DE1111668B - Circuitry for selectively connecting a pair of input terminals from a plurality of pairs of input terminals to a pair of output terminals - Google Patents

Description

Circuit for the optional connection of a pair of input terminals from a plurality of pairs of input terminals with a pair of output terminals The invention relates to a circuit for selectively connecting a pair of input terminals from a plurality of pairs of input terminals to a pair of output terminals.

An ideal electrical switch would be a two pole device with two operating modes, d. H. closed and open or on and off. In the switched-off state there would be no electrical current between the two terminals or poles, and in the switched-on state there would be no potential difference between the two terminals. A very close approximation of the ideal switch is obtained with metal contact switches and relays when used on direct current and at very low frequencies. However, metal contact switches are not suitable for use in many cases, for example when the required switching speed is high or the required number of operating periods is large.

In many circuit applications, electronic or semiconductor switching devices are used to meet the required operating conditions to suffice. However, these switching devices do not approach each other in many respects the ideal, as there is noticeable internal resistance in the switched on or conductive State and noticeable conductance in the switched-off or non-conductive state to have. In addition, the magnitudes of these undesirable characteristics change from one to one Unit to other and with time, temperature and other changed quantities.

When a plurality of electrical signals with a single device can be connected, each signal is connected to the device via a switch connected, with only one of the switches being turned on at any one time or conductive state. If ideal switches are used, the signal is given at the input of the device exactly the one selected input signal. this however, does not apply if non-ideal switches are used.

The object of the invention is to create an improved circuit of the above kind, which involves the use of an arbitrarily chosen source from a Multiple signal sources to a pair of output terminals using imperfect switches allows that a certain finite conductivity in the switched-off state and have a certain finite resistance in the switched-on state, where, apart from the switch characteristics, the output signal with regard to the Voltage magnitude corresponds to the selected input signal. This is according to the invention achieved in that of each input terminal pair one terminal through a pair in Switches arranged in series connected to a first input terminal of an amplifier while the second input terminal of each input terminal pair is connected connected to one output terminal of the amplifier whose other output terminal is connected is with its second input terminal and through a third switch with the connection point of the two switches arranged in series, and for selecting a certain input terminal pair the two associated switches, which are arranged as standard, are closed and the corresponding third switch is opened, while the series arranged Pairs of switches belonging to unselected input terminal pairs are opened and the switches that connect the amplifier output to the connection points of these pairs of switches connect, be closed. The amplifier can have high negative open loop gain have so the reinforcement of the whole Negative feedback system is essentially one, and its input impedance may be high and its output impedance be low. The first switch of the series-arranged switch pairs can be connected to intermediate lines that are connected to the second switch in series arranged switch pairs and the third switch optionally to the inputs of the Amplifier can be connected.

The invention also encompasses new details of construction and new combinations and arrangements of parts which will be more fully explained in the course of the following description. The drawing shows only preferred embodiments in connection with the description. of the invention which are given as examples for the purpose of illustration. 1 shows a schematic circuit diagram of an embodiment of the circuit according to the invention, and FIG. 2 shows a circuit diagram of another embodiment of the circuit according to the invention.

In the circuit according to FIG. 1 , input signals from a number of sources A 1, A 2, A 3 ... An , B1, B2, B3 ... are coupled to corresponding input terminals, the sources being divided into groups associated with the Letters A, B ... are designated. One terminal of each source is connected to a common line 9 , which may be the ground line of the circuit. The circuit according to the invention operates with a large number of inputs, for example with ten groups of ten terminals and more each, but only some of the inputs are shown in the drawing. A number of switches 10, one of which is associated with a each input terminal, is used to connect each input terminal with a corresponding group rail or conduit 1LA, llB. . ., Switches 12A, 12B. . . serve to connect each group line to an amplifier input line 13 which controls an amplifier 14. The output of the amplifier occurs at output terminals 15, 16 , terminal 15 being connected to the common source line 9 and terminal 16 to an amplifier output line 16a . The switches 17A, 17B .... serve to connect each group line to the amplifier output line.

When selecting a particular input signal for the output terminal, the particular switches 10 and 12 associated with the input terminal to which the signal is applied and the switches 17 not associated with that input terminal are in the on or conducting state, and all other switches are in the in the off or non-conductive state. Fig. 1 illustrates the case in which the signal of the source B2 is selected. The switches 10B2, 12B and 17A, 17C, ... are in the on state, and all other switches are in the switched state. The amplifier 14 conveniently has a gain of 1.0 and a high input impedance which places essentially no stress on the selected signal, and a low output impedance to provide current to the output terminals and to the unselected inputs. Since the accuracy of the reproduction of the selected input signal at the output terminals is a function of the gain of the amplifier, the closer this gain is to 1.0, the greater the accuracy of the circuit. . The amplifier 14 according to FIG. 1 is connected as a negative feedback amplifier in potentiometric design with 100% negative feedback, whereby the gain 1.0 is essentially present. The exit e. of the amplifier is equal to the negative value of its input ei, i.e. H. eo = ei, where the amplifier provides the desired high input impedance and the low output impedance. Since the amplifier 14 causes a sign reversal in order to make the output E, of the circuit equal to the input signal, the output terminals of the amplifier are shown reversed to the usual order so that the high resistance side of the amplifier output 15 to the common or to the side 9 low resistance of the signal sources is connected.

The fact that the selected switches (10B2, 12B in Figure 1) have apparent resistances other than zero is of very little concern when the input impedance of the amplifier is high. Since the apparent resistances of such selected switches are in series with the high input resistance of the amplifier, this high input resistance renders the non-zero apparent resistances of the selected switches 10B2 and 12B relatively meaningless. The signals applied to unselected input terminals A "A2, A3 ... A " have a negligible effect on the output of amplifier 14. Although switches 10 associated with each input terminal are assumed to be non-ideal switches with appreciable conductivity in their non-conductive state, each this switch is connected between the output terminals 15 and 16 .

There is a feedback or negative feedback path through unselected switches to the input, e.g. By switch 12A of Figure 1. If the gain were to be other than 1.0 , the overall gain (i.e., the gain including negative feedback through open unselected switches) would depend on and therefore be dependent on the impedance of those switches be changeable. If the gain of the amplifier itself is 1.0 , changes in the impedance of open switches or the non-uniformity of switches cannot affect the system, since it does not matter to a system whether points of equal potential are high or low Impedance are connected. In a typical case, a gain between 1.02 and 0.98 will give satisfactory results depending on the characteristics of the switches used in the system.

Another embodiment of the circuit according to the invention is shown in FIG. One terminal of each input E 1, E 2,. . . is connected to a common line 20 which may be referred to as the circuit ground line. The other terminal of E1 is connected to the amplifier input line 21 via two switches 22, 23 connected in series, and the other terminal of the input E2 is connected in the same way to the amplifier input line via switches 24, 25 . Additional inputs can be added to the circuit in the same way. The amplifier input line 21 passes the input to an amplifier 26 by the gain 1.0, in the same manner as the amplifier 14 of the circuit of FIG. Is connected. 1 The high impedance side of the amplifier output is connected to an output terminal 30 and to the common line 20 and the low impedance side is connected to an output terminal 31 and an amplifier output line 27 . A switch 28 is connected between the junction of the switches 22, 23 and the amplifier output line 27 and a switch 29 is connected in the same way between the connection point of the switches 24, 25 and the amplifier output line.

Each of the switches shown in Figures 1 and 2 can be of any convenient design, such as a metal contact, vacuum tube, or semiconductor, the choice of a particular switch being dependent on the application of the circuit and not being essential to the invention. In FIG. 1 , each switch is shown merely as a device with the "on" and "off" states. In FIG. 2, each switch is formed by an equivalent circuit of a non-ideal switch which has a large resistor 32 in parallel with a series combination of an ideal off-on device 33 and a small resistor 34.

In operation of the circuit of Figure 2, the pair is in series Switches that connect the desired input to the amplifier input line, conductive, and the switch that connects these two switches with the connection. The stronger output line connects is non-conductive. The each of the undesirable Switches assigned to inputs are in the reverse state as the corresponding switch assigned to the selected input.

The function of the above switches in the manner described essentially produces the voltage difference zero at the switches which connect the amplifier input and the triple connection to one another. There is a potential difference due to the unselected voltage sources at the switches that connect the triple junction to the unselected inputs. However, the resulting current is a load on the low impedance output of the amplifier and does not appreciably change its potential. As shown in Fig. 2, El is the input selected, and the switches 22, 23 and 29 are conductive, and the switches 28, 24 and 25 are non-conductive. Under these conditions, the output E, is substantially equal to the input E 1, unaffected by the resistance of the various switches in the circuit and changes in the resistances of the on and off states of these switches.

In the circuit of Fig. 1 , the output of the amplifier is used to eliminate the groups of unselected switches A, C ..... However, the voltage at the unselected inputs B 1, B 3 .... as a result of the finite apparent resistances of the associated switches can still influence the input to the amplifier. In the circuit of Figure 2, the actions of the unselected input signals from the amplifier input are eliminated. The switch 29 in the unselected circuit connects the source E2 to the low impedance side 31 of the amplifier 26. There is a voltage drop across this switch and there is some leakage current due to the finite impedance of the open switch 24. However, this leakage current has no influence on the output voltage E, as a result of the direct connection between the switch 29 and the amplifier output, the output impedance of the amplifier being very low as a result of the high loop gain.

The terms "connect" and "aeitend" and "separate" and "non-conductive" as used in the description and claims mean that the switch is in the on or off state, although actually not ideal switches are never completely disconnected or non-conductive are.

Although embodiments of the invention are disclosed as examples and It is noted that other applications of the invention are possible and that the disclosed embodiments are various changes, modifications and can experience additions without going beyond the scope of the invention.

Claims (2)

PATENT CLAIMS: 1. A circuit for selectively connecting a pair of input terminals from a plurality of pairs of input terminals to a pair of output terminals, characterized in that one terminal of each pair of input terminals is connected to a first input terminal (13) of an amplifier by a pair of switches (10, 12) arranged in series (14), while the second input terminal (9) of each input terminal pair is connected to an output terminal (15) of the amplifier, the other output terminal (16) of which is connected to its second input terminal and through a third switch (17) to the connection point of the two serially arranged switches, and to select a certain input terminal pair (B ..) the two associated serially arranged switches (10B2, 12B) are closed and the associated third switch (17B) is opened while the serially arranged switch pairs (10 , 12A) that correspond to unselected input terminal pairs belong, are opened and the switches (17A), which connect the amplifier output to the connection points of these switch pairs, are closed. 2. A circuit according to claim 1, characterized in that the amplifier has a high negative open loop gain, so that the gain of the entire negative feedback system is substantially unity, that its input impedance is high and its output impedance is low. 3. Circuit according to claim 1, characterized in that the switches (10) are connected to intermediate lines (1lA, 11B) which can be optionally connected to the inputs of the amplifier via the switches (12, 17).