SU377843A1 - LIBRARY! The applicant is a Gorky Research Physics and Technology Institute at the Gorky State University. N.I. Lobachevsky - Google Patents

Description

one

The invention relates to the field of automation and computer technology and can be used to input analog information into a digital computer.

A multichannel analog-to-digital pre-processor is known, which contains a clock pulse generator connected to the control input, one of the outputs of which is connected to the initial setup input, an analog-to-digital tracking converter of the following type, the other to the counter input connected to the control analog-to-digital converter switches of the exact reference, the analog inputs of which are connected to the sources of coded voltages, and the output to the analog input of the analog-digital converter azovatel accurate reading.

However, the speed of known converters is limited by the long duration of accessing the random access memory (RAM) during each encoding cycle and. the dependence of the duration of the coding cycle on the number of coded voltages.

In order to improve speed, a rough analogue analog-to-digital converter with parallel equilibration and additional keys are introduced into the proposed device, the analog inputs of which

connected to the corresponding analog inputs of analog-to-digital precision counting keys; and the control input of each i ± i additional key is connected to the I output of the decoder, the outputs of the additional keys are connected to the analog input of the analog-digital presetter, which is connected to the auxiliary Oloka control output, and the digital output and the output of the end of the pre-cycle loop are connected respectively to the digital input of the analog-to-digital converter of the exact tscheta and with an additional control input Oloka.

ria drawing is a block diagram of the proposed device.

The output of the 1 clock pulse generator is connected to the input of control unit 2, one of the outputs of which is connected to the input of the initial installation of the analog-digital converter 3 of the exact counting, the second one with the input of the counter 4. The latter is connected via the decoder 5 to the precise counting keys of the 6 ADC of the exact counting Analog inputs of which are connected to sources of 7 coded voltages (Ui, L / z, Us, ... Ui, ...), and the output is connected to analog input of analog-digital converter 3. Analog inputs of additional switches 8 are connected

respectively, with the analog inputs of the keys 6, and the control inputs are connected to the outputs of the decoder 5 so that each i + 1 control input of the additional keys 8 is connected to the i output of the decoder 3. The outputs of the keys 8 are connected to the analog input of the additional analog-digital converter 9 coarse the reference value (ADC), the input of the initial installation of which is connected to the additional output of the control unit 2, and its digital output and the output of the end of the conversion cycle are connected respectively to the digital input of the analog-digital converter 3 azovatel precise reference and an additional input of the control unit 2 -.

An analog-to-digital converter 3 of a precise reading, which operates according to the principle of a digital tracking system, contains a DAC (reversible counter with a code-to-voltage circuit) and a zero-body. A coarse reference analog-to-digital converter 9, operating according to the principle of bit balancing, comprises a DAC (register with a code-to-voltage circuit), a zero-organ and a pulse distributor.

The proposed Converter works as follows.

The voltage coding sequence is specified by counter 4 and decipher 5, which with the help of keys 6 and 8 connect coded voltages to 3 n 9 converters. For example, if voltage i is connected to converter 3, voltage i + l is connected to converter 9 .

The coding of these voltages is carried out in parallel. The converter 9 first of all terminates the coding of the voltage i +, l and supplies to the input-block 2 of the control, a signal of the end of the bit-coded coding cycle. Using this signal, control unit 2 generates a signal for the end of the coding cycle, which is fed to the input of converter 3, reads the code from converter 3 corresponding to voltage i, and then prepares the device for the next coding cycle. The decoder 5 connects the voltage t + 1 to the converter 3 via encoding 6 and 8, and the voltage i + 2 to the converter 9. From the register of the converter 9 to the reverse counter of the converter 3, the result is rewritten.

the previous coding cycle is a code corresponding to a coarse estimate of the voltage / + 1. Then, the register of converter 9 is reset and a new coding cycle starts.

Thus, before encoding each voltage into a reversible counter of converter 3, the result of the previous coding cycle — the code corresponding to a rough estimate of this voltage — is rewritten from converter 9. The length of the coding cycle is chosen such that the converter 3 has time to select the maximum permissible counting error of the converter 9, taking into account the voltage variation during the encoding process.

Subject invention

A multichannel analog-to-digital converter containing a clock pulse generator connected to the input of a control unit, one of the outputs of which is connected to the input of the initial installation of an analog-to-digital tracking converter of the following type, the other to the input of a counter connected via a decoder to the reference inputs keys of the analog-to-digital converter of exact counting, the analog inputs of which are connected to the sources of coded voltages, and the output - to the analog input of the analog-digital converter accurate readout, characterized in that, in order to improve speed, it introduced an analog-to-digital converter of coarse reference with random balancing and additional keys, the analog inputs of which are connected to the corresponding analog inputs of the analog-to-digital conversion keys of the exact reference, and the control input of each t + l of the additional key is connected to the i output of the descrambler, the outputs of the additional keys are connected to the analog input of the analog-digital converter of a rough countdown, the input of the beginning noy installation which is connected to an additional output of the control unit, and the digital output and the end of the conversion cycle its output connected respectively to the input of the analog-digital converter tsnfrovogo accurate reading and the additional input of the control unit.