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SI5335D-B06439-GMR
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SI5335D-B06439-GMR

Product Overview

Category

The SI5335D-B06439-GMR belongs to the category of integrated circuits (ICs).

Use

This product is commonly used in electronic devices for clock generation and distribution.

Characteristics

  • High precision and stability
  • Low jitter
  • Wide frequency range
  • Programmable features
  • Small form factor

Package

The SI5335D-B06439-GMR is available in a compact surface mount package.

Essence

The essence of this product lies in its ability to generate and distribute accurate clock signals within electronic systems.

Packaging/Quantity

The SI5335D-B06439-GMR is typically packaged in reels or trays, with varying quantities depending on customer requirements.

Specifications

  • Frequency Range: 1 MHz to 800 MHz
  • Supply Voltage: 2.5 V to 3.3 V
  • Output Format: LVCMOS, LVDS, HCSL
  • Operating Temperature Range: -40°C to +85°C
  • Package Type: QFN

Detailed Pin Configuration

The SI5335D-B06439-GMR has a total of 64 pins. The pin configuration is as follows:

  1. VDDA
  2. VSSA
  3. XAXB0P
  4. XAXB0N
  5. XAXB1P
  6. XAXB1N
  7. XAXB2P
  8. XAXB2N
  9. XAXB3P
  10. XAXB3N
  11. XAXB4P
  12. XAXB4N
  13. XAXB5P
  14. XAXB5N
  15. XAXB6P
  16. XAXB6N
  17. XAXB7P
  18. XAXB7N
  19. XAXB8P
  20. XAXB8N
  21. XAXB9P
  22. XAXB9N
  23. XAXB10P
  24. XAXB10N
  25. XAXB11P
  26. XAXB11N
  27. XAXB12P
  28. XAXB12N
  29. XAXB13P
  30. XAXB13N
  31. XAXB14P
  32. XAXB14N
  33. XAXB15P
  34. XAXB15N
  35. VDDA
  36. VSSA
  37. SDA
  38. SCL
  39. VDDA
  40. VSSA
  41. VDDA
  42. VSSA
  43. VDDA
  44. VSSA
  45. VDDA
  46. VSSA
  47. VDDA
  48. VSSA
  49. VDDA
  50. VSSA
  51. VDDA
  52. VSSA
  53. VDDA
  54. VSSA
  55. VDDA
  56. VSSA
  57. VDDA
  58. VSSA
  59. VDDA
  60. VSSA
  61. VDDA
  62. VSSA
  63. VDDA
  64. VSSA

Functional Features

  • Clock generation and distribution
  • Programmable output frequencies
  • Low jitter performance
  • Multiple output formats supported
  • I2C interface for configuration

Advantages and Disadvantages

Advantages

  • High precision and stability
  • Wide frequency range
  • Small form factor
  • Programmable features allow flexibility in system design

Disadvantages

  • Requires external configuration through I2C interface
  • Limited to specific output formats

Working Principles

The SI5335D-B06439-GMR operates by generating clock signals based on the input configuration provided through the I2C interface. It utilizes a high-precision oscillator and internal frequency dividers to generate accurate clock frequencies. These generated clocks can then be distributed to various components within an electronic system.

Detailed Application Field Plans

The SI5335D-B06439-GMR finds applications in various fields, including:

  1. Telecommunications: Used for clock synchronization in network equipment.
  2. Data Centers: Provides precise clock signals for server systems and storage devices.
  3. Consumer Electronics: Enables accurate timing in audio/video equipment and gaming consoles.
  4. Industrial Automation: Used for synchronization in control systems and robotics.
  5. Automotive: Provides clock signals for infotainment systems and advanced driver-assistance systems (ADAS).

Detailed and Complete Alternative Models

  1. SI5338A-B-GM: Similar functionality with additional features such as spread spectrum modulation.
  2. SI5341B-B-GM: Higher frequency range and more output channels.
  3. SI5368A-B-GM: Integrated clock generator and jitter attenuator with advanced

10個與SI5335D-B06439-GMR在技術方案中應用相關的常見問題與解答

Sure! Here are 10 common questions and answers related to the application of SI5335D-B06439-GMR in technical solutions:

  1. Q: What is the SI5335D-B06439-GMR? A: The SI5335D-B06439-GMR is a clock generator and jitter attenuator IC designed for use in various electronic systems.

  2. Q: What are the key features of the SI5335D-B06439-GMR? A: Some key features include multiple outputs, low jitter performance, programmable frequency synthesis, and flexible input/output configurations.

  3. Q: How can I interface with the SI5335D-B06439-GMR? A: The SI5335D-B06439-GMR can be controlled and configured through an I2C interface using appropriate software or microcontroller.

  4. Q: What is the typical operating voltage range for this device? A: The SI5335D-B06439-GMR operates from a supply voltage range of 1.8V to 3.3V.

  5. Q: Can I use this clock generator in high-speed data communication applications? A: Yes, the SI5335D-B06439-GMR is suitable for high-speed data communication applications such as Ethernet, USB, PCIe, etc.

  6. Q: Does the SI5335D-B06439-GMR support frequency synchronization? A: Yes, it supports frequency synchronization through external references or crystal inputs.

  7. Q: What is the maximum output frequency supported by this device? A: The SI5335D-B06439-GMR can generate output frequencies up to 400 MHz.

  8. Q: Can I program different output frequencies for each output channel? A: Yes, the SI5335D-B06439-GMR allows individual programming of output frequencies for each channel.

  9. Q: Does this clock generator provide any built-in clock monitoring or diagnostic features? A: Yes, it offers various built-in monitoring features like frequency detection, loss-of-signal detection, and input clock quality monitoring.

  10. Q: Are there any evaluation boards or reference designs available for the SI5335D-B06439-GMR? A: Yes, Silicon Labs provides evaluation boards and reference designs to help users quickly prototype and integrate the SI5335D-B06439-GMR into their systems.

Please note that these answers are general and may vary depending on the specific application and requirements. It is always recommended to refer to the device datasheet and application notes for detailed information.