US2077597A - Receiving circuits - Google Patents
Receiving circuits Download PDFInfo
- Publication number
- US2077597A US2077597A US47960A US4796035A US2077597A US 2077597 A US2077597 A US 2077597A US 47960 A US47960 A US 47960A US 4796035 A US4796035 A US 4796035A US 2077597 A US2077597 A US 2077597A
- Authority
- US
- United States
- Prior art keywords
- valve
- circuit
- oscillations
- anode
- high frequency
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/06—Receivers
- H04B1/16—Circuits
- H04B1/163—Special arrangements for the reduction of the damping of resonant circuits of receivers
-
- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03F—AMPLIFIERS
- H03F3/00—Amplifiers with only discharge tubes or only semiconductor devices as amplifying elements
- H03F3/46—Reflex amplifiers
- H03F3/48—Reflex amplifiers with tubes only
Definitions
- This invention has reference to a circuit
- control grid of the said amplifying valve has supplied to it the modulated high-frequency oscillations to be amplified and the low frequency alternating current component of the rectified current obtained by the detection of the high fre- 5 quency oscillations.
- the oscillatory circuit tuned to the oscillations to be amplified, in the control grid circuit of the amplifying valve that serves both for high frequency and low frequency amplification should be negatively damped by means of a retroaction. If, however, this oscillatory circuit is coupled to an antenna, the risk occurs that in the case of ex- 25 cessive retroaction the amplifying valve may generate high frequency oscillations which are radiated by the antenna and thus bring about disturbances in neighbouring receiving sets.
- this difliculty the control grid of the discharge tube which serves both for amplifying high frequency and low frequency oscillations has supplied to it not only the low frequency alternating voltage but also a direct voltage depend- 35 ing on the direct current component of the rectified current obtained by the detection of the modulated high frequency oscillations, the supply being effected in such direction that with increasing intensity of the retroaction the steepness of characteristic of the said tube decreases.
- a secondary advantage of the circuit arrangement according to the invention is that as a result of the dependency of the steepness of characteristic of the said tube on the direct current 45 component of the rectified oscillations an automatic fading compensation is obtained without the necessity for supplementary means.
- the single figure of the drawing shows the circuit arrangement of a receiving set comprising 5 an amplifying valve 1 serving both for high frebodiment of the invention will now be described quency and for low frequency amplification, a rectifier 2 and a low frequency amplifying valve 3.
- a tuned oscillatory circuit constituted by coils L1 and L2, of which the latter is adapted to be short-circuited by means of a switch S for the receipt of short waves, and by condensers C1 and C2 is connected on the one hand to the end, remote from the cathode of the valve l, of a resistance R1 which is shunted by a condenser 03 and on the other hand via a condenser C4 to the control grid of the valve I.
- the direct voltage loss which is brought about in the resistance R1 by the anode direct current of the valve l serves for obtaining a negative control grid bias.
- An antenna A is coupled to the tuned oscillatory circuit via a condenser C5 which if so required is adjustable.
- the valve I is a high frequency pentode the screening grid circuit of which includes a reaction coil L3 and the anode circuit of which includes the series connection of a choke coil L4 and a resistance R2.
- the end of the choke L4 which is connected to the anode of the valve I i is connected via the series connection of a coil L5 and a condenser 06 to the anode of a diode rectifier 2.
- the coils L4 and L5 are inductively coupled to each other.
- a resistance R3 is included between the anode and the cathode of the diode 2 and the anode of the diode is connected via a resistance R5 to the control grid of the valve I.
- the point of connection of the choke coil L4 and the resistance R2 is connected via a condenser C7 to the control grid of a low frequency amplifying valve 3 the grid of which is given via a resistance Re a negative bias relatively to the cathode.
- the output circuit of the valve 3 includes a reproducing device T.
- the low frequency alternating voltage brought about by the first mentioned across the resistance R3 controls the control grid of the valve l across the resistance R5 so that an amplified low frequency alternating voltage occurs across the resistance R2 in the anode circuit and this voltage is supplied after amplification by the amplifier 3 to the reproducing device T.
- the direct voltage which occurs in the resistance R3 and which is dependent on the amplitude of the high frequency alternating voltage impressed upon the diode is supplied to the control grid of the valve I.
- the negative grid bias of the valve 1 increases so that the increased amplification of the circuit arrangement brought about as a result of the intensified retroaction is partly ofiset. It is thus ensured that the adjustment of the reaction coil is less critical and the amplitude of the high frequency oscillations that are generated in the case of excessive retroaction is limited to such a small value that only oscillations of low amplitude Which cannot bring about disturbances in neighbouring receiving sets can occur in the antenna.
- a pentode valve In a circuit arrangement for receiving modulated high frequency electric oscillations in which use is made of a reactively coupled discharge tube serving both for amplifying the modulated high frequency energy and the low frequency oscillations obtained after detection, a pentode valve, an input circuit for the pentode valve connected between the signal grid and the cathode thereof, said input circuit being tunable to the frequency of the desired modulated high frequency oscillations, a source of signal energy coupled to said input circuit, said tunable circuit including an inductance coil, a screen grid circuit for said pentode valve, said last named circuit including an inductance coil, said two induc tance coils being coupled for producing regeneration, a diode rectifier tube, a circuit, including an inductance and a coupling condenser in series, connected between the anode of the pentode valve and the anode of the diode rectifier tube, an anode circuit for the pentode valve including a choke coil and a resistor in series, coupling between the last
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Power Engineering (AREA)
- Amplifiers (AREA)
Description
April 20, 1937. w. D. VAN GOGH RECEIVING CIRCUITS Filed Nbv. 2, 1955 INVENTOR Patented Apr. 20, 1937 UNITED STATES PATENT OFFICE lands, assignor to N.
V. Philips Gloeilampem fabrieken, Eindhoven, Netherlands Application November 2, 1935, Serial No. 47,960
In the Netherlands December 11, 1934 1 Claim.
This invention has reference to a circuit; ar-
! rangement for amplifying modulated high frequency electric oscillations and for amplifying the low-frequencyoscillations obtained after detection of the said oscillations in which the reflex principle is employed and accordingly the same amplifying valve is used for amplifying high and low frequency oscillations.
In the usual circuit arrangements of this kind the control grid of the said amplifying valve has supplied to it the modulated high-frequency oscillations to be amplified and the low frequency alternating current component of the rectified current obtained by the detection of the high fre- 5 quency oscillations.
In order to increase the sensitiveness of such a circuit arrangement it is desirable that the oscillatory circuit, tuned to the oscillations to be amplified, in the control grid circuit of the amplifying valve that serves both for high frequency and low frequency amplification should be negatively damped by means of a retroaction. If, however, this oscillatory circuit is coupled to an antenna, the risk occurs that in the case of ex- 25 cessive retroaction the amplifying valve may generate high frequency oscillations which are radiated by the antenna and thus bring about disturbances in neighbouring receiving sets.
According to the invention, in order to over- 30 come this difliculty the control grid of the discharge tube which serves both for amplifying high frequency and low frequency oscillations has supplied to it not only the low frequency alternating voltage but also a direct voltage depend- 35 ing on the direct current component of the rectified current obtained by the detection of the modulated high frequency oscillations, the supply being effected in such direction that with increasing intensity of the retroaction the steepness of characteristic of the said tube decreases.
A secondary advantage of the circuit arrangement according to the invention is that as a result of the dependency of the steepness of characteristic of the said tube on the direct current 45 component of the rectified oscillations an automatic fading compensation is obtained without the necessity for supplementary means.
In order that the invention may be clearly understood and readily carried into effect one emmore fully with reference to the accompanying drawing.
The single figure of the drawing shows the circuit arrangement of a receiving set comprising 5 an amplifying valve 1 serving both for high frebodiment of the invention will now be described quency and for low frequency amplification, a rectifier 2 and a low frequency amplifying valve 3. A tuned oscillatory circuit constituted by coils L1 and L2, of which the latter is adapted to be short-circuited by means of a switch S for the receipt of short waves, and by condensers C1 and C2 is connected on the one hand to the end, remote from the cathode of the valve l, of a resistance R1 which is shunted by a condenser 03 and on the other hand via a condenser C4 to the control grid of the valve I. The direct voltage loss which is brought about in the resistance R1 by the anode direct current of the valve l serves for obtaining a negative control grid bias. An antenna A is coupled to the tuned oscillatory circuit via a condenser C5 which if so required is adjustable. The valve I is a high frequency pentode the screening grid circuit of which includes a reaction coil L3 and the anode circuit of which includes the series connection of a choke coil L4 and a resistance R2. The end of the choke L4 which is connected to the anode of the valve I i is connected via the series connection of a coil L5 and a condenser 06 to the anode of a diode rectifier 2. The coils L4 and L5 are inductively coupled to each other. A resistance R3 is included between the anode and the cathode of the diode 2 and the anode of the diode is connected via a resistance R5 to the control grid of the valve I. The point of connection of the choke coil L4 and the resistance R2 is connected via a condenser C7 to the control grid of a low frequency amplifying valve 3 the grid of which is given via a resistance Re a negative bias relatively to the cathode. Lastly, the output circuit of the valve 3 includes a reproducing device T.
When the circuit constituted by the condensers C1 and C2 and the coil L1 or the coils L1 and L2, according as the switch S is closed or opened, is tuned to the modulated high frequency oscillations to be received, there is set up between the grid and the cathode of the valve l a high frequency alternating voltage bringing about between the anode and the cathode of the diode 2 an amplified alternating voltage the amplitude of which is regulated by adjustment of the reaction coil L3. This high frequency alternating voltage brings about in the resistance Ra a rectified current containing a low frequency alternating current component and a direct current component. The low frequency alternating voltage brought about by the first mentioned across the resistance R3 controls the control grid of the valve l across the resistance R5 so that an amplified low frequency alternating voltage occurs across the resistance R2 in the anode circuit and this voltage is supplied after amplification by the amplifier 3 to the reproducing device T.
Moreover, the direct voltage which occurs in the resistance R3 and which is dependent on the amplitude of the high frequency alternating voltage impressed upon the diode is supplied to the control grid of the valve I. Thus, it is ensured that with increasing intensity of the retroaction the negative grid bias of the valve 1 increases so that the increased amplification of the circuit arrangement brought about as a result of the intensified retroaction is partly ofiset. It is thus ensured that the adjustment of the reaction coil is less critical and the amplitude of the high frequency oscillations that are generated in the case of excessive retroaction is limited to such a small value that only oscillations of low amplitude Which cannot bring about disturbances in neighbouring receiving sets can occur in the antenna.
As the grid bias of the amplifier valve I is regulated in accordance with the high frequency oscillations supplied to the diode automatic fading compensation is also obtained by means of the circuit arrangement hereinbefore described.
I claim:
In a circuit arrangement for receiving modulated high frequency electric oscillations in which use is made of a reactively coupled discharge tube serving both for amplifying the modulated high frequency energy and the low frequency oscillations obtained after detection, a pentode valve, an input circuit for the pentode valve connected between the signal grid and the cathode thereof, said input circuit being tunable to the frequency of the desired modulated high frequency oscillations, a source of signal energy coupled to said input circuit, said tunable circuit including an inductance coil, a screen grid circuit for said pentode valve, said last named circuit including an inductance coil, said two induc tance coils being coupled for producing regeneration, a diode rectifier tube, a circuit, including an inductance and a coupling condenser in series, connected between the anode of the pentode valve and the anode of the diode rectifier tube, an anode circuit for the pentode valve including a choke coil and a resistor in series, coupling between the last named inductance coil and the choke coil, a resistor connected between the anode and the cathode of the diode rectifier tube, meansincluding a resistor connecting the anode of the diode rectifier tube to the signal grid of the pentode valve whereby rectified energy derived from the output of the diode rectifier tube is impressed upon the input of the pentode valve, an audio frequency amplifier circuit, an input terminal therefor, a connection including a coupling condenser between the input terminal and the end of the choke coil remote from the anode of the pentode valve for feeding audio frequency energy amplified by the pentode valve to the input of the audio frequency amplifier tube, and a utilizing circuit connected to the output of the audio frequency amplifier.
WILLEM DANIEL vim GOGI-I.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NL443191X | 1934-12-11 |
Publications (1)
Publication Number | Publication Date |
---|---|
US2077597A true US2077597A (en) | 1937-04-20 |
Family
ID=19786254
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US47960A Expired - Lifetime US2077597A (en) | 1934-12-11 | 1935-11-02 | Receiving circuits |
Country Status (2)
Country | Link |
---|---|
US (1) | US2077597A (en) |
GB (1) | GB443191A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2597029A (en) * | 1946-09-21 | 1952-05-20 | Int Standard Electric Corp | Superheterodyne radio receiver employing a multifunction tube |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
NL69397C (en) * | 1943-03-03 |
-
1935
- 1935-10-12 GB GB28246/35A patent/GB443191A/en not_active Expired
- 1935-11-02 US US47960A patent/US2077597A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2597029A (en) * | 1946-09-21 | 1952-05-20 | Int Standard Electric Corp | Superheterodyne radio receiver employing a multifunction tube |
Also Published As
Publication number | Publication date |
---|---|
GB443191A (en) | 1936-02-24 |
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