RU2012138997A - LOGIC ELEMENT "2-I" WITH MULTI-SIGNAL INTERNAL REPRESENTATION OF SIGNALS - Google Patents

Abstract

1. Logic element "2-I" with a multi-valued internal representation of signals, containing the first (1) and second (2) input switches of the current quantum I, controlled by sources of input logical voltages (3) and (4), current-stabilizing two-terminal network (5), connected between the combined current outputs (6), (7) of the first (1) and second (2) input switches of the current quanta I and the bus (8) of power supplies, characterized in that the current outputs (6), (7) of the first (1) and the second (2) input current quantum switches I are connected to the emitter of an additional transistor (9), bases which is connected to a source of reference voltage (10), and the collector current output is the logical device (11), wherein as tokostabiliziruyuschego two-terminal network (5), a source of reference current, the output current is a multiple quantum I.2 current. The 2-I logic element with the multi-valued internal representation of signals according to claim 1, characterized in that each of the input switches (1), (2) of the current quantum I, controlled by the sources of input logical voltages (3), (4), is made in the form of differential stages on the first (18) and second (19) input transistors, the emitters of which are connected to the source (20) of the current quantum I, the base of the first (18) input transistor is connected to a source of input logical voltage (3), (4), the base of the second (19) input transistor is connected to a reference voltage source (10), moreover, the collector of the first (18) input transistor is connected to the inverting current output of each of the input switches (1) and (2) of the current quantum I.3. A 2-I logic element with a multi-valued internal representation of signals according to claim 1, characterized in that each of the input switches (1) and (2

Claims (3)

1. Logic element “2-I” with a multi-valued internal representation of signals, containing the first (1) and second (2) input current quantum switches I ₀ controlled by the input logic voltage sources (3) and (4), current-stabilizing two-terminal network (5) connected between the combined current outputs (6), (7) of the first (1) and second (2) input switches of current quanta I ₀ and the bus (8) of power supplies, characterized in that the current outputs (6), (7) of the first (1) and the second (2) input switches of the current quantum I _{0 are} connected to the emitter of an additional transistor (9) whose base is connected to a reference voltage source (10), and the collector is the logical current output of the device (11), and a reference current source is used as a current-stabilizing two-terminal device (5), the output current of which is a multiple of the current quantum I ₀ . 2. A 2-I logic element with a multi-valued internal representation of signals according to claim 1, characterized in that each of the input switches (1), (2) of the current quantum I ₀ , controlled by the sources of input logical voltages (3), (4 ), made in the form of differential stages on the first (18) and second (19) input transistors, the emitters of which are connected to the source (20) of the current quantum I ₀ , the base of the first (18) input transistor is connected to the source of the input logical voltage (3), (4), the base of the second (19) input transistor is connected to a reference voltage source I (10), and the collector of the first (18) input transistor is connected to the inverting current output $$(\overline{6})$$

$$(\overline{7})$$

of each of the input switches (1) and (2) of the current quantum I ₀ . 3. A “2-I” logic element with a multi-valued internal representation of signals according to claim 1, characterized in that each of the input switches (1) and (2) of the current quantum I ₀ controlled by the sources of input logical voltages (3), (4 ), made in the form of differential stages on the first (18) and second (19) input transistors, the emitters of which are connected to the source (20) of the current quantum I ₀ , the base of the first (18) input transistor is connected to the source of the input logical voltage (3), (4), the base of the second (19) input transistor is connected to a reference voltage source (10), and the collector of the second (19) input transistor is connected to a non-inverting current output (6), (7) of each of the input switches (1) and (2) of the current quantum I ₀ .