DE2345139C3 - DC-DC converter - Google Patents

Description

The invention relates to a DC voltage converter using a continuously operating one Loss regulator, m: t a series transistor, a clock generator and a comparator transistor with a voltage standard arranged on the emitter side, which is a signal based on the formation of the difference in the Soü-Sst value provides.

Various possibilities are known for regulating a direct voltage. For example, so-called Loss regulator as series or parallel regulator. common. It is known that regulators of this type have relatively large losses. Is beneficial. that they are very simply structured. More complex to build, but with significantly lower power losses, are so-called switching regulators. The switch can have a fixed frequency and a variable duty cycle or work with variable frequency and switch-on and switch-off times. Such switching regulators are used in particular for higher output powers, since this is where the greater component count justifies. In the case of smaller services, &> Due to the simple structure, the series loss controller is usually used, although the losses increase in continuous operation disadvantageously noticeable. In power limit cases, the decision on the type of controller to be used is particularly made heavy.

Through the AEG-Mitteilungen 50 (1960), issue i / 2. S. to 57 a power supply arrangement with switched transistor is known, which works as a two-position controller.

This is the difference signal from the setpoint and actual value comparison stirred on a trigger that is dependent it assumes one of its two stable states and thus closes or opens the series transistor. In such circuits that work with load-dependent frequency and variable duty cycle, radio interference suppression is particularly difficult. In addition, a controller of this type requires a hysteresis, the one Deterioration in control quality and control speed conditional.

In addition, through the journal IEEE Transactions on Industry Applications. Vol. 1A-8, No. 4, July / August 1972, p. 439, Fig. 6, a synchronized switching regulator known which has a transistor as an actuator having. The output signal of a nominal-actual comparison transistor and an oscillator is brought together and switched to a transistor, which is the amplifier stage of the series transistor controls. The oscillator, which is built with a uni-function transistor supplies a sawtooth signal at the output. The comparison transistor acts as a function of the output voltage of the controller and the load connected on the output side to the sawtooth signal in such a way that the Slope of the rising edge is changed. This means that with a slightly inclined flank the exact Control of the downstream transistors becomes difficult and the switching losses increase. A further aspect of this regulator is that the control transistor C; -, a voltage is applied to the emitter side connected normally, is not used to amplify the control signal.

Next is through the magazine ETZ-B Volume 23 (1971), Issue 3. P. 54, a clocked power supply for one Core memory known. The clock generator works with a 50 kHz frequency, whereby the output signal also here has a sawtooth course. The clock signal and the actual value for current and voltage are on an integrated voltage regulator not described in more detail switched. When disconnecting the generator This arrangement can regulate more, since then no setpoint is available. The Zener diodes to stabilize the generator supply voltage, voltage standards are also used at the same time.

The invention is based on the object of creating a DC voltage converter that uses A series loss regulator converted into a switching regulator from just a few components.

This task is performed in the case of an arrangement of the at the beginning mentioned type solved according to the invention by the characterizing features of claim 1.

In a particular embodiment of the invention, there is between the control transistor and the series transistor another transistor switched, which both negates and amplifies the control signal and the Series transistor when switching on the arrangement by means of an in the base EmiüciKfCiä!; Cgcnde :? SirommeQ resistance influenced in a siromblimiting sense.

The advantages achieved by the invention are in particular that the DC voltage converter the advantages of the series loss regulator and the switching regulator combined, i.e. the simple structure of one and the other's low power dissipation. The invention requires only a few to relay it Components and a low cost. The use of the square wave generator is also special advantageous, in which only the frequency, but not the amplitude is important for the regulation.

The invention is based on an exemplary embodiment

Game explained in more detail. It shows

Γ ig. 1 shows the basic structure of a DC voltage converter with electrical isolation for very high output powers, in which the inventive arrangement can be used particularly advantageously, FIG. 2 shows a circuit example according to the invention.

F i g. 3 shows a diagram with different voltage profiles to explain the control function of the invention Arrangement,

F i ρ 4 is a partial circuit of the invention Arrangement.

In Fig. 1 shows the structure of a switched DC / DC converter for a large output power in a simplified representation. The output supplies, for example, a current of 2o Λ Hei with a voltage of 5 V, the input voltage is 60 V, which is supplied by a battery. This battery is connected to the input terminals, _ n E + and E— . The Darlington Gate! is operated at a frequency of 20 kH / u. cha'net, the switch-on ratio is variable. A fixed arucite frequency has certain advantages in terms of filtering and interference suppression. The discharge resistor 2 is connected to the Darlington transistor. The transfer choke 3 has two windings, which means that the output is potential-free. In the non-floating version, the output circuit is connected directly to the primary winding. The rectifier diode 4, the filter capacitors 5 and 6 and the current measuring resistor 7 are located in the output circuit. The consumer is connected to the connections A + and A -. A block 8 is connected to the corresponding connection points of the input and output circuit. This block 8 contains, for example, the control of the switching transistors, the current / voltage regulator, the clock generator, the overvoltage protection, as well as a Milfsvoltage generator that supplies these circuit parts with the required voltage. If the electronic components of these circuits require a voltage of 15 V and a current of 200 mA, a power loss of (60-15 V) χ 0.2 A = 9 watts occurs when a transistor series regulator operating in continuous operation is used. Creating the auxiliary voltage generation by means of a switching regulator of known design requires a particularly large amount of material and costs. Here s is suitable ^; ch now especially the inventive circuit arrangement, which only requires slightly more components than a loss regulator, but thus combines the advantages of the two types of regulator. Is particularly advantageous. that no separate generator is required for clocking.

lsi F i g. 2, E + and E- denote the input terminals to which the battery or any other DC voltage source is connected , mn iö is' tier LäiigMicmsiaiui bt / .tiCn
can also be used as a composite transistor. The series transistor is connected on the base side to the negative input terminal via the resistor II. According to a special embodiment of the invention, a transistor 12 can be connected with the collector-emitter path between the resistor 11 and the negative input terminal. The resistor 13 and the discharge resistor 14 are connected to the base of the transistor 12. The filter circuit, known per se, with the choke 15, the freewheeling diode 16 and the capacitor 17 is arranged on the output cite. The slewing transistor 18 is connected to the voltage divider with the resistors 20 and 21 via the base resistor. The dividing point, which corresponds to the actual value, is denoted by i'n. At the emitter of the control transistor ^r s 18 is the resistor 22, to which the voltage standard is connected, which consists of the diode 23 and

s of the Zener diode 24 is formed. This diode combination, which has a particularly advantageous temperature coefficient, is connected to the positive output terminal A + via the resistor 25. The collector of transistor 18 and the base

ίο of the transistor 26 are by means of the resistor 27 connected. The transistor 26 negates and amplifies the signal of the control transistor 18 and thus ensures the Control of series transistor 10.

If a series transistor with a different polarity, which has a sufficiently large gain, is used, transistor 26 can be omitted. At the connection point of the emitter from the transistor 18 and the resistor 22, a tfC element 28/29 is connected, the other side of which leads to the output of a rectangular generator 30, which is shown symbolically. If a generator is used which has a corresponding internal ohmic resistance, the capacitor 29 is sufficient for coupling. The potential at the emitter of transistor 18 is denoted by lh , the

2-, nige at the anode of the diode 23 with U /.

If the resistor 22 is short-circuited and there is no coupling to the square-wave generator, the circuit arrangement represents a series loss regulator that is simple in terms of complexity. The control transistor 18 compares the potential Un with the voltage U / of the normal. About the transistor 26 wiro. the signal is negated and switched to the series transistor 10 in a regulating sense. The inventive measure, that is, the setting of the resistor 22, the /? C element 28/29 and the square-wave generator 30 turns the arrangement into a switching regulator. The generator 30 is an integrated clock generator with a push-pull output. which is connected to the regulated output voltage. The increasing switch-on frequency has no disadvantageous influence on the circuit arrangement. The sound frequency is 40 kHz, for example. This corresponds directly or as an arbitrary multiple of the frequency of the DC / DC converter with the high output power, the circuits of which the switching regulator according to the invention is intended to supply with energy. In Fig. 3 the potentials are given. T shows the clock as it is supplied by the square wave generator. U / is the constant potential of the normal. Un is the divider voltage, which is proportional to the output voltage

■ ion changes. The voltage Ut is applied to the emitter of the transistor 18. The voltage curve repeats itself with the frequency specified by the square-wave generator. The transistor 18 is blocked as long as the potential Un is not the size of Ui plus its own Baitter Schv.OUs ^ snnun "err ^ K'bt WirH ϊ in trößt * r

transistor 18 then conducts in the diagram, the inherently low voltage Um of transistor 18 in the overview wege.1 is neglected. With U 1 18, 26, 10 the KoI-lektor-emitter voltages of the transistors 18, 26 and 10 are indicated. The transistor (0 is driven into saturation, so it works as a switch. Between the intersections Si and Sz, which are formed by the voltage Un and Ur. , The transistors 18 and 26 are non-conductive; the switching transistor 10 is conductive.

(<5 If the output voltage is too high, then the voltage Un is also higher. The intersection point S2 accordingly moves towards Si, the switching time of the transistor 10 is reduced. In the case of undervoltage, Ua decreases

The point of intersection between S 1 and Si increases, with the result that the duration of transistor 10 is also increased.

Dk: connection of the arrangement to the flow input circuit takes place via the transistor 12. A positive signal is applied to the connection Z, which the Driving transistor into saturation. The transistor 10 receives a liasis current, it becomes conductive and supplied the output with an increasing voltage. So long If the square-wave generator does not clock, the output voltage is looped like a voltage loss regulator.

Uni via the longitudinal transislator 10 when connecting

To limit the current flowing, a current measurement counter, d 31, is inserted, as shown in FIG. The on the resistor 31 dropping voltage is with the base Emhter voltage of the transistor 26 and the The forward voltage of the diode 32 is compared and thus a signal is made available that the switch-on current of the transistor 10 can not rise above a predetermined size. The diode 32 ensures * that the transistor 18 only the base current of the transistor 26 must take over. Shall shut down the entire arrangement then the control of the transistor 12 is interrupted.

1 sheet of drawings

Claims (3)

Patent claims: 1. DC voltage converter using a steadily working loss regulator, with a series transistor, a clock generator and a comparator transistor with emiuerseite arranged Voltage standard, which sends a signal based on the difference between the setpoint and actual value provides, characterized in that iu between the control transistor (18) of the comparator and the voltage standard (23/24) an ohmic Resistor (22) is inserted, at whose terminal facing the control transistor a capacitor or capacitor / resistor element (29/28) is connected to the output of a Square-wave generator (30) leads, and that due to the signal so supplied to the comparator the series transistor (10) directly or by means of an intermediate amplifier in a regulating sense switches. 2. Equal voltage converter according to claim 1 characterized in that between the oieuertransistor (18) and the series transistor (10) another Transistor (26) is connected, which both negates and amplifies the control signal and the Series transistor when switching on the arrangement by means of a lying in the base-emitter circuit Current measuring resistor (31) influenced in a current-limiting sense. 3. DC voltage converter according to claim 1 or 2, characterized in that in the base line of the series transistor (10) the collector-emitter path a-'s Trai, istors (12) is placed, the the arrangement switches on