DE1538931A1 - Circuit arrangement for pulse converter - Google Patents

Description

Circuitry for PulastrcKriahter The invention .bezieht to a circuit arrangement for Fuisstromrichtera d ie from a constant DC voltage source singe consumer a variable voltage supplies, consisting of a Zindthyristar and a% öschthyristor and einem- Zösokkondensator4_ It is already under the name of Morgan .The circuit beka It has become, which enables the charging of the Lvsch * oudensatcrs in the circuit of a kulsstromrichtex, but has the factual part that it does not allow a high switch-on ratio, since the signaling is done automatically by the oscillation = Voxgz.

The invention has set itself the task of enabling, for pulse control devices e .B o: lsstromriehters, especially at low operating voltages, a safety system that charges the extinguishing capacitor to a multiple of the sliding voltage so that: there is a reliable extinction, and . ande2er $ QITS deich time a better duty Srtinduagagemäß is proposed which Lösehicondeneator DSSS. is charged from a transformer whose Priaärseite is located in the main circuit between Gleichepannimgaquelle and consumers and whose Sekomoadürwic & Lung parallel to Ldschthyristor in series with a diode, the discharge of the Lciaghkondensators after is charging prevented, wherein a throttle is arranged in the erase circuit of DC voltage jellyfish Läachkenden Bator and quenching thyristor which generates an overvoltage on -the quenching capacitor after the deletion.

The Schalngsanordapng according to the invention is thus distinguished by a laststronabhängiga läschkondensatorautladung aua, so that the blocking time decrease in Züudthyristar to a xüi by corresponding Xondansa * boxspannungsstegenmg certain limit current, the wirdp determined by the Thyristar is cozy at3.agogl. This stram-dependent inflation causes: that at. With a small current, only small capacitor voltages are generated and with a large current, large capacitor voltages are generated. By using a läsohthyrietar 9 rain better switching ratio is achieved.

A drawing is used to explain ainQ Erkindongog @ räßig circuit in a samordviuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuu number - The .als @ s @@ e @, oxxga @ aa.ng consists of a Zündtbyrstor 11, with these ignitions the Laetetron to ...,. begins to flow. -The Trsasf®rnator 2 translates this current to its secondary side 22. This secondary current flows through the coil 22, via a block diode 3, the capacitor 4 is prevented from discharging after charging, via the commutating capacitor 4 and the Zündth7ristor 1 to the transformer 2 back and charges the quenching capacitor 4. During the charging process, the capacitor voltage rises almost linearly over time as a function of the load current. This capacitor voltage is always the same as the transformer voltage and is replaced by the transformer on its primary side *. The transformer primary voltage is the opposite of the battery voltage derived from the Gleiahspanmuagequ $ lle 5. The charging process is finished when the translated capacitor voltage equals the battery voltage. The quenching capacitor 4 then has the maximum achievable voltage. The charging process is: ended early if transformer 2 saturates when charging the wake-up capacitor 4.

When the Th7ristflr®`6 is ignited, the extinguishing process is initiated. Whenever the voltage of the quenching capacitor 8 4 commutates the load current from the riator 1 thyxistor 6. The quenching capacitor is reloaded by lastetron, and the thyristor 1 is quenched. Due to the effect of the inductance of the choke 7, the capacitor voltage oscillates over the accumulation of the battery from the pond voltage source. This overepg is now available . the series connection of the primary winding 21 and the secondary winding 22 of the transformer 2 and magnetizes it back so that the next time it is switched on, the voltage time area aG = charging of the Uschkodensators 4 can be transmitted again. In this way it is possible, according to the invention, to ensure the rick magnetization of the transformer in a simple manner. In order to reverse the magnetization of the tranefomator for the first cycle after a switching process , a pre-magnetized winding 23 is provided on it. The panel control circuit is completed by a consumer $ to which a so-called pre-run diode 9 is connected in parallel .

Claims (1)

F at antansr ua h circuit arrangement for .Pulaetromrichter, which from a constant DC voltage signal to a consumer a variable voltage voltage = g Mufüart, consisting of an ignition transistor and a quenching transistor Bowie a quenching capacitor, characterized 'that the L2 quenching capacitor (4) from a transformer a 'Litgeiadn, whose primary side (21) is in the main circuit between: IS-Chcn DC voltage source (5) and consumer (8), imd its secondary connection (22') parallel to the soldering thyristor (6) in series with a diode (3) , which prevents the discharge: of the quenching capacitor (4) after charging, is arranged) where: in the quenching circuit of the DC voltage source (5), Lt3schkondensat®r (4) and light transistor (5) a choke angec 9 (3.net fiste die After the extinguishing process, a voltage is generated on the extinguishing capacitor (lk).