SU982184A1 - Temperature-stabilized crystal resonator - Google Patents

Description

The invention relates to electronics and can be used in frequency stabilization devices.

Known thermostated quartz resonator comprising a thermostat and regulation elements ⁵ ry temperatures from March 1.

The disadvantages of this resonator are its significant power consumption and dimensions.

The reduction in size and power consumption of the thermostatically controlled quartz resonator is provided when the thermostat is in the form of a film heater. _fifteen

Known thermostatic quartz resonator containing a piezoelectric element with a film heater located on its surface, made of metal having resistive properties - tungsten, nichrome or nickel [2].

A disadvantage of the known resonator is the low frequency stability, which is associated with a linear temperature dependence of the specific surface resistance of metal resistive films.

The purpose of the invention is to increase the frequency stability of a thermostated quartz resonator.

This goal is achieved by the fact that in a thermostated quartz resonator containing a piezoelectric element with a film heater located on its surface, the film heater is made of. a mixture of bismuth trioxide and lead bichloride, taken in equal proportions.

The drawing shows the design of the proposed resonator.

The resonator contains a quartz piezoelectric element 1 on which a film heater 2, contact pads 3 and exciting electrodes 4 are located. The heater 2 is made in the form of a ring or rectangular track from a mixture of equal suits of bismuth trioxide and lead bichloride (percentage ratio 1: 1).

When a constant voltage is applied to the film heater 2, it heats up. Since the s components of the material of heater 2 are semiconductors and have thermoresistive properties, with increasing temperature, the resistivity of the film heater 2 decreases exponentially. In this case, a mode of automatic control of the operating temperature can be provided, ^ ογαθ at an ambient temperature lower than the temperature of the piezoelectric element 1T ₀ , excess heating 15 of the piezoelectric element 1 by the heat of the heater 2 is compensated by cooling due to heat transfer to the environment and, conversely, at an ambient temperature higher temperature T _o, 20 over- heating of external heat pezoelementa 1, vym field compensated reduction of power allocated to the film heater 2o Said mixture composition provides high efficiency autoregulation ii.

The proposed thermostatically controlled quartz resonator has a high frequency stability, the relative frequency drift in a wide temperature range does not exceed 1-10 ' ⁷ Hz. The resonator has a simple design and small dimensions.

Claims (2)

(THERMOSTATIZED QUARTZ The invention relates to radio electronics and can be used in frequency stabilization devices. Thermostatted quartz resonator is known, which contains a thermostat and temperature control elements of the joint venture. The disadvantages of this resonator are its significant power consumption and dimensions. A quartz resonator is provided when the thermostat is made in the form of a film heater. a zonator containing a piezoelectric element with a film heater located on its surface, made of a metal with reparative properties — tungsten, nichrome or nickel 2. A disadvantage of the known resonator is the low stability of the mass resistor, which is due to the linear dependence of the specific surface resistance of metallic resistive films The aim of the invention is to increase the frequency stability of a thermostatically controlled quartz resonator. This goal is achieved by the fact that in a thermostatted quartz resonator containing a piezoelectric element with a film heater located on its surface, the film heater is made of. mixtures of bismuth trioxide and lead bichloride, taken in equal ratios. The drawing shows the design of the proposed resonator. The resonator contains a quartz piezoelectric element 1, on which a film heater 2 is located, contact pads 3 and exciting electrodes k. The heater 2 is made in the form of a circular and / m rectangular-shaped track of a mixture of equal parts of muta-trioxide 398 of lead and bicporide lead (percentage ratio 1: 1 J. When fed to a constant-voltage electric heater on the film heater 2, since the components of the heater material 2 are semiconductors and have thermo-resistance properties, with an increase in temperature, the resistivity of the film heater 2 decreases exponentially. At the same time, the mode of automatic regulation of the working temperature, and the ambient temperature lower than the Id piezoelectric temperature, the excess heat of the piezoelectric element 1 by the heat of heater 2 is compensated by cooling due to the return of heat to the environment and, conversely, when the ambient temperature is higher than the temperature TQ, the overheating of the piezoelectric element 1 by the external heat field is compensated by lower power released on the film heater 2o. The indicated composition of the mixture ensures high efficiency of autoregulation. The proposed temperature-controlled quartz resonator has a high frequency stability, the relative frequency drift in a wide temperature range does not exceed T-JHz, the Resonator has a simple structure and small dimensions. The invention of the Thermostatted quartz resolator containing a piezoelectric element with a film heater located on its surface is different in that, in order to increase frequency stability, the film heater is made of a mixture of bismuth trioxide and lead bichloride, taken in equal ratios. , taken into account during the examination 1. Vorokhovsky Ya. L "Electronic equipment. Ser. 5, 1978, vol. 1, p. 6876. 2. US patent K 3201621, CL 310-8.9, published. 19b5 (prototype).