The SI5338L-B06655-GMR has a total of 20 pins. The pin configuration is as follows: 1. VDDO - Power supply voltage for outputs 2. GND - Ground 3. XAXB - Differential input pair 4. XAXN - Differential input pair 5. XBXB - Differential input pair 6. XBXP - Differential input pair 7. XBXN - Differential input pair 8. XAXP - Differential input pair 9. CLKIN - Reference clock input 10. GND - Ground 11. SDA - I2C serial data input 12. SCL - I2C serial clock input 13. VDDI - Power supply voltage for internal circuitry 14. GND - Ground 15. OUT0 - Output 0 16. OUT1 - Output 1 17. OUT2 - Output 2 18. OUT3 - Output 3 19. OUT4 - Output 4 20. OUT5 - Output 5
Advantages: - High frequency accuracy - Flexible output options - Low power consumption - Small package size
Disadvantages: - Relatively complex configuration process - Limited number of outputs
The SI5338L-B06655-GMR is commonly used in various electronic devices that require precise clock signals, such as: - Communication equipment - Networking devices - Data storage systems - Test and measurement instruments - Industrial automation systems
The SI5338L-B06655-GMR generates clock signals by multiplying the input reference clock. It uses a phase-locked loop (PLL) to achieve high-frequency accuracy and low jitter. The output frequencies can be programmed through the I2C interface, allowing flexibility in meeting different system requirements.
Q: What is the maximum output frequency of the SI5338L-B06655-GMR? A: The maximum output frequency is 808MHz.
Q: Can I use LVDS outputs with this IC? A: Yes, the SI5338L-B06655-GMR supports LVDS outputs.
Q: What is the power supply voltage range for this IC? A: The power supply voltage range is 2.375V to 3.63V.
Q: Does this IC support Spread Spectrum Clocking (SSC)? A: Yes, the SI5338L-B06655-GMR supports SSC.
Q: How many differential input pairs does this IC have? A: The SI5338L-B06655-GMR has three differential input pairs.
This concludes the encyclopedia entry for the SI5338L-B06655-GMR.
What is the maximum frequency supported by SI5338L-B06655-GMR?
- The maximum frequency supported by SI5338L-B06655-GMR is 350 MHz.
What is the input voltage range for SI5338L-B06655-GMR?
- The input voltage range for SI5338L-B06655-GMR is 3.135V to 3.465V.
Can SI5338L-B06655-GMR support multiple output frequencies?
- Yes, SI5338L-B06655-GMR can support multiple output frequencies through its flexible clock synthesis architecture.
What is the typical phase jitter of SI5338L-B06655-GMR?
- The typical phase jitter of SI5338L-B06655-GMR is 0.3 ps RMS.
Is SI5338L-B06655-GMR suitable for high-speed data communication applications?
- Yes, SI5338L-B06655-GMR is suitable for high-speed data communication applications due to its low phase noise and high frequency support.
Does SI5338L-B06655-GMR have integrated EEPROM for configuration storage?
- Yes, SI5338L-B06655-GMR has integrated EEPROM for configuration storage, allowing for easy customization and reconfiguration.
What is the power supply voltage for SI5338L-B06655-GMR?
- The power supply voltage for SI5338L-B06655-GMR is 3.3V.
Can SI5338L-B06655-GMR be used in industrial temperature range applications?
- Yes, SI5338L-B06655-GMR is designed to operate in the industrial temperature range of -40°C to 85°C.
What is the package type of SI5338L-B06655-GMR?
- SI5338L-B06655-GMR is available in a compact 24-pin QFN package.
Is there a reference design available for integrating SI5338L-B06655-GMR into a system?
- Yes, Silicon Labs provides reference designs and application notes to assist with the integration of SI5338L-B06655-GMR into technical solutions.