SU497591A1 - Discrete device for sequential averaging - Google Patents

Description

The drawing shows a functional block diagram of the page and with TV. The device contains an input terminal 1, a rectifier 2, an analog-code converter 3 (llAKj, a dynamic algebraic addition block 4, a division block 5, a regulation block 6, a reversible counter 7, a control block 8, the element "And 9, elements" OR 10 and 11, elements "NOT 12 and 13, subtractive counter 14, element" OR 15, element "AND 16. Rectifier is a half-full wave bridge circuit without smoothing. Elements" And and "OR are multi-input. Rectifier 2 serves to obtain the instantaneous value of the ordinate of the random process. Converter 3 analog - the code performs the following functions: clock pulses provide on each inertial pinch the rewriting of the code contained in the reversing counter into the subtractive counter and prepare the device to receive the desired countdown of the process being processed. Understand the operation of the device as a whole. 2 without smoothing are fed to the input of the PACK 3, where the function is quantized both in time and in amplitude. The clock pulse of the time-slicing PAK is fed to the input of the division unit 5, where the division factor n is set (the device operation time is considered). At the same time, the same pulse arrives at the inputs of the element “AND 9” to rewrite the value code from the reversible counter 7 to 14. If, then a high potential appears at the output of the element “OR 11”, which prepares the element “And 1b” for pai6oTe. At the moment of setting the subtracting counter to zero, the control signal is taken from the element "AND 16 through the element" OR, and, therefore, the pre, K1parascal receipt of the pulses to the input of the counter 14 and to the input of the dynamic algebraic addition block. Obviously, the number of pulses received from the output of the element “And 16” corresponds to the number filled in 14. After the switching time to the input of block 4 from the output of PAK 3, “m pulses begin to arrive, the number of which is proportional to the nth countdown of the random function. At the input of block 4, in this way, pulses from the output of the element “AND 16, the number of which is proportional, begin to flow in the manner described above. Synchronizing the arrival of pulses to both inputs of block 4 of the furnace | Bae11c automatically, as many pulses are removed from one common, generator of the filling frequency PAK 3. At each step of operation of the device in block 4, the modulus of the result of dynamic algebraic addition of the values Xn and Kn-i is determined. In this case, the number of pulses equal to the modulus of the difference Xn - | an-i | and the sum of the sequences. when the Xn-an-i-O code appears from the output of block 4. In block 5, an action is taken. La. and the output of its oyrazuyutsya sequence "mousses, proportional to this value, which is through the block 6 installation mode (fed to the input of the counter 7. If and -Arg-0, then there is a pulse from the output; the unit setting the operating mode, connected "The summing terminal of the reversible counter 7, and if an-i 0, then the subtractive input is connected. Moreover, if | A„ | | a ”x | regardless of the mode of operation of the reversing counter, the output pulses of the dividing unit 5 go through the installation unit mode on the "subtracting input. In the counter 7, so on. on" each The algebraic addition operation of cxn + if is performed in an iteration step Yes, where yes 1 / n (Xpa.ni). The comparison "is made as follows: if from the output of the block the case" the pulses arrive, and in the subtractive counter it is set as "O, then Obviously, | an-i |, which is fixed at the input of block 4 and at the input of the mode setting block. With a ratio in counter 14, there always remains one, at least in one bit, which corresponds to the high potential at the output of a multiple input element "OR 1 and low at the inputs of the block 4 and the block installation mode, respectively but. The sign of the a value generated in a reversible counter is defined as follows: as a result, there is a certain potential at the output of the mode control block, which corresponds to a positive sign of the magnitude of ao. Further, if all the bit triggers of the reversible counter 7 are set to the zero state, the counter 7 is set to the subtraction mode, and continues to sequence the i-pulses from the output of the division unit, then the control unit produces a change in potential at the output of the unit, which corresponds to a change the sign of the value contained in the counter 7. The operation mode of the reversible counter 7 is controlled by the operation mode setting unit. If the output of the control unit is a signal, then through the element. "OR 15 it enters the input of the mode setting unit, and from it the output connected to the" summing terminal of the meter 7. At the same time, the high potential element is removed from the element NOT 13 the input of the mode setting unit, which controls the output of this unit, connected to the "subtractive terminal of the reversible counter 7, as well as from the input of the unit. dynamic algebraic addition 4. Object of the invention. Discrete device for sequential averaging, containing mitele,

An analogue connected to the converter is a code: a dividing unit, a mode setting batch, a reversible counter, a subtracting counter, and AND, OR, NOT elements, characterized in that, in order to simplify the expansion of the functionality of the device, it contains; a dynamic algebraic addition unit, the first input of which is connected to the first 1 output of the analogue – code conversion, the second input – with the output of the first And element, and the first input of the subtracting counter, the third input — with the first input of the first element И And, with the first input block installation and with the output of the first element OR, the fourth input with the output (the First element Hb and the second input of the mode setting block, the first "second output with the left and the second input of the dividing unit, and the third output with the third input of the mode setting and a control unit, the first input of which is connected to the left output of the division unit and to the fourth input of the mode setting unit, the second input to the input of the device and to the input of the rectifier 1tel, the third input to the output of the second element Ht and the first input of the second element OR, and the output with the second input of the second the element "OR, the output of which is connected to the input) of the first element" NOT to the fifth input of the mode setting unit, the sixth input of which is connected to the second output of the block and the outputs, to the inputs of the reversing counter,

the first 1 outputs of which are connected to the first inputs of the second element "AND, the second inputs of which are connected to the third input of the division unit AND to the second output of the converter. The analog is a code, the third output of which is connected to the second input of the first element" AND, the second outputs reverse / on of the counter are connected from the input of the third element “OR, the output of which is connected to the input of the second element“ NOT, the output of the second element “AND is connected to the second input of the deduction counter, the outputs of which are connected to the inputs of the first element“ OR.