RU98112665A - ADAPTIVE ELECTRICAL STIMULATOR - Google Patents

Claims (10)

1. An adaptive electrical stimulator containing a block of rectangular pulses, a control block for energy exposure, an output block, active and passive electrodes, moreover, the first control and installation inputs of the electric stimulator are connected respectively to the control and installation inputs of the block of rectangular pulses, the first and second control inputs of the control block are energy connected to the fourth and fifth control inputs of an adaptive electric stimulator, respectively, and the first installation input is bl the energy impact control is connected to the seventh installation input of the adaptive pacemaker, the first control input of the output unit is connected to the sixth control input of the adaptive pacemaker, and the first and second installation inputs of the output unit are connected to the ninth and tenth installation inputs of the adaptive pacemaker, the second signal output output block is connected with an active electrode, characterized in that it additionally introduced a block of formation of bursts of pulses, b control lock, feedback block, individual norm memory block, and probe signal parameter recording block, the signal output of the rectangular pulse block being connected to the signal input of the pulse packet forming block and s. the first signal input of the control unit, the second, third and fourth installation inputs of the electric stimulator are connected respectively to the first, second and third installation inputs of the pulse train forming unit, the signal output of which is connected to the second signal input of the control unit, the second and third control inputs of the adaptive electric stimulator are connected respectively to the first and second control inputs of the control unit, the fifth and sixth installation inputs of an adaptive electric stimulator are connected respectively but with the first and second installation inputs of the control unit, the first signal output of which is connected to the signal input of the energy impact control unit, the eighth installation input of the adaptive electric stimulator is connected to the second installation input of the energy impact control unit, the signal output of which is connected to the signal input of the output unit, the output of the output unit is connected to the third signal input of the control unit, the first control output of which is connected to the control the input of the feedback unit, the first and second installation inputs of which are connected respectively to the eleventh and twelfth installation inputs of an adaptive electric stimulator, the n inputs of the group of installation inputs of which are connected to the n inputs of the group of installation inputs of the feedback unit, the signal output of which is connected to the fourth signal input of the control unit, the inputs (n + 1) of the groups of the first information inputs of the feedback unit are connected respectively to the outputs (n + 1) of the groups of information outputs of the individual memory block normal norms, the inputs (n + 1) of the groups of second information inputs of the feedback unit are connected respectively to the outputs (n + 1) of the groups of information outputs of the unit for recording parameters of the probing signal, the clock inputs of the memory unit of the individual norm and the feedback unit are combined and connected to the clock output the control unit, the second control output of which is connected to the control input of the individual norm memory unit, the third control output is connected to the control input of the probe signal parameter recording unit, are passive The first electrode of the adaptive electric stimulator is connected to the second signal output of the output unit and the signal inputs of the individual norm memory unit and the probe signal recording unit.  2. The adaptive electrical stimulator according to claim 1, characterized in that the pulse train forming unit comprises a variable resistance, a capacitor, a one-shot, a first and second switch, a trigger, a first, a second and a third resistors, a first and a second diode, a first and a second counter, a decoder and an indicator, moreover, the first installation input determines the position of the variable resistance regulator, the second and third installation inputs determine the position of the first and second switches, the signal input is connected to a single trigger input, the single output of which is connected to the start input of the one-shot, the first timing input of which is connected through a parallel connected variable resistance and a capacitor to the second timing input, the first terminals of the first and second switches are combined and connected to the power bus, the second terminal of the first switch is connected through the first resistor to the ground bus , with the anode of the first diode and with the summing input of the first counter, the second terminal of the second switch is connected through the second resistor to the ground bus, with by the second diode node and with the subtracting input of the first counter, the cathodes of the first and second diodes are combined and connected through the third resistor to the ground bus and to the clock input of the first counter, the bit outputs of which are connected respectively to the bit inputs of the second counter and the bit inputs of the decoder, the bit outputs of which are connected with discharge inputs of the indicator, the output of the unit for generating bursts of pulses is connected to the output of the single-shot and to the subtracting output of the second counter, the zero output of which is connected to zero Trigger input.  3. The adaptive electrical stimulator according to claim 1, characterized in that the control unit comprises a signal control unit, a separation control unit, a therapy time setting unit and a reference signal generator, the first signal input being connected to the first signal input of the signal control unit, the second signal input of which connected to the second signal input of the control unit, the first and second control inputs of which are connected to the first and second control inputs of the signal control unit, the first and second installation inputs of the control unit The connections are connected respectively to the first and second installation inputs of the therapy time setting unit, the third signal input of the control unit is connected to the signal input of the separation control unit, the fourth signal input of the control unit is connected to the third signal input of the signal control unit, the first signal output of which is connected to the first signal output control unit, the first control output of the signal control unit is connected to the first control output of the control unit, the second control output is connected to the second control output of the control unit, the third control output is connected to the third control output of the control unit, the fourth control output is connected to the first control input of the therapy time setting unit, the control output of which is connected to the third control input of the signal control unit, the fourth control input of which is connected to the control output of the unit separation control, the signal output of which is connected to the second signal output of the control unit, the clock output of which is connected to the first clock output a reference signal generator, a second clock output is connected to a clock input node set time therapy.  4. The adaptive pacemaker according to claim 1, characterized in that the feedback unit contains an intersection memory node, η half-wave differences i nodes (i = l, 2, ..., n) of half-waves and a difference analysis node, moreover, the control the input of the feedback block is connected to the control inputs of the intersection memory node, of each i-th difference memory node of the i-th half-wave from the group of n nodes and with the control input of the difference analysis node, the signal output of which is connected to the signal output of the feedback block, the first and second installation feedback block inputs are connected with the first and second installation inputs of the intersection memory node, the (2i-1) 2nd 2nd installation inputs of the feedback block from the group of 2n installation inputs are connected respectively to the first and second installation inputs of the 1st memory node of the differences of the 1st half-wave, inputs from n + 1 groups of the first information inputs of the difference analysis node are connected respectively to the outputs of the groups of information outputs of the intersection memory node and the memory nodes of the differences of the i-th half-waves (i = 1,2, ..., n), outputs from n groups of information outputs of the node differences analysis connected accordingly with the inputs of the groups of information inputs of the memory nodes of the differences of the ith half-waves (i = l, 2, ..., n), every k inputs from (n + 1) groups of the second information inputs of the difference analysis node are connected respectively to each k inputs of the group first information inputs (i = l, 2, ..., n + 1) of the feedback block, every k inputs from (n + 1) groups of third information inputs of the difference analysis node are connected respectively to every k inputs of the group of second information inputs (i = 1,2, ..., n + 1) of the feedback block.  5. The adaptive electrical stimulator according to claim 1, characterized in that the individual norm memory unit and the recording unit for recording parameters of the probe signal identical to it contain each first and second diodes, first and second threshold elements, time delay element, OR element, first and second elements And, decoder, (n + 1) counters, the signal input being connected to the anode of the first and the cathode of the second diode, the cathode of the first diode connected to the input of the first threshold element, the anode of the second diode connected to the input of the second threshold element that, the outputs of the first and second threshold elements are connected to the first and second inputs of the OR element, the output of which is connected to the first input of the first AND element, the second input of which is connected to the output of the time delay element, the input of which is connected to the control input of the individual norm memory unit and to the inputs reset to the zero state (n + 1) of the counters and the decoder, the clock input of the individual norm memory block is connected to the direct input of the second AND element, the inverse input of which is connected to the output of the first OR element, the recording input si and the counting input of the first counter from (n + 1) counters, k bit outputs of the first counters are connected to k bit inputs of the decoder and the corresponding k outputs of the first group of information outputs of the individual norm memory block, i-bit bits of the decoder (1 = 1, 2, ..., n) are connected to the control inputs of the (i + 1) -th counters, the counting inputs (n + 1) of the counters are combined and connected to the output of the second element And, k bit outputs i-x (i = 2,3 , ..., n) counters are connected to k outputs of i-groups of information outputs of the individual norm memory block.  6. The adaptive electrical stimulator according to claim 3, characterized in that the signal control unit of the control unit comprises a key, a switch, first, second, third, fourth, fifth, and sixth resistors, first, second and third capacitors, first, second and third elements OR , the first, second, third, fourth and fifth elements And, the first, second and third triggers, a time delay element, the first, second and third one-shots, moreover, the first control input of the signal control unit determines the position of the key, and the second control input determines the the position of the switch, the first terminal of which is connected to the power bus, and the second is connected through the first resistor to the ground bus and to the start input of the first one-shot, the first time-input of which is connected through a parallel-connected variable resistance and a capacitor to the second time-input input, the output of which is connected to the second control the output of the signal control node, with the first input of the first AND element, the first input of the first OR element and with the first inverse input of the second AND element, the common key terminal is connected to the ground bus, the normally closed key terminal is connected through the second resistor to the power bus and a single input of the first trigger, the normally open key terminal is connected through the third resistor to the power bus and the zero input of the first trigger, whose single output is connected to the first input of the third AND element, and the zero output - with the first input of the fourth AND element, the first signal input of the signal control unit is connected to the second input of the first And element, the second input of the third And element, the first input of the fifth AND element, the second signal input of the signal control unit is connected to the second input of the fourth AND element, the fourth signal input of the signal control unit is connected to the inverse input of the second OR element, the direct input of which is connected to the fourth control input of the signal control unit, and the output is connected to the inverse inputs of the first , the third, fourth and fifth elements AND, the outputs of the first, third, fourth and fifth elements AND are connected respectively to the first, second, third and fourth inputs of the third element OR, the output of which is connected to the first signal output of the signal control unit, the fourth control input of the signal control unit is connected to the zero input of the second trigger, to the zero dynamic input of the third trigger and to the direct input of the second element And, the output of which is connected to the single input of the second trigger, whose single output is connected to the third input of the fourth element And, and the zero output is connected to the start input of the second one-shot, the first timing input of which is connected through parallel connected first variable resistance and a first capacitor with a second timing input, the output of the second one-shot is connected to the third control output of the signal control unit, to the input of the delay element and to the second input of the first OR element, the output of which is connected to the dynamic single input of the third trigger, the single output of which is connected to the fourth control output of the signal control unit, the output of the delay element is connected to the start input of the third one-shot, the first time-input of which is connected through Without a second alternating resistance and a second capacitor connected in parallel with a second timing input, the output of the third one-shot is connected to the first control output of the signal control unit.  7. The adaptive electrical stimulator according to claim 3, characterized in that the treatment time setting unit of the control unit comprises first and second switches, first, second and third resistors, first and second diodes, an OR element, first and second AND elements, a trigger, a decoder, an indicator, first and second counters, the first and second installation inputs of the therapy time setting unit determine the position of the first and second switches, the first terminals of the first and second switches are combined and connected to the power bus, the second terminal of the first switch the switch is connected through the first resistor to the ground bus, to the anode of the first diode and with the summing input of the first counter, the second terminal of the second switch is connected through the second resistor to the ground bus, to the anode of the second diode and to the subtracting input of the first counter, the cathodes of the first and second diodes are combined and connected through a third resistor to the ground bus and to the clock input of the first counter, the bit outputs of which are connected respectively to the bit inputs of the second meter and the bit inputs of the decoder, bit outputs whose odes are connected to the indicator's bit inputs, the direct bit outputs of the second counter are connected to the inputs of the OR element, and the inverse bit outputs are connected to the inputs of the first AND element, the outputs of the OR element and the first AND element are connected respectively to the single and zero inputs of the trigger, whose zero output connected to the control output of the unit for setting the time of therapy, the control input of which is connected to the first input of the second element And and to the control input of the second counter, the subtracting output of which is connected to the output of the second element And, the second input of which is connected to the clock input of the unit for setting the time of therapy.  8. The adaptive electrical stimulator according to claim 4, characterized in that the feedback analysis unit for the differences of the feedback unit contains an element AND, (n + 1) first adders, (n + 1) binary code comparison schemes, k second adders and decoders, and the control the input of the difference analysis node is connected to the first input of the AND element, with the control inputs of each of (n + 1) first adders and each of (n + 1) binary code comparison circuits, k inputs of the first group of (n + 1) groups of first information inputs differences analysis nodes are connected respectively to the first group of information x inputs of the first of (n + 1) binary comparison schemes, k inputs of i-groups of the first information inputs (i = 1,2, .., n) of the difference analysis node are connected respectively to the first k inputs of groups of information inputs (i +1) th binary code comparison circuit and k inputs of the first groups of information inputs of the second i-adders, the second groups of information inputs of the first of the (n + 1) binary code comparison schemes are connected respectively to the group of information outputs of the first adder from (n + 1 ) groups of the first adders, and the output is connected to the second input eleme nta And, the output of which is connected to the signal output of the differences analysis node, the second groups of information inputs of the i-th (i = 2,3, ..., n) binary code comparison circuits are connected respectively to the group of information outputs of the corresponding i-adders from ( n + 1) groups of the first adders, inputs of the second groups of information inputs of (i-1) -x adders from the group of n second adders and groups of information inputs of the corresponding decoders (i-1) -x, the outputs of which are connected respectively to the other inputs of the element, outputs information output groups in the i-th adders from the group of n second adders are connected respectively to the outputs of the groups of information outputs of the difference analysis node, k inputs (i = 1,2, ..., n + 1) of the i-th groups of the second information inputs of the difference analysis node are connected, respectively with k inputs of the group of first information inputs of i-adders from (n + 1) groups of first adders, k inputs of i-th (i = 1,2, ..., n + 1) groups of third information inputs of the difference analysis node are connected respectively with k inputs of the group of second information inputs of the first adders.  9. The adaptive electrical stimulator according to claim 4, characterized in that the intersection memory node of the feedback unit comprises first and second switches, first, second and third resistors, first and second diodes, a counter, a decoder and an indicator, the first and second installation inputs the intersection memory node determines the position of the first and second switches, the first terminals of the first and second switches are combined and connected to the power bus, the second terminal of the first switch is connected through the first resistor to the ground bus, to the anode of the first diode and with the counter summing input, the second terminal of the second switch is connected through the second resistor to the ground bus, to the anode of the second diode and to the subtracting counter input, the cathodes of the first and second diodes are combined and connected through the third resistor to the ground bus and to the clock input of the counter, k bit outputs of which are connected respectively with k outputs of the group of information outputs of the intersection memory node and with k bit inputs of a decoder, bit outputs of which are connected with bit inputs of the indicator, control vlyayuschy input node coupled to the intersections memory enable input of the counter reading.  10. The adaptive pacemaker according to claim 4, characterized in that the memory node of the differences of the ith half-wave of the feedback unit contains first and second switches, first, second and third resistors, first and second diodes, a counter, a decoder, an indicator and a group of k And, moreover, the first and second installation inputs of the memory node of the differences of the i-th half-wave determine the position of the first and second switches, the first terminals of the first and second switches are combined and connected to the power bus, the second terminal of the first switch is connected through h the first resistor with an earth bus, with the anode of the first diode and with the summing input of the counter, the second terminal of the second switch connected through the second resistor to the earth bus, with the anode of the second diode and with the subtracting input of the counter, the cathodes of the first and second diodes are combined and connected through the third resistor with the ground bus and with the clock input of the counter, k bit outputs of which are connected respectively to k outputs of the group of information outputs of the memory node of the differences of the ith half-wave and with k bit inputs of the decoder, bit outputs which are connected to the indicator bit inputs, the control input of the difference memory node of the i-th half-wave is connected to the first inputs of the elements AND of a group of k elements And, the outputs of which are connected respectively to the discharge waters of the counter, and the second inputs with the corresponding k inputs of the group of information inputs of the difference memory node ith half-wave.