M5LV-384/120-6YC
M5LV-384/120-6YC
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Lattice

M5LV-384/120-6YC


M5LV-384/120-6YC
F11-M5LV-384/120-6YC
Active
IC CPLD 384MC 6.5NS 160QFP
160-PQFP (28x28)

M5LV-384/120-6YC ECAD Model


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M5LV-384/120-6YC Attributes


Type Description Select
Mfr Lattice Semiconductor Corporation
Series MACH® 5
Package Tray
Programmable Type In System Programmable
Delay Time tpd(1) Max 6.5 ns
Voltage Supply - Internal 3V ~ 3.6V
Number of Macrocells 384
Number of I/O 120
Operating Temperature 0°C ~ 70°C (TA)
Mounting Type Surface Mount
Package / Case 160-BQFP
Supplier Device Package 160-PQFP (28x28)
Base Product Number M5LV-384

M5LV-384/120-6YC Datasheet Download


M5LV-384/120-6YC Overview



The chip model M5LV-384/120-6YC is a high-performance, low-power, low-voltage integrated circuit (IC) used in many advanced communication systems. It is designed to meet the requirements of a wide range of applications, including digital signal processing, data transmission, and embedded systems. This chip model is an excellent choice for applications that require a high degree of integration and reliability.


The M5LV-384/120-6YC chip model is based on the advanced 0.18-micron CMOS process technology. It is designed to operate in a wide range of temperatures and voltages and can be used in a variety of applications. The chip model features a high-speed, low-power, low-voltage operation, and a wide range of features, including multiple power management functions, a wide range of analog and digital interfaces, and a wide range of digital signal processing functions.


The M5LV-384/120-6YC chip model is designed to be used in a wide range of applications, including digital signal processing, data transmission, and embedded systems. It is designed to meet the requirements of a wide range of applications, including digital signal processing, data transmission, and embedded systems. The chip model is also designed to be easily integrated into existing systems, allowing for an easy upgrade path for existing systems.


The M5LV-384/120-6YC chip model is designed to be highly reliable and robust, and is designed to provide a high degree of reliability and robustness in a wide range of applications. The chip model is also designed to be highly reliable and robust in a wide range of applications, including digital signal processing, data transmission, and embedded systems. The chip model is also designed to be highly reliable and robust in a wide range of applications, including digital signal processing, data transmission, and embedded systems.


The M5LV-384/120-6YC chip model is designed to be highly reliable and robust, and is designed to provide a high degree of reliability and robustness in a wide range of applications. The chip model is designed to be easily integrated into existing systems, allowing for an easy upgrade path for existing systems. The chip model is also designed to be highly reliable and robust in a wide range of applications, including digital signal processing, data transmission, and embedded systems.


In terms of industry trends and future development of related industries, the M5LV-384/120-6YC chip model is designed to be highly reliable and robust, and is designed to provide a high degree of reliability and robustness in a wide range of applications. The chip model is also designed to be highly reliable and robust in a wide range of applications, including digital signal processing, data transmission, and embedded systems. The chip model is also designed to be easily integrated into existing systems, allowing for an easy upgrade path for existing systems.


In terms of the application environment, the M5LV-384/120-6YC chip model is designed to be highly reliable and robust, and is designed to provide a high degree of reliability and robustness in a wide range of applications. The chip model is also designed to be easily integrated into existing systems, allowing for an easy upgrade path for existing systems. The chip model is also designed to be highly reliable and robust in a wide range of applications, including digital signal processing, data transmission, and embedded systems. Depending on the specific technologies needed, the application environment may require the support of new technologies.


In terms of the original design intention of the M5LV-384/120-6YC chip model and the possibility of future upgrades, the chip model is designed to be highly reliable and robust, and is designed to provide a high degree of reliability and robustness in a wide range of applications. The chip model is also designed to be easily integrated into existing systems, allowing for an easy upgrade path for existing systems. The chip model is also designed to be highly reliable and robust in a wide range of applications, including digital signal processing, data transmission, and embedded systems. Depending on the specific technologies needed, the chip model may require the support of new technologies.


In order to ensure the successful implementation of the M5LV-384/120-6YC chip model, it is important to understand the product description and specific design requirements. It is also important to consider actual case studies and precautions to ensure that the chip model is used properly and effectively. Additionally, it is important to consider industry trends and future development of related industries, as well as the application environment, to ensure that the chip model is used in the most efficient and effective manner.



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