CN107566008A - Millimeter wave high-amplitude wave device, millimeter wave Transmission system and millimeter wave transmission method - Google Patents

Abstract

The present invention provides a kind of millimeter wave high-amplitude wave device, millimeter wave Transmission system and millimeter wave transmission method, millimeter wave Transmission system includes a radio-frequency transmissions main frame, a plurality of millimeter wave high-amplitude wave devices and a radio frequency reception main frame, each millimeter wave high-amplitude wave device includes an at least reception antenna and an at least transmitting antenna respectively, each millimeter wave high-amplitude wave device receives a mm wave RF signal from radio-frequency transmissions main frame or other millimeter wave high-amplitude wave devices using reception antenna and sends mm wave RF signal to other millimeter wave high-amplitude wave devices or radio frequency reception main frame using transmitting antenna, then, radio-frequency transmissions main frame is via the relay transmission of millimeter wave high-amplitude wave device so that mm wave RF signal is sent into radio frequency reception main frame.

Description

Millimeter wave high-amplitude wave device, millimeter wave Transmission system and millimeter wave transmission method

Technical field

The present invention is related to a kind of signal high-amplitude wave device, signal transmission system and signal transmission method, espespecially a kind of passing High-amplitude wave device, Transmission system and the transmission method of defeated millimeter wave signal.

Background technology

The quantity Fast Growth of radio communication device, 0.3 to 30GHz microwave frequency band do not apply increasingly already close to being fully loaded with Use, and its transmission speed has not been inconsistent actual demand.In this case, 30 to 300GHz millimeter wave (Millimeter Wave) frequency range is gradually to be taken seriously, and as the standard bands of 5G wireless mobiles of future generation communication.Due to The available bandwidth and transmission rate of millimeter wave are can be more than 10 times of microwave, therefore, communication transfer be carried out with millimeter wave It is that can reach higher transmission rate and transmission quantity.

Though millimeter wave possesses the advantage on some communication transfers, so, millimeter wave signal is easily decayed because of the factor of weather, Or it can not be transmitted because of the barrier of barrier.Furthermore the rectipetaly of millimeter wave is especially strong, thus range of receiving it is quite narrow and small and It is not easy to be received, therefore, the design of antenna just becomes quite important.In this, how to lift the transmission quality of millimeter wave signal is The technology emphasis to be broken through is communicated for 5G.

The content of the invention

The purpose of the present invention, is to propose a kind of millimeter wave Transmission system, its millimeter wave Transmission system includes a radio frequency It is strong via one or more millimeter waves to launch main frame, a plurality of millimeter wave high-amplitude wave devices and a radio frequency reception main frame, radio-frequency transmissions main frame The relay transmission of ripple device by a mm wave RF signal to be sent to radio frequency reception main frame.

The purpose of the present invention, is to propose a kind of millimeter wave Transmission system, the millimeter wave high-amplitude wave device of its Transmission system is According in the transmit-receive position of mm wave RF signal, with the appropriate radiation pattern antenna of option and installment, the setting angle of antenna is adjusted The setting orientation of degree and/or adjustment millimeter wave high-amplitude wave device, to change the transmission direction of mm wave RF signal so that radio frequency is sent out Penetrate mm wave RF signal that main frame launched can by millimeter wave high-amplitude wave device successfully relay transmission to radio frequency reception main frame.

The purpose of the present invention, is to propose a kind of millimeter wave Transmission system, its radio-frequency transmissions main frame, millimeter wave high-amplitude wave device And selected between radio frequency reception main frame formed with plural bar signal transmission path, radio frequency reception main frame from these signal transmission paths One RSSI value highest signal transmission path transmits road as the transmission path of mm wave RF signal or from these signals Transmission path of the most short signal transmission path of a paths as mm wave RF signal is selected in footpath, causes to utilize one The signal transmission path of RSSI value highest or shortest path transmits mm wave RF signal, to lift mm wave RF signal Transmission quality or transmission speed.

To reach above-mentioned purpose, the present invention provides a kind of millimeter wave high-amplitude wave device, including：One first radio frequency antenna element, if Put on a substrate, it includes：One first reception antenna, to receive a mm wave RF signal；One first wave filter, connection First reception antenna, to filter mm wave RF signal；One first amplifier, the first wave filter is connected, to amplify millimeter Ripple RF signal；And one first transmitting antenna, the first amplifier is connected, to launch the mm wave RF signal after amplification；Its In the radiation pattern direction of the first reception antenna and the radiation pattern direction of the first transmitting antenna be that there are one first angle, milli Metric wave high-amplitude wave device via the first corner dimension design so that horizontal with one by the mm wave RF signal of millimeter wave high-amplitude wave device Continue transmission, transmission is continued with a vertical direction or continues to transmit with the direction of a special angle in direction.

In one embodiment of the invention, also include at least one second radio frequency antenna element, the second radio frequency antenna element is set On substrate, it includes：One second reception antenna, to receive mm wave RF signal；One second wave filter, connection second connect Antenna is received, to filter mm wave RF signal；One second amplifier, the second wave filter is connected, to amplify mm wave RF Signal；And one second transmitting antenna, the second amplifier is connected, to launch the mm wave RF signal after amplification；Wherein first Radio frequency antenna element and the second radio frequency antenna element composition are a two-way radio frequency antenna module, the radiation field of the second reception antenna The radiation pattern direction of type direction and the second transmitting antenna is to there are one second angle, via the design of the second corner dimension with Make to continue transmission by the mm wave RF signal of millimeter wave high-amplitude wave device with horizontal direction, continue transmission with vertical direction or with spy Continue to transmit in the direction for determining angle.

In one embodiment of the invention, the first reception antenna of the first radio frequency antenna element and the of the second radio frequency antenna element Two transmitting antennas are arranged on the side of substrate, and the first transmitting antenna of the first radio frequency antenna element and the second radio frequency antenna element The second reception antenna be arranged on the opposite side of substrate.

In one embodiment of the invention, the first reception antenna, the first transmitting antenna, the second reception antenna or the second transmitting antenna For a yagi aerial or a paster antenna.

In one embodiment of the invention, millimeter wave high-amplitude wave device also includes a microprocessor, and microprocessor connects the first radio frequency Antenna element and the second radio frequency antenna element, microprocessor selection are received with the first radio frequency antenna element or the second radio frequency antenna element Send out mm wave RF signal.

In one embodiment of the invention, millimeter wave high-amplitude wave device also includes a motor, motor connection processor, microprocessor control The rotation of motor processed sets orientation to change the one of millimeter wave high-amplitude wave device.

In one embodiment of the invention, millimeter wave high-amplitude wave device also includes a battery module, battery module connection microprocessor.

In one embodiment of the invention, the first reception antenna, the first transmitting antenna, the second reception antenna or the second transmitting antenna For a single-polarized antenna or a dual polarized antenna, single-polarized antenna is an antenna with tailored radiation field pattern, and dual polarization day Line is an antenna with two radiation patterns.

In one embodiment of the invention, dual polarized antenna includes two antenna modules, and two antenna modules are two polarization characteristic phases Mutually orthogonal antenna module.

In one embodiment of the invention, when the first reception antenna or the first transmitting antenna are dual polarized antenna, first receives Antenna connects the first wave filter or the first transmitting antenna via a channel-splitting filter and connects the first amplifier via channel-splitting filter；Or when When second reception antenna or the second transmitting antenna are dual polarized antenna, the second reception antenna is via the filter of another channel-splitting filter connection second Ripple device or the second transmitting antenna connect the second amplifier via another channel-splitting filter.

The present invention provides a kind of millimeter wave Transmission system again, including：One radio-frequency transmissions main frame, including a radiofrequency launcher, To launch a mm wave RF signal；A plurality of millimeter wave high-amplitude wave devices, each millimeter wave high-amplitude wave device are respectively arranged on different positions On, each millimeter wave high-amplitude wave device includes respectively：One first radio frequency antenna element, set on a substrate, it includes：One first receives Antenna, mm wave RF signal is received via radio-frequency transmissions main frame or another millimeter wave high-amplitude wave device；One first wave filter, connection the One reception antenna, to filter mm wave RF signal；One first amplifier, the first wave filter is connected, to amplify millimeter wave RF signal；And one first transmitting antenna, the first amplifier is connected, to launch the mm wave RF signal after amplification, wherein The radiation pattern direction of first reception antenna and the radiation pattern direction of the first transmitting antenna are to there are one first angle, millimeter Ripple high-amplitude wave device via the first corner dimension design so that by the mm wave RF signal of millimeter wave high-amplitude wave device with a level side To continuing transmission, continue transmission with a vertical direction or with the direction of a special angle continue to transmit；And a microprocessor, connection First radio frequency antenna element；And a radio frequency reception main frame, including a control unit and a radio frequency receiver, control unit connection penetrate Frequency receiver, wherein radio-frequency transmissions main frame are via an at least millimeter wave high-amplitude wave device with relay transmission mm wave RF signal to radio frequency Receiving Host.

In one embodiment of the invention, shape between radio-frequency transmissions main frame, a plurality of millimeter wave high-amplitude wave devices and radio frequency reception main frame Into there is plural bar signal transmission path, the control unit of radio frequency reception main frame is selected a wherein signal transmission path and passed respectively Send each millimeter wave high-amplitude wave device of the enable signal to selected signal transmission path, each milli on selected signal transmission path The microprocessor of metric wave high-amplitude wave device will be enabled signal institute's enable to perform a signal receiving/transmission program, and radio-frequency transmissions main frame is via choosing Fixed signal transmission path is to transmit mm wave RF signal to radio frequency reception main frame.

In one embodiment of the invention, radio frequency reception main frame also includes a storage element, and control unit connects storage element, Storage element is recording plural bar signal transmission path.

In one embodiment of the invention, each bar signal transmission path includes a reception signal strength indicated value, radio frequency reception There is the control unit of main frame selected one highest to receive the signal transmission path of signal strength indicated value as mm wave RF news Number transmission path.

In one embodiment of the invention, the control unit of radio frequency reception main frame is via a distance vector algorithms to be interrogated from plural bar A most short signal transmission path is calculated in number transmission path, the selected most short signal of control unit of radio frequency reception main frame passes Transmission path of the defeated path as mm wave RF signal.

In one embodiment of the invention, millimeter wave high-amplitude wave device also includes one first communication part, and microprocessor connection first is logical Component is interrogated, radio frequency reception main frame also includes one second communication part, and control unit connects the second communication part, the first communication part And second communication part be respectively a communication part for according with microwave communication specification, the control unit of radio frequency reception main frame via First communication part and the second communication part are to transmit enable signal to millimeter wave high-amplitude wave device.

The present invention provides a kind of millimeter wave transmission method again, and it is applied in a kind of millimeter wave Transmission system, and millimeter wave passes Defeated system includes a radio-frequency transmissions main frame, a radio frequency reception main frame and a plurality of millimeter wave high-amplitude wave devices, each millimeter wave high-amplitude wave device point On position that She Yu be not different, millimeter wave transmission method comprises the following steps：Formed with plural bar signal transmission path in radio frequency Launch between main frame, a plurality of millimeter wave high-amplitude wave devices and radio frequency reception main frame；The selected wherein signal of radio frequency reception main frame is made to pass Defeated path；Radio frequency reception main frame is made to be respectively transmitted each millimeter wave high-amplitude wave device of the enable signal to selected signal transmission path Each millimeter wave high-amplitude wave device on signal transmission path selected with enable；Launch mm wave RF news via radio-frequency transmissions main frame Number；And make the mm wave RF signal that radio-frequency transmissions main frame is launched strong via each millimeter wave on selected signal transmission path Ripple device is sent to radio frequency reception main frame.

In one embodiment of the invention, each bar signal transmission path includes a reception signal strength indicated value, radio frequency reception There is main frame selected one highest to receive transmission road of the signal transmission path of signal strength indicated value as mm wave RF signal Footpath.

In one embodiment of the invention, radio frequency reception main frame is via a distance vector algorithms with from plural bar signal transmission path In calculate a most short signal transmission path, the selected most short signal transmission path of radio frequency reception main frame is as mm wave RF The transmission path of signal.

Brief description of the drawings

Fig. 1 is the configuration diagram of millimeter wave Transmission system of the present invention.

Fig. 2 is the structural representation of millimeter wave high-amplitude wave device of the present invention.

Fig. 3 is the schematic diagram of the millimeter wave high-amplitude wave device transmitting-receiving mm wave RF signal of one embodiment of the invention.

Fig. 3 A are the radiation pattern figures of the first radio frequency antenna element of the millimeter wave high-amplitude wave device of one embodiment of the invention.

Fig. 3 B are the radiation pattern figures of the second radio frequency antenna element of the millimeter wave high-amplitude wave device of one embodiment of the invention.

Fig. 4 is the schematic diagram of the millimeter wave high-amplitude wave device transmitting-receiving mm wave RF signal of further embodiment of this invention.

Fig. 4 A are the radiation patterns of the first radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention.

Fig. 4 B are the radiation pattern figures of the second radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention.

Fig. 5 is the schematic diagram of the millimeter wave high-amplitude wave device transmitting-receiving mm wave RF signal of further embodiment of this invention.

Fig. 5 A are the radiation pattern figures of the first radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention.

Fig. 5 B are the radiation pattern figures of the second radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention.

Fig. 6 A are the schematic diagrames that orientation is set before the millimeter wave high-amplitude wave device of one embodiment of the invention rotates.

Fig. 6 B are the schematic diagrames that orientation is set after the millimeter wave high-amplitude wave device of further embodiment of this invention rotates.

Fig. 7 is the structural representation of the first radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention.

Fig. 8 is the structural representation of the first radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention.

Primary clustering symbol description：

The mm wave RF signal of 100 millimeter wave Transmission system 101

The radiofrequency launcher of 10 radio-frequency transmissions main frame 11

The millimeter wave high-amplitude wave device of 13 signal transmission path 20

The radio frequency antenna element of 21 substrate 22 first

The radiation pattern of 221 first reception antenna 2210

The antenna module of 2211 antenna module 2212

The wave filter of 2213 channel-splitting filter 222 first

The transmitting antenna of 223 first amplifier 224 first

The antenna module of 2241 antenna module 2242

The radiation pattern of 2243 channel-splitting filter 2240

The reception antenna of 23 second radio frequency antenna element 231 second

The radiation pattern of 2310 radiation pattern 2340

The amplifier of 232 second wave filter 233 second

The microprocessor of 234 second transmitting antenna 24

The communication part of 25 motor 26 first

The radio frequency reception main frame of 27 battery module 30

The control unit of 31 radio frequency receiver 33

The forbidden energy signal of 331 enable signal 333

The distance vector algorithms of 35 storage element 351

The barrier of 36 second communication part 40

Embodiment

Fig. 1 and Fig. 2 is referred to, is the configuration diagram of millimeter wave Transmission system of the present invention and the structure of millimeter wave high-amplitude wave device Schematic diagram.As shown in figure 1, millimeter wave Transmission system 100 of the present invention includes a radio-frequency transmissions main frame 10, at least a millimeter wave high-amplitude wave Device 20, such as millimeter wave high-amplitude wave device A, B, C, D, and a radio frequency reception main frame 30.Radio-frequency transmissions main frame 10 and radio frequency reception main frame 30 also can be respectively a main frame, a cell phone apparatus or an electronic equipment that can be communicated.Millimeter wave high-amplitude wave device 20 is as biography The via node of defeated mm wave RF signal 101.Radio-frequency transmissions main frame 10 includes a radiofrequency launcher 11, and radio frequency reception main frame 30 include a radio frequency receiver 31.Radiofrequency launcher 11 is to launch a mm wave RF signal 101, and radio frequency reception main frame 30 To receive mm wave RF signal 101.Due to factor decay of the millimeter wave easily by weather, easily stopped and covered by barrier 40 Lid is apart from short the shortcomings of waiting, and therefore, radio-frequency transmissions main frame 10 must be via the relay transmission of one or more millimeter wave high-amplitude wave devices 20 So that mm wave RF signal 101 is sent into radio frequency reception main frame 30.

As shown in Fig. 2 millimeter wave high-amplitude wave device 20 of the present invention can be arranged on a substrate 21, it includes one first Radio frequency antenna element 22.First radio frequency antenna element 22 includes one first reception antenna 221, one first wave filter 222, one first The transmitting antenna 224 of amplifier 223 and 1 first.First reception antenna 221, the first wave filter 222, the first amplifier 223 and One transmitting antenna 224 sequentially connects.First reception antenna 221 is receiving radio-frequency transmissions main frame 10 or other millimeter wave high-amplitude wave devices The 20 mm wave RF signals 101 launched.First wave filter 222 is filtering the millimeter that the first reception antenna 221 is received Noise in ripple RF signal 101.First amplifier 223 amplifies the mm wave RF signal that the first reception antenna 221 is received 101.First transmitting antenna 224 is launching the mm wave RF signal 101 that the first amplifier 223 is amplified.

In one embodiment of the invention, millimeter wave high-amplitude wave device 20 still includes one second radio frequency antenna element 23 and a microprocessor 24.Microprocessor 24 connects the first radio frequency antenna element 22 and the second radio frequency antenna element 23.Second radio frequency antenna element 23 wraps Include one second reception antenna 231, one second wave filter 232, one second amplifier 233 and one second transmitting antenna 234.Second connects Antenna 231, the second wave filter 232, the second amplifier 233 and the second transmitting antenna 234 is received sequentially to connect.Second reception antenna 231 receiving the mm wave RF signal 101 that radio-frequency transmissions main frame 10 or other millimeter wave high-amplitude wave devices 20 are launched.Second filter Ripple device 232 is filtering the noise in the mm wave RF signal 101 that the second reception antenna 231 is received.Second amplifier 233 Amplify the mm wave RF signal 101 that the second reception antenna 231 is received.Second transmitting antenna 234 is launching the second amplification The mm wave RF signal 101 that device 133 is amplified.

First radio frequency antenna element 22 and the second radio frequency antenna element 23 can be formed as a two-way radio-frequency antenna mould Block.When millimeter wave high-amplitude wave device 20 operates, microprocessor 24 will be selected with the first radio frequency antenna element 22 and/or the second radio frequency day Line unit 23 receives and dispatches mm wave RF signal.First reception antenna 221 of the first radio frequency antenna element 22 and the second radio-frequency antenna Second transmitting antenna 234 of unit 23 is the side (such as left side) that can be arranged on substrate 21, and the first radio frequency antenna element 22 The first transmitting antenna 224 and the second reception antenna 231 of the second radio frequency antenna element 23 be arranged on the opposite side of substrate 21 (such as Right side).In this, millimeter wave high-amplitude wave device 20 can utilize 23 two-way receipts of the first radio frequency antenna element 22 and the second radio frequency antenna element Send out mm wave RF signal 101.Such as：First radio frequency antenna element 22 is can to receive mm wave RF in the left side of substrate 21 Signal 101 and in right side transmitting mm wave RF signal 101, the second radio frequency antenna element 13 is can be connect on the right side of substrate 21 Receive mm wave RF signal 101 and launch mm wave RF signal 101 in left side.Furthermore millimeter wave high-amplitude wave device 20 of the present invention is It can select only to set one group of antenna element, such as radio frequency antenna element 22, or two groups of antenna elements of setting, such as radio frequency antenna element 22nd, 23, or antenna element more than two also can be further set.

In an embodiment of the present invention, the first reception antenna 221, the first transmitting antenna 224, the second reception antenna 231 and Second transmitting antenna 234 is respectively one single-polarized antenna that can produce tailored radiation field pattern.Such as：First reception antenna 221, First transmitting antenna 224, the second reception antenna 231 or the second transmitting antenna 234 can produce an end-fire radiation pattern for one The antenna of (endfired radiation pattern), such as：Yagi aerial (yagi antenna), or one can produce it is lateral The antenna of formula radiation pattern (boardside radiation pattern), such as：Paster antenna (patch antenna).When When end-fire antenna is arranged on the surface of substrate 21, its radiation pattern is parallel to substrate 21, and side direction type antenna is arranged on base During the surface of plate 21, its radiation pattern is perpendicular to substrate 21.

While Fig. 2 and Fig. 3 is referred to, and in the millimeter wave high-amplitude wave device 20 of one embodiment of the invention, the first radio frequency antenna element 22 The first reception antenna 221, the second reception antenna 231 of the first transmitting antenna 224 and the second radio frequency antenna element 23 be choosing With the antenna of end-fire radiation pattern, such as yagi aerial, and the second transmitting antenna 234 of the second radio frequency antenna element 23 is to select The antenna of side direction type radiation pattern, such as paster antenna.As shown in Figure 3A, the first reception antenna 221 has a radiation pattern 2210, First transmitting antenna 224 has a radiation pattern 2240, and the second reception antenna 231 has a radiation pattern 2310.Such as Fig. 3 B institutes Show, the second transmitting antenna 234 has a radiation pattern 2340.The direction of the radiation pattern 2210 of first reception antenna 221 and the The direction of the radiation pattern 2240 of one transmitting antenna 224 is to there are one first included angle A 1, such as 180 degree, and the second reception antenna The direction of 231 radiation pattern 2310 and the direction of the radiation pattern 2340 of the second transmitting antenna 234 are to there are one second folder Angle A2, such as 90 degree.When the left direction of mm wave RF signal 101 from millimeter wave high-amplitude wave device 20 launches, microprocessor 24 selections receive mm wave RF signal 101, mm wave RF news with the first reception antenna 221 of the first radio frequency antenna element 22 Numbers 101 it is filtered involve enhanced processing after, via the first transmitting antenna 224 of the first radio frequency antenna element 22 with a right side side To launching, then, the mm wave RF signal 101 by millimeter wave high-amplitude wave device 20 will continue to transmit with the direction of level.Or Person, when the right direction of mm wave RF signal 101 from the millimeter wave high-amplitude wave device 20 of millimeter wave launches, microprocessor 24 Selection receives mm wave RF signal 101, mm wave RF signal with the second reception antenna 231 of the second radio frequency antenna element 23 101 it is filtered involve enhanced processing after, via the second radio frequency antenna element 23 the second transmitting antenna 234 by with one lower section Vertical direction is launched, then, the mm wave RF signal 101 by millimeter wave high-amplitude wave device 20 will change from the horizontal direction of script It is changed into vertical direction to be transmitted.

While Fig. 2 and Fig. 4 is referred to, and in the millimeter wave high-amplitude wave device 20 of further embodiment of this invention, the first radio frequency antenna element 22 the first transmitting antenna 224 is the antenna from end-fire radiation pattern, such as yagi aerial, and the first radio frequency antenna element 22 The first reception antenna 221 and the second radio frequency antenna element 23 the second reception antenna 231, the second transmitting antenna 234 be choosing With the antenna of side direction type radiation pattern, such as paster antenna.As shown in Figure 4 A, the radiation pattern 2210 of the first reception antenna 221 Direction and the direction of the radiation pattern 2240 of the first transmitting antenna 224 there are the first included angle A 1, such as 90 degree.As shown in Figure 4 B, The direction of the radiation pattern 2310 of second reception antenna 231 and the direction of the radiation pattern 2340 of the second transmitting antenna 234 are phases With, such as the second angle is 0 degree.When mm wave RF signal 101 was launched from the upper vertical direction of millimeter wave high-amplitude wave device 20 When coming, microprocessor 24 selects to receive mm wave RF signal with the first reception antenna 221 of the first radio frequency antenna element 22 101, mm wave RF signal 101 it is filtered involve enhanced processing after, via the first radio frequency antenna element 22 first transmitting Antenna 224 is launched with a right direction, then, will be from originally by the mm wave RF signal 101 of millimeter wave high-amplitude wave device 20 Vertical direction change into horizontal direction and be transmitted.Or when mm wave RF signal 101 is under millimeter wave high-amplitude wave device 20 When Fang Fangxiang is launched, microprocessor 24 selects to receive millimeter with the second reception antenna 231 of the second radio frequency antenna element 23 Ripple RF signal 101, mm wave RF signal 101 it is filtered involve enhanced processing after, via the second radio frequency antenna element 23 The second transmitting antenna 234 launched once again with lower section direction, then, pass through the mm wave RF signal of millimeter wave high-amplitude wave device 20 101 through that can be back to the transmission path of script.

Hold the first reception antenna 221, the first transmitting antenna 224, the second reception antenna 231 and the second hair of each embodiment Penetrating antenna 234 is arranged in the form of a plane on the surface of substrate 21；Or in further embodiment of this invention, first connects It is in the form of one is three-dimensional to receive antenna 221, the first transmitting antenna 224, the second reception antenna 231 and/or the second transmitting antenna 234 It is arranged on substrate 21 and the surface of its radiation pattern and substrate 21 there are a specific angle.Refer to Fig. 2, Fig. 3 simultaneously And shown in Fig. 5, the first reception antenna 221 compared to Fig. 3 embodiments is arranged in the form of plane on the surface of substrate 21, The first reception antenna of Fig. 5 embodiments 221 is to be arranged in the form of three-dimensional on the surface of substrate 21, its radiation pattern 2220 and base The surface of plate 21 is to there are a special angle, such as：30 degree, then, and the direction of the radiation pattern 2210 of the first reception antenna 221 One 150 degree of included angle A 1 is there are between the direction of the radiation pattern 2240 of the first transmitting antenna 224.Then, mm wave RF is worked as When the left direction of signal 101 from millimeter wave high-amplitude wave device 20 launches, the first reception antenna 221 receives mm wave RF signal 101, mm wave RF signal 101 is filtered involve enhanced processing after pass through the first transmitting antenna by the first radio frequency antenna element 22 224 launch with one relative to 30 degree of directions on the surface of substrate 21, then, are interrogated by the mm wave RF of millimeter wave high-amplitude wave device 20 Numbers 101 will change into a special angle direction from the horizontal direction of script is transmitted.

From the above, the combination of the antenna type in millimeter wave high-amplitude wave device 20 and the setting of aerial angle are only portions of the present invention The specific embodiment divided, however it is not limited to this.Those skilled in the art are, it is to be appreciated that millimeter wave high-amplitude wave device 20 of the present invention is can Antenna in the appropriate radiation pattern antenna of the transmit-receive position option and installment of mm wave RF signal 101 and/or is adjusted with basis Angle is set, to change the transmission direction of mm wave RF signal 101 so that the millimeter wave that radio-frequency transmissions main frame 10 is launched RF signal 101 can by millimeter wave high-amplitude wave device 20 successfully relay transmission to radio frequency reception main frame 30.

Referring again to Fig. 2, in further embodiment of this invention, millimeter wave high-amplitude wave device 20 also includes a motor 25, motor 25 It is electrically connected with microprocessor 24.Motor 25 is the lower section that can be alternatively provided at substrate 21, to carry millimeter wave high-amplitude wave device 20.In the least The microprocessor 24 of metric wave high-amplitude wave device 20 can be by controlling the rotation of motor 25, to change a setting of millimeter wave high-amplitude wave device 20 Orientation, and then the first radio frequency antenna element 22 or the second radio frequency antenna element 23 are adjusted for the one of mm wave RF signal 101 Receiving angle and a launch angle.From the above, because the rectipetaly of millimeter wave is especially strong, cause receivable scope quite narrow It is small, therefore, to ensure that millimeter wave high-amplitude wave device 20 can smoothly receive mm wave RF signal 101, millimeter wave high-amplitude wave device 20 Microprocessor 24 is can be set according in the beam positional of mm wave RF signal 101, corresponding adjustment millimeter wave high-amplitude wave device 20 Put orientation.

Explanation, as shown in Fig. 2 and Fig. 6 A, the first radio frequency day of the present embodiment millimeter wave high-amplitude wave device 20 are used as using an embodiment Second reception antenna of the first reception antenna 221 of line unit 22, the first transmitting antenna 224 and the second radio frequency antenna element 23 231 be to select end-fire antenna, such as yagi aerial, and the second transmitting antenna 234 of the second radio frequency antenna element 23 is to select side To formula antenna, such as paster antenna.When a mm wave RF signal 101 is to launch from upper left side close to 135 degree of direction to milli During metric wave high-amplitude wave device 20, the wave beam of its mm wave RF signal 101 may also fall the radiation pattern in the first reception antenna 221 Outside 2211, cause the first reception antenna 221 can not receive mm wave RF signal 101.Therefore, the control of millimeter wave high-amplitude wave device 20 Device 24 processed is that motor 25 can be controlled to be rotated, and the setting orientation of millimeter wave high-amplitude wave device 20 is rotated into one with a clockwise direction Special angle B, such as 45 degree rotationally clockwise.As shown in Figure 6B, after the setting orientation adjustment of millimeter wave high-amplitude wave device 20, millimeter The wave beam of ripple RF signal 101 will can fall within the radiation pattern 2211 of the first reception antenna 221 and receive day by first Line 221 is received, and afterwards, the first transmitting antenna 224 is again with the direction transmitting mm wave RF signal 101 of 45 degree of a right side top Go out.Then, via the setting orientation of adjustment millimeter wave high-amplitude wave device 20, it will can make it that the first of the first radio frequency antenna element 22 connects Second reception antenna 231 of the receipts radio frequency antenna element 23 of antenna 221 or second can smoothly receive in a preferable angle to be penetrated Take place frequently the mm wave RF signal 101 for penetrating that main frame 10 or other millimeter wave high-amplitude wave devices 20 are launched.

Referring to Fig. 7, the structure for the first radio frequency antenna element of the millimeter wave high-amplitude wave device of further embodiment of this invention is shown It is intended to.Hold described in embodiment, the first reception antenna 221 and first of the first radio frequency antenna element 22 of millimeter wave high-amplitude wave device 20 Transmitting antenna 224 is can to select a single-polarized antenna.Or in further embodiment of this invention, the first reception antenna 221 and/ Or first transmitting antenna 224 also can be selected a dual polarized antenna.

As shown in fig. 7, in the present embodiment, the first reception antenna 221 is to select a dual polarized antenna, and the first transmitting day Line 224 is the antenna from a single polarization.First reception antenna 221 includes two antenna modules 2211,2212 and a channel-splitting filter 2213.Two antenna modules 2211,2212 connect the first wave filter 222 via channel-splitting filter 2213 respectively or are directly connected to the first amplification Device 233.Two antenna modules 2211,2212 are for the mutually orthogonal antenna module of two polarization characteristics, and it has respective spoke respectively Field pattern is penetrated, as antenna module 2211 has vertical radiation pattern, and antenna module 2212 has horizontal radiation pattern.Two days Line component 2211,2212 is can to select to be realized with two paster antennas arranged in a crossed manner.The present embodiment millimeter wave high-amplitude wave device 20 the first radio frequency antenna element 22 is available with dual-polarized reception antenna 221 and distinguished from upper left side direction and left direction Receive mm wave RF signal 101.Mm wave RF signal 101 is filtered involve enhanced processing after, then the hair via single polarization Antenna 224 is penetrated from right side horizontal direction (or upper right side vertical direction) to launch.

Or as shown in figure 8, in the present embodiment, the first reception antenna 221 is to select a single-polarized antenna, and first Transmitting antenna 224 is to select a dual-polarized antenna.First transmitting antenna 224 includes two antenna modules 2241,2242 and one Channel-splitting filter 2243.Two antenna modules 2241,2242 connect the first amplifier 233 via channel-splitting filter 2243 respectively.Two antenna modules 2241st, 2242 be for the mutually orthogonal antenna module of two polarization characteristics, and it has respective radiation pattern, such as antenna module respectively 2241 have vertical radiation pattern, and antenna module 2242 has horizontal radiation pattern.Two antenna modules 2241,2242 are It can select to be realized with two paster antennas arranged in a crossed manner.The present embodiment millimeter wave high-amplitude wave device 20 utilizes the reception of single polarization Antenna 221 receives mm wave RF signal 101 from left direction (or upper left side direction).Mm wave RF signal 101 is filtered After involving enhanced processing, dual-polarized transmitting antenna 224 is sent to.Dual-polarized transmitting antenna 224 is again with right side horizontal direction And upper right side vertical direction transmitting mm wave RF signal 101 is gone out.Certainly, in further embodiment of this invention, first receives day The transmitting antenna 224 of line 221 and first can also select dual-polarized antenna simultaneously.

Similarly, the second reception antenna 231 of the second radio frequency antenna element 23 of millimeter wave high-amplitude wave device 20 of the present invention and/or Second transmitting antenna 234 can also select dual-polarized antenna, here, being not repeated to illustrate in addition to from the antenna of single polarization. Furthermore the millimeter wave high-amplitude wave device 20 with dual polarized antenna also can change setting orientation by the rotation of motor 25, to cause Dual polarized antenna is in a preferable angular acceptance to mm wave RF signal 101 or transmitting mm wave RF signal 101.

Referring again to Fig. 2, in one embodiment of the invention.Millimeter wave high-amplitude wave device 20 also includes a battery module 27, battery Module 27 connects microprocessor 24.Electric charge stored by battery module 27 will be provided in millimeter wave high-amplitude wave device 20 and operate required energy Amount.Or in further embodiment of this invention, millimeter wave high-amplitude wave device 20 can also select directly to be used as work electricity by the use of a civil power Source.

Referring again to Fig. 1, radio frequency reception main frame 30 of the present invention further comprises thering is a control unit 33 and a storage element 35.Control unit 33 is connected to radio frequency receiver 31 and storage element 35.In the present invention, radio-frequency transmissions main frame 10, millimeter wave High-amplitude wave device 20 and radio frequency reception main frame 30 be formed with plural bar signal transmission path 13, such as：First signal transmission path 13 be millimeter wave high-amplitude wave device A, B, C, Article 2 signal transmission path 13 are millimeter wave high-amplitude wave device A, B, D, C, Article 3 signal pass Defeated path 13 is millimeter wave high-amplitude wave device B, C and Article 4 signal transmission path 13 is millimeter wave high-amplitude wave device B, D.Signal transmission path 13 will be documented in the storage element 35 of radio frequency reception main frame 30.

In one embodiment of the invention, mm wave RF signal 101 that radio-frequency transmissions main frame 10 is launched is can be arbitrarily Radio frequency reception main frame 30 is sent to from one or more signal transmission path 13.

Or in further embodiment of this invention, the control unit 33 of radio frequency reception main frame 30 can be with arbitrarily selected wherein one Transmission path of the bar signal transmission path 13 as mm wave RF signal 101.Such as：The control unit of radio frequency reception main frame 30 33 select transmission path of first signal transmission path 13 as mm wave RF signal 101, are respectively transmitted an enable signal Millimeter wave high-amplitude wave device A, B, C and one forbidden energy signal 333 of transmission on 331 to the first signal transmission paths 13 be not to first Millimeter wave high-amplitude wave device D on bar signal transmission path 13.Millimeter wave high-amplitude wave device A, B, C microprocessor 24 will be enabled signal 331 enables are to perform a signal receiving/transmission program, and millimeter wave high-amplitude wave device D microprocessor 24 will be disabled the forbidden energy of signal 333 fortune Make.Afterwards, mm wave RF signal 101 can be sent to by radio-frequency transmissions main frame 10 via first signal transmission path 13 Radio frequency reception main frame 30.

Millimeter wave high-amplitude wave device 20 of the present invention also includes one first communication part 26, the first communication part 26 connection microprocessor Device 24.Radio frequency reception main frame 30 also includes one second communication part 36, the second communication part 36 connection control unit 33.In this hair In bright, the first communication part 26 and the second communication part 36 are respectively a communication part for according with microwave communication specification, such as： 2G, 3G or 4G communication part or WiFi communication component.The control unit 33 of radio frequency reception main frame 30 is via the first communication part 26 And second communication part 36 to transmit enable signal 331 or forbidden energy signal 333 to each millimeter wave high-amplitude wave device 20.

Continue, millimeter wave high-amplitude wave device 20 is when receiving mm wave RF signal 101, by the finger of embedded reception signal strength Show (Received Signal Strength Indication, RSSI) in mm wave RF signal 101, and will include RSSI mm wave RF signal 101 is launched.In this, the mm wave RF that each signal transmission path 13 is transmitted is interrogated Numbers 101 be to include RSSI value corresponding to one, such as：The RSSI value of first signal transmission path 13 is -10dbm, Article 2 The RSSI value of signal transmission path 13 is -30dbm, and the RSSI value of Article 3 signal transmission path 13 is -15dbm, and Article 4 The RSSI value of signal transmission path 13 is -25dbm.In further embodiment of this invention, the control unit 33 of radio frequency reception main frame 30 It is that can select one there is transmission path of the signal transmission path 13 of highest RSSI value as mm wave RF signal 101.Example Such as：The control unit 33 of radio frequency reception main frame 30 is can to select to possess first signal transmission path 13 for having highest RSSI value Transmission path as mm wave RF signal 101.Then, millimeter wave Transmission system 100 of the present invention utilizes a best rssi Signal transmission path 13 transmits mm wave RF signal 101, will can lift the transmission quality of signal.

In addition, radio frequency reception main frame 30 still includes a distance vector algorithms 351, distance vector algorithms 351 are previously stored storage Among memory cell 35.The control unit 33 of radio frequency reception main frame 30 is via distance vector algorithms 351 from those signal transmission paths The signal transmission path 13 of a beeline is calculated in 13, such as：The control unit 33 of radio frequency reception main frame 30 is via distance The path length that vector algorithm 351 calculates first signal transmission path 13 is 20m, the road of Article 2 signal transmission path 13 Electrical path length is 25m, and the path length of Article 3 signal transmission path 13 is 9m, and the path length of Article 4 signal transmission path 13 Spend for 10m.In further embodiment of this invention, the control unit 33 of radio frequency reception main frame 30 is can to select one to have most short news Number transmission path of the transmission path 13 as mm wave RF signal 101.Such as：The control unit 33 of radio frequency reception main frame 30 is Transmission path of the most short Article 3 signal transmission path 13 as mm wave RF signal 101 can be selected.Then, present invention milli Metric wave Transmission system 100 transmits mm wave RF signal 101 using a most short signal transmission path 13, can lift news Number transmission speed.

Summary, the millimeter wave high-amplitude wave device 20 of millimeter wave Transmission system 100 of the present invention is according in mm wave RF signal 101 transmit-receive position is strong with the appropriate radiation pattern antenna of option and installment, the setting angle of adjustment antenna and/or adjustment millimeter wave The setting orientation of ripple device 20 so that the mm wave RF signal 101 that radio-frequency transmissions main frame 10 is launched can be by millimeter wave high-amplitude wave Device 20 successfully relay transmission to radio frequency reception main frame 30.Furthermore millimeter wave Transmission system 100 of the present invention utilizes an optimal news Number transmission path 13 transmits mm wave RF signal 101, to lift the transmission quality of mm wave RF signal 101 and transmission speed Degree.

As described above, only preferable embodiment, is not used for limiting the scope of implementation of the invention, I.e. all shapes according to described in the claims in the present invention, construction, feature and spirit institute equivalent changes and modifications for it, all should be included in In the claim of the present invention.

Claims (20)

1. millimeter wave high-amplitude wave device, it is characterised in that including：

One first radio frequency antenna element, set on a substrate, it includes：

One first reception antenna, to receive a mm wave RF signal；

One first wave filter, first reception antenna is connected, to filter the mm wave RF signal；

One first amplifier, first wave filter is connected, to amplify the mm wave RF signal；And

One first transmitting antenna, first amplifier is connected, to launch the mm wave RF signal after amplification；

The radiation pattern direction of wherein described first reception antenna is to exist with the radiation pattern direction of first transmitting antenna There is one first angle, the millimeter wave high-amplitude wave device is via the design of first corner dimension so as to pass through the millimeter wave high-amplitude wave The mm wave RF signal of device is continued transmission with a horizontal direction, is continued transmission with a vertical direction or with a special angle Direction continue to transmit.

2. millimeter wave high-amplitude wave device according to claim 1, it is characterised in that also include at least one second radio-frequency antenna list Member, second radio frequency antenna element are set on the substrate, and it includes：

One second reception antenna, to receive the mm wave RF signal；

One second wave filter, second reception antenna is connected, to filter the mm wave RF signal；

One second amplifier, second wave filter is connected, to amplify the mm wave RF signal；And

One second transmitting antenna, second amplifier is connected, to launch the mm wave RF signal after amplification；

Wherein described first radio frequency antenna element and second radio frequency antenna element composition are a two-way radio frequency antenna module, The radiation pattern direction of second reception antenna and the radiation pattern direction of second transmitting antenna are to there are one second Angle, via second corner dimension design so that by the mm wave RF signal of the millimeter wave high-amplitude wave device with The horizontal direction continues transmission, continues transmission with the vertical direction or continue to transmit with the direction of the special angle.

3. millimeter wave high-amplitude wave device according to claim 2, it is characterised in that described the of first radio frequency antenna element Second transmitting antenna of one reception antenna and second radio frequency antenna element is arranged on the side of the substrate, and described First transmitting antenna of first radio frequency antenna element and second reception antenna of second radio frequency antenna element are set Put the opposite side in the substrate.

4. millimeter wave high-amplitude wave device according to claim 2, it is characterised in that first reception antenna, first hair It is a yagi aerial or a paster antenna to penetrate antenna, second reception antenna or second transmitting antenna..

5. millimeter wave high-amplitude wave device according to claim 2, it is characterised in that the millimeter wave high-amplitude wave device includes a micro- place Device is managed, the microprocessor connects first radio frequency antenna element and second radio frequency antenna element, the microprocessor Selection receives and dispatches the mm wave RF signal with first radio frequency antenna element or second radio frequency antenna element.

6. millimeter wave high-amplitude wave device according to claim 5, it is characterised in that the millimeter wave high-amplitude wave device includes a horse Reach, the motor connects the microprocessor, and the microprocessor controls the rotation of the motor strong to change the millimeter wave The one of ripple device sets orientation.

7. millimeter wave high-amplitude wave device according to claim 5, it is characterised in that the millimeter wave high-amplitude wave device includes a battery Module, the battery module connect the microprocessor.

8. millimeter wave high-amplitude wave device according to claim 2, it is characterised in that first reception antenna, first hair It is a single-polarized antenna or a dual polarized antenna to penetrate antenna, second reception antenna or second transmitting antenna, the list Poliarizing antenna is an antenna with tailored radiation field pattern, and the dual polarized antenna is an antenna with two radiation patterns.

9. millimeter wave high-amplitude wave device according to claim 8, it is characterised in that the dual polarized antenna includes two antenna sets Part, two antenna module are the mutually orthogonal antenna module of two polarization characteristics.

10. millimeter wave high-amplitude wave device according to claim 8, it is characterised in that when first reception antenna or described When one transmitting antenna is the dual polarized antenna, first reception antenna via a channel-splitting filter connect first wave filter or First transmitting antenna connects first amplifier via the channel-splitting filter；Or when second reception antenna or institute When to state the second transmitting antenna be the dual polarized antenna, second reception antenna is via another channel-splitting filter connection described the Two wave filters or second transmitting antenna connect second amplifier via another channel-splitting filter.

11. millimeter wave Transmission system, it is characterised in that including：

One radio-frequency transmissions main frame, including a radiofrequency launcher, to launch a mm wave RF signal；

A plurality of millimeter wave high-amplitude wave devices, each millimeter wave high-amplitude wave device are respectively arranged on different positions, and each millimeter wave is strong Ripple device includes respectively：

One first radio frequency antenna element, set on a substrate, it includes：

One first reception antenna, receive the millimeter wave via the radio-frequency transmissions main frame or another millimeter wave high-amplitude wave device and penetrate Frequency signal；

One first wave filter, first reception antenna is connected, to filter the mm wave RF signal；

One first amplifier, first wave filter is connected, to amplify the mm wave RF signal；And

One first transmitting antenna, first amplifier is connected, to launch the mm wave RF signal after amplification, wherein The radiation pattern direction of first reception antenna and the radiation pattern direction of first transmitting antenna are to there are one first Angle, the millimeter wave high-amplitude wave device via first corner dimension design so that the institute by the millimeter wave high-amplitude wave device Mm wave RF signal is stated to continue transmission with a horizontal direction, continue transmission or direction with a special angle with a vertical direction Continue to transmit；And

One microprocessor, connect first radio frequency antenna element；And

One radio frequency reception main frame, including a control unit and a radio frequency receiver, described control unit connect the radio frequency reception Device, wherein the radio-frequency transmissions main frame via at least one millimeter wave high-amplitude wave device with mm wave RF signal described in relay transmission To the radio frequency reception main frame.

12. millimeter wave Transmission system according to claim 11, it is characterised in that the radio-frequency transmissions main frame, a plurality of Formed with plural bar signal transmission path, the radio frequency reception master between the millimeter wave high-amplitude wave device and the radio frequency reception main frame The described control unit of machine selectes a wherein signal transmission path and is respectively transmitted an enable signal to described selected Each millimeter wave high-amplitude wave device on signal transmission path, each millimeter wave high-amplitude wave on the selected signal transmission path The microprocessor of device will perform a signal receiving/transmission program, the radio-frequency transmissions main frame warp by enable signal institute's enable By the selected signal transmission path to transmit the mm wave RF signal to the radio frequency reception main frame.

13. millimeter wave Transmission system according to claim 12, it is characterised in that the radio frequency reception main frame includes one Storage element, described control unit connect the storage element, and the storage element transmits to record signal described in plural bar Path.

14. millimeter wave Transmission system according to claim 11, it is characterised in that signal transmission path described in each bar includes There is a reception signal strength indicated value, the described control unit selected one of the radio frequency reception main frame has highest reception signal strong Spend transmission path of the signal transmission path of indicated value as the mm wave RF signal.

15. millimeter wave Transmission system according to claim 12, it is characterised in that the control of the radio frequency reception main frame Unit processed transmits road via a distance vector algorithms to calculate a most short signal from signal transmission path described in plural bar Footpath, the selected most short signal transmission path of described control unit of the radio frequency reception main frame is as the mm wave RF The transmission path of signal.

16. millimeter wave Transmission system according to claim 12, it is characterised in that the millimeter wave high-amplitude wave device includes one the One communication part, the microprocessor connect first communication part, and the radio frequency reception main frame includes one second communication group Part, described control unit connect second communication part, and first communication part and second communication part are respectively One accords with the communication part of microwave communication specification, and the described control unit of the radio frequency reception main frame is via the described first communication Component and second communication part are to transmit the enable signal to the millimeter wave high-amplitude wave device.

17. millimeter wave Transmission system according to claim 11, it is characterised in that the millimeter wave high-amplitude wave device includes one Second radio frequency antenna element, second radio frequency antenna element are set on the substrate, and it includes：

One second reception antenna, to receive the mm wave RF signal；

One second wave filter, second reception antenna is connected, to filter the mm wave RF signal；

One second amplifier, second wave filter is connected, to amplify the mm wave RF signal；And

One second transmitting antenna, second amplifier is connected, to launch the mm wave RF signal after amplification；

Wherein described first radio frequency antenna element and second radio frequency antenna element composition are a two-way radio frequency antenna module, The radiation pattern direction of second reception antenna and the radiation pattern direction of second transmitting antenna are to there are one second Angle, via second corner dimension design so that by the mm wave RF signal of the millimeter wave high-amplitude wave device with The horizontal direction continues transmission, continues transmission with the vertical direction or continue to transmit with the direction of the special angle, institute State microprocessor selection and the mm wave RF is received and dispatched with first radio frequency antenna element or second radio frequency antenna element Signal.

18. millimeter wave transmission method, it is applied in a kind of millimeter wave Transmission system, it is characterised in that the millimeter wave transmission System includes a radio-frequency transmissions main frame, a radio frequency reception main frame and a plurality of millimeter wave high-amplitude wave devices, each millimeter wave high-amplitude wave device It is respectively arranged on different positions, the millimeter wave transmission method comprises the following steps：

In the radio-frequency transmissions main frame, a plurality of millimeter wave high-amplitude wave devices and described penetrated formed with plural bar signal transmission path Between frequency Receiving Host；

The radio frequency reception main frame is made to select a wherein signal transmission path；

The radio frequency reception main frame is made to be respectively transmitted each milli of the enable signal to the selected signal transmission path Metric wave high-amplitude wave device is with each millimeter wave high-amplitude wave device on signal transmission path selected described in enable；

Launch a mm wave RF signal via the radio-frequency transmissions main frame；And

The mm wave RF signal that the radio-frequency transmissions main frame is launched is made to transmit road via the selected signal Each millimeter wave high-amplitude wave device on footpath is sent to the radio frequency reception main frame.

19. millimeter wave transmission method according to claim 18, it is characterised in that signal transmission path described in each bar includes There is a reception signal strength indicated value, the radio frequency reception main frame selected one has the signal that highest receives signal strength indicated value Transmission path of the transmission path as the mm wave RF signal.

20. millimeter wave transmission method according to claim 18, it is characterised in that the radio frequency reception main frame via one away from Descriscent quantity algorithm from signal transmission path described in plural bar to calculate a most short signal transmission path, the radio frequency reception Transmission path of the selected most short signal transmission path of main frame as the mm wave RF signal.