US2096801A

US2096801A - Power transformer

Info

Publication number: US2096801A
Application number: US120471A
Authority: US
Inventors: Dwight W Grant
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1937-01-14
Filing date: 1937-01-14
Publication date: 1937-10-26
Anticipated expiration: 1954-10-26

Description

Oct. 26, 1937. 0. w. GRANT 4 POWER TRANSFORMER Filed Jan. 14, 1937 FIG. I

INVENTOR D. W GRANT BY ATTORNEY Patented Oct. 26, 1937 PATENT OFFICE POWER TRANSFORMER Dwight w. Grant, Bloomfield, N. J., assignor to Bell Telephone Laboratories, Incorporated, New'York, N. Y., a corporation of New York Application January 14, 1937, Serial No. 120,471

Claims.

This invention relates to power transformers and its object is to reduce the stray flux from such a transformer.

Although the invention is of general applica- 5 tion to power transformers it will be illustrated as applied to a transformer having a shell type core with the usual primary and secondary windings surrounding the center leg of the core. As is well understood in the art there is a certain amount of stray flux from such a core,-the leakage being principally at the two ends of the center leg. Such leakage is generally objectionable 'in that it may be picked up by adjacent apparatus and give rise to disturbing potentials in a signaling circuit.

In accordance with this invention it is proposed to place external to the core at each end of the center leg or at any point where leakage of the stray flux occurs, an auxiliary winding having a diameter such that most of the stray flux from each end of the center leg passes through the associated winding. A path in shunt to the primary winding comprises in series the two auxiliary windings and a small condenser, the condenser being of high impedance to the power supply. The flux due to the magnetizing component of the primary current will lag by about 90 degrees the applied voltage. Since the two auxiliary windings are connected in series with a high impedance condenser the flux due to'current inthe auxiliary windings will lead by approximately 90 degrees the ap-- plied voltage. Hence these two fields will be substantially v.180 degrees apart and the specified condenser may be adjusted invalue until the Fig. 1 represents in perspective a power trans-v former constructed in accordance with this invention;

Fig. 2is a sectionalview of Fig. 1; and Fig. 3 shows me wiring connections for the transformer.

Fig. 1 illustrates an unpotted power transformer comprising a shell type core 5 with the usual primary and secondary windings 6 and I mount ed on the center leg 8 of the core.

'In order to reduce the stray flux at each end of center leg 8, cylindrical coils 9 and I0 suitably mounted externally of the core at the opposite ends of center leg 8. The axis of each auxiliary coil is parallel to the axis of the primary winding 6 and the internal diameter of each of the auxiliary coils is preferably somewhat greater than the width of center leg 8 as shown in Fig. 2. Suitable mounting lugs such as lugs I 3 and It may be employed for supporting the auxiliary coils in contact with the adjacent face of the laminated core 5.

As shown in Fig. 3 the primary winding 6 is shunted by a path containing in series the two auxiliary windings 9 and I0 and a small condenser II. The stray flux due to the magnetizing component of the primary current will lag by about degrees the applied voltage from alternating current source l2. If the windings 9 and ID are of low impedance to the applied voltage and if condenser H is of high impedance to the applied voltage the flux due to the current in the auxiliary windings 9 and ill will lead the applied voltage by 90 degrees. Hence the field set up by each of the windings 9 and III will be substantially degrees out oi phase with the leakage field and condenser l| may be adjusted to make the opposing fields of substantially equal magnitude. Under these conditions the stray fiux from core 5 will be substantially neutralized. In one test the external field of a power transformer was-reduced about 18 ,decibels by the use of the neutralizing arrangement above described.

In the event it is desired to provide a metal housing or casing for the power transformer the auxiliary coils 9 and III will also be placed within the housing but external to the core.

In case the transformer is of the usual type employed as a power supply for a radio receiver or multistage amplifier, each of the auxiliary coils' 9 and It may be a multilayer coil with about 200 or 300 turns and condenser II will normally have a value of about. 1 microiarad.

It is, of course, to be understood that this invention may be employed for neutralizing the stray magnetic field of transformers having cores of a diflerent configuration from that disclosed in Fig. 1. In each case the neutralizing coil of this invention should cover that part of the core where the greatest amount of the stray magnetic fieldenters or leaves the core.

What is claimed is: Y

1. In combination, a transformer core, primary and secondary windings surrounding at least a portion of said core, means comprising said primary winding for creating a flux in said core and means for reducing the stray flux from said core, said second means comprising an additional winding and a condenser, said additional winding being external to said core, saidadditional winding and said condenser being -means comprising a winding adjacent but ex ternal to said core and connected to said first means for providing a flux opposed to the stray flux.

3. In combination, a magnetic core, means comprising a primary winding on said core for producing a flux in said core and means for reducing the stray flux from said core, said second means comprising an auxiliary winding and a condenser in series with said auxiliary winding, said auxiliary winding being closely adjacent but external to said core, said auxiliary winding and said condenser being serially connected in circuit with said primary winding, said auxiliary winding being of low impedance at the frequency of the supply current producing said flux, said condenser being of high impedance at the frequency of the current producing said flux.

4. In combination, a shell type magnetic core, a winding on the center leg of said core, a source of alternating current connectedto said winding for producing a flux insaid core, anadditional winding, adjacent and external to said coreat each end of saidcenter leg, said auxiliary windings being substantially axially aligned with said 1 first winding, a condenser connected in series with said auxiliary windings, said condenser and said auxiliary windings being connected in shunt to said first winding.

5. In combination; a shell type magnetic core, a winding on the center leg of said core, a source of alternating ,current connected to said winding for producing a flux in said core and means for reducing the stray flux from said core, said means comprising an auxiliary winding adjacent and external to said core at each end of said center leg and substantially aligned with said first winding, a condenser connected in series with said auxiliary windings, said condenser and said auxiliary windings being connected in shunt to said first winding, said auxiliary windings being of low impedance at the frequency of said source, said condenser'being of high impedance at the frequency of said source, said condenser having a capacity such that the flux produced by said auxiliary windings is substantially equal in magnitude to the stray flux but difiering in phase by substantially degrees.

DWIGHT W. GRANT.