DE1437383B1 - Circuit arrangement for amplifying a series of DC voltage signals - Google Patents

Description

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The invention relates to a circuit arrangement has a pair of input terminals, one of which is connected to the connected to amplification of a number of DC voltage common grounds. The other clamp Signals, consisting of an amplifier, each input channel is via an input counter-commutator, through which the signals stood one after the other, numbered 5, 6.7 and 8, for the corresponding briefly applied to the input of the amplifier 5 connected to the four inputs. An end to becoming one and an amplitude adjustment device for the input resistance is connected to the common ground. Adjusting the amplitude of the electrical signals The other end of each input resistor is with to one end of the primary winding of transformer 9 within a predetermined range lying value. tied together. In this way the resistor 5 is with

To amplify DC voltages, the primary winding 10 is already io, the resistor 6 with the a circuit arrangement known, which consists of a primary winding 11, the resistor 7 with the primary AC voltage amplifier and there are two synchronous windings 12 and the resistor 8 with the primary chopper, one of which is connected in the winding 13.

Input line and the other in the output The other end of each of the primary windings 10

Line of the AC amplifier arranged 15 to 13 is with the corresponding four contacts is connected to DC voltages in square wave voltages of a commutator device 14, the z. B. as reshape, amplify and demodulate. mechanically switching commutator with motor

Time division multiplex systems are already known that can be configured to drive. A rotary grinding condenser Signals from a number of signal sources time cycle 15 touches several briefly and one after the other borrowed staggered a single amplifier fed 20 input contacts, which are connected to the primary windings that amplifies the supplied signals. Which are connected. The sliding contact can be through a Amplifiers are one of the number of signal sources motor 16 are driven. Though as an example corresponding number of outputs assigned. a mechanically rotating commutator is shown Each signal is amplified according to the corresponding, can be any commutator Output supplied. In these known systems, devices can also be used at high speeds is every signal by the same factor ver keits commutator devices that z. B. transistor switch strengthens. own.

The invention is now based on the object, a sliding contact 15 is through a coupling line Circuit arrangement of the capacitor 17 mentioned above with the input of an alternating current type configured in such a way that using 30 coupled amplifier 18 connected. The exit of a single amplifier, each input signal in the amplifier 18 is connected to a secondary winding 30 can be amplified in different ways. of the transformer 9 connected. The other end

This task is now solved in the circuit of the secondary winding 30 is on the common arrangement of the type mentioned at the beginning of the invention. In order to have one over each of the primary windings according to the fact that the Amplitudeneinstelleinrich- 35 negative feedback between the output and the device consists of inductively coupled windings, leading to the commutator 14 input of the Verdie When applying each signal to the amplifier to generate amplifier 18, the winding 30 is voreinen different alternating current negative feedback.

Create an educational path for the amplifier. In particular, the amplifier 18, in chronological order with all

if the windings on a transformer are fed 40 input signals, transmits to them ordered, with a winding as a secondary winding way through a suitable transmission link a of the transformer and with the off series of amplified impulses at its output of the amplifier is connected while the gang are occurring. The transmission link is as one another Windings as primary windings formed line piece 19 are shown, but it can are det, of which one with the input of the 45 also a telemetry device or another amplifier is connected if the transmission device suitable for this winding, as it is for besonlung associated DC voltage signal may be required for measurements under other conditions is stronger. The turns ratio between mag can be used.

each primary winding and the secondary winding The transmitted signal is sent to a second commu-

is dimensioned in such a way that the amperator device 20 is supplied which the output amplitude of the electrical signal assigned to the primary winding is disconnected or decommutated. These commutator tables Signal within a given preparation device can, as shown in the diagram, a ches is held. mechanically rotating commutator, the one

The circuit arrangement according to the invention has sliding contact 21 and that of the same So if possible changing each input signal 55 motor 16 is driven or in some other way by a different factor. Which runs synchronously with the rotation of the commutator 14, more effective amplification of each input signal. In this way, commutator 20 connects when can simply be rotated by changing the winding of the sliding contact 21, the output of the Ratio between the corresponding primary amplifier 18 and the transmission element 19 short winding and the secondary winding of the 60 contemporarily and sequentially with multiple output coupling clamp provided transformer. Each of the output signals of the communication. Such a setting does not have an initiator 20, but can be achieved by means of suitable RC integrators on the reinforcement of the other input put by the corresponding numbers 22,23, signals. 24 and 25, can be integrated in order to

In the drawing is an embodiment of the 65 modulated signals coming from the output of the amplifier circuitry shown according to the invention. kers 18 come to demodulate. These signals that

The one shown in the drawing. Circuit has to be taken at the output of the integrators, four input channels 1, 2, 3 and 4. Each channel is measured by suitable DC voltage devices,

e.g. by voltmeter, represented by the corresponding numbers 26, 27, 28 and 29.

From the above description it can be seen that different voltages can be measured Sources can use a single amplifier in the manner of a time-division multiplex amplifier. Included a single transformer is used to match the signal voltages of the individual channels, when these are present at the amplifier 18. If you consider the number of corresponding primary windings changes, you can choose between the level of the input signals and the level of the output signals, which are fed to the corresponding display devices, establish a desired ratio. on In this way it can be avoided to adjust the level of each individual signal with a mechanical potentiometer to adjust. By setting the turns ratios between the corresponding primary windings and the secondary winding of the transformer 9 a suitable device is created to to regulate the ratio of input and output voltage in the corresponding channels.

Claims (5)

Claims: 25 1. Circuit arrangement for amplifying a series of DC voltage signals, consisting from an amplifier, a commutator, through which the signals are briefly sent one after the other to the Input of the amplifier are applied, and an amplitude adjustment device for adjustment the amplitude of the electrical signals to within a predetermined range lying value, characterized that the amplitude adjustment device consists of inductively coupled windings (10 to 13 and 30) consists of a different AC negative feedback path when each signal is applied to the amplifier for the amplifier (18). 2. Circuit arrangement according to claim 1, characterized in that the windings on a transformer (9) are arranged, a winding (30) as the secondary winding of the transformer and is connected to the output of the amplifier (18), the other windings (10,11,12,13) designed as primary windings of which one is connected to the input of the amplifier, if the DC voltage signal assigned to this winding is applied to the amplifier, and the winding ratio between each primary winding and of the secondary winding is sized in such a way that the amplitude of that of the primary winding associated electrical signal is kept within a predetermined range. 3. Circuit arrangement according to claim 2, characterized in that each electrical signal is fed to the commutator (14) via the assigned primary winding. 4. Circuit arrangement according to one of the preceding claims, characterized by one with the commutator (14) synchronized second commutator (20), which the output of the Amplifier (18) sequentially connects to one of the output circuits (22 to 25). 5. Circuit arrangement according to claim 4, characterized in that each output circuit a signal integrator (22 to 25). 1 sheet of drawings