SU718887A1 - Method of tuning film rejection filter - Google Patents

Description

one

The invention relates to radio engineering and can be used in the manufacture of microchips.

There is a method of setting film notch filters based on changing the parameters of elements 1.

However, this method does not provide high accuracy settings.

The purpose of the invention is to improve the accuracy of the setting.

To do this, in the method of setting film notch filters based on changing the parameters of the elements, before changing the parameters, the oscillations are excited in the film notch filter before generation occurs, and the parameters of the elements are changed to generation halt times.

FIG. 1 shows the structural electrical circuit of the device that implements the proposed method; in fig. 2 - phase characteristics of film filters.

The device contains an amplifier 1, a film filter 2, a frequency converter 3 - a code, a discriminator 4 and an executive element 5. The film filter consists of a distributed RC structure 6, resistors 7, 8 and a reference resistor 9.

The device works as follows.

Film filter 2, made with a negative detuning (resistor 7 has a resistance less than nominal), is connected to terminals 10 and I. At the same time

the negative feedback circuit of amplifier 1 is closed. In the system, lasing occurs at a frequency corresponding to a total phase shift of 360 °. A sinusoidal signal from the output of amplifier 1 is supplied

the converter 3. The code from the converter 3 is fed to the discriminator 4, which is designed to compare measurement results obtained using digital devices with preset values (settings) and issue signals "less," normal, "more, and the output of the results is the switching of the relay contacts that control the power supply circuit of the actuating element 5. As the latter, any known device can be used to adjust the centered resistors by removing or oxidizing a portion of the film of these resistors.

The adjustment of the film filter 2 is carried out in the following sequence. The resistor 7 is driven upward by an actuating element 5. In this case, the phase characteristic of the film filter |) a 2 n6 follows the gel value of the corresponding curves (Fig. 2 a, b, c, d, d). This is where generation fails. Since in this case discriminator 4 from converter 3 receives a code corresponding to zero frequency, which is always lower than "less", discriminator 4 emits a light signal "less and breaks the power supply circuit of the actuating element 5. The maximum damping voltage is set. However, this maximum is reached at a notch frequency that is different from the specified one. In the film filter 2, the frequency setting over a wide range is provided by changing only one resistor 8 without impairing the attenuation at the notch frequency. To ensure generation at the notch frequency, a minimum negative detuning is introduced into the film filter 2 by connecting the terminals 12 and 13 of the reference resistor 9 in parallel with the resistor 7. The frequency is adjusted by changing the resistor 8 with the actuator 5. When the specified frequency is reached, the current code from the converter 3 becomes equal to the installation of the discriminator 4 "norm. The actuator circuit 5 is de-energized. Setting film filter 2 is complete. Similarly, any film filter 2 with a distributed RC structure 6 can be configured.

The use of the length of the three-layer film filters 2 of the proposed method significantly improves the basic technical characteristics of the product — it provides for obtaining a given notch frequency and maximum attenuation with high accuracy. At the same time, the requirements for the qualifications of the operator for adjusting the film filters are significantly reduced, since upon reaching the precise setting of both the attenuation maximum and the notch frequency, the actuating element 5 is turned off automatically, which eliminates operator error and reduces manufacturing waste.

Claims (1)

1. Dmitriev, VD, et al. Increasing the accuracy of manufacturing frequency-selective RC-filters with distributed parameters. - Sat. Microelectronics. Kazan, 1967, No. 2 (prototype). .