Altera公司的MAX 10器材是单片非易失低成本可编逻辑器材(PLD),具有内部存储可装备的双闪存,用户闪存,集成了ADC,支撑单片Nios II软件处理器,首要用在体系管理,I/O扩展,通讯操控面板,轿车电子,工业操控和消费类电子产品.本文介绍了Altera® MAX® 10 FPGA首要优势,Altera® MAX® 10 FPGA开发套件首要特性,框图,元件分布图,电路图和首要元件表.
MAX® 10 devices are single-chip, non-volaTIle low-cost programmable logic devices (PLDs) to integrate the opTImal set of system components.
The highlights of the MAX® 10 devices include:
Internally stored dual configuraTIon flash
User flash memory
Instant on support
Integrated analog-to-digital converters (ADCs)
Single-chipNios II soft core processor support
MAX® 10 devices are the ideal soluTIon for system management, I/O expansion, communication control planes, industrial, automotive, and consumer applications.
Altera® MAX® 10 FPGA首要优势:
Advantage
Supporting Feature
Simple and fast configuration
Secure on-die flash memory enables device configuration in less than 10 ms
Flexibility and integration
Single device integrating PLD logic, RAM, flash memory, digital signal processing (DSP), ADC, phase-locked loop (PLL), and I/Os
Small packages available from 3 mm × 3 mm
Low power
Sleep mode—significant standby power reduction and resumption in less than 1 ms
Longer battery life—resumption from full power-off in less than 10 ms
20-year-estimated life cycle
Built on TSMC’s 55 nm embedded flash process technology
High productivity design tools
Quartus® II web edition (no cost license)
Qsys system integration tool
Digital Signal Processing (DSP) Builder
Nios® II Embedded Design Suite (EDS)
Altera® MAX® 10 FPGA开发套件
The Altera® MAX® 10 FPGA Development Kit provides a full featured design platform built around a 50 K logic elements (LEs) MAX 10 FPGA, optimized for system level integration with on-die analog-to-digital converter (ADC), dual-configuration flash, and DDR3 memory interface support. The board features on-board USB-BlasterTM II, high-speed mezannine card (HSMC), and Pmod™ Compatible expansion cards, high-definition multimedia interface (HDMI) output, and dual Ethernet for industrial Ethernet applications. The MAX 10 FPGA Development Kit provides the perfect system-level prototyping solution for industrial, automotive, consumer, and many other market applications.
With this development board, you can:
Develop designs for the 10M50D, F484 package FPGA
Measure the performance of the MAX 10 FPGA analog-to-digital block conversion
Interface MAX 10 FPGAs to DDR3 memory at 300 MHz performance
Run embedded Linux using the Nios® II processor
Interface to daughtercards and peripherals using HSMC and DigilentPmod™ Compatible connectors
Measure FPGA power (VCC_CORE and VCC_IO) using the power monitor graphical user interface (GUI)
Reuse the kit’s PCB board and schematic as a model for your design
The MAX 10 FPGA Development Kit includes the following:
RoHS- and CE-compliant MAX 10 FPGA development board
Featured devices
MAX 10 FPGA (10M50D, dual supply, F484 package)
Enpirion® EN2342QI 4A PowerSoC voltage-mode synchronous step-down converter with integrated inductor
Enpirion EN6337QA 3A high-efficiency PowerSoC DC-DC step-down converters with integrated inductor
Enpirion EP5358xUI 600 mA PowerSoC DC-DC step-down converters with integrated inductor
MAX II CPLD – EPM1270M256C4N (On-board USB-Blaster II)
Programming and Configuration
Embedded USB-Blaster II (JTAG)
Optional JTAG direct via 10-pin header
Memory devices
64Mx16 1 Gb DDR3 SDRAM with soft memory controller
128Mx8 1 Gb DDR3 SDRAM with soft memory controller
512Mb quad serial peripheral interface (quad SPI) flash memory
Communication ports
Two Gigabit Ethernet (GbE) RJ-45 ports
One mini-USB2.0 UART
One HDMI video output
One universal HSMC connector (see HSMC expansion cards)
Two 12-pin DigilentPmod™ Compatible connectors (see Pmod™ Compatible expansion cards)
Analog
Two MAX 10 FPGA ADC SMA inputs
2×10 ADC header
Potentiometer input to ADC
One external 16 bit digital-to-analog converter (DAC) device with SMA output
Clocking
25 MHz single-ended, external oscillator clock source
Silicon labs clock generator with programmable frequency GUI
Switches, push buttons, jumpers, and status LEDs
Mini-USB cable for on-board USB-Blaster II
2A power supply and cord
Free Quartus® II Web Edition design software (download software and license from the website)
Complete documentation
User manual, bill of materials, schematic, and board files
图1.Altera® MAX® 10 FPGA开发板首要元件分布图(正面)
图2.Altera® MAX® 10 FPGA开发板首要元件分布图(反面)
图3.Altera® MAX® 10 FPGA开发板体系框图
图4.Altera® MAX® 10 FPGA开发板电路图(1)
图5.Altera® MAX® 10 FPGA开发板电路图(2)
图6.Altera® MAX® 10 FPGA开发板电路图(3)
图7.Altera® MAX® 10 FPGA开发板电路图(4)
图8.Altera® MAX® 10 FPGA开发板电路图(5)
图9.Altera® MAX® 10 FPGA开发板电路图(6)
图10.Altera® MAX® 10 FPGA开发板电路图(7)
图11.Altera® MAX® 10 FPGA开发板电路图(8)
图12.Altera® MAX® 10 FPGA开发板电路图(9)
图13.Altera® MAX® 10 FPGA开发板电路图(10)
图14.Altera® MAX® 10 FPGA开发板电路图(11)
图15.Altera® MAX® 10 FPGA开发板电路图(12)
图16.Altera® MAX® 10 FPGA开发板电路图(13)
图17.Altera® MAX® 10 FPGA开发板电路图(14)
图18.Altera® MAX® 10 FPGA开发板电路图(15)
图19.Altera® MAX® 10 FPGA开发板电路图(16)
图20.Altera® MAX® 10 FPGA开发板电路图(17)
图21.Altera® MAX® 10 FPGA开发板电路图(18)
图22.Altera® MAX® 10 FPGA开发板电路图(19)
图23.Altera® MAX® 10 FPGA开发板电路图(20)
图24.Altera® MAX® 10 FPGA开发板电路图(21)
图25.Altera® MAX® 10 FPGA开发板电路图(22)
图26.Altera® MAX® 10 FPGA开发板电路图(23)
图27.Altera® MAX® 10 FPGA开发板电路图(24)
图28.Altera® MAX® 10 FPGA开发板电路图(25)
图29.Altera® MAX® 10 FPGA开发板电路图(26)
图30.Altera® MAX® 10 FPGA开发板电路图(27)
图31.Altera® MAX® 10 FPGA开发板电路图(28)
图32.Altera® MAX® 10 FPGA开发板电路图(29)
图33.Altera® MAX® 10 FPGA开发板电路图(30)
图34.Altera® MAX® 10 FPGA开发板电路图(31)
MAX 10 FPGA 开发板首要元件:
