the output signal that intermediate frequency blocks unit 33 is amplified by the single grid type field-effect transistor FET31 that uses inside to provide from switch control unit 38 outputs; HF switch unit 35, it is under the electric field strength condition with higher of institute's input high-frequency signal, driven by switch control voltage B+, and make intermediate frequency block the output signal bypass of unit 33 by the single grid type field-effect transistor FET32 that uses inside to provide from switch control unit 38 outputs; Tuner 36, the high-frequency signal that is used for being exported from low-noise high-frequency amplifier 34 or HF switch unit 35 is isolated UHF signal and VHF signal, and it is amplified to appropriate level; Switch control unit 38 is used under the control of microcomputer 40 (waiting to illustrate) switch control voltage B+ being provided to tuning part 37; Intermediate frequency and image processing unit 39 are used for the intermediate-freuqncy signal regeneration original image signal from tuning part 37 outputs, and it is amplified to the level that is suitable for showing on CPT41, thus output; And microcomputer 40, be used for AGC (automatic gain control) voltage AGC and internal preset voltage from tuning part 37 outputs are compared, and control the driving of each switch control unit 38 according to comparative result.

To the operation of the receiving system that is built-in with low-noise high-frequency amplifier with said structure be described below.

The high-frequency signal RF that input terminal ANT_IN by antenna receives is imported into high pass filter 31, and the high fdrequency component that wherein only is higher than 400MHz is passed through, and dc voltage gets clogged.

Different with the general broadcast signal, in local cable broadcasting, in order to amplify the signal of the transmitter of installing with predetermined space, the dc voltage as switching voltage that is added may make coil be short-circuited.In this respect, the effect of the capacitor C31 of high pass filter 31 is exactly to block this dc voltage.In addition, the function of this capacitor also comprises, prevents because the damage to the field-effect transistor FET32 of the field-effect transistor FET31 of HF switch unit 34 and HF switch unit 35 that static causes.

In order to prevent that the static that comprises in the high-frequency signal by high pass filter 31 from causing damage to field-effect transistor FET31 and FET32, make the RF signal of being imported by antistatic unit 32.It is the electrostatic component of positive polarity (+) that the diode D31 of antistatic unit 32 blocks with respect to earth terminal GND, and diode D32 blocks the electrostatic component of negative polarity (-).

High-frequency signal RF by antistatic unit 32 is sent to low-noise high-frequency amplifier 34 and HF switch unit 35 via intermediate frequency obstruction unit 33.At this moment, the effect of intermediate frequency obstruction unit 33 is to block the intermediate frequency that comprises in the high frequency component signal.

When output high level switch control voltage B+, low-noise high-frequency amplifier 34 is activated, resistance R 31-R33 and R38 by low-noise high-frequency amplifier 34 load the DC bias voltage, make diode D33 and D35 conducting, the high-frequency signal of input is amplified by field-effect transistor FET31, through capacitor C43 coupling, be sent to tuner 36.

Herein, coil L34 is used for impedance matching, and capacitor C36 is used for decoupling, and capacitor C34 and C35 are used to remove ripple noise.Resistance R 35 is used for the stability of negative feedback to enlarge frequency bandwidth and to improve low-noise high-frequency amplifier 34.Capacitor C37-C39 is used to improve the high pass characteristic of low-noise high-frequency amplifier 34.The effect of the diode D35 of diode D33 and HF switch unit 35 is to utilize the DC bias voltage that signal is passed through when low-noise high-frequency amplifier 34 is the ON state, and make signal jam when low-noise high-frequency amplifier 34 is the OFF state.

In HF switch unit 35, when output high level switch control voltage B+, owing to have resistance R 36 and R37 that bias voltage is carried between the grid and drain electrode of field-effect transistor FET32, field-effect transistor FET32 is cut off thus.

But if output low level switch control voltage B+, then field-effect transistor FET32 is switched on, and makes the high-frequency signal of being imported pass through field-effect transistor FET32 without amplification, and is input to tuner 36 by capacitor C43.

As a reference, under the situation of highfield, low-noise high-frequency amplifier 34 gets clogged, and high-frequency signal is in statu quo by field-effect transistor FET32.In this respect, compare, can produce by transistor FET32 and insert loss with the tuning part of prior art.For this reason, circuit design shown in Figure 3 is reduced to minimum for making this loss.

Capacitor C40 and C41 are used for coupling.Resistance R 36 and R37 and diode D35 are used to provide the DC bias voltage.Capacitor C42 is used to remove noise.

According to the switch control voltage B+ that is exported is high level or low level, combination is carried out in operation to low-noise high-frequency amplifier 34 and HF switch unit 35, makes the high-frequency signal of being imported be provided to tuner 36 by low-noise high-frequency amplifier 34 or by HF switch unit 35.After this, detect the UHF signal and make it pass through UHF filter 36A and amplifier AMP31 output, or detect the VHF signal and make it pass through VHF filter 36B and amplifier AMP32 output.

At this moment, microcomputer 40 will compare from AGC (automatic gain control) voltage AGC and its internal preset voltage of tuning part 37 outputs, if AGC (automatic gain control) voltage AGC is lower than predeterminated voltage, it is faint that then microcomputer 40 is judged the electric field strength of the high-frequency signal of being imported, therefore and export high-level control signal CS, this signal is switched on the transistor Q32 of switch control unit 38, subsequently, transistor Q31 is switched on, thereby makes switch control voltage CTR by transistor Q31 output and as switch control voltage B+.

Simultaneously, according to comparative result, if identify the internal preset voltage that AGC (automatic gain control) voltage AGC is higher than microcomputer 40, it is higher that then microcomputer 40 is judged the electric field strength of the high-frequency signal of being imported, and output low level control signal CS, this signal ends the transistor Q32 and the Q31 of switch control unit 38, thus the switch control voltage B+ of output low level.

After will being intermediate frequency from the high frequency UHF signal of the amplifier AMP31 of tuner 36 and AMP32 output or high frequency VHF conversion of signals, it is provided to intermediate frequency and image processing unit 39, therefrom original image signal is enlarged into and is adapted at level and the output that CTP41 goes up demonstration.

As a reference, the field-effect transistor FET35 of low-noise high-frequency amplifier 34 and the field-effect transistor FET32 of HF switch unit 35 are manufactured to single grid type GaAs transistor, so that guarantee high-gain, good low-noise characteristic and the good linearity.

But so the problem of field-effect transistor FET31 that makes and FET32 existence is that antistatic effect is relatively poor.Given this, the present invention solves this problem by raising as the capacitance of the capacitor C31 of high pass filter 31 parts and by diode D31 and the D32 obstruction static that utilizes antistatic unit 32.

Fig. 4 is the block diagram that is built-in with the receiving system of low-noise high-frequency amplifier in accordance with another embodiment of the present invention, its problem that is used to solve is, under the excessive situation of the electric field difference between two frequency bands (UHF frequency band and VHF frequency band), the signal of strong relatively frequency band may excessively be amplified in these two electric fields, consequently amplifying signal can disturb the signal of faint relatively frequency band, the signal of the feasible selected passage of can't regenerating.

As shown in the figure, this receiving system that is built-in with low-noise high-frequency amplifier comprises: high pass filter 31 is used for the high-frequency signal that the input terminal by antenna receives is carried out high-pass filtering; Antistatic unit 32 is used for blocking positive polarity static and negative polarity static that the high-frequency signal by high pass filter 31 comprises; Intermediate frequency blocks unit 33, is used for blocking the intermediate frequency that the high-frequency signal by antistatic unit 32 comprises; Be connected to UHF filter 36A and VHF filter 36B that intermediate frequency blocks 33 rear ends, unit respectively, be used for only making the UHF frequency band of high-frequency signal or VHF frequency band to pass through; Be connected to the low-noise high-frequency amplifier 34A and the 34B of UHF filter and VHF filter rear end respectively, it is under the faint situation of the electric field strength of institute's input high-frequency signal, driven by switch control voltage from switch control unit output, and by using inner single grid type field-effect transistor that the signal from UHF filter and the output of VHF filter is amplified and exporting; Respectively with the low-noise high-frequency amplifier 34A that is positioned at UHF filter and VHF filter and HF switch unit 35A and 35B that 34B is connected in parallel, it is under the high situation of the electric field strength of institute's input high-frequency signal, driven by switching voltage from switch control unit output, and by using inner single grid type field-effect transistor to make the output signal bypass of UHF filter and VHF filter; Tuner 42 is used for and will be amplified to appropriate level from each low-noise high- frequency amplifier 34A and 34B or from the high-frequency signal of each HF switch unit 35A and 35B output; Switch control unit 38A and 38B are used under the control of microcomputer, provide switch control voltage to each low-noise high- frequency amplifier 34A and 34B or each HF switch unit 35A and 35B; Intermediate frequency and image processing unit 39 are used for from the intermediate-freuqncy signal of the tuner output original image signal of regenerating, and it is amplified to the level that is suitable for showing on CPT, thus output; And microcomputer 40, be used for AGC (automatic gain control) voltage and internal preset voltage from tuner output are compared, and control the driving of each switch control unit 38A and 38B according to comparative result.

To the operation of the receiving system that is built-in with low-noise high-frequency amplifier in accordance with another embodiment of the present invention of said structure be described below.

Identical among the operation that high pass filter 31, antistatic unit 32 and intermediate frequency block unit 33 and Fig. 3, so save explanation to it.

The signal that blocks unit 33 by intermediate frequency is transferred into UHF filter 36A and VHF filter 36B.Specifically, a signal is input to tuner as the UHF band signal, and it has passed through UHF filter 36A; And another signal is input to tuner as the VHF band signal, and it has passed through VHF filter 36B.

At this moment, at institute's input signal is under the situation of UHF band signal, it is sent to UHF low-noise high-frequency amplifier 34A and UHF HF switch unit 35A simultaneously, and be under the situation of VHF band signal at institute's input signal, it is sent to VHF low-noise high-frequency amplifier 34B and VHF HF switch unit 35B simultaneously.

Under the situation of input UHF band signal, if from UHF switch control unit 38A output high level switch control voltage B1+, then resistance R 31-33 and the R38 by UHF high-frequency amplifier 34A loads the DC bias voltage, makes diode D33 and D35 conducting.Therefore, amplify the high-frequency signal of being imported, by means of capacitor C43 coupling, be sent to UHF amplifier AMP31 then by field-effect transistor FET31.

At this moment, in VHF switch control unit 38B, output low level VHF switch control voltage B2+ makes VHF low-noise high-frequency amplifier 34B be cut off.

On the other hand, under the situation of input VHF band signal, if from VHF switch control unit 38B output high level switch control voltage B2+, then resistance R 51-53 and the R58 by VHF high-frequency amplifier 34B loads the DC bias voltage, makes diode D53 and D55 conducting.Therefore, amplify the high-frequency signal of being imported, by means of capacitor C63 coupling, be sent to VHF amplifier AMP32 then by field-effect transistor FET51.

At this moment, output low level UHF switch control voltage B1+ makes UHF low-noise high-frequency amplifier 34A be cut off.Herein, coil L34 and L35 are used for impedance matching, and capacitor C36 and C56 are used to remove ripple noise.

Resistance R 35 and R55 are used for negative feedback, with the stability that enlarges frequency bandwidth and improve low-noise high-frequency amplifier 34.Capacitor C37-C39 and C57-C59 are used to improve the high pass characteristic of low-noise high-frequency amplifier 34A and 34B.Diode D33 and D53 and HF switch unit 35A and 35B are used for by means of the DC bias voltage signal being passed through when low-noise high- frequency amplifier 34A and 34B are the ON state, and when low-noise high-frequency amplifier 34 is the OFF state with signal jam.

In UHF HF switch unit 35A, when output high level UHF switch control voltage B1+, because resistance R 36 and R37 make bias voltage be loaded between the grid and drain electrode of field-effect transistor FET32, thereby field-effect transistor FET32 is cut off.At this moment, output low level VHF switch control voltage B2+, VHF field-effect transistor FET52 is switched on, and makes the VHF band signal from field-effect transistor FET52 bypass, and is not amplified by low-noise high-frequency amplifier 34B.

On the contrary, under the situation of input VHF signal, when output high level VHF switch control voltage B2+, because resistance R 56 and R57 among the VHF HF switch unit 35B, make bias voltage be loaded between the grid and drain electrode of field-effect transistor FET52, thereby field-effect transistor FET52 is cut off.

At this moment, the UHF switch control voltage B1+ of output has low level, and UHF field-effect transistor FET32 is switched on, and makes the UHF frequency band from field-effect transistor FET32 bypass, and is not amplified by low-noise high-frequency amplifier 34A.

If the switch control voltage B1+ and the B2+ of output have low level, then field-effect transistor FET32 and FET52 are switched on, and make high-frequency signal in statu quo pass through.

Herein, capacitor C40, C41, C60 and C61 are used for coupling, resistance R 36, and R37, R56 and R57 and diode D35 and D55 are used for the DC bias voltage, and capacitor C42 and C62 are used to remove noise.

For combination is carried out in the operation of low-noise high- frequency amplifier 34A and 34B and HF switch unit 35A and 35B, under the situation of input UHF signal, VHF switch control voltage B2+ always becomes " low ", under this state, the UHF switch control voltage B1+ that depends on output is high level or low level, by UHF low-noise high-frequency amplifier 34A or UHF HF switch unit 35A the frequency signal of importing is provided to tuner amplifier 42, detect the UHF signal by UHF amplifier AMP31 thus.

Simultaneously, under the situation of input VHF signal, UHF switch control voltage B1+ always becomes " low ", under this state, the VHF switch control voltage B2+ that depends on output is high level or low level, by VHF low-noise high-frequency amplifier 34B or VHF HF switch unit 35B the frequency signal of importing is provided to tuner amplifier 42, detect the VHF signal by VHF amplifier AMP32 thus.

At this moment, under the situation of input UHF signal, microcomputer 40 becomes the control signal CS2 of output to have low level always, and will compare from the AGC (automatic gain control) voltage AGC and the internal preset voltage of tuning part 37 outputs.According to this relatively, if AGC (automatic gain control) voltage AGC is lower than internal preset voltage, it is faint that then microcomputer 40 is judged the electric field strength of UHF high-frequency signal, and make the control signal CS1 of output become high level, according to this signal, the transistor Q32 of UHF switch control unit 38A is switched on, subsequently, transistor Q31 is switched on, and makes UHF switch control voltage B1+ export by the transistor Q31 of UHF switch control unit 38A.

On the other hand, according to this relatively, be higher than predeterminated voltage if identify AGC (automatic gain control) voltage AGC, then microcomputer 40 is judged the electric field strength height of institute's input high-frequency signal, and output has low level UHF signal CS1, according to this signal, transistor Q32 and the Q31 of switch control unit 38A are cut off, and make the UHF switch control voltage B1+ of output have low level.

Simultaneously, under the situation of input VHF signal, microcomputer 40 becomes the UHF control signal CS1 of output to have low level always, and will compare from the AGC (automatic gain control) voltage AGC and the internal preset voltage of tuning part 37 outputs.According to this comparative result, if AGC (automatic gain control) voltage AGC is lower than internal preset voltage, it is faint that then microcomputer 40 is judged the electric field strength of VHF high-frequency signal, and make the VHF control signal CS2 of output become high level, according to this signal, the transistor Q52 of VHF switch control unit 38B is switched on, subsequently, transistor Q51 is switched on, and makes VHF switch control voltage B2+ export by the transistor Q51 of VHF switch control unit 38B.

On the other hand, according to comparative result, be higher than predeterminated voltage if identify AGC (automatic gain control) voltage AGC, then microcomputer 40 is judged the electric field strength height of institute's input high-frequency signal, and output low level VHF control signal CS2, according to this signal, transistor Q52 and the Q51 of switch control unit 38B are cut off, and make output low level switch control voltage B2+.

Be converted into intermediate frequency from the high frequency UHF signal or the high frequency VHF signal of tuner amplifier AMP31 and AMP32 output, and provide, detect original image signal therein and it is amplified to the level that is suitable for showing on CPT41 to intermediate frequency and image processing unit 39.

As mentioned above, according to the receiving system that is built-in with low-noise high-frequency amplifier of the present invention, in low-noise high-frequency amplifier, adopt single grid type GaAs field-effect transistor, by using antistatic unit in input, to block static, thereby obtain to guarantee the low-noise high-frequency amplifier of high-gain, good low-noise characteristic and good linearity.

In addition, owing to select frequency band for one that has only amplified in VHF frequency band and the UHF frequency band, can prevent in amplifying high-frequency process by depending on that the caused signal of crosstalking of electric field strength difference disturbs between different frequency bands, even make that the user also can appreciate the sharp image that does not have noise or signal to disturb under faint electric field situation.

Owing under the situation that does not depart from spirit of the present invention or essential characteristic, can implement the present invention in a variety of forms, so will also be understood that except as otherwise noted, the foregoing description is not limited by the details in the specification, and interpreted in its broadest sense, ie in the spirit and scope that should in claims, define, therefore, all fall into variation in the scope of claim and the boundary and modification or its equivalent and all should be contained by claim.

Claims (8)

1. receiving system that is built-in with low-noise high-frequency amplifier comprises:

High pass filter is used for the high-frequency signal that receives by antenna is carried out high-pass filtering;

Antistatic unit is used for preventing the static that the high-frequency signal by high pass filter comprises;

Low-noise high-frequency amplifier is used under the faint situation of the electric field strength of institute's input high-frequency signal, the high-frequency signal from the output of antistatic unit is amplified and exports by the single grid type field-effect transistor that uses its inside to provide;

The HF switch unit is used under the high situation of the electric field strength of institute's input high-frequency signal, makes from the high-frequency signal bypass of antistatic unit output; With

Controller be used for according to from the AGC (automatic gain control) voltage of-tuning part output the electric field strength of high-frequency signal being judged, and the output control signal is optionally to drive low-noise high-frequency amplifier and HF switch unit.

2. according to the device of claim 1, comprise also that wherein the intermediate frequency that is connected with rear end, antistatic unit blocks the unit, is used for blocking the intermediate frequency that high-frequency signal comprises.

3. according to the device of claim 1, wherein high pass filter is made up of capacitor and coil.

4. according to the device of claim 1, wherein antistatic unit comprises that two are connected in parallel and diode that direction is opposite, thereby blocks positive polarity static and negative polarity static.

5. according to the device of claim 1, wherein low-noise high-frequency amplifier comprises: resistance R 31-R33 and R38 are used for providing DC bias voltage when switch control unit output switch control voltage B+, so that the field-effect transistor conducting; With diode D33, be used for providing the conducting electric current to grid.

6. according to the device of claim 1, its middle controller comprises:

Microcomputer is used for by comparing and judge electric field strength voltage is set from the AGC (automatic gain control) voltage of tuning part output and inside, and exports high level signal or low level signal according to comparative result; With

Switch control unit is used for providing switch control voltage according to the output signal from microcomputer to tuning part.

7. receiving system that is built-in with low-noise high-frequency amplifier comprises:

High pass filter is used for the high-frequency signal that the input terminal by antenna receives is carried out high-pass filtering;

Antistatic unit is used for blocking positive polarity static and negative polarity static that the high-frequency signal by high pass filter comprises;

Intermediate frequency blocks the unit, is used for blocking the intermediate frequency that the high-frequency signal by antistatic unit comprises;

Be connected to the UHF filter that intermediate frequency blocks the rear end, unit, be used for only making the UHF frequency band of high-frequency signal to pass through;

Be connected to the VHF filter that intermediate frequency blocks the rear end, unit, be used for only making the VHF frequency band of high-frequency signal to pass through;

Be connected to the UHF and the VHF low-noise high-frequency amplifier of UHF filter and VHF filter rear end respectively, it is under the faint situation of the electric field strength of institute's input high-frequency signal, driven by switch control voltage from switch control unit output, and by using inner single grid type field-effect transistor that the signal from UHF filter and the output of VHF filter is amplified and exporting;

Be connected in parallel to the UHF and the VHF HF switch unit of the low-noise high-frequency amplifier that is positioned at UHF filter and VHF filter place respectively, be used under the high situation of the electric field strength of institute's input high-frequency signal, driven by switching voltage from switch control unit output, and by using inner single grid type field-effect transistor to make the output signal bypass of UHF filter and VHF filter;

Tuner is used for and will be amplified to appropriate level from each low-noise high-frequency amplifier or from the high-frequency signal of each HF switch unit output;

UHF and VHF switch control unit are used under the control of microcomputer, and switch control voltage is provided to each low-noise high-frequency amplifier or each HF switch unit;

Intermediate frequency and image processing unit are used for from the intermediate-freuqncy signal of the tuner output original image signal of regenerating, and it is amplified to the level that is suitable for showing on CPT, thus output; And

Microcomputer is used for AGC (automatic gain control) voltage and internal preset voltage from tuner output are compared, and controls the driving of each switch control unit according to this comparative result.

8. according to the device of claim 7, wherein optionally drive each switch control unit according to the signal band of being imported.

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