SU455408A1 - Automatic microwave attenuator - Google Patents

Description

one

The invention relates to radio engineering and can be used in measuring microwave devices.

Known automatic microwave attenuator containing a drive motor connected to a regulating element, and a reading device with an indicator.

However, the known automatic microwave attenuator has a low counting accuracy due to the nonlinear dependence of the attenuation introduced.

The purpose of the invention is to increase the accuracy of reference.

To achieve this goal, a synchronous pulse generator is located on the drive motor shaft, which is connected via a valve to a pulse divider, to the control inputs of which a logic program is connected, and to the output a pulse counter is connected.

This achieves a piecewise linear approximation of the nonlinear attenuation characteristic of the microwave attenuator.

The drawing shows a block diagram of an electronic readout system of an automatic microwave attenuator.

When voltage is applied to the motor (not shown) from the synchronous generator of pulses 1 through valve 2, the controlled pulse distributor 3 receives a periodic sequence of pulses with a constant frequency.

The division factor K of the controlled pulse divider is established by the logical

software device 4, which contains data on the attenuation characteristic of the microwave attenuator.

Logical program. A device determines the number and position of characteristic points.

attenuation, which are represented by the break points of the approximating function n between which the attenuation characteristic can be satisfactorily approximated by a straight line segment, and also determines the duration of the interval between two break points TI.

Depending on the value of TI, a logic program device changes the division ratio of the controlled pulse divider.

so that in each TI interval the same number of pulses is located, equal to 10, where, 2. The sequence of counting pulses (or filling pulses) with a frequency determined for each interval TI, from the controlled pulse divider, goes to pulse counter 5, consisting of blocks of the first bit 6 and subsequent bits 7. The counting pulses through the decoder 8 arrive at the reference

device 9 with indicator.

The division factor / C is chosen as

d.

to fulfill the condition where

TO

NI is the number of counting pulses in the TI interval. To eliminate non-synchronization in the operation of the counting device when - in the scheme

TO

The reset circuit in the low-order de is introduced.

When a low-level pulse counter appears at the input, the 10th counting pulse is larger than the reference pulse coming from the mix sensor, 10, re-forming; its mixing, adjusting, its element into reference pulses, similar to a synchronous pulse generator and located on the attenuator shaft , the counter is set to the state "O with transferring the unit to the most significant bit." At this point, the 11th counting pulse can enter the meter, but the reference pulse through the reset circuit will keep the meter in the state "O, and in the next cycle Always will begin with a zero. When a reference pulse appears at the counter input before the 10th counting pulse, the counter is zeroed and a transfer pulse is emitted to the next bit. The 10th counting pulse does not change the state of the counter, since the latter will be held in the "O reference" state. pulses.

The reference pulses from the stir sensor, 10, are passed to the counter through the logic circuit OR 11. Additionally, to avoid the influence of the play of the mechanical attenuator system, the reference sensor 12 is inserted in the circuit, which outputs a reference pulse at the moment the control element begins to move.

Subject invention

An automatic microwave attenuator containing a drive motor connected to the regulating element and a readout device with an indicator, characterized in that, in order to increase the accuracy of the reference, a synchronous pulse generator is connected to the control drives on the drive engine shaft the inputs of which are connected to a logic software device, and a pulse counter is connected to the output.

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