DE2123855A1 - Stabilized DC power supply - Google Patents

Description

Dr. Waiter Langhoff

Patent attorney »* · ί ·: j r, ^ ₁ ~ _{Λ η} * _ΛΛ

. .., Munich, 7 "Max 19/1

8 Munich 81

14 _{Un3ez, Ze} cozy: 45 ~ 822

Stabilized DC voltage power supply unit

The invention relates to a stabilized DC voltage ^ current · - = supply part with a breaker switch belt with two in the opposite = clock arranged transistors and a power transformer, with a primary winding fed by the transistors and a secondary winding with devices for rectifying and filtering the secondary voltage, a logic unlocking circuit with two each connected to the base of the transistors Gates, a control oscillator connected to these gates, a bistable multivibrator »a differential amplifier, ■ which the rectified and filtered voltage with a reference * voltage compares »and with devices for generating rectangular control signals for the gates, with the pulse width these control signals are modulated in accordance with the Abctand of these voltages

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is, and wherein between the bistable multivibrator and the differential amplifier a device for ensuring complete static isolation is provided, according to patent No. "(patent application P 20 15 245 _o 8) ₀

Such devices are used in particular for eating different types of electronic circuits "

Wlrd it has already been proposed "the feedback loop which connects the Differentialverstärkst 'with the circuit breaker, so as to form, that the time sistoren the conductivity of the two Tran" regulated during this commutation period. ₉ whereby the period of the commutation is fixed and is predetermined by a control oscillator ο

According to a known circuit, the time of conductivity of the transistors controlled by means of two thyristors, on whose control electrodes error signals in the form of position-modulated Irapul ~ sen concerns ο

This solution has the major disadvantage that it cannot be used for high commutation frequencies (above 20 kHz), which are unavoidable in some areas of application, especially when feeding a telephone network where none of the hearing perceptible frequency is permissible »

In another known circuit dia Dau ^ r of Le it "· state, the transistors overall ^j controlled by a Entriegelungsfschaltung, namely center Ls an error signal generator, deep -vfnan mono vibrator mnfaüst, the ^one by a signal in his xnBfcd.bi .laii state is changed because «from the signals of the SI: aileron:«. 1.1. λ tors ge is delivered, and the "Ln its stable condition after" Lneia time interval, vers ".t ^ t knew which function of the" Differ-en / ä dar output Bpanmmg and de.?; Sol U / he did tea.

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A major disadvantage of this last-mentioned circuit is that it has inadequate electrical insulation between of the battery and the output terminals by the control circuits and the power circuits having a common Have mass

The invention is based on the object of a power supply part of the type mentioned so that this is a high Exhibits high efficiency performance ^

The solution to this problem is to be seen in the fact that the device for generating rectangular, pulse-width-modulated Control signals for the gates includes a semiconductor light coupler, which also serves for static isolation Sawtooth generator, a first transistor whose base is connected to the sawtooth generator and whose collector is connected to the Output of the light coupler is connected to a second transistor whose base is connected to the collector of the first transistor and whose collector is connected to the two gates, and one between the base and emitter of the second transistor switched diode, the emitter of the first transistor being biased by a higher voltage than the emitter of the second Transistor.

The circuit after registration is space-saving, has excellent electrical insulation between the input batteries and the output connections and works at switching frequencies above 20 kHz ^

The invention is in. following based on schematic drawings additionally described using an exemplary embodiment "

Figure 1 shows a schematic diagram of the DC voltage converter according to the invention, and

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* · If «.

FIG. 2 shows the circuit of the control oscillator and of the generator for the square-wave control signals of the gates of the circuit according to FIG _. 1 in detail

The DC voltage generator according to Figo 1 comprises a line stungstransformator with a primary winding 45 and one first secondary winding 46 connected to a rectifier cell

47 is connected, which in turn is connected to the output 48 of the circuit _c The center tap of the primary ™ winding 45 is connected to the positive pole of a battery of

48 volts voltage connected = there are also two transis = gates 49 and 50 are provided, which form a breaker <, The emitters of these transistors are connected to the negative pole of the battery via line 51 = Die The circuit also includes two power gates 52 and 53, a flip-flop 54 and a differential switch stronger 55, This receives on the one hand a reference voltage that comes from a constant current generator 56, the one Ze / rter diode 57 feeds, and on the other hand part of the output ~ output voltage, which is generated by a voltage divider with the resistor « stands 58 and 59. There are also security «* = facilities provided, namely a current limiter 60 and a high voltage protection device 60a,

Finally, as in the device according to the main patent, an auxiliary rectifier and filter circuit 81 is provided, those with an auxiliary secondary winding 62 of the power transform * = mators is connected and feeds the power gate with a voltage of 6 volts, for example.

A start-up circuit 62 conducts the battery voltage during the Switching on for a short time to the gates «

The structural units mentioned above can be constructed in accordance with the structural units described in the main patent _Q

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The opening of the gate is controlled to be determined by the control oscillator Bh time points by the multivibrator Sh _α The master oscillator is preferably a simple alloy transistor (6UL in Fig. 2), which is connected in a known manner so that a sägezahnförndg abklxngende voltage having for example a Frequency of 48 kHz is generated. This vibration can "be synchronized by a signal derived from an external device connected to the terminals 65 current source" The oscillator 64 generates, among other pulses of the same frequency "used to control the order" circuit of the multivibrator are _n latter alternately opens the two gate , the interruption frequency in this exemplary embodiment being 24 kHz.

The closing of the gates is controlled by width-modulated right-angle signals _/ as a function of the difference between the reference voltage (e.g. 5 volts at the connections of the Zener diode S7) and the part of the rectified and filtered output voltage of the voltage divider 48, 59 η an error signal, which is proportional to this voltage difference, is applied via the differential amplifier ^ 5 to the luminescent diode 6Ea of the light coupler 66, namely via two amplifier transistors 67 and 68, the base of the latter being connected to the collector of the current limiting device via a resistor Transistor is switched. The phototransistor 66b of the light coupler serves as a current generator, the current of which is a function of the fault voltage. This current "generator is, as will be explained further below, inserted into a circuit 6 9 with two transistors, the function of which is to close dor gate at such a moment of Komrautierungszykluf; to cause which is an inverse function of the fault voltage int:

VJie in the execution "from according to FIg L of the H.iuptpatanttif" eats: ultimately the ti firmness. «'t: doz · Trviiieir.toi'fm lir Unte

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circuit itself inversely proportional to the fault voltage, so that this is reduced to 0 »

It should be mentioned that the light coupler provides excellent insulation between the output of the circuit (secondary winding of transformer _9, differential amplifier and luminescent diode 66a) and the power circuit connected to the battery, which is connected to the primary winding of the transformer and phototransistor 66b . This circuit is very simple and takes up little space

The current limiting transistor 60 arrives when exceeded the current threshold in the conductive state, so that the collector current of the transistor 68 rises. Therefore, the luminous flux emitted by the light emitting diode 66a also rises, whereby the latter End the opening time of the gates is reduced and so the,. Output current of the circuit is limited o

2 shows a control oscillator which essentially comprises a unijunction transistor 6m, one base of which is connected to ground and the other of which is connected to a voltage of plus 15 volts. The emitter of the transistor is connected to ground via a capacitor 6H2 and a resistor 613 and on the other hand connected via a resistor 6H5 to the base of a first pnp transistor 691 ^ The base is also connected via a resistor 6 ^ 6 to a voltage of plus 15 volts »The emitter of transistor 691 is also connected to a voltage of pulse 15 volts , while its collector on the one hand to the base of a second pnp-TrnriBliifctn's 692 and on the other hand to the collector of the phototransistor ^; 6Sb is connected. The emitter of the same Lfit is grounded, while the base is left free. The KoILektor ^{1 of} the sweeten Tx'anSLBtorB 696 is connected to the terminal 69a of the "HnUaLtVmK of Fig. 2" and the emitter of the same to auto poij.i.:;j . ^: / n tension, wileha noticeably lower L & t._ win dir »Spur-young

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at the emitter of transistor 691 “The base of the second tran ~ sistor 692 is via a diode 693 also with the positive, low voltage of e.g. plus 6 volts

The circuit according to Fig,> 2 has the following mode of operation «

At the beginning of each functional cycle of the converter, the capacitor 6H2 is charged and discharges in an exceptionally short time compared to the period of the circuit via the base-emitter path of the transistor 641, the ground and the resistor 643. This becomes a negative at point 64 a Pulse generated, which causes the switching of the flip-flop 54 “ The latter then reaches a state that corresponds to the open state of the gates, d <h. the presence of a voltage between the collectors of the transistors 49, 50 and thus at the connections of the primary winding 45. This voltage is alternately positive and negative in successive periods _{or the like}

The capacitor begins slowly from the positive pole of the voltage source of 15 volts via the resistors 646, 645 and 643 to charge α The transistor 641 is at this moment locked. The transistor 691 conducts and its output signal reaches the diode 693.

If there is no fault voltage, the photo transponder generates ~ sistor 66b no current As soon as the transistor 691 conducts, that is until the end of the sawtooth-shaped charging of the capacitor 642, which occurs with the appearance of a new pulse at the connection 64a coincides, the output signal is passed through diode 693 and blocks transistor 692 ο This is only activated at the end of the Sawtooth signal reopened while the gates remain open during the entire period,

When an error voltage occurs, the phototransistor 66b generates a current I ₂ , which is greater, the higher the error «voltage is». To the extent that the capacitor charges,

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decreases the collector current I ₁ of transistor 691 and the current I ₃ = I ^ · "I" flowing to the transistor 692 and the diode 693, until the current becomes 0, and its direction changed When Richtungsuntkehrung of the current I ₃ is the transistor 692 is conductive, so that the gates are closed »The closing time of the gates is inversely proportional to the error voltage *

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Claims (2)

Claims A stabilized DC voltage power supply with an interrupter circuit with two transistors arranged in opposition and a power transformer with a primary winding fed by the transistors and a secondary winding with devices for rectifying and filtering the secondary voltage, a logic unlocking circuit with two each with the base of the transistors connected gates, one associated with these gates control oscillator, a flip-flop "a differential amplifier which compares the rectified and overall filtered voltage with a reference voltage, and with means for generating rectangular control signals for the gate, d i. & pulse width of said control signals according the spacing of these voltages is modulated, and a device for ensuring a completely static isolation is provided between the bistable multivibrator and the differential amplifier, thereby ge indicates that the device for generating rectangular, pulse-width-modulated control signals for the Satter comprises a semiconductor light coupler, which also serves for static isolation, a sawtooth generator, a first transistor whose base is connected to the sawtooth generator and whose collector is connected to the output of the light coupler is connected, a second transistor whose base is connected to the collector of the first transistor and whose collector is connected to the two gates, and a diode connected between the base and emitter of the second transistor, where the? The emitter of the first transistor is biased by a higher voltage than the emitter of the second transistor, 2. Power supply part according to claim 1, characterized in that that the gates are fed during their current flow by a voltage that comes from an auxiliary rectifier and filter circuit, which is connected to an auxiliary winding of the power transformer, and that the Satter at * 109848/1413 Starting the converter connected to another auxiliary circuit closed are »those fed by the food torah spring will* Power supply part according to claim 2 »characterized in that the sawtooth generator is connected at the same time as a control generator and comprises a uni-function transistor which is connected to a capacitor in such a way that it suddenly discharges at a certain voltage and commutation pulses are given to the bistable multivibrator» and äa & der Capacitor Can be slowly charged via a resistor to generate a sawtooth voltage 109848/1413 Blank page