RU2010124264A - LOCAL CVSD DECODER AND METHOD OF ITS USE - Google Patents

Abstract

 1. A local adaptive delta modulator decoder with syllabic adaptation (local CVSD decoder) comprising an integration step control unit, a polarity switch and a main integrator, characterized in that:! - the input of the decoder is connected to the input of the control unit by the integration step and the first input of the polarity switch; ! - the output of the control unit of the integration step is connected to the second input of the polarity switch; ! - the output of the polarity switch is connected to the input of the main integrator; ! and the output of the main integrator is the output of the local CVSD decoder. ! 2. A method of using a local adaptive delta modulator decoder with syllabic adaptation (local CVSD decoder), comprising the operations of storing, processing and converting signals and data, characterized in that:! - difference bits are fed to the decoder and sent to the input of the control unit by the integration step and to the first input of the polarity switch; ! - in the control unit of the integration step by the difference bits, the magnitude of the amplitude of the integration step is calculated and fed to the second input of the polarity switch; ! - in the polarity switch, the magnitude of the amplitude of the integration step is assigned the sign of polarity and fed this value to the main integrator; ! - in the main integrator, the magnitude of the amplitude of the integration step is summed with the value of the internal contents of the integrator and fed to the output of the local CVSD decoder. ! 3. The control unit of the integration step of the local decoder of the adaptive delta modulator with syllabic adaptation (the control unit of the integration step of the local CVSD decoder), containing the storage, processing and conversion blocks

Claims (19)

1. Local decoder adaptive delta modulator with syllabic adaptation (local CVSD decoder), comprising an integration step control unit, a polarity switch and a main integrator, characterized in that: - the input of the decoder is connected to the input of the control unit by the integration step and the first input of the polarity switch; - the output of the control unit of the integration step is connected to the second input of the polarity switch; - the output of the polarity switch is connected to the input of the main integrator; and the output of the main integrator is the output of the local CVSD decoder. 2. A method of using a local adaptive delta modulator decoder with syllabic adaptation (local CVSD decoder), comprising the operations of storing, processing and converting signals and data, characterized in that: - difference bits are fed to the decoder and sent to the input of the control unit by the integration step and to the first input of the polarity switch; - in the control unit of the integration step by the difference bits, the magnitude of the amplitude of the integration step is calculated and fed to the second input of the polarity switch; - in the polarity switch, the magnitude of the amplitude of the integration step is assigned the sign of polarity and fed this value to the main integrator; - in the main integrator, the magnitude of the amplitude of the integration step is summed with the value of the internal contents of the integrator and fed to the output of the local CVSD decoder. 3. The control unit of the integration step of the local decoder adaptive delta modulator with syllabic adaptation (the control unit of the integration step of the local CVSD decoder), containing blocks for storing, processing and converting signals and data, characterized in that it contains: - computing unit; - the storage register of the magnitude of the increment of the amplitude of the integration step; - multiplier; - primary syllabic integrator; - secondary syllabic integrator; - a register for storing the value of the minimum value of the amplitude of the integration step; - adder, while: - the input of the control unit is the input of the computing unit; - the output of the computing unit is connected to the first input of the multiplier; - the second input of the multiplier is connected to the storage register of the magnitude of the increment of the amplitude of the integration step; - the output of the multiplier is connected to the input of the primary syllabic integrator; - the output of the primary syllabic integrator is connected to the input of the secondary syllabic integrator; - the output of the secondary syllabic integrator is connected to the first input of the adder; - the second input of the adder is connected to the storage register of the minimum value of the amplitude of the integration step, and the output of the adder is the output of the control unit. 4. The device according to claim 3, characterized in that the computing unit contains: - control unit; - counter of coincidence bits of the difference Sum; - register for storing the increment value of the integration step Mvar; - the storage register of the previous bit of the difference Mem; - register for storing the value of the overload threshold (minimum number of matches of the difference bits) Min; - the storage register of the maximum number of matches of bits of the difference Max; - a register of tabular values of Mtab, while: - the input of the computing unit is connected to the input of the control unit; - the output of the computing unit is connected to the output of the control unit; and the control unit is connected to: - counter of coincidence bits of the difference Sum; - a storage register of the increment value of the integration step Mvar; - the storage register of the previous Mem bit; - a register for storing the value of the overload threshold (minimum number of matches of the difference bits) Min; - the storage register of the maximum number of matches of bits of the difference Max; - a register of tabular values of Mtab. 5. The device according to claim 3, characterized in that the primary syllabic integrator contains: - control unit; - a register for storing the decrement value of the primary syllabic constant C1; - a register for storing the result of primary syllabic integration S1 · C1, wherein: - the input of the primary syllabic integrator is connected to the input of the control unit; - the output of the primary syllabic integrator is connected to the output of the control unit; and the control unit is connected to: - the storage register of the decrement value of the primary syllabic constant C1 and - a register for storing the result of primary syllabic integration S1 · C1. 6. The device according to claim 3, characterized in that the secondary syllabic integrator contains: - control unit; - a register for storing the decrement value of the secondary syllabic constant C2; - a register for storing the result of secondary syllabic integration S2 · C2, while: - the input of the secondary syllabic integrator is connected to the input of the control unit; - the output of the secondary syllabic integrator is connected to the output of the control unit, and the control unit is connected to: - a register for storing the decrement value of the secondary syllabic constant C2 and - a register for storing the result of secondary syllabic integration S2 · C2. 7. A method of using a control unit for integrating a local decoder of an adaptive delta modulator with syllabic adaptation (unit for integrating a local CVSD decoder control unit), comprising the operations of storing, processing and converting signals and data, characterized in that: - the difference bit is supplied to the control unit and sent to the input of the computing unit, - in the computing unit, the difference bits are converted into the value of the increment value of the integration step Mvar and fed to the first input of the multiplier, - from the storage register of the magnitude of the increment in the amplitude of the integration step Δc take the magnitude of the increment in the amplitude of the integration step Δc and feed it to the second input of the multiplier, - multiply the increment of the amplitude of the integration step Δc in the multiplier by the value of the increment of the integration step Mvar, and the resulting value is fed to the input of the primary syllabic integrator, - in the primary syllabic integrator, the obtained value Δc · Mvar is converted into the value of the first response S1 and fed to the input of the secondary syllabic integrator, - in the secondary syllabic integrator, the value of the first response S1 is converted into the value of the secondary response S2 and fed to the first input of the adder, - from the storage register of the minimum value of the amplitude of the integration step Δmin take the value of the minimum value of the amplitude of the integration step Δmin, feed it to the second input of the adder, - add in the adder the value of the minimum value of the amplitude of the integration step Δmin with the second response S2, obtaining the magnitude of the amplitude of the integration step Δ (n), - the obtained value of the amplitude of the integration step Δ (n) is fed to the output of the control unit of the integration step. 8. The method according to claim 7, characterized in that before starting to use the control unit, the integration step sets the necessary mode of its operation, setting the values: - increments of the amplitude of the integration step Δс; - the minimum value of the amplitude of the integration step Δmin, and load them into the registers: - the magnitude of the increment of the amplitude of the integration step Δс - in the storage register of the magnitude of the increment of the amplitude of the integration step; - the value of the minimum value of the amplitude of the integration step Δmin - in the storage register of the minimum value of the amplitude of the integration step Δmin. 9. The method according to claim 8, characterized in that the minimum value of the amplitude of the integration step Δmin is chosen to be equal to or less than the absolute threshold value of the required (calculated) encoder sensitivity for the input signal, and not equal to zero. 10. The method according to claim 8, characterized in that the magnitude of the increment in the amplitude of the integration step Δc is selected in the range from 0 to double the value of the amplitude of the integration step Δmin. 11. The method according to claim 7, characterized in that the difference bit in the computing unit is converted into a value of the increment value of the integration step Mvar as follows: - take a bit of difference with (n), - compare the received bit of difference with (n) with the previous bit with (n-1) stored in the register of storage of the bit of difference Mem, - if the values of the received bit with (n) and the bits from the storage register with (n-1) do not match, the counter of matches of bits of the difference Sum is reset to zero, and if they match, then the counter of matches of bits of the difference of Sum is increased by 1, - the value of the received bit of difference c (n) is entered into the storage register of the difference bit Mem; - compare the value of the counter of matches of bits of the difference Sum with the value of the minimum number of matches of bits of the difference Min from the storage register of the value of the overload threshold (minimum number of matches of bits of the difference) Min, - if the value of the counter of coincidence bits of the difference Sum is less than the value of the overload threshold Min, then 0 is stored in the storage register of the increment value of the integration step Mvar, - if the value of the counter of matches of bits of the difference of difference Sum is greater than or equal to the minimum number of matches of bits of the difference of Min, then the value of the counter of matches of bits of the difference of difference Sum is compared with the value of the maximum number of matches of bits of the difference Max from the storage register of the maximum number of matches of bits of the difference Max, - if the value of the counter of coincidence bits of the difference difference Sum is greater than or equal to the maximum number of matches of the bits of the difference Max from the storage register of the maximum number of matches of the bits of the difference Max, then the maximum value Mtab_max from the table of the register table of table values Mtab corresponding to the maximum number is recorded in the storage register of the increment of the integration step Mvar matches bits of the difference Mach, - if the value of the match counter of bits of the difference difference Sum is less than the maximum number of matches of bits of the difference Max from the storage register of the maximum number of matches of bits of the difference Max, then the value of the value from the register of table values Mtab corresponding to the current value of the counter of matches of bits of the difference is written to the storage register of the increment of the integration step Mvar Sum, - the obtained value of the increment of the integration step Mvar is fed to the output of the computing unit. 12. The method according to claim 11, characterized in that before starting to use the computing unit, the operating mode of the computing unit is set by setting the values: - value of the overload threshold Min; - the value of the maximum number of matches of bits of the difference Mach; - a set of tabular values of the Mtab value, and load them into registers: - overload threshold value Min - in the storage register of the overload threshold value; - the value of the maximum number of matches of bits of the difference Max - in the storage register of the maximum number of matches of bits of the difference; - a set of tabular values of the Mtab value - to the register of tabular values of the Mtab value. 13. The method according to p. 12, characterized in that: - the value of the overload threshold Min is chosen to be greater than or equal to 1; - the value of the maximum number of matches of the bits of the difference Max is chosen to be greater than or equal to the value of the overload threshold Min; - the number of elements in the set of tabular values of the value of Mtab is chosen equal to Max minus Min plus 1; - the sequence of values of the elements of the table of values of Mtab from the element Mtab_min corresponding to the minimum number of matches of bits of the difference Min to the element Mtab_max corresponding to the maximum number of matches of bits of the difference Max, choose non-decreasing; - the values of all elements of Mtab choose more than 0. 14. The method according to claim 7, characterized in that the value received from the multiplier in the primary syllabic integrator is converted into the value of the primary response S1 as follows: - take the value, add it to the result of the primary syllabic integration, stored in the storage register of the result of the primary syllabic integration S1 · C1, and get the value of the primary response S1, - the value of the primary response S1 is fed to the output of the primary syllabic integrator, - from the storage register of the decrement value of the primary syllable constant C1, the decrement value of the primary syllable constant C1 is taken and multiplied by the response value of the primary S1, and the result is entered into the storage register of the result of the primary syllabic integration for use in the next integrator operation cycle. 15. The method according to 14, characterized in that before starting to use the primary syllabic integrator, the mode of its operation is established, the necessary decrement value of the primary syllabic constant C1 is set, load it into the storage register of the decrement value of the primary syllabic constant C1, and the primary syllable result storage register is reset integration. 16. The method according to clause 15, wherein the decrement value of the primary syllabic constant C1 is selected in the range from 0 to 1. 17. The method according to claim 7, characterized in that the value of the primary response S1 in the secondary syllabic integrator is converted into the value of the secondary response S2 as follows: - take the value of the primary response S1, add it to the result of the secondary syllabic integration stored in the storage register of the result of the secondary syllabic integration S2 · C2, and get the value of the secondary response S2, - the value of the secondary response S2 is fed to the output of the secondary syllabic integrator, - from the storage register of the decrement value of the secondary syllabic constant C2, the decrement value of the secondary syllabic constant C2 is taken and multiplied by the secondary response value S2, and the result is entered into the storage register of the secondary syllabic integration result for use in the next integrator operation cycle. 18. The method according to 17, characterized in that before starting to use the secondary syllabic integrator, the mode of its operation is established, the required decrement value of the secondary syllabic constant C2 is set, load it into the storage register of the decrement value of the secondary syllabic constant C2, and the register of the secondary syllable result is zeroed integration. 19. The method according to p. 18, characterized in that the decrement value of the secondary syllabic constant C2 is selected in the range from 0 to 1.