DE875552C - Device for tempering glow cathodes, in particular transmitter tubes - Google Patents

Description

Device for tempering hot cathodes, in particular transmitter tubes 'It is already a device for tempering hot cathodes, especially of Transmission tubes, have been proposed in which the heating element of the hot cathode, which is fed directly or via a rectifier from an alternating current network, a Choke coil is connected upstream, which depends on the resistance of the heating element is premagnetized in such a way that the heating current, starting with a low value, automatically according to a given tempering curve up to the vicinity of the operating value increases. The present invention relates to a further embodiment of this device and is based on the knowledge that when switching on, if no special measures are taken, a current surge in the heating element for about half a period arises, which is significantly greater than the initial current value specified by the starting curve. This inrush current is caused by the fact that the choke as a result of the previous The premagnetization still has a certain remanence in an earlier operating period. As a result of the inrush current that hits the cold cathode, a strong, jerky mechanical stress is caused on the heating element; the invention exists in that means are provided which have the effect of increasing the inrush current eliminate the remanence of the throttle or at least reduce it to a harmless level.

There are a number of possibilities for carrying out the invention. For example, the throttle can be dimensioned so that the switch-on the cold cathode as a result of the remanence occurring current surge the permissible initial current value not reached. However, such a dimensioning of the throttle initially results in that when the reminence impulse subsides, the starting current goes back to a value, which is significantly lower than the prescribed starting curve and accordingly for heating up: the tube is no longer sufficient. It becomes immediate as a result after the resonance surge has subsided, the premagnetization artificially so far raised that the subsequent .strom again on the prescribed starting curve lies. You can: - For this purpose, an additional voltage can be added to the pre-magnetization circuit einschälteh, which increases the bias current sufficiently. The switch-on time this additional voltage can either be through a time delay device or through it be determined; that the switch-on depends on the heating current itself he follows.

Another possibility is that the heating element is initially bridged or short-circuited by a parallel path when it is switched on, so that the remanent current surge flows via this parallel path and:. Not via the heating element. It has proven to be particularly expedient to short-circuit the transformer feeding the heating element, that is to say the rectifier transformer when it is fed via a rectifier, on the primary side. Such an arrangement is shown in the drawing. The heating element of a transmitter tube i is connected via a rectifier 4 to the secondary winding 42 of the transformer, the primary winding 41 of which is fed from the three-phase network 2 and contains the working windings 5 of the regulating chokes in its star point. The DC excitation windings 6 are connected to the voltage on the heating element of the tube i during starting. The working contacts 44 of a contactor 43 are now parallel to the primary windings 4i of the rectifier transformer. This contactor also has an auxiliary contact45 which closes together with the working contacts 44 and which is connected in series with the excitation coil of the main contactor46. In addition to its normally open contacts 47, the main contactor 46 also has auxiliary contacts 48 and 49, of which the former is closed when it has dropped out and the latter when it is attracted. The field winding of the auxiliary contactor is energized for 43 when the control switch Su closed auxiliary contact 48 of the main contactor .. When the control switch 50, only the contactor 43 moves as a result, first, while the coil of the main contactor 46 is only energized when the auxiliary contactor 43 has closed its auxiliary contact 45 in the attracted state. When the main contactor 46 then closes, its auxiliary contact 4.8 opens, so that the auxiliary contactor 43 'drops out again. The main contactor 46 ″ holds itself - as long as the - control switch 5o remains closed via its auxiliary contact 49 and only drops out when .the control switch 5o is opened again. In this way it is achieved that at the first moment after switching on of the control switch 5o the working windings 5 of the regulating chokes initially have alternating current flowing through them, but without the heating element of the tube i receiving voltage If the contactor is controlled with direct current, a damper winding or a similar device is sufficient.

In a similar way, the arrangement can also be made in such a way that the rectifier or the heating element is only switched on when the Reactors have been around for a while; 1i. at least during a half-wave, have been flowed through by alternating current.

The remanence can also be eliminated from the outset by before switching off the heating element each time, first the DC voltage regulation: g the chokes switches off and thus the chokes for a short time without premagnetization operates. Finally, you can also use the control throttles riding a small air gap provided, which makes the remanence practically ineffective.

Claims (7)

PATENT CLAIMS: i-. Device for starting immediately or Incandescent cathodes fed by rectifiers from an alternating current network by reducing, of the resistor connected upstream of the hot cathode, in that in the alternating current circuit an inductance equipped with a DC exciter winding is located whose Pre-excitation depends on the voltage or the current of the hot cathode heating element, characterized in that means are provided which the inrush current Eliminate the increasing influence of the remanence of the choke or on a harmless one Reduce measure. 2. Device according to claim i, characterized in that the The choke is dimensioned so that the inrush current that occurs as a result of the remanence the permissible bias current corresponding to the cold heating element The initial current value does not exceed and that after the remanence current surge has subsided the bias, e.g. B, by switching on an additional voltage, is increased, that the current in the heating element increases to the value given by the tempering curve. 3. Device according to claim i, characterized in that before switching on of the heating element, the choke is connected to AC voltage alone. 4: establishment according to claim 3, characterized in that the inrush current takes place over a parallel path of the heating element: 5. Device according to claim 4, characterized in that that the parallel path by temporarily shorting the primary side of the heating element feeding transformer is formed. 6. Device according to claim 5, characterized characterized in that a contactor used to short-circuit the transformer Closing the main switch only allows when it is closed and through the closing of the main switch is opened again with a delay. 7. Establishment according to claim i, characterized in that before the heating element is switched off the DC excitation of the choke is interrupted. S. device according to claim i, characterized in that the throttle has a small air gap.