DE1188733B - Semiconductor arrangement cooled by a Peltier element - Google Patents

Description

Semiconductor device cooled by a Peltier element. The invention relates to one on the connecting bridge of the cold junction of a Peltier element attached in good thermal contact and together with the Peltier element in a container housed semiconductor device.

Arrangements of this type are known. With them are semiconductors and Peltier element embedded in electrical insulating material and in a metal housing housed. The electrical connection bridge of the Peltier element lies directly at one electrode of the semiconductor.

The invention is intended to be thermally and electrically independent Arrangement are created. This is achieved by making the container an evacuated one Glass bulb, the inner surface of which is mirrored, that the semiconductor device is electrically isolated from the Peltier element, and that that of the semiconductor device Heat extracted by the Peltier element is applied to the plug pins of the glass bulb the version is passed on and delivered there - if necessary via cooler.

The present arrangement is against in a structurally simple manner Protected against thermal influences by the evacuated glass bulb Convection heat and by mirroring the inside of the glass bulb against radiant heat. The electrical decoupling of the cooling device from the switching element to be cooled, that is to be added to a given position in a circuit and then a specific one Potential is achieved by an insulation between the Peltier element and the semiconductor causes. This results in a component that is independent of the environment, in which it is to be used. The heat extracted by the Peltier element is given in a structurally particularly simple manner via plug pins of the glass bulb. The Peltier element is supplied with power in the usual way.

In Fig. 1 is a semiconductor diode cooled by a Peltier element and in FIG. 2 a transistor cooled by a Peltier element, both as exemplary embodiments according to the invention.

In Fig. 1, the semiconductor diode is denoted by 1; she is through the insulation layer 2 electrically separated from the bridge 3 between the cold Connection point of the Peltier element. The Peltier element consists in this example from two semiconductor legs 4 and 4 '. This whole arrangement is in a glass flask 5 with foot and connector pins 6 and 9 melted down. The piston 5 carries an inside Mirror coating 7. With 8 and 8 'connecting lines to the diode are referred to, the lead to the outer connector pins 9, while in this embodiment the Peltier element built directly on the inner (middle) connector pins 6 is. The piston 5, in which the semiconductor device and the Peltier element are installed is evacuated through an exhaust tube (not shown) and then melted off.

In Fig. 2 is a transistor cooled by a Peltier element shown. The transistor is denoted by 11. The reference numerals 2, 3, 4, 5, 6, 7 and 9 have the same meaning as in Fig. 1. With 8, 8 'and 12 are supply lines from the transistor to the three connector pins 9, 9 and 13.

Claims (3)

Claims: 1. On the connecting bridge of the cold junction of a Peltier element in good thermal contact and attached to the Peltier element Semiconductor arrangement housed together in a container, in particular a Transistor, characterized in that the container is an evacuated glass bulb whose inner surface is mirrored that the semiconductor device of the Peltier element is electrically isolated and that the semiconductor device through the Peltier element withdrawn Heat through the plug pins of the glass bulb is passed on to the socket and delivered there - if necessary via a cooler. 2. Semiconductor arrangement according to claim 1, characterized in that the Peltier element is traversed by the operating current of the semiconductor arrangement. 3. Semiconductor arrangement according to claim 1, characterized in that an auxiliary current flows through the Peltier element. Considered publications: German Auslegeschriften Nos. 1006 531, 1080690.