FI85784B - FOER FARANDE OCH ANORDNING FOER OEVERVAKNING AV HOEGFREKVENSFOERSTAERKARENS KONDITION. - Google Patents

Description

1 85784

Method and arrangement for monitoring the condition of a high frequency amplifier

The invention relates to a method and arrangement for monitoring the condition of a Suur-5 frequency amplifier.

In radio transmitters, especially multichannel radio transmitters, the transmission frequency signals received from the modulator are generally amplified by a separate broadband high frequency power amplifier. In this case, it is important 10 to be able to monitor the condition of the high-frequency power amplifiers and in particular its amplification, so that information is obtained about the failure of the high-frequency power amplifier. On the basis of this information, for example, the level of the signal supplied to the high-power amplifier from the amplifier stages preceding it can be increased or decreased.

Typically, the condition monitoring of a high frequency amplifier is based on measuring the collector current of the power transistor of the amplifier by means of a low resistance series resistor. In this case, however, the difficulty is that a resistor having a high power resistance must be used and a floating voltage measurement over such a resistor must be performed.

It is an object of the invention to provide a new type of method and arrangement for monitoring the condition of a high frequency power amplifier.

This is achieved by the method according to the invention, ____, which is characterized in that the amplification of the amplifier is monitored on the basis of samples taken from the input and output signals of the amplifier.

The object is also achieved by an arrangement according to the invention, characterized in that the arrangement comprises a first sampling means for generating a sample signal from the input signal of the high-frequency amplifier, a second sampling means for generating a sample signal. by.

The invention takes sample signals from the high-frequency input signal of the high-frequency amplifier and the amplified high-frequency output signal, the sample signal from the output of the amplifier being proportional to the gain of the amplifier. The sampling-based condition monitoring method according to the invention does not require resistors with high power endurance and the measurement circuit is simple and easy to implement. In addition, the measuring circuits are made small, because the sampling can be carried out on a circuit board with microstrip directional switches, in which case the scaling can also be performed already in connection with the sampling.

The invention will now be described in more detail by means of an exemplary embodiment with reference to the accompanying figure, which shows a block diagram of an arrangement according to the invention for monitoring the condition of a high-frequency amplifier.

The preferred embodiment of the invention shown in Figure 1 comprises a high-frequency amplifier 1, preferably a high-frequency power amplifier, which operates, for example, in class AB. Amplifier 1 is also connected to a supply voltage of +: 25 VCC. Amplifier 1 comprises a high frequency signal ____: input to which a radio frequency input signal RF IN to be amplified is input, and a high frequency signal output 18 having an amplified output signal RF OUT. The signal input of the amplifier 1 is connected to a microlius-30 directional switch 2, which generates a sample signal 11 proportional to the strength of the incoming signal, which is detected by a detector circuit and low-pass filtered by a low-pass filter 5 before being fed to the input of the comparator circuit: 8. Correspondingly, the signal output of amplifier 1. 35 is associated with a microstrip direction switch 3 which generates a sample signal 12 proportional to the output signal strength of the 3 85784 amplifier output signal, which is detected by the detector circuit 6 and filtered by a low pass filter 7 before being fed to the second input 14 of the comparator 8.

The comparator 8 monitors the gain of the amplifier 1 on the basis of the sample signals present at its inputs 13 and 14 by comparing the sample signals with each other and / or with one or more predetermined reference values. The comparator 8 generates an alarm signal ALARM when the intensities of the compared sample signals change so that they meet a predetermined alarm criterion. The alarm criterion may be, for example, that the alarm signal ALARM is generated when the strength of the sample signal taken from the output signal decreases while the strength of the sample signal taken from the input signal remains constant, i.e., the gain of the amplifier decreases. An alarm can also be generated, for example, when the gain determined on the basis of the sample signals falls below a predetermined reference value.

The implementation of the sampling members 2 and 3 by the microstrip directional switch is advantageous due to their simplicity and good reproducibility provided by the microstrip technique. With the dimensioning of the directional switch, it is also possible to easily scale the sample signals already at the sampling stage for comparison. However, any other directional switch or similar inductive and / or capacitive coupling member can be used as the sampling member, such as a separate capture wire or capture capacitor.

The detection means 4 and 6 performing the power detection are preferably diode-implemented half-wave rectifiers - and the filters 5 and 7 can be implemented by any suitable low-pass filtering technique. At its simplest, the comparator circuit can be implemented with an operational amplifier connected as a differential amplifier, which compares: 35 the signals at inputs 13 and 14 to give a signal proportional to the gain directly. 5 to generate an alarm signal ALARM when a predetermined alarm criterion is met.

It is also possible to implement some or all of the above functions digitally, which may, however, lead to a more complex and expensive structure.

The alarm signals generated by the comparator 8 can be fed to any unit that monitors and controls the operation of the radio transmitter or amplifier.

The accompanying figure and the related description are intended to illustrate the present invention only.

The details of the method and arrangement according to the invention may vary within the scope of the appended claims.

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Claims (10)

Method for monitoring the condition of a high frequency amplifier, characterized in that the amplifier's amplification is monitored on the basis of samples taken from the input and output signals of the amplifier. Method according to claim 1, characterized in that the gain is monitored by comparing samples taken from the input signal and the output signal with each other. Method according to claim 1, characterized in that the gain is monitored by comparing samples taken from the input signal and the output signal with one or more predetermined reference values. 15 Method according to claim 1, 2 or 3, characterized in that the samples are scaled prior to comparison. Method according to any of the preceding claims, characterized in that an alarm signal 20 is generated where the gain decreases but the level of the input signal remains constant. Method according to any of the preceding claims, characterized in that an alarm signal is generated where the gain is less than a predetermined reference value. Arrangement for monitoring the condition of a high frequency amplifier, characterized in that the arrangement comprises a first sampling means (2) for generating a sample signal (11) from the input of the high frequency amplifier (1), a second sampling means (3) for generating a means: sample signal (12) from the output of the high frequency amplifier (1), means (8) for monitoring the amplification of the high frequency amplifier (1) on the basis of said sample signals. Arrangement according to claim 7, characterized in that said damping means (2, 3) are inductively and / or capacitively coupled to the input (17) and output (18) of the amplifier (1). 9. Arrangement according to claim 8, characterized in that said first and second sampling means (2, 3) are directional couplers, preferably micro-band directional couplers.