Altera DK-START-3C25N Cyclone III Starter Kit EP3C25F324
- RS stock no.:
- 690-4096
- Mfr. Part No.:
- DK-START-3C25N
- Manufacturer:
- Altera
Unavailable
RS will no longer stock this product.
- RS stock no.:
- 690-4096
- Mfr. Part No.:
- DK-START-3C25N
- Manufacturer:
- Altera
Specification
Technical data sheets
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Altera | |
| Programmable Logic Technology | FPGA | |
| Kit Classification | Starter Kit | |
| Featured Device | EP3C25F324 | |
| Kit Name | Cyclone III | |
| Select all | ||
|---|---|---|
Brand Altera | ||
Programmable Logic Technology FPGA | ||
Kit Classification Starter Kit | ||
Featured Device EP3C25F324 | ||
Kit Name Cyclone III | ||
Cyclone III FPGA Starter Kit, Altera
The Cyclone III FPGA Starter Kit is easy to use and an ideal introduction if you have never designed with FPGAs before.
Cyclone III starter board
Device : Cyclone III EP3C25F324 FPGA
Configuration : Embedded USB-Blaster™ circuitry allowing download of FPGA configuration files via the user's USB port
Memory : 256 Mb of DDR SDRAM, 1 MB of synchronous SRAM, 16 MB of Intel P30/P33 flash
Clocking : 50 MHz on-board oscillator
Six push buttons total, four user controlled. Seven LEDs total, four user controlled
Connectors : HSMC , USB Type B
Device : Cyclone III EP3C25F324 FPGA
Configuration : Embedded USB-Blaster™ circuitry allowing download of FPGA configuration files via the user's USB port
Memory : 256 Mb of DDR SDRAM, 1 MB of synchronous SRAM, 16 MB of Intel P30/P33 flash
Clocking : 50 MHz on-board oscillator
Six push buttons total, four user controlled. Seven LEDs total, four user controlled
Connectors : HSMC , USB Type B
Supplied with
Cyclone III FPGA Starter Kit CD-ROM (manual, guide ...), 12 Vdc power supply, USB cable
An FPGA is a semiconductor device consisting of a matrix of Configurable Logic Blocks (CLBs) connected through programmable interconnects. The user determines these interconnections by programming SRAM. A CLB can be simple (AND, OR gates, etc) or complex (a block of RAM). The FPGA allows changes to be made to a design even after the device is soldered into a PCB.