SU543952A1 - Square Frequency Converter - Google Patents

Description

one

The invention relates to computing (technology and can be used in computers as a multiplying device or quadr.

Time is known - the pulse multiplier is a device containing a generator pr -. impulses, ypravn e aIe voltage dividers, amplifying element 1

This device has a low accuracy of computational operations.

The quadratic frequency converter is also known: a transducer containing sequentially connected shaper of impedance duration, shaper of amplitude impulses bov, scaling resistor, amplifier and (output generator whose output is connected to an additional input of shaper of impulses, input of amplifier is connected with the output of the reference signal generator through a key element, in parallel with which the plates of the metering capacitor are connected, a smoothing capacitor connected between the input will strengthen ate and has a zero potential that controls

the input of the 10th element is connected to the input of the converter,

This device has a relatively low conversion accuracy.

The aim of the invention is to improve the accuracy of the conversion.

For this, an inverting amplifier is introduced into a quadratic frequency converter. the input of which is connected to the output of the source of the reference voltage, and the output. supporting Chen to the additional input of the pulse amplitude driver, the signal input of the pulse width former is connected to the input of the converter.

The drawing shows a structural electric circuit for a quadratic frequency transform.

The converter contains a pulse width former 1, a key element 2, a metering capacitor 3, a reference voltage source 4, an inverting amplifier 5, a smoothing capacitor 6 wt 11, a flat resistor 7, amplitude 8, an output generator 9, forming a pulse — 10 am1 pulses, input 11 Transform-i) n and output 12 of the converter.

The device works as follows.

The input pulse voltage with frequency fj is interrupted via input 11 of the converter to the signal input of the driver of the pulse width and control input 1 of the key element 2.

Under the action of the input voltage, the key element 3 during each period4; the voltage T. t closes and disconnects.

closes, causing the KOJ dosing capacitor 3 to charge up to a voltage tl

and is discharged to zero.

The input of the amplifier 8 receives a voltage pulse. The smooth condensate condensate 6 averages this voltage, creating D, defined by the ratio

D, C-f, -U3 ,, (1)

where C is the capacity of the dosing condensate; pa 3.

The voltage generated by this current at the input of the amplifier 8 is amplified and, when it enters the input of the output generator 9, changes the frequency f 5 of the output pulse voltage.

The output pulse voltage from the output of the converter 12 is fed to the auxiliary input of the pulse width generator 1, to the signal input of which the input voltage pulses are applied.

The shaper 1 pulse duration during each period of the output voltage generates a pulse, the duration of which is equal to ri periods of the input voltage of the converter.

Impulse discharge forcing device 1

pulse durations are normalized in amplitude by shaper 10 pulse amplitudes (they are amplified, equal to -h Ug) and averaged using a scaling resistor 7 and a smoothing capacitor 6.

The average value of the current coming from the circuit under consideration to the input of the amplifier 8 is determined by the ratio

T ± 2kJkHiL,

2) i: TR

where R is the scaling resistance

resistor 7.

Since the voltage U is supplied to g | the input of the driver 10 amplitudes of pulses through the inverting amplifier 5, the current J. is opposite to the current C, With a large gain factor of the amplifier 8 in the steady state these

ki are almost equal. With this in mind, the 4acf of the output voltage of the converter is determined by the ratio

G ... K., (3)

where K is a constant value.

Expression (3) shows that the frequency and output voltage of the converter is projective to the square of the frequency of its input, the normal voltage.

From the same expression it follows that the static accuracy of the converter is determined by the accuracy of the capacity of the metering capacitor 3 and the resistance scaling ;; The current resistor 7, since the voltage variations IJ.L thanked by the inverting amplification step 5 are compensated, and the obtaining of a constant K magnitude is quite simple.

Thus, the proposed quadratic frequency converter has an increased conversion accuracy.

Claims (1)

1.Smolov V.B. Analog Computers, Higher School, 1972, p. 338-ЗЙ9, У11-27. 2, USSR Author's Certificate No. 4537О2, M.Kl. Q-About Q-7/16, O8.06. 73 (prototype). . : eleven -fliH 7 / 2