DE2436428C2 - Electronic DC voltage divider for radio and television sets - Google Patents

Description

Voltage dividers are used in particular in Broadcast, television, and related equipment bcnöti'U. The different voltage requirements of the various components and assemblies of such devices leads to MeLn in the power supply section Branches with ohmic voltage dividers. Häiiti «you can find three different basic supplies for small signal amplifiers or integrated circuits, for tuning voltages of the with "capacitance diodes working tuner and door the power output stages.

In firefighters, and especially in television receivers There are further groups of tension Area of horizontal deflection, high voltage generation, vertical deflection. Congruence- and pincushion equalization circuits. Video and color reproduction, sound generation or remote control circuits.

If ohmic voltage dividers are used, then this is always associated with considerable power loss and heat generation.

In television sets, the horizontal deflection circuit with the option of voltage converter is often used used in the flyback transformer. However, this circuit has the disadvantage that at larger power consumption an interference modulation of the horizontal deflection can be caused and that additional stress, losses and heating occur in the horizontal output stage and reduce their service life. To an often desired one Beam current-dependent control of the horizontal deflection must also be omitted here.

Another possibility to achieve voltage divisions with less loss is a mains transformer or the transformer of a switched power supply. Weight, footprint and magnetic Interference fields are the main disadvantages here.

Electronic voltage dividers have also been proposed (e.g. P 24 11551, W.Schröder. 1971), which with electronic switching arrangements different duty cycle of square-wave pulses or generate different repetition frequencies. Because the semiconductors used for this purpose As switches work with very little loss, they can also easily be integrated into integrated circuits accommodate. However, the electronically chopped voltages have to be converted to the desired ones afterwards DC voltages are integrated. If

3 4

no inductive components used for this purpose, but switches, such as. B. transistors or thyristors, earth as usual, ohmic resistors and condensers, so their number can be reduced.
borrowed losses. The invention has the particular advantages that

The invention is based on the object of providing a 5 compared to the known Ohinschen Spanmmgsiei-

DC voltage divider to create the naci. learning or electronic task switching without

electronic principle and largely low-loss ar- transformer reduces the power consumption at an

working. power output Λ '<) by the division ratio / !, d. H. on

According to the invention, this task is thereby reduced by ee A "■". Compared to transformers this results

triggers the fact that the direct or alternating voltage has the advantage of a significantly reduced weight

source, the voltage of which is to be divided, minimum and absence of magnetic interference fields,

at least two series connections connected in series. Another advantage is that the

in a charging current direction, epolten charging ration of the voltage circuit according to the invention!

connected to a diode and a capacitor are lines in monolithic technology or in thin-

and that the positive poles of all capacitors over 15 each and thick film technology can easily be carried out and \ or-

one in the direction of the discharge current. ·, «epolte Entleilhaft is. There is also a combination with the

charging diode to the positive pole of the common 7u supplying circuitry arrangements on one

Output as well as the negative poles of all capacitors common chip possible.

via one each polarized in the direction of the discharge sirome. Furthermore, the invention offers particularly advantageous

Discharge diode to the negative pole of the common - ^a solution to measurement problems that are high

Output lead and that the consumer relate to voltages and small currents

an electronic switch during the discharge of the voltage step-down transformer according to the invention

phase of the capacitors at the common outlet. which simultaneously with an upward demand

gane switched and connected during the charging phase of the niation of the available measuring current

Capacitors can be separated from it and dal ' ² 5 den.

Either the input alternating voltage uni »the switching finally can be a practically perfect signal for the electronic switch is supplied; or replacement of isolating transformers with the help of »In a separate signal generator and that in the event of an electronic disconnection from the power supply. DC voltage source at the input »another electrical, especially if a capacitive energy storage tronischcr switch is provided in series with the first charging diode 3 °, that of two electronic switchers in their place is inserted, the antiphase tergroups all-pole alternately to the Versorzum Another electronic switch is switched from a supply network and to the consumer existing AC voltage or by means of the Si and the control circuit of the electronic switch signal generator is switched. must be net / coupled.

This circuit forms the basis of a circuit. 35 Embodiments of the invention are in the Build voltage divider circuit, shown with respect to the drawing and begeringen in more detail below Losses recorded with a voltage multiplier. It shows

circuit is comparable. This latter, generally Fig. 1, the basic element of the invention

known circuits, also allow a different circuit, which as a matrix element in any Ai-

low-noise voltage transformation, but with 40 numbers in direct voltage split circuits connected to one another

the difference is that it can be used with the known.

Circuits for a low-loss multiplication.

the voltage, but with the invention to a game with which the input voltage to a fouri el

low-loss voltage division is divided by whole multiples,

acts. 45 Fig. 3 · an embodiment according to the invention

A simplified circuit is shown in the follow-up game, in which a llalbiersclialtung is provided.

the invention is that an input and an output with self-oscillating electronic switches

input pole of the circuit arrangement works directly with one another and

which are connected and the discharge diode of the n-th E i g. 4 one with thyristors or transistors ar-

There is no capacitor at the connected pole. 5 »Required correct circuit.

Another simplified version of the invention shows one of the capacitors CvO with formation consists in that the poles d_s / i-th condensers are connected as a common output in the direction of the capacitor charging the capacitor, where the current directional charging diode / > vO. The letter v in the case of the discharge diodes of this capacitor is intended to indicate that for this value from 1 ... / 1 and the consumer can be used directly on the / i-th capacitor. The associated Ansator is connected. and one pole of the capacitor circuits α and b of this basic element are connected several times in a row via an electronic switch on the connecting connections. connection point of the first group of discharge diodes, which leads to a simultaneous charging of all in series, while the other directly with the connecting capacitors in the first charging phase reaches the connection point of the discharge diodes of the second group 6 ». The invitation diode OvI, connects to the positive pole. of the capacitor with connection c and the

Furthermore, it is according to a further training dei loading diode DvI with the negative pole of the capacitor

Invention possible that in each case two of the forehand the connection d. In the overall circuit are all

NEN electronic switch connected to one another and form a common connection c

Form a multivibrator that provides the switching cycle. 65 a common positive pole. All connections d are

If according to another embodiment also connected to each other and make the

According to the invention, the charging and or discharging diodes are common negative poles. In the discharging phase at least partially or entirely electronic are all capacitors across these connections

connected in parallel to the consumer, for which purpose a an additional electronic sounder is sufficient.

Tn Fig. 2 is C! a signal generator with three output lines. The middle line is connected to the reference potential of the circuit, on the other two lines there are reverse-phase switching signals, one for the control electrode of the electronic switch 71, the other for switching the electronic switch 72. Transistors or thyristors can be used as electronic switches. In the charging phase, the switch 7 2 is conductive and the switches are blocked, all capacitors ClO to CnO in series are opened

aufccladcn when their capacities meet each other

are the same.

If there is an AC voltage source El, El. whose voltage UE is to be divided, Tl can be omitted. Ti can then also be switched directly from the alternating voltage, and instead of G, a signal processing, possibly with a phase reversal, would have to be used in this case.

Upon application of a DC voltage to FAIEl Although the switch Tl is needed, however, the diode DLO can be saved.

During the discharge phase, switch 7 2 is blocked and 7 ~ 1 conducts. Then all capacitors ClO ... CnO on the one hand via the F.ntladediodcn DU. YOU. D 31, DnI and on the other hand via · ■ *: Entladediodcn D 12, D 22, D 32, DnI parallel nn the consumer R placed. The filter resistor S and the filter capacitor C serve to smooth the divided DC voltage occurring at R. Λ "and C can also be omitted at higher switching frequencies. The discharge diodes D nl and D nl are also saved if the connections 1 and 2 shown in dashed lines are used.

The circuit of FIG. 3 halves the input voltage UE at the consumer resistor R. if one disregards the voltage losses at the resistors Ri. Rl and S. Of course, any integral voltage divider ratio can also be introduced here if the basic element of FIG. 1 is used in an appropriate number. What is essential here is the example of the transistors 7 1 and II operating in a self-oscillating multivibrator circuit, which simultaneously form the electronic switches, ft 1 and Rl are their collector resistances. the mutual positive, capacitive feedback from the collector of one transistor to the base of the other transistor takes place via the capacitors C1 and C2. The land of opposition R 1

ίο serves at the same time as the limiting resistor for the capacitor charging current and R 2 as a filter resistor for the discharging current from the capacitor ClO.

It should also be mentioned that the switch or transistor Tl in this example simultaneously fulfills the function of a charging diode DrO or D (n ... 1) 0. The rest of the way of working corresponds to that for F i g. I and 2 explained function.

A simple tension-controlled voltage halver is shown in FIG. 4 shown. During the positive voltage phase, de ^r control transistor 73 receives base current from the mains voltage via resistor R 7 and short-circuits the gate of thyristor 71 to its cathode, so that 71 blocks. During the time IL shown in the diagram, charging current flows through the diode D10 into the capacitor ClO and through the diode DnQ also into the capacitor C / iO.

In the negative mains voltage phase, the negative part of the hatched sine curve is short-circuited to a small residual voltage for the base of the transistor 73 on the diode D so that no base-emitter breakdown can occur at 73 and 73 remains blocked during this discharge phase IE. Switching current then flows via the resistor R 6 to the gate of the thyristor 71, which switches the capacitor ClO in parallel to the capacitor CnO, indeiv the negative pole of the capacitor ClO via the diode 12 to the line coming from El and the positive pole of the capacitor C10 the thyristor 71 is connected to the connection point formed by the capacitor C n0 and the diode DnO.

The other functions have already been explained using Hanc in the previous examples.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Electronic DC voltage divider with DC and / or AC voltage input for radio, television and related devices, characterized in that the DC or AC voltage source (EXlEl). whose voltage (UE) is to be divided, at least two series connections of a charging diode (DvO and a capacitor (CiO) polarized in the charging current direction) are connected and that the positive poles of all capacitors (C 10 ... CnO, Fig. 2) each have a? gepoltc in the direction of the discharge Enlladestromes ¹ S diode (D vl) to the positive pole (AX) of the common output and the negative poles alier capacitors (C XO ... CNO) via one polarized in the direction of the Enlladestromes Entiadediode (Dv 2) to the negative pole of the overall ^ ⁰ (a 2) common output lead and that the consumer (R) via an electronic switch (TX) during the discharge phase of the capacitors (C 10 ... CNO) to the common output (a XIA be switched 2) and during loading ² S of the capacitors phase separated from it, and that either the input AC voltage, the switching signal for the electronic switch supplies or a separate Signalgcnerarator (G) and in that when a DC voltage source at the input of a further electronic switch (72) is inserted in series with the first charging diode (D10) or in its place, the in-phase to the other electronic switch (71) from an existing alternating voltage 35 g or by means of the signal generator g is switched. 2. DC voltage divider according to claim 1, characterized in that parallel to the consumer (R) a filter capacitor (C) and / or a filter resistor (5) and / or a filter inductor connected in series 4 ″ is connected. 3. DC voltage divider according to claim 1 or 2, characterized in that an input and an output pole of the circuit arrangement are directly connected to one another and the Entladediodc (DnT) of the «-th capacitor (CnO) is omitted at the connected pole. 4. DC voltage divider according to any one of the preceding claims, characterized in that the poles of the / i-tcn capacitor (DnO) are connected as a common output, the Entludedioden (D / 71, DnT) this capacitor ': omitted and the consumer (R ) is connected directly to the / i-th capacitor (C «0) and one pole of the capacitor is connected to the connection pin of the first group of discharge diodes (D 11 ... Dlη ... I / l) via an electronic switch (Tl) while the other is directly connected to the connection point of the discharge diodes (D 12 ... D / h... 1/2) of the second group. 5. DC voltage divider according to one of the preceding claims, characterized in that that two of the existing electronic switches (71, T2) form a multivibrator, which generates the switching cycle. 6. DC voltage divider according to one of the preceding claims, characterized in that the charging and / or discharging diodes in, Q) PvX DvI) are at least partially replaced by electronic switches (eg transistors, thyristors). 7 DC tower line according to one of the preceding claims, characterized by the use of _a circuit arrangement for the nefoerennten operation of electronic devices "" in which a capacitive energy store is used, which is switched on all poles by two electronic switch groups alternately to the supply network and to the consumer will.