US1813469A

US1813469A - Frequency multiplication system

Info

Publication number: US1813469A
Application number: US327936A
Authority: US
Inventors: Albert H Taylor
Original assignee: Wired Radio Inc
Current assignee: Wired Radio Inc
Priority date: 1928-12-22
Filing date: 1928-12-22
Publication date: 1931-07-07
Anticipated expiration: 1948-07-07

Description

v July. 7, 1931. l A, TAYLOR 1,813,469

FREQUENCY MULTIPLICATION SYSTEM Filed Dec. 22, 1928 awe/zi' 5, 552196044 35 frequency multipliers.

Patented July 7, 1931` UNITED stares PATENT OFFICE t AIB'ERT H. TAYLOR, 0F WASHN-GTON, DISTRICT 0F COLUMBIA, ASSIGN'OR T0y WIBED RADIO, INC., OF NEW' YORK, Ni. Y.,

A CORPORATION OF DELAWARE FREQUENGY MULTIPLICATIDN SYSTEIVI4 Application filed December 22, 192,8. Serial No. 327,936.`

My invention relates broadly to signaling systems and more specifically to frequency multiplication and amplification circuit arrangements useful in electromagnetic wave signaling systems. y

One of the objects of my invention is to provide a circuit arrangement in which an electron tube power amplifier system may be readily converted into a frequency multiplier.

vAnother object of my invention is to provide a circuit arrangement which will function readily and efficiently either as a fre quency multiplication system or as an amplifying system. Y y T5 Afurther obj ect of my invention is to pro.-

vide a circuit arrangement employing a four electrode electron discharge device which will function efficiently either as a frequency mul- 1 tiplicati'on system or as a high frequencyr os- 2 cillation amplification system. in 'a signal transmission system.V y

' Other and further objects will be understood from Vthe followingspecification and' the accompanying drawing 4which diagrammatically shows the circuitof my invention.

In transmitters covering a wide band of` frequencies it is often highly desirable to use shield grid tubes in certain of the amplifier stages. lfVhen the transmit-ter is operated on certain frequencies these shield grid tubes are used as amplifiers only, whereas when the transmitter is operated on higher fre. quencies certain of these shield grid tubes are` used not only as amplifiers but also as Experiments have shownthat the shield grid tube used as a frequency 'multiplier and amplifier is not as efficient as the tube Without the shield l`grid. The increased capacity between the working 4 grid and the filament which is brought about by the use of the shield grid and the bypass condenser thatis commonly connected between shield grid and filament, necessitates the use of greater 'excitation energy when shield grid tubesare employed as frequency multipliers than in the case where tubes without the shield grid are employed. The shield grid with its automatically neutralizing orlbalancinff propertiesy is not only useless when the tube 1s acting as a multiplier butin-troduces certain losses and disagreeable ont frequency multiplication and as a simple three element tube when it is amplifying with y frequency multiplication. V

In'the circuit arrangement of my invention l accomplish this result by causing the shield gridv tube to function as an ordinary three element tube by opening oneswitcli, which when the tube is operating normally as a.shield grid tube is maintained in closed position. d i, Referring to the drawing in detail, reference character l designates an electron discharge device having cathode electrode 2, grid electrode 3, shield grid electrode A and anode electrode 5. A source of power sup,- ply 6l is connected to the cathode electrode. A source of anode current supply 7 is connected to the anode. electrode and to the cathode electrode.v A voltage divider 8 is connected across the source of anode supply 7L A choke coil 9 isconnected to the shield grid electrode and to the voltage divider 8.

A switch 10 isconnected across the choke coil 9. A source of grid bias potenti-al 13,y is connectedto the grid electrode 3 through the choke coil 14; andy to the cathode electrode l. High frequency current bypass capacity 11 is connected across the source 7. An electrostatic capacity 12 is connected from the voltage divider 8 andcholre coil 9 to the cathode electrode. A frequency selective circuit comprising capacity l5 and' inductance 16 is connected into the anode and cathode electrode circuit. An antenna 2l orv another amplifier input circuit may be connected to the ind'uctance 16.y A high frequency Voscillation generator including an electron discharge device 20 having a frequencyv stabilizing element, such as a piezo electric crystal22, connected into its input and a frequency-'selective circuit 18, 19 connected to itsoutput circuit is connected to excite the grid circuit of the tiplier.

electron discharge device l through the condenser 17.

Other types of high frequency oscillation generators may be employed in place of the type disclosed in the drawing in conjunction with the amplifier' arrangement herein disclosed. In the master oscillator power amplifier arrangement comprising this invention the high frequency oscillation generator 20 is used to excite the grid of the electron discharge tube l which has a shield grid electrode. Usually high negative grid bias potential is applied to the control electrode of the electron discharge tube l in order that it may, when desired, function efficiently as a frequency multiplier. In order to completely nullify the shielding action of the shield grid electrode a choke coil 9 which is designed to cover a range of frequencies suitable for the transmitter used is connected into the external circuit of the shield grid electrode. The electron discharge tube l then operates efficiently as a frequency mul- Vhen the switch l0 is closed and the choke coil 9 is short circuited the electron discharge device operates most efficiently-as an amplifier. This arrangement permits more satisfactory operation of the shield grid electrode tube in circuits where frequencyv multiplication is necessary and permits full realization of the remarkable advantages of the shield grid tube when straight amplification with frequency multiplication is desired.

This circuit arrangement also may be used in heterodynes or oscillators employed in receiving sets where it is desirable to bring out the high frequency harmonics under certain conditions and to operate on fundamental frequencies under other conditions.

lVhile I have described my invention in certain particular embodiments, I desire that it be understood that modifications may be made and that I intend no limitations upon my invention other than those imposed by the scope of the appended claims.

What I claim as new and desire to secure by Letters Patent of the United States is as follows: y

l. In combination a thermionic electron discharge. device operative as a frequency multiplier or a power amplifier having a cathode, a plurality of grid electrodes and an anode, an output circuit connected to said anode, a source of supply for said anode, one of said grid electrodes being connected to said source of supply, and a choke coil having a switch connected thereto, said choke coil and switch being included in the circuit of said last mentioned grid electrode, said switch being movable to open position for ren dering said choke coil effective for utilizing the frequency multiplihcation properties of said device and being movable to closed position for effecting the operation of said device as a power amplifier.

2. In combination a thermionic electron discharge device operative as a frequency multiplier or a power amplier having a cathode, a plurality of grid electrodes and an anode, an output circuit associated with said anode, a source of supply for said electron discharge device, a choke coil, an electrical circuit interrupting device connected to said amplifier.

8. In combination, a thermionic electron discharge device operative as a frequency multiplier or a power amplifier having a cathode, a plurality of grid electrodes and an anoce, an output circuit associated with said anode, a source of supply, connections between said source of supply and one of said grid electrodes, said connections including a choke coil, connections between said source of supply and said anode electrode, a source of high frequency oscillations, connections between another one of said gridelectrodes and said source of oscillations, and means for rendering said choke coil effective in said circuit for operating said device as a frequency multiplier or rendering said choke coil ineffective for operating said device as a power amplifier without frequency multiplication.

4. In combination a thermionic electron discharge device .operative as a frequency multiplier or a power amplifier having a cathode, a plurality of grid electrodes and an anode, a source of high frequency oscillations connected to one of said grid electrodes for impressing high frequency oscillations thereon, a source of supply for said anode, connections between another one of said grid electrodes and said source of supply, a choke coil included in said last mentioned grid electrode connections and circuit interrupting means connected across said choke coil for rendering said choke coil effective or inedective for the operation of said device as a power amplifier or as a frequency multiplier.

5. In combination, a thermionic electron discharge device operative as a frequency multiplier or a power amplifier, said device having a cathode, a plurality of grid electrodes, one of said grid electrodes being a shield grid electrode, and an anode, an output circuit connected to said anode, a source of supply for said anode, connections between said shield grid electrode and said source, said last mentioned connection including a choke coil and an electrical circuit interrupting device connected across said coil for rendering said choke coil eiective or ineective for the operation of said device as a power amplier or as a frequency multiplier. 6. In combination, a thermionic electron discharge device operative as a frequency multiplier or a power amplifier having a cathode, a control grid electrode, a shield grid electrode and an anode, a source of current supp-ly for said anode, an oscillating circuit connected with said anode, connections between said source and said shield grid electrode, said connections including a choke coil and a circuit interrupting device connected tosaid choke coil, and a source of high frequency oscillations associated with said control grid electrode for impressing high frequency energy thereon for rendering said choke coil effective or ineffective for the operation of said device as a power amplifier or as a frequency multiplier. ALBERT H. TAYLOR.