TH7524B - Non-linear analog to digital circuits and methods of linearity. - Google Patents

Abstract

The circuit for the linearization of the analog-to-digital output is shown in Figure 2. An analog signal V1, which is passed by the input circuit 10, is applied to the input. of the converter Analog to digital 12, which is controlled by the sampling signal Vs, in order to provide Vd digital data on the data bus "N" bit 14. Analog to digital linearity memory 16 which holds the lookup table of The digital values are spliced on bus 14 in order to receive digital data Vd and in order to respond to digital data Vd by providing a true linear digital value from the lookup table to the DSP 20 digital data lookup system through it. The "N" bit 18 microprocessor 22 data bus is temporarily coupled along the way. The converter output 12 and the memory inlet 16 via bus 14 to be used as a switch between bus 14 and the programming memory 24 which has a table of the true linear digital values Vt signal. The known test is applied to the input circuit 10, and then the true linear digital value Vt, which is stored in the programming memory 24, is read into the programmable memory. make a linear condition 16In order to provide a precise and reliable relationship to such characteristics as the amplitude of each step of the known test signal layer over the entire range of the known test signal. already

Claims (7)

1. Analog to Digital Converter, which consists of - A converter for converting the magnitude of many coherent analog signal ranges to one digital value. Which represents the consecutive period of the said analog signal The converter is of a linear type. In which, a large variation in each successive period is similar to that each change in magnitude over each successive period is similar to the individual change in magnitude over a continuous period. Other Each of those periods And the aforementioned digital value is the number that changes in the least significant position when the analog signal is changed from one continuous period to an adjacent range; and Two numbers placed at a number of special addresses, multiple addresses Related Special address multiple Such addresses are associated with the unique value of the multiple first digital value. Many of these second digital values extend above the range and show a linear relationship over that range to the magnitude of the aforementioned analog signal and in response to the endorsement of the aforementioned digital value by calling. The aforementioned linear value stored at multiple such special addresses. 2. The converter according to claim 1 also contains - a device for inputting the test signal, showing the value of the magnitude relative to the prime of several such first digital values continuously during at least one selected time. Direct and uncompressed to such a converter is such an analog signal - a machine for providing a relative value of several such second digital values for each continuously displayed value of that magnitude. In the aforementioned test signal and - the machine operating during the selected time, each time for several such second digital readings is entered into the said machine at the address relative to the first digital value. T 3. Analog-to-digital converter, which consists of - A converter for converting the linear characterization that consists of With several continuous equal ranges of the analog signal to be the first digital signal that represents the aforementioned continuous range of the aforementioned analog signal; and - collector connected to such a converter to Gets the first digital value for storing multiple second digital values at different addresses. Correlating multiple special address numbers Many of the aforementioned second digital values extend above the range and show a linear relationship over that range to the aforementioned characteristics of the aforementioned analog signal fed directly without compression on the converter. And for responding to the aforementioned digital reception by arranging a linear value stored at the corresponding address of multiple such addresses 4. The converter according to claim 3 also consists of - a device for inputting the test signal, showing the value of the magnitude relative to the prime of several such first digital values continuously during at least one selected time. Direct and uncompressed to such converters as such analog signals - a machine for arranging multiple such second digital values for each continuous display value of such magnitude in The test signal and - the machine operating during the selected time, each time reading multiple such second digital values, enters the said collector at the address relative to the said first digital value. 5. Converter according to claim 4, which at a time other than the time selected thereof Such a converter responds to the magnitude of the analog signal in accordance with the aforementioned characteristics by continuously changing that magnitude into digital words, with each term having one value of that first digital value. 6. Converters according to Proposition 3, in which the converter responds to the magnitude of the analog signal in accordance with that characteristic by converting a continuous sample of such magnitude into digital words, with each term having one value of One such digital value 7.Method for making analog-to-digital converters respond to any analog input signal. That is fed to the aforementioned converter to generate a linear digital output signal relative to the analog input signal. The method uses random access memory. The approach consists of a procedure-method to write the random access memory simultaneously. Preliminary - Enter a predetermined test signal consisting of continuous samples of varying levels directly connected to the aforementioned analog-to-digital transducers as the aforementioned analog input signal to the device. - Enter a certain digital number, which is linearly related to the level of each sample. At that time, the analog-to-digital converter was entered as the analog-to-analog input signal, the machine had such random-access memory as write-in and - condition the memory. With such random access, store the written data. The digital output of the analog-to-digital converter is generated in response to continuous levels of varying levels in the signal. The test is assigned as such while - determines the number of such randomly accessed memory addresses with the digital output of the aforementioned analog to digital converter and - thereafter by means of a facilitated operation. - Linear analog input response to the analog input in addition to the aforementioned test signal from the aforementioned random access memory - feed another such analog input to the converter. And - conditions such random access memory to read the data stored in that location assigned to the numbered address in that memory while - proceed. To determine the number of such randomly accessed memory addresses with the digital output of the analog-to-digital converter.