SU1053276A1 - Pulse signal accumulator - Google Patents

Abstract

DRIVE OF PULSE SIG-r. FLOORING / containing n filter channels, each of which consists of; . a sequence of connected charge switches, the control input of which is the input of clock pulses, the integrator and the read key, the control input of which is the input of read pulses, and the read keys of the read keys are combined; so that, in order to increase the efficiency of accumulation of pulses of short duration, a sequentially connected mixer is introduced into each filtration channel, the first input of which is combined with the first inputs of the mixers of other filtration channels, and The gates of the MMC are supplied, and the memory is stored, the output is connected to the information input of the charge key, and a reset key is entered, the control (LL of the input is combined with the control input of the nth charge key, and by the inputs of the memory blocks.

Description

This invention relates to radio engineering and can be used in radar and other areas of radio engineering. A known accumulator is made in the form of an n-channel synchronous filter, each channel of which contains serially connected charging keys, the control input of which is the clock pulse input, the integrating RC circuit and the read key, the control input of which is the pulse input readout, with the readout key outputs being combined. For a given duration of the input signals, a known accumulator achieves greater accumulation efficiency, since the capacitor overcharge current is limited by two series-connected resistors of adjacent channels C1. However, this device does not provide the possibility of efficiently accumulating nanosecond and picosecond signals. The aim of the invention is to increase the efficiency of the accumulation of pulses of short duration. For this purpose, a pulse signal accumulator containing n filtering channels, each of which consists of a serially connected charge key, the control input of which is an input of clock pulses, an integrator and a read key, the control input of which is an input of read pulses the outputs of the n keys. the readings are combined; a serially connected mixer is introduced into the filtering channel; the first one, the input of which is combined with the first inputs of the two other filtering channels, and the second input pulses are sent, a storing block, the output of which is connected to the information input of the charge key, and a reset key is entered, the control input of which is combined with the control input of the n-g charge key, and the output is connected to the control inputs of the storage blocks. FIG. Figure 1 shows a structural electrical circuit of a pulse signal accumulator; in fig. timing diagrams explaining the operation of the device. The drive of pulse signals (Fig. 1) contains n filtering channels, in which there are an l-14i-n mixer, a storage unit 2-1t2-p, a charging key 3-1t3-p, an integrator 4-1t4-p, the read key 5-1t5-p, as well as the reset key 6 common to all channels, the inputs of the mixers 1-lfl-n being united to form the common input of the device, and the outputs of the read keys 5-1-t5-n are interconnected. The operation of the device is as follows. Pulsed signals are applied to the device input (Fig. 2a) with a repetition period which are fed simultaneously to the first inputs of mixers 1-1 ton 1-p. Gating pulses (Fig. 2, 6-1, ..., bp) with duration T, shifted relative to each other in time, are applied to the control inputs of mixers 1-1 to 1-p. The instantaneous values of the signal corresponding to the moments of action in each channel of gated pulses are stored in memory blocks 2-1 ton 2-n, the output gadulsy which (figure 2, b-1, ... b-n) duration 2 arrive at info The input inputs of the charge switches are 3-1.-t 3-p, the control inputs of which are supplied with time-shifted clock pulses (Fig.2, g-1, ..., gp) with duration, At the time tions, the trailing edge of the last clock pulse (FIG. 2, rn), is the same. The reset key 6 sinks and the storage units 2-1 + 2-g are reset to their original state by resetting the information stored in them during the closed state of the reset key 6. In this case, in integrators 4-1 4 4, accumulation of output voltages of storage units 2-1 tons 2-n occurs during the time NTf, N 1). Signals from the outputs of the integrators 4-144-h are fed to the information inputs of the read keys 5-1 i 5-p. H ° control of the read key inputs 5-1 5-p are given time-shifted read pulses of duration that follow the period NT p (in Fig. 2 a case is shown, i.e., reading pulses coinciding with clock ticks). as a result, a signal is generated at the output (Fig. 2d), which is the result of the accumulation of voltages in the corresponding distance gates, determined by the time interval between two adjacent gating pulses. The use of new eloiente mixers, memorized blocks and a reset key favorably distinguishes the proposed impulse signal accumulator from the known possibility of accumulating a large number of short pulses, which is limited only by the wide bandwidth of the stroboscopic mixers, which currently reach tens of gigahertz. This allows for the accumulation of nanosecond and picosecond pulses, while. The speed of modern keys used in synchronous filters makes it impossible to qualitatively accumulate pulse signals shorter than a few hundred nanoseconds. In addition, in the proposed device, the time scale of the output signals is transformed into a region of longer durations with a transformation ratio Kifj / T, which greatly simplifies their subsequent processing. In this case, the influence of

switching noise, as well as parasitic parameters of the integrators and switches to the output signals, is significantly reduced and becomes smaller, the greater the value of T.

The invention will significantly increase the efficiency and expand the scope of application of the proposed pulse signal accumulator in radar.

0 and other areas of radio engineering where real-time information processing is required.

Claims (1)

PULSE SIGNAL STORAGE containing η filtration channels, each of which consists of successively connected output of a charging key, the control input of which is an input of clock pulses, an integrator and a read key, the control input of which is an input of read pulses, and the outputs of η read keys are combined It is important that, in order to increase the efficiency of accumulation of short-duration pulses, a series-connected mixer, the first input of which It is combined with the first inputs of the mixers of other filtering channels, and gating pulses are applied to the second input, and a storage unit, the output of which is connected to the information input of the charging key, and a reset key is introduced, the control input of which is combined with the control input of the ή -th charging key , and the output is connected to the control inputs of the storage units