EP4CGX30CF23C7N
Manufacturer Part Number: EP4CGX30CF23C7N | Manufacturer / Brand: Intel / Altera |
Part of Description: SoC FPGA EP4CGX30CF23C7N | Lead Free Status / RoHS Status: Lead free / RoHS Compliant |
Ship From: HK/Shen Zhen | Shipment Way: DHL/Fedex/TNT/UPS |
Datasheets: |
Product parameters
Manufacturer | Intel |
RoHS | Details |
Product Status | Active |
DigiKey Programmable | Not Verified |
Package / Case | FBGA-484 |
Mounting Style | SMD/SMT |
Series | EP4CGX30 Cyclone IV GX |
Packaging | Tray |
Brand | Intel / Altera |
Maximum Operating Temperature | 0C |
Minimum Operating Temperature | +85 C |
Product Type | Field Programmable Gate Array |
Factory Pack Quantity | 1000 |
Moisture Sensitive | Yes |
Maximum Operating Frequenc | 200 MHz |
Embedded Memory | 1080 kbit |
Unit Weight | 0.063493 oz |
Operating Supply Voltage | 1.2V |
Number of I/Os | 290I/O |
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What is EP4CGX30CF23C7N?
EP4CGX30: This part of the code indicates the specific model or family of the
FPGA, in this case, Cyclone IV GX. The “30” typically denotes the capacity or
size of the FPGA.
CF23C7N: This part of the code provides information about the package, speed
grade, and possibly other details:
CF23: Package type. This indicates the physical packaging of the FPGA. In this
case, it might refer to a specific type of chip package.
C7: Speed grade. The number here indicates the speed grade of the FPGA,
with a lower number generally indicating a higher speed grade.
N: This letter might indicate additional specifications, such as temperature
grade or other features.
EP4CGX30CF23C7N Applications:
Communication interface: can be applied to network devices, data
communication, and telecommunications systems.
High performance computing: EP4CGX30CF23C7N can be used to
implement specific algorithms, digital signal processing (DSP), and
parallel computing.
Video processing: In video processing applications, FPGA can be used for
tasks such as image processing, video encoding and decoding, and color
space conversion.
Industrial automation: FPGA provides programmable logic in industrial
control systems, which can be used to implement PLC (Programmable
Logic Controller), motion control, and automation equipment.
Testing and measurement instruments: Due to the flexibility of FPGA,
they are often used in customized testing and measurement instruments,
including data acquisition, signal processing, and control.
Network acceleration: FPGA can be used for network acceleration,
accelerating network packet processing and traffic management.
Audio processing: In audio applications, FPGA can be used to implement
audio processing algorithms, audio encoding and decoding, and audio
interfaces.
Automotive Electronics: FPGA has a wide range of applications in the
field of automotive electronics, including engine control, driving
assistance systems, vehicle communication, and entertainment systems.
Aerospace and National Defense: FPGA plays an important role in
aerospace and national defense applications, including radar systems,
communication systems, and navigation systems.