SU394774A1 - PULSE GENERATOR WITH BINARY CODING AND DISTRIBUTION FUNCTIONS - Google Patents

Description

one

The proposed device is adapted to computer technology, to the field of modeling random processes, and is intended for the pulsing of pulses with binary coded duration distribution functions.

A device of the same designation is known, containing a control trigger register, single and zero outputs (trngge), and the first one of which is connected to the first inputs of the "II and OR" circuits, respectively, and the second input of the AND circuit is evenly distributed pulses, and the output - with another input of the scheme “OR.

The functionality of this device can be expanded a little if the multiplication and multiplication opera tions I1 are replaced by some operations on the distribution laws.

In the present invention, this goal is achieved by the fact that the zero and single outputs of the trigger registers of the control register of bits, other than the youngest, are connected to the corresponding AND schemes of each bit and the outputs of which are connected to the OR circuit, and the inputs directly and through another OR circuit - to the “OR previous discharge” scheme and through the corresponding delay line to the pulse generator with a uniform distribution of durations.

The drawing shows a block diagram of the proposed heprator, where indicated:

1 - generator uniformly distributed in the interval O, T pulses; 2,. . ., 2 ,, are delay delays (where, 2, ... are the serial dead of the output of generator 7); oo . . ., 3 ,,, 4, 4,., 4.1 - schemes 5,. . ., 5 „, 6, bo,. . ., 6p-schemes 7, Zo,. . ., / - trggger register; Si, 8-2,. . ., 8 ,, - single inputs t) igga |) s; 9 - zero inputs of the trigger; 10 - device output.

The proposed device is based on the multiplication and addition of the distribution functions /; () of the initial pulse sequences, performed respectively by choosing a larger and smaller value and 1 of the original sequences. In the present invention, a block is used to multiply and add the functions of the distribution of two pulsed sequences, respectively, performed with the help of the OR 3-2,. . ., 3.1 and coincidence schemes 62. . ., 6 „, where, 2. . . is the serial number of the output of the heperator.

A pulse distributed in the interval O, T pulses has n outputs, one of which is controlled by the typical output of trigger 7 of the lower bit of circuit b and the circuit OR 4, the second input of which is connected to the zero output of trigger 7j, is connected to the inputs of the circuit OR 32 and to the scheme “AND 6. Delay lines 29,. . ., 2 "are used to match the inputs of the circuits" li and "OR. The generator works as follows. The function of allocating the durations of the output emulsions is given by the binary discharge number, which is written to the trigger registers 7b / 2,. . ., 7 ". Zero and single outputs of the trigger register set the necessary operations on the distribution functions, base 1, automatic switching of the blocks, and these operations. In this way, an operation is performed using the distribution function if the gain trigger is in the zero state, or the operation of addition of the distribution functions, if the gain trigger is in the uni itself state. Connecting the single and zero outputs of the low-order trigger 7 to the AND 6i circuit and the OR 4i circuit provides an irod pulse of a uniform distribution generator to the input of the multiplication unit 2n addition & 2 distribution functions and the single state trigger 7i. In the case of a bullet state of the NPP trigger 7i, the unit potential from its bullet output passes through the following steps and the successor to the connected units, and the unit is assigned a function, distributed to the brain and the brain and the brain has a brain and the brain has a memory distribution control trigger of which is in the unified state, the pulse from the generator is uniformly distributed over the remaining part 1 of the circuit, where it is compatible with other generator impulses reobrazovani m uo oneratsn m umiozhepi -slozheii raspredeleii functions. Opsappo device allows you to receive) (2 - 1) pulse sequences with different binary-coded and clear-valued fuikts mp distribution. In this case, the binary code, which is not supported in the trggger register, can be dispensed with directly into the distribution function of the output distribution and consecutively. The smallest times of this number are up to the first unit of the IITs to switch on the preparatory loading, ensuring that the first impulse is delivered with a uniform distribution of the succession to the inputs of the multiplication blocks — the functions of the distribution functions. Each of the remaining bits must sequentially be iterated as an operation of multiplying the distribution functions, if the discharge is zero, or as an operation of adding the distribution functions, if the discharge is uni. As an irimer for a fuction, distributed by a 7-bit binary code 1001100, we can write f (USROE) +2 kn-3 where Y is the raviomerio distribution function on the interval O, 7 of the pulse sequence. The zero code of the transfer register can be used to ensure that the generator is working. If a zero code is entered into this register, from output 10 it should be imul) with the maximum possible length, i.e. a single noticeable. Invention of the Pulse Generator with Binary Coded Distribution Functions, Content Delay L1IIII, Control Ip1, Py Trigger Register, Single and Zero Outlet The low-order trigger is connected to the first inputs of the AND and OR, respectively, The second input of the circuit is connected to the corresponding output of the generator)) and raspomperno distributed pulses, and the output is connected to the second input of the circuit OR, characterized in that, in order to expand the functional capabilities of the device, there are single and zero outputs of the trig Geers wired Jup1, its trngger register, besides the youngest, keys to the first inputs of the first and second schemes, respectively, and the second input of the first scheme “PI connections with the corresponding input of the first scheme“ OR through the delay delay - with () uniformly distributed pulses, output of a circuit1 and connected to the corresponding input for the second circuit OR for its output, output of the nervous circuit OR through a second circuit for the output of the second circuit OR, third input of the first schemes “And soed1P ep with with tvetstvuyuptsm Hierve input circuit "or its discharge outlet and the second circuit" OR iredyduschego discharge.