SU875329A1 - Calibrated time interval generator - Google Patents

Description

(54) CALIBRATED TEMPORARY INTERVALS TESTIMONIAL

Claims (2)

The invention relates to the batching technique and is intended to set small time intervals (noise pulses. A device for setting a time interval is known, which contains a bench with oscillating rings in two channels Dl. The accuracy of the time interval formation is relatively low. It is also known A device for generating time-slots, including a series-connected reference generator, a frequency divider and a first pulse shaper as well as a series-connected low-frequency HELA phase-jerking unit, a phase detector, a tunable generator and a second pulse shaper, with the output for the tunable generator connected to the second input of the phaerovoise detector through the mixer, and the input of the low-frequency phase shifting unit to the output of the reference generator 2. This device signals the low-frequency phase-determining block and the reference high-frequency generator are converted in two channels by phase auto-frequency tuning rings into two coherent An adjustable phase switch between them. The time interval 1 is set between the pulse fronts at the driver side of the drivers in both channels. Basis & D error at the output of the device Recorded as u.f u4-bA.i + Aa I where aLf is the error due to the imperfect setting of the phase shift; - interruption errors in each channel with a PLL. C / uyayna mean square fctxSteam error D C is determined from the expression t-K random error due to the intrinsic noise of the phase generator of the 1 and 2-channel output generators and the reference high-frequency generator. The presence of correlation between noises further increases this error. To reduce the noise level, the frequency stabilization of the oscillators is used and the signals are conducted with noise elements. However, improving accuracy by improving the quality of generators and other components has a certain limit and is associated with growing technical difficulties. The purpose of the invention is to improve the accuracy of setting time intervals. This goal is achieved by the fact that the calibrated time intervals in the generator, containing a series-connected reference oscillator, a frequency divider and the first f-pulse pulses, as well as a series-connected low-frequency phase-determining unit, a phase detector, an adjustable oscillator, and a second pulse shaper, and the output of the adjustable oscillator through The mixer is connected to the second input of the phase detector, and the input of the next-to-frequency façade unit is connected to the output of the reference oscillator, The serially connected first frequency divider, blrk | comparison, a second frequency divider and a low-pass filter, the output of which is connected to the second input of the mixer, and the second input of the comparison unit is connected to the input of the first additional frequency and the output of the reference oscillator. The drawing shows a block diagram of a generator of calibrated time intervals. The device contains a reference oscillator 1, a scoop of 2 frequencies, a first fs world controller of 3 pulses, a low-frequency phase-determining unit 4, a phase detector 5, a mixer 6, adjusting the output generator 7, a driver of 8 pulses, a comparison unit 9, the first positive. litle 10, the second additional divider 11 and the filter 12 of the lower frequencies. The outputs of the pulse shapers are the outputs of the device. The device operates as follows. The signal of the reference generator 1 through the divider 2 enters the driver 3, and the reference sequence of the high-frequency pulses is formed at the output of the reference generator. At the same time, the signal of the reference oscillator is fed to the input of block 4, where a low-frequency reference is formed, respectively. intermediate phase ring PLL at toric beats, on which the calibrated task of phase shifts is performed. Then the low Nestot reference signal is fed to the input of the phase detector 5, the output voltage of which controls the frequency of the oscillator 7. The output signal of the generator 7 is fed to the inputs of the mixer 6 and the former 8. At the output of the former 8, a controllable sequence of short pulses is formed. To provide a capture mode and hold in the PLL ring, the second input of the mixer 6 receives a signal that is shifted in frequency by an intermediate value relative to the desired frequency of the tunable oscillator. This signal is formed by continuously subtracting a certain number of pulses from the oscillator of generator 1 by means of divider Yu and comparison block 9, followed by dividing the difference into divider 11. Filter 12 extracts the first harmonic of the output signal of divider 11. In the hold mode, the output pulse sequences are coherent, all device frequencies are multiples each other, for which the division factors of the additional dividers N and N are selected from the condition "o4 (-f-)" f 6bi4-np; The systematic error at the output of the device will be written as LO ACH + D I, the error due to the phase nonlinearity of the phase blocking unit; Dx | - error due to conversion in the PLL. The random component of the interval assignment error has the Expression H and b --- / b 5 | V where G is the random noise component of the reference generator; OQ is the random noise component of the tunable generator. Claims A calibrated time interval generator comprising a series-connected reference oscillator, a frequency divider and a first pulse shaper, as well as a series-connected low-frequency phase setting unit, a phase generator, a detector, an adjustable oscillator, and a second pulse shaper, the output of the adjustable oscillator being connected to the second the input of the phase-sg detector, and the input of the low-frequency phase-determining bluff is connected to the output of the reference oscillator, from which it is connected m, in order to improve the accuracy of setting the time; nntervalov, it additionally administered pre- of serially connected first frequency divider block the second, the second frequency and the low frequency, the output of which is connected to the mixer input, and the second input of the comparison unit is connected to the input of the first additional frequency divider and the output of the opto generator Sources of information taken into account during peer review 1, Avtoskoe certificate of the USSR N9 537324, cl. h O4 P 10 / O6, 1974, 2. USSR author's certificate N (474785, class Q 11/10, 1973,