DE1214314B - Circuit arrangement with a variable resistor - Google Patents

Description

Circuit arrangement with a variable resistor The invention relates to a circuit arrangement, in particular a quartz-stabilized circuit arrangement with a rheostat with a high negative temperature coefficient that increases from one to regulating, in its amplitude fluctuating current flows through it.

In quartz-stabilized circuit arrangements such. B. Oscillators in the range of low frequencies up to about 50 kHz, it happens here relatively great dependence of the frequency on the quartz load, especially a sufficient one Amplitude stabilization when higher demands are made on the frequency constancy will. Fluctuations in the vibration amplitude are z. B. by operating voltage fluctuations evoked. When using a rheostat with a high negative temperature coefficient Without a direct current bias, there is a disadvantage when several people meet Circumstances such as B. with fully turned out draw capacitor, with a transistor with a low gain or with a reduced operating voltage, the risk that the control because the response current of the control resistor is not reached more works.

The object of the invention is to create a circuit arrangement which allows the regulating resistance of the rheostat for every operating case with a high negative temperature coefficient.

The circuit arrangement is designed according to the invention so that In addition to the current to be regulated, a direct current of this type is added to the rheostat Size is supplied that the sum of the current to be controlled and the supplied DC current is always greater than the response current required to start the control of the rheostat.

Through these measures it is achieved that despite a decrease in size of the current to be controlled below the size of the response current of the variable resistor with a high negative temperature coefficient, good compensation for temperature fluctuations caused current and voltage fluctuations takes place.

The invention is based on the exemplary embodiment according to the figure explained in more detail.

In the figure, a two-stage quartz-stabilized oscillator is shown. The transistor 1 receives its base voltage via the resistors 25, 8 and 9, the transistor 2 via the resistors 25, 17 and 18. The negative collector voltage required for the pnp transistors reaches the collector of the transistor via the resistors 25, 13 and 12 1 and via resistors 25 and 19 to the collector of transistor 2. In the emitter circuits of the transistors there is a combination of resistors consisting of ohmic resistor 10 and capacitance 11 or ohmic resistor 21 and capacitance 20. From the collector of the transistor 2 leads a coupling resistor 5 via a capacitance 6 and another ohmic resistor 7 to the base of the transistor 1. The temperature-related voltage fluctuations are regulated in the base-emitter circuit of the transistor 1 by means of the variable resistor with a high negative temperature coefficient 3 and the ohmic upstream Resistor 4. Also in the base-emitter circuit of transistor 1 is a ho ohmic resistance 9 parallel to the control resistor. The quartz crystal 16, tuned to 8 kHz, upstream of which the pull capacitor 15 and the fixed capacitance working parallel to the pull capacitor are connected, lies between the connection point of the two collector resistors 13 and 12 of transistor 1 and the base of transistor 2. In addition to the emitter-base current of the The transistor 1, which is to be regulated, is fed a direct current to the control resistor via the collector resistor 19 of the transistor 2 and the ohmic resistor 5, which is selected so large that the sum of the base-emitter current of the transistor 1 and the supplied direct current is greater than the response current of the rheostat required to start the regulation. The stabilized oscillator output voltage U, 4 is tapped between the collector of the transistor 2 and the positive pole of the supply voltage source via the capacitor 22 and the ohmic resistor 23. The ohmic resistor 25 and the capacitor 24 serve only to filter the supply voltage fed to the transistors.

Claims (1)

Claim: Circuit arrangement, in particular quartz-stabilized Circuit arrangement, with vain control resistor finitely high negative temperature coefficient, which is traversed by a current that is to be regulated and whose amplitude fluctuates, characterized in that the rheostat in addition to the current to be regulated a direct current of such magnitude is supplied that the sum of the current to be regulated and the supplied direct current is always greater than that at the start of the regulation necessary response current of the rheostat.