SU936368A1 - Crystal oscillator - Google Patents

Description

(54) QUARTZ GENERATOR

Claims (1)

The invention relates to radio engineering and can be used as a source of reference frequency in the frequency and frequency measurement equipment. A quartz oscillator is known, containing a single junction uranisistor, the first resistor, the field-effect transistor with common drain and load in the source circuit and the second resistor in the gate circuit to which the capacitor is connected, as well as a quartz resonator connected between the gate, are interposed between the emitter and source. field-effect and emitter of unijunction transistors 1. However, the well-known quartz generator has an insufficiently high frequency stability of the generated oscillations. The purpose of the invention is to increase the frequency of the generated oscillations. To do this, a third resistor, a bipolar transistor with a load in the collector circuit and a second resistor in the base circuit to which the crystal resonator and capacitor are connected are inserted into a quartz oscillator containing a single junction transistor and a second and fourth resistors in the base circuit to which the crystal resistor is connected. , gfich, another output of the quartz resonator is connected to a power source, a series-connected capacitor and a third resistor are connected between the emitters of the unijunction and bipolar transistors, and A resistor is connected to the emitter circuit of a bipolar transistor. The drawing shows a circuit diagram of a crystal oscillator. The square generator contains a single junction T1 transistor 1, a bipolar transistor 2 with a load 3, a quartz resonance 4, a capacitor 5, a resistor of 6, 7, 8 and 9, a power source 10. A quartz oscillator operates as follows. Consider an equivalent circuit of a quartz oscillator without a quartz resonator 4. Resistor 8 with resistance R and Input resistance Pgy of the cascade with an emitter input are included with the negative resistance R of the unijunction transistor 1. If (R) R + fgy, the condition self-excitation and oscillations generated with a frequency determined by the values of capacitance C of capacitor 5 and the equivalent inductance l of the input circuit of a single junction transistor 1, the frequency value can be chosen close to the frequency value sequence quartz resonance. Input with resistance of the cascade with the emitter input (assuming that the resistor 9 does not shunt it) - РЗ +) (rg + КБ Ь where г5 and Pg - connectors of the emitter and the base of transistor 2, with responsible; Rg - resistance of resistor 7; ot - current gain of transistor 2 for a common base circuit. With a sufficient degree of accuracy, fg can be defined as ((5 because R 5 5 Input resistance Gy., reaches a large value (units per kilo) with relatively small cL (0.9 - 0.95) and RC values of ten to hundreds of kilo. Increasing the resistance R of resistor 8 can be breaking the self-excitation condition. If you connect a quartz resonator 4 at a frequency close to the frequency of its series resonance, g decreases, and g 4Y- (1) Ta-f uy9 l iOE H (-A) Cc (,) and you can ensure self-excitation conditions. In the circuit, the oscillations determined by the reference properties of the quartz resonator 4 are set. In this case, the variable component of the current of the single-transistor 1 is the input (emitter) current of the cascade on the bi-polar transistor 2, and the base current of the latter is the current quartz resonator 4, udet sootvetstveshyu in,. times more Consequently, the power dissipation in the quartz resonator 4 decreases by (. T-) times. The tests of the proposed crystal oscillator and the known show that the current through the quartz resonator 4 in the proposed circuit is less, and, consequently, the power dissipation on the quartz resonator 4 is also less, and since the dependence of the frequency change on the dissipated power is almost linear, the long-term frequency stability the proposed crystal oscillator. Thus, the power dissipation in the proposed scheme can be reduced, resulting in increased frequency stability of the generated oscillations. The proposed generator can be effectively used in small-sized equipment with increased requirements for frequency stability. Claim generator containing a single junction transistor, between the emitter of which and the power source includes a first resistor, a bipolar transistor with a load in the collector circuit and a second j resistor in the base circuit to which the crystal is connected, and a capacitor, characterized in that in order to increase the frequency stability of the generated oscillations, the third and fourth resistors are introduced into it, 15) and why another output of the quartz resonator is connected to the power supply, between the single-transition emitters and b polar transistors are series connected capacitor and a third resistor and a fourth resistor is included in the emitter circuit of the bipolar transistor. Sources of information taken into account in the examination 1. Negodchenko O.N., et al. Mineroelectronic quartz oscillator on a single junction and field-effect transistors. - In Sat. Negatrons in computing and measuring equipment, Riga, Zinatne, 1973, (prototype).