US2402540A - Electrical apparatus adapted to operate at very high frequencies - Google Patents

Electrical apparatus adapted to operate at very high frequencies Download PDF

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Publication number
US2402540A
US2402540A US450348A US45034842A US2402540A US 2402540 A US2402540 A US 2402540A US 450348 A US450348 A US 450348A US 45034842 A US45034842 A US 45034842A US 2402540 A US2402540 A US 2402540A
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lines
concentric
line
operate
impedance
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US450348A
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Espley Dennis Clark
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General Electric Co PLC
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General Electric Co PLC
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01PWAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
    • H01P7/00Resonators of the waveguide type
    • H01P7/04Coaxial resonators
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01PWAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
    • H01P1/00Auxiliary devices
    • H01P1/06Movable joints, e.g. rotating joints
    • H01P1/062Movable joints, e.g. rotating joints the relative movement being a rotation
    • H01P1/066Movable joints, e.g. rotating joints the relative movement being a rotation with an unlimited angle of rotation
    • H01P1/067Movable joints, e.g. rotating joints the relative movement being a rotation with an unlimited angle of rotation the energy being transmitted in only one line located on the axis of rotation
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01PWAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
    • H01P1/00Auxiliary devices
    • H01P1/20Frequency-selective devices, e.g. filters
    • H01P1/201Filters for transverse electromagnetic waves
    • H01P1/202Coaxial filters

Definitions

  • the object of this invention is to provide a suitableform of connection.
  • Figure 1 shows a concentric line with outer conductor I and inner conductor 2, these conductors being joined at a closed end, but not connected at the open end; the length of the line, is M4, where A denotes the wavelength corre-' sponding to a frequency at which the apparatus is adapted to operate.
  • Near the closed end there enters a side concentric'line with outer conductor 3 and inner conductor 4, connected respectively to the outer and inner conductors I and 2.
  • this arrangement is equivalent in many respects to one half of the band-pass filter section shown in Figure 2, consisting of an inductor 5 tuned by a condenser 8, oscillations having the frequency to which the combination is tuned being injected by the leads 'I and 8 both near one end of the inductance. It is further known that if leads 'I' and 8' are connected correspondingly to the other half of the section,
  • One of the said lines to be connected leads to a directional aerial and the other to an oscillator (or receiver) from (or to) which oscillations pass to (or from) the aerial.
  • an oscillator or receiver
  • the same apparatus may be used for both receiving and transmitting.
  • the concentric lines should have a closed end near the entry of the side line or that its length should be M4.
  • the necessary and sufficient condition is that the side line should enter near a voltage node and that y the distance from this voltage node to the open end presented to the open end of the other concentric line should be 21 M4, where p is an odd integer.
  • the position of the voltage node in Figure 1 would be unchanged, and consequently the operation of the arrangement, if the closed end of a line I, 2 or I, 2' were replaced by a line open at each end and of length p M4, where P is an odd integer.
  • the said impedance may be reduced by longitudinally overlapping the ends of the members of the lines as shown in Figure 4, where a sleeve l2 connected to the member 2 surrounds the free end of the member 2, and a flange I on the member I is partly enclosed in a channel-sectionring l3 on the member I. I! there were no limit to the reduction that could be ef-. fected by such means, the problem to whichthe invention relates would not arise; it is to be assumed therefore that a limit is imposed.
  • the reactance in question may be regarded as the sum of two reactances in series, namely that between the inner members of the lines and that between the outer members of the lines.
  • the limit is likely to arise from the former rather than the latter; thus a limit is imposed on the width of the flange that can be attached to the inner member by the internal diameter of the outer member; but no limit may be imposed on a flange attached to the outer member.
  • a pair 01 flanges l4 and I4 attached to the outer members constitute a resonator which may have zero input impedance, so that the second of the two said reactances is abolished.
  • the input impedance imparted to them is an inductive reactance and partially neutralises the capacitative reactance between the. inner members.
  • the input impedance to this resonator is negative, zero or positive according as the dimension 1 is respectively between M4 and 0, equal to M4, or between M4 and M2. All such methods of reducing the impedance between the lines may be adopted in apparatus according to the invention so long as the condition is rulfilled that the resultant impedance between the two lines is substantially a' pure capacitative reactance large compared with the input impedance of either side line.
  • the said pair of concentric lines are c0- axially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large compared with the input impedance to either side line.
  • Electrical apparatus 'of the type specified comprising a pair of concentric lines each of which is M4 long, where a denotes the wavelength corresponding to a frequency at which the apparatus is adapted to operate, and each of which has one end open and the other end closed,
  • each said concentric line is fed by a side line entering near said closed end, and wherein the said pair of concentric lines are co-axially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large compared with the input impedance to either side line.
  • the said entry is near a voltage node whose distance from the said open end is pli/4, where p is an odd integer.
  • the said pair of concentric lines are coaxially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large compared with the input impedance to either side line, and wherein the capacity between a member or one of said concentric lines and a member of the other 0! said concentric lines is increased, as compared with the capacity between the bare ends of said members, by the attachment of said ends of portions which overlap each other.
  • Electrical apparatus of the type specified comprising a pair 01' concentric lines, wherein each said concentric line is fed by a side line, wherein the distance 0! the entry of each said side line from an open end of the associated concentric line is so adjusted that at some frequency at which the apparatus is adapted to operate, corersponding to a wavelength A, the said entry is near a voltage node whose distance from the said open end is pA/i, where p is an odd integer, wherein the said pair of concentric lines are coaxially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large a line associated with said aerial.
  • a coupling in said line for permitting rotation of said aerial relative to other elements of the apparatus said coupling including two co-axially disposed concentric lines having open ends tacing one another, wherein said concentric lines are fed respectively by two side lines entering said concentric lines in the neighbourhood of voltage nodes at a distance from said open ends equal to zit/4, where 1) denotes an odd integer and A the wavelength corresponding to the said irequenoy, the impedance between said open ends being substantially a pure capacitative reactance large compared with the inputimpedance to I either of said side lines,

Description

Patented June 25, 1946 ELEo'rRIcAL APPARATUS AnArrEn 'ro OPERATE AT VERY HIGH FREQUENCIES Dennis Clark Espley, North Wembley, England, assignor to The General Electric Company Limited, London, England Application July 9, 1942, Serial No. 450,348
In Great Britain August 26, 1941 'This invention relatesto electrical apparatus of the type adapted to operate at frequencies so high that the dimensions 01 the apparatus are greater than or not very much less than the wavelength corresponding to thefrequency of operation, and especially to such apparatus adapted to transmit or receive or both transmit and receive wavelengths between 50 and 1 cm.
It is sometimes desirable that the direction to which the apparatus emits radiation, or from which it receives radiation, should be easily variable; it may then be desirable that one part of the apparatus should be rotatable relatively to another part with which it is in electrical connection. Connection through slip rings'or other rubbing contacts is undesirable at these high frequencies: the object of this invention is to provide a suitableform of connection. I
, The invention depends upon a principle which will now be explained with reference to the acfications of the arrangement shown in Figure 1.
Figure 1 shows a concentric line with outer conductor I and inner conductor 2, these conductors being joined at a closed end, but not connected at the open end; the length of the line, is M4, where A denotes the wavelength corre-' sponding to a frequency at which the apparatus is adapted to operate. Near the closed end there enters a side concentric'line with outer conductor 3 and inner conductor 4, connected respectively to the outer and inner conductors I and 2. It is known that this arrangement is equivalent in many respects to one half of the band-pass filter section shown in Figure 2, consisting of an inductor 5 tuned by a condenser 8, oscillations having the frequency to which the combination is tuned being injected by the leads 'I and 8 both near one end of the inductance. It is further known that if leads 'I' and 8' are connected correspondingly to the other half of the section,
fSClaims. (01.17844) and strictly sinusoidal voltages applied to them,
the transmission loss between 'I, c and 'I', 8' would be zero, however small the capacity of the condenser 9.
. Suppose then that a system I, 2', 3', 4' similar to I, 2, 3, 4 in Figure 1 is placed with its open end opposite to that of I, 2, 3, .4. The arrangement is then analogous to that of Figure 2, the capacities between the conductors I, I and 2, 2' playing the same part as the condenser 9. Ac-
cordingly, thoughthe'systems I, 2, 3, 4, l', 2', 3', 4
are arranged with their open 'ends facing each other so that they are rotatable relatively to each other about their common axis. One of the said lines to be connected leads to a directional aerial and the other to an oscillator (or receiver) from (or to) which oscillations pass to (or from) the aerial. Of course the same apparatus may be used for both receiving and transmitting.
It is not necessary that the concentric lines should have a closed end near the entry of the side line or that its length should be M4. The necessary and sufficient condition is that the side line should enter near a voltage node and that y the distance from this voltage node to the open end presented to the open end of the other concentric line should be 21 M4, where p is an odd integer. Thus the position of the voltage node in Figure 1 would be unchanged, and consequently the operation of the arrangement, if the closed end of a line I, 2 or I, 2' were replaced by a line open at each end and of length p M4, where P is an odd integer. I
Again the side lines need not make metallic connection with the main lines; thenecessary coupling may be made in known manner by a magnetic loop. 7
It will be observed that the principle of the invention, heretofore explained with reference to Figure 2 and underlying the invention, depends on the fact that the impedance between the open I ends of lines I, 2, I, 2' in Figure 1 is a pure capacitative reactance large compared with the input impedance of a side line. Inprinciple there.
deed, it ideal filter sections could be constructed so is no upper limit to the magnitude of this im-.
- III, III- -and II, II' facing each other. Alternatively the said impedance may be reduced by longitudinally overlapping the ends of the members of the lines as shown in Figure 4, where a sleeve l2 connected to the member 2 surrounds the free end of the member 2, and a flange I on the member I is partly enclosed in a channel-sectionring l3 on the member I. I! there were no limit to the reduction that could be ef-. fected by such means, the problem to whichthe invention relates would not arise; it is to be assumed therefore that a limit is imposed.
Now the reactance in question may be regarded as the sum of two reactances in series, namely that between the inner members of the lines and that between the outer members of the lines. The limit is likely to arise from the former rather than the latter; thus a limit is imposed on the width of the flange that can be attached to the inner member by the internal diameter of the outer member; but no limit may be imposed on a flange attached to the outer member. Thus, as shown in Figure 5, a pair 01 flanges l4 and I4 attached to the outer members constitute a resonator which may have zero input impedance, so that the second of the two said reactances is abolished. It is even possible to adjust these flanges so that the input impedance imparted to them is an inductive reactance and partially neutralises the capacitative reactance between the. inner members. The input impedance to this resonator is negative, zero or positive according as the dimension 1 is respectively between M4 and 0, equal to M4, or between M4 and M2. All such methods of reducing the impedance between the lines may be adopted in apparatus according to the invention so long as the condition is rulfilled that the resultant impedance between the two lines is substantially a' pure capacitative reactance large compared with the input impedance of either side line.
In view of the specification of my patent application Serial NO. 397,016, filed June '7, 1941,
it is desirable to point out that the principle there described for reducing to zero the impedance between corresponding members of a pair of relatively rotating coaxial lines may be applicable to the outer members when it is not applicable to the inner members. For since the characteristic impedance of a concentric line depends on the ratio between the diameters of the members, a clearance permissible between a pair of outer members forming a concentric line would 7 often not be permissible between a pair of inner members.
Finally it is to be observed that it is generally desirable, if other considerations permit. to fiil the space between the pair 01 concentric lines (together probably with the interior or the lines) with a dielectric liquid of high dielectric strength.
For thereby the minimum clearances permissible are reduced, and the capacity corresponding to line from an open end of the associated concentric open end is p M4, where p is an odd integer. and
wherein the said pair of concentric lines are c0- axially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large compared with the input impedance to either side line.
2. Electrical apparatus 'of the type specified comprising a pair of concentric lines each of which is M4 long, where a denotes the wavelength corresponding to a frequency at which the apparatus is adapted to operate, and each of which has one end open and the other end closed,
wherein each said concentric line is fed by a side line entering near said closed end, and wherein the said pair of concentric lines are co-axially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large compared with the input impedance to either side line.
3. Electrical apparatus of the type specified comprising a pair of concentric lines, wherein each said concentric line is fed by a side line, wherein the distance of the entry of each said side line from an open end of the associated concentric line is so adjusted that at some frequency at which the apparatus is adapted to operate,
corresponding to a wavelength A; the said entry is near a voltage node whose distance from the said open end is pli/4, where p is an odd integer. wherein the said pair of concentric lines are coaxially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large compared with the input impedance to either side line, and wherein the capacity between a member or one of said concentric lines and a member of the other 0! said concentric lines is increased, as compared with the capacity between the bare ends of said members, by the attachment of said ends of portions which overlap each other.
4. Apparatus as claimed in claim 3, wherein said portions that are attached to the ends of said members of the concentric lines overlap each other in directions transverse to the common axis of said concentric lines.
5. Apparatus as claimed in claim 3, wherein said portions that are attached to the ends of said members 0,! the concentric lines overlap each other in directions parallel to the common axis 01' said concentric lines.
6. Electrical apparatus of the type specified comprising a pair 01' concentric lines, wherein each said concentric line is fed by a side line, wherein the distance 0! the entry of each said side line from an open end of the associated concentric line is so adjusted that at some frequency at which the apparatus is adapted to operate, corersponding to a wavelength A, the said entry is near a voltage node whose distance from the said open end is pA/i, where p is an odd integer, wherein the said pair of concentric lines are coaxially arranged in such a manner that they are rotatable relatively to each other about their common axis and that the impedance between their said open ends which face one another is substantially a pure capacitative reactance large a line associated with said aerial. the provision of a coupling in said line for permitting rotation of said aerial relative to other elements of the apparatus, said coupling including two co-axially disposed concentric lines having open ends tacing one another, wherein said concentric lines are fed respectively by two side lines entering said concentric lines in the neighbourhood of voltage nodes at a distance from said open ends equal to zit/4, where 1) denotes an odd integer and A the wavelength corresponding to the said irequenoy, the impedance between said open ends being substantially a pure capacitative reactance large compared with the inputimpedance to I either of said side lines,
DENNIS CLARK ESPLEY.
US450348A 1941-08-26 1942-07-09 Electrical apparatus adapted to operate at very high frequencies Expired - Lifetime US2402540A (en)

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GB10860/41A GB578911A (en) 1941-08-26 1941-08-26 Improvements in electrical apparatus adapted to operate at very high frequencies

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Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2476621A (en) * 1942-11-06 1949-07-19 Westinghouse Electric Corp Cavity joint
US2490622A (en) * 1941-01-15 1949-12-06 Emi Ltd High-frequency transmission line or cable and connector therefor
US2494691A (en) * 1942-09-01 1950-01-17 Emi Ltd Electric wave guide
US2513067A (en) * 1944-04-28 1950-06-27 Philco Corp Device for interconnecting wave guides
US2523320A (en) * 1942-06-18 1950-09-26 Sperry Corp Compact ultra high frequency energy-confining rotating joint
US2602118A (en) * 1945-08-08 1952-07-01 Robert J Adams Capacitive rotatable coupler
US2606967A (en) * 1944-05-18 1952-08-12 Emi Ltd Coupling of electric waveguides
US2638504A (en) * 1943-06-11 1953-05-12 Emi Ltd High-frequency electrical device having gastight envelopes
US2859417A (en) * 1952-05-08 1958-11-04 Itt Microwave filters
US3142808A (en) * 1960-12-29 1964-07-28 Ibm Transmission line filter having coupling extending quarter wave length between strip line resonators
DE1221311B (en) * 1959-08-14 1966-07-21 Fuba Antennenwerke Band filter between two push-pull tube stages
US3538463A (en) * 1966-11-22 1970-11-03 Arf Products Microwave filter
US3980976A (en) * 1974-03-28 1976-09-14 Sony Corporation Coaxial connector
FR2371787A1 (en) * 1976-11-23 1978-06-16 Spinner Gmbh Elektrotech CONTACTLESS ROTATING CONNECTION FOR HIGH FREQUENCY ENERGY TRANSMISSION
FR2643749A1 (en) * 1989-02-23 1990-08-31 Dx Antenna DEVICE FOR COUPLING A HIGH FREQUENCY COAXIAL LINE

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2538612B1 (en) * 1982-12-23 1985-10-04 Thomson Csf RESONANT COAXIAL CAVITIES FOR GRILLE TUBES
US4736173A (en) * 1983-06-30 1988-04-05 Hughes Aircraft Company Thermally-compensated microwave resonator utilizing current-null segmentation
EP0155296B1 (en) * 1983-06-30 1990-03-07 Hughes Aircraft Company Thermally-compensated microwave resonator utilizing variable current-null segmentation
FR2576456B1 (en) * 1985-01-22 1987-02-06 Cgr Mev HIGH FREQUENCY WAVE GENERATOR

Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2490622A (en) * 1941-01-15 1949-12-06 Emi Ltd High-frequency transmission line or cable and connector therefor
US2523320A (en) * 1942-06-18 1950-09-26 Sperry Corp Compact ultra high frequency energy-confining rotating joint
US2494691A (en) * 1942-09-01 1950-01-17 Emi Ltd Electric wave guide
US2476621A (en) * 1942-11-06 1949-07-19 Westinghouse Electric Corp Cavity joint
US2638504A (en) * 1943-06-11 1953-05-12 Emi Ltd High-frequency electrical device having gastight envelopes
US2513067A (en) * 1944-04-28 1950-06-27 Philco Corp Device for interconnecting wave guides
US2606967A (en) * 1944-05-18 1952-08-12 Emi Ltd Coupling of electric waveguides
US2602118A (en) * 1945-08-08 1952-07-01 Robert J Adams Capacitive rotatable coupler
US2859417A (en) * 1952-05-08 1958-11-04 Itt Microwave filters
DE1221311B (en) * 1959-08-14 1966-07-21 Fuba Antennenwerke Band filter between two push-pull tube stages
US3142808A (en) * 1960-12-29 1964-07-28 Ibm Transmission line filter having coupling extending quarter wave length between strip line resonators
US3538463A (en) * 1966-11-22 1970-11-03 Arf Products Microwave filter
US3980976A (en) * 1974-03-28 1976-09-14 Sony Corporation Coaxial connector
FR2371787A1 (en) * 1976-11-23 1978-06-16 Spinner Gmbh Elektrotech CONTACTLESS ROTATING CONNECTION FOR HIGH FREQUENCY ENERGY TRANSMISSION
FR2643749A1 (en) * 1989-02-23 1990-08-31 Dx Antenna DEVICE FOR COUPLING A HIGH FREQUENCY COAXIAL LINE

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