DE939458C - Crystal rectifier, especially detector for short and shortest waves - Google Patents

Description

Crystal rectifier, especially detector for short and shortest Waves This invention relates to and aims to provide crystal rectifiers one that is particularly efficient in the field of short and shortest waves Detector where special attention is paid to high sensitivity and a dated Point of view is aimed at mass production expedient design.

There are several designs of crystal rectifiers known at which the housing is made of glass, quartz glass or ceramic material and which The crystal and tip are held by soldering or cementing. To According to previous experience, glass separates for the present purpose for reasons of temperature the end. The previous process for the production of detectors in ceramic design, d. H. soldering in the metal pins carrying the crystal and the contact tip in a sleeve made of ceramic material, brings defects insofar as on the one hand the crystal is badly affected by the heat that cannot be avoided during the soldering process is pulled, on the other hand, the soldered pins easily out of their holders can break out. The latter mainly happens when the detector is used in holding devices.

There is a method for producing detectors that has proven itself per se in that both the incorporated and treated crystal and the the resilient contact tip carrying the metal pin either attached to caps made of metal and up the ends of a quartz glass tube cemented or without caps cemented directly into the quartz glass tube.

These detectors are intended for use in the area of ultra-short waves however, less suitable because they do not fall below certain spatial dimensions without fear of mechanical instabilities. Since the generation extremely short waves become more and more important, on the other hand the sensitivity of the detector at these wavelengths also for the most part through the bracket evoked capacities is severely limited, the problem of detectors wins to produce the smallest possible holding capacities in addition to the smallest possible dimensions have become more and more important.

This object is achieved with the detector proposed according to the invention solved in that the crystal 4 in the metallized conical inner bore of a - Soldered ring i made of suitable insulating material and the resilient contact tip supporting metal pin 6 in a sleeve-like insulating part cemented together with the ring 2 fastened, preferably in the conical bore of the insulating sleeve. is soldered in.

The subject of the invention is now to be based on some exemplary embodiments are explained in more detail. Figs. I and 2 represent a longitudinal section through two the aspects of the invention constructed crystal rectifiers. You consist initially of the ring or a ring made of suitable insulating material conically drilled disc z and the sleeve 2. A cone is worked into the ring, on which a metallization is applied, 3. The crystal is placed in this cone 4: e.g. B. soldered with solder 8 and only then ground flat and chemically treated. This will have a subsequent influence, especially a worsening of the Rectifying properties of the crystal avoided by the heating during soldering. - In the case of the sleeve 2 - the inner conical surface 3Q is also metallized and a the spring-loaded contact tip 5 carrying metal pin 6 z. B. soldered with solder 9, which is then cut off. However, it is also possible to use the metal pin on others Way to fasten within the sleeve, for example using a doctrinal To compress the device, so that the metallization and the conical design the sleeve bore unnecessary. The metal pin 6 is on the contact spring 5 supporting End 7 conically pointed to ensure a better fit of the spring.

The detector shown in Fig. 2 differs from the design according to Fig. i only in that the ring carrying the crystal or the conically drilled through Disk is provided with a shoulder i ", whereby the assembly is facilitated. The sleeve: 2 can then also without any device up to the stop over the approach i being pushed.

If the individual parts are now incorporated according to teaching, what with suitable devices. is relatively easy to do; then the two parts of the insulating material only need to be cemented together with putty. The contact pressure then sets itself automatically.

It can sometimes be advantageous for the ring and the sleeve to be different To use insulating materials, for example those with different temperature coefficients or other properties to avoid any differences in the use of the Compensate for individual parts when assembling the detectors.

The measures proposed according to the invention on the one hand the dimensions of the detector kept as small as possible, have already built detectors a length of only 3.5 mm, but on the other hand the damaging capacities on a practically no longer to be fallen short of reduced level.

Claims (5)

PATENT CLAIMS: i. Crystal rectifier, especially detector for short and shortest waves, characterized in that the crystal (4) is metallized in the conical inner bore of a ring (i) made of suitable insulating material and soldered the metal pin (6) carrying the resilient contact tip in a cemented together with the ring sleeve-like insulating part (2) attached, preferably in the conical bore the insulating sleeve is soldered in. 2. crystal rectifier according to claim i, characterized characterized in that the insulating ring (i) is provided with a shoulder (Q and in the sleeve (2) is pushed in. 3. Crystal rectifier according to claim i and 2, characterized in that the ring and sleeve consist of different insulating materials. 4. crystal rectifier according to claim i to 3, characterized in that the Metal pin (6) at the end (7) carrying the contact spring (5) with a conical point is. 5. A method for producing crystal rectifiers according to claim i to 4, characterized in that the crystal is ground flat after soldering into the ring (i) and is chemically treated.