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Intel MAX 10 | Demoboard MAX 10 FPGA (10M08S, 144-EQFP)
revolutionize non-volatile integration by delivering advanced processing capabilities in a low-cost, single chip small form factor programmable logic device
Details
| Topologie | Sonstige Topologie |
| IC-Revision | 1.2 |
Beschreibung
Altera’s MAX® 10 FPGAs revolutionize non-volatile integration by delivering advanced processing capabilities in a low-cost, single chip small form factor programmable logic device. Building upon the single chip heritage of previous MAX device families, densities range from 2K – 50K LEs, using either single or dual-core voltage supplies. The MAX 10 FPGA family encompasses both advanced small wafer scale packaging (3mm x 3mm) and high I/O pin count packages offerings.MAX 10 FPGAs are built on TSMC’s 55 nm embedded NOR flash technology, enabling instant-on functionality. Integrated features include analog-to-digital converters (ADCs) and dual configuration flash allowing you to store and dynamically switch between two images on a single chip. Unlike CPLDs, MAX 10 FPGAs also include full-featured FPGA capabilities, such as Nios® II soft core embedded processor support, digital signal processing (DSP) blocks, and soft DDR3 memory controllers.
Eigenschaften
- 8,000 logic elements (LE)
- 378 kilobits (Kb) M9K memory
- 32 – 172 (KB) user flash memory
- One analog-to-digital (ADC) converter, 1 million samples per second (MSPS),12-bit
- JTAG header for external USB-Blaster™, USB-Blaster II, or Ethernet Blasterdownload cable
- Flash storage for two configuration images (factory and user)
- Dual-image self-configuration via Programmer Object File (.pof)
- Temporary engineering debug of FPGA design via SRAM Object File (.sof)
- 50 MHz oscillator connected to FPGA global clock input
- 8 analog 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
- One reconfiguration push button (SW2)
- One device-wide reset of all registers, push button (SW1)
- User DIP switch (SW3)
- The board is powered by USB cable (from PC or wall jack)
- One green power-on LED (D6)
- Probe points for manual, multi-meter measurement of current to calculatepower consumption (TP2 - TP5) or to verify voltages on the selected internalnodes (TP1, TP6 - TP9)
Weiterführende Informationen
Artikeldaten
Artikel Nr. | Datenblatt | Simulation | Downloads | Status | Produktserie | L(µH) | IR 1(mA) | ISAT(A) | RDC(mΩ) | fres(MHz) | H(mm) | B(mm) | IRP,40K(A) | ISAT,30%(A) | RDC typ.(mΩ) | VOP(V) | Montageart | Z @ 100 MHz(Ω) | Zmax(Ω) | Testbedingung Zmax | IR 2(mA) | RDC max.(mΩ) | Typ | Muster | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
 | SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-MAPI SMT-Speicherdrossel | Induktivität0.33 µH | – | Sättigungsstrom11.1 A | – | Eigenresonanzfrequenz140 MHz | Höhe1.2 mm | Breite3 mm | Performance Nennstrom7.4 A | Sättigungsstrom @ 30%13.3 A | Gleichstromwiderstand19 mΩ | Betriebsspannung80 V | MontageartSMT | – | – | – | – | Gleichstromwiderstand22.8 mΩ | – | ||||
| SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-MAPI SMT-Speicherdrossel | Induktivität4.7 µH | – | Sättigungsstrom3.8 A | – | Eigenresonanzfrequenz30 MHz | Höhe1.2 mm | Breite3 mm | Performance Nennstrom1.7 A | Sättigungsstrom @ 30%4.75 A | Gleichstromwiderstand267.7 mΩ | Betriebsspannung80 V | MontageartSMT | – | – | – | – | Gleichstromwiderstand307.8 mΩ | – | ||||
 | SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-PMI Power-Multilayer-Induktivität | Induktivität10 µH | Nennstrom 1450 mA | Sättigungsstrom0.125 A | Gleichstromwiderstand500 mΩ | Eigenresonanzfrequenz25 MHz | Höhe1.25 mm | Breite1.2 mm | – | – | – | – | MontageartSMT | – | – | – | Nennstrom 2650 mA | Gleichstromwiderstand625 mΩ | TypLow RDC | ||||
 | SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-CBF SMT-Ferrit | – | Nennstrom 1300 mA | – | – | – | Höhe0.5 mm | Breite0.5 mm | – | – | – | – | MontageartSMT | Impedanz @ 100 MHz220 Ω | Maximale Impedanz360 Ω | Maximale Impedanz450 MHz | Nennstrom 2900 mA | Gleichstromwiderstand350 mΩ | TypBreitband | ||||
 | SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-CBF SMT-Ferrit | – | Nennstrom 12000 mA | – | – | – | Höhe0.8 mm | Breite0.8 mm | – | – | – | – | MontageartSMT | Impedanz @ 100 MHz30 Ω | Maximale Impedanz40 Ω | Maximale Impedanz1000 MHz | Nennstrom 23000 mA | Gleichstromwiderstand40 mΩ | TypHochstrom | ||||
| SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-CBF SMT-Ferrit | – | Nennstrom 12000 mA | – | – | – | Höhe0.8 mm | Breite0.8 mm | – | – | – | – | MontageartSMT | Impedanz @ 100 MHz60 Ω | Maximale Impedanz110 Ω | Maximale Impedanz600 MHz | Nennstrom 23000 mA | Gleichstromwiderstand40 mΩ | TypHochstrom | ||||
 | SPEC | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-CBF SMT-Ferrit | – | Nennstrom 11500 mA | – | – | – | Höhe0.9 mm | Breite1.2 mm | – | – | – | – | MontageartSMT | Impedanz @ 100 MHz220 Ω | Maximale Impedanz330 Ω | Maximale Impedanz300 MHz | Nennstrom 22000 mA | Gleichstromwiderstand50 mΩ | TypHochstrom |