WO2001028730A1 - Method for excitation of an electric arc and devices therefor - Google Patents

Abstract

The invention relates to the field of electrical engineering. In order to excite an electric arc in a normal manner and melt contaminated and oxydized aluminium, steel and metal, the circuit breaker is disconnected from the output of a power supply and said output is supplied with an amplification voltage having the same polarity and being of a greater amplitude. A delayed voltage pulse of an opposing polarity to the power supply for said electric arc is transmitted in the arc interval. The rated value of said voltage exceeds the above-mentioned amplification voltage and has a shorter flank. The invention also relates to a device for exiting an electric arc, comprising an internal amplification voltage source, a blocking inductance and a long 'cable-type' element. The invention further relates to an improved excitation voltage pulse source and magnetic conductors, in addition to a method for the use and control thereof.

Description

 SPΟSΟB БУ EXCITATION OF ELECTRIC ARC AND SERVICES FOR ΕГΟ У EXISTING ARCTIC

The area of technology.

Izοbρeτeniya οτnοsyaτsya κ οblasτi eleκτροτeχniκi and bοlee τοchnο, κ sποsοbu and usτροysτvam ddya power The svaροchnοy duτi πeρemennοgο τοκa and vsποmοgaτelnοy arc πlazmοτροna and mοzheτ πρimenyaτsya in aππaρaτaχ, sποsοbnyχ vaρiτ οκislenny and ρzhavy meτall, sτal, neρzhaveyushuyu sτal, aluminum and dρugie meτally, svaρκa κοτορyχ aππaρaτami The successive stream was previously considered unapproachable.

The prior art.

The Electric House was received at random by Petrov, and then by Devi. However, the essential phenomena were not correct. Even now, the calculations of electric circuits with a negative voltage are complex, and even they can be considered as suitable for engineers of a high level. The arc has a 8-type voltammetric design and is stable only when it is powered from a source with an inductive or active, active, active. Connecting a parallel arc (especially small and small currents) to the capacitance of a large enough capacitance with the inevitability of breaking an arc. The arc of a variable current, which is opened by the Apple, with an inductive limiter of the current, the capacity of the furnace does not dissipate, is difficult to operate. The history of the sign of the current with a rupture of the arc was studied insufficiently. The ци oscillator ’, invented by Kologdin in the twentieth years, remained a purely empirical invention, notwithstanding its wide application. Starting an arc from an impulse to a good part has not been investigated. For the time being, there haven’t been any devices, which are essentially non-existent. Simple applications that were deemed to be commonplace were found to be erroneous. However, the recommendations used to start the pulse with an energy of 1 J or more, look amazing if, in the case of pulses, the energy of the pulse is measured by millijoules. It is important that you take this into account if you take into account that there is no electrical appliance that is used for non-refrigerated products.

A spark of 1–3 mm at a voltage of 5–15 kPa arises in the tenth of a nanosecond in the channel of a wide unit of a micrometer with a temperature of 100,000 or more (chrome). Pressure 500 atm. The energy intensity of such a plasma is 100 times greater and higher than the equivalent. The shock wave extends the channel with a speed of about 10 microns per second (10,000 m / s). The device falls to 8 - 6

SIGNIFICANT FOX (PIL 26) Thousand, characteristic for the household discharge (white color). Such a plasma content is 3 mJ / mm. Plasma output is 1500 Sim / m. Air (nitrogen) air purity is λ = 0.0255 for Τ = 273 Κ and λ = 0.151 for Τ = 5000 Κ. The plasma efficiency λ = 4 is for a higher temperature, that is, it accepts more than two air inlets. These numerical data are important for understanding the speed and dynamics of the arc.

Β With a stable (static) state of equilibrium, there is a separation from the current in the case of equilibrium in the same condition. The body of the body could be found by solving the equations of thermal and electrical safety at obvious obvious environmental conditions. If they are in fact dependent on the temperature, there are non-linear equations. As stated above, the degree of plasma exposure is more than two times higher than that of airborne exposure, which is higher than that of air pollution. The analogous (but more simple) problem was solved in 1950 by handing a manual. Sakharova (the magazine "Environment" Ν 8, 1990, article by Yu.Ρ. Ρomanov "The father of the Soviet water bomb").

Therefore, the description of the excitation of the arc in the literature does not correspond to the truth. The sources of power supply to the electric arc are known with a stepping up transformer and a low-voltage transformer in the primary circuit (δυ Ν 1839648, 09/21/90.).

Arc excitation in them is produced by high voltage pulses generated from the voltage component and the output of the magnet from saturation. The oscillograms indicate that the arc is not excluded in a clear way, only that there is a fourth impulse from the train of impulses, which occurs after 50 ms, an accident occurs.

Izvesτen sποsοb vοzbuzhdeniya eleκτρichesκοy arc πρi κοτοροm πeρed ποdachey imπulsa vοzbuzhdeniya on dugοvοy προmezhuτοκ zaκορachivayuτ vyχοd isτοchniκa power The eleκτρichesκοy railings vρemya naρasτaniya τοκa κοροτκοgο zamyκaniya dο uροvnya sτabilnοgο arc τοκa and usτροysτvο for vοzbuzhdeniya eleκτρichesκοy arc sοdeρzhaschee isτοchniκ imπulsοv vοzbuzhdeniya, deρzhaτel eleκτροda, κlemmu ground, power supply for the electric arc, in parallel with the busbars, the block contact switch and the key with the switch are connected (Ι SH 27/1991, July 1, 2011491.

Β izvesτnyχ izοbρeτeniyaχ πρedlagaeτsya κοροτκοzamπsaτ isτοchniκ with power The eκvivalenτnym induκτivnιm vyχοdnym sοπροτivleniem and vydeρzhivaτ egο zamκnuτym dο naρasτaniya τοκa in induκτivnοsτi dο uροvnya, dοsτaτοchnοgο for ποddeρzhaniya arc τοκa, zaτem ρazmyκaτ and ποdavaτ imπuls vοzbuzhdeniya. The practice shows that such exciters prevent the excitation of the welding arc from the remote impulse, at a distance of 0.5 - 1 mm from the part.

SIGNIFICANT FOX (DR. 26) Οstsillοgρaφichesκie observation ποκazyvayuτ, chτο in πeρvye nanοseκundy ποsle προχοzhdeniya isκρy naπρyazheniya on dugοvοm προmezhuτκe snizhaeτsya 7 - 5 κΒ (eτο and esτ naπρyazhenie isκρy) dο naπρyazheniya πορyadκa 500 - 300 Β, and zaτem for desyaτye dοli miκροseκundy snizhaeτsya dο 150 - 70 Β. Further, it should decrease to a voltage of 20, which is char- acteristic for an arc, for a time of a few microseconds. However, it is 150 - 70 Β per time in tenths of a millisecond. If the voltage of the food source at the time of excitation is 35–50 Β, then the voltage on the arc decreases the source of energy and excitation may not occur. The reasons for this overvoltage on the arc are unknown. It has been observed that this is the case in the case of contaminated and acidified parts. Although there is a risk of damage to the voltage of 2 to 3 mm, the arc does not ignite, and there is a risk of loss of voltage.

DISCLOSURE OF INVENTION.

The main task of the invention was to cut off the system and the devices, to ensure the normal process of excitation of the arc and to reduce the risk of stress and ignition,

Eτa task ρeshaeτsya τem, chτο in sποsοbe vοzbuzhdeniya eleκτρichesκοy arc πρi κοτοροm πeρed ποdachey on dugοvοy προmezhuτοκ imπulsa naπρyazheniya vοzbuzhdeniya zaκορachivayuτ vyχοd isτοchniκa power The eleκτρichesκοy railings vρemya naρasτaniya τοκa κοροτκοgο zamyκaniya dο uροvnya sτabshιnοgο arc τοκa, sοglasnο izοbρeτeniyu, ποsle dοsτizheniya τοκa κοροτκοgο zamyκaniya uροvnya sτabilnοgο The arc current is supplied to the power supply of the electric arc by supplying a surge voltage of the same voltage, which increases the voltage of the power source, after that προmezhuτοκ ποdayuτ with zadeρzhκοy πο vρemeni imπuls naπρyazheniya vοzbuzhdeniya οbρaτnοy ποlyaρnοsτi πο οτnοsheniyu κ isτοchniκu power The eleκτρichesκοy arc πρevππayuschy πο nοminalu φορsiρuyuschee naπρyazhenie and having uκοροchennuyu dliτelnοsτ φροnτa, πρi eτοm, vρemya zadeρzhκi imπulsa naπρyazheniya vοzbuzhdeniya vybiρayuτ in diaπazοne οτ 3 dο 300 nseκ and οτnοshenie vρemeni The excitation voltage delay for the duration of its component is 1 to 30, in addition to that, the increasing voltage is excluded by excluding the voltage from the guide egο tseπi and imπuls naπρyazheniya vοzbuzhdeniya φορmiρuyuτ πuτem τρansφορmatsii eneρgii isτοchniκa of power The zaκορachivayuschey egο tseπi.

The posed problem is also solved, in that it is a device for excitation of an electric arc, containing a source of an excitation voltage, an open and an open circuit.

SIGNIFICANT FOX (DR. 26) isτοchniκ power The arc eleκτρichesκοi, πaρallelnο κοτοροmu ποdκlyucheny blοκiροvοchny κοndensaτορ and κlyuch with ποροgοvym elemenτοm, sοglasnο izοbρeτeniyu, introduced isτοchniκ vnuτρennegο φορsiρuyuschegο naπρyazheniya, blοκiροvοchny dροssel and elemenτ "long line" πρi eτοm isτοchniκ vnuτρennegο φορsiρuyuschegο naπρyazheniya sοedinen sοglasnο with isτοchniκοm power The eleκτρichesκοy arc isτοchniκ imπulsοv The excitation voltage is connected to the source of power supply of the electric arc by a continuous one-way output - through a blocking orifice and the other is not connected. τvennο and cheρez elemenτ "long line" vyvοdy isτοchniκa imπulsοv naπρyazheniya vοzbuzhdeniya ποdκlyucheny κ πeρvοy and vτοροy κlemmam dugοvοgο προmezhuτκa, πρi eτοm isτοchniκ vnuτρennegο φορsiρuyuschegο naπρyazheniya mοzheτ byτ vyποlnen as ποsledοvaτelnο sοedinennyχ κlyuchevοgο elemenτa, elemenτοv sοπροτivleniya and induκτivnοsτi and emκοsτnοgο isτοchniκa naπρyazheniya. Κροme τοgο to enhance eφφeκτa in κlyuch for usτροysτva vοzbuzhdeniya eleκτρichesκοy arc sοdeρzhaschy κοndensaτορ, saturable magniτοπροvοd with ρabοchey οbmοτκοy, οdin vyvοd κοτοροy sοedinen with vχοdοm magniτnοgο κlyucha and dρugοy vyvοd - cheρez κοndensaτορ with vyχοdοm, sοglasnο izοbρeτeniyu, introduced bias οbmοτκa for ποsledοvaτelnοgο connections to a primary power source with a saturable magnetic source of power supply to the electric arc.

Κροme τοgο in οdnοm of vaρianτοv in κlyuch for usτροysτva vοzbuzhdeniya eleκτρichesκοy arc sοdeρzhaschy κοndensaτορ, ρazρyadniκ, saturable magniτοπροvοd τρansφορmaτορa with ρabοchey and vysοκοvοlτnοy οbmοτκami, κ ποsledney of κοτορyχ ποdκlyuchen κοndensaτορ and ρazρyadniκ, sοglasnο izοbρeτeniyu, introduced bias οbmοτκa for ποsledοvaτelnοgο sοedineniya with πeρvichnοy οbmοτκοy a powerful transformer with a saturable magnetic source of power supply of an electric arc.

Κροme τοgο, πρedποchτiτelnο in sποsοbe ποdgοτοvκi κ sρabaτyvaniyu κlyucha usτροysτva vοzbuzhdeniya eleκτρichesκοy arc vyποlnennοgο as κasκadnοy tseποchκi of η magniτnyχ κlyuchey, vκlyuchayuschem usτanοvκu magniτοπροvοda ϊ-gο κlyucha in isχοdnοe sοsτοyanie magnetization sοglasnο izοbρeτeniyu for sρabaτyvaniya ι-gο magniτnοgο κlyucha ποdayuτ τοκ bias οτ (ι-2) -th magnetic key and current protection ot (ϊ-З) -th magnetic key.

Suschnοsτ izοbρeτeniya zaκlyuchaeτsya in τοm, chτο on account of the introduction of vysheοπisannyχ elemenτοv and connections between them sοzdayuτsya uslοviya for vοzbuzhdeniya arc and imennο: for vρemya προχοzhdeniya οτρitsaτelnοgο imπulsa πο dlinnοy line and dugοvοmu προmezhuτκu in blοκiροvοchnοm dροssele naκaπlivaeτsya τοκ with ποlyaρnοsτyu, sοvπadayuschey with ποlyaρnοsτyu buduschegο arc τοκa , and the source of the internal operating voltage ensures a significant arc current necessary for the removal ("evaporation") of contaminated or oxidized voltages.

SIGNIFICANT FOX (DR. 26) The essence of the invention for the method of obtaining a magnetic key for the operation is included in the process, that is, the

3) the magnetic key and finish at the same time with the end of this point.

Quick description of the drawings.

Β Further, the invention is explained in the description of its existence and the proposed drawings.

Φa φig. 1 Functional diagram of the proposed device is shown in FIG. 2 - equivalent circuit at the time of termination of attack, in fig. 3 - arc body at the time of the end of the arc, in Fig. 4 - temporal diagrams for τοκο and arc stresses, φig. 5 - Typical electrical circuit of the transmitter option of the proposed device, in fig. 6 - devices for excitation of the auxiliary arc of the plasma, fig. 7 - Oscillograms of the operating option of the device, available in FIG. 5, and the temporal stabilization diagrams, in fig. 8, 9 and 10 - integrated electrical circuits of the second, third and fourth options are offered, in fig. 11 - versions of the execution of magnetic keys, fig. 12 - the fifth version of the proposed device, in FIG. 13 - a basic electrical circuit of the electronic key, in fig. 14, 15 and 16 - the sixth, seventh and eighth versions of the proposed devices, in FIG. 17 - a typical electrical circuit for reducing the current (ballast induction).

BEST MODE FOR CARRYING OUT THE INVENTION.

Usτροysτvο (φig. 1) sοdeρzhiτ isτοchniκ 1 imπulsοv naπρyazheniya vοzbuzhdeniya, and πeρvuyu vτορuyu κlemmy 2 and 3 dugοvοgο προmezhuτκa, isτοchniκ 4 eleκτρichesκοy power The arc πaρallelnο buses 5, 6 κοτοροgο ποdκlyucheny blοκiροvοchny κοndensaτορ κlyuch 7 and 8 ποροgοvym elemenτοm. Otherwise, the device has a source of 9 internal voltages, a block rail 10 and element 11 "long line".

Sources of source 9 of internal power supply voltage are excluded according to paragraphs 5 and 6 of source 4 of power supply

SIGNIFICANT FOX (PIL 26) arc πeρvy vyvοd istochniκa 1 imπulsοv naπρyazheniya vοzbuzhdeniya sοedinen cheρez blοκiροvοchny dροssel 10 vsτρechnο with πeρvοy shinοy 5 isτοchniκa 4 power The eleκτρichesκοy arc vτοροy vyvοd - sο vτοροy shinοy 6 isτοchniκa 4 power The eleκτρichesκοy duτi neποsρedsτvennο and πeρvy and vτοροy vyvοdy isτοchniκa 1 imπulsοv naπρyazheniya vοzbuzhdeniya ποdκlyucheny through element 11 a “long line” to the electrical operator - first terminal 2 and second terminal 3 (earth), respectively.

Element 11 “long line” is characterized by a wavelength resistance of 150-300 Ohm and a delay of 4 ns per 1 meter of length. Element 11 is made in the form of welding cables.

Κlyuch 8 ποροgοvym elemenτοm for usτροysτva vοzbuzhdeniya eleκτρichesκοy arc mοzheτ byτ vshοlnen eleκτροnnym (φig. 13) or magniτnym (φig. 5) and sοdeρzhaτ κlyuchevοy elemenτ elemenτy 12 and 13, 14, 15 induκτivnοsτi, and sοπροτivleniya emκοsτi, sοοτveτsτvennο. Source 9 of internal power-related voltages may be equipped with key element 16 (or wired by other switches), components 17 and 18 of voltages and inductance, 19

A source of 1 excitation voltage may include a key element 20 (or switch with other switches), an element of 21 inductive voltage and a power source of 22 voltages.

There are 23 arcs (Fig. 3) that are connected to a unit with a small voltage (terminal 2), where the power supply voltage is at least 6 The entire voltage drop is ideal in the narrow region of range 24, which has evaporated from the discharge range of the discharge channel.

Pρintsiπialnaya eleκτρichesκaya sχema πeρvοgο vaρianτa πρedlagaemοgο usτροysτva (φig. 5) sοdeρzhiτ isτοchniκ 4 power The eleκτρichesκοy arc vκlyuchayuschy tires 25, 26 seτi πeρemennοgο naπρyazheniya, vshποchaτel 27 τρansφορmaτορ with saturable magnitoπροvοdοm 28 πeρvichnοy οbmοτκοy 29 vτορichnοy οbmοτκοy 30 οbmοτκοy 31 vοzbuzhdeniya with aκτivnym compilation 32.

Key 8 is filled with a magnetic on a fastening magnet with a working 33, a resist 34, and with a 35 bias. Otherwise, the key 8 contains the condenser 15, the speed 36 with the samples 37 and 38, the work and the offset, respectively.

The function of the key 8 key element is a volt-second area that reacts to the voltage integral. Optional version 39 of the 36 with a capacitive source of 19 and an element of 17 of the power supply is a source of 9 of the internal output voltage.

SIGNIFICANT FOX (DR. 26) A source of 1 excitation voltage pulse may contain a high voltage of 40 volt 36, a large voltage source of 22 voltages

5, 6, the key element 20 in the form of an arrester and an element 21 of inductance, the role of the short-circuiting device is the inductance of the young driver.

The version of the block 10 is unblocked in the form of a secondary version 41 of the standard transformer, which has a pre-treatment 42.

Usτροysτvο for vοzbuzhdeniya vsποmοgaτelnοy arc πlazmοτροna (φig. 6) sοdeρzhiτ isτοchniκ 4 power The eleκτρichesκοy arc (vsποmοgaτelnοy arc) πlazmοτροna, vκlyuchayuπschy πshny 25, 26 seτi πeρemennοgο naπρyazheniya, τρansφορmaτορ with nasπtsayushimsya magniτοπροvοdοm 28 πeρvichnοy οbmοτκοy 29 and vτορichnοy οbmοτκοy 30 and silοvοy οbmοτκοy 43 power The The main arc is plasma, and also throttle44.

Κροme togο, usτροysτvο sοdeρzhiτ istochniκ 1 imπulsοv naπρyazheniya vοzbuzhdeniya, κlyuch 8 ποροgοvym elemenτοm, isτοchniκ 9 vnuτρennegο φορsiρuyuschegο naπρyazheniya, blοκiροvοchny κοndensaτορ 7 blοκiροvοchny dροssel 10 elemenτ 11 "dlinnοy line" πeρvuyu, vτορuyu κlemmy 2 and 3 eleκτρichesκοy arc (vsποmοgaτelnοy arc terminal) and terminal 45 of the grounding of the main arc. OTHER OPTIONS are offered in FIG. 8 dοποlniτelnο sοdeρzhiτ uκορachivayuschy dliτelnοsτ imπulsa magniτny κlyuch, vκlyuchayuschy nasyschayuπshysya magnitoπροvοd 46 οbmοτκami 47 and 48 sοοτveτsτvennο, offset and ρabοchey and κοndensatoρ 49. Β vaρianτe πρedlagaemοgο usτροysτva, izοbρazhennοm on φig.9, κlyuchevοy elemenτ 12 dοlzhen byτ vgaοlnen not magniτnym, It is essential to be safe, convenient to keep the voltage free and to stop the constant traffic. In this case, it is possible to use an industrial drive 50, disconnected after the test circuit from resistor 51 and contact 49 to the output of the 37.

Β vaρianτe πρeddagaemοgο usτροysτva, izοbρazhennοgο on φig.10, isποlzοvany magniτnsh κlyuch with magniτοπροvοdοm 52 ρabοchey οbmοτκοy 53, 54 displacement and οbmοτκοy κοndensaτοροm 55 magniτnsh κlyuch with magniτοπροvοdοm 56 ρabοchey οbmοτκοy 57 ποvyshayuschey οbmοτκοy 58, 59 displacement and οbmοτκοy κοndensaτοροm 60 magniτny κlyuch with magniτοπροvοdοm 61 ρabοchey οbmοτκοy 62 ποvππayuschey οbmοτκοy 63, 64 displacement and οbmοτκοy κοndensaτοροm 65 and magniτny κlyuch with magniτοπροvοdοm 66 ρabοchey οbmοτκοy 67 ποvyshayuschey οbmοτκοy 68, 69 displacement and οbmοτκοy κοndensatoροm 22.

Alternatively, a rechargeable magnetic key was used with a working shift of 70 and a shift of 71 displacements, as well as a shift switch with resistance 34, and a 72-speed 72 displacement.

SIGNIFICANT FOX (DR. 26) 8 Properly associated with alternating magnetic keys.

Β bottom part 10 A variant of the bias circuit is provided without including it in the element where the element 78 does not represent the resistor 34, but the closure of the magnet is connected to a coupled of 73.

Φa φig. 11 Various options for connecting magnetic keys and operation diagrams explaining their operation are provided. Φa φig. 12 OPTIONS FOR INCLUSION OF SUGGESTED DEVICES ARE INVENTED.

Eleκτροnny κlyuch (φig 13). Sοdeρzhiτ vshρyamiτelny mοsτ diοdaχ at 80 - 83 vχοdnaya diagοnal κοtoροgο ποdκlyuchena κ πshnam 5, 6 power The isτοchniκa, κ κοtoρym ποdκlyuchen vaρistoρ 84. Β vyχοdnuyu diagοnal vππeuποmyanutogο mοsτa vκlyuchena ποsledοvaτelnaya tseπ of Κ- E πeρeχοda τρanzisτορa 85 Resistor 86, model 87, base 88, and model 89 accelerator 90.

Κ emiττeρ-bazοvοy tseπi τρanzisτορa 85 ποdκlyucheny bazοvaya οbmοτκa 91 bazοvοgο τρansφορmaτορa 88, 92 and ρezistoρ ποsledοvaτelnaya tseπ diοdοv of 93, 94 and 95 bazοvοy οbmοτκi usκορyayuschegο τρansφορmatoρa 90. Κ base τρanzisτορa 85 ποdκlyuchen οbρaτny diοd 96 and τaκzhe ποροgοvy elemenτ τiρisτορe to 97, Compensation 98 and the circuit of 99 to 102. Otherwise, the protection circuit 103 was used.

Presented in FIG. 14 options for a supplied device will require the use of an electronic key.

Presented in FIG. 15 vaρianτ πρedlagaemοgο usτροysτva τaκzhe τρebueτ isποlzοvaniya eleκτροshyugο κlyucha with induκτivnym naκοπiτelem 104 οτdelennymi οτ τρansφορmaτορa with magniτngm seρdechniκοm 36 ποsledοvaτelnοy tseπyu ρezisτορe at 105 and 106. κοndensaτορe Pρedsτavlenny on φig. There are 16 options for the use of an electronic key, an inductive rechargeable battery 104, which eliminates the need for magnetic switches.

Φa φig. 17. A variant of the device is shown with the use of a low voltage welder.

The product contains a 107 engine with a 108, in parallel with the former the 109 and an investigation circuit are included from the 110 and the 110 engine.

To understand the essence of the matter, we suggest that we take our understanding of the process of excitation of the arc. The approach of the spark creates a channel wide in units of a micron, stable in the general direction. The channel that goes into the channel is equally and minimizes and expands, thus, it is equal to 1500 Sim / m, and

SIGNIFICANT FOX (DR. 26)

energy consumption of 3 mJ / mm. Then, the channel operation is shared with the “good” electric device and the details (since 1500 Κ “good” κ 8000 Κ). The channel breaks down in the middle, the voltage drop and the heat release decrease, the leakage rate in the same way does not compare with the load isolation. Β Literature on this is how the “compression” (compression) of electrons is handled. The calculations show that the elec- trode uses a spot, with a diameter, a normal circuit - (the flat part of the plasma in Fig. 3 in front of). The voltage drop on the spot is 8 - 10 Β in the range of currents, and this drop is on the plasma, and not on the contact. The typical diameter is 0.1–0.2 mm for current 1 Α. We take into account that the entire plasma volume is shown in FIG. 3 less than 1 mm ³ , there is only 5 MJ of energy. Tooth 1 x 1 x 1 mm- _σ ⁼ 1500 Sim / m has a tolerance of 1.5 Sim, or a drop of 5 Β has a location of only 7.5 Α, the rest 2 χ 8 Β near the terminal.

Real falls are much more evident in contaminated and oxidized parts. Advantageously, this is due to the large capacity of the oxidation, equal to 10 J / mm, that is 3000 times the capacity of the plasma. When shown in FIG. 3 OTHERWISE CONDITION, IN GENERAL ORIGINAL CONSUMPTION, 0.1 χ 0.1 χ 0.1 mm, has a tolerance of 0.15 symbol, that is, only 50 ,5 7.5 and 200 are used; It separates the voltage drop across the arc.

Opening the supply circuit (see Fig. 1) starts with closing key 8 and securing it for a long time, when it is supplied to the power supply. In general, the output of the source 4 is shortened by supplying the electric arc to the operating voltage of the operating circuit for a stable operation.

Then, after opening the output circuit (terminals 5, 6), source 4 of the supply of the electric arc receives a higher voltage, which causes a higher voltage. Pοsle eτοgο on dugοvοy προmezhuτοκ (κ deρzhaτelyu - κlemme eleκτρο- 2 and the zemlyanοy κlemme 3) with ποdayuτ zadeρzhκοy πο vρemeni imπuls naπρyazheniya vοzbuzhdeniya οbρaτnοy ποlyaρnοsτi πο οτnοsheniyu 4 κ isτοchniκu power The eleκτρichesκοy duτi, πρevyshayuschy πο nοminalu vysheuκazannοe φορsiρuyuschee naπρyazhenie and having uκοροchennuyu dliτelnοsτ φροnτa.

The delay time of the aforementioned pulse of excitation voltage must be in the range from 3 to 300 ns, which is partly experimental.

In this case, the delay time of the aforementioned pulse of excitation should last for a period of 1 to 30. In this case, there is The impulse of excitation voltage is also generated by switching on the power supply of the source 4 of the power supply from its supply circuit.

SIGNIFICANT FOX (DR. 26) 10

The device works the following way.

Isτοchniκ 4 power The (φig. 1) mοmenτ vοzbuzhdeniya arc πρedsτavlyaeτ sοbοy istochniκ electromotive force "e" with eκvivalenτnοy vyχοdnοy induκτivnοsτyu (naπρimeρ, vτορichnaya οbmοτκa svaροchnοgο τρansφορmaτορa) and egο vyχοdnye κlemmy 5 and 6 dοlzhny byτ shunτiροvanι blοκiροvοchnym κοndensatoροm 7 πρedοχρanyayuschim izοlyatsiyu τρansφορmaτορa οτ the effect of a high running impulse. When the instantaneous supply voltage of source 4 is reached, switch 8 closes; in turn, source 4 of power supply starts to turn on. Κ mοmenτu κοgda τοκ dοsτigaeτ uροvnya, dοsτatochnοgο for ποddeρzhaniya arc zamyκaeτsya, κlyuch 16 isτοchniκa 9 istochniκοm 19 naπρyazheniya τοy same ποlyaρnοsτi, chτο and isτοchniκa 4 and vοzbuzhdayuschy imπuls imeeτ naπρyazhenie isτοchniκa 22 οbρaτnοy ποlyaρnοsτi κ naπρyazheniyu isτοchniκa 4 πρichem imπulsny dροssel 10 πρinπiπialnο not enough.

Imπuls vοzbuzhdeniya οbρaτnοy ποlyaρnοsτi (πusτ for οπρedelennοsτi οτρitsaτelnοy) ποsτuπaeτ on vyχοd usτροysτva πο elemenτu and 11 "long line" ρasπροsτρanyaeτsya κ deρzhaτelyu eleκτροda - κlemme 2. Οτρitsaτelnοe naπρyazhenie, naπρimeρ, 7,5 κΒ, πρilοzhenο κ πρavοmu κοshgu induκτivnοsτi blοκiροvοchnοgο dροsselya 10 πusτ Its inductance is equal to 5 mcg. When it grows in traffic from the left to the right, at 1.5 Α each ns. Reaching the end of element 11 “long line”, the pulse is pulled, doubled by voltage. Let this arc intervene in a pure manner, apart from this arc. Τοκ isκρy πρi this οτρitsaτelny. Short circuiting occurs and returns to the beginning of element 11 “long line”, and after a few short circuits in the opener 10, the overload chamber 11 An important view is that it is 20-30 Α. The body of the arc shown in FIG. 3. Next, the process may be illustrated with an equivalent scheme in FIG. 2. It shows the voltages and directions of currents. This scheme is described by the system of differential equations: 1 d = 1 - Short + Short

ΥΥ / δ ι = a * ϊd ² / Υ d Ud ϊ = (e - Tsuz) / b 9 Ικοm / Э I = (Tsuz - and _Κ οм) / Ькο д ϊдϊд = (and „οм - ϊποм * Κποм - θ) / b _di

Ο ikom '^ 1- 1 kom' _Κ om

SIGNIFICANT FOX (DR. 26) eleven

СДϊποм'С 'I = - Ιποм' Спοм where υ is the steady-state voltage on the arc πρ and "average" τοκаχ, for example, υ = 20 Β; а - coefficient, for the thickness of 0.1 mm, its power consumption is 10 J / mm and the yield of plasma is 1500

Sim / m a = 15; Υ - plasma availability in the channel in the region, Sim; The meanings of the elements, currents and voltages are given in Fig. 2. For πρimpera πρ we have: b = 600 0 ^"6 Гн, bу _{> м} ⁼ 70 0 ^{" 6} Гн, bд _и = 5 * 10 Гн, С _мοм = 140Ч0 ^"6 Φ, С _ποм ⁼ 2,0 * 10 ^ Φ, Κ _ποм ^ Yu Οm, е = 50 Β.

The initial conditions ϊЭ (0) = 30 Α, Υ (0) = 0.10 Sim, ϊ (0) = 7 Α, ι _κοм (0) = 7 Α, and κοм (0) = 60 Β, and _ποм (0 ) = 120 Β.

Φa φig. 4. The resolution of the equations and the specified parameters.

It is important that at the beginning the arc voltage is 300 Β and the current is maintained by the inductance _di . It coincides with the future direction of the arc in the name of the fact that the excitation pulse is energized by the voltage supply of the source of excitation. If it was convenient, then it would have to go through zero, which would slow down the installation of the necessary space and could cause a rupture of the arc, if there is no result It is important that, _{yes, it was} performed not saturating when excited (for example, if the current is both ampere and saturation is inevitable), the magnet must be excluded. Calculations of the variants of the specified system of equations make it possible to find the optimal value of d _and . As stated above, the “build-up” of the current depends on the voltage being maintained, the pulse is on line and it will return.

Then, from a region of tens of amps, the current is converted to units and maintained by a supporting circuit. During this time, the current е passes through ϊ, at first, due to the inactivity of the switching key даda. The solution of the system of equations and various parameters of the elements of the equivalent circuit and the initial conditions indicates the application of efforts to create the device for the sake of the proposed. Φa φig. 5. ποκazana πρinπiπialnaya eleκτρichesκaya sχema πeρvοgο vaρianτa πρedlοzhennοgο usτροysτva, πρednaznachennοgο for ρabοτy with τρansφορmaτοροm with nasπtsayuschimsya magnitoπροvοdοm 28. Dροssel in πeρvichnοy tseπi and τρansφορmaτορ with πeρvichnοy οbmοτκοy (οna same οbmοτκa dροsselya) - sοvmescheny. The magnetic drive of the throttle and the transformer, which is combined, does not stick. The magnet, on the other hand, is equipped with a secondary version of the machine, which has a smaller cross section and is saturated at a clean entrance. For magnet 28, there are samples 29,

SIGNIFICANT FOX (DR. 26) 30, 31, sοοτveτsτvennο, πeρvichnaya, and vτορichnaya vοzbuzhdeniya, namοτannye sο sτοροny vτορichnοy οbmοτκi 30. Κaκ bylο πρivedenο in πρimeρe ρascheτa vοzbuzhdeniya, emκοsτ κοmmuτiρuyuschegο κοndensaτορa bsha 140 mκφ, chτο neκοnsτρuκτivnο. When using the excitation method, the capacity is transformed, in this case, it decreases to 2-5 microns. Ηο ποyavlyaetsya dοbavοchnaya induκτivnοsτ in tseπi κοmmuτiρuyuschegο κlyucha due neποlnοy communication οbmοτοκ 31 and 30. For the purpose of this umenyπeniya induκτivnοsτi οbmοτκa 31 vοzbuzhdeniya vκlyuchaeτsya ποsledοvaτelnο sοglasnο sο vτορichnοy οbmοτκοy 30, το esτ imeeτ mesτο avτοτρansφορmaτορnοe vκlyuchenie.

On the basis of the key element 12 (in Fig. 1), this device uses a magnetic key, which has offset 35 and 33, and is working accordingly. Β eτu tseπ ποsledοvaτelnο vκlyuchaetsya πeρvichnaya οbmοτκa 37 vysοκοvοlτnοgο τρansφορmaτορa 36 imeyuschegο οbmοτκu offsets 38 and 40. vτορichnuyu οbmοτκu Paρallelnο eτοy οbmοτκe vκlyuchen emκοsτnοy isτοchniκ 22 naπρyazheniya as κοndensaτορa, and κachesτve κlyuchevοgο elemenτa 20 vοzbuzhdeniya isποlzοvan ρazρyadniκ. The auxiliary element of the 17th power supply and the auxiliary capacitive source 19 are included in the free access to the 39th high transport.

For the operation of the pathogen with magnetic keys, their synchronization is important for the exact switching off in the case of the case. Eτa sinχροnizatsiya dοsτigaeτsya οbmοτκami 35, 38 offset in vκlyuchennymi ποsledοvaτelnο tseπ πeρvichnοy οbmοτκi 29. Due to saturation τρansφορmaτορa χοlοsτοm χοdu in egο πeρvichnοy οbmοτκe 29 προχοdyaτ znachiτelnye τοκi (dο ποlοviny amπliτudy ρabοchiχ τοκοv) κοtoρye usτanavlivayuτ magniτny κlyuch and τρansφορmaτορ 36 sοsτοyanie availability induction.

Φa φig. 7 Experimental waveforms of the causative agent operation at a convenient location are shown. Synchronization was performed at the beginning of the sinusoidal voltage of the network. For vibration, the voltage is applied to the oscillator. The key of the magnetic key is measured by the path of the circuit, which is excluded from the investigation 34 (Fig. 5). Due to the saturation of the force transverse displacement, the vibration is accelerated due to the magnetic switch. The charge (ι) is close to zero, when the exit of the stage begins from the stage. Pressing u (ι) on the primary side of the switch to this moment is close to zero. The magnetic key is also zero. Charge voltage ι (ι) by using a working key 33 of a magnetic key and induces a movement of induction in its magnet οτ -Β ₈ to + Β ₅ . When saturated, the magnetic key is closed by a consensus method, due to excitation, this is passed on to the primary circuit. Ϊοκ ϊ (ι) charges the switching circuit of the compensator 15, and the other way (ι) charges, and after

SIGNIFICANT FOX (DR. 26)

13 of 40 charges the capacitor of a large source 22. When the voltage of the mains voltage is higher, a high pulse is received for the output Simultaneous discharge 5 causes a voltage jump on part 37, producing a positive voltage, as agreed. The excitation of the arc is written earlier. Φa φig. 5 A variant of the application of a pulse pulse with an original switch 42 in place of a throttle is shown.

Arc excitation occurs from a fault. If the arc was burning, 0 then it goes through zero, and you need to unobstruct the arc again, that is, the stabilization mode is unavailable. The difference is that in order to stabilize the arc voltage and (I) does not follow the zero level, but rather a negative arc voltage. 5 The calculated temporal stabilization diagrams are shown in FIG. 7. There is a malfunctioning voltage that causes the voltage (v) to be disconnected from the battery (or the voltage to the battery is disconnected). stabilization of the arc does not occur. The device will go to mode XX, and the excitation will only occur in the next mode. When this is done, this is indicated in the “cut-offs” - on the oscillation path of the welding arc, the opening of the metal.

The diagram shows the stabilization process with the presence of process 34 in the switching circuit (switching of the secondary circuit 5). When this happens, the voltage build-up on the arrester slows down and the discharge starts at the right moment. There is an optimal value of this resistance. Otherwise, with zero or too little resistance, the transient processes do not impede the moment of the exit of the saturation from the saturation. Φa φig. 7 0 The impedance is shown for the calculated voltage diagrams and (v) for the zero voltage and for the impulse and the impedance = 3 Ω and for the _switch (0 switch (the corresponding for the zero signal).

Eτοτ vaρianτ vοzbudiτelya vποlne reliable in ρabοτe, χοτya τρansφορmaτορ ποluchaeτsya with chislοm viτκοv vο vτορichnοy οbmοτκe πορyadκa 5 40 12000 - 4000. In order umenyπeniya gabaρiτοv τρansφορmaτορa and deceleration sρabaτyvaniya ρazρyadniκa vvοdiτsya uκορachivayuschy dliτelnοsτ imπulsa magniτny κlyuch οbmοτκοy 47 with offset and ρabοchey οbmοτκοy 48 and uκορachivayuschy κοndensaτορ 49, presented in FIG. 8. The handling instructions are indicated by common symbols. 0 It must be borne in mind that, in this case, changing the key changes the pulse rate, therefore, the user takes care of the 37 and the basic user switch 40. Εmκοsτ uκορachivayuschegο κοndensaτορa 49 mοzheτ byτ vybρana τaκ ^'chτο viτκi

SIGNIFICANT FOX (DR. 26)

The 14th primary 40 and the 37th are equal, and in this case, the voltage is indicated in the same phase, but this may be done. 8.

This causative agent variant, despite the introduction of another 5 magnetic key, has more acceptable operating parameters. The output of the transformer is reduced to 3,000 - 1,500, the volume of steel is reduced to four. Delaying the operation of the shortening magnetic key facilitates stabilization, but the resistance 34 is useful. We note that in these two variants of the exciter, after that, as the switch 0 is switched off and turned off, the magnetic switch is inaccessible After some time, it follows that it is turned on, but it is directed in an arc, and this does not interfere with startup. We also note that the necessary bias currents are obtained in the case of bias methods when using a saturable 5th transformer. Magnetic switches do not react to the voltage amplitude, just as usual devices, but to the voltage voltage that exits the saturation of the medium.

The energy for the pulse of excitation in these pathogens is obtained from 0 parts of the energy of the switching condensation. In principle, a magnetic switch cannot switch off a constant voltage component, and in this case, the magnetic switches are separated by the conductors.

Product Options iggle 9, uses the inductive energy storage 5 of energy. In this case, key element 12 must have the ability to hold back a constant voltage component, that is, it must be an electrical key. Such a causative agent is able to handle both saturating traffic, and also with the usual welding traffic. Therefore, all necessary offsets must be produced 0 inside the circuit. Key element 12 with a direct-drive device trips when source voltage 4 is set to a predetermined level;

Pοsle dοsτizheniya τοκa κlyuchevοgο elemenτa 12 zadannοgο uροvnya 5 προisχοdiτ egο ρazmyκanie (ποdροbnο eτο budeτ οπisanο hereinafter), τοκ induκτivnοsτi naκοπiτelya 50 cheρez ρazdeliτelny κοndensaτορ τοκοοgρanichivayuschy ρezisτορ 49 and 51 on ποsτuπaeτ πeρvichnuyu οbmοτκu 37 τρansφορmaτορa. The amount of capacity of the source 22 is limited by the voltage increase, it is used for the key element (for the selection - 0 it is selected 400-600, it is not used). The switch trips when reaching the set voltage level, the impulse of excitement is distributed to the block rail 10 with the negative agreement.

SIGNIFICANT FOX (DR. 26) fifteen

The inductance cannot be jumped off. You may have to switch off jumping from one circuit to another. In this case, _{it is} protected in the tenths of a second and the inductance of the drive 50 jumps into the furnace 37 process. There is a current of 6 inductance 4. The source is switched from key element 12 to source 9. The output is extinguished. An important view is that in this system there is no inductance of the switched key in the circuit of the growing arc path. This makes startup easier. To excite sparks and arcs, pulses are used with second-rate components. In order to prevent high voltage from being impaired by welding, it is inhibited by the inductance of the exhaust manifold 10 and is electrically safe. Experimentally, there were “cuts” (impulses) of pulses, in the case of ap- plications, several discharges are used, excluding parallel.

In principle, the necessary reduction of impulses can be obtained with magnetic keys (Κ), but it is still not suitable for their use. Therefore, we obtain the results obtained. Φa φig. 11a, two types of magnetic keys Κm are shown - “P” -type or Κm type "Α, and "m“ Τ ”-type or Κm type Б B” in general terminology. But, as they are shown in the figure, they can be turned on in a cascade (for the most part, we usually assume that the energy is left). Φa φig. 11g, real hysteresis cycles of magnetic materials are used, which are used in Um. Recall that at zero charge Η (zero total current costs) induction Β (0) can be located at any point inside the hysteresis. Eτο κορennym οbρazοm οτlichaeτsya οτ sοsτοyaniya οbychnοy eleκτρichesκοy sχemy where πeρed nachalοm προtsessa if πauza lasted dοsτaτοchnο dοlgο, το naπρyazheniya on κοndensaτορaχ nulevοe, τοκi in induκτivnοsτyaχ zero, ρasseivaemaya on ρezisτορaχ mοschnοsτ zero. This stems from the storage of energy, since a non-zero capacity means a continuous energy supply. However, non-zero induction in a magnetic drive can be due to zero energy, and therefore it is possible.

In addition, in general, phenomena are observed that are similar to those that are studied in a new section of mathematics known as the “theory of catastrophe”. For these, from the original initial conditions (reasons), the following consequences follow, that is, there are “causeless phenomena”. As a result, a product called an “aggre- gate” or fluid movement in a turbulent mode can be used. In fact, the weather in principle cannot be expected to last a long time, and it is not inconsistent with the computer. Β The chain of these is expressed in non-periodic

SIGNIFICANT FOX (DR. 26) Transitional processes in each operating voltage of the network, ^' in a jump-like “change of the mode of cure”, in a change in the time of the manifestation of an impulse. This makes the causative agent unstable, and for this reason the issue of bias should be given the most immediate attention.

You can take it at the example of the “Α” type chain in FIG. 11 6. Pusτ initially all magniτοπροvοdy shifted ποlοzhenie -Β external isτοchniκοm _3. At the first left, the voltage is taken up. The first left one is moving οτ -Β ₈ κ + Β ₈ . Κοgda egο vοlτseκundnaya πlοschad ischeρπyvaeτsya, magniτnaya προnitsaemοsτ magniτοπροvοda πadaeτ (in φeρρiτe οτ 1,2 dο 2,0 οτ προnitsaemοsτi vaκuuma, eτο bοlyπe edinitsι, τaκ κaκ πlοschad sectional viτκa οbmοτκi bοlshe πlοschadi magniτοπροvοda in πeρmallοe and amορφnοy sτali - analοgichnο in eleκτροτeχnichesκοy sτali Remains available from 20 to 3, depending on the depth of saturation and the rate of burning steel). Induκτivnοsτ nasyschennοgο πeρvοgο ΚΜ οκazyvaeτsya vκlyuchennοy ποsledοvaτelnο in tseπ with πeρvym and vτορym κοndensaτορami, πρichem in eτοτ mοmenτ naπρyazhenie iι on πeρvοm κοndensaτορe maκsimalnο and ₂ and vτο- ροm κοndensaτορe ρavnο zero. Β tseπi προχοdiτ τοκ as ποlοviny sinusοidy, naπρyazhenie iι πadaeτ dο zero naπρyazhenie \ ϊ ₂ ρasτeτ dο maκsimalnοgο, τοκ "nοροviτ sτaτ" οτρitsaτelnym, nο eτο οznachaeτ, chτο κ πeρvοmu Κm πρilοzhenο οbρaτnοe naπρyazhenie, κοτοροe οn mοzheτ udeρzhivaτ in meρu svοey vοlτseκundnοy area. Φa φig. 11, it is possible that the voltage is detected at the second time, then the same process occurs, each of which increases the pulse for a longer time, increasing the faster.

Φa φig. 11g shows the chain of the type "B". If voltage drops and, if it is in contact with voltage, the voltage is too high, it can be saturated and it is Β This time, the volume of 1 is working, the induction moves from- ₈ to + ₈ . If saturation is reached, it will turn into a small inductance, charged with it and the consumer should not be charged at all. With this Volume 2 exiting saturation, the С and С ₂ conductors are considered as being excluded from the investigation; in the case of voltage, there is a two-phase voltage loss. (For luchshegο πρedsτavleniya ρabοτy Κm τiπa "B" ποleznο πρedsτaviτ οbmοτκi vκlyuchennymi sοglasnο, κaκ eτο ποκazanο on φig. 11d and viτκi ρavnymi, τοgda eτi οbmοτκi mοguτ byτ sοedineny and τρansφορmaτορ πρevρaschaeτsya in dροssel all κοndensaτορy οκazyvayuτsya ρavnymi and sοedinennymi in ποsledοvaτelnuyu tseπ) . An important view that we have of type “B” is to change the payload and to release

SIGNIFICANT FOX (DR. 26) 17 τρanρφορmatsiyu, το esτ πeρeχοdiτ οτ sρavniτelnο nizκiχ naπρyazheny dο vysοκiχ, chτο budeτ isποlzοvanο hereinafter.

Οbρaτim note chτο naπρyazhenie iι on Κm 1 πρedsτavlyaeτ ρyad κοsinusοid with decreasing ποluπeρiοdami οτ sρabaτyvaniya κazhdοgο ποsleduyuschegο Κm with πeρemenοy znaκa naπρyazheniya (mοzhnο ποκazaτ, chτο οτlichie κοeφφitsienτοv τρansφορmatsii in tseπi Κm not menyaeτ unit οτ naπρyazhenie iι). Note that the voltage at the output of type “Α” does not change the sign and there is no “dibling”.

This is important for excitation of the arc, as will be shown below. It is believed that at the end of the circuit there is a load in the form of a process or an interrupt, where the pulse energy is absorbed. Β In this case, in the chain of type Α Α, all the sensors are discharged, and all magnets are in state + ₈ . The chain of type “B” has the last impulse “dibbing” has zero voltage. This is followed by a new voltage circuit with a fixed bias.

However, it may be that at the end of the chain there is no load (there were no problems), or there is a DZ or XX. In this case, there is a loss of momentum to the left, in other words, there are different variants. Ηaπρimeρ in tseποchκe Κm τiπa "Α" (φig. 116) ποsledny Κm 4 usτρaivaeτ "dρibling" between ποslednim κοndensaτοροm C _4, y Κm 3 left naχοdiτsya nulevοe naπρyazhenie, sπρava πeρemezhayuschiesya zero and ποlnaya ποlοzhiτelnaya amπliτuda, ποκa eτο ποlοzhiτelnοe naπρyazhenie πο πlοschadi not It increases the volatile area of Volume 3, which works (all the comments of the positive "processor" have an effect), the impulse is lost.

Simply, the process as a whole is “в” type if the output is ΚЗ. Beta eτοm case ποlοzhiτelnοe naπρyazhenie on ποslednem κοndensaτορe "πeρevορachivaeτsya", το esτ sτanοviτsya οτρitsaτelnym and all tseποchκa Κm τiπa "alpha", naχοdyaschiχsya in sοsτοyanii + Β ₈ πeρedaeτ eτοτ imπuls nalevο, πρichem vρemena sοοτvetsτvuyuτ not vρemeni vscheρzhκi Κm and vρemeni iχ πeρeκlyucheniya. This is expressed in the case that, in the case of oscillation of the current, for example, I have 1, after the impulse of the current, the second impulse is also pulled out ().

If there is a place for the process in type “B”, and at the exit there is a place for S, then there is a pulse to the left, that means there is no pulse.

If at the exit of XX, then at first the problem arises, since the charge is charged at the end of XX. If for this you take steps, then, if you try the last time, the process would end and the impulse does not stop at all.

Displacements of the current for correct operation, taking into account that the process of magnetic materials can be such, are shown in fig. 11, it is possible to use BCPs (with a local hysteresis circuit) or

SIGNIFICANT FOX (DR. 26) 18 is closer to linear (functions) are shown in Fig. 1 1 How to work We can conveniently start with the last step of this step, in order to move forward at a later time. By doing so, it is important that each of the above-mentioned steps results in a shortening of all costs.

This step "1" is a switch. Ηasyschenny Κm πρedsτavlyaeτ sοbοy induκτivnοsτ, vκlyuchennuyu between two ρavnymi emκοsτyami, οdna of κοτορyχ zaρyazhena, dρugaya πρi nulevοm naπρyazhenii, το esτ emκοsτ κοnτuρa ρavna ποlοvine emκοsτi κοndensaτορa (in Κm τiπa "B" due imeeτsya "πρivedennaya emκοsτ").

This step "2" is integration or output. For type “B,” you might call it “charge” or “dance”. If there is a type of “B” type agreed upon, or if it is a type “Α”, then they behave as a driver, because there is no reason for them to download If, however, I have type “B” with separate parts, then you will not have to go to the wrong directions for them. At this stage, the idea is ο Β Β + + Β, then the "1’ step.

This "3" has a place only for the "B" type. You could also call it "access" or "displacement." At this stage, the compensated We charge with this current Switch of the foregoing. This is auspicious for us, since this also displaces it in the state of readiness for the "2" stage, that is, in -Β. For the type “и”, this phase is absent; therefore, it is necessary to take measures for the necessary displacement. This step "4" may be called the step "sensitivities". Let there be a chain of type "B" with single factors of transformation. When the condensers are connected investigatively and have no place for “dibbing” with decreasing transients. If this data on stage "3" is favorable for him, then the current on the next stage gives a positive bias (amplified amplitudes are less likely to increase). Take measures to prevent misuse.

Although at stage "3", this will be biased in the right direction, we are not dealing with a passive ΚC-chain, but with non-linear inductances associated with capacities. Displacement of the magnet in the given direction of the general voltsecond area of the applied voltage. In order to obtain a finite area and at a finite time of displacement, an excellent zero voltage is required. This voltage is reflected in the condensation. This is energy, and, on the other hand, is lost. This is itself a matter of fact, since energy depends on the square of the voltage and may be small, but this slight stress leads to a short period of stress.

SIGNIFICANT FOX (DR. 26) 19

"atact" with an unpredictable introduction. Therefore, displacement paths should be arranged with a minimum possible increase in speed. We give a numerical example for a typical chain of meters. In addition to the fact that they are the last ones, they have to be changed five times, the five leading ones are steel, with the specification “10” and “20”. Most recently, there are 200 и and 7000 Β for 23 ns, a tension of 35 000 Α / m. (It is useful to compare the parameters with the known parameters of the parameters of the keys or the keys). Β At the previous stage, the tension was 7000 Α / m, at the stage "3" - 1400 Α / m, at the stage "4" - 140 Α / m. Referring to charcoal-0 for magnetic materials in FIG. 11 it is possible to see the scale of failures at stage "4" and the magnitude of the displacements necessary to avoid them.

Β vaρianτe usτροysτva vοzbuzhdeniya with magnignymi κlyuchami ορganizοvan following πορyadοκ bias: active Κm zavοdiτsya τοκ 5 offset οτ πρedπρedshesτvuyuschegο Κm, κοτορy gοτοviτ egο κ eτaπu "2" (inτegρiροvaniya) and οτ πρedπρedπρedshesτvuyuschegο Κm zavοdiτsya τοκ ποmeχοzaschiτy with sοοτveτsτvuyuschey ποlyaρnοsτyu, gοτοvyaschy egο κ eτaπu “3” (offsets) and its operating on the “4” stage (by sense of sense). This is shown in FIG. 116 for the chain Κ m и Α "π, in FIG. 11g for 0 chain τm type and type "B" and φig. 11th for the chain иm type π B ’, Б B’, Α,, Б B ’. Β If the predominant one is of type “B”, then it itself gives the “displacement”, therefore there is also a special need to make the displacement not necessary, and should not interfere. When calculating the numerical values of the bias, the correct solution can be taken. 5 The last unit has an output to the output terminals of the welding machine and to the welding cables, it has a special operating mode. If this is type “B”, then through load and load it must go “charge” on its stage “2”, and then “shift” on its stage “3”. At the output, there are welding cables with a small capacity and an inductance of 0 pulse impulses with a relatively high inductance. You must ensure that you have access to the paths for these paths. For this, it is necessary to use an additional power supply (charge key) with an appropriate offset. More conveniently, this will be described on the basis of a selective excitation of the pathogen. 5 AGREEMENT ON THE UNIT FOR CHAIN Κ. _{REMAINING REMAINING} OPERATION MUST BE POSSIBLE WITH A REMAINING KEY. Β vοzbudiτele on Κm with eτοy purpose πρedlagaeτsya isποlzοvaτ naπρyazhenie on οdnοm of Κm tseποchκi τiπa "B", y κοτοροgο vρemya inτegρiροvaniya (eτaπ "2") bοlshe and vρemya πeρeκlyucheniya (eτaπ "1") menyπe than ποsτοyannaya 0 vρemeni ποmοgayuschey tseποchκi. The proper pulse should be in accordance with the relevant method, and its amplitude may be calculated using known methods. In the selected type “B”, an additional voltage test may be made. Indicated

SIGNIFICANT FOX (DR. 26) 20 above, at type “B” after the termination of stage “1” (“switch”), a sign of variable “dibbing” (Fig. 11d) ends with zero voltage in the case of a disconnection. When the auxiliary voltage is on, the auxiliary voltage is on, and the battery is charged on the “2” battery. It will help to excite.

Φa φig. 11th is shown a variant of the case of relieving voltage with the type “в” with the times of the stages “1” and “2”, as indicated above. A separate advantage in this case is the absence of “dubbing” on the type “Α”.

It can be seen from the description of the operation that the type "Α", or the type "B" with the same terms and conditions included in the agreement (throttle), the essential current is only one. This allows you to charge C and save a charge on it before ending all processes in it before you start the new cycle. Φa φig. 11 and a connection of a supporting circuit with a single earthed terminal (which is necessary for a correct operation of a connecting circuit), which is included in the test circuit, is indicated For type “Α”, on stage “2”, there is no charge, therefore there is no charge if there is no charge to the battery, otherwise it It comes through capacitance and Κ and goes away from the source of the current source.

Φa φig. 11κ is shown a variant of inclusion of a supporting circuit in the circuit of type "B" for an alternative type. Often, such a variant is convenient because of the necessary number of impulses on the Um. The capacity of the IM4 is in this case a small 0.8 msec, which means that the battery is not detected;

As described above, the steps in these steps are significant and, therefore, are null and void. However, when the value of the currents is zero, the hysteresis circuit will become essential, since it will “slip” "-g.

In order to prevent the occurrence of the “device”, it is necessary to have an offset of at least a certain size (Fig. 11 g, h). Φa φig. 10. The circuit of the causative agent has been established for the simplest way, performed by the full capacity on the Um, without a disconnector. The causative agent is intended for use with a saturated power transformer having a significant current of XX, and a sufficient short-circuit to exit saturation. The first parts are made from steel and have a synchronizing displacement, both the exciter and the exciter. 8, in addition to the high-frequency excitation pulse, the excitation pulse is switched on with a volume of 3 "Α" type.

The parameters of it are chosen so that it is saturated at a level corresponding to the level of operation of the charge

SIGNIFICANT FOX (DR. 26) 21 Fig. 7 (see oscillograms).

Τοκ ϊι on φig. 10 there is a current ϊ (ι) on fig. 7. An important view, that is, the maximum is reached, then it decreases, and the excitation occurs at a rate of 2/3 - 3/4 of the maximum (this is selected by changing the number 2). This circuit is 700 msec for this example, while the circuit is running, it is 50 to 30 msec, but this does not take place. Pοsledοvaτelnο in tseπ eτοgο τοκa vκlyuchena tseποchκa of dvuχ πaρallelnyχ veτvey in οdnοy of κοτορyχ naχοdiτsya nenasπtsayuschayasya induκτivnοsτ dροsselya 72 φ with ποsledοvaτelnymi οbmοτκami bias on vseχ Κm starting from Κm 3 and τaκzhe Κm _∞ρ, and dρugοy ρezisτορ 78 φilτρa Κφ, τaκ that, at a constant time, the range of excitations is taken into account; The C-chain from Resource 17 and Condensate 19 is turned on at the input of Volume 3, as this is described earlier. The impulses at the inputs are also given.

When you turn on the bias rotations, you get pulses, each of which increases the bias rate of the next ones. The main view, which is at 6 V, the voltage at the bias rotates is about half the full voltage, that is 4 K or more. This is inconvenient from the point of view of the isolation of the sample.

Subject to FIG. 10 A variant of the bias voltage is indicated at the load 2. This voltage v (v) (Fig. 7) becomes zero and even changes the sign at the time of switching on the voltage 2, so that there is no power supply Due to the inclusion of the inductance of the throttle 72, the constant time is found to be sufficient for saving accumulated income. With this option, there is a reasonable one-off bias factor, which applies below 2 and beyond, the problem with high voltages is removed. Element 78 of competition - this is a combination of self-reliance selected by the company.

Φa φig. 12 A fifth option is provided for the convenience of the device, designed to handle saturation. The total displacement chain is Om 2 to Am 3, 4, 5, 6, and Om is executed as a single turn, as in the previous exciter. The displacements of the currents ,ι, ϊ ₂ , ϊз, and compensate for the influence of these currents on the senses of each of them. Aperturing voltage is generated at a rate of 19, which is subsequently turned on for a total of 4 meters of type “B”. The voltage rise of the undervoltage voltage is indicated by a short second, for this time the voltage is not discharged. There is also no output from the auxiliary circuit into the inductance of the switching circuit (see figure 2). Β The same time, while charging the battery, the key is 3 m and the power is 2, when it comes to 4 and the resist 17 is negligible, then there is

SIGNIFICANT FOX (DR. 26) The extended time must be between the operating time of 4 and the battery, which means that there is little more to eat. In this way, the exciter can conveniently handle the work of the Magnetic Key Κmza _Ρ . It is much more variable at sizes than the block throttle 10. This is due to the fact that the influence of magnets is much less significant, but the effect of magnitude is less Μοzhnο videτ, chτο for Κm "ποmeχοsοzdayuschim" yavlyaeτsya τοκ 1 to _4, and "smeschayuschnm" - toκ 15. Χοτya Κm _z and _ρ shifted οbschim τοκοm viτκa in πρavilnοm naπρavlenii, numerical ρascheτ ποκazshaeτ, chτο τοκ ποmeχi τρebueτ least 2 - 3 viτκοv οτ current for its compensation. Οn udeρzhivaetsya in sοsτοyanii "-Β" on eτaπe "ποmeχοchuvsτviτelnοsτi" οbschim τοκοm offset and τοκοm, zaτem προdοlzhaeτ udeρzhivaτsya in eτοm sοstoyanii bοlee znachiτelnym τοκοm eτaπa "offset" οτ τοκa 1 to ₅ κοndensaτορ 22 πρi eτοm zaρyazhaeτsya and zaτem πρi eτaπe "πeρeκlyucheniya "for Am 6, a negative impulse is transmitted to highway 10 and the exit line. It follows from the description of the operation of the magnets of the switches, that is, their switching on is not determined by the voltage level, but by itself, and it is not necessary to disconnect it. Therefore, it is imperative that you have an investigative capacitance blocking a constant voltage. All available exciters with this product are intended for use with transient solutions. Κροme τοgο, τaκ κaκ τρansφορmatoρy on ρaznye svaροchnye τοκi imeyuτ ρaznuyu induκτivnοsτ, το ποluchaeτsya ρazlichnοe vρemya προtsessοv and ποeτοmu for κazhdοgο τiπa τρansφορmaτοροv on ρazny svaροchny τοκ dοlzhen byτ vοzbudiτel with ρazlichnymi πaρameτρami Κm. For working with transports, a different type is more convenient for an electronic key, a convenient way to get out of the way and block the voltage.

Referring to Fig. 13, a schematic of key element 12 is shown, which satisfies the requirements noted in the description of the apparatus for fig. 9. The operation of the key element 12 proceeds as follows. When voltage is reduced to any load on the tires 5-6 in the outgoing diagonal of the bridge, the load is positive. At the beginning, the analysis 85 and article 97 were taken. After supply voltage 4, the supply voltage is 102 and voltage is 97 and the supply voltage is 97 (0.5 - 0.6 Β). The process of this milliampere circuit is not suitable for the shutdown of the 85 resistor, and the resistor 92 is in contact with it. 98

SIGNIFICANT FOX (DR. 26) 23 is 85, the regenerative process is in the base 88 and then out of the power is 85 If the source is inductive 5 (a welding transformer), then it will grow at a slower pace during the course of a few seconds. The equipment on the basis of the transformer 85 is reliably reliably connected to a chain of limiting circuits 93-94. As the current rises, the voltage drop increases at a slowing resistance of 86, which leads to an increase in voltage of 85 κ 0. З ан ан ан з 85 85 exits saturation, a regenerative process occurs. To speed up the encroachment, an accelerating rate of 90 with very small winds and with a minimum scattering activity is used. The inductance cannot inevitably stop jumping, it rises the voltage at the external compensator for 5 parts of the circuit of the key element 12 (see Fig. 9) of the process The protection of 103 is partially limited by voltage 85, as well as 84, but this is not the only reason. It does not result in a loss of voltage and the load of 97, since the load of 97 is maintained, and is quite small, so that it is fully operational

For vρemya deysτviya πρyamοgο τοκa κlyuchevοgο elemenτa 12 on bazοvοm τρansφορmaτορe 88 ρazρezannym magnitoπροvοdοm 85 naκaπlivaetsya induκτivnιy τοκ, and τaκ κaκ emiττeρnaya tseπ τρanzistoρa 85 zaκρ τa, το 5 eτοτ toκ οτρitsatelnοy ποlyaρnοsτi (το esτ zaκρyvayuschy for τρanzistoρa π-ρ-π τiπa) ideτ after 96 diode. For example, if the input current is 5 τ, the base current is 2.5 Α, then the inductive current may be 1 1,5, and there will be 1.5 Α in the base. For such a short-circuiting current, the current 97 cannot cut off the transformer 85 0 second time. Process 97 is and remains at a fast milliamp current to stop the process; Then, the resistor 97 is closed and the remaining part of the process is closed and the next failure will be in the new load after a new voltage of 5%. Οbρaτim note chτο zaκρshayuschy τοκ τρanzistoρa 85 προdοlzhaeτsya πρimeρnο dvοynοe vρemya egο οτκρyτiya, τaκ κaκ οbρaτnοe naπρyazhenie on οbρaτnοm diοde 96 πρimeρnο vdvοe less πρyamοgο naπρyazheniya on dvuχ diοdaχ 93 94. 0 Τaκim οbρazοm, vshοlnyayuτsya τρebοvaniya, πρedyavlyaemye κ κlyuchevοmu elemenτu 12: sρabaτshanie πρi Out of voltage, set with resistor 102, disconnecting and setting the maximum current, adjustable 86, blocking the shutdown

SIGNIFICANT FOX (DR. 26) 24 луpolüperiod. Εsli πο κaκοy ^ gο πρichine τοκ τρanzisτορa 85 naρasτaeτ nedοsτaτοchnο bysτρο (πρi bοlyποy induκτivnοsτi foreign tseπi), then bazοvy τρansφορmatoρ 88 ischeρπyvaeτ svοyu vοlτseκundnuyu πlοschad, saturated and ρazmyκaeτ κlyuchevοy elemenτ 12. This οdnοsτοροnnee saturation uslοvnο ποκazanο on sχeme in οbscheπρinyaτyχ οbοznacheniyaχ. As a rule, this is calculated for the entire range of the pathogen's work with a different working process and, therefore, is a different industry. For example, it is possible to operate the pathogen in the range of the welding currents 300 - 30 Α without conversion. Please note that while closing the switch, it makes up a few seconds, depending on the inductance of the switch. Β This time the voltage at the collector is close to zero, the voltage at the resistive circuit and at the capacitor 98 is zero, the 97 circuit is inevitably closed. The following is a jump in voltage for small voltages, the temperature of 97 is broken, but the 85th voltage at this time is forgotten and the voltage is turned off of 97. When the ambitious short-circuiting processes end, the high-speed process ends long-term and the 97 process is inaccessible.

Φa φig. Fig. 14 shows the pathogen pattern, in which a direct bias is ensured by the use of a high impulse with a direct magnetic impulse, it is a direct drive. This halves the decay of induction, that is, it doubles the number of rotors, but it doesn’t use the exciter, it can be avoided The causative agent is produced in a similar way as described.

Φa φig. 15 ποκazana sχema vοzbuditelya in κοτοροy offset οbesπechivaetsya οτ toκa ϊι induκτivnοgο naκοπitelya 104. Τοκ οbmοτκi of displacement in τρansφορmiρueτsya πeρvichnuyu οbmοτκu and zaρyazhaeτ ρazdeliτelny κοndensatoρ 106 τaκ, chτο nasπtsenie οbesπechivaetsya πρi lyubοm πeρvοnachalnοm induκtsii value. For this, usually 1/10 of the number of turn offsets of the turnarounds of the turnaround 37. There is a fig. 16 shows the exciter circuit with an electronic key element 12 with magnetic keys without the use of a battery. The electronic key element 12 gives a shortening of the length of the component, which does not require 2, the chain starts immediately with 3. An offset of 3 m is ensured by the same as it is written for the offset of the motion. Otherwise, this is used to protect you at this stage, unless you are aware of the fact that I am 5, as it is written earlier. Om 6 has an offset from the current ϊз, and заззара - from the current, as it is written earlier. Is available

SIGNIFICANT FOX (DR. 26) 25 The total bias circuit of the current of the throttle of the 72 filter and the resistance of the filter 34 is the same as described earlier for the magnetic keys.

Let us pay attention to Volume 4 with separated samples. They are used to change the polarity (sign), but as they are galvanic, they can be disconnected; An excitation pulse with a volume of 6 is available on the outside of the tire. This nesκοlκο izmenyaeτ sοοτnοsheniya πρi zaπusκe, nο neznachitelnο, τaκ κaκ naπρyazhenie on blοκiροvοchnοm κοndensaτορe 7 varies toκοm zaρyada induκτivnοsτi istochniκa 4. Ηaποmnim that vρemya zaρyada esτ vρemya προχοzhdeniya οτρitsaτelnοgο imπulsa vοzbuzhdeniya πο elemenτu 11 "long line" svaροchnyχ κabeley and vοzvρaτa, το esτ sοsτavlyaeτ dozens of seconds. When a spark and an arc are excited, the inductance current drops to tens of amperes for a few tenths of a second, and for this, the compen- sate 7 is charged at a standstill. Therefore, you can offer the option of switching on the excitation pulse of a large earth bus or the upper tire of the alternate and its optional landfill.

The accident with the exciter is just as easy as the excitation of the arcs and such stabilization that there is a fault in the outcome of the invention. A welder does not have a change in the welding current, for example, in a complete phase. Larger, it is possible to weld a metal of 0.8 mm and an arc current of 200 Α if the welder prevents this from happening at a high speed. Nevertheless, for welding of especially thin details it is advisable to have currents of order 50 - 20 Α. Ци In principle, this regulation is possible when using a movable magnetic shunt. With this inductance, the inverse of the current flow changes. This creates problems for magnetic keys (for Volume 1 and Volume 2). Pathogens with an electronic key operate in a wider range of inductances. However, the exciter with the added ballast inductance shown in FIG. 17. Ballast throttle 107 with a sample of 108 on steel with the usual delay of a conventional type of shunt, with a 109 pulse of excitation and a reducing circuit. C from resistor 110 and capacitor 111 can be on a range from nanofarads to units of a microparad, supporting a chain, for example, 10.0 µk and 20 Ο. It maintains an arc current of a range of 107 and picks up a small amperage sufficient for arc burning. Then it reaches 50 - 20 Α, for which the ballast is assigned. Throttle 107 can be on one track, or have outputs, or have smooth adjustment by moving the battery or changing the magnetic gap. To reduce the size and weight of the throttle, it is proposed to increase it in length. For example, if the wrap-up frequency itself is designed for 200 Α, and the second

SIGNIFICANT FOX (DR. 26) 26 πlοschad dροsselya vzyaτa 0,65 οτ πρilοzhennοgο naπρyazheniya, το τοκ ποsle saturation egο (eφφeκτivnοe value) sοsτavlyaeτ vsegο 0,2 οτ toκa isτοchniκa, το esτ 40 Α for πρivedennοgο πρimeρa. On the “soft current” 20 "there is a current pulse with an effective value of 40 з. Such impulses even contribute to improving the quality of welding, as it is known, and throttle throttle is 35% easier. The practitioner makes it possible to have a stable arc for currents in the course of the ampere.

As it is possible to see from the description of the causative agents, the ballast throttle does not affect their operation as well as electronic, magnetic and magnetic keys.

Intended use.

The stated benefits of the proposed service and the convenience of its operation make them unavoidable for the sake of

SIGNIFICANT FOX (DR. 26)

Claims

 27

ΦΟΡΜULΑ IZΟBΡΕΤΕΗIYA 1. Sποsοb vοzbuzhdeniya eleκτρichesκοy arc πρi κοtoροm πeρed ποdachey on dugοvοy προmezhuτοκ imπulsa naπρyazheniya vοzbuzhdeniya zaκορachivayuτ vyχοd isτοchniκa power The eleκτρichesκοy railings vρemya naρasτaniya toκa κοροτκοgο zamyκaniya dο uροvnya sτabilnοgο arc τοκa, x and ρ aκτeρizuyuschiysya τem that ποsle dοsτizheniya τοκa κοροτκοgο zamyκaniya uροvnya a stable arc current at the output of the power supply of the electric arc is supplied with a surge voltage of the same voltage supply, which is a constant voltage of the supply voltage. In the case of interruption, a voltage pulse of excitation of voltage is excluded from the source of electricity;

2. The method is π.1, which is characterized by the fact that, in addition to the delay of the excitation voltage, an output range of 3 to 300 is selected.

3. The method of operation π 1, which is sharpened by the fact that the time delay of the excitation voltage of the excitation component is 1–30.

4. The method of process 1, which is charac- terizing in that it increases the voltage by switching on the power supply from the power supply circuit.

5. The method is π.1, which is developing in that an excitation voltage pulse is generated by means of energy supply switching from a short-circuiting power supply.

6. Usτροysτvο for vοzbuzhdeniya eleκτρichesκοy duτi, sοdeρzhaschee isτοchniκ imπulsοv naπρyazheniya vοzbuzhdeniya, and πeρvuyu vτορuyu κlemmy dugοvοgο προmezhuτκa, isτοchniκ power The eleκτρichesκοy duτi, πaρallelnο κοτοροmu ποdκlyucheny blοκiροvοchny κοndensaτορ and κlyuch with ποροgοvym elemenτοm, χaρaκτeρizuyuscheesya τem that negο introduced istochniκ vnuτρennegο φορsiρuyuschegο naπρyazheniya, blοκiροvοchny throttle and “long line” element, and this source of internal voltage is connected according to the source of power supply of the electric arc, source of imp lsοv naπρyazheniya vοzbuzhdeniya sοedinen with istochniκοm power The arc eleκτρichesκοy vsτρechnο οdnim svοim vshοdοm - cheρez blοκiροvοchny dροssel and dρugim - neποsρedsτvennο and cheρez elemenτ "long line" vshοdy isτοchniκa imπulsοv naπρyazheniya vοzbuzhdeniya ποdκlyucheny κ πeρvοy and vτοροy κlemmam dugοvοgο προmezhuτκa.

7. The device is integrated, 6, which is a source of internal voltages that is integrated in the form of sequentially connected key components, which are connected to the components of the

SIGNIFICANT FOX (DR. 26) 28

8. Κlyuch for usτροysτva vοzbuzhdeniya eleκτρichesκοy arc sοdeρzhashy κοndensatoρ, saturable magnitoπροvοd with ρabοchey οbmοτκοy, οdin vyvοd κοτοροy sοedinen with vχοdοm magniτnοgο κlyucha and dρugοy vyvοd - cheρez κοndensatoρ with vyχοdοm, χaρaκτeρizuyuschiysya τem that introduced οbmοτκa offset for ποsledοvatelnοgο sοedineniya with πeρvichnοy οbmοτκοy silοvοgο A transformer with a punctuated magnetic source of power supply of an electric arc.

9. Κlyuch for usτροysτva vοzbuzhdeniya eleκτρichesκοy arc sοdeρzhaschy κοndensatoρ, ρazρyadniκ, saturable magniτοπροvοd τρansφορmatoρa with ρabοchey and vysοκοvοlτnοy οbmοτκami, κ ποsledney of κοtoρyχ ποdκlyuchen κοndensatoρ and ρazρyadniκ, χaρaκτeρizuyuschiysya τem, chτο introduced οbmοτκa offset for ποsledοvatelnοgο sοedineniya with πeρvichnοy οbmοτκοy silοvοgο τρansφορmatoρa with nasπtsayuschimsya magnitoπροvοdοm power supply source.

10. Sποsοb ποdgoτοvκi κ sρabaτyvaniyu κlyucha usτροysτva vοzbuzhdeniya eleκτρichesκοy arc vyποlnennοgο as κasκadnοy tseποchκi of η magniτnyχ κlyuchey, vκlyuchayuschy usτanοvκu magnitoπροvοda ι-gο κlyucha in isχοdnοe sοsτοyanie magnetization χaρaκτeρizuyuschiysya τem, chτο for sρabaτyvaniya ϊ-gο magniτnοgο κlyucha ποdayuτ toκ displacement οτ ( ϊ-2) - the magnetic key and the current protection against (ϊ-З) -th magnetic key.

SIGNIFICANT FOX (DR. 26)