|Part Life Cycle Code||Active|
|Supply Voltage-Nom||1.2 V|
|Number of Inputs||328|
|Number of Outputs||328|
|Number of Logic Cells||28848|
|Number of CLBs||1803|
|Programmable Logic Type||FIELD PROGRAMMABLE GATE ARRAY|
|Clock Frequency-Max||472.5 MHz|
|Power Supplies||1.2,1.2/3.3,2.5 V|
|Supply Voltage-Max||1.25 V|
|Supply Voltage-Min||1.15 V|
|Qualification Status||Not Qualified|
|Moisture Sensitivity Level||3|
|Operating Temperature-Max||125 °C|
|Operating Temperature-Min||-40 °C|
|Number of Terminals||484|
|Package Body Material||PLASTIC/EPOXY|
|Package Equivalence Code||BGA484,22X22,40|
|Package Style||GRID ARRAY|
|Terminal Finish||TIN SILVER COPPER|
|Terminal Pitch||1 mm|
|Seated Height-Max||2.4 mm|
|Ihs Manufacturer||INTEL CORP|
|Package Description||23 X 23 MM, 1 MM PITCH, LEAD FREE, FBGA-484|
|Reach Compliance Code||compliant|
EP4CE30F23A7N Datasheet Download
The chip model EP4CE30F23A7N is an advanced field programmable gate array (FPGA) designed by Altera Corporation. It is a powerful, low-cost, and low-power FPGA that can be used in a variety of applications such as embedded systems, consumer electronics, and industrial automation. It is also suitable for applications such as video and image processing, digital signal processing, and machine learning.
The EP4CE30F23A7N chip model has several distinct advantages. It has a high-performance architecture which allows for up to 30 million system gates and provides a wide array of I/O options. It also has a low-power consumption rate and a high-speed data transfer rate. Additionally, the chip model also offers a wide range of development tools and support, making it easy to use for a variety of applications.
The EP4CE30F23A7N chip model is expected to have a high demand in the future due to its versatility and low cost. It is suitable for a variety of applications, from consumer electronics to industrial automation, and its low power consumption makes it an attractive choice for many applications. Additionally, as technology advances, the chip model is expected to be upgraded to meet the needs of more advanced applications.
The EP4CE30F23A7N chip model has a variety of design requirements that must be taken into consideration when designing a system. Firstly, the chip model has a maximum clock frequency of 250 MHz, which must be taken into account when designing the system. Secondly, the chip model has a maximum number of logic elements of 30 million, which must be taken into account when designing the system. Thirdly, the chip model has a limited number of I/O pins, which must also be taken into account when designing the system.
The EP4CE30F23A7N chip model has been successfully used in a variety of applications, such as video and image processing, digital signal processing, and machine learning. For example, it has been used in the development of a machine learning system for facial recognition, which was able to accurately recognize faces with a high degree of accuracy. Additionally, the chip model has been used in the development of a digital signal processing system for a medical imaging application, which was able to accurately process medical images with a high degree of accuracy.
When using the EP4CE30F23A7N chip model, it is important to take into account the design requirements and the limitations of the chip model. Additionally, it is important to ensure that the system is designed to meet the needs of the application and that the system is able to handle the data throughput required for the application. Finally, it is important to ensure that the system is designed in such a way that it is able to be upgraded in the future, as technology advances.
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