DE1294481B - Electronic ring counter for use as a selector in sampling, monitoring and control devices for carrier frequency systems - Google Patents

Description

The invention relates to an electronic ring counter for use as a selector in sampling monitoring and control devices for carrier frequency systems.

In carrier frequency systems, as is well known, the individual Voice channels with the help of frequency converters basic groups of, for example, each twelve channels are formed, which in turn form supergroups by means of further frequency converters, Main groups etc. are summarized. In each group it is sent at the beginning of the transmission system a pilot voltage of a suitable frequency and level fed in and transmitted together with the group. The pilot voltage is on the receiving side counted as a criterion for the attenuation suffered by the group concerned and used to monitor and control this group. For reasons of economy common monitoring devices are used for many of the same groups to be monitored used. A common pilot receiver is used one after the other by means of a selector cyclically switched to the pilot decoupling of the groups to be monitored and evaluates the level.

It is known (German Patent 1158 577) as an electronic Selector to use a binary counter or a ring counter with n flip-flops. A The clock provides the incremental pulses for the ring counter so that everyone Clock pulse the excitation state of the ring counter from one flip-flop to the neighboring one pushes on. Such a ring counter is, however, prone to failure. It can happen that in addition to the one excited flip-flop of the ring counter, another Flip-flop is excited by a glitch. Then the counting cycle of the ring counter shortened, and two pilot voltages are continuously applied to the receiver at the same time switched through. Of course, the number of simultaneously excited flip-flops also be greater than two. On the other hand, the entire ring counter can be damaged by a glitch be brought to a standstill in which all flip-flops of the ring counter are not excited are. In any case, the whole function of the monitoring device is serious disturbed.

It is known (German patent specification 1209 606) to run the wrong way correcting such a ring counter by once within each circulation cycle of a certain flip-flop of the ring counter in its excited state the other flip-flops are influenced by a reset pulse so that they are not are stimulated. This will probably correct the error at the end of each cycle, but if the error occurs in the middle of the cycle, multiple digits will be wrong evaluated.

The invention has the object of eliminating the disadvantages of the known circuits to avoid and achieve that with a scanning monitoring and control device an error that occurs is corrected immediately. According to the invention, this is thereby achieved realizes that a "not-or-circuit" controlled by all flip-flops of the ring counter (NOR circuit) is used, which does not respond when one or the other The flip-flop of the ring counter is excited and responds when no flip-flop is excited is that also a "2 out of n-circuit" controlled by all flip-flops of the ring counter is present, which responds when at least two flip-flops of the ring counter at the same time are excited, and that when the "NOK circuit" or the "2 out of n circuit" responds a reset pulse is given to the reset inputs of all flip-flops of the ring counter will.

An embodiment of the electronic ring counter according to the invention is explained with reference to the figure. FF1 to FFn represent the individual flip-flops of the ring counter. The status of the individual flip-flops of the ring counter is queried via the individual flip-flops assigned, equal resistors R 1 to R yz. If a flip-flop is excited, it sends a partial current via the associated resistor to the evaluation circuit with the input terminal K, the output terminal A and the operating voltage UB. The total current flowing into the evaluation circuit is therefore proportional to the number of activated flip-flops of the ring counter.

In the evaluation circuit, a transistor Ts 1 with a base series resistor Rv 1, a base discharge resistor Rb 1 and a collector resistor Rc 1 together with the interrogation resistors R 1 to R n forms the "2 out of n circuit". The input voltage divider Rv l / Rb 1 is designed so that with only one excited flip-flop of the ring counter, the evaluated interrogation current across the resistor Rb 1 does not generate enough voltage drop to make the transistor Tsl conductive. The transistor Ts 1 only becomes conductive when two or more flip-flops are excited at the same time and resets the flip-flops to the initial position in which only one flip-flop is excited via the reset terminal RS of the ring counter.

In the evaluation circuit, a transistor Ts2 with a base series resistor Rv2, a base bleeder resistor Rb2 and a collector resistor Rc 2 together with the interrogation resistors R 1 to R n forms the "NOK circuit". The input voltage divider Rv 2 / Rb 2 is designed so that with only one excited flip-flop of the ring counter, the evaluated interrogation current across the resistor Rb 2 generates a sufficiently large voltage drop to make the transistor Ts2 conductive. Only when the ring counter is at a standstill, when not a single flip-flop of the ring counter is excited, the transistor Ts2 is blocked and makes the transistor Ts 1 conductive via the diode D by supplying a base current for this transistor. In this case, too, the reset takes place via the transistor Tsl.

Claims (5)

Claims: 1. Electronic ring counter for use as a selector in scanning monitoring and control devices for carrier frequency systems, in which the individual frequency groups are added to the transmission side pilot voltages, which are evaluated on the receiving side and used for monitoring and control and in which for the purpose of multiple use of the monitoring devices for n groups one of a clock-controlled ring counter, consisting of n flip-flops and constructed in the manner of a shift register, switches the pilot outputs of the groups to be monitored through to a common receiver, which evaluates the pilot voltages, characterized in that one of all flip-flops (FF 1 to FFn) of the ring counter controlled "no-OR circuit" (NDR circuit) is used, which does not respond when one or the other flip-flop of the ring counter is activated and which responds when no flip-flop is activated is that, furthermore, one of all F lip-flops of the ring counter controlled "2 out of n-circuit" is available, which responds when at least two flip-flops of the ring counter are excited at the same time, and that when the "NDR circuit" or the "2 out of n circuit" is activated a reset pulse is given to the reset inputs of all flip-flops of the ring counter. 2. Electronic ring counter according to claim 1, characterized in that via n equal interrogation resistors (R 1 to R n), on the one hand with the individual Flip-flops (FF1 to FFn) of the ring counter and on the other hand with the input terminal (K) an evaluation circuit containing the “NDR circuit” and the “2 from ia circuit” are connected, the state of the individual flip-flops of the ring counter is queried in this way is that every excited flip-flop of the ring counter via its interrogation resistor sends a partial current to the evaluation circuit. 3. Electronic ring counter according to claim 1 and 2, characterized in that the "2 from n-circuit" consists of a transistor (Ts 1) with a base series resistor (Rv 1), a base discharge resistor (Rb 1) and a collector resistor (Rc 1) and consists of the interrogation resistors (R1 to R n), the interrogation current being fed to the transistor (Ts 1) via the input voltage divider (Rv 1 / Rb 1) and the input voltage divider being designed so that when the flip-flop of the ring counter is excited the evaluated interrogation current at the base discharge resistor (Rb 1) does not generate enough voltage drop to make the transistor (Ts 1) conductive, and that when two or more flip-flops of the ring counter are excited at the same time, the transistor (Ts 1) becomes conductive and via the reset terminal (RS) of the ring counter resets the flip-flops to the starting position in which only one flip-flop is excited. 4. Electronic ring counter according to claim 1 and 2, characterized in that the "NOR circuit" consists of a second transistor (Ts 2) with a base series resistor (Rv 2), a base bleeder resistor (Rb 2) and a collector resistor (Rc2) and off the interrogation resistors (R 1 to R n), the interrogation current is fed to the transistor (Ts2) via the input voltage divider (Rv 2 / Rb2) and the input voltage divider is designed so that the evaluated flip-flop of the ring counter is triggered Query current at the base bleeder resistor (Rb 2) generates a sufficiently large voltage drop to make the transistor (Ts 2) conductive, and that when the ring counter is at a standstill, if not a single flip-flop is excited, the transistor (Ts 2) is blocked. 5. Electronic ring counter according to claim 1, 2, 3 and 4, characterized in that the second transistor (Ts2) controls the first transistor (Ts 1) via a diode (D) in such a way that when the second transistor (Ts2) is conductive, the first Transistor (Ts 1) is not affected because the diode (D) blocks, and that when the second transistor (Ts2) is blocked, a base current for the first transistor (Ts 1) flows through the diode (D) and this transistor becomes conductive.