US1415382A - Amplifier - Google Patents
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- US1415382A US1415382A US212332A US21233218A US1415382A US 1415382 A US1415382 A US 1415382A US 212332 A US212332 A US 212332A US 21233218 A US21233218 A US 21233218A US 1415382 A US1415382 A US 1415382A
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- audion
- current
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- relay
- impulses
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- 230000010355 oscillation Effects 0.000 description 16
- 230000003321 amplification Effects 0.000 description 9
- 238000003199 nucleic acid amplification method Methods 0.000 description 9
- 238000000034 method Methods 0.000 description 7
- 238000010586 diagram Methods 0.000 description 6
- 239000004020 conductor Substances 0.000 description 4
- 230000008901 benefit Effects 0.000 description 2
- 230000003534 oscillatory effect Effects 0.000 description 2
- XRCFXMGQEVUZFC-UHFFFAOYSA-N anisindione Chemical compound C1=CC(OC)=CC=C1C1C(=O)C2=CC=CC=C2C1=O XRCFXMGQEVUZFC-UHFFFAOYSA-N 0.000 description 1
- 229960002138 anisindione Drugs 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 239000013078 crystal Substances 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 239000004579 marble Substances 0.000 description 1
Images
Classifications
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03K—PULSE TECHNIQUE
- H03K17/00—Electronic switching or gating, i.e. not by contact-making and –breaking
- H03K17/51—Electronic switching or gating, i.e. not by contact-making and –breaking characterised by the components used
- H03K17/52—Electronic switching or gating, i.e. not by contact-making and –breaking characterised by the components used by the use, as active elements, of gas-filled tubes
Definitions
- My invention relates to a method of and means for amplifying telegraphic-signals, and is particularly adapted and intended for amplification of the signals of submarine tables. but is also applicable to the amplification of the signals of the so-called wireless telegraph systems.
- the so-called audion or gas, relay is employed for the amplification of signals.
- the audion itself is a well-known instrument and is not altered in construction for use according to the present invention. Since the frequency of the signals in a cable circuit may be said to vary from 10' to 20 cycles per second. or thereabouts. ⁇ this frequency ofv course is variable. but is low-.as compared with usual alternating current frequencies) and since cable signals, if transmitted by the ordinafy method (as distinguished from the true reversal method) are not true alternating currents, but may comprise several successive impulses of the same direction.
- the audion is arranged to oscillate at a definite frequency, preferably in the neighborhood of a few hundred cycles per second. This may be accomplished in various well-known ways, for example. by coupling the grid and plate circuitsv of the audion in such manner that energy from the plate is returned to the grid, or by causing current or voltage from an outside source to be impressed on the grid.
- the current amplified by the audion is conducted into a suitable receiving instrument, which may be either a telephone receiver, a tuned relay, or a siphon recorder or ordinary relay connected through a rectifier.
- Such an am lifying and receiving arrangement as ove outlined will servefor the amplification and reception of wireless signals, also for the reception of cable and other telegraph signals when a tele* phone receiver is employed in signal readmg.
- a siphon recorder or relay o r repeater it is desirable to be able to dist nguish at the receiving end between positive current. negative current, and zero current.
- the present invention comprises means whereby this may be accomplished.
- My invention comprises a method and means whereby telegraph signals are amplified by an audion itself arranged-to produce a high frequency current: a method and means whereby the current. as amplified by the audion. is rectified for the benefit of the signal-receiving or signal-repeating apparatus; a method and means whereby' distinction is made between positive current, negative current, and zero current; and other features, all as hereinafter described and particularly pointed out in the appended claims.
- Figure 1 is a diagram showing one use of an oscillating audionin connection with the amplification of cable sigiials', the receiving instrument employedv being a telephone receiver.
- FIG. 2 is a fragmentary diagram similar to Figure 1, except that means for operating an ordinary relay, or siphon recorder. or repeater, are shown.
- Figure 3 is a diagram similar to Figure 2, except that'the use of a rectifier is indicated.
- Figure 4 is a diagram in general similar to Figure 2, except that the use of two auto amplify positive impulses. the other to amplify negative impulses. are indicated.
- Figure 5 is a diagram illustrating the arrangement of apparatus for" amplifying wireless signals.
- Figure l is a diagram showing the joint use of an oscillating audion and an amplifying audion.
- Submarine cables are usually. though not necessarily, operated duplex. and in Figure 1 a duplex cable is shown: 1 designates the main cable line. 2 the artificial line. 3 the usual transmitting arrangement. and -l r the usual condensers in the main and artificial lines respectively. 5 and 6 designate leads from the main line. and artificial line. respectively, to the audion circuits. and T designates a condenser bridgedacross leads 5 and 6 to act as a path for currents of relatively high frequency. inthe audion circuit. while preventing passage of the low frequency currents of the cable circuit. 8. 9. and 10 designate respectively the filament. the grid. and the plate of the audion and 11 designates a step down transformer.
- a battery 13 supplies current to the filament of the audion and a battery 14 supplies current to the audion circuit 15, in which amplification occurs; such circuit including the primary of transformer 11. in the conductor 15 there is a transformer 16 bridged by a condenser 17; the connections shown comprising one known means whereby the audion is arranged to itself produce a high frequency oscillation. (It should be explained however that the term high frequency is used in contradistinction from the low frequency of the cable circuit proper. and that this high frequency current may be a current of a few hundred cycles per second only).
- the receiving instrument 12 is a telephone receiver: but when it is de-- sired to receive signals by a relay, then, as shown in Figure 2.
- a tuned vibrating relay 19 is arranged to be operated by the secondary circuit of the step down transformer 11. and this relay is tuned into synchronism with the alternating current pro prised by the audion. and such relay. by its operation, produces direct current impulses. corresponding to the alternating current im pulses of the audion, which direct current impulses operate receiving relay 20.
- a crystal or other rectifier (for example. an electrolytic rectifier) 21. may be substituted for the tuned relay.
- each amplifier the batteries 24 of the two potentiometers being of relatively reversed signs and the two audions being arranged. one to amplify positive impulses. the other to amplify negative impulses: each audion controlling a tuned vibrating relay 19 from a step-down trans former 11. and. so controlling the receiving instrument 20.
- the vibrating relays 19 are each tuned to approximately the rate of oscillation produced by the corresponding audion A or B; and being so tuned. will vibrate in step with such oscillations produced by the audion.
- the amplifying means shown in Figure i is applicable not only for use in connection with the code ordinarily employed for cable transmission. but also for use with various other codes. for example the Baudot.
- signals are transmitted inductively from andion C to audion D through step-up transformer 26, and are transmitted from audion D through step-down transformer 11 to the rectifying'device here shown as a tuned relay 19.
- the relay 19 is me-- and 2
- the oscillations produced by the audion are small or negligible when nosignals come in, but are relatively large when sig- 1 i nals, are coming in.
- the operation may be as just describedwithreference to Figures 1 and 2, or, alternatively, the adjustment may be such that the oscillation is moderately large when no signals come in, incoming signals of one sign increasing the amount or magnitude of oscillation, and ncoming sig nals of the other sign decreasing the amount of magnitude of oscillation.
- VJ hat I claim is:
- an audion arranged to produce a current ofv oscillatory character, means for conducting signals to be amplified to the controlling circuit of the audion, and signal receiving means operated by the audion, and comprising a tuned vibrating relay a-rranged tofvibratein unison withithe oscillations produced by the audion and to audion system is preferably small; signals '1.
- Signal amplifying apparatus such as].
- Signal amplifying apparatus such as described, comprisingtwo audions each arranged to produce a current of oscillatory character, one arranged to amplify positive current impulses, the other arranged to amplify negative current impulses, means for I conducting current impulses to be amplified to said audions, said audlons belng connected to said slgnal conducting means in parallel, and signal-receiving means operated by 'sald audions.
Description
I. w. MILNOR. Y
AMPLIFIER. v
APPLICATION FILED IAN. I7, I9I 8- 1,415,382,.
Patented May 9, 1922;
2 SHEETSSHEET I.
1 IN VEN TOR.
BY v I A TTORNEY J. w. MILNOVR.
AMPLIFIER." APPLICATION FILED JANJT. I918- '2'SHE ETSSHEET-2- 1N VEN TOR. WI TNESSES:
ATTORNEY JOSEPH w. ivrILNoR. or NEW YORK, N. Y.,
ASSIGNOR TO THE WESTERN UNION TELE- GRAPH COMPANY, OF NEW YORK. N. Y., A CORPORATION OF NEW YORK.
AMPLIFIER.
Specification of Letters Patent. Patented Blav 9, 1922,
Application filed J'anuary 17, 1918. Serial No. 212,332.
To whomit may concern:
' citizen of the United States of America. and
a resident of New York, county of New York and State of New York, have inventedcertain new and useful Improvements in Amplifiers. of which the followingis a specifica tion.
My invention relates to a method of and means for amplifying telegraphic-signals, and is particularly adapted and intended for amplification of the signals of submarine tables. but is also applicable to the amplification of the signals of the so-called wireless telegraph systems.
According to the present invention. the so-called audion or gas, relay is employed for the amplification of signals. The audion itself is a well-known instrument and is not altered in construction for use according to the present invention. Since the frequency of the signals in a cable circuit may be said to vary from 10' to 20 cycles per second. or thereabouts. {this frequency ofv course is variable. but is low-.as compared with usual alternating current frequencies) and since cable signals, if transmitted by the ordinafy method (as distinguished from the true reversal method) are not true alternating currents, but may comprise several successive impulses of the same direction. and since the audion is best adapted to amplifying signals when the current of those signals is in the form of relatively high frequency, according to the present invention the audion is arranged to oscillate at a definite frequency, preferably in the neighborhood of a few hundred cycles per second. This may be accomplished in various well-known ways, for example. by coupling the grid and plate circuitsv of the audion in such manner that energy from the plate is returned to the grid, or by causing current or voltage from an outside source to be impressed on the grid. The current amplified by the audion is conducted into a suitable receiving instrument, which may be either a telephone receiver, a tuned relay, or a siphon recorder or ordinary relay connected through a rectifier.
Such an am lifying and receiving arrangement as ove outlinedwill servefor the amplification and reception of wireless signals, also for the reception of cable and other telegraph signals when a tele* phone receiver is employed in signal readmg. But when submarine cable signals are to be received by a siphon recorder or relay o r repeater, it is desirable to be able to dist nguish at the receiving end between positive current. negative current, and zero current. The present invention comprises means whereby this may be accomplished.
My invention comprises a method and means whereby telegraph signals are amplified by an audion itself arranged-to produce a high frequency current: a method and means whereby the current. as amplified by the audion. is rectified for the benefit of the signal-receiving or signal-repeating apparatus; a method and means whereby' distinction is made between positive current, negative current, and zero current; and other features, all as hereinafter described and particularly pointed out in the appended claims.
mechanical inertia z-to provide an amplify- 'ing apparatus possessing the-above advantages. and which is devoid of relay contacts and the like which must be completed and broken in .the operation of the apparatus; and in general, provide an amplifying apparatus of extreme simplicity and extreme compactness and of a nature such as will be understood readily by telegraph engineers and operators.
I will now proceed to describe my invention with reference to the accompanying drawings, in which certain arrangements embodying my invention are illustrated more or less diagrammatically.
In said drawings:
Figure 1 is a diagram showing one use of an oscillating audionin connection with the amplification of cable sigiials', the receiving instrument employedv being a telephone receiver.
Figure 2 is a fragmentary diagram similar to Figure 1, except that means for operating an ordinary relay, or siphon recorder. or repeater, are shown.
Figure 3 is a diagram similar to Figure 2, except that'the use of a rectifier is indicated.
Figure 4 is a diagram in general similar to Figure 2, except that the use of two auto amplify positive impulses. the other to amplify negative impulses. are indicated.
Figure 5 is a diagram illustrating the arrangement of apparatus for" amplifying wireless signals.
Figure l is a diagram showing the joint use of an oscillating audion and an amplifying audion.
Referring first to Figure 1: Submarine cables are usually. though not necessarily, operated duplex. and in Figure 1 a duplex cable is shown: 1 designates the main cable line. 2 the artificial line. 3 the usual transmitting arrangement. and -l r the usual condensers in the main and artificial lines respectively. 5 and 6 designate leads from the main line. and artificial line. respectively, to the audion circuits. and T designates a condenser bridgedacross leads 5 and 6 to act as a path for currents of relatively high frequency. inthe audion circuit. while preventing passage of the low frequency currents of the cable circuit. 8. 9. and 10 designate respectively the filament. the grid. and the plate of the audion and 11 designates a step down transformer. the primary of which is in the audion circuit while the secondary of the transformer is in the receiver circuit; 12 designates the receiver. A battery 13 supplies current to the filament of the audion and a battery 14 supplies current to the audion circuit 15, in which amplification occurs; such circuit including the primary of transformer 11. in the conductor 15 there is a transformer 16 bridged by a condenser 17; the connections shown comprising one known means whereby the audion is arranged to itself produce a high frequency oscillation. (It should be explained however that the term high frequency is used in contradistinction from the low frequency of the cable circuit proper. and that this high frequency current may be a current of a few hundred cycles per second only).
In Figure 1 the receiving instrument 12 is a telephone receiver: but when it is de-- sired to receive signals by a relay, then, as shown in Figure 2. a tuned vibrating relay 19 is arranged to be operated by the secondary circuit of the step down transformer 11. and this relay is tuned into synchronism with the alternating current pro duced by the audion. and such relay. by its operation, produces direct current impulses. corresponding to the alternating current im pulses of the audion, which direct current impulses operate receiving relay 20. As illustrated in Figure 3. a crystal or other rectifier (for example. an electrolytic rectifier) 21. may be substituted for the tuned relay.
The above circuit arrangements will serve where there is no necessity of distinguishing between positive and negative currents the cable circuit. or between positive and negative on the one hand. and Zero condition on the other. But when receiving and amplifying cable currents. particularly cable currents transmitted in the ordinary manner (as distinguished from the true reversal method), it is extremely important to be able to distinguish between positive. negative. and zero conditions. This may be accomplished in the manner and by the means shown in Figure 4 wherein two audion amplifiers .1 and ii are employed-the connections of each being-the same as indicated in previous figures. the two amplifiers being connected in parallel with respect to con ductors 5 and 6. with a high resistance 22 connected in shunt. across said conductors 5 and 6. and with a potentiometer 23 in circuit with each amplifier: the batteries 24 of the two potentiometers being of relatively reversed signs and the two audions being arranged. one to amplify positive impulses. the other to amplify negative impulses: each audion controlling a tuned vibrating relay 19 from a step-down trans former 11. and. so controlling the receiving instrument 20.
it will be understood that the vibrating relays 19 are each tuned to approximately the rate of oscillation produced by the corresponding audion A or B; and being so tuned. will vibrate in step with such oscillations produced by the audion. There are 'various other connections whereby audions may be caused to generate oscillations of regular character. and I do not llmit myself to any particular means of connections for' causing the audions to so produce current oscillations.
The amplifying means shown in Figure iis applicable not only for use in connection with the code ordinarily employed for cable transmission. but also for use with various other codes. for example the Baudot.
It will be underst od that in the operation of the circuit arrangement shown in Figures 1. 2. and 3. the audion. being affected by incoming signals. and being itself producing high frequency current oscillations. in effectnot merely amplifies the incoming impulses. but breaks up these incomingimpulses each into high frequency oscillations. which. in the arrangement shown in Figure 1, operate the receiver 12 through the transformer 11; in the arrange ment shown in Figure 2 operate the tuned relay 19 through the transformer 11, and so operate the receiving instrument 20; and in the arrangement shown in Figure 3 are rectified by the rectifier 21 and so operate the receiving instrument 20. In the arrangement shown in Figure 1, since batteries 2- of the respective potentiometers are of opposite sign, the one audion amplifies positive impulses; the other auction amplifies negative impulses, both audions breaking up their respective impulses, positive Ornegative, into high frequency oscillations,'which, through the'agency of the transformers 11,
operate the tuned relay 19, and so the receiving instrument 20.
In some cases it is desirable to employ two separate audions, one mainly for producing oscillations, the other mainly for amplification. Such an arrangement is shown in Figure 6, wherein audion C is ar-' ranged for producing oscillations and audion D is arranged for amplification. The
signals are transmitted inductively from andion C to audion D through step-up transformer 26, and are transmitted from audion D through step-down transformer 11 to the rectifying'device here shown as a tuned relay 19.
The arrangements shown in Figures 2 and 8 are alsoapplicable for the amplification of wireless or radio telegraphy signals, conductors 5 and 6 being connected to the antennm or other collecting arrangements'of the radio system/ However, it is preferable, 1n the case of amphfying wireless signals,
to employ a step-up transformer between the antennae and the audion. This is illustrated in Figure 5, in which sucha stepup transformer, 25, is shown; the circuits being in other respects similarto those of Figure 2, except that the transformer 16 is; omitted, the audion not being' -used here to itself generate high frequency impulses, since the impulses of the wireless signals are themselves of high frequency character.
In this arrangement the relay 19 is me-- and 2, the oscillations produced by the audion are small or negligible when nosignals come in, but are relatively large when sig- 1 i nals, are coming in. In the arrangement shown in Figure 3, the operation may be as just describedwithreference to Figures 1 and 2, or, alternatively, the adjustment may be such that the oscillation is moderately large when no signals come in, incoming signals of one sign increasing the amount or magnitude of oscillation, and ncoming sig nals of the other sign decreasing the amount of magnitude of oscillation.
In the arrangement shown in Figure 4:,
when there are no signals, oscillation in each of one sign causing the corresponding audion only to oscillate with greati' magnitude, and signals of the other sign causing the other corresponding audion only to oscil late with greater magnitude.
VJ hat I claim is:
described, comprising an audion arranged to produce a current ofv oscillatory character, means for conducting signals to be amplified to the controlling circuit of the audion, and signal receiving means operated by the audion, and comprising a tuned vibrating relay a-rranged tofvibratein unison withithe oscillations produced by the audion and to audion system is preferably small; signals '1. Signal amplifying apparatus such as].
rectify the oscillatoiry current produced by v the audion. I
2. Signal amplifying apparatus such as described, comprisingtwo audions each arranged to produce a current of oscillatory character, one arranged to amplify positive current impulses, the other arranged to amplify negative current impulses, means for I conducting current impulses to be amplified to said audions, said audlons belng connected to said slgnal conducting means in parallel, and signal-receiving means operated by 'sald audions.
\ ln testimony'whereofll have signed this specification in the presence of two subscribing witnesses.
Witnesses l H. M. MARBLE, ETHEL JOHNES.
.iosnrn w. iumnon.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US212332A US1415382A (en) | 1918-01-17 | 1918-01-17 | Amplifier |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US212332A US1415382A (en) | 1918-01-17 | 1918-01-17 | Amplifier |
Publications (1)
Publication Number | Publication Date |
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US1415382A true US1415382A (en) | 1922-05-09 |
Family
ID=22790555
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US212332A Expired - Lifetime US1415382A (en) | 1918-01-17 | 1918-01-17 | Amplifier |
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US (1) | US1415382A (en) |
-
1918
- 1918-01-17 US US212332A patent/US1415382A/en not_active Expired - Lifetime
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