DE2606889A1 - Multi:channel level detector for DC output signals - indicates which of several signals has highest instantaneous value - Google Patents

Abstract

The multi-channel level detector indicates which one of n channels has the highest DC output level and is suitable for plotting and evaluation applications. The DC voltage from each channel (UE1-N) is fed to a pair of resistor per channel. One of the resistors (R1-n) is connected to the input of a logarithmic or gain-controlled amplifier (V1-n). All amplifiers have identical characteristics and their outputs are connected to one input of associated comparators (K1-n). The second resistor of the input pair is connected via a diode (D1-n) to a summing amplifier (VM) whose output depends on the highest instantaneous DC level present at any of the input circuits. The amplifier output is connected to the second inputs of all the comparators. The comparator outputs are taken to an indicator.

Description

"Circuit arrangement for determining a channel

with the highest DC output voltage The invention relates to a Circuit arrangement for determining that channel of any number on the output side separately available channels, their output DC voltage with respect to the output DC voltages of the rest of all channels is the highest.

With the aid of the circuit arrangement according to the invention, for example Evaluation problems in the evaluation logic an omnidirectional antenna solve in extremely little time. But also in other areas of technology the invention can often be used with advantage, especially where previously with longer evaluation times, higher expenses and lower operational reliability compared to the invention channels with respect to their highest output DC voltage was selected with the help of a serially working computer, the relocation and Carried out comparison processes.

The invention is based on the object in a particularly short time compared to the prior art that channel as many as desired separated on the output side available channels to determine its output DC voltage with respect to the output DC voltages of the remaining of all channels is the highest.

The essential features of the invention and its developments are the claims - possibly in connection with the following description - removable.

1 shows the block diagram of an exemplary embodiment of the invention for n channels, while FIG. 2 is for the example of three channels in comparison there are additional detailed information on the amplifiers in addition to FIG.

The circuit arrangement according to the invention is briefly referred to below as Denotes maximum value indicator. With its help, any Number of different separately applied DC voltages in each case the highest Find value and reside digitally. It is permissible here that all input variables change as quickly as you want.

The mode of operation of the maximum value indicator according to FIG. 1 explained. All output voltages uE1 to the output DC voltages of the separately connected channels are the same, get under in parallel on the one hand Interposition of ohmic decoupling resistors R1 to Rn and similar amplifiers V1 to Vn each to an input of the comparators assigned separately to the input K1 to Kn and on the other hand - again with the interposition of decoupling means - In the example shown, ohmic resistors R1 to Rn and semiconductor diodes D1 to Dn to a common amplifier VM, whose output connects to the other inputs the comparators K1 to Kn is connected. The output voltages of the comparators Let K1 to E be uA1 to uAn.

A measuring path according to FIG. 1 thus contains the series connection of an ohmic one Resistance (e.g. R1), of an amplifier (e.g. KI).

In principle, the respective amplifier can be CVI to Vn) and possibly

the respective ohmic resistance (R1 to Rn) is also omitted.

However, it is expedient to include in the dimension paths all those shown in FIG. 1 to provide components shown, in particular amplifier with one of the expected Dynamic range adapted gain behavior. It can often be useful here be logarithmic amplifiers or automatically regulated amplifiers. Essential The characteristic of the amplifier VN is the proportionality of its output voltage to its input voltage; the gain behavior of the amplifier VN is the same the remaining amplifiers V1 to VM to adapt.

The amplifier VM thus does not add up the input voltages of the individual measuring paths, but its output signal depends only on the moment highest DC voltage value at one of all measurement path inputs. With the initial value of the amplifier VN, which thus corresponds to the total maximum value, are all comparators K 1 to Kn acted upon.

The output voltages uA1 to uAn are digital quantities for different Eomparator input signals result e.g. B.

non-zero comparator output voltages, while that Comparator whose measuring path input at the output of the channel with the highest instantaneous DC voltage is present, compares two equally large input signals with each other and then, in the example, emits the measured variable zero, which marks the channel being searched for and, for example, an indicator (not shown) can be displayed.

The circuit arrangement according to the invention can be developed to the effect that that any threshold value can be set as a default and that therefore only Eanal output signals are evaluated that reach a minimum level or

exceed.

In a further embodiment of the invention, not shown, are certain sub-areas by switching off the corresponding amplifier, e.g. B. the amplifiers V2 and V3, faded out.

Fig. 2 shows the circuit diagram of a circuit arrangement for three measurement paths according to the invention, which largely corresponds to that of FIG. 1 and differs only in the details regarding the structure of the amplifiers.

The shown basic circuits allow the realization of any flat or spatial matrix arrangements. Since it consumes practically no power is, the overall arrangement can save power and cheap in LSI or manufacture using monolithic technology.

L e r s e i t e

Claims (4)

Circuit arrangement for determining that channel Any number of channels available separately on the output side, their output DC voltage is the highest with regard to the output DC voltages of the remaining of all channels, characterized in that one of the total number of channels is at least the same number (n) of measuring paths (R1, V1, K1 to Rn, Vn, Kn) is provided that at the output of each channel on the one hand the input of one of the measuring paths and on the other hand parallel to this - with the interposition of decoupling means (R1, D1 to Rn, Dn) - the Input of such a device (VN) associated with all measuring paths in common whose respective output voltage is its highest instantaneous input voltage corresponds to the fact that each measuring path contains its own voltage comparator (E1 to E), the current input voltages (uA to Uh) or one of them in a given measure dependent size of its own measuring path with the current one Output voltage of the common device (VN) compares and that in accordance with of the comparison results of the comparators, the channel with the currently highest DC output voltage z. B. is marked by means of an indicator (Fig. 1). 2. Circuit arrangement according to claim 1, characterized in that all comparators have the same electrical dimensions. 3. circuit arrangement according to claim 1 or 2, characterized in that that each of the measuring paths before its comparator (K1 to Kn) has an amplifier (V1 to V) with matching gain behavior, e.g. B. each a logarithmic Amplifier or an automatically controlled amplifier each, and that the common device is a common amplifier (VM) with a gain behavior which corresponds to that of the other amplifiers (Fig. 1). 4. Circuit arrangement according to one of claims 1 to 3, characterized in that that means are provided with the help of which a threshold value in the circuit arrangement can be entered or entered in order to only output DC channel voltages with higher as a predetermined minimum level.