DE1616368B2 - Step voltage divider - Google Patents

Description

The invention relates to a step voltage divider, in the case of the partially live taps of a two-link or multi-link to be shared on one AC voltage lying impedance chain, in particular ohmic resistance chain, optionally to the Divider output can be switched through.

A major disadvantage of the known step voltage divider of this type is that the load capacity Do not exceed a specified limit value due to consumers switched on on the output side may if the set division ratio is to be adhered to with a specified accuracy. A Another disadvantage is that between the partial voltage carrying taps and the divider output there are relatively large interference capacitances that reduce the frequency dependence of the division ratio in Change depending on its set value.

The object of the present invention is to provide a step voltage divider of the type mentioned at the beginning create whose division ratio is maintained much more precisely than with, even under heavy loads the conventional dividers. Furthermore, the disadvantageous influence of the above-mentioned interference capacitances should also be considered largely switched off. This is achieved according to the invention in that the taps over Capacitors connected to the base terminals of individually assigned transistors in a collector circuit are whose parallel-connected emitter-collector paths on a common output side Emitter resistor are connected, and that one to the individual base connections Optionally connectable control voltage is used to open the individual transistors.

The step voltage divider according to the invention is characterized in that as a result of the impedance conversion the set division ratio, even when switched on, thanks to the transistors that are open in each case is practically not changed under a greater load. At the same time, the connecting lines between the partial voltage-carrying taps and the base connections of the transistors without difficulty be kept so short that the interference capacitances are much smaller than with the known stepwise switchable voltage dividers.

Further features and advantages of a step voltage divider according to the invention are given below Hand of a preferred embodiment shown in the drawing described in more detail.

An alternating voltage Ue, which is to be divided in stages, is applied to a multi-link ohmic chain of resistors Al, R2 and A3, whose partial voltage taps 1, 2 and 3 are connected via capacitors 3, 5 and 6 to the base connections of individually assigned transistors 7, 8 and 9 . The collectors of the transistors are jointly connected to the operating voltage - Ub , while the emitters are connected to the reference potential 0 via a common emitter resistor Rl. The lower circuit point 10 of the resistor chain is also connected to this. The base-collector paths of the transistors 7, 8 and 9 are each provided by ohmic voltage dividers 11, 12; 13, 14 and 15, 16 bridged, at the division points of which a control voltage - Us can optionally be switched on via a changeover switch S.

The mode of operation of the circuit arrangement shown is as follows: If the changeover switch 5 is in position A, the transistors 7, 8 and 9 are not influenced by the control voltage - Us and are therefore blocked. When applying - i / s via San one of the voltage dividers 11, 12; 13, 14 or 15, 16 the associated transistor 7, 8 or 9 opens so far that a predetermined operating point is established. Flows through the respectively open transistor. a current which causes a voltage drop at the emitter resistor Rl on the output side. That part of the alternating voltage Ue which is applied on the base side of the respectively open transistor is tapped at Rl and fed to a downstream consumer 17. The base connections of the respective non-open transistors are connected to the reference potential 0 via the associated ohmic voltage divider and therefore remain blocked. The capacitors 4, 5 and 6 are used to decouple the control voltage source - Us from the input voltage Ue. For this purpose, further capacitors 18, 19 and 20 can be provided which, together with the resistors 11 to 16, represent low-pass filters for the control voltage - Us .

An essential feature of the step voltage divider according to the invention is that the common emitter resistor Rl, the z. B. has a low value when the voltage divider is heavily loaded, is transformed into a much larger value at the input of the respective open transistor.

which differs by the factor of the transistor current gain. This means that the voltage divider ratios that can be set by the size gradations of the resistor chain /? 1 to R3 are largely independent of the load. The connecting lines between the partial voltage taps 1, 2 and 3 and the associated base connections of the transistors 7, 8 and 9 can be kept very short so that no significant interference capacitances occur between the output 17 and the taps 1, 2 and 3. In addition, the input capacitance of the respectively opened transistor operated at a given operating point is so small that it also does not cause any major disturbances.

For the purpose of remote control, the control voltage - Us can be connected to the base connections with particular advantage via possibly long control lines 21, 22, 23 and 24. As a result of the direct current control, the remote control is largely trouble-free.

In addition to the embodiment shown in the drawing, in which the control voltage - Us can be connected to the dividing points of the voltage dividers 11 to 16, the control voltage can of course also be fed directly to the base connections of the transistors. In this case, the control voltage can be decoupled, for example, via choke coils arranged in the control line. In addition to the illustrated design of the voltage divider 11 to 16 using ohmic resistors, it is still possible, for. B. to use potentiometer coils, which also form a low-pass filter for the control voltage - Us .

With the step voltage divider according to the invention, it is also possible to set complex division ratios, which is done by appropriately designing the divider chain connected to the alternating voltage Ue to be divided. Complex resistors with inductive or capacitive components can be provided for this purpose.

A preferred application for the voltage divider according to the invention arises in the Use as a range switch in devices for electrical measurement and communication technology. Here is on the one hand the high resistance of the voltage divider between the circuit points 1 and 10 and the achievable low resistance at output 17 is important. The Remote control via the control line can be used.

1 sheet of drawings

Claims (5)

Patent claims: 1. Step voltage divider, in which partial voltage-carrying taps of a two- or multi- ^{link - s-} ring, lying on an alternating voltage to be divided, impedance chain, in particular an ohmic resistance chain, can optionally be switched through to the divider output, characterized in that the taps (1, 2, 3) via capacitors> ° (4, 5, 6) with the base connections of individually assigned transistors (7,8,9) are connected in a collector circuit, whose parallel-connected emitter-collector paths are connected to a common, output-side emitter resistor (Rl) , and that one Control voltage (- Us) that can be optionally connected to the individual base connections is used to open the individual transistors (7, 8, 9). 2. Voltage divider according to claim 1, characterized in that the control voltage (- Us) can be connected to the base connections for the purpose of remote control via control lines (21 to 24). 3. Voltage divider according to claim 1 or 2, characterized in that the base-collector paths of the transistors (7, 8, 9) are bridged by voltage dividers (11 to 16), at whose »T ^ ilungspunkte the control voltage (- Us) is preferably over a switch (S) can be switched on. 4. Voltage divider according to one of claims 1 to 3, characterized in that the control voltage (- Us) can be switched on via a low-pass filter, which is optionally replaced by an inductive design of the voltage divider (11 to 16) bridging the base-collector paths. 5. Voltage divider according to one of claims 1 to 4, characterized by the application as Range switch in devices of electrical measurement and communication technology. 40