EP1455413A1 - Method of changing the down-tilt angle of an antenna, in particular of a base station antenna - Google Patents

Abstract

The device has control electronics and an electric motor (51) and is preferably activated by a device or command device. The controller with the electronics is mounted in a control housing separate from the antenna's protective cover or forms a complete unit or module. The motor is coupled to an actuation element so that the actuating elements inside the protective cover for setting the slope radiation angle can be operated. Independent claims are also included for the following: an antenna and a method of varying a slope angle.

Description

The invention relates to a method for changing a Lowering angle of an antenna, in particular one to one Base station belonging mobile radio antenna.

As is known, the mobile radio network is designed in the form of a cell, with each cell having a corresponding base station at least one cellular antenna for sending and receiving assigned. The antennas are designed so that they usually at a certain angle to the Radiate horizontally deflected downwards, creating a certain cell size is set.

In addition to the main transmission frequencies of the 900 MHz band and the 1800 MHz band (in the USA, for example of the 1900 MHz band) obtained for the next generation of the cellular network, the so-called UMTS network, the 2000 MHz band meaning. Depending on the size of the single cell covered by a base station such as but also, for example, depending on the one in question Network (e.g. of the upcoming UMTS network) the antennas set with different angles of inclination become.

Finally, it is also known that the lowering or Inclination angle, which is also sometimes referred to below Downtilt angle is called with which a cellular antenna a base station opposite the horizontal emits below, for example adjustable by phase shifter is. By changing the phase difference of several single radiator arranged one above the other becomes the Angle of inclination of the radiation diagram changed. The Phase shifters can be adjusted accordingly, which usually requires that immediately on the Cellular antenna the setting must be done manually. Existing protective devices must also be dismantled or be remounted. This is natural with considerable assembly effort.

Therefore, according to WO 96/14670, it has already been proposed the downtilt angle using an electrical To be able to set the control device differently, the controller of such a control device for example in the base of such Antenna device mounted or as a mobile control device can be used with a plug connection if necessary on control lines led out of the antenna can be connected to the below the Protective housing built-in adjustment device for adjustment of the downtilt angle.

Antennas with different adjustable drop angles are also known in principle from US 5 512 914. From US 6 078 824 there is also an electromagnetic Circuit device for implementation a decrease in the beam angle.

The object of the present invention is therefore a improved procedure for changing the downtilt angle to accomplish.

The task is according to the invention in accordance with the claim 1 specified features solved. Advantageous configurations the invention are specified in the subclaims.

• es wird bezüglich des Verstellbereiches des Downtilt-Winkels eine Selbstkalibrierung durchgeführt,
• die Selbstkalibrierung wird so durchgeführt, dass mittels einer ansteuerbaren Betätigungseinrichtung (29) diese zwischen zwei Extrem- oder Endstellungen mittels eines Elektromotors verstellt wird,
• jeweils bei Erreichen der entsprechenden Endposition wird dieser Position ein bestimmter Wert eines maximalen oder minimalen Absenkwinkels zugeordnet, und
• wegabhängig zwischen den beiden Extrem- oder Endpositionen werden dazwischenliegende Relativpositionen mittels einer Steuerungselektronik (41) interpoliert.

The method according to the invention is characterized above all by the following features:

• a self-calibration is carried out with regard to the adjustment range of the downtilt angle,
• the self-calibration is carried out in such a way that it can be adjusted between two extreme or end positions by means of an electric motor by means of a controllable actuating device (29),
• each time a corresponding end position is reached, a certain value of a maximum or minimum lowering angle is assigned to this position, and
• Depending on the path between the two extreme or end positions, intermediate relative positions are interpolated by means of control electronics (41).

The method according to the invention can be used in particular in connection with an antenna control device use that on an appropriate cellular base station outside the protective housing for the radiator elements (Radom) can be retrofitted. It is therefore preferably not provided that already extensive mechanical and / or electronic devices in the manufacture or delivery of a corresponding Cellular antenna must be provided to be retrofittable to ensure.

The manual setting from the outside is basically the case of the technique. The control device according to the invention The preferred feature is that this when installed outside the protective housing of the antenna interacts exactly with that control element, via which is otherwise done manually can be.

The details of exemplary embodiments described antenna uses a fundamentally known transmission element, which outside the antenna protection cover can be operated manually, and which through a corresponding opening to the inside below the protective housing of the antenna is enough to get there for example via a transmission linkage or the multiple phase shifters to adjust the Downtilt angle to operate. This from the outside in through the protective housing or part of the rear or Side plate of the support and / or protective cover of the antenna passed actuator is preferably from a spindle in a corresponding threaded sleeve is rotatably guided. By twisting the Threaded spindle in the axial direction between two end or Extreme positions can be adjusted.

The method according to the invention can therefore in particular in connection with an antenna control device use the whole or essentially as a complete unit or complete module is formed. This Control device can therefore be handled easily and assembled, and not only - as above described - in interaction with someone outside the Cover housing provided the antenna device Actuator. Rather, the invention is the same provided that the complete unit or the complete module if necessary also under the protective cover as Complete module that is easy and easy to handle and can be retrofitted if necessary. Also in this Fall will be the retrofittable antenna control device with a corresponding actuator below Protective cover coupled to the phase of the Set antennas differently. As an essential Advantage shows that the invention Antenna control device as a complete solution simple outside or inside the protective cover of the antenna can be assembled. An assembly of a variety of Individual components may even be in different places below the protective cover of the antenna, as with the stand the technology, is therefore eliminated.

It has now proven to be favorable that the adjustment of the Downtilt angle ultimately both manually and by means of a suitable control device can take place. in the manual operation eliminates the complete control unit, see above that the adjustment of the down tilt angle ultimately only by adjusting the actuating element, preferably by rotating an adjustment or spindle gear can be what about the rotatable spindle then for example the phase shifters to change the Downtilt angle can be set accordingly.

If a corresponding electronic or electrical Control device retrofitted, this is preferred only mounted outside the protective housing of the antenna. This then acts directly with the actuation transmission element, i.e. especially that for manual Setting provided spindle gear together about what via the motor drive belonging to the control device a rotation of the spindle gear can be made.

It has also proven to be advantageous to have no limit switches or limit switches, but to provide clamp-free end stops. So these are on the spindle as well as on the housing provided and trained that the movement of the spindle in the respective extreme or end position by an end stop is secured against further rotation. The end stop thus enables that in a subsequent Movement in the opposite direction essentially no additional release forces are required. This carries that comparatively small engines with low Drive powers can be used.

In a preferred variant it is also provided that the control electronics the two end stops two absolute Assigns position values. The absolute positioning can then at least on one of these two positions be performed. For this purpose, the actuator should preferably in the form of the spindle only in the respective Direction until the end stop is reached. Reaching the end stop can also be electrical / electronic recognized by the control electronics and be evaluated.

One proves to be particularly cheap in the context of Invention device used for self-calibration. If the transmission or actuator is preferably in Shape the spindle initially onto at least one of the two End stops moved and then to the other end stop moved back, preferably by means of a path detection in the form of the counted angular momentum, the maximum Adjustment path recorded via the two end stops assigned the maximum angle of descent and above each intermediate angle, if necessary also by means of a table Base values are interpolated. This allows any positions between the extreme positions absolute can be controlled.

Alternatively or in addition, it is also possible to determine certain Setting positions within the permissible setting range to drive relatively. The current one can do this Set value stored in a non-volatile memory in order to make an adjustment again the relative adjustment based on this value perform.

A control device with one to the outside is preferred leading interface used. Via this interface can perform all setting and monitoring functions be carried out at command level. to Control can be a special control unit or a computer with suitable control software or e.g. the base station be used.

In one embodiment of the invention, the are used mechanical and the electrical / electronic part of the Control device in fixed relation to each other coupled. No special addressing is required for this the control unit. However, the control unit can preferably also work in a "with addressing" mode. This opens up the possibility of only one command interface multiple electronic control units from one to drive from the central point, i.e. several angles different antennas accordingly.

Figur 1 :

eine Darstellung einer unterhalb eines Abdeck- oder Schutzgehäuses angeordneten Mobilfunkantenne mit extern angebauter Antennensteuerungsvorrichtung;

Figur 2 :

eine auszugsweise Seitenansicht auf eine entsprechende Mobilfunkantenne mit abgenommenem Schutzgehäuse und nach außen geführtem Betätigungselement;

Figur 3 :

eine vergrößerte Detaildarstellung der mit einer manuellen Einstellmöglichkeit grundsätzlich ausgestatteten Mobilfunkantenne für eine Basis-Station;

Figur 4 :

eine entsprechende Darstellung zu Figur 3 bei angebauter Antennensteuerungsvorrichtung;

Figur 5 :

eine vergrößerte Darstellung eines Details aus Figur 4;

Figur 6 :

eine Seitenansicht der in Figur 4 gezeigten Nachrüsteinheit im demontierten Zustand in schematischer Querschnittsdarstellung;

Figur 7 :

eine um 90° gedrehte Seitenansicht bezüglich der Darstellung gemäß Figur 4, und

Figur 8 :

eine schematische Darstellung einer Basisstation mit Mast und elektronisch absenkbarer Mobilfunkantenne.

Further details, advantages and features emerge below from the exemplary embodiment illustrated in the drawings. Show in detail

Figure 1:

an illustration of a mobile radio antenna arranged below a cover or protective housing with an externally mounted antenna control device;

Figure 2:

a partial side view of a corresponding mobile radio antenna with the protective housing removed and the actuating element guided to the outside;

Figure 3:

an enlarged detail view of the cellular antenna for a base station, which is basically equipped with a manual setting option;

Figure 4:

a corresponding representation to Figure 3 with attached antenna control device;

Figure 5:

an enlarged view of a detail from Figure 4;

Figure 6:

a side view of the retrofit unit shown in Figure 4 in the disassembled state in a schematic cross-sectional view;

Figure 7:

a side view rotated by 90 ° with respect to the representation according to Figure 4, and

Figure 8:

is a schematic representation of a base station with mast and electronically lowerable cellular antenna.

In Figure 1 is a schematic perspective excerpt Representation of a cellular antenna for a base station shown. Usually in one of the Drawings not shown antenna mast in a corresponding Vertical orientation or slightly inclined downwards several offset in different circumferential directions Cellular radiating antennae arranged.

Such a cellular antenna can be a variety of Have radiators in different frequency bands can radiate, by changing the phase spacing vertically one above the other arranged radiators 1 a different angle of inclination, a so-called down tilt angle can with which the cellular antenna 3 compared to the Horizontal emits downwards. As is known, this is done via appropriate settings of phase shifter elements, so far on the previously known solutions is referred. 8 shows a base station 71 shown with an antenna mast 73, on which a corresponding Cellular antenna 3 is attached, the over Lines 75 from the base station or the command device is controlled, and what the emission direction in an angular range α electronically more or less strong can be lowered.

A corresponding mobile radio antenna 3 includes, for example a mounting or mounting plate 5, which may also include a reflector or at least one Can wear reflector, the mounting or mounting plate preferably in lying down on her coming side with a connection plate protruding transversely to it 7 is provided on which the corresponding Connections 9 for connecting coaxial cables for operation of which several individual radiators are provided.

On the mounting or mounting plate 5 is also a usually protective cover made of GRP plastic 11 attached below the single radiator elements in front a reflector are arranged seated.

In the excerpt perspective view according to Figure 1 is also already outside the protective cover 11 retrofittable control device 13 is shown, with which the radiation angle of the antennas is controlled or can be set automatically.

Before the visible in Figure 1 in the assembled state Control device 13 is discussed in more detail, is first on the schematic plan view according to FIG 2 referenced in which with the protective cover 11 in front of a reflector 15 at the lower end of the reflector 15 sitting a first radiator 17 adjacent to Connection plate 7 can be seen, the side to the Connections 9 in the connection plate 7 an actuation opening 19 is provided, namely by a the connection plate 7 penetrating and tight and tight connected to this connecting piece 23. This A threaded sleeve 21 extends through the connecting piece 23, in other words the corresponding opening 19 penetrated in the connection plate 7. Within the fixed connection piece 23 is a threaded sleeve 21 rotatably mounted about its axial axis, but axially immovable held. On the protruding outside Section of the rotatably mounted connection sleeve 21 is a Adjustment element 25 is provided, in the embodiment shown formed in the form of a spindle gear 25 ' is.

The threaded sleeve 21 is actuated by an actuating element 29 enforced, which in the embodiment shown there is a spindle 29 '. The external thread 29 "of the spindle 29 'acts together with the internal thread of the threaded sleeve 21, i.e. the internal thread of the spindle gear 25 ' together so that by turning the spindle gear 25 ' Depending on the direction of rotation, the non-rotatable spindle 29 ' further axially inside the protective cover 11 or is adjusted further out.

As can be seen in particular from FIGS. 2 to 5, is the inner end of the formed in the form of a spindle 29 ' Actuator 29 with a corresponding Transmission device 31 in the form of a transmission linkage connected, with the other not shown Then one or the other at the end of the transmission linkage several phase shifters to change the angle of inclination of the antennas can be adjusted. Through the provided non-rotatable connection 33 is also ensured that the spindle 29 'does not rotate itself can.

From the enlarged detailed view according to FIG it can also be seen that the adjusting element 25 is in the form of the spindle gear 25 'on the outward-facing side radially offset to the longitudinal axial axis with a first actuation end stop 35 and below the Protective cover 11, that is to say on the inside of the connection plate 7 with an opposite direction as well radially offset to the central axis of the spindle second actuation end stop 35 'is equipped. These end stops are in scope and therefore Direction of rotation aligned, the outer Adjustment end stop 35 with the outer one on the spindle 29 ' trained actuation end stop 37 and the inner Adjustment end stop 35 'with the inside Actuating end stop 37 'which also cooperates are aligned in the radial direction. Located in Figure 3 the spindle is in one end stop position, namely in the most extended position, in which the two stops 35 ', 37' lie against each other.

Simply by manually turning the spindle gear 25 ' So can the spindle 29 'between two end positions adjusted axially far through the connecting plate 7 until the outer actuation end stop 37 strikes at the outer adjustment end stop 35 or conversely, the inner adjustment end stop 35 ' the internal actuation end stop 37 'of the spindle 29 cooperates.

The down-tilt angle of such an antenna can therefore can be changed and reset manually without any problems, by the setting element 25, in other words that Spindle gear 25 'rotated accordingly in the circumferential direction to thereby move the spindle in the axial direction adjust. In cooperation with the one below Protective cover provided transmission linkage can the phase shifters and thus the down tilt angle accordingly can be set.

Such an antenna is also easy with one described control device for motor lowering the cellular antenna 3, for example by remote control retrofitted.

All you need to do is e.g. already in Figure 1 from the outside forth apparent and in Figures 4 to 6 in the further Control device 13 reproduced in detail with the corresponding electrical or electronic components can be equipped and before all the necessary drive elements for mechanical Adjustment includes.

The control device 13 includes (FIG. 6) a Control housing 43 with a connecting piece 45, the held over the housing 43 or the connecting piece 45 and an internally threaded connection cap ring 47 on a raised ring section 23 'of the connecting piece 23 of the connecting plate 7 is firmly screwed on becomes. The mentioned spindle gear 25 'then comes inside of the control housing 43 to lie, directly adjacent to a corresponding drive gear 49, which can be driven by an electric motor 51 is.

As can also be seen from the schematic representations, is inside the control housing 43 of the control device 13 the control electronics 41 with various Control boards 53 provided the electrical / electronic Control components include, on their How it works is discussed below.

For example, via a transmitter, not shown can - since the control device 13 a receiving device comprises - the control device 13 accordingly to be served. After an initial assembly or, for example after a reset, the electric motor 51 the spindle gear 25 ', which with that of the electric motor driven drive gear 49 meshes, rotated, until the spindle 29 ', for example, in its innermost, i.e. most retracted into the protective housing 11 Position is adjusted until it is the one with the spindle gear 25 'moving outer adjustment end stop 35 in Circumferential direction for turning the outer one on the spindle attached actuation end stop 37 stops. Subsequently the drive motor 51 becomes in the reverse direction actuated until the inner with the threaded sleeve 21 and the spindle gear 25 'rotating end stop 35 'attached to the inner on the spindle and thus stops axially moving actuating end stop 37 '.

The electronics have two of these end positions Assigned angle settings. A back and forth movement between the end stops can not cause a blockage cause no wedging and tensioning forces between the End stops occur that are virtually at 90 ° to each other Tap towards each other.

By assigning the end positions to two of the Electronics specified or over two (in the drawings not shown) Cable connections or preferred End drop angles transmitted via remote-controlled devices can on one of the control boards 53rd provided integrated electronics or evaluation electronics perform a self-calibration. Between the adjustment movement between the two end stops further e.g. the angular momentum by means of a counter be counted so that a path-dependent signal above it given is. The two end positions and the path-dependent The signal is then used by means of the electronics to allow an interpolation, thereby eliminating any intermediate value is controllable between the end stops. This can the control from the desired position the number of calculate the angular momentum required for the position in question and control the electric motor for a correspondingly long time. Instead of the interpolation mentioned, the desired ones Intermediate values may also preferably be by means of Base values can be read from a table.

The control can be in the sense of an absolute control done by first moving towards an end stop retracted and then in the opposite direction a corresponding adjustment up to the desired absolute position the spindle 29 'is made. But it can also made a relative adjustment in this way the last set relative value, which corresponds to a certain angle of descent of the antenna, preferably stored in a non-volatile buffer becomes. The electronics then relate to a next value calculates which route is based from the current setting got to.

The control device 13 thus includes in particular the electric motor 51 electromechanical control elements and also control electronics 41 for evaluation, Calculation etc. This so-called "intelligent" Control electronics 41 preferably have an interface , via which all setting / monitoring functions can be carried out at a command level. to Setting can be a special control unit or a computer can be used with suitable control software. The Communication can be wired or wireless between a command device (for example a computer) and the Control device 13, or by the base station yourself.

For example, when using a command device this also when the individual control devices 13 or the associated control electronics 41 can be addressed are several different control devices 13 control.

The address modes (with and without address) can be changed at any time can also be changed in operation. Possibly. can also it should be provided that addresses are even added later can be configured.

The command interface on the control electronics 41 is accessible from the outside, for example via plugs or cable or it can be reached wirelessly.

The invention is for an antenna control device have been described as a complete device or as a complete module can be retrofitted outside the protective cover of the antenna is. The same device with basically the same Construction can also be done as a complete device or as a complete unit or complete module within the antenna device, i.e. mounted below the protective device of the antennas be and in the same or a comparable way with a transmission device to be coupled to the Set the phase position of the antenna elements differently. Due to the modular construction or complete construction in both cases, easy and problem-free retrofitting possible.

Claims (18)

Method for changing a lowering angle of a mobile radio antenna belonging to a base station with the following features a self-calibration is carried out with regard to the adjustment range of the downtilt angle, the self-calibration is carried out in such a way that it can be adjusted between two extreme or end positions by means of an electric motor by means of a controllable actuating device (29), each time a corresponding end position is reached, a certain value of a maximum or minimum lowering angle is assigned to this position, and Depending on the path between the two extreme or end positions, intermediate relative positions are interpolated by means of control electronics (41). A method according to claim 1, characterized in that the respective setting value of the actuating element (29) and thus a predetermined lowering angle of the mobile radio antenna (3) is stored in a preferably non-volatile memory, and that when a changed lowering angle is specified by means of the control electronics (41) corresponding, relative control value is determined in order to carry out an adjustment from the current position directly to the new target position. A method according to claim 1 or 2, characterized in that the displacement-dependent adjustment of the actuating element (29) is carried out in the form of a speed measurement. Method according to one of claims 1 to 3, characterized in that all setting and / or monitoring functions are carried out from a command device. Method according to one of Claims 1 to 4, characterized in that a plurality of mobile radio antennas equipped with separate control devices (13) can be controlled by means of a command device, preferably by means of a correspondingly provided addressing. Method according to one of claims 1 to 5, characterized in that a control device is used for setting a different lowering angle, in particular of a mobile radio antenna (3) belonging to a base station, which has the following further features: the control device (13) comprises control electronics (41), the control device (13) further comprises an electric motor (51), the control device (13) can preferably be actuated by means of a device or command device (59), The control device (13) with its control electronics (41) is accommodated in a control housing (43) which is separate or separate from the protective cover (11) of the mobile radio antenna (3) or consists of a complete unit or complete module, the electric motor (51) of the control device (13) is provided with an out of the interior of the mobile radio antenna (3) covered by the protective cover (11) via an actuation opening (19) or into the interior of the protective cover (11) or with a actuating element (29) located below or below the protective cover (11) can be coupled in such a way that the actuating elements provided in the interior of the protective cover (11) can be actuated to set a different lowering radiation angle. Method according to one of claims 1 to 6, characterized in that a control device is used which is provided with an adapter device, whereby the control device can be retrofitted to the mobile radio antenna, preferably without opening the protective cover (11) of the mobile radio antenna (3). Method according to one of Claims 1 to 7, characterized in that a control device is used in which the electric motor (51) is provided with a drive wheel (49), in particular a drive gear, which is provided with an antenna-side adjusting element (outside the protective cover (11)) 25) or gear (25 ') for adjusting the actuating element (29) cooperates. Method according to one of claims 1 to 8, characterized in that a control device is used, in which the housing (43) has an opening with which it on a connection plate (7) of a base mounting plate (5) and / or a protective cover of the mobile radio antenna (3) can be fastened or screwed on, specifically by accommodating the antenna-side adjusting element (25) or gearwheel (25 ') and / or at least for proportionally accommodating the associated actuating element (29) for carrying out an adjustment of the lowering angle of the mobile radio antenna (3). Method according to one of Claims 1 to 9, characterized in that a control device is used in which self-calibration can be carried out by means of the control electronics (41) such that the actuating device (29) between two extreme or end positions by means of the control electronics (41) It can be adjusted by means of the electric motor (51) that maximum or minimum values of the lowering level of the mobile radio antenna (3) can be assigned to these end positions, and that relative positions intermediate between the two extreme or end positions can be interpolated by means of the control electronics (41). Control device according to one of claims 1 to 10, characterized in that a control device is used in which the respective setting value of the actuating element (29) and thus a predetermined angle of depression of the mobile radio antenna (3) can be stored in a preferably non-volatile memory, and that corresponding values can be interpolated. Method according to one of claims 1 to 11, characterized in that a control device is used in which the path-dependent adjustment of the actuating element (29) can be carried out in the form of a speed pulse measurement. Method according to one of Claims 1 to 12, characterized in that a control device is used in which the control electronics (41) comprise an interface, via which all setting and / or monitoring functions can be carried out by a command device, a computer or the base station itself. Method according to one of claims 1 to 13, characterized in that a control device is used in which the command device is the base station or is integrated in the base station. Method according to claim 13 or 14, characterized in that a control device is used in which the command device consists of a software processing computer or a special control device or of the base station itself. Method according to one of claims 1 to 15, characterized in that a control device is used, in which the currently set lowering position of the lowering angle can be stored in a non-volatile memory and that based on the current value of the downtilt angle, a next desired angle relative is approachable. Method according to one of claims 1 to 16, characterized in that a control device is used which, in particular the control electronics (41), is addressable, by means of which a control device can be used to control a plurality of control devices for different setting of the angle of descent in the case of a plurality of antennas. Method according to one of claims 1 to 17, characterized in that the method is carried out on an antenna, in particular a mobile radio antenna of a base station, which has the following features: the antenna comprises an adjustment device which is accessible outside the protective cover (11) of the mobile radio antenna (3) or which can be mounted below the protective cover (11) of the mobile radio antenna (3), for changing a lowering angle, the manual adjustment device comprises an actuating element (29) which is led out through an actuating opening (19) in the protective cover (11) or a connecting plate (7) which forms part of the housing cover of the mobile radio antenna (3) or which is underneath the protective cover ( 11) is arranged in the interior shielded by the protective cover (11), and the lowering angle can be manually adjusted differently by axially adjusting the actuating element (29).

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