SU954947A1 - Prequency set-point program device - Google Patents

Description

(5) PROGRAMMER OF FREQUENCY

one

The invention relates to automation, and can be used in the apparatus for controlling camera lighting in television studios, film shows and theatrical and entertainment enterprises.

Known software master device containing serially connected master oscillator, reversible counter, decoder, switch and current keys L. | Q

The drawback of the device is /; narrow functionality.

The closest technical solution to the proposed is a program: a full setting device containing a serially connected register, a group of keys, a decoder and a counter, the counting input of which is connected through the OR element to the outputs of the divider and jo of the AND elements whose inputs are connected to the generator outputs pulses, and the output of one of the elements And is connected to the input of the divider 2.

The disadvantage of such a device is a narrow field of application.

The purpose of the invention is to expand the field of application of the device.

Claims (2)

The goal is achieved by the fact that the program element of the frequency, containing the pulse generator, the OR element, the output of which is connected to the counter input of the counter, the AND elements and the multi-digit input register, are entered adders, the elements NOT and the frequency dividers, the input of each of which is connected to the output pulse generator, and the output - with the first input of the corresponding element And; the first input of each adder is connected to the corresponding bits of the multi-bit; input input, the second input is to the I output of the counter, and the output is to the input of the corresponding: NOT element and to the second input of the subsequent AND element, except the first, the third input of each subsequent AND element, except the last, and the second input of the first AND element with the output of the corresponding element is NOT, and the outputs of all elements AND are connected to the inputs of the element OR. FIG. 1 shows the structural diagram of the device; in fig. 2 the same option. The device (Fig. 1) contains a multi-bit input register 1, a counter 2, a generator of 3 pulses, adders, bits 7–9 of register 1, elements NOT 10–12, a group of elements 13–16, dividers 17–20 frequencies, and element OR 21. The device (Fig. 2) also contains the element And 22, the multiplexer 23, the counter 2k, the element And 25, the element NOT 26 and the element And 27. The device works as follows. The operation of the device is considered on the example of approximation of a non-linear output characteristic by four sections of the broken line. The first section contains six stages, the second and third stages have three stages, the fourth is four stages (a total of fifteen stages of regulation, not counting zero, while counter 2 takes a state from CO to C 15). The slope of each section is characterized by the frequency of change of steps. In the first section, the step change frequency is equal to the pulse frequency of generator 3. In the second, third, and fourth phase, the step change frequency is two, four, and eight times lower than the pulse frequency of the generator 3. In accordance with the number of steps in each segment, register 1 records the reverse code of the following numbers: in bits 7 - numbers 5, in bits 8 - number 8, in bits 9 - numbers 11. In COOS, there are the following for frequency dividers in different sections for frequency dividers. coefficients d laziness: for divider 17 - 1, for divider 18 - 2, for divider 19 - V, for divider 20 - 8. For one group of inputs of adders -6 the code comes from counter 2, and to another group of inputs - the code from the outputs of bit Dens 7–9, respectively, of register 1, when the numbers corresponding to the code at the output of counter 2 are not large, the return code of which is recorded in the corresponding register bit 1, the signal from 95 4 is lost at the transfer output of the adder, and therefore it will be at the output of the corresponding element. In other cases, the signal will be at the transfer output of the adder, and there will be no signal at the output of the corresponding element. Upon command of the regulation, generator 3 begins to generate pulses. In the CQ-CJ states of counter 2, the passage of pulses is allowed only from divider 17 through element I 13, with only divider 18 through element I H, with C 5-C only from divider 13 through element 15 and with Cy | 4 only with the divider 20 through the element And 1b. From the outputs of the AND 1316 elements through the OR element 21, the pulses go to the counting input of counter 2. In state "C, generator 3 stops producing pulses and the operation of counter 2 stops. Thus, the frequency of i-pulses coming to the counting input of counter 2 depends on the state of counter 2, and the frequency of changes in the states of counter 2, in turn, depends on the frequency of the pulses arriving at the counting input. In this way, the nonlinear output characteristic of the counter 2 is formed. In the second embodiment of the device, the reverse code of the same numbers is recorded in accordance with the number of steps in each segment in register 1 bits. In accordance with the frequency of changing steps in different areas, the information inputs of multiplexer 23 are connected: input 1 to the NOT elements 10, inputs 2 and 4 to the And elements 27 and 22, respectively. 8 - to the transfer output of the adder 6. At the control command, the generator 3 starts producing pulses, the counter 2 starts working, and the code from its outputs goes to the address Hbie inputs of the multiplexer 23. The counter 2 runs until the moment when the numerical value of the code on its outputs matches the number of the information input of the multiplexer 23, which is affected by the signal. With this correspondence, a signal appears at the output of the multiplexer 23, which resets the counter 2 to the zero state. At the same time, at the outputs of the HE elements 26, single signals appear, which arrive at the inputs of the element. AND 25, and at the moment when a pulse arrives at this element from the generator 3 output, a pulse is formed at its output, which arrives at the counting input of the reader 2, Frequency The following pulses are variable and at each instant depends on the state of counter 2, for this determines which information input of the multiplexer 23 is affected by the signal. In accordance with the program recorded in the bits of register 1, depending on the state of counter 2, the information inputs of multiplex 23 receive signals in the following sequence: in the CQ-CJ states of counter 2, the signal goes only to input 1 of multiplexer 23, at states Cg-Cg only at input 2, at states only at input t, at states only at input 8. Thus, as in the first embodiment of the device, the pulse frequency arriving at the counting input of counter 2 depends on the state of counter 2, and the period I confirm the identity of the counter changing states 2, in turn, depends on the repetition frequency of pulses coming IE its count input. Thus, the nonlinear output characteristic of the counter 2 is formed. The proposed setter, as compared with the known one, has a wider field of application, it can be used to control on a nonlinear scale without dropping out information, i.e. an individual level of individual adjustment . The software frequency adjuster contains a pulse generator, an OR element, the output of which is connected to the counter's counting input, AND elements and a multi-bit input register, characterized in that, in order to expand the field of application, adders, elements are entered into it. NOT and frequency dividers, the input of each of which is connected to the output of the pulse generator, and the output is connected to the first input of the corresponding element AND, the first input of each adder is connected to the corresponding bits of the multi-digit input register, the second input to the output of the counter, and the output to the input the corresponding element is NOT, and the second input of the subsequent element is AND, except for the first, the third input of each subsequent element is AND, except the last, and the second input of the first element AND is connected to the output of the corresponding element NOT, and the outputs of all ementov and connected to the inputs of the OR gate. Sources of information taken into account in the examination of 1 .. USSR author's certificate W 316077, cl. G 05 B 19/10, 1969, 2. USSR author's certificate tf 1ii5 30, cl. G 05 B 19/18, I960 (prototype).