SI5335B-B01660-GMR

Basic Information Overview

• Category: Integrated Circuit (IC)
• Use: Clock Generator and Multiplier
• Characteristics: High-performance, Low-jitter, Programmable
• Package: 16-pin QFN (Quad Flat No-Lead)
• Essence: Clock generation and multiplication for various applications
• Packaging/Quantity: Tape and Reel, 2500 units per reel

Specifications and Parameters

• Frequency Range: 1 MHz to 350 MHz
• Output Format: LVCMOS, LVDS, HCSL
• Supply Voltage: 2.5 V to 3.3 V
• Operating Temperature Range: -40°C to +85°C
• Phase Jitter: < 0.3 ps RMS (Root Mean Square)

Detailed and Complete Pin Configuration

1. VDDO
2. GND
3. XAXB
4. XAXA
5. VDDI
6. CLKIN
7. CLKFB
8. SDA
9. SCL
10. VDD
11. OUT0
12. OUT1
13. OUT2
14. OUT3
15. OUT4
16. OUT5

Functional Characteristics

• Flexible clock synthesis and multiplication
• Programmable output frequencies and formats
• Low phase noise and jitter
• Integrated EEPROM for configuration storage
• I2C interface for easy control and configuration

Advantages and Disadvantages

Advantages: - Wide frequency range - Multiple output formats - Low jitter performance - Easy configuration through I2C interface

Disadvantages: - Limited number of outputs (6 in total) - Requires external components for proper operation

Applicable Range of Products

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

Working Principles

The SI5335B-B01660-GMR is a clock generator and multiplier IC that generates multiple clock signals with programmable frequencies and formats. It uses an internal PLL (Phase-Locked Loop) to multiply the input clock frequency and generate high-quality output clocks. The device can be configured through the I2C interface, allowing users to select the desired output frequencies and formats.

Detailed Application Field Plans

1. Telecommunications Equipment: The SI5335B-B01660-GMR can be used in base stations, routers, and switches to provide accurate clock signals for data transmission and synchronization.
2. Networking Devices: It can be utilized in switches, routers, and network interface cards to generate stable clock signals for efficient data transfer.
3. Data Centers: The IC can be employed in servers and storage systems to ensure precise timing for data processing and communication.
4. Industrial Automation Systems: It can be integrated into PLCs (Programmable Logic Controllers), motion controllers, and robotics systems to synchronize various components and improve system performance.
5. Test and Measurement Instruments: The device can be used in oscilloscopes, signal generators, and spectrum analyzers to generate accurate clock signals for precise measurements.

Detailed Alternative Models

• SI5338A-B-GM: Similar clock generator and multiplier IC with additional features such as spread spectrum modulation and enhanced phase noise performance.
• SI5341B-B-GM: Clock generator and jitter attenuator IC with advanced clock synchronization capabilities and low phase noise performance.
• SI5368A-B-GM: Multi-channel clock generator and fanout buffer IC with flexible output configurations and low jitter characteristics.

5 Common Technical Questions and Answers

1. Q: What is the maximum output frequency of the SI5335B-B01660-GMR? A: The maximum output frequency is 350 MHz.

2. Q: Can I program the output frequencies on-the-fly? A: Yes, the SI5335B-B01660-GMR supports dynamic frequency programming through the I2C interface.

3. Q: What is the typical phase jitter performance of this IC? A: The typical phase jitter is less than 0.3 ps RMS.

4. Q: How many outputs can be used simultaneously? A: All six outputs can be used simultaneously.

5. Q: Is there a reference design available for this IC? A: Yes, Silicon Labs provides reference designs and application notes to assist with the implementation of the SI5335B-B01660-GMR in various applications.

This encyclopedia entry provides an overview of the SI5335B-B01660-GMR clock generator and multiplier IC. It includes basic information, specifications, pin configuration, functional characteristics, advantages and disadvantages, applicable range of products, working principles, detailed application field plans, alternative models, and common technical questions and answers.