DE2460532C - Response device for an interrogation-response system with display of the status of the power supply device - Google Patents

Description

3 ^λ 4

ζ. B. queried once every minute The question-answer arrow to DK) connected. The flip-flop KS remains, the word game only lasts a few | is. But since the minute - since it must always be ready for operation, the power supply device is not completely connected to the clock from the response device (flip-flop). If an exactly can be complied with, this switches z. B. output signal, then this is fed via the directional 50 seconds after switching off the Stromversor- 5 coupler RK the detector DT 2 and the Kippstufe supply of the response device again and after the KS and controls this response for a certain time again . In the> Ausc position, it burns into the unstable position. As a result, for lamp. If the responder responds after 50 Selcin- this time the switch US in position 2 is no longer at all, the responder remains brought and thereby the display device LA , z. B. is switched on continuously and the lamp is continuously activated in the form of a lamp,
switched This is then the interference signal. But if the battery is empty, the lamp burns on the one hand because users of the answer device are switched off, except because the answer device no longer answers the flip-flop stage KS, which remains ready for operation, and on the other hand because the Lamp whose power supply cannot burn through the switch without a battery. Another 15 US is running.

Stromspamis is possible if you leave the flasher on after the specified time has elapsed. This method has the advantage KS stage back to its stable state, so that they the lamp LA is also more visible off and the Stromversor-The invention is particularly advantageous for answers supply device BA to consumers again answer device usable as independent , e.g. B. ao is switched. The power supply device BA transportable units are formed and a one is thus only withdrawn about as long as the built-in battery. A preferred application is necessary for the operation of the transponder. application case exists for ships that z. B. a channel That with constant query frequency the traversing and thereby from one or more turn of a monostable toggle switch fromrei-land stations are queried. When entering 25, a numerical example may clarify where these ships receive the complete response if the following assumptions are made:
Word device (transponder) including power supply handed over. When exiting, it can again see query period TA 60

be delivered. . . . Operational readiness TB 10 see

To explain the invention, m in the figure is a 30

Ausfühningsbeispiel shown, which in the block return time of the monostable

The circuit diagram shows the structure of a transponder. The KS-TA-IB 5U tipping stage see

Interrogation signals are from a receiving antenna

EA recorded and arrive via an entrance The lamp LA thus burns 50 seconds and is 10 seconds

filter EF to a detector DTl. Long extinguished in a decoder 35. But it is also possible through a

DK is decoding the received signals before interrupter circuit the lamp LA during 50 see

taken. The structure of the elements EF, DTl and flash and then to be extinguished for 10 see. Ever

DK can be done in a known manner, e.g. B. in the would after the choice of the individual time constants

Type of passive decoding devices of seconds, i.e. an activated display device LA (e.g.

darradar transponders. If the answering device, 40 lit or flashing lamp) recognizes the operational

that it is a question of a query, or with selek- both the power supply device and

tive query that it is a signal for itself and for the entire answering device. Falls

If there is a correct query, then the power supply device BA from one on the De-, so

coder DK output signal occurring from a transmitter SE , the display device LA is no longer activated.

keyed with a coded or uncoded K, response 45 The same also applies if there is no response signal

signal is emitted via the transmitting antenna SA Instead of being emitted because the switch US then

Only one of two separate antennas can remain in position 1,

umpteen common antennas can be used, whereby in the event that a constant interrogation

Transmission and reception branch via a switch cannot be assumed to be de-frequency, can

couple are. 50 realize the monitoring circuit in that

Submitting a. The response signal is evaluated by means of a lamp LA through a retriggerable mono-monitoring circuit, which is switched on from a flop. The time constant of the mono directional coupler RK, a detector DT 2 and a flop will exist for the longest expected time between flip-flop KS. When the answer occurs, two queries are set. If the device responds to this signal, there is no response from the in the supply line at the time of transmission, then the lamp LA goes out.
antenna SA switched directional coupler RK a decoupled Switching off the transmitter SE from the current Small part of the transmission signal in Detek- supply means EA may only take place if tor DT rectified 2 and radiated the entire response signal to actuate the tilt with security level KS used. This flip-flop KS can be as is. For very long response signals, e.g. B. Codewörmonostabile flip-flop. This is before 60 tern greater length, is useful when designing the Everywhere, if the period for the watchdog takes this into account. Ge interrogation signals and thus the pulse frequency of the delivery delay devices can be seen in the stable state. This also applies in the event that flip-flop KS has the changeover switch US in position 1, several queries follow very quickly one after the other, ie the power supply device BA is, as in 65 and only then does a longer pause occur.
The thick lines shown, where the SE and the receiving part (indicated by an auxiliary receiving antenna HEA can also be used instead of coupling a directional coupler to the user of the transponder, in particular the transmitting antenna lead to the transmitting antenna SA

which is radiation-coupled to the antenna SA. As a result, when an output signal occurs at the transmitting antenna SA, the auxiliary antenna HEA is activated and delivers a signal to the detector DT 2. To save expensive components such as directional couplers or auxiliary antennas, the control signal can also be derived from the power consumption of the transmitter.

In all cases it is advisable to arrange the sensor (RK or HEA) provided for switching off the loads as close as possible to the transmitting antenna SA , because then largely all components of the transponder can be checked for their functionality. It would therefore be inexpedient to control the monitoring circuit from the receiving branch of the transponder, because the components located behind the sensor would then no longer be included in the monitoring.

The display device is mounted so that it is clearly visible to the operator In addition, it is useful that the display device is protected from daylight by a light shaft. protects is.

1 sheet of drawings

Claims (9)

p.tonf.ncnrf ^ «. care facility and a display facility, raientansprucne. ^ deQ State of the power supply device on 1. Responder for an interrogation-response shows. System with a power supply device From the German Offenlegungsschrift 22 29 802 and a display device that shows the state 5, a transponder is known in which a power supply The power supply device indicates that the supply device is provided in the form of a battery. characterized in that by means of an oehen With the battery is a pointer instrument the delivery of a response signal is connected, whereby the state of the battery over- Monitoring circuit (RK, DT 2, KS) that can be checked. Power supply device (BA) from the Ver io In response devices of query-response systems need (eg DK, SE) to save electricity, a defect in the response device can be switched off considerably, so that the display device can lead to complications. This is especially true, therefore, (LA) when switching the Stromweü on and off in the absence of a response to it, the supply device (BA) is switched over so that there is none at the respective location, so that the different operating - 15 object is, since such systems are mostly for the states of the display device (LA), the radio traffic monitoring of land, water or Lufttionieren both the power supply device are used vehicles, there z. B. the GE (BA) as well as the transponder signal, fahr that if only one component fails and that controlling the on and off response device can lead to a collision,
the power supply means (BA) is a mono- 20 of the present invention has the object to stable flip-flop (KS) is provided, the reasons, in a particularly simple manner, over-time constant is chosen such wachuagseinrichtung before fitting to provide that both the concern of the next following query signal indicates the operating status of the response device and the power supply device (BA) is again on power-saving. According to the invention, which the consumer (z. B. DK, SE) is switched on. »5 load on a transponder of the type mentioned at the beginning 2. Response device according to claim 1, characterized in that this is achieved in that by means of one which is characterized in that the monitoring device outputs a response signal erfassendsn overvalidation (RK, DT 2, KS) to the antenna feeder monitoring circuit coupled the power supply device of the transmitter (SE) is. withdrawn from consumers to save electricity 3. Response device according to one of the preceding 30 switches that the display device in the Andes claims, characterized in that the coupling and disconnection of the power supply device to the monitoring device is switched over with, such that the different-directional coupler (RK) takes place. borrowed operating states of the display device that 4. Response device according to claim 1, characterized in that both the Stromversorgu'igseinrichkakter functioning that the monitoring device 35 signal and the response device, and (DT2, KS) by means of a further antenna (HEA) that to control the switching on and off a monostable toggle is coupled to the antenna (SA) power supply device radiating the response. circuit is provided, the time constants of which 5. Response device according to one of the preceding is that before the arrival of the respective next claims, characterized in that the 40 following interrogation signals the Stromversorgungsein power supply device (BA) by e ^; direction is switched back on to the consumer. Changeover contact (US) either to the As the monitoring circuit interrupts the power consumers (eg DK, SE) or to the display device only when a response signal to the direction (LA) is switched on. is given, result in failure of the 6. Response device according to one of the preceding 45 power supply device or in the absence of Antden claims, characterized in that the words in each case the same, signal an error-control signals for the monitoring circuit the states on the display device. On the other hand (KS) from the power consumption of the transmitter (SE) occur when the power supply device is functional. and with a perfectly working transponder 7. Response device according to one of the preceding 5 ° other states of the display device, which indicate the claims, characterized in that the correct operation signal. An operating display device (LA) by a light person can thus immediately ensure that the radio shaft is in perfect condition and is protected from daylight. function both of the power supply devices 8. Identify the transponder for one of the previous and the transponder. On these the claims, characterized in that the w Weis * it is also ensured that as much as possible display device (LA) is saved by an interruption = borrowed electricity. circuit during its actuation time. This means that a small battery can be used emits a flashing signal. v / earth. Therefore, the invention is especially useful for 9. Response device suitable for one of the preceding response devices. The weight of the batted claims, especially for the application, is mainly due to the operating time and current usage as a ship transponder. The power consumption is reduced by the fact that the answering device as an independent transport, that in the breaks in operation on: Basic of the table unit with built-in power supply predetermined cycle time, in which the answering device battery (BA) and display device (LA) is queried, almost all Consumer of the answer device is formed. 65 are switched off and instead a display device (e.g. incandescent lamp) with low power consumption The invention relates to a transponder is switched on need,
for an interrogation-response system with a power supply. There are several: Response devices in sequence