SU949801A1 - D-a converter testing device - Google Patents

Description

(54) DEVICE FOR CONTROL OF DIGITAL ANALOG CONVERTERS

The invention relates to a measurement technique and can be used to measure the differential non-linearity of digital-to-analog converters (D / A converters).

A device for measuring the error of a digital-to-analog converter is known, comprising a master oscillator, two counters, a monitored and reference digital-analog converters, a code comparison unit, a subtraction and gain element, an analog storage device and an indicator 1.

A disadvantage of the known device is a large measurement time due to the large number of measurement cycles.

Closest to the proposed technical entity is a control device for digital-to-analog converters, consisting of two code generators, controlled and reference digital-to-analog converters, a measuring device and a differential amplifier, the first input of which is connected to the output of a controlled digital-analog converter, the output of the differential amplifier is connected to the input

measuring device, the output of the first driver codes connected to the input of the controlled digital-to-analog converter, the output of the second driver codes connected to the input of the reference digital-analog converter 2.

The disadvantages of this device are a large measurement time and

10 low control accuracy.

The large measurement time is due to the fact that, in order to determine the differential nonlinearity of Dd контролиру of a controlled DAC using this

15 devices are not available for devices to measure the value) for all 2 values of the input code (in the case of a nite DAC) and select the maximum of them, which will be the desired

20 characteristic of the DAC.

The measurement accuracy is low due to the fact that during the control, due to the presence of such errors of the controlled DAC as zero offset, gain errors, integral nonlinearity, the output signals of the reference YO (N-1) and controlled YX (NI) with the code (N-1) not equal friend

Claims (2)

30 friend. The objective of ioretreniya is to increase accuracy and decrease control time. This goal is achieved in that the control device of digital-to-analog converters contains two code generators, a controlled and reference digital-analog converters, a measuring device and a differential amplifier, the first input of which is connected to the output of a controlled digital-analog converter the generator, the output of the differential amplifier is connected to the input of the measuring device, the output of the first driver of the codes is connected to the input of the control a digital-to-analog converter, the output of the second code generator is connected to the input of this digital signal-to-analog converter, a storage unit, switch, two-threshold comparator, a control source of reference voltages and a control unit are entered, the first input of the storage unit is connected to the output of the controlled digital-analog converter , the output of the storage unit is connected to the first input of the switch, the second input of which is connected to the output of the reference digital-to-analogue converter, ry A switch is connected to the second input of a differential amplifier, the output of which is connected to the first input of a two-threshold comparator, the second and third inputs of a two-threshold comparator are connected to the outputs of a controlled voltage source, the output of a two-threshold comparator is connected to the input of a control unit, whose outputs are connected to the first inputs of both shapers of codes, a controlled source of reference voltages, to the second input of the storage unit and to the third input of the switch. FIG. 1 shows a diagram of the proposed device; in fig. 2 and 3 signals at the outputs of the monitored and reference DAC, storage unit and differential amplifier The device contains two formulated bodies 1 and 2 codes, controlled by the third and reference 4 DACs, differential amplifier 5, measuring device 6 storage unit 7, switch 8, two-threshold comiarator 9, control source 10 reference voltages and control unit 11. The device works as follows. When applying from pulse control unit 11 a pulse sequence to shapers 1 and 2 codes (which can be made in the form of counters), the latter begin to issue codes for controlled 3 and reference 4CAP varying from one cycle of device operation from 0 to Niy, 2 - 1. At the outputs of the controlled and reference 4 DAC, stepwise voltage YX (N) and Y (, N) are formed (Fig. 2). At the same time, the control unit 11 outputs to the control input of the storage unit 7 control signals by which the storage unit 7 stores the steady value of the output signal of the controlled D / A converter 3 for each value of the input code and stores this value for some time after the arrival of the next code equal to (curve Y3g- (N) (FIG. 2)). When connected to the input of the differential amplifier 5 through the switch 8 in the storage unit 7, a series of pulses appear at the input of the differential amplifier 5, the amplitude of which is proportional to the difference Yx (N) - Y36 (N) Y (N) - Y;, (N- 1), i.e. the increment of the output signal of the controlled DAC 3 when the input code is incremented by 1 (FIG. 3). From the output of the differential amplifier 5, this series of pulses with varying amplitude is applied to one of the inputs of the two-threshold comparator 9, the others of which are supplied by the voltage Ug.H of the output of the controlled source 10 of the reference voltages. If the magnitude of the signal Ue of the controlled voltage source exceeds the maximum amplitude of the pulses from the output of the differential amplifier 5, and the value of U is less than the minimum amplitude of these pulses, then in the first device operation cycle the two-threshold comparator 9 does not work. In this case, after the shaper codes 1 and 2 are issued, the maximum value of the control codes sees the signal to the controlled source of 10 reference voltages, according to which the signal level Uft decreases and the signal level Uj increases. The repetition of these cycles of operation of the device occurs until the amplitude of any pulse from the output of the differential amplifier 5 exceeds the level Ug or the level UH exceeds the amplitude of any pulse (FIG. 3, level UB). In this case, the comparator 9 triggers, according to the output signal of which the control unit 11, ceases to output pulses to the shaper 1 and 2 codes. In this case, the formers and; codes, the N code is issued, where the differential error LD (N) of the monitored DAC 3 is maximum for code values from O to N t. If the N code is located, the control unit connects the reference DAC 4, connected to the input of the differential amplifier 8, and then taking the readings of the measuring device b, equal to and (N) - YO- (N) .. Qo, the end of the measurement of the value and the control unit 11 on the driver. 1-code signal by which the driver 1 codes gives a code equal to N -1. The indications U, j of the measuring instrument b are then equal to KrY, () - YO (N,). The difference in readings q..CN) U - Ui KfYyCN) - YX (N-I) is proportional to the increment of the output signal of the monitored DAC 3, the magnitude of which allows you to easily determine the differential nonlinearity of the monitored DAC 3 with the LdnS code) qACN,) - Yat. Where q. - the calculated increment of the output signal of the controlled DAC 3. After measuring the magnitude and, a restart is performed, starting with code N, drivers 1 and 2 codes and at constant values of signals Ug, j, and testics from the output of the controlled source of reference voltages actuation of the two-threshold: comparator 9 with the values of the codes N N. When the triggering is repeated, the two-threshold comparator 9 determines the differential nonlinearity) similarly to Ldn (() then the starting of the drivers 1 and 2 of the codes, ince Nrj code, etc. The maximum value of Aq (N), AHCNi),. . . , Ddn) is the differential nonlinearity of Ldc of the controlled DAC 3.. Claims A digital-to-analog converter control device containing two code drivers, a monitored and reference digital-to-analog converters, a measuring device and a differential amplifier, the first input of which is connected to the output of a controlled digital-analog converter, the output of the differential amplifier is connected to the input of the measuring device, the output of the first code-forming converter is connected to the input of controlled digital-to-analog converter, the output of the second shaper codes under It is connected to the input of a reference digital-to-analog converter, characterized in that, in order to improve accuracy and reduce monitoring time, a storage unit, a switch, a two-threshold comparator, a controlled reference voltage source and a control unit are inputted to it, the first input of the memory block connected to the output controlled digital-to-analog converter, the output of the storage unit is connected to the first input of the switch, the second input of which is connected to the output of the reference digital-to-analog converter, the switch output is connected to the second input of a differential amplifier, the output of which is connected to the first input of a two-threshold comparator, the second and third inputs of a two-threshold comparator are connected to the outputs of a controlled reference voltage source, the output of a two-threshold comparator is connected to the input of a control unit whose outputs are connected to the first inputs of Both drivers of codes, controlled source of reference voltages, to the second input. on the third input of the switch. Sources of information taken into account during the examination 1. USSR author's certificate No. 600719, cl. H 03 K 13/02, 01.07.74. 2. Klochan PS Measurement of parameters of digital-to-analog converters. Kiev, Knowledge Society Ukrainian CCi, 1978, p. 17, rice, 14 (prototype). ig - . 4 j I I I I 1 I .J WAI Yww