Self-excited push-pull type converter
A self-excited push-pull, converter technology, applied in the direction of conversion of DC power input to DC power output, AC power input to DC power output, output power conversion device, etc., can solve the problem of poor short-circuit protection performance, short-circuit time Long, efficiency and short-circuit protection performance are not well balanced, etc., to achieve the effect of high-efficiency short-circuit protection performance, short-circuit protection performance improvement, and good short-circuit protection performance
Active Publication Date: 2013-09-25
MORNSUN GUANGZHOU SCI & TECH
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Problems solved by technology
[0012] 2. The efficiency and short-circuit protection performance of the existing Royer self-excited push-pull converter are not well balanced
That is, the efficiency and short-circuit protection performance of the existing Royer self-excited push-pull converter are contradictory. During the design, it often occurs that: the short-circuit protection performance is good, and the conversion efficiency is low; poor protection
[0014] 3. For the Royer self-excited push-pull converter circuit (such as image 3 ), the existing technology cannot achieve a good output short-circuit protection function. Basically, when the load is short-circuited, due to the existence of the damping inductance L1, the circuit cannot work at a relatively high frequency, and the first triode will be burned in a short period of time. TR1 and the second transistor TR2
[0015] 4. When the load is short-circuited, the existing Royer self-excited push-pull converter consumes a lot of power, and the short-circuit time is slightly longer, ranging from a few minutes to half an hour, and the circuit is easily damaged due to heat.
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Embodiment Construction
[0045] Image 6 It shows the self-excited push-pull converter of Embodiment 1 of the present invention, including filter capacitor C, bias resistor R1, starting capacitor C1, first triode TR1, second triode TR2, transformer B and inductor L N , its circuit structure is the same as that of the self-excited push-pull converter (such as figure 1 ) are basically the same, the only difference is that the power supply terminal Vin passes through the newly added inductance L N connected to the center tap of the transformer B primary winding, the inductance L N The inductance is less than one-tenth of the inductance of one of the primary windings (NP1, NP2) in transformer B, and the center tap of the primary winding is the connection point between the first primary winding NP1 and the second primary winding NP2.
[0046] Among them, when the values of the two primary windings (the first primary winding NP1 and the second primary winding NP2) of the transformer B are different, the...
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A self-excited push-pull converter, which comprises a Royer circuit, wherein an inductor is further connected between a supply terminal of said Royer circuit and a center tap of primary windings of a transformer in said Royer circuit, an inductance amount of said inductor is less than 1 / 10 of the inductance amount of one of the primary windings of the transformer, and the center tap of said primary windings is a connection point between the two primary windings of said transformer. The self-excited push-pull converter of the present invention show high consistency, easy adjustment, low requirements on the manufacturing process and good short circuit protection performance.
Description
technical field [0001] The invention relates to a self-excited push-pull converter, in particular to a self-excited push-pull converter in DC-DC or DC-AC in industrial control and lighting industries. Background technique [0002] The existing self-excited push-pull converter, the circuit structure comes from the self-excited oscillation push-pull triode single-transformer DC converter invented by G.H.Royer in 1955, which is also the beginning of realizing high-frequency conversion control circuit; some circuits From the self-excited push-pull double-transformer circuit invented by Jen Sen in the United States in 1957, it was later called the self-oscillating Jensen circuit; these two circuits are collectively referred to as the self-excited push-pull circuit pull converter. Compared with the self-oscillating Jensen circuit, the Royer circuit has an advantage. When the output load of the Royer circuit is short-circuited, the circuit design can realize the short-circuit prot...
Claims
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IPC IPC(8): H02M1/32H02M7/519H02M7/516
CPCH02M3/3384H02M7/53835H02M3/337H02M3/01
Inventor 王保均谢德刘伟
Owner MORNSUN GUANGZHOU SCI & TECH
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