

Renesas Electronics Corporation
IDT23S08-5HDCG
Why Choose Us?
Professional Platform
B2B & B2C purchasingDelivery at full speed
1-2 days deliveryWide variety
Original manufacturers365 days guarantee
Responsible qualityTech Specifications
IDT23S08-5HDCG Description
IDT23S08-5HDCG Description
The IDT23S08-5HDCG is a high-performance clock multiplier and zero delay buffer IC designed by Renesas Electronics Corporation. This device is engineered to provide precise clock signal generation and distribution, making it ideal for applications requiring high-frequency and low-jitter performance. The IDT23S08-5HDCG operates within a temperature range of 0°C to 70°C and is housed in a surface-mount package, specifically a tube, which enhances its durability and ease of integration into various electronic systems.
IDT23S08-5HDCG Features
- Clock Multiplier and Zero Delay Buffer: The IDT23S08-5HDCG is designed to multiply input clock signals by a factor of 8, providing a robust solution for increasing clock frequencies. This feature is particularly beneficial in applications where higher clock speeds are required without compromising signal integrity.
- PLL with Bypass Capability: The device incorporates a Phase-Locked Loop (PLL) with bypass functionality, allowing for flexible operation modes. This feature ensures stable clock output and can be bypassed if needed, providing additional flexibility in system design.
- Input and Output Compatibility: The IDT23S08-5HDCG accepts LVTTL input signals and can drive both CMOS and LVTTL output signals, ensuring compatibility with a wide range of digital circuits.
- Wide Supply Voltage Range: The device operates within a supply voltage range of 3V to 3.6V, making it suitable for various power supply configurations.
- High Maximum Frequency: With a maximum operating frequency of 133.3MHz, the IDT23S08-5HDCG is capable of supporting high-speed clocking requirements, making it ideal for demanding applications such as high-speed data processing and communication systems.
- Moisture Sensitivity Level (MSL) 1: The device is classified as MSL 1, indicating it is not moisture sensitive and can be stored and handled without special precautions, simplifying manufacturing processes.
- Obsolete Status: While the IDT23S08-5HDCG is marked as obsolete, it remains a reliable choice for legacy systems and applications where its specific features are still required.
IDT23S08-5HDCG Applications
The IDT23S08-5HDCG is well-suited for a variety of applications due to its high-frequency performance and versatile signal handling capabilities. Some specific use cases include:
- High-Speed Communication Systems: The device's ability to multiply clock signals and maintain low jitter makes it ideal for applications such as high-speed serial interfaces, where precise timing is critical.
- Data Processing Systems: In systems requiring high-speed data processing, the IDT23S08-5HDCG can provide the necessary clock signals to ensure efficient data handling and processing.
- Digital Signal Processing (DSP): The device's clock multiplication and zero delay buffer features are beneficial in DSP applications, where accurate and stable clock signals are essential for maintaining signal integrity.
- Legacy System Upgrades: For systems that require an upgrade to support higher clock frequencies without redesigning the entire clock distribution network, the IDT23S08-5HDCG offers a practical solution.
Conclusion of IDT23S08-5HDCG
The IDT23S08-5HDCG, manufactured by Renesas Electronics Corporation, is a versatile clock multiplier and zero delay buffer IC that offers high-frequency performance and compatibility with various digital signal standards. Its PLL with bypass capability, wide supply voltage range, and high maximum operating frequency make it a robust solution for high-speed clocking requirements. Despite its obsolete status, the IDT23S08-5HDCG remains a reliable choice for legacy systems and specific applications where its unique features are still highly valued.



.png)















.png?x-oss-process=image/format,webp/resize,h_32)










