MPC991FA

0.000ms

MPC991FA Manufacturer: MOT Low voltage PLL clock driver
Partnumber	Manufacturer	Quantity	Availability
MPC991FA	MOT	228	In Stock
Description and Introduction Low voltage PLL clock driver Introduction to the MPC991FA Electronic Component The MPC991FA is a high-performance clock generator and buffer designed for precision timing applications in modern electronic systems. This versatile component is commonly used in computing, telecommunications, and embedded systems where accurate clock distribution is critical. Featuring low-jitter outputs, the MPC991FA ensures reliable signal integrity, making it suitable for high-speed data transmission and synchronization tasks. Its multiple output channels allow for flexible clock distribution, supporting various logic standards such as LVCMOS and LVPECL. The device is engineered to minimize phase noise, enhancing system performance in demanding environments. With a wide operating voltage range and robust power management capabilities, the MPC991FA is optimized for both power-sensitive and high-performance applications. Its integrated PLL (Phase-Locked Loop) enables precise frequency multiplication and division, accommodating diverse system requirements. Additionally, the component offers programmable features, allowing designers to configure output frequencies and skew adjustments for optimal timing alignment. The MPC991FA is housed in a compact, surface-mount package, facilitating easy integration into densely populated PCB designs. Its reliability and efficiency make it a preferred choice for engineers working on advanced digital systems. In summary, the MPC991FA is a high-quality clock generator that combines precision, flexibility, and low power consumption, making it an essential component in applications where timing accuracy is paramount.

Manufacturer: MOT

Low voltage PLL clock driver

Partnumber

Manufacturer

Quantity

Availability

MPC991FA

MOT

228

In Stock

Description and Introduction

Low voltage PLL clock driver **Introduction to the MPC991FA Electronic Component**

The MPC991FA is a high-performance clock generator and buffer designed for precision timing applications in modern electronic systems. This versatile component is commonly used in computing, telecommunications, and embedded systems where accurate clock distribution is critical.

Featuring low-jitter outputs, the MPC991FA ensures reliable signal integrity, making it suitable for high-speed data transmission and synchronization tasks. Its multiple output channels allow for flexible clock distribution, supporting various logic standards such as LVCMOS and LVPECL. The device is engineered to minimize phase noise, enhancing system performance in demanding environments.

With a wide operating voltage range and robust power management capabilities, the MPC991FA is optimized for both power-sensitive and high-performance applications. Its integrated PLL (Phase-Locked Loop) enables precise frequency multiplication and division, accommodating diverse system requirements. Additionally, the component offers programmable features, allowing designers to configure output frequencies and skew adjustments for optimal timing alignment.

The MPC991FA is housed in a compact, surface-mount package, facilitating easy integration into densely populated PCB designs. Its reliability and efficiency make it a preferred choice for engineers working on advanced digital systems.

In summary, the MPC991FA is a high-quality clock generator that combines precision, flexibility, and low power consumption, making it an essential component in applications where timing accuracy is paramount.

Request Quotation

For immediate assistance, call us at +86 533 2716050 or email [email protected]

Part Number	Quantity	Target Price($USD)	Email	Contact Person

We offer highly competitive channel pricing. Get in touch for details.

Specializes in hard-to-find components chips

Home › M › M157 > MPC991FA

MPC991FA from MOT,Motorola

MPC991FA

Description and Introduction

Request Quotation

We offer highly competitive channel pricing. Get in touch for details.