It is extremely important to keep both the crystal and circuitry in a controlled structure so as to manage temperature sensitivity. This is what denotes a stable temperature, which ought to be higher than the one responsible for exposing OCXO 10MHz Frequency Reference. Better still; the oven can perform better if it is set to turnover resonators degree to give it the capability of balancing with the outside temperature.
If the temperature is controlled, then anomalies associated with temperature effects will be reduced to minimal. These temperature anomalies have effects on the resonators and may just allow compensation within a limited allowance. Higher overtone crystals may also be used in such controlled temperatures. This is better because they are stable in controlled conditions.
Stability is highly enabled with these oscillators as compared to the others like TCXO and SPXO which have no temperature control mechanisms. Rather, their temperature characteristics are determined by the crystal units. The oven controlled oscillator is better placed because of its oven block which is capable of maintaining a stable temperature as required.
Stability comes about as a result of the dynamic characteristics as well as the static. Oven accuracy, range of design temperature, the resonator and other components determine the stability. Such temperature stability performs within the recommended range. The narrow ones have proved to have increased stability due to the fact that restriction is possible to a specific area.
More power needs to be considered for the oven controlled oscillator because its consumption is enormous. Depending on the insulation kind, you will be able to determine the power needed for such operations. The higher it goes, the lesser heat used, which in turn helps in usage as minimal as possible.
It is the oven temperature that is set first to some higher degrees of temperature more than the normal ambient one. This is just to enable the oven have a good control in place. After this, is when you warm the resonator to attain some amount of heat up front. This is what caused equilibrium balancing.
Proper regulation should also be carried out so that the voltage supply does not have any variations. If not checked, then disturbances may be noticed within oscillator frequency and this could hinder its performance. Difference in power if realized can cause delay and let the supply go back to equilibrium, leading to wastage of more time.
Since the oscillator is sensitive to load, an amplifier could be used so that multiple outputs can be obtained. This is the reason why they should be built around the oven so that temperature stability does not interfere so much. Humidity also needs to be checked because it could have some impact on the stability.
Even if this may be the case, instability can be measured and can also be modelled in order to avert these temperature issues. There are also control mechanisms that can be used to control any error and avert instability. Such mechanisms can also help further by giving temperature compensation and effective aging. Additional characteristic series such as retrace can also be considered to avert such situations.
If the temperature is controlled, then anomalies associated with temperature effects will be reduced to minimal. These temperature anomalies have effects on the resonators and may just allow compensation within a limited allowance. Higher overtone crystals may also be used in such controlled temperatures. This is better because they are stable in controlled conditions.
Stability is highly enabled with these oscillators as compared to the others like TCXO and SPXO which have no temperature control mechanisms. Rather, their temperature characteristics are determined by the crystal units. The oven controlled oscillator is better placed because of its oven block which is capable of maintaining a stable temperature as required.
Stability comes about as a result of the dynamic characteristics as well as the static. Oven accuracy, range of design temperature, the resonator and other components determine the stability. Such temperature stability performs within the recommended range. The narrow ones have proved to have increased stability due to the fact that restriction is possible to a specific area.
More power needs to be considered for the oven controlled oscillator because its consumption is enormous. Depending on the insulation kind, you will be able to determine the power needed for such operations. The higher it goes, the lesser heat used, which in turn helps in usage as minimal as possible.
It is the oven temperature that is set first to some higher degrees of temperature more than the normal ambient one. This is just to enable the oven have a good control in place. After this, is when you warm the resonator to attain some amount of heat up front. This is what caused equilibrium balancing.
Proper regulation should also be carried out so that the voltage supply does not have any variations. If not checked, then disturbances may be noticed within oscillator frequency and this could hinder its performance. Difference in power if realized can cause delay and let the supply go back to equilibrium, leading to wastage of more time.
Since the oscillator is sensitive to load, an amplifier could be used so that multiple outputs can be obtained. This is the reason why they should be built around the oven so that temperature stability does not interfere so much. Humidity also needs to be checked because it could have some impact on the stability.
Even if this may be the case, instability can be measured and can also be modelled in order to avert these temperature issues. There are also control mechanisms that can be used to control any error and avert instability. Such mechanisms can also help further by giving temperature compensation and effective aging. Additional characteristic series such as retrace can also be considered to avert such situations.
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