Altera EK-10M08E144ES/P MAX 10 Evaluation Kit
- RS Stock No.:
- 906-3928
- Mfr. Part No.:
- EK-10M08E144ES/P
- Brand:
- Altera
Unavailable
RS will no longer stock this product.
- RS Stock No.:
- 906-3928
- Mfr. Part No.:
- EK-10M08E144ES/P
- Brand:
- Altera
Specifications
Technical Reference
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 | Evaluation Kit | |
| Kit Name | MAX 10 | |
| Select all | ||
|---|---|---|
Brand Altera | ||
Programmable Logic Technology FPGA | ||
Kit Classification Evaluation Kit | ||
Kit Name MAX 10 | ||
MAX 10 FPGA Evaluation Kit, Altera
The Altera EK-10M08E144ES/P is an entry-level board to evaluate the MAX 10 FPGA technology and Enpirion PowerSoC regulators. This evaluation kit features the following major component blocks:
- Altera MAX 10 FPGA, 10M08SAE144C8G (or ES variant)
- 8000 logic elements (LE)
- 378 kbit (Kb) M9K memory
- 32 to 172 (KB) user flash memory
- 12-bit ADC, 1 MSPS
- JTAG header for external USB-Blaster (RS 690-4093), USB-Blaster II or Ethernet Blaster download cable (RS 906-3937)
- Flash storage for two configuration images (factory and user)
- Dual-image self-configuration via Programmer Object File
- Temporary engineering debug of FPGA design via SRAM Object File
- On-Board clocking circuitry with 50 MHz oscillator connected to FPGA global clock input
- Board is powered by 5.0 V USB
- Probe points for manual, multimeter measurement of current to calculate power consumption or to verify voltages on the selected internal nodes
General user I/O
- 8 analogue input I/O, 14 Arduino I/O, 40 general purpose I/O
- 5 red user-defined LEDs
- One green LED to show power from USB cable
- Push buttons and dip switches
- 8000 logic elements (LE)
- 378 kbit (Kb) M9K memory
- 32 to 172 (KB) user flash memory
- 12-bit ADC, 1 MSPS
- JTAG header for external USB-Blaster (RS 690-4093), USB-Blaster II or Ethernet Blaster download cable (RS 906-3937)
- Flash storage for two configuration images (factory and user)
- Dual-image self-configuration via Programmer Object File
- Temporary engineering debug of FPGA design via SRAM Object File
- On-Board clocking circuitry with 50 MHz oscillator connected to FPGA global clock input
- Board is powered by 5.0 V USB
- Probe points for manual, multimeter measurement of current to calculate power consumption or to verify voltages on the selected internal nodes
General user I/O
- 8 analogue input I/O, 14 Arduino I/O, 40 general purpose I/O
- 5 red user-defined LEDs
- One green LED to show power from USB cable
- Push buttons and dip switches
Use this kit to:
- Develop designs for the 10M08S, 144-EQFP FPGA
- Measure FPGA power
- Bridge between different I/O voltages
- Read and write to the FPGA NOR flash memory
- Use its ADC to measure incoming signals
- Interface to external functions or devices via Arduino UNO R3 connectors or through-hole vias
- Reuse the PCB board and schematic as a model for your design
- Develop designs for the 10M08S, 144-EQFP FPGA
- Measure FPGA power
- Bridge between different I/O voltages
- Read and write to the FPGA NOR flash memory
- Use its ADC to measure incoming signals
- Interface to external functions or devices via Arduino UNO R3 connectors or through-hole vias
- Reuse the PCB board and schematic as a model for your design
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.