US3538481A

US3538481A - Externally switched variable attenuators

Info

Publication number: US3538481A
Application number: US782313A
Authority: US
Inventors: Maurice M Fernando
Original assignee: Singer Co
Current assignee: Singer Co
Priority date: 1968-12-09
Filing date: 1968-12-09
Publication date: 1970-11-03
Anticipated expiration: 1987-11-03
Also published as: GB1229363A; DE6947201U; DE1961063A1; FR2025677A1

Description

Nov. 3, 1970 M. M. FERNANDO 3,538,431

'EXTERNALLY SWITCHED VARIABLE ATTENUATORS Filed Dec. 9, 1968 V sheet -sheet 1 Fig.l I Q ?1 m g q a gm 7 24 23 2s 22 20 2| I5 3 g l Fug. 3 3| 1 29 INVENIOR.

Maurice M. Fernando WITNESS: w ATTORNEY Nov. 3, 1970 M. M. FERNANDO 3,538,481 j EXTERNALLY SWITCHED VARIABLE'ATTENUATORS Fild Dec. 9, 1968 2 Sheets-Sheet 2 INVENIOR. Mclurlce M. Fernando BY ill-"Zi za TORNEY United States Patent 3,538,481 EXTERNALLY SWITCHED VARIABLE ATTENUATORS Maurice M. Fernando, New Haven, Conn., assignor to The Singer Company, New York, N.Y., a corporation of New Jersey Filed Dec. 9, 1968, Ser. No. 782,313 Int. Cl. H01c N15 US. Cl. 338201 3 Claims ABSTRACT OF THE DISCLOSURE An externally switched variable attenuator having low residual reactance for A.C. frequencies up to 1 mHz. is disclosed. An electrically-conductive cast housing is split along a transverse plane to form a base and a removable cover which, when assembled, provide a plurality of independent parallel-spaced internal cylindrical cavities. A pair of internal parallel ducts are positioned transversely of said cavities, one duct at each of the collective common ends of said cavities and intersect said cavities for communication therewith. A continuous rigid conducting bus is supported in each duct and insulated from the housing. A resistor and a reed switch connected in series circuit relation are supported in axially spaced relation and coaxially within each cavity by rigid conductors secured to each of said busses. A cylindrical winding is associated with each reed switch for magnetic actuation thereof. Each winding is secured in spaced coaxial relation with each reed switch by an insulated coil form which is held clamped within an enlarged end portion of each cavity.

BACKGROUND OF THE INVENTION High accuracy AC-DC standards must be rigidly constructed to maintain reproduceable differences. They consist of a non-reactive attenuator and a thermoelement which senses the heating effect of a current and which has only a small difference in output characteristics between DC and AC inputs. To provide a practical range of voltage inputs, the attenuator must be variable so that the thermoelement is always operated near to its rated current for best accuracy.

Prior art variable attenuators have been proposed which require the mechanical insertion of different resistors in the circuit but these require rather complex mechanisms and disturb the desired fixed geometry of the circuit. Microswitches have been used to effect remote switching of resistors but they require mechanical push rod actuators having mass motion near to the circuit to be controlled and thus may adversely affect its AC vs. DC response. Ideally then, the attenuator of this invention should have zero-motion switching when changing values. The use in this invention of magnetically operated reed switches with spaced actuator windings comes very close to the ideal in this respect and, when combined with fixed and rigid coaxial geometry of the circuit relative to ground, reduce errors due to residual re-actance to a minimum over a wide AC frequency band.

It is, therefore, an object of this invention to provide a low-voltage variable attenuator which is not sensitive to AC frequency.

It is a further object of this invention to provide a variable attenuator having the above desirable characteristics and which may be readily controlled from a remote point and without adversely affecting the circuit by the controlling means.

It is a still further object of this invention to provide a variable attenuator of the above type which is capable of being housed within a portable instrument.

Other objects and features of the invention will become apparent to those skilled in the art as the disclosure is made in the following detailed description of a preferred embodiment of the invention as illustrated in the accompanying drawings in which:

FIG. 1 is an isometric view of a preferred embodiment of the variable attenuator of the subject invention.

FIG. 2 is a plan view of the attenuator with the cover partially broken away to reveal the interior.

FIG. 3 is a transverse sectional view of the attenuator taken on line 3-3 of FIG. 2.

FIG. 4 is a longitudinal sectional view of the attenuator taken substantially on line 44 on FIG. 2.

DESCRIPTION OF THE INVENTION Referring now to the drawings, a housing 10 preferably made of cast aluminum is split along a horizontal transverse plane to form a base 11 and a removable cover 12. Matching

semicylindrical depressions

13 and 14 in the base and cover, respectively, form, when the parts are assembled, a plurality of independent internal parallelspaced cylindrical cavities one of which is shown in section in FIG. 3.

The housing 10 provides a mechanical shield for the attenuator so that the rigid geometry of the circuit will not be disturbed. It also provides an electrical shield against the adverse influence of extraneous electrical fields with the attenuator circuit contained within.

The dividing walls between the cavities are cut away at each end thereof provide transverse

internal ducts

15 and 16 which extend to the full length of the housing and interconnect with the cavities at the collective ends thereof as best seen in FIG. 1.

Rigid busses

17 and 18 are supported centrally of the

respective ducts

15 and 16 on stand-off insulators 19 secured to the base 11 as shown in FIG. 3.

Located in each cavity is a metal film resistor 20 having

loads

21 and 22, and a magnetic reed switch 23 having leads 24 and 25. Lead 21 is connected to bus 18 by any suitable means, such as soldering, and lead 24 is similarly connected to bus 17.

Leads

22 and 25 are connected together so that the resistor 20 and the reed switch 23 are supported in spaced relation and substantially coaxially of the cavity as shown and solely by the electrical connections described above.

As shown best in FIG. 3, an insulated coil form 26 of the flanged bobbin type is held in clamped position between the base 11 and cover 12 within an enlargement of the cavity formed by

depressions

13 and 14. A cylindrical winding 27 wound on the form 26 is spaced preferably in coaxial relation with the reed switch 23. Leads 28 from the winding 27 are brought out through suitable apertures 29 in the base 11 for connection to an external switching circuit (not shown). A cylindrical conducting shield 30 may be placed in the coil form 26 between the winding 27 and the reed switch 23 and grounded to the base 11 at screw 31 to stabilize the distributed capacitance.

It will be seen that, by suitably energizing the various windings 27, the reed switches 23 associated therewith may be selectively closed to insert any one or combination of resistors 20 in parallel relation between the

busses

17 and 18 to control the attenuation furnished thereby.

The bus 17 extends through an aperture 32 in the housing 10 where it may be electrically connected through a microswitch 33 to the center conductor 34 of a coaxial connector 35 of conventional type which serves as the input connector.

A thermoelement 36 may be housed in a separate thermally lagged compartment 37 secured to the housing 10 and connection made to the input heater terminal 38 by means of a lead 39 extending through an aperture 40 in the housing 10 and connected to bus 18 as clearly shown in FIG. 2.

Although the thermoelement 36 is conventional and forms no part of this invention, it is shown in relation to the attenuator of this invention to illustrate a typical environment, in which the attenuator is used.

In addition to the apertures 29 for the leads 28, apertures 41 may be provided for each cavity in the cover 12 and opposed to the apertures 29 in the base 11 to provide suitable independent ventilation for each of the windings 27.

The large thermal mass of the housing 10 provides a substantially constant temperature environment for the attenuator in normal use and the independently supported and spaced relation between the ventilated windings 27 and the reed switches 23 provide good thermal isolation preventing any sudden changes in the environment temperature of the resistors 20.

It will be understood that, in ordinary ACDC transfer measurements, both the AC and DC voltages are measured under substantially identical conditions so that the absolute values of the resistors 20 are of no significance so long as they are the same for both AC and DC functions of the same transfer operation.

The parallel array of the cavities combined with the rigid coaxial spacing of the circuit elements and switching means therefor, in accordance with the teachings of this invention, provide a compact, thermally stable attenuator of low residual reactance especially suitable for the use in making precise ACDC transfer measurements over a range of AC voltages from 0 to 32 and a frequencies up to l rnHz.

In this attenuator, successively lower ranges are obtained by switching additional sections in parallel. This has the advantages of eliminating (from the lowest ranges which are most sensitive to reactive effects) the adverse effect of the shunt capacitances introduced through the open contacts on the higher ranges, were a single section used for each range.

Having thus set forth the nature of this invention what is claimed herein is:

1. A variable attenuator comprising: an electrically conductive housing split along a transverse plane to form a base and a cover which, when assembled, form a plurality of independent internal parallel-spaced cylindrical' cavities, a pair of internal parallel ducts positioned transversely to said cavities, one at each of the collective common ends of said cavities and communicating therewith, a continuous conducting bust supported in each duct and insulated from the housing, a resistor and a reed switch connected in series circuit relation and supported in coaxially spaced relation within each cavity by rigid conductors secured to said busses, a cylindrical winding associated with each reed switch for magnetic actuation thereof, and means supporting said winding in each of said cavities in spaced relation to the associated reed switch.

2. A variable attenuator according to claim 1, wherein the means supporting said winding is an insulated flanged bobbin held in clamped position between the base and the cover in each of said cavities.

3. A variable attenuator according to claim 2 wherein opposed apertures formed in the base and in the cover form independent means for ventilating each winding.

References Cited UNITED STATES PATENTS 5/1952 Freeman 333-8l 6/1965 Bostick 33381 U.S. Cl. X.R. 333-81; 335-452