DE2123020A1 - Electromagnetic oscillator - Google Patents

Description

The invention relates to an electromagnetic oscillator with a mechanical resonator with a single-coil transducer, the drive of which is a negative resistance cautious, containing at least two supplementary transistors Circuit is guaranteed.

Such oscillators are known per se.

The drive circuit works the better and has a better energy efficiency, the higher the current gain ^, i.e. is the gain of the transistors.

However, too high a gain / ³ can cause the corresponding transistor to saturate and prevent its normal operation. This is especially true for the control transistor, whose charging resistance at the collector is much higher than the resistance of the coil at the collector of the second transistor.

The object on which the invention is based is to provide a control transistor which prevents saturation Means to allow the use of a high gain P is possible.

109848/1768

The electromagnetic oscillator according to the invention is characterized in that the base line of the A voltage divider is connected to the control transistor, the collector of the control transistor being connected to a tap point of the voltage divider via a diode, and the whole thing in such a way that when the ■ collector voltage of the control transistor drops, its base current also has a tendency to sink and an equilibrium point is reached in this way before saturation.

An exemplary embodiment of the subject matter of the invention is explained in more detail below with reference to the accompanying drawing.

This figure shows the drive circuit of a schematically shown drive balance for a clock.

In the example shown, the mechanical resonator consists of a balance wheel 1, the ring of which carries a bar magnet 2. When the balance wheel 1 vibrates, this bar magnet moves in relation to a coil 3, which is at the same time the collecting coil and drive coil and, together with the bar magnet 2, belongs to a single-coil transducer.

The circuit for keeping the oscillations of the balance wheel going contains a current source h, a control transistor T ₁ and a drive _{transistor T 2} -

This circuit also contains two resistors R ¹ ^ and R s as well as two resistors R. and R-, which are selected as required.

The resistor R 'is in the base line of the transistor

1098A8 / 176S

T ₁ and is connected in series with a second resistor R ″, which forms a voltage divider with it.

A diode D is connected between the tapping point C lying in the collector line of the transistor T ₁ and the tapping point A lying between the two resistors R 'and R ^n. The circuit described above works as follows:

When the voltage between the tapping points C and A reaches the threshold voltage U _{n of} the diode D, the voltage U. at the tapping point A follows the collector voltage

XS _{n of} the transistor T., so that its base current I _{n is} then: M

¹ B ₁ " ^U A - ^U BE - ^U C - < ^U D - ¹¹ BE ₁ > ¹ ΪΡ ^ [ W ^ ^x ""

where tJL ·., is the base-emitter voltage of transistor T ₁ . ^x

Since \ J and U are practically constant, it follows that ■ U BE ₁

that I _n decreases with U-. In this way, a U ₁ c

Reach equilibrium point before transistor T ₁ saturates.

It should be noted that the arrangement described above could also be applied to a circuit with more than one transistor pair, in this case to each of them.

MB / Nm - 22 636/37 claim:

109848/176 "

Claims (1)

Claim Electromagnetic oscillator comprising a mechanical resonator with einspuligem converter whose drive is ensured by behaving as a negative resistance, at least a pair of supplementary transistors circuit containing, characterized in that the, base lead of Staiertransistors (T.) a voltage divider (R ¹ Jt R ¹¹ J.) is connected, the collector of the control transistor is connected to a tap (A) of the voltage divider via a diode (D), the whole thing in such a way that when the collector voltage (u_) of the Control transistor (Tj) its base current (ι ') also the Has a tendency to sink and an equilibrium point is reached in this way before saturation. MB / Nm 22 636/57 109848/1768