SI5335D-B02458-GMR

Basic Information Overview

• Category: Integrated Circuit (IC)
• Use: Clock Generator and Jitter Attenuator
• Characteristics: High-performance, low-jitter clock generation and distribution solution
• Package: 24-pin QFN (Quad Flat No-Lead) package
• Essence: Provides multiple output clocks with programmable frequency and phase
• Packaging/Quantity: Tape and Reel, 2500 units per reel

Specifications and Parameters

• Input Voltage Range: 2.375V to 3.63V
• Output Frequency Range: 1kHz to 945MHz
• Output Format: LVCMOS, LVDS, HCSL, or LVPECL
• Operating Temperature Range: -40°C to +85°C
• Supply Current: 100mA typical

Detailed and Complete Pin Configuration

1. VDDO
2. GND
3. XAXB
4. XAXA
5. XAXB
6. XAXC
7. XAXD
8. XBXB
9. XBXA
10. XBXB
11. XBXC
12. XBXD
13. CLKIN
14. GND
15. SDA
16. SCL
17. VDDI
18. VDD
19. GND
20. OUT0
21. OUT1
22. OUT2
23. OUT3
24. GND

Functional Characteristics

• Flexible clock synthesis and distribution
• Low jitter performance
• Programmable output frequencies and phases
• Integrated EEPROM for storing configuration settings
• I2C interface for easy control and configuration

Advantages and Disadvantages

Advantages: - High-performance clock generation and distribution - Low jitter for improved signal integrity - Flexible output formats for compatibility with various systems - Easy configuration and control through I2C interface

Disadvantages: - Relatively high power consumption compared to some other clock generators - Limited output frequency range compared to specialized clock generators

Applicable Range of Products

• Telecommunications equipment
• Networking devices
• Data centers
• Industrial automation systems
• Test and measurement instruments

Working Principles

The SI5335D-B02458-GMR is a clock generator and jitter attenuator IC. It takes an input clock signal (CLKIN) and generates multiple output clocks with programmable frequencies and phases. The device uses advanced PLL (Phase-Locked Loop) technology to synthesize the desired output frequencies and minimize jitter. The integrated EEPROM allows storing configuration settings, and the I2C interface enables easy control and configuration.

Detailed Application Field Plans

1. Telecommunications Equipment: The SI5335D-B02458-GMR can be used in base stations, routers, and switches to provide stable and synchronized clock signals for data transmission.
2. Networking Devices: This IC can be utilized in network switches, routers, and gateways to generate precise clock signals for efficient data packet processing.
3. Data Centers: The SI5335D-B02458-GMR is suitable for use in data centers to synchronize clocks across various servers and networking equipment, ensuring reliable data communication.
4. Industrial Automation Systems: Clock synchronization is crucial in industrial automation systems. This IC can be employed to generate accurate clock signals for precise timing and coordination of industrial processes.
5. Test and Measurement Instruments: The SI5335D-B02458-GMR can be integrated into test and measurement instruments such as oscilloscopes and signal analyzers to ensure accurate timebase and synchronization for precise measurements.

Detailed Alternative Models

• SI5338A-B-GM: Similar clock generator and jitter attenuator IC with additional features such as spread spectrum modulation and improved phase noise performance.
• SI5341C-B-GM: Clock generator IC with a wider output frequency range and more advanced clock synthesis capabilities.

5 Common Technical Questions and Answers

1. Q: What is the maximum output frequency of the SI5335D-B02458-GMR? A: The maximum output frequency is 945MHz.

2. Q: Can I use LVPECL output format with this IC? A: Yes, the SI5335D-B02458-GMR supports LVPECL output format.

3. Q: How do I configure the output frequencies and phases? A: The configuration can be done through the I2C interface using the provided software or by writing to the integrated EEPROM.

4. Q: Is the SI5335D-B02458-GMR suitable for automotive applications? A: No, this IC is not specifically designed for automotive applications and may not meet the required automotive standards.

5. Q: What is the typical power consumption of this IC? A: The typical supply current is 100mA.

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