DE2360431B2 - Thermostat for a crystal oscillator - Google Patents

Description

The invention relates to a thermostat for a quartz oscillator with a quartz which surrounds it inner heat-conducting jacket which is surrounded by an outer heat-conducting jacket in such a way that a longitudinal side of the cuboid inner Wännelleitmantels in a recess of the outer Wännelleitmantels is let in and only the surface parts of the closest to this longitudinal side subsequent sides of the inner Wännelleitmantels with the outer Wännelleitmantel in thermal contact stand and with a small-area heater and a temperature sensor, both of which are connected to the Long side of the inner thermal jacket connected

A thermostat of the aforementioned type is z. B. by the representation according to Figure 11 of the essay "Structure of high-quality thermostats for crystal oscillators" by H. Pichl, printed in the International Electronic Rundschau, 1971, No. 10, Pp. 249 to 251, known. The thermostat according to Fig. 11 is only used for temperature stabilization of quartz. Another type of thermostat with an inner and an outer thermal jacket is shown Figure 9 of the same reference showing the elements of the oscillator circuit in the space between the outer and inner thermal jacket are already subject to an average temperature constancy. This known thermostat has a belt-like heat conducting web and two heaters and two sensors and is quite voluminous and expensive to manufacture in terms of its external dimensions.

Furthermore, the DT-OS 18 06 114 is a thermostat previously known for a quartz oscillator which has an inner heat-conducting jacket surrounding the quartz has, which consists of a cup-like part wrapped with a heating coil and a lid-like part consists. The base of the pot-like part is in thermal contact with a part an inner surface of a housing which is closed on all sides and which represents an outer heat-conducting jacket, which includes the elements of the oscillator circuit that face away from the heating coil Side of the lid-like part of the inner heat-conducting jacket are arranged in chambers. the The arrangement of the heating coil on the cylinder surface of the cup-like part has a permanent effect Heat flow within the inner jacket and thus a temperature gradient in it, wherein the heat flow from the cooler base of the pot-like part to the outer housing Location of heat generation bypasses.

The object of the invention is to provide a thermostat for a highly stable Crystal oscillator, in particular for a basic generator of a broadband carrier frequency system specify which enables a particularly high frequency stability of the oscillator.

This object is in accordance with the invention for a thermostat according to the preamble of claim 1 through the characteristic features

Measures corresponding to this claim dissolves a mixed connection between the two heat conductors, is secured at this point.

By applying these measures, contact surfaces can also be applied with a conductive paste the advantage of a simple construction which can be worn or used a conductive adhesive can be manufactured and it allows 5 den, if previously in those places where Firstly, to achieve an extremely high quality (it should be possible to open the thermostat again, little improvement factor) on the one hand the Wännesiröme ideally one of the two touch marks to be glued and on the other hand a very high sanding surface was coated with a release agent, to use the temperature control loop, the circuit board 6 for the elements of the oscillator, without the occurrence of control instabilities, the circuit is parallel to the levels of the two of and secondly the elements of the oscillator circuit on the same side consisting of screw-on covers 2 with regard to their electrical position to the quartz gün- and 5 arranged and surrounds three sides of the inner stig to be arranged and also in their temperature thermal jacket. The connecting wires 14 of the quartz stabilize. zes 3 consist of a thin, the heat bad

On the basis of the drawing, the invention is a conductive material in order to prevent the penetration of the chamber explained in more detail. It show mer the oscillator circuit to the chamber of the quartz

Fig. 1 and 2 to keep two views of a first embodiment as small as possible.

example, The F i g. 3 and 4 each show a further

F i g. 3 and 4 each a further embodiment, management example, in which, based on the Dar-F i g. 5 and 6 show two views of a first embodiment according to FIG. 2, the location of the temperature control shape of the heater and the sensor holder 8 and the position of the slots 13 have been changed, border details of the arrangement according to FIGS. 1 to 4 The slots 13 are provided here such that and the heat conducting web 19 at a limited location

F i g. 7 and 8 are two views of a second absence, which occurs in the case of the arrangement according to FIG. 3 management of the aforementioned detail. 25 directly at the temperature sensor 8 and in

The F i g. 1 and 2 show in two views the case of the arrangement according to FIG. 4 directly at first embodiment of the thermostat. Which is the heater 7. It is also possible that Quartz 3 is located in the inner heat-conducting slots 13 to be designed in such a way that the heat-conducting jacket, of a trough-shaped web 19 at a location between the heater 7 and Part 1 with a rectangular base and the temperature sensor 8 or at the location of the heater, screw-on cover 2 is made. The zers 7 or that of the sensor 8 remains, which is at a longitudinal side of the inner heat-conducting jacket forms the arrangement according to FIG. 2 is realized. a massive plate 20, which the trough-shaped The purpose of the appropriately designed

The remaining part of the inner heat-conducting slot 13 formed is to guide the heat flows in such a way that jacket 1 including cover 2 downwards and upwards over 35 that temperature fluctuations on the outer warmth protrudes and one or more heat conduction heaters that are as harmful as possible to the contours of the conductive jacket 7 and the temperature sensor 8 and its way to the inner heat conducting jacket bypassing it Find connecting wires 18 adapted recesses on the temperature sensor 7 or the heater 8 shows. The plate 20 is through the slot 13 (Fig. 1 can. The optimal, narrowly delimited starting point and 2) in this way from the trough 1 of the inner heat 40 or foot point of the heat conducting web 19 m of the plate Iritmantels separated that a heat conducting web 19 in the 20 between the heater 7 and the temperature-N He of the heater 7 and the temperature sensor 8 sensor 8 for the disappearance of the Durchgnffes stop. The other slots 13 a, parallel to outside temperature fluctuations to the quartz is now the lids 2 and S (Fig. 1), separate the tub 1 depending on the (at the location of the temperature sensor from the tub 4. 45) loop gain of the temperature

The outer heat conduction jacket, which, under the control circuit and the remaining heat conduction value, derives from the massive (outer) tub 4 with the harmful heat conduction path. When using a rectangular base and the associated temperature control circuit with relatively low conditions screw-on cover S, the loop reinforcement occurs at the location of the temperature inner heat-conducting jacket and the circuit board 6 for 50 sensor relatively large temperature fluctuations aut; the elements of the oscillator circuit in such a way that they occur simultaneously under certain circumstances, however, Tempe plate 20 becomes part of the outer heat-conducting jacket. Temperature fluctuations with the opposite sign on the one long side of the (outer) tub 4 has the location of the heater. At the point between the heater namely a recess which the plate 20 and temperature sensor, where the temperature heat contact receives. Since the plate 20 55 compensate for fluctuations, the optimal location for the base of the heat-conducting web protrudes over the remaining parts of the inner heat-conducting web, ensuring that the inner and, if set, the conductance of the harmful heat-conducting web do not touch the outer heat-conducting jacket and is negligible . Turns out DAB is werkontakt not neglect the harmful only via the heat conducting 19 a heat thermal conductivity ⁶ * the can, the base of the Wärmeleitsteges must

Not shown in detail is one to be laid in a recess 19 in the direction of the heater 7; under of the cover 5 of the outer heat-conducting jacket fit- circumstances, the location of the heater itself is the gunder Projection on the stigste base point assigned to this cover S.

Narrow side of the plate 20. By means of several screws It is now an essential property of the inven-

Ben with the toothed washers 16 underneath, the plate 6 ₅ is a thermostat according to the invention, so that the damaging thermal conduction jacket bypassing the sensor 20 with the base of the tub 4 of the outer and the heater and with its cover S can be screwed a negligibly low thermal conduction value, so that a constant good ther- exhibits, in contrast to known thermostats

of a comparable type, in which a belt-like zone between the inner and outer heat-conducting jacket is provided. It is true that the properties of the thermostats with the belt-like zone can be reduced by this improve that on the outer belt circumference several heaters and sensors and for a disturbance variable a sensor can also be arranged outside this zone; the exact compensation however, all individual measures are only possible to a limited extent and also involve a great deal of effort tied together.

The particularly good properties of the arrangement representing a quasi-double thermostat with an outer and an inner thermal jacket and only a single, relatively simple one The higher the loop gain in the temperature control circuit, the more effective the temperature control is. At the very least, the loop gain should be so great that it is in the immediate vicinity of the heater a slight overcompensation of the outside temperature deviation or an exact one Compensation occurs. In this case the slots 13 are to be provided in such a way that the base point of the heat conducting web 19 is at the location of the heater 7. When applying a higher loop gain The location of the temperature compensation shifts and thus also the most favorable base point for the Heat conducting web 19 in the direction of the temperature sensor 8; at the same time it becomes possible to adjust the distance between the heater 7 and the sensor 8, which in turn results in a higher control speed or a higher loop gain can be realized. The control speed and the respective value of the control gain assigned to the control speed are namely limits are set by the thermal running time between the heater 7 and the temperature sensor 8.

For the aforementioned reason, in the exemplary embodiments, the heater 7 with a small area representing transistor and the temperature sensor 8 relatively closely adjacent in the recess or the Recesses of the plate 20 housed. The F i g. 5 and 6 show an arrangement in which the heater 7 and the temperature sensor 8 are fitted in two separate recesses, and the F i g. 7 and 8 show an arrangement in which the

ίο Heater 7 and the temperature sensor 8 in one joint Recesses are glued in each case with adhesive 17 that is a good conductor of heat.

The arrangements shown in FIGS. 1 to 4 also have that made of thermoplastic Plastic existing housing 10, which for the purpose of good thermal insulation inside with a Rigid foam (thermal insulation jacket 11) is foamed with extremely low thermal conductivity. Instead of of the rigid foam can also be made of soft

ao foam board-made parts with which the housing 10 can be designed. The entire Heat-insulating housing 10 together with the heat-insulating jacket 11 encloses the outer heat-conducting jacket 4, 5 including those with the heater 7 and

»5 the - temperature sensor 8 directly connected circuit board 9 for the elements of the temperature control circuit.

The threaded sockets 12 made of hard tissue, which are riveted into the trough 4 of the outer heat-conducting jacket are, penetrate the plastic housing 10 together with the thermal insulation jacket 11 and are used for fastening of the thermostat.

The transistor 7 representing the heater is screwed on with two threaded bolts IS for one Provide good contact pressure on the plate 20 and at the same time to hold the circuit board 9 for the Elements of the temperature control circuit are used.

For this purpose 3 sheets of drawings

Claims (7)

Patent claims: 1. Thermostat for a quartz oscillator with an inner one surrounding the quartz Thermal jacket, which is surrounded by an outer thermal jacket such that a Long side of the cuboid inner heat conducting jacket in a recess of the outer Vrarmeleitmantels is embedded and only «> the one closest to this long side Surface parts of the adjoining sides of the inner Wännelleitmantels with the outer heat-conducting jacket are in thermal contact and with a small-area heater and a Tewiper temperature sensor, which are both connected to the long side of the inner Wännelleitmantels, thereby characterized in that said longitudinal side of the inner heat-conducting jacket is a Solid plate (20) forms, which the tub-shaped ao-shaped remaining part of the inner Wänneleitmantels (1) including cover (2) protrudes downwards and upwards and one or more to the Contours of the heater (7) and the temperature sensor (8) and its connecting wires (18) has adapted recesses that the outer heat-conducting jacket as a solid trough (4) is formed and a side wall with a recess for the plate (20) of the inner Thermally conductive jacket and a cover (S) and that between the inner and the outer Thermally conductive jacket a printed circuit board (6) for the elements of the oscillator circuit parallel to the Levels of the two lids (2 and 5) that can be screwed on from the same side are arranged is. 2. Thermostat according to claim 1, characterized in that the plate (20) through slots (13) is separated from the trough of the inner heat-conducting jacket in such a way that a heat-conducting web 4 " (19) stops near the heater (7) and the temperature sensor (8). 3. Thermostat according to claim 2, characterized in that the slots (13) are provided such that the heat conducting web (19) at a limited location between the heater (7) and the temperature sensor (8) or at the location of the heater (7 ) or that of the temperature sensor (8) remains. 4. Thermostat according to one of the preceding claims, characterized in that the plate (20) has a matching *! ^v - having rspning. 5. Thermostat according to one of the preceding claims, characterized in that the Plate (20) with the base of the trough (4) of the outer heat-conducting jacket and with its Lid (5) can be screwed. 6. Thermostat according to one of the preceding claims, characterized in that the Circuit board (6) surrounds three sides of the inner thermal jacket. 7. Thermostat according to one of the preceding claims, characterized in that a heat-insulating housing (10, 11) the outer heating jacket (4, S) including one with the Heater (7) and the temperature sensor (8) directly connected circuit board (9) for the Elements of the temperature control circuit encloses.