SU748861A1 - D-a converter - Google Patents

Description

(54) DIGITAL CONVERTER

one

The invention relates to computing technology and automation and is intended to convert digital codes to direct current.

A digital-to-analog converter is known that contains a voltage source, a decoding resistor grid R -2R, two-position transistor switches, and control circuits, by the signals of which two-position switches connect the grid resistors to a common bus or to an ungrounded source of a reference voltage li.

However, in such converters, the control currents of the single transistor switches (i.e., the keys that are not connected to the common length) flow through the reference voltage source and its output current depends on the input code. This leads to an additional error due to the voltage drop at the output impedance of the reference voltage source. In addition, in these converters, the source of the reference voltage must be able to operate in the central range of current variation (from zero to the maximum value determined by the currents. Control of single keys in all bits), which leads to its complication and increase in consumption power.

A converter is also known that contains a reference voltage source, Qi, a decoding grid of resistors connected to two-way transistor switches, an isolated voltage source connected by one pole to an ungrounded bus, 5 reference voltage points, and diode-resistive control circuits in each bit. de, tying base | key transistors with and inverse outputs of triggered uthvleni and the second 20 pole of an isolated voltage source 5}.

Claims (2)

However, such converters are complex, since it is necessary to use an additional source, Stranded, insulated from common shing, and diode-resistive key management ampoules, which require the formation of different polarity signals at the input of the converter. The circuit of the invention is the simplification of the converter. The goal is achieved in that a digital analogue converter, containing a source of reference voltage, a decoding grid R -2R, connected to a common 4epie3 bus, zero transistor switches, and a reference voltage bus through single transistor switches, has two inverting amplifiers in each bit. The output of the first inverting amplifier is connected to the input of the second inverting amplifier and through a resistor to the base of the zero key transistor, and the output of the second amplifier is connected to the base of the key switch transistor, each The discharge converter output of the first inverting amplifier is connected via a voltage resistor connected by an additional resistor and a diode to the reference voltage source bus. The drawing shows a digital-to-analog converter. The converter circuit contains a source of 1 reference voltage, a decoding grid of 2 resistors R -2R and transformation cells, each of them wiring numerical keys On transistors 3 and 4, sequentially Tvkyuyesh & the first and second inverting amplifiers 5,6, made respectively on transistors 7 , 8, the input resistors 9.1O and collector resistors 11.12, the voltage connected to the source 13. The resistor 14 is connected between the output of the first inverting amplifier 5 and the base of the transistor 3, the ferro route of the MCC to the Schlen jury key of the transistor 3. The control current of the single key on the transistor 4 is formed by the inverting amplifier 6. An additional resistor 15 is inserted into each inverter between the gap the thickness of the source 1 of the reference voltage and the output of the first inverting amplifier A diode 16 is connected in series with the resistor 15. The device operates as follows. At zero, the 4 values of the signal at the input of the conversion cell (the transistor 7 in the first inverting 1 amplifier 5 is closed, the resistor 14 to the base of transistor 3 receives a control current, which translates it into the deep state, which corresponds to the open state of the zero key and the connection the output of the resistive grid 2 with the total thickness. At the same time, the transistor 8 in the second inverting® amplifier 6 is open and, consequently, the single key on the transistor 4 is open. For normal operation of the device by an appropriate choice of of the resistors 11, 10, and 14, the condition is where the unit voltage value at the output of the wiring amplifier 5 with the transistor 7 closed, and SC-nc is the voltage at the output of the reference source 1. In this case, the diode 16 in the non-conducting direction and this cell conversion does not load the source of the reference voltage. With a single value of the signal on the unit cell, the transformer {Uoy O) T ranzistor 7 opens and the output voltage of the First Inverting Amplifiers i5 is zero (U - b), resulting in transistors 3 and 8 closed The transistor 4 is located in the Deep Naspenenin due to the control current ty entering its base from the output of the amplifier 6 and related to the parameters of the circuit elements with the following relation -% K-4 n R. E is the output voltage of source 13; C, is the voltage at the transition bacollector transistor 4; , „Is the resistance of the collector resistor 12. In this case, through the circuit consisting of resistor 5 and diode 16, prot. The current being detected is a compensation current from the discharge of the op-Tso-C ° ".5 voltage drop across the diode 16; - resistance of the resistor 15. While ensuring the condition L-1y, by appropriate selection of the resistance of the resistor 15 through the source 1 of the reference voltage, only the differential current L1 pulls practically due to the disconnection of the parameters of the elielents from the nominal values. Since it is easy to provide D1s, "Lj, then a low-power reference voltage source can be used in the heading converter, as is well known. However, this does not require a voltage source isolated from the common bus for generating single-key control currents, the number of diodes in the key-control circuits is reduced, and there is no need for a source of dissipated voltages to power the zero-key and single-key control circuits. It is most efficient to perform the proposed converter according to the hybrid-film technology. In this case, due to the manufacture of resistors in the process unit, the scatter of their values relative to each other over a wide range of external factors is achieved with a small scatter, thereby compensating for the current yft by single keys in different operating conditions of the converter. In addition, it is possible (by selecting the resistivity of the resistors 10 11, 14) to sufficiently fulfill the condition, which allows reducing the current through the resistor 15 with the unit key 4 closed almost to the value without using the diode 16 in the converter. By injecting resistor and diode conversions into each cell, current flow of single-key control is eliminated through the reference source without applying an additional power source that is insulated from the common diode bus in the control circuit Amplifiers as well as sources of power supply voltages for key management circuits, resulting in a simplified converter. Qi Invention} A analogue converter containing a voltage source, a decoding network of resistors R-2R connected to a common bus, zero transistor switches, and a bus source of a reference voltage through single transistors, two ... that use usustell razradb, and the output of the first Invertyr; the U1 of the amplifier is connected to the input of the second inverting amplifier and the resistor with the base of the zero transistor KJjQO4a, and the output of the second amplifier is connected to the base of the transistor of the single switch, W and w that, with a chain of simplification. the converter, in each of its discharge, the output of the first inverter is connected via a series-connected additional resistor and diode to the voltage source bus. Sources of information taken into account during e-testing 1.Smolov V. B. and others. Semiconductor coding and decoding voltage transformers. L., Energie, 1967. 2. Authors certificate of the USSR 362459, cl. N OZ K 13 / O4, 24.O5.71 (prototype).