CN205142155U - IF filter in radiofrequency signal transceiver chip - Google Patents

Abstract

The utility model provides a can simultaneous processing big dipper B1 and B3 put intermediate frequency signal's IF filter in radiofrequency signal transceiver chip frequently, the utility model discloses a 1.5 times of bandwidth departments at this IF filter in radiofrequency signal transceiver chip have add two trapped wave points, make IF filter - 3dB bandwidth be 20.46MHz, and 1.5 times of bandwidth restrain and are greater than 25dB.

Description

Intermediate-frequency filter in radiofrequency signal transceiver chip

Technical field

The utility model provides the intermediate-frequency filter in a kind of radiofrequency signal transceiver chip, and this intermediate-frequency filter is applicable to the signal transacting of Beidou II NAVSTAR, can process the intermediate-frequency filter of Beidou II B1 frequency and B3 frequency point intermediate frequency signal simultaneously.

Background technology

At present, GPS radio-frequency signal receiver is widely used, and Beidou II NAVSTAR signal receiver is also implemented, but not yet occurs the intermediate-frequency filter that all processes Beidou II B1 and B3 two frequency bins intermediate-freuqncy signal.

Meanwhile, the centre frequency being 16.098MHz, B3 frequency intermediate frequency due to the centre frequency of Beidou II B1 frequency intermediate frequency is 15.48MHz.Two centre frequencies are very near, process simultaneously, then need increased bandwidth, cause 1.5 times of Out-of-band rejections to reach 25dB like this, have no constructed announcement at present in prior art if make a filter to B1 and B3 two frequency bins.

Summary of the invention

In order to solve Problems existing in background technology, the utility model provides a kind of intermediate-frequency filter that can simultaneously process in the radiofrequency signal transceiver chip of Big Dipper B1 and B3 frequency point intermediate frequency signal, this intermediate-frequency filter can make-and three dB bandwidth is 20.46MHz, and 1.5 times of bandwidth suppress to be greater than 25dB.

Concrete technical solution of the present utility model is as follows:

1.5 times of bandwidth places of the intermediate-frequency filter in this radiofrequency signal transceiver chip have additional two trap wave points.

Above-mentioned two trap wave points are realized by eight ladder-type structures, first rank of described eight ladder-type structures are the first ground capacity, second-order is the second electric capacity in parallel and the second inductance, 3rd rank are the 3rd ground capacity, quadravalence is the 4th electric capacity in parallel and the 4th inductance, and the 5th rank are the 5th ground capacity, and the 6th rank are the 5th grounded inductor, 7th rank are suspension joint inductance, and the 8th rank are suspension joint electric capacity.

Or two trap wave points are realized by eight ladder-type structures, first rank of described eight ladder-type structures are the first ground capacity, second-order is the second electric capacity in parallel and the second transconductance cell, 3rd rank are the 3rd ground capacity, quadravalence is the 4th electric capacity in parallel and the 4th transconductance cell, and the 5th rank are the 5th ground capacity, and the 6th rank are the 5th grounded inductor, 7th rank are suspension joint inductance, and the 8th rank are suspension joint electric capacity.

The utility model has the advantage of:

This intermediate-frequency filter can process Big Dipper B1 and B3 frequency point intermediate frequency signal simultaneously, can make-three dB bandwidth is 20.46MHz, 1.5 times of bandwidth suppress to be greater than 25dB.

Accompanying drawing explanation

Fig. 1 is eight rank passive trapezium structure Filter Principle figure;

Fig. 2 is eight rank active trapezium structure Filter Principle figure;

Fig. 3 is biasing circuit schematic diagram in Fig. 2 structure;

Fig. 4 is transconductance cell schematic diagram in Fig. 2;

Fig. 5 is capacitor array schematic diagram in Fig. 2.

Embodiment

Principle of the present utility model is: in 1.5 times of bandwidth of existing intermediate-frequency filter, outer 30Mhz and 36.5Mhz place adds two trap wave points, obtains eight rank passive ladder-type filter.

Owing to index requiring bandwidth is 20.46Mhz, and 1.5 times of bandwidth suppress to be greater than 25dB; Therefore fourth order low-pass filter and the cascade of fourth-order band-pass filter is adopted to form.In order to satisfied suppression is greater than the requirement of 25dB, in fourth order low-pass filter, add two trap wave points; Under exponent number is four and 1.5 times of bands are wider than the condition of 25dB, two trap wave points can only be added.If add a trap wave point, 1.5 times of bandwidth suppress not reach requirement, have do not meet quadravalence if add three; Therefore, two trap wave points can only be added.

Two trap wave points can realize by adding two LC resonator structures, i.e. eight ladder-type structures; With reference to shown in Fig. 1: eight ladder-type structure passive filters, first rank are ground capacity C1, second-order is the parallel connection of electric capacity C2 and inductance L 2,3rd rank are ground capacity C3, quadravalence is the parallel connection of electric capacity C4 and inductance L 4, and the 5th rank are ground capacity C5, and the 6th rank are grounded inductor L5,7th rank are suspension joint inductance L the 6, eight rank is suspension joint electric capacity C6; Their value is respectively:

C1＝2.033nF,

C2＝3.48nF,

L2＝5.462nH,

C3＝7.45nF,

C4＝6.12nF,

L4＝4.6nH,

C5＝8.6nF,

L5＝16.4nH,

L6＝5.15nH，

C6＝24nF

Due in Practical Project, inductance area occupied is too large, and thus replace inductance and electric capacity with transconductance cell and electric capacity, the schematic diagram obtained after replacement as shown in Figure 2.Fig. 2 is the eight active trapezium structure filters in rank after Fig. 1 transconductance capacitor structure replaces.

Fig. 3 is in Fig. 2 biasing circuit principle, and wherein input is three digital control end EN_H, BI<0>, BI<1>.Wherein EN_H signal obtains by with Men Jiayi inverter, and VB, VCM are the output of biasing circuit, VCM and VB of output provides bias voltage for transconductance cell.

Fig. 4 is the transconductance cell schematic diagram of Fig. 2, and EN is Digital Signals end, is controlled the break-make of metal-oxide-semiconductor by an inverter.VB, VCM are respectively the bias voltage that metal-oxide-semiconductor provides suitable.VIP, VIN are input signal, and VON, VOP are output signal.

Fig. 5 is the capacitor array schematic diagram of Fig. 2, it carrys out the size of control capacitance array total capacitance by 4-digit number signal BC<1>, BC<2>, BC<3>, BC<4>, thus change whole filter-three dB bandwidth size.Wherein VIP, VIN are input signal, and VON, VOP are the output signal of capacitor array.

Claims (2)

1. the intermediate-frequency filter in radiofrequency signal transceiver chip, is characterized in that: 1.5 times of bandwidth places of described intermediate-frequency filter have additional two trap wave points; Described two trap wave points are realized by eight ladder-type structures, first rank of described eight ladder-type structures are the first ground capacity, second-order is the second electric capacity in parallel and the second inductance, 3rd rank are the 3rd ground capacity, quadravalence is the 4th electric capacity in parallel and the 4th inductance, and the 5th rank are the 5th ground capacity, and the 6th rank are the 5th grounded inductor, 7th rank are suspension joint inductance, and the 8th rank are suspension joint electric capacity.

2. the intermediate-frequency filter in radiofrequency signal transceiver chip, is characterized in that: 1.5 times of bandwidth places of described intermediate-frequency filter have additional two trap wave points; Described two trap wave points are realized by eight ladder-type structures, first rank of described eight ladder-type structures are the first ground capacity, second-order is the second electric capacity in parallel and the second transconductance cell, 3rd rank are the 3rd ground capacity, quadravalence is the 4th electric capacity in parallel and the 4th transconductance cell, and the 5th rank are the 5th ground capacity, and the 6th rank are the 5th grounded inductor, 7th rank are suspension joint inductance, and the 8th rank are suspension joint electric capacity.