DE3906996A1 - Arrangement for generating the current pulses for semiconductor diodes emitting radiation - Google Patents

Abstract

In a known arrangement for producing current pulses for semiconductor diodes emitting radiation, a piezo element is mechanically loaded and the voltage pulse thus generated is injected into the circuit of the semiconductor diode by means of a transformer. The novel arrangement is intended to make it possible to generate the current pulses without using piezo elements in addition to not using a supply voltage source. The mechanical energy pulses are transformed in an inductive manner into voltage pulses. <IMAGE>

Description

The invention relates to an application according to the Ober Concept of claim 1.

Such an application is known from EP-PS 01 17 437. Here, a piezo element is mechanically loaded and the voltage pulse thereby generated by means of a transformer in coupled the circuit of the semiconductor diode.

The present invention has for its object a Application of the generic type to find that without the Ver Piezo elements are used to generate voltage pulses gets along and a waiver of a supply voltage source leaves.

This object is achieved by the characterizing Features solved in claim 1.

Further developments and expedient refinements of the invention are specified in the subclaims.

The invention is illustrated below with reference to the drawing which illustrates an embodiment, explained. It shows

Fig. 1 shows a longitudinal section through a receptacle housing for the components, which are necessary for carrying out the method,

Fig. 2 shows the individual components of FIG. 1 in an exploded view.

As shown in Fig. 1, the receiving housing 1 for the pulsed for the semiconductor diode 2 (luminescent diode) provided components from two parts 1 ' and 1'' . Inside the housing part 1 ' an induction coil 3 is housed, which is arranged on a bobbin 4 made of electrically insulating material. The induction coil 3 and the coil body 4 sit axially immovable and non-rotatable in Ge housing part 1 ' . In the cylindrical cavity 5 of the bobbin 4 , a core 6 made of magnetic material against the restoring force of a spring 7 is arranged axially and thus relative to the fixed induction coil 3 . The end of the spring 7 facing away from the magnetic core 6 is supported on a stable disk 8 .

The in the exemplary embodiment cylindrical core 6 made of magnetic material is in the region of its end facing away from the spring 7 in a bore 9 of the housing part 1 ' leads and optionally combined with an anvil element 10 . Through the opening 11 in the housing part 1 ' occurs in Beaufschla supply case an impact body 12 , for example the firing pin of a firearm, not shown.

In the front housing part 1 '' there is a transformer 13 to whose primary winding the induction coil 3 is connected. The secondary winding of the embedded in an insulating compound 14 transformer 13 is electrically connected to the semiconductor diode 2 , which is arranged in a bore 15 in the housing part 1 '' . A free-wheeling diode 17 is connected between the two connections of the semiconductor diode 2 . The radiation or light pulses of the semiconductor diode pass through the output opening 18 in the front of the housing part 1 '' to the outside and, if necessary, after focusing by means of a lens on the target 19 , z. B. in the form of a photodiode.

The simple structure of the arrangement for pulsing semiconductor diodes is particularly clear from Fig. 2.

In this embodiment, the anvil element 10 is firmly united with the core 6 made of magnetic material. This prevents damage to the magnetic core 6 . The coil body 4 receiving the magnetic core 6 and also the windows 7 is made of plastic. The ends 3 ', 3''of the induction coil 3 are connected to the transformer 13 . The individual components are arranged in the housing 1 coaxially to each other and the housing has the shape of a cartridge that can be used in a commercially available weapon of the appropriate caliber.

When a shot is triggered, the striking body 12 strikes the anvil element 10 , as a result of which the magnetic core 6 is accelerated. Due to the axial displacement of the magnetic core 6 caused in this way, a voltage is induced in the induction coil 3 , which reaches the transformer 13 as a voltage pulse and is transformed by this to a value that is sufficient for the activation of the light-emitting semiconductor diode 2 To generate current pulses.

Reference symbol list

1 housing
1 ', 1'' parts from the housing
2 semiconductor diode (luminescent diode)
3 induction coil
3 ' end of the induction coil, which is connected directly to the primary winding of the transformer 13
3 '' end of the induction coil, which is connected directly to the primary winding of the transformer 13
4 coil form of the induction coil 3
5 cylindrical cavity of the coil former 4
6 magnetic core
7 return spring
8 stable disc
9 Hole for receiving the movable magnetic core 6
10 anvil element, which is firmly connected to the magnetic core 6
11 opening in the housing and in part 1 '
12 impactors
13 transformer
14 insulating compound
15 hole for semiconductor diode
16, 16 ' connection between the secondary winding of the transformer 13 and the semiconductor diode 2nd
17 freewheeling diode
18 opening in the housing and in part 1 ''

Claims (7)

1. Arrangement for generating the current pulses for a radiation-emitting semiconductor diode by converting mechanical energy pulses into voltage pulses of sufficient amplitude, characterized in that the conversion of the mechanical energy pulses into voltage pulses follows him inductively. 2. Arrangement according to claim 1, characterized in that an induction coil ( 3 ) is associated with a displaceable relative to this, under the action of a restoring force core ( 6 ) made of magnetic material which can be accelerated by a striking body ( 12 ), and that the induction coil ( 3 ) is followed by a transformer ( 13 ), to the output of which a light-emitting semiconductor diode ( 2 ) is connected. 3. Arrangement according to claim 2, characterized in that the core ( 6 ) made of magnetic material in the interior of an existing coil material made of insulating material ( 4 ) and is supported with its front side on a spring ( 7 ), the other end of which is stable Disc ( 8 ) abuts, and that the core ( 6 ) is provided with an anvil element ( 10 ) on which the impact body ( 12 ) acts. 4. Arrangement according to one of the preceding claims, characterized in that a free-wheeling diode ( 17 ) is connected antiparallel to the semiconductor diode ( 2 ). 5. Arrangement according to one of the preceding claims, characterized ge indicates that the semiconductor diode by luminescence diode or semiconductor laser diode is embodied. 6. Arrangement according to claims 1 to 6, characterized in that it is placed in a preferably two-part housing ( 1 ) which is provided with an outlet opening ( 18 ) for the radiation pulse and with an inlet opening ( 11 ) for an impact body. 7. Arrangement according to claim 6, characterized in that the housing ( 1 ) has the shape of a conventional cartridge.