EP3C25F324I7N
Manufacturer Part Number: EP3C25F324I7N | Manufacturer / Brand: Intel / Altera |
Part of Description: SoC FPGA XC7Z012S-2CLG485I | 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 | 324-BGA |
Mounting Style | SMD/SMT |
Series | Cyclone III EP3C25 |
Packaging | Tray |
Brand | Intel / Altera |
Maximum Operating Temperature | -40C |
Minimum Operating Temperature | +100 C |
Product Type | Field Programmable Gate Array |
Factory Pack Quantity | 243 |
Moisture Sensitive | Yes |
Maximum Operating Frequenc | 315 MHz |
Embedded Memory | 594 kbit |
Data Rate | 3.125 Gb/s |
Unit Weight | 0.356867 oz |
Number of I/Os | 215 I/O |
Get in touch with us now
What is EP3C25F324I7N?
Manufacturer Code (EP): The prefix “EP” could be an abbreviation for the manufacturer’s name or a specific product line.
Device Type (3C): The “3C” in the middle might represent the type or category of the electronic component. For example, it could indicate that it’s an FPGA (Field-Programmable Gate Array), CPLD (Complex Programmable Logic Device), or another type of programmable logic device.
Capacity or Model (25): The “25” could indicate the capacity or model of the device. In the case of an FPGA, it might represent the number of logic elements or some other characteristic of the programmable logic.
Specific Model or Version (F324I7N): The remaining characters, “F324I7N,” may specify a particular model or version of the device. This could include information about speed, temperature range, packaging, and other features.
EP3C25F324I7N Applications:
Widely used in various fields such as communication equipment, industrial automation, medical equipment, aerospace, etc. In the field of communication equipment, it can be used to handle complex data streams and signal processing tasks; In industrial automation, it can be used for control logic and system integration; In medical equipment, it can be used to process precise medical data and signals; In the field of aerospace, it can be used in various scenarios such as high-performance computing and data processing.