DE3342934A1 - Method for information transmission in a fuse in ammunition technology - Google Patents

Abstract

For the self-telemetry of a projectile fuse emitting microwaves or optical waves, data relating to the operating cycle and the Doppler signals generated in the fuse are also additionally emitted by means of the transmitter.

Description

Description

Method for the transmission of information in a fuse in ammunition technology The invention relates to a method according to the preamble of the claim 1.

In the development of electronic projectile or rocket detonators arise When analyzing errors that have occurred, problems often arise in determining the Causes that led to the errors. Usually it only works after a row of complex experiments in which many parameters were changed, the real ones To determine the cause of the error.

By using a floor telemetry there is the possibility of to determine the causes of errors faster: ttln The use of such telemetry systems however, it only makes sense in the early stages of developments for several reasons.

Because the floor telemetry is due to the small number of pieces i. a. not very reliable and also expensive.

Common disorders related to the structure and aerodynamics causally related and lead to "micro-electrical interference" are precisely with floor telemetry very difficult to see, as they are used on the projectile itself as well as requires changes to the structures of the test item and therefore to other statements leads. The use of Geschontelemetricii then no longer makes sense, when it comes to determining the cause of statistically distributed errors, the rur occur in relatively small percentages.

The invention is based on the object of providing a device that is suitable for fault analysis Specify the measuring method with which the cause of the fault can be identified locally on individual assemblies, such as pyrotechnics or electronics.

The invention makes use of the possibility existing with radiant detonators to transmit information about the functional sequence via the active sensor. These Information can then be received and analyzed again via a special receiver will; Together with the malfunction of the test item, one can then determine the cause of the error conclude.

The invention can be found in claim 1.

In the system described below, a proximity fuse different methods of transferring the functional sequence and that generated in the detonator Doppler signal shown via the transmitter of the radar sensor.

The system described is a small-caliber one Proximity fuse. The use of telemetry after the invention also resulted in this still significant advantages when testing the detonator.

Due to the small volume, it would have been difficult to the necessary number of test points through plug connections via a test connection to lead to the outside world.

Therefore, only two test points (e.g. power supply) from provided externally contactable.

Further test connections were made through consistent use of the iigencelemet not necessary anymore.

About the radar transmitter z. B. the following information about the Functional sequence of the detonator emitted: - unlocking after firing - target detection - Ignition signal - Generated Doppler signal.

The function should be based on the figure (simplified block diagram) the own telemetry are explained. In the block diagram, only those are used for description the necessary assemblies for the internal telemetry.

The radar sensor consists of a transmitter and a receiver ger. With the LO signal, which is decoupled from the oscillator, and the received one Signal the Doppler signal is generated; it reaches the Doppler preamplifier from the radar sensor and to the Doppler amplifier. The Doppler signal is transmitted in the Doppler output amplifier several amplitude comparators and digitized in the signal processor from the Doppler signal derived a target detection and an ignition signal. From a sequence control all mission-time-dependent functions, such as upstream pipe security, impact release, Neutralization, etc. controlled.

The transmission part for generating the RF energy consists of a transistor, which is supplied by two voltage sources for reasons of low power consumption will. A voltage source supplies the collector voltage, another voltage source provides the necessary base voltage.

The base input of the oscillator is also a very sensitive one Input for frequency modulation of the oscillator. In addition, by switching off the base voltage of the oscillator can be switched off quickly.

To generate the own telemetry signals for unlocking, target detection and the ignition signal becomes a tristate signal from the signal processor via a line given to the "power supply" assembly for the oscillator. In this assembly turns the tristate signal into the necessary changes in the base voltage for generating the own telemetry signals implemented. Since the system-side the sequence of operations for unlocking, Target detection and ignition signal is used to transfer the information is unlocked and ignition signal of the transmitter are switched off for a short time (approx. 1 ms).

A target detection is indicated by a defined positive Frequency jump of the oscillator within the system bandwidth.

The Doppler signal generated in the detonator is used as further information transmitted continuously. The Doppler preamplifier and power supply for the oscillator are housed on a single IC. By overlaying a small part of the Doppler signal from the Doppler preamplifier and the voltage the oscillator signal is generated from the base voltage regulator for the oscillator with the Doppler frequency-modulated as a modulation signal.

Claims (2)

Claims method for the transmission of information about the Functional sequence of a fuse emitting micro or optical waves in ammunition technology, characterized in that the transmitter of the detonator when entering, reaching or Exceeding a predetermined event or a threshold value in its own Frequency is changed or switched off briefly or with system-specific continuously running signals, such as B. video signals or Doppler signals, is frequency or phase or amplitude modulated. 2. The method according to claim 1, characterized in that the frequency change is carried out abruptly by a value + # f or - a f.