FI99168C - Antenna amplifier for receiver frequencies - Google Patents

Description

99168

Antenna amplifier for receiver frequencies

The present application relates to an amplifier unit for connection between an antenna and a receiver unit. The amplifier unit amplifies the signal received from the antenna and allows the condition of the receiver antenna to be monitored.

Radio systems, for example cellular radiotelephone systems and their base stations, include, as an integral part, receiver and transmit antennas. To improve the sensitivity of a radio receiver, an antenna or preamplifier is often placed on top of the antenna mast in the immediate vicinity of the antenna, so that the signal received by the antenna can be amplified before it is fed along the antenna cable 15 to the actual receiver at or near the antenna mast.

Since the condition of the antenna affects the quality of the connections, it is tried to be monitored in different ways. With the methods currently in use, the condition of the antennas can be monitored, for example, by measuring their standing wave ratio, i.e. the electrical fit of the antennas to another receiver and transmitter system. The condition of the receiving antenna can also be measured by transmitting a radio frequency measurement signal via the antenna line to the antenna and measuring the strength of the reflected signal signal component back to the antenna via a particular measurement path.

!. ·; However, the current amplifier technology on the market has significant drawbacks in that the amplifiers do not allow the receiver to measure the condition of the antenna without disconnecting the amplifier from the antenna line, inserting a measuring device between the antenna and the amplifier, or »· · _ '···. Usually, however, no information is received about an antenna failure on the mast until reception ceases to work. If a fault occurs in the current antenna amplifiers, then the reception sensitivity of the receiver unit deteriorates by tens of dB, if not then completely disappear, whereby the radio path connection from, for example, a mobile phone to the receiver unit is lost and the system no longer works.

The object of the present invention is to eliminate the drawbacks of the prior art and to provide a completely new solution by which the amplifier part can be bypassed and the measurement carried out from the ground. In addition, when the amplifier fails, the reception sensitivity of the receiver unit does not deteriorate by more than the attenuation of the antenna cable, which corresponds to a situation where there is no antenna amplifier at all.

This is accomplished by an amplifier unit for connection between the antenna and the receiver unit, which includes bypass switching mechanisms mounted on the input and output lines of the amplifier unit to bypass the amplifier section by connecting a low attenuation between the transmission and input and output terminals while disconnecting the amplifier section. The amplifier unit 20 is characterized in that the bypass switching mechanisms are controlled .. from the receiver unit via the antenna line to perform bypass switching, whereby the switching mechanisms return to the rest position, disconnecting the amplifier part from the signal path and switching to measure the transmission line.

The antenna amplifier which is the object of the invention functions in measuring the condition of an antenna in such a way that, upon receiving an instruction to measure the condition of the antenna, bypass switching mechanisms are controlled from the receiver unit via the antenna line to perform bypass switching. In this case, the relays or switches return to the rest position, disconnecting the amplifier part from the signal path • · · * ... and replacing it with a low-loss transmission line. The antenna is now "visible" via the antenna cable at the bottom of the receiver unit and the condition of the antenna can be measured by a measurement event integrated in the receiver unit.

The bypass connection can be performed by switching off the operating voltage of the antenna amplifier from the receiver unit. In this case, the relays or switches return to the rest position, disconnecting the amplifier part from the signal path and replacing it with a low-loss transmission line, whereby the condition of the antenna can be measured with a separate measuring device.

The bypass switching mechanisms can also be controlled from the 10 receiver units by a control signal input via the antenna line. This control can be implemented, for example, by audio frequency technology, in which case the receiver unit gives an audio frequency control command to the antenna amplifier in the mast, where the relays or switches change to mode and the bypass switching takes place.

The antenna amplifier according to the invention comprises, as part of a circuit monitoring the condition of the amplifier part. When the circuit detects that the operation of the amplifier section has deteriorated so that the preset limit is exceeded, it directs the relays to the rest-20 position. In this case, the amplifier part is disconnected from the signal path and replaced by a low-loss transmission line.

The sensitivity of the receiver of the receiver unit deteriorates as much as the attenuation of the antenna cable, i.e. usually less than 5 dB. The situation is similar when the antenna amplifier is not switched on at all.

..li * The gain of the amplifier part of the antenna amplifier can be ::: selected to be any size, whereby the gain of the division amplifier in the receiver unit is correspondingly reduced accordingly. There are a few 30 options for the bypass connection itself if the bypass is to be low loss.

·. If the gain of the antenna amplifier is very high, • · ♦. · *; thus, in the event of a fault, the sensitivity of the receiving chain deteriorates by at least this gain if the bypass option is enabled.

4,99168

Bypass switching is preferably implemented with high frequency relays or switches.

The invention will now be described in more detail by means of an exemplary embodiment with reference to the accompanying figure, which shows in block diagram form an apparatus according to the invention.

The figure shows an antenna or preamplifier unit 7 located in the immediate vicinity of a receiving antenna 1, e.g. be any receiver system, for example a base station of a cellular radiotelephone system, as required.

The amplifier unit 2 comprises a bandpass filter 6 for separating the desired frequency band from the signal supplied by the antenna 1. The amplifier unit is further secured by doubling. For this purpose, the unit comprises two ... separate amplifiers 8 and 9, one of which is currently in use as an amplifier through which the signal is controlled, and the other is in standby mode.

The receiver unit 3 includes a power supply unit 14 · ... '25 for supplying operating voltage via an antenna cable 13 to the amplifier unit 2 and along line 17 to the condition monitoring unit 18. Although the power supply unit 14 is considered to be functionally part of the receiver unit 3, it may in practice be separate from the receiver unit radio.

30 A measuring unit 15 is also arranged in connection with the receiver unit, which measures the signal strength and the condition of the antenna.

Switches 5 and 10 are installed in the input line 4 and output line 13 of the antenna amplifier, by means of which the amplifier part 7 can be bypassed by connecting a low attenuation transmission line 11 99168 5 between switches 5 and 10 while disconnecting the amplifier part 7 from the signal path. The switch 5 mounted on the input line 4 is located in the line 4 coming from the antenna 1 before the bandpass filter 6 and the switch 10 5 mounted on the output line 13 is in turn located before the isolation capacitor 12.

Bypass The control of the switching mechanisms can be implemented in several different ways. For example, the operating voltage can be switched off from the antenna amplifier, whereby the relays or switches used as the switching mechanisms 5 and 10 return to their off position and the bypass switching takes place. Control is also possible with audio frequency technology, in which the receiver unit gives an audio frequency control command to the antenna amplifier in the mast, and the switching mechanisms change state and bypass switching takes place.

The condition monitoring logic 18 in the antenna amplifier controls lines 19 and 20 using relays or switches to the bypass position when it detects that the condition deterioration of the amplifiers 8 or 9 exceeds a set limit.

When measuring the condition of the antenna 1, the receiver unit 20 cuts off the operating voltage from the antenna amplifier. In this case, the switching mechanisms 5 and 10 return to the rest position, disconnecting the amplifier part 7 from the signal path and replacing the low-loss transmission line 11. The antenna is now "visible" via the antenna cables 4 and 13 at the bottom. 25 in the receiver unit and the condition of the antenna can be measured by a measurement event integrated in the receiver unit.

• ·

Another option is to disconnect the antenna cable 13 from the power supply 14, whereby the supply voltage to the antenna amplifier is interrupted. In this case, the switching mechanisms 5 and 10 30 return to the rest position, disconnecting the amplifier section 7 from the signal path and replacing the low loss transmission line - * 11. Now the antenna 1 is "visible" via the antenna cables 4 and 13

6 99168

The best implementation of bypass switching is in high frequency relays for many reasons. First, this results in the smallest loss in the signal path, especially in bypass switching, which improves the reliability of measuring the condition of the antenna.

5 Second, relays best tolerate energy spikes caused by lightning, for example. Third, the relays operate in sleep mode without any control, whereas semiconductors always require operating voltage, regardless of their position.

The invention is not limited to the embodiment shown in the accompanying figure and the related description, and not only to the use of radiotelephone technology, but many modifications of the details are possible within the scope of the inventive idea 15 defined by the appended claims.

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Claims (6)

An amplifier unit intended to be coupled between an antenna and a receiver unit and comprising in the input and output lines (4, 13) of the amplifier unit bypass mechanisms (5, 10) installed to bypass the amplifier portion (7) by a transmission line (11). ) with a small attenuation is coupled between input and output terminals while the amplifier portion (7) is disconnected from the signal path, characterized in that the preconnection mechanisms (5, 10) are controlled from the receiver unit (3) via an antenna line (13) to perform a bypass, the sensors (5, 10) return to their idle position and disconnect the amplifier portion (7) from the signal path and engage the transmission line (11) instead, to measure the condition of the receiver antenna (1). Device according to claim 1, characterized in that the control of the coupling mechanisms (5, 10) is realized by the operating voltage amplifier unit receiving from the receiver unit (3) being switched off. 3. Device according to claim 1, characterized in that the coupling mechanisms (4, 8) are controlled by means of a control signal supplied by the receiver unit (3) via the antenna line. • 25 4. Device according to claim 3, characterized in that an audio frequency signal is used as / 1 'control signal. Device according to any of the preceding claims, characterized in that the amplifier unit 30 has an access control logic (18) which controls the coupling mechanisms (5, 10) to a bypass position where it detects that the condition of the amplifier part (7) is weakened. a fixed limit. Device according to any of the preceding claims, characterized in that the bypass is carried out by means of high frequency relays or switches.