US1889379A - Method of making an electrical resistance element - Google Patents

Method of making an electrical resistance element Download PDF

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US1889379A
US1889379A US526894A US52689431A US1889379A US 1889379 A US1889379 A US 1889379A US 526894 A US526894 A US 526894A US 52689431 A US52689431 A US 52689431A US 1889379 A US1889379 A US 1889379A
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resistance
cuprous oxide
making
sulphur
solution
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US526894A
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Ruben Samuel
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01CRESISTORS
    • H01C7/00Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material

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  • This invention relates to a method of making an electrical resistance element. It is an improvement upon the devices and methods described in my prior and co-pending appli- 5 cations 486,698, filed October 6, 1930, and 513,083, filed February 3, 1931.
  • the object of this invention is the provision of a resistance element capable of withstanding overloading and adapted to commercial production according to definite values at low cost.
  • my invention consists of a method of making a resistance element composed of a vitreous mass of cuprous oxide as a base, preferably a ribbed plate, the surface of which is converted into a more conductive copper compound, such as ,cupric sulphide, with the terminal surface areas re-converted into copper as a surface layer.
  • a resistance element composed of a vitreous mass of cuprous oxide as a base, preferably a ribbed plate, the surface of which is converted into a more conductive copper compound, such as ,cupric sulphide, with the terminal surface areas re-converted into copper as a surface layer.
  • the low resistance or cupric sulphide layer is of uniform thickness; but if the unit is to be employed to yield varying resistances by the movement of a contact along the surface, the layer may be of increasing depth.
  • cupric sulphide and cupric selenide have temperature resistance coeicients of negligible value.
  • a material is employed to advantage in preparing the unit according to the following method:
  • the plate or base is preferably made by heating a copper body to about 1030 C. until completely converted into cuprous oxide, and cleansed in a solution of hydrochloric and nitric acids to remove any cupric oxide or other extraneous coating.
  • the plate is thenpreferably, though not necessarily, dipped into a two per cent. solution of phosphoric acid to present a very thin surface layer of copper, thereby reducing the surface resistance of the element.
  • the heating is discontinued and the unit cleansed to remove any uncombined or exce sulphur, this being essential to prevent further reaction and reduction of resistance in operation.
  • the resistance reading is substantially the same when the unit is cooled.
  • the change of resistance values is radical, the degree depending upon the thickness of the layer so converted. For instance, the resistance of a unit ma be brought in this Way from 50,000 ohms to 1 5 ohm.
  • variable resistance unit various areas or sections of the element may he exposed to increasing temperatures over periods of different lengths, or with varying densities of sulphur on the surface.
  • an agent which suitably reacts with the cuprous oxide and cupric sulphide should be applied thereto to yield a surface of copper metal.
  • One method by which this 1s accomplished is by so applying a solution 75 of zinc dust in sodium hydroxide. In this way any desired degree of thickness of copper metal is quickly obtained.
  • Fig. 1 is a perspective view of a. resistance element
  • Fig. 2 a sectional view of the element at 2 2, as a variable resistance
  • Fig. 3 a like sectional view of a fixed resistance element.
  • FIG. 1 represents a resistance element of cuprous oxide base having a rib 2, and two contact areas of copper, 3.
  • the sulphide layer is represented by 4, increasing in thick- 1 y ness along the length in Figf2, a movable contact being at 5.
  • the layer 4 is of uniform thickness in Fig. 3.
  • a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the velement a solution of phosphoric acid,coating the surface with sulphur and converting a portion of the cuprous oxide element into cupric sulphide by heat, and cooling said element when a predetermined resistance value is reached.
  • a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the element a solution adapted to reconvert cuprous oxide into copper metal, coating the surface with sulphur and converting a portion of the cuprous oxide element into cupric sulphide by heat, cooling said element when a predetermined resistance value of the element is reached, and reconverting a portion of the surface of said element into copper met-al.
  • a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the element a solution of phosphoric acid, coating the surface with sulphur by immersing said element in a solution of free sulphur in carbon bi-sulphide, converting a portion of the cuprous oxide element into cupric sulphide by heat, cooling said element when a predetermined resistance value of the element is reached, and reconverting a portion of the surface of said element into copper metal.

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  • Engineering & Computer Science (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Apparatuses And Processes For Manufacturing Resistors (AREA)

Description

Nov. 29, 1932. s. RUBEN 1,889,379
METHOD oF MAKING AN ELECTRICAL RESISTANCE ELEMENT Filed April 1, 19:51
FIC-3.1.
INVENTOR SAMUEL RUBEN BY HIS ArroRNEY @4f/44M Patented Nov. 29,V 1932 UNITED STATES PATENT OFFICE BAIUEL RUBEN, l' NEW ROCHELLE, NEW YORK m01) 0l' KING AN ELECTRICAL RESISTANCE Application illed April 1,
This invention relates to a method of making an electrical resistance element. It is an improvement upon the devices and methods described in my prior and co-pending appli- 5 cations 486,698, filed October 6, 1930, and 513,083, filed February 3, 1931. The object of this invention is the provision of a resistance element capable of withstanding overloading and adapted to commercial production according to definite values at low cost.
Broadly, my invention consists of a method of making a resistance element composed of a vitreous mass of cuprous oxide as a base, preferably a ribbed plate, the surface of which is converted into a more conductive copper compound, such as ,cupric sulphide, with the terminal surface areas re-converted into copper as a surface layer. For fixed resistances the low resistance or cupric sulphide layer is of uniform thickness; but if the unit is to be employed to yield varying resistances by the movement of a contact along the surface, the layer may be of increasing depth.
I have found that cupric sulphide and cupric selenide have temperature resistance coeicients of negligible value. Such a material is employed to advantage in preparing the unit according to the following method: The plate or base is preferably made by heating a copper body to about 1030 C. until completely converted into cuprous oxide, and cleansed in a solution of hydrochloric and nitric acids to remove any cupric oxide or other extraneous coating. The plate is thenpreferably, though not necessarily, dipped into a two per cent. solution of phosphoric acid to present a very thin surface layer of copper, thereby reducing the surface resistance of the element. after which it is coated with a layer of dry sulphur or coated With sulphur by immersion in a solution of carbon bi-sulphide or potassium sulphide containing free sulphur. When the unit is coated with sulphur directly or after immersion, it is heated, as by the discharge of current, the reaction between the sulphur and the cuprous oxide base yielding the more conductive cupric sulphide layer, until the desired resistance is attained as indicated by a meterI in an duction,
1931. Serial No. 526,894.
electric circuit with the element. When the proper resistance value has been reached,the heating is discontinued and the unit cleansed to remove any uncombined or exce sulphur, this being essential to prevent further reaction and reduction of resistance in operation. Because of the negligible temperature resistance co-eficient of cupric sulphide, the resistance reading is substantially the same when the unit is cooled. By so convertingV the cu- 0 prous oxide surface, the change of resistance values is radical, the degree depending upon the thickness of the layer so converted. For instance, the resistance of a unit ma be brought in this Way from 50,000 ohms to 1 5 ohm. To obtain a variable resistance unit, various areas or sections of the element may he exposed to increasing temperatures over periods of different lengths, or with varying densities of sulphur on the surface. For terminal 7 contact areas an agent which suitably reacts with the cuprous oxide and cupric sulphide should be applied thereto to yield a surface of copper metal. One method by which this 1s accomplished is by so applying a solution 75 of zinc dust in sodium hydroxide. In this way any desired degree of thickness of copper metal is quickly obtained.
While the sulphiding of the cuprous oxide is desirable because of the resulting stability a of resistance values and the low cost of prothe cuprous oxide surface may be selenided to yield the lower resistance. For such application the unit is immersed in a solution of selenium in carbon disulphide, or in potassium selenide, the treatment of the unit thereafter being the same as that described above. Reference is made to the accompanying drawing of an embodiment of the invent-ion in which Fig. 1 is a perspective view of a. resistance element, Fig. 2 a sectional view of the element at 2 2, as a variable resistance and Fig. 3 a like sectional view of a fixed resistance element.
Referring more particularly to the drawing 1 represents a resistance element of cuprous oxide base having a rib 2, and two contact areas of copper, 3. The sulphide layer is represented by 4, increasing in thick- 1 y ness along the length in Figf2, a movable contact being at 5. The layer 4 is of uniform thickness in Fig. 3.
What I claim is:
1. The method of making a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the velement a solution of phosphoric acid,coating the surface with sulphur and converting a portion of the cuprous oxide element into cupric sulphide by heat, and cooling said element when a predetermined resistance value is reached.
2. The method 'of making a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, .applying to the element a solution of phosphoric acid, coating the surface with sulphur and converting a'portion of the cuprous oxide element into cupric sulphidel by heat,
cooling said element when a predetermined resistance value is reached, and reconverting a portion of the surface of said element into copper metal.
3. The method of making a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a. vitreous mass of cuprous oxide, applying to the element a solution of phosphoric acid, coating the surface with sulphur and converting a portion of the cuprous oxide body into cupric sulphide by heat, cooling saidelement when a predetermined resistance value of the element is reached and reconverting a portion of the surface of the element into copper metal by contact with a solution of so dium hydroxide and zinc.
4. Themethod of making a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the element a solution adapted to recouvert cuprous oxide into copper metal, coating the surface with sulphur and converting a portion of the cuprous oxide element into cupric sulphide by heat and cooling said body when a. predetermined resistance value of the element is reached.
5. The method of making a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the element a solution adapted to reconvert cuprous oxide into copper metal, coating the surface with sulphur and converting a portion of the cuprous oxide element into cupric sulphide by heat, cooling said element when a predetermined resistance value of the element is reached, and reconverting a portion of the surface of said element into copper met-al.
6. The method of making a resistance element which consists in heating a copper body in anoxidizing atmosphere until it is con verted into a vitreous mass of cuprous oxide, applying to the element a solution adapted to recouvert the cuprous oxide into copper metal, coating the surface' with sulphur and' verted into a vitreous mass of cuprous oxide,
applying to the element a solution of phoshoric acid, coating the surface with sulphur y immersing said body in a solution of free sulphur in carbon bi-sulphide, converting a portion of the cuprous oxide element into cupric sulphide by heat, and cooling said element when a predetermined resistance value of the element is reached.
8. The method of making a resistance element which consists in heating a copper body in an oxidizing atmosphere until it is converted into a vitreous mass of cuprous oxide, applying to the element a solution of phosphoric acid, coating the surface with sulphur by immersing said element in a solution of free sulphur in carbon bi-sulphide, converting a portion of the cuprous oxide element into cupric sulphide by heat, cooling said element when a predetermined resistance value of the element is reached, and reconverting a portion of the surface of said element into copper metal.
Signed at New York in the county of New York and Sta-te of New York this 25th day of March A. D. 1931.
, SAMUEL RUBEN.
US526894A 1931-04-01 1931-04-01 Method of making an electrical resistance element Expired - Lifetime US1889379A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3146125A (en) * 1960-05-31 1964-08-25 Day Company Method of making printed circuits
US3239789A (en) * 1962-07-02 1966-03-08 Ace Electronics Associates Inc Molded conductive plastic resistor and method of making same
US3239788A (en) * 1959-05-20 1966-03-08 Ace Electronics Associates Inc Molded conductive plastic resistor and method of making same
US3432922A (en) * 1967-04-05 1969-03-18 Nippon Kogaku Kk Method for producing resistances of the multi-layer type
US3469226A (en) * 1967-10-26 1969-09-23 Angstrohm Precision Inc Thin film resistor
US3497859A (en) * 1968-05-28 1970-02-24 Stackpole Carbon Co Electrical resistors for printed circuits
US4196411A (en) * 1978-06-26 1980-04-01 Gentron Corporation Dual resistor element
US4220944A (en) * 1978-01-23 1980-09-02 Vdo Adolf Schindling Ag Resistance transducer with a non-linear characteristic curve

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3239788A (en) * 1959-05-20 1966-03-08 Ace Electronics Associates Inc Molded conductive plastic resistor and method of making same
US3146125A (en) * 1960-05-31 1964-08-25 Day Company Method of making printed circuits
US3239789A (en) * 1962-07-02 1966-03-08 Ace Electronics Associates Inc Molded conductive plastic resistor and method of making same
US3432922A (en) * 1967-04-05 1969-03-18 Nippon Kogaku Kk Method for producing resistances of the multi-layer type
US3469226A (en) * 1967-10-26 1969-09-23 Angstrohm Precision Inc Thin film resistor
US3497859A (en) * 1968-05-28 1970-02-24 Stackpole Carbon Co Electrical resistors for printed circuits
US4220944A (en) * 1978-01-23 1980-09-02 Vdo Adolf Schindling Ag Resistance transducer with a non-linear characteristic curve
US4196411A (en) * 1978-06-26 1980-04-01 Gentron Corporation Dual resistor element

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