CS231708B1 - Hdicfho Power Dividers Connected - Google Patents

Abstract

The control voltage divider according to the invention is connected in such a way that the ends of the control divider, which is composed of resistors with taps, are connected to a constant negative current source and a constant positive current source. The control voltage of the divider is connected to the control input, which is directly connected to one of the taps. The advantage of the connection is that the control voltage source is loaded only slightly, namely by the resistance given by the parallel combination of the dynamic resistances of both constant voltage sources. The connection according to the invention is applicable in particular in the construction of various voltage functional converters

Description

(54) Hdicfho power divider wiring

The control voltage divider according to the invention is connected in such a way that the ends of the control divider, which is made up of tapped resistors, are connected both to a constant negative current source and to a constant positive current source. The control voltage of the divider is connected to the control input, which is directly connected to one of the taps.

The sweetness of the circuit is that the control voltage source is only slightly loaded by the resistance given by the parallel combination of the dynamic resistors of both constant voltage sources.

The circuitry according to the invention is particularly useful in the construction of various voltage transducers.

231708 2

The object of the invention is the connection of a voltage divider, used in particular in control and regulation technology, in particular in the construction of various voltage transducers.

In the hitherto used wiring of this kind, there is often a problem of sequential switching of discrete semiconductor elements depending on the magnitude of the control analog voltage.

It is especially evident in the construction of voltage-functional converters for which a definable dependence of individual switching steps is required. Therefore, the non-pollen divider used for this purpose is subject to the exact voltage level at the individual taps.

i. Gradual dividers are made in several variants. In one variant, they are designed to be powered from a separate floating stabilized power supply. However, this method requires a separate floating voltage source, which loads the divider with its capacities, thus making it more difficult to use it in higher frequency applications. In another embodiment, the divider at both its ends can be soldered through as many resistors from fixed voltage sources as possible through the working resistors e is bridged by a Zener diode that maintains a non-divider constant voltage.

This method, where the divider is powered from fixed voltage sources via operating resistors and is bridged by a Zener diode, is only suitable for less accurate applications, as the non-zero dynamic resistance of the Zener diode is disturbing in the extreme positions when shifting the divider. ¹

Another variant is to connect the divider with one shot through a constant current source or a high resistance to the voltage source, the other side being powered from the output of the operational amplifier, which at the same time serves for the voltage shifting of the divider. The disadvantage of this method, however, is the necessity of powering the splitter via an operational amplifier.

The above drawbacks eliminate the wiring of a voltage control divider according to the invention, in which the ends of the control divider made of branched resistors are connected both to a constant negative current source and not to a constant positive current source. The divider control voltage is connected to the control input, which is directly connected to one of the taps.

An advantage of the circuitry according to the invention is that the control voltage source is loaded only by a resistance due to a parallel combination of the dynamic resistors of both constant voltage sources.

Since each current source requires a high dynamic resistance, the control source is virtually unloaded. It is not necessary to use an input amplifier.

An exemplary embodiment of a control voltage divider according to the invention is shown schematically in the attached drawing.

A resistive voltage divider consisting of resistors 6 with outlets 6 is connected at both ends to sources of constant negative positive current. The control voltage is supplied, to the control input of j that is associated with the selected branch taken out resistance £ J .. £ divider between taps to generate a voltage proportional to the resistance 1 and the current set identically in both sources ^4e i.e. one source of positive constant current.

The control voltage applied to input J then the entire divider, and hence its set taps,, shifts the voltage more than zero. The control voltage source is loaded only by the resistance given by the parallel combination of the dynamic resistors of the current sources 4 ⁶ 5 · The sources 4 and 5 of the constant negative and positive current are in the shown embodiment always composed of a series of connected transistors. PNP transistors, while NPN transistors for constant positive current source 5. However, other, simpler or more complex circuitry according to accuracy requirements may be used as power sources.

Either several discrete resistors or one industrially manufactured integrated voltage divider may be used as the voltage divider. for fine selection, the tap for connecting the control input can be led directly to a separate terminal of the respective resistor. In the latter case, the branches can also be connected in a similar way.

Connection of a voltage divider with a controllable shift of the output voltages of the individual taps, characterized in that the ends of the divider (.) With taps (2) are connected both to a constant negative current source (4) and a constant positive source (5). The control voltage of the divider is connected to a control input (3) which is directly connected to one of the taps (2).

Claims (1)

SUBJECT OF THE INVENTION 1 drawing