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CDCE913PWR
Overview
CDCE913PWR is a product belonging to the category of integrated circuits. It is commonly used in electronic devices for clock generation and synchronization purposes. The CDCE913PWR offers various characteristics that make it suitable for such applications. It comes in a compact package, ensuring ease of integration into different electronic systems. The essence of this product lies in its ability to provide accurate and stable clock signals.
Specifications and Parameters
- Input Voltage Range: 2.7V to 3.6V
- Output Frequency Range: 1MHz to 200MHz
- Operating Temperature Range: -40°C to +85°C
- Package Type: TSSOP
- Package Quantity: 2500 units per reel
Pin Configuration
The CDCE913PWR features a detailed and complete pin configuration as follows:
- VDDA: Analog Power Supply
- VDDD: Digital Power Supply
- GND: Ground
- XIN: Crystal Oscillator Input
- XOUT: Crystal Oscillator Output
- CLKIN: External Clock Input
- CLKOUT: Clock Output
- SDA: I2C Serial Data Input/Output
- SCL: I2C Serial Clock Input
- OE: Output Enable
- PLL1: Phase-Locked Loop 1 Output
- PLL2: Phase-Locked Loop 2 Output
- PLL3: Phase-Locked Loop 3 Output
- PLL4: Phase-Locked Loop 4 Output
- PLL5: Phase-Locked Loop 5 Output
- PLL6: Phase-Locked Loop 6 Output
Functional Characteristics
The CDCE913PWR offers the following functional characteristics:
- Clock multiplication and division
- Programmable output frequency
- Low jitter performance
- I2C interface for configuration
- Output enable/disable control
Advantages and Disadvantages
Advantages: - Accurate and stable clock generation - Flexible output frequency options - Low power consumption - Compact package size
Disadvantages: - Limited output frequency range - Requires external crystal oscillator or clock input
Applicable Range of Products
The CDCE913PWR is widely applicable in various electronic devices that require precise clock generation and synchronization. It finds extensive use in telecommunications, networking equipment, consumer electronics, and industrial applications.
Working Principles
The CDCE913PWR operates by taking an input clock signal and using its internal phase-locked loops (PLLs) to generate multiple output clocks with different frequencies. The PLLs allow for frequency multiplication or division based on the desired output frequency. The device can be configured through the I2C interface to set the desired output frequency and other parameters.
Detailed Application Field Plans
The CDCE913PWR can be utilized in a wide range of applications, including:
- Telecommunications: Clock synchronization in network switches and routers.
- Networking Equipment: Timing synchronization in data centers and communication systems.
- Consumer Electronics: Clock generation for audio/video equipment and digital displays.
- Industrial Applications: Synchronization of industrial automation systems and control devices.
Detailed Alternative Models
Some alternative models to the CDCE913PWR include:
- CDCE925PWR
- CDCE937PWR
- CDCE949PWR
- CDCE961PWR
- CDCE973PWR
These models offer similar functionalities but may have variations in specifications and pin configurations.
5 Common Technical Questions and Answers
Q: What is the maximum output frequency of the CDCE913PWR? A: The CDCE913PWR supports output frequencies up to 200MHz.
Q: Can the CDCE913PWR operate with a single power supply? A: No, the CDCE913PWR requires separate analog and digital power supplies.
Q: How can I configure the CDCE913PWR for a specific output frequency? A: The CDCE913PWR can be configured through the I2C interface using appropriate commands and registers.
Q: Does the CDCE913PWR support automatic frequency switching? A: No, the CDCE913PWR does not have built-in automatic frequency switching capabilities.
Q: Is the CDCE913PWR suitable for high-speed data transmission applications? A: Yes, the CDCE913PWR's low jitter performance makes it suitable for high-speed data transmission requirements.
This encyclopedia entry provides an overview of the CDCE913PWR, including its 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.