US3040131A - Conference mixer for telegraph circuits - Google Patents

Description

June 19, 1962 A. R. BRUDER CONFERENCE MIXER FOR TELEGRAPH CIRCUITS Filed NOV. 1, 1960 INVENTOR. ARTHUR R.B UDER BY (/UMLL.

ATTORNEY AGENT m 02 PDaz 40, 31 1 CONFERENCE MIXERFOR TELEGRAPH CIRCUITS Arthur R. Bruder, Cape 'May Court House, NJ. (2022F S. Titan Circle, Grifiiss AFB, N.Y.)

Filed Nov. 1, 1960, 'Ser. No. 66,678

4 Claims. (Cl. 178-73) (Granted under Title 35, US. Code (1952), sec. 266) The invention described herein may be manufactured and used by or for the United States Government for governmental purposes without payment to me of anyroyalty thereon.

The purpose of this invention is to provide a network for coupling a plurality of telegraph circuits to a common output circuit in which provision'is made for-"one of the circuits to act as a control circuit with a selective automatic override capability.

The mixer network will be described in more detail with reference to the schematic diagram'of a'specific embodiment thereof shown in the single FIGURE of the accompanying drawing.

Referring to the drawing; the specific conference mixer illustrated functions to reproduce the input telegraph signals at terminals 1-4 at the common output terminal 6, provided there is no signal at the control circuit input terminal 5. If there is an input telegraph signal at terminal 5, only this signal will be reproduced at output terminal 6.

Resistors R1-R5 act as load impedance for the input circuits connected to terminals 1--5. Diodes D1D5 serve to isolate the input circuits from each other by making it impossible for energy in one circuit to be fed back into any of the other circuits. The telegraph signals with which the illustrated circuit is used are of the polarized type, in which a positive potential represents a space and a negative potential a mark, commonly used in teletypewriter circuits. The values of these potentials may be +80 volts and 80 volts, for example.

In the absence of an input signal on any of the input terminals 1-5, these terminals will normally be at the mark potential of 80 volts. Also output terminal 6 will be at the mark potential because of its connection through normally closed contacts 3-4 of relay K2 to terminal 7 which is at 80 volts. The cathodes of diodes D1--D4 are connected together and thence through conductor 9, normally closed contacts 12 of K1, R11 and R12 to a point of negative potential on potentiometer R15. The tap on the potentiometer is set at a negative potential sufficient to produce anode current cutoff in tube V1B and thereby hold relay K-2 in a deenergized state. Since the cathodes of D1-D4 are connected to the tap on R15, Which has a potential higher than 80 volts, they have a potential higher than the -80 volt potential of the anodes and, therefore, no current flow through the diodes occurs.

When a telegraph signal appears in any of the input circuits, for example, input No. 1, each space in the signal will raise the potential of terminal 1 from 80 volts to +80 volts. This results in a current flow through D1, contacts 12 of K1, R11 and R12 to the tap on R15. The current flow in R12 raises the potential of the grid of V1B above the cutoff point, causing anode current to flow and relay K2 to be energized. Actuation of K2 closes contacts 2-3 and applies +80 volt space potential from terminal 8 to output terminal 6. A mark following a space in the input signal allows terminal 1 to drop again to 80 volts which cuts off V1B and releases K2, allowing 80 volt mark potential to be applied from terminal 7 through contacts 34 of K2 to output terminal 6. The telegraph signal at terminal 1 is, therefore, repeated at terminal 6. In a similar manner, the input signal at any put terminal 6. As mentioned earlier, the inpuficircuits Patented .lune*19, 196 2 are isolated from each other by diodes D1 D4, the aow== of current into any-input circuit as the-result of a' spacepotential in any other input circuit being prevented'by the high back resistance of its diode.

The mixing circuit is so designed that" an input signal ride capability is the'function of override relayKl, tube V1A and a timing circuit'c'omprising condenser C1 and resistors R7, R8 and R9. Tube V 1A is normally biased'" beyond cutoff and'Kl is normally deenergized. "When a" telegraph signal appears on input terminal 5, the volt space potentials act through diode D6 to charge condenser C1 and raise'the potential ofthe grid of V1A above' cutoff thereby energizing K1. With K1 actuated this signal on input terminal 5 passes through'diode D5 and contacts 23 of K1 to the grid of V-1B with the result that it is reproduced at output terminal 6 in the-manner already described. At the same time, input circuits No.

1-No.4 are disconn'ectcd'from the grid of V 13 'by open contacts 1-2 so that any signals in these input circuits are not reproduced at the output terminal.

Resistor R6 has a relatively low resistance which, with the low forward resistance of D6, permits C1 to charge to space potential almost immediately so that none of the input signal is lost. Because of D6, C1 cannot discharge through R6 but must discharge through the much greater resistances R7, R8 and possibly R9. The time constant of the discharge circuit is made sufiiciently long that Cl will not discharge sufiiciently during the maximum separation of space potentials in the telegraph signal for V1A to be cut off and K1 deenergized. If the signal at input terminal 5 ceases, however, C1 will eventually discharge to the point where V1A is cut olf and K1 deenergized, reconnecting input circuits No. 1-No. 4 to the grid of V1B through contacts 12. The interval between cessation of signal at input terminal 5 and deenergization of K1 is controlled by the time constant of the C1-R7R8 circuit. Condenser C1 may have a value of 1 microfarad with values of R7 and R8 selected to delay cutoff of tube V1A by about 2 seconds, for example. A greater delay may be obtained if desired by removing the short circuit from R9.

Switch S1 may be provided to make the override feature selective. When this switch is thrown to the left contacts 1, 2 and 3 of K1 are permanently connected together, which has the effect of permanently connecting all five input circuits to the grid of V1B. In this case, the input circuit connected to terminal 5 no longer acts as an overriding control circuit but is reduced to the same status as the other input circuits.

Since the distortion and bias present in the input signals are also present at the output terminal 6 it may be desirable to pass the output signal through a suitable signal regenerator before its application to the using equipment.

I claim:

1. A conference mixer for telegraph circuits conrprising: a plurality of input circuits, means connecting said input circuits in parallel, an output circuit, an additional input circuit, a switching means connected between said input circuits and said output circuit, said switching means having a first position in which it connects said parallel connected input circuits to said output circuit and disconnects said additional input circuit from said output circuit and a second position in which it connects said additional input circuit to said output circuit and disconnects said parallel connected input circuits from said output circuit, said switching means being normally in said first position, and instantly acting means responsive to a telegraph signal in said additional input circuit and operative for the duration of said signal for actuating said switching means to said second position, said instantly acting means having a decay time constant not less than the maximum interval between potential changes in said telegraph signal.

2. A conference mixer for telegraph circuits comprising: a plurality of input circuits, means including an isolating diode in each input circuit for connecting said circuits in parallel, an output circuit, an additional input circuit, an electrically actuatable switch connected between said input circuits and said output circuit said switch being operative in its deenergized state to connect said parallel connected input circuits to said output circuit and to disconnect said additional input circuit therefrom and being operative in its energized state to connect said additional input circuit to said output circuit and to disconnect said parallel circuits therefrom, and means responsive to a signal in said additional input circuit and operative for the duration of said signal for energizing said switch.

3. A conference mixer for telegraph circuits comprising: first and second relays each having normally closed and normally open contacts and an actuating coil; first and second vacuum tubes each having an anode, a cathode and a control grid; a source of direct potential; means connecting the coil of said first relay and said source in series between the anode and cathode of said first tube; means connecting the coil of said second relay and said source in series between the anode and cathode of said second tube; means biasing the grids of said tubes beyond the anode current cutofi point; a capacitor connected between the grid and cathode of said first tube; a plurality of input circuits; means connecting one of said input circuits to said capacitor through a diode poled so that the input signal charges said capacitor in such direction as to oppose the bias on the grid of said first tube; means coupling said one input circuit through the normally open contacts of said first relay to the grid of said second tube;

means coupling the other input circuits in parallel and thence through the normally closed contacts of said first relay to the grid of said second tube; an output terminal; means for applying a negative voltage through the normally closed contacts of said second relay to said output terminal; and means for applying a positive voltage through the normally open contacts of said second relay to said output terminal.

4. Apparatus as claimed in claim 3 and in addition selective means for simultaneously bridging the normally open contacts and the normally closed contacts of said first relay.

References Cited in the file of this patent UNITED STATES PATENTS 2,609,453 REA Sept. 2, 1952

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