SU1095372A1 - Device for forming standard digital signals - Google Patents

Abstract

DEVICE FORMATION OF REFERENCE DIGITAL SIGNALS containing the sources of the reference currents made on the transistors, the collectors of which are connected to the load, and the bases with the control voltage sources, the bases and the emitters through the corresponding resistors are also connected to the sources of the supply voltages. characterized in that, in order to reduce the formation error, two pairs of diodes are introduced. The first and second transistor current sources whose transistors bases are connected to the control voltage sources, the bases and the emitters are also connected to the power sources through appropriate resistors , the collector of the first transistor is connected through the transition of the cathode-anode of the first diode to the load and through the transition of the cathode-anode of the second diode to the source of the logical unit, and the collector of the second transistor is connected through the transistor od diode with the cathode of the third diode g load through a transition anode-cathode chetverto-. (L diode - with a source log.:. O-ffn

Description

The device for generating reference digital signals is intended for use in electronic equipment for various purposes, in particular in a multichannel device for monitoring and measuring the parameters of digital circuits for generating reference digital signals with predetermined levels and duration of fronts. A device for generating reference digital signals is known, which contains sources of voltages of a logical zero and a logical unit. A disadvantage of this device is the absence of a third state of the device. The closest to the invention according to the technical essence is the device of formation, reference digital signals containing sources of reference currents made on transistors, whose collectors are connected to the load, and the bases with control sources of voltage, bases and emitters are connected through appropriate resistors also with power supply sources 2. The disadvantages of this device are large formation errors due to emissions on the load from parasitic reactivity and key errors. The circuit of the invention is the reduction of the formation error. The goal is achieved by the fact that the device for forming reference digital signals containing sources of reference currents made on transistors, the collectors of which are connected to the load, and bases and emitters are connected to the sources of control sources, Two pairs of diodes and the first and second transistor current sources are introduced. The bases of the transistors of which are connected to the control voltage sources, the bases and emitters are also connected to the source Through the supply resistors, the collector of the first transistor is connected through the respective resistors through the cathode-anode junction of the first diode to the load and through the cathode-anode junction of the second diode to the source of the logical unit, and the collector of the second transistor to the load, and through the transition the fourth dirde anodcathode - with a source of logical zero. The drawing shows a schematic diagram of the device. The device for forming reference digital signals contains sources 1 and 2 of the reference currents, made on transistors 3 and 4, whose collectors are connected to load 5, and the bases also connect to the base sources of control voltage sources and emitters through corresponding resistors b, 7 and 8, 9 with power supply sources, as well as two pairs of diodes 10, 11, and 12, 13, the first and second transistor sources. The sources 14, 15, DC1, the bases of transistors 16, 17 are connected to the control voltage sources, the bases and emitters are also connected to the power supply sources and through the corresponding resistors the collector of the first transistor 10 is connected through a junction 5 and through the transition the cathode-anode of the second diode 11 - with the source of the logical unit, and the collector of the second transistor 17 is connected through the transition of the anode-cathode of the third diode 12 with a load 5, through the transition of the anode-cathode of the fourth diode 13 with a source of logical Str. The device works as follows. In the absence of signals from control voltage sources, transistors 3, 4, 16, and 17 are closed, the junctions of diodes 10–13 are shifted in the opposite direction, and no current flows through the load. The device is in the first state. When there is a control current in the base circuit of transistor 3 (and in the absence of a control current in the base circuit of transistor 4), a current flows in the load corresponding to the second state. When a predetermined limitation level of the generated signal is reached, the diode 10 of transistor 16 is shifted in the forward direction and is compensated by the bias current of the signal limiting circuit, while the bias current is redistributed between diodes 10 and 11. Since the diodes are turned on and have the same voltage drop transitions shifted in the forward direction, the signal level to the load is determined by the expression byon op1 + dio-udm Uon4 "where UQ is the source voltage of a logical unit; Uj) o voltage drop across diode 10; V is the voltage drop on the diode i. The current in the load of the device in this case is determined only by the voltage source of the logical unit. When there is a control current in the base circuit of the transistor (and in the absence of a control current in the base circuit of the transistor), a current corresponding to the third state flows in the load. In this case, upon reaching the set limit level, the transistor 17 is turned on, which operates similarly to the transistor 16, and the current in-3 1095372L

the load of the device in this case op-. In addition, the error of work

is determined only by the voltage of the source of the device formation is reduced

logical zero, which allows, due to the fact that emissions are reduced

It does not reduce the error in the operation of the load on the load due to the parasitic formation due to the reduced load reactivity, including the error of the keys, 5 of the limiters.

Claims (1)

DEVICE FORMING reference digital signal containing reference current sources are formed on the transistors, the collectors of which are connected with the load, and the base to the control ^voltage source, bases and emitters connected through respective resistors takzhe.s supply voltage source, characterized in that, with In order to reduce the formation error, two pairs of diodes and the first and second transistor current sources are introduced, the transistor bases of which are connected to the control voltage sources, the bases and emitters with they are also connected to the voltage sources through the corresponding resistors, the collector of the first transistor is connected through the cathode-anode junction of the first diode to the load and through the cathode-anode junction of the second diode to a logical unit source, and the collector of the second transistor is connected through the junction., diode-cathode of the third diode with load and through the anode-cathode junction of the fourth diode - with a source of logical zero ...