CN102509864A - Resistor loading bowtie pulse antenna communicated with tree-form delay lines - Google Patents

Abstract

The invention relates to a resistor loading bowtie pulse antenna communicated with tree-form delay lines, in particular to a resistor loading pulse antenna. The resistor loading pulse antenna consists of bowtie radiation patches (1), a dielectric substrate (2), tree-form delay lines (3) and loading resistors (4), wherein the two radiation patches (1) are positioned on the same surface of the dielectric substrate (2), close ends of the two radiation patches (1) are feeding ends (5) of the bowtie pulse antenna, and the other ends of the two radiation patches (1) are radiation tail ends (6) of the bowtie pulse antenna; the tree-form delay lines (3) are positioned in the backside areas of the dielectric substrate of the two radiation patches, the delay lines in each area are distributed in a tree form, converged at a convergent point (7) of the delay lines and connected with one another through communicating wires (8); the other tail end of each tree-form delay line (3) is connected with radiation tail ends (6) of the antenna through a metallized through hole (9); and the loading resistors (4) are positioned on the delay lines (3). The resistor loading bowtie pulse antenna has the capabilities of reducing the amplitude of tail pulses, expanding the impedance bandwidth of the antenna, and reducing adverse effect on the radiation efficiency of the antenna.

Description

Be communicated with tree-like delay line resistance and load the knot pulse antenna

Technical field

The present invention relates to a kind of pulse antenna, the tree-like delay line resistance of especially a kind of connection loads the knot pulse antenna, belongs to the technical field that pulse antenna is made.

Background technology

During pulse antenna pulses of radiation signal; Pulse current flow to from antenna input antenna end during this period of time in; If pulse antenna can not all radiate electromagnetic energy, have the remaining pulse current that does not radiate at the aerial radiation end, the residual impulse electric current can return along original path in antenna; In process after this, continue the electromagnetic radiation energy, therefore can form tail pulse.When pulse antenna is used for GPR, these tail pulses with from the signal of target at the time domain overlaid, thereby target signal generating is disturbed, therefore to take measures to reduce the influence of tail pulse in the pulses of radiation waveform usually.The knot antenna is as a kind of pulse antenna, and it is wide to have a working band, makes advantages such as simple.The application of knot antenna is very extensive, and more application is also arranged in GPR, and its main radiation direction is the normal direction on plane, knot paster place.At present, for the knot pulse antenna, the method for reduction tail pulse influence commonly used is the resistance Loading Method.But resistance loads the radiation efficiency that can reduce antenna.In addition, along with operating frequency reduces, the decline of antenna radiation capability; Cause effectively radiation of low frequency energy, but see that from the feed end of antenna antenna is opened a way; The impedance of antenna does not match, and low frequency energy reflects antenna, influences the work of transmitter; Make the operating frequency of resistance loaded antenna be difficult to lower significantly, the impedance bandwidth of antenna is difficult to effective broadening. ?

Summary of the invention

Technical problem:The present invention seeks to propose the tree-like delay line resistance of a kind of connection and load the knot pulse antenna, this antenna can effectively reduce the tail pulse amplitude, and is less to the influence of antenna radiation efficiency simultaneously, and the effective impedance bandwidth of broadening antenna.

Technical scheme:The tree-like delay line resistance of connection of the present invention loads the knot pulse antenna and comprises a pair of knot radiation patch, medium substrate, tree-like delay line and loading resistor; Wherein the knot radiation patch is positioned at the one side of medium substrate, and tree-like delay line, loading resistor are positioned at the another side of medium substrate; Loading resistor is distributed on the tree-like delay line; The close the inner of two knot radiation patch is the feed end of knot pulse antenna, and the other end is that the radiation of knot pulse antenna is terminal; Tree-like delay line is positioned at the zone at the medium substrate back side that two knot radiation patch are comprised; The tree-like delay line in each zone is tree-shaped; The several branches of delay line converge at a convergent point and extend; Several groups of such branches also can converge at another convergent point again, and then extend the back and converge with other delay line, and the tree-like delay lines in two zones are continuous through being communicated with line through convergent point; At the end of each branch of tree-like delay line, be connected with the radiation end of antenna through the metallization via hole.

Described knot radiation patch be shaped as triangle or fan-shaped.

Tree-like delay line is printed, etching perhaps is placed on the medium substrate, or is suspended in the air above the medium substrate.

Tree-like delay line is being dendritic some leads near the terminal end of the radiation of knot pulse antenna, is connected with the radiation end of antenna through the metallization via hole.

Be communicated with through being communicated with line between the convergent point of two tree-like delay lines in zone, be communicated with and be distributed with on the line or do not have a loading resistor.

Tree-like delay line be shaped as straight line or hair clip shape, its length is half the greater than the high workload wavelength of antenna.

Loading resistor is the resistance of lumped parameter form or is the resistance of the distributed constant form of resistance with the loss of delay line itself.

There are some discontinuous places on each tree-like delay line, it are connected, constitute the current path of the tree-like delay line resistance loading that is communicated with by loading resistor.Pulse signal is at first imported from the feed end of knot pulse antenna; The radiation that is transmitted to antenna is terminal; The radiation end of antenna not the residual impulse energy of radiation get into the tree-like delay line that the resistance that is communicated with loads through the metallization via hole; Delay line is that the electric current of residual impulse energy provides additional current paths, and the residual impulse energy of radiation does not get into the tree-like delay line that resistance loads through metallized via hole, has avoided the tail pulse that causes because of the terminal reflection of aerial radiation; Loading resistor on the delay line will consume the residual impulse energy that gets into current path, make the tail pulse amplitude reduce greatly.See from feed end that in addition antenna no longer is an open circuit, its loading resistor has determined the low frequency input impedance of antenna, and the loading resistor that select to be fit to can reduce the reflection of low frequency energy, therefore greatly broadening the impedance bandwidth of antenna.The densely distributed metallization via hole that links to each other with tree-like delay line makes the terminal residual impulse energy of knot pulse antenna radiation can as often as possible get into delay line, the more effective influence that reduces tail pulse.Because delay line is at the back side of knot radiation patch main radiation direction, the energy emission on main radiation direction does not exert an influence delay line to the knot pulse antenna in the space that it occupies; And because the effect of blocking of knot paster, the residual impulse energy on delay line towards the energy of main radiation direction radiation seldom.Because loading resistor does not absorb the pulse current of knot radiation patch, this kind resistance load mode is also less to the adverse effect of antenna radiation efficiency simultaneously.The distribution mode of resistance on delay line of the resistance sum of adjustment loading resistor, adjustment loading resistor, the consistency of via hole, the length of delay line etc. can change the amplitude of tail pulse in the pulse signal.

Beneficial effect:The invention has the beneficial effects as follows; The resistance that the knot pulse antenna has been carried out the tree-like delay line of band connection loads; Effectively reduce the amplitude of tail pulse in the radiation waveform, broadening the impedance bandwidth of antenna, reduced the adverse effect of loading resistor paired pulses antenna radiation efficiency.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Have among the figure: knot radiation patch 1, medium substrate 2, tree-like delay line 3, loading resistor 4, the feed end 5 of antenna, the radiation end 6 of antenna, the convergent point 7 of delay line is communicated with line 8, metallization via hole 9. ?

Embodiment

Below in conjunction with accompanying drawing and embodiment the present invention is described further.

The technical scheme that the present invention adopted is: be communicated with tree-like delay line resistance loading knot pulse antenna and be made up of knot radiation patch, medium substrate, tree-like delay line and loading resistor; Wherein the knot radiation patch is positioned at medium substrate one side, and tree-like delay line and distribution loading resistor on it are positioned at the opposite side of medium substrate.Two knot radiation patch are shaped as triangle or fan-shaped, are positioned at the same surface of medium substrate, and two close ends of knot radiation patch are feed ends of knot pulse antenna, and the other end is that the radiation of knot pulse antenna is terminal.The tree-like delay line of the connection of two or racemosus is positioned at the zone at the medium substrate back side that two knot radiation patch are comprised; Make the radiation of delay line on the antenna main radiation direction blocked like this, thereby the radiation of antenna is not exerted an influence by the knot radiation patch.Be distributed with one or the tree-like delay line of racemosus at the medium substrate back side of each knot radiation patch; These tree-like delay lines are tree-shaped, and the several branches of delay line converge at a convergent point and extend, and several groups of such branches also can converge at another convergent point again; And then extension is back and other delay line converges; The tree-like delay line in two zones links to each other through being communicated with line through the convergent point of delay line, and each tree-like delay line is dendroid at its other direction end, is connected with the radiation of antenna is terminal respectively through metallized via hole; Metallization via hole dense even distribution, several are one group and link to each other one by one with the tree-like radiation conductor of a tree-like delay line.There are some discontinuous places on each tree-like delay line, it are connected, constitute the current path of the tree-like delay line resistance loading that is communicated with by loading resistor.Pulse signal at first adds from the feed end of knot pulse antenna; The radiation that is transmitted to antenna is terminal; The radiation end of antenna not the residual impulse energy of radiation get into the tree-like delay line that the resistance that is communicated with loads through the metallization via hole; Delay line is that the electric current of residual impulse energy provides additional current paths, and the residual impulse energy of radiation does not get into the delay line that resistance loads through metallized via hole, has avoided the tail pulse that causes because of the terminal reflection of aerial radiation; Loading resistor on the delay line will consume the residual impulse energy that gets into current path, make the tail pulse amplitude reduce greatly.See from feed end that in addition antenna no longer is an open circuit, its loading resistor has determined the low frequency input impedance of antenna, and the loading resistor that select to be fit to can reduce the reflection of low frequency energy, therefore greatly broadening the impedance bandwidth of antenna.The densely distributed metallization via hole that links to each other with tree-like delay line makes the terminal residual impulse energy of knot pulse antenna radiation can as often as possible get into current path, thereby can more effectively reduce the influence of tail pulse.Tree-like delay line printing or the etching that is communicated with or stick on the medium substrate also can be suspended in the air.Because delay line is at the back side of knot radiation patch main radiation direction, the energy emission on main radiation direction does not exert an influence delay line to the knot pulse antenna in the space that it occupies; And because the effect of blocking of knot paster, the residual impulse energy on delay line towards the energy of main radiation direction radiation seldom.Simultaneously because the resistance pulse current of absorbed radiation not, this kind resistance loads also less to the adverse effect of antenna radiation efficiency.The distribution mode of resistance on delay line of the resistance sum of adjustment loading resistor, adjustment loading resistor, the consistency of via hole, the length of delay line etc. can change the amplitude of tail pulse in the pulse signal.

Structurally; This is communicated with tree-like delay line resistance loading knot pulse antenna and is made up of knot radiation patch 1, medium substrate 2, tree-like delay line 3 and loading resistor 4; Wherein knot radiation patch 1 and tree-like delay line 3, loading resistor 4 lay respectively at the both sides of same medium substrate 2, and loading resistor 4 is distributed on the tree-like delay line 3.One end of knot radiation patch 1 is the feed end 5 of knot pulse antenna, and the other end is the radiation terminal 6 of knot pulse antenna.The tree-like delay line 3 of the connection of two or racemosus is positioned at the zone at two knot radiation patch, 1 pairing medium substrate, 2 back sides; Each knot radiation patch 1 right medium substrate 2 back sides be distributed with one or the tree-like delay line 3 of racemosus; These tree-like delay lines 3 are tree-shaped; The several branches of delay line converge at a convergent point 7 and extend; Several groups of such branches also can converge at another convergent point 7 again, and then extend the back and converge with other delay line, and the tree-like delay lines 3 in two zones are continuous through being communicated with lines 8 through the convergent point 7 of delay line; Each tree-like delay line 3 is dendroid at its other direction end, is connected with the radiation terminal 6 of antenna respectively through metallization via hole 9.Can be rectilinear wire between two ends of each tree-like delay line 3, also can be the hairpin lead, the length of delay line is half the or more greater than antenna maximum functional wavelength usually.The metallization via hole 9 that connects the radiation terminal 6 of tree-like delay line 3 and antenna can be metal column or hollow metal via hole, and the dense even distribution of via hole penetrates medium substrate 2, links to each other one by one with the branches end of each tree-like delay line 4.Be distributed with loading resistor 4 on the tree-like delay line 3, loading resistor 4 can be the resistance of distributed constant form, and this moment, tree-like delay line 3 itself was a lossy transmission, and loading resistor 4 is provided by the loss of transmission line; Also can be the resistance of lumped parameter form, exist some discontinuous places on each tree-like delay line 3 this moment, by loading resistor 4 it is connected.Can be distributed with loading resistor 4 on the connection line 8, also can not have.Tree-like delay line 3, loading resistor 4 and be communicated with line 8 and constitute the current path that the tree-like delay line resistance that is communicated with loads.

On making, this manufacturing process that is communicated with tree-like delay line resistance loading knot pulse antenna can adopt semiconductor technology, ceramic process, laser technology or printed circuit technology.This is communicated with tree-like delay line resistance loading knot pulse antenna and is made up of knot radiation patch 1, medium substrate 2, tree- like delay line 3 and 4 of loading resistors; Wherein knot radiation patch 1 is made up of the good conductor material of electric conductivity; Shape can be triangle or fan-shaped; Be positioned at the same surface of medium substrate 2, medium substrate 2 is wanted the alap dielectric material of service wear.Tree-like delay line 3 is produced on the opposite side of medium substrate 2; The length of delay line is half the or more greater than antenna maximum functional wavelength usually; Therefore can be rectilinear wire between two ends of each tree-like delay line 3, perhaps be made as the hairpin lead to guarantee the delay line long enough.Be distributed with loading resistor 4 on the tree-like delay line 3, loading resistor 4 can be the resistance of surface mount resistor or band lead-in wire; Also can be with the bigger lead of resistance as delay line, at this moment can be less with or without loading resistor, the conductor resistance of delay line itself has just replaced the effect of loading resistor.

According to the above, just can realize the present invention.

Claims (6)

1. one kind is communicated with tree-like delay line resistance loading knot pulse antenna, it is characterized in that this is communicated with tree-like delay line resistance loading knot pulse antenna and comprises a pair of knot radiation patch (1), medium substrate (2), tree-like delay line (3) and loading resistor (4); Wherein knot radiation patch (1) is positioned at the one side of medium substrate (2), and tree-like delay line (3), loading resistor (4) are positioned at the another side of medium substrate (2); Loading resistor (4) is distributed on the tree-like delay line (3); The close the inner of two knot radiation patch (1) is the feed end (5) of knot pulse antenna, and the other end is the radiation terminal (6) of knot pulse antenna; Tree-like delay line (3) is positioned at the zone of the medium substrate that two knot radiation patch (1) are comprised; The tree-like delay line (3) in each zone is tree-shaped; The several branches of delay line converge at a convergent point and extend; Several groups of such branches also can converge at another convergent point again; And then extend the back and converge with other delay line, the tree-like delay lines (3) in two zones link to each other through being communicated with line (8) through convergent point, and the end of each branch of tree-like delay line (3) is connected with the radiation end (6) of antenna through metallization via hole (9).

2. the tree-like delay line resistance of connection according to claim 1 loads the knot pulse antenna, and what it is characterized in that described knot radiation patch (1) is shaped as triangle or fan-shaped.

3. the tree-like delay line resistance of connection according to claim 1 loads the knot pulse antenna, it is characterized in that tree-like delay line (3) is printed, etching perhaps is placed on the medium substrate (2), or is suspended in the air above the medium substrate (2).

4. load the knot pulse antenna according to claim 1 or the tree-like delay line resistance of 3 described connections; It is characterized in that tree-like delay line (3) is dendritic some leads at the end near the radiation of knot pulse antenna terminal (6), be connected with the radiation end (6) of antenna through metallization via hole (9).

5. load the knot pulse antenna according to the tree-like delay line resistance of claim 1 or 3 described connections, what it is characterized in that tree-like delay line (3) is shaped as straight line or hair clip shape, and its length is half the greater than the high workload wavelength of antenna.

6. the tree-like delay line resistance of connection according to claim 1 loads the knot pulse antenna, it is characterized in that loading resistor (4) is the resistance of lumped parameter form or is the resistance of the distributed constant form of resistance with the loss of delay line itself.

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