SIT1602BI-12-30E-33.330000E Datasheet/PDFOscillators are electronic circuits that produces a periodic, oscillating electronic signal, often a sine wave, square wave or a triangular waveform. Oscillators are widely used in many electronic and communication systems, and are used as clock sources in computers and embedded systems.
The SIT1602BI-12-30E-33.330000E is an oscillator made by Sitronix and designed mainly for precision applications. It is a third-order low power low-jitter oscillator with Variable Modulus (VM) architecture. This oscillator utilizes a low-drop voltage regulator with an integrated current-limited device to ensure the correct operation of the oscillator.
The SIT1602BI-12-30E-33.330000E has a wide frequency range ranging from 32.1kHz to 33.3MHz. It also features a 40ppm feedback resistor, enabling precise frequency adjustment. The frequency of the oscillator is adjustable with an external current, allowing the user to quickly and accurately adjust the frequency of the oscillator for a wide range of applications.
In addition to the features mentioned above, the SIT1602BI-12-30E-33.330000E also has a low power consumption of less than 0.2μA, high output drive capability of 4mA, and can operate at temperatures up to 85°C. The oscillator can also be used in a wide range of applications, from clock sources and data transmission to temperature and pressure control.
The working principle of the SIT1602BI-12-30E-33.330000E is quite simple. The oscillator utilizes a Variable Modulus (VM) architecture, which enables precise frequency adjustment. A voltage-controlled current source controls the modulation of the VM oscillator, while a 40ppm precision resistor is used to adjust the frequency. This oscillator is also powered by a low-drop voltage regulator and an integrated current-limited device to ensure proper operation.
In conclusion, the SIT1602BI-12-30E-33.330000E is a precision oscillator that can be used in a wide range of applications, from clock sources and data transmission to temperature and pressure control. It features a wide frequency range and a low power consumption, and is easily adjustable with an external current. The oscillator utilizes a Variable Modulus architecture, which enables precise frequency adjustment.