Intel

Cyclone® V E Field Programmable Gate Array (FPGA) IC 224 3464192 49000 484-BGA

Summary of Features for Cyclone V Devices

Technology

• TSMC's 28-nm low-power (28LP) process technology

• 1.1 V core voltage

Packaging

• Wirebond low-halogen packages

• Multiple device densities with compatible package footprints for seamless migration between

different device densities

• RoHS-compliant and leaded(1)options

High-performance FPGA fabric

Enhanced 8-input ALM with four registers

Internal memory blocks

• M10K—10-kilobits (Kb) memory blocks with soft error correction code (ECC)

• Memory logic array block (MLAB)—640-bit distributed LUTRAM where you can use up to 25%

of the ALMs as MLAB memory

Embedded Hard IP blocks

Variable-precision DSP

• Native support for up to three signal processing precision levels

(three 9 x 9, two 18 x 18, or one 27 x 27 multiplier) in the same

variable-precision DSP block

• 64-bit accumulator and cascade

• Embedded internal coefficient memory

• Preadder/subtractor for improved efficiency

Memory controller

DDR3, DDR2, and LPDDR2 with 16 and 32 bit ECC support

Embedded transceiver I/O

PCI Express* (PCIe*) Gen2 and Gen1 (x1, x2, or x4) hard IP with

multifunction support, endpoint, and root port

Clock networks

• Up to 550 MHz global clock network

• Global, quadrant, and peripheral clock networks

• Clock networks that are not used can be powered down to reduce dynamic power

Phase-locked loops (PLLs)

• Precision clock synthesis, clock delay compensation, and zero delay buffering (ZDB)

• Integer mode and fractional mode

FPGA General-purpose I/Os (GPIOs)

• 875 megabits per second (Mbps) LVDS receiver and 840 Mbps LVDS transmitter

• 400 MHz/800 Mbps external memory interface

• On-chip termination (OCT)

• 3.3 V support with up to 16 mA drive strength

Low-power high-speed serial interface

• 614 Mbps to 6.144 Gbps integrated transceiver speed

• Transmit pre-emphasis and receiver equalization

• Dynamic partial reconfiguration of individual channels

HPS(Cyclone V SE, SX,and ST devices only)

• Single or dual-core Arm Cortex-A9 MPCore processor-up to 925 MHz maximum frequency with

support for symmetric and asymmetric multiprocessing

• Interface peripherals—10/100/1000 Ethernet media access control (EMAC), USB 2.0

On-The-GO (OTG) controller, quad serial peripheral interface (QSPI) flash controller, NAND

flash controller, Secure Digital/MultiMediaCard (SD/MMC) controller, UART, controller area

network (CAN), serial peripheral interface (SPI), I2C interface, and up to 85 HPS GPIO

interfaces

• System peripherals—general-purpose timers, watchdog timers, direct memory access (DMA)

controller, FPGA configuration manager, and clock and reset managers

• On-chip RAM and boot ROM

• HPS–FPGA bridges—include the FPGA-to-HPS, HPS-to-FPGA, and lightweight HPS-to-FPGA

bridges that allow the FPGA fabric to issue transactions to slaves in the HPS, and vice versa

• FPGA-to-HPS SDRAM controller subsystem—provides a configurable interface to the multiport

front end (MPFE) of the HPS SDRAM controller

• Arm CoreSight™ JTAG debug access port, trace port, and on-chip trace storage

Configuration

• Tamper protection—comprehensive design protection to protect your valuable IP investments

• Enhanced advanced encryption standard (AES) design security features

• CvP

• Dynamic reconfiguration of the FPGA

• Active serial (AS) x1 and x4, passive serial (PS), JTAG, and fast passive parallel (FPP) x8 and

x16 configuration options

• Internal scrubbing (2)

• Partial reconfiguration (3)

How to choose FPGA for your project?

PDF

Cyclone® V E Field Programmable Gate Array (FPGA) IC 336 14251008 301000 672-BGA

Summary of Features for Cyclone V Devices

Technology

• TSMC's 28-nm low-power (28LP) process technology

• 1.1 V core voltage

Packaging

• Wirebond low-halogen packages

• Multiple device densities with compatible package footprints for seamless migration between

different device densities

• RoHS-compliant and leaded(1)options

High-performance FPGA fabric

Enhanced 8-input ALM with four registers

Internal memory blocks

• M10K—10-kilobits (Kb) memory blocks with soft error correction code (ECC)

• Memory logic array block (MLAB)—640-bit distributed LUTRAM where you can use up to 25%

of the ALMs as MLAB memory

Embedded Hard IP blocks

Variable-precision DSP

• Native support for up to three signal processing precision levels

(three 9 x 9, two 18 x 18, or one 27 x 27 multiplier) in the same

variable-precision DSP block

• 64-bit accumulator and cascade

• Embedded internal coefficient memory

• Preadder/subtractor for improved efficiency

Memory controller

DDR3, DDR2, and LPDDR2 with 16 and 32 bit ECC support

Embedded transceiver I/O

PCI Express* (PCIe*) Gen2 and Gen1 (x1, x2, or x4) hard IP with

multifunction support, endpoint, and root port

Clock networks

• Up to 550 MHz global clock network

• Global, quadrant, and peripheral clock networks

• Clock networks that are not used can be powered down to reduce dynamic power

Phase-locked loops (PLLs)

• Precision clock synthesis, clock delay compensation, and zero delay buffering (ZDB)

• Integer mode and fractional mode

FPGA General-purpose I/Os (GPIOs)

• 875 megabits per second (Mbps) LVDS receiver and 840 Mbps LVDS transmitter

• 400 MHz/800 Mbps external memory interface

• On-chip termination (OCT)

• 3.3 V support with up to 16 mA drive strength

Low-power high-speed serial interface

• 614 Mbps to 6.144 Gbps integrated transceiver speed

• Transmit pre-emphasis and receiver equalization

• Dynamic partial reconfiguration of individual channels

HPS(Cyclone V SE, SX,and ST devices only)

• Single or dual-core Arm Cortex-A9 MPCore processor-up to 925 MHz maximum frequency with

support for symmetric and asymmetric multiprocessing

• Interface peripherals—10/100/1000 Ethernet media access control (EMAC), USB 2.0

On-The-GO (OTG) controller, quad serial peripheral interface (QSPI) flash controller, NAND

flash controller, Secure Digital/MultiMediaCard (SD/MMC) controller, UART, controller area

network (CAN), serial peripheral interface (SPI), I2C interface, and up to 85 HPS GPIO

interfaces

• System peripherals—general-purpose timers, watchdog timers, direct memory access (DMA)

controller, FPGA configuration manager, and clock and reset managers

• On-chip RAM and boot ROM

• HPS–FPGA bridges—include the FPGA-to-HPS, HPS-to-FPGA, and lightweight HPS-to-FPGA

bridges that allow the FPGA fabric to issue transactions to slaves in the HPS, and vice versa

• FPGA-to-HPS SDRAM controller subsystem—provides a configurable interface to the multiport

front end (MPFE) of the HPS SDRAM controller

• Arm CoreSight™ JTAG debug access port, trace port, and on-chip trace storage

Configuration

• Tamper protection—comprehensive design protection to protect your valuable IP investments

• Enhanced advanced encryption standard (AES) design security features

• CvP

• Dynamic reconfiguration of the FPGA

• Active serial (AS) x1 and x4, passive serial (PS), JTAG, and fast passive parallel (FPP) x8 and

x16 configuration options

• Internal scrubbing (2)

• Partial reconfiguration (3)

MAX® 10 Field Programmable Gate Array (FPGA) IC 130 387072 8000 169-LFBGA

Intel® MAX® 10 FPGA Device Overview

Intel® 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 Intel MAX 10 devices include:

• Internally stored dual configuration flash

• User flash memory

• Instant on support

• Integrated analog-to-digital converters (ADCs)

• Single-chip Nios II soft core processor support

Intel MAX 10 devices are the ideal solution for system management, I/O expansion,

communication control planes, industrial, automotive, and consumer applications.

Supporting Feature

Secure on-die flash memory enables device configuration in less than 10 ms

• 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

• 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

Built on TSMC's 55 nm embedded flash process technology

• Intel Quartus® Prime Lite edition (no cost license)

• Platform Designer (Standard) system integration tool

• DSP Builder for Intel FPGAs

• Nios® II Embedded Design Suite (EDS)

How to choose FPGA for your project?

Cyclone® II Field Programmable Gate Array (FPGA) IC 89 119808 4608 144-LQFP

Introduction 

Following the immensely successful first-generation Cyclone® device family, Altera® Cyclone II FPGAs extend the low-cost FPGA density 

range to 68,416 logic elements (LEs) and provide up to 622 usable I/O pins and up to 1.1 Mbits of embedded memory. Cyclone II FPGAs are 

manufactured on 300-mm wafers using TSMC's 90-nm low-k dielectric process to ensure rapid availability and low cost. By minimizing silicon 

area, Cyclone II devices can support complex digital systems on a single chip at a cost that rivals that of ASICs. Unlike other FPGA vendors who 

compromise power consumption and performance for low-cost, Altera’s latest generation of low-cost FPGAs—Cyclone II FPGAs, offer 60% higher 

performance and half the power consumption of competing 90-nm FPGAs. The low cost and optimized feature set of Cyclone II FPGAs make 

them ideal solutions for a wide array of automotive, consumer, communications, video processing, test and measurement, and other 

end-market solutions. Reference designs, system diagrams, and IP, found at www.altera.com, are available to help you rapidly develop complete 

end-market solutions using Cyclone II FPGAs.

Features 

The Cyclone II device family offers the following features:

■ High-density architecture with 4,608 to 68,416 LEs

● M4K embedded memory blocks

● Up to 1.1 Mbits of RAM available without reducing available logic

● 4,096 memory bits per block (4,608 bits per block including 512 parity bits)

● Variable port configurations of ×1, ×2, ×4, ×8, ×9, ×16, ×18, ×32, and ×36

● True dual-port (one read and one write, two reads, or two writes) operation for ×1, ×2, ×4, ×8, ×9, ×16, and ×18 modes

● Byte enables for data input masking during writes

● Up to 260-MHz operation

■ Embedded multipliers

● Up to 150 18- × 18-bit multipliers are each configurable as two independent 9- × 9-bit multipliers with up to 250-MHz 

performance

● Optional input and output registers

■ Advanced I/O support

● High-speed differential I/O standard support, including LVDS, RSDS, mini-LVDS, LVPECL, differential HSTL, and differential 

SSTL 

● Single-ended I/O standard support, including 2.5-V and 1.8-V, SSTL class I and II, 1.8-V and 1.5-V HSTL class I and II, 3.3-V PCI 

and PCI-X 1.0, 3.3-, 2.5-, 1.8-, and 1.5-V LVCMOS, and 3.3-, 2.5-, and 1.8-V LVTTL

● Peripheral Component Interconnect Special Interest Group (PCI SIG) PCI Local Bus Specification, Revision 3.0 compliance for 3.3-V 

operation at 33 or 66 MHz for 32- or 64-bit interfaces 

● PCI Express with an external TI PHY and an Altera PCI Express ×1 Megacore® function

● 133-MHz PCI-X 1.0 specification compatibility

● High-speed external memory support, including DDR, DDR2, and SDR SDRAM, and QDRII SRAM supported by drop in 

Altera IP MegaCore functions for ease of use

● Three dedicated registers per I/O element (IOE): one input register, one output register, and one output-enable register

● Programmable bus-hold feature

● Programmable output drive strength feature

● Programmable delays from the pin to the IOE or logic array

● I/O bank grouping for unique VCCIO and/or VREF bank settings

● MultiVolt™ I/O standard support for 1.5-, 1.8-, 2.5-, and 3.3-interfaces

● Hot-socketing operation support

● Tri-state with weak pull-up on I/O pins before and during configuration

● Programmable open-drain outputs

● Series on-chip termination support

■ Flexible clock management circuitry

● Hierarchical clock network for up to 402.5-MHz performance

● Up to four PLLs per device provide clock multiplication and division, phase shifting, programmable duty cycle, and external 

clock outputs, allowing system-level clock management and skew control 

● Up to 16 global clock lines in the global clock network that drive throughout the entire device

■ Device configuration

● Fast serial configuration allows configuration times less than 100 ms

● Decompression feature allows for smaller programming file storage and faster configuration times

● Supports multiple configuration modes: active serial, passive serial, and JTAG-based configuration

● Supports configuration through low-cost serial configuration devices

● Device configuration supports multiple voltages (either 3.3, 2.5, or 1.8 V)

Chip Altera Cyclone naming rules，Chinese chip Will replace it

PDF

Cyclone® V GX Field Programmable Gate Array (FPGA) IC 208 1381376 31500 484-BGA

Summary of Features for Cyclone V Devices

Technology

• TSMC's 28-nm low-power (28LP) process technology

• 1.1 V core voltage

Packaging

• Wirebond low-halogen packages

• Multiple device densities with compatible package footprints for seamless migration between

different device densities

• RoHS-compliant and leaded(1)options

High-performance FPGA fabric

Enhanced 8-input ALM with four registers

Internal memory blocks

• M10K—10-kilobits (Kb) memory blocks with soft error correction code (ECC)

• Memory logic array block (MLAB)—640-bit distributed LUTRAM where you can use up to 25%

of the ALMs as MLAB memory

Embedded Hard IP blocks

Variable-precision DSP

• Native support for up to three signal processing precision levels

(three 9 x 9, two 18 x 18, or one 27 x 27 multiplier) in the same

variable-precision DSP block

• 64-bit accumulator and cascade

• Embedded internal coefficient memory

• Preadder/subtractor for improved efficiency

Memory controller

DDR3, DDR2, and LPDDR2 with 16 and 32 bit ECC support

Embedded transceiver I/O

PCI Express* (PCIe*) Gen2 and Gen1 (x1, x2, or x4) hard IP with

multifunction support, endpoint, and root port

Clock networks

• Up to 550 MHz global clock network

• Global, quadrant, and peripheral clock networks

• Clock networks that are not used can be powered down to reduce dynamic power

Phase-locked loops (PLLs)

• Precision clock synthesis, clock delay compensation, and zero delay buffering (ZDB)

• Integer mode and fractional mode

FPGA General-purpose I/Os (GPIOs)

• 875 megabits per second (Mbps) LVDS receiver and 840 Mbps LVDS transmitter

• 400 MHz/800 Mbps external memory interface

• On-chip termination (OCT)

• 3.3 V support with up to 16 mA drive strength

Low-power high-speed serial interface

• 614 Mbps to 6.144 Gbps integrated transceiver speed

• Transmit pre-emphasis and receiver equalization

• Dynamic partial reconfiguration of individual channels

HPS(Cyclone V SE, SX,and ST devices only)

• Single or dual-core Arm Cortex-A9 MPCore processor-up to 925 MHz maximum frequency with

support for symmetric and asymmetric multiprocessing

• Interface peripherals—10/100/1000 Ethernet media access control (EMAC), USB 2.0

On-The-GO (OTG) controller, quad serial peripheral interface (QSPI) flash controller, NAND

flash controller, Secure Digital/MultiMediaCard (SD/MMC) controller, UART, controller area

network (CAN), serial peripheral interface (SPI), I2C interface, and up to 85 HPS GPIO

interfaces

• System peripherals—general-purpose timers, watchdog timers, direct memory access (DMA)

controller, FPGA configuration manager, and clock and reset managers

• On-chip RAM and boot ROM

• HPS–FPGA bridges—include the FPGA-to-HPS, HPS-to-FPGA, and lightweight HPS-to-FPGA

bridges that allow the FPGA fabric to issue transactions to slaves in the HPS, and vice versa

• FPGA-to-HPS SDRAM controller subsystem—provides a configurable interface to the multiport

front end (MPFE) of the HPS SDRAM controller

• Arm CoreSight™ JTAG debug access port, trace port, and on-chip trace storage

Configuration

• Tamper protection—comprehensive design protection to protect your valuable IP investments

• Enhanced advanced encryption standard (AES) design security features

• CvP

• Dynamic reconfiguration of the FPGA

• Active serial (AS) x1 and x4, passive serial (PS), JTAG, and fast passive parallel (FPP) x8 and

x16 configuration options

• Internal scrubbing (2)

• Partial reconfiguration (3)

Cyclone® II Field Programmable Gate Array (FPGA) IC 85 165888 8256 144-LQFP

Introduction 

Following the immensely successful first-generation Cyclone® device 

family, Altera® Cyclone II FPGAs extend the low-cost FPGA density 

range to 68,416 logic elements (LEs) and provide up to 622 usable I/O 

pins and up to 1.1 Mbits of embedded memory. Cyclone II FPGAs are 

manufactured on 300-mm wafers using TSMC's 90-nm low-k dielectric 

process to ensure rapid availability and low cost. By minimizing silicon 

area, Cyclone II devices can support complex digital systems on a single 

chip at a cost that rivals that of ASICs. Unlike other FPGA vendors who 

compromise power consumption and performance for low-cost, Altera’s 

latest generation of low-cost FPGAs—Cyclone II FPGAs, offer 60% higher 

performance and half the power consumption of competing 90-nm 

FPGAs. The low cost and optimized feature set of Cyclone II FPGAs make 

them ideal solutions for a wide array of automotive, consumer, 

communications, video processing, test and measurement, and other 

end-market solutions. Reference designs, system diagrams, and IP, found 

at www.altera.com, are available to help you rapidly develop complete 

end-market solutions using Cyclone II FPGAs.

Features 

The Cyclone II device family offers the following features:

■ High-density architecture with 4,608 to 68,416 LEs

● M4K embedded memory blocks

● Up to 1.1 Mbits of RAM available without reducing available logic

● 4,096 memory bits per block (4,608 bits per block including 512 parity bits)

● Variable port configurations of ×1, ×2, ×4, ×8, ×9, ×16, ×18, ×32, and ×36

● True dual-port (one read and one write, two reads, or two writes) operation for ×1, ×2, ×4, ×8, ×9, ×16, and ×18 modes

● Byte enables for data input masking during writes

● Up to 260-MHz operation

■ Embedded multipliers

● Up to 150 18- × 18-bit multipliers are each configurable as two independent 9- × 9-bit multipliers with up to 250-MHz 

performance

● Optional input and output registers

■ Advanced I/O support

● High-speed differential I/O standard support, including LVDS, RSDS, mini-LVDS, LVPECL, differential HSTL, and differential 

SSTL 

● Single-ended I/O standard support, including 2.5-V and 1.8-V, SSTL class I and II, 1.8-V and 1.5-V HSTL class I and II, 3.3-V PCI 

and PCI-X 1.0, 3.3-, 2.5-, 1.8-, and 1.5-V LVCMOS, and 3.3-, 2.5-, and 1.8-V LVTTL

● Peripheral Component Interconnect Special Interest Group (PCI SIG) PCI Local Bus Specification, Revision 3.0 compliance for 3.3-V 

operation at 33 or 66 MHz for 32- or 64-bit interfaces 

● PCI Express with an external TI PHY and an Altera PCI Express ×1 Megacore® function

● 133-MHz PCI-X 1.0 specification compatibility

● High-speed external memory support, including DDR, DDR2, and SDR SDRAM, and QDRII SRAM supported by drop in 

Altera IP MegaCore functions for ease of use

● Three dedicated registers per I/O element (IOE): one input register, one output register, and one output-enable register

● Programmable bus-hold feature

● Programmable output drive strength feature

● Programmable delays from the pin to the IOE or logic array

● I/O bank grouping for unique VCCIO and/or VREF bank settings

● MultiVolt™ I/O standard support for 1.5-, 1.8-, 2.5-, and 3.3-interfaces

● Hot-socketing operation support

● Tri-state with weak pull-up on I/O pins before and during configuration

● Programmable open-drain outputs

● Series on-chip termination support

■ Flexible clock management circuitry

● Hierarchical clock network for up to 402.5-MHz performance

● Up to four PLLs per device provide clock multiplication and division, phase shifting, programmable duty cycle, and external 

clock outputs, allowing system-level clock management and skew control 

● Up to 16 global clock lines in the global clock network that drive throughout the entire device

■ Device configuration

● Fast serial configuration allows configuration times less than 100 ms

● Decompression feature allows for smaller programming file storage and faster configuration times

● Supports multiple configuration modes: active serial, passive serial, and JTAG-based configuration

● Supports configuration through low-cost serial configuration devices

● Device configuration supports multiple voltages (either 3.3, 2.5, or 1.8 V)

Chip Altera Cyclone naming rules，Chinese chip Will replace it

PDF

Cyclone® V GX Field Programmable Gate Array (FPGA) IC 336 14251008 301000 672-BGA

Summary of Features for Cyclone V Devices

Technology

• TSMC's 28-nm low-power (28LP) process technology

• 1.1 V core voltage

Packaging

• Wirebond low-halogen packages

• Multiple device densities with compatible package footprints for seamless migration between

different device densities

• RoHS-compliant and leaded(1)options

High-performance FPGA fabric

Enhanced 8-input ALM with four registers

Internal memory blocks

• M10K—10-kilobits (Kb) memory blocks with soft error correction code (ECC)

• Memory logic array block (MLAB)—640-bit distributed LUTRAM where you can use up to 25%

of the ALMs as MLAB memory

Embedded Hard IP blocks

Variable-precision DSP

• Native support for up to three signal processing precision levels

(three 9 x 9, two 18 x 18, or one 27 x 27 multiplier) in the same

variable-precision DSP block

• 64-bit accumulator and cascade

• Embedded internal coefficient memory

• Preadder/subtractor for improved efficiency

Memory controller

DDR3, DDR2, and LPDDR2 with 16 and 32 bit ECC support

Embedded transceiver I/O

PCI Express* (PCIe*) Gen2 and Gen1 (x1, x2, or x4) hard IP with

multifunction support, endpoint, and root port

Clock networks

• Up to 550 MHz global clock network

• Global, quadrant, and peripheral clock networks

• Clock networks that are not used can be powered down to reduce dynamic power

Phase-locked loops (PLLs)

• Precision clock synthesis, clock delay compensation, and zero delay buffering (ZDB)

• Integer mode and fractional mode

FPGA General-purpose I/Os (GPIOs)

• 875 megabits per second (Mbps) LVDS receiver and 840 Mbps LVDS transmitter

• 400 MHz/800 Mbps external memory interface

• On-chip termination (OCT)

• 3.3 V support with up to 16 mA drive strength

Low-power high-speed serial interface

• 614 Mbps to 6.144 Gbps integrated transceiver speed

• Transmit pre-emphasis and receiver equalization

• Dynamic partial reconfiguration of individual channels

HPS(Cyclone V SE, SX,and ST devices only)

• Single or dual-core Arm Cortex-A9 MPCore processor-up to 925 MHz maximum frequency with

support for symmetric and asymmetric multiprocessing

• Interface peripherals—10/100/1000 Ethernet media access control (EMAC), USB 2.0

On-The-GO (OTG) controller, quad serial peripheral interface (QSPI) flash controller, NAND

flash controller, Secure Digital/MultiMediaCard (SD/MMC) controller, UART, controller area

network (CAN), serial peripheral interface (SPI), I2C interface, and up to 85 HPS GPIO

interfaces

• System peripherals—general-purpose timers, watchdog timers, direct memory access (DMA)

controller, FPGA configuration manager, and clock and reset managers

• On-chip RAM and boot ROM

• HPS–FPGA bridges—include the FPGA-to-HPS, HPS-to-FPGA, and lightweight HPS-to-FPGA

bridges that allow the FPGA fabric to issue transactions to slaves in the HPS, and vice versa

• FPGA-to-HPS SDRAM controller subsystem—provides a configurable interface to the multiport

front end (MPFE) of the HPS SDRAM controller

• Arm CoreSight™ JTAG debug access port, trace port, and on-chip trace storage

Configuration

• Tamper protection—comprehensive design protection to protect your valuable IP investments

• Enhanced advanced encryption standard (AES) design security features

• CvP

• Dynamic reconfiguration of the FPGA

• Active serial (AS) x1 and x4, passive serial (PS), JTAG, and fast passive parallel (FPP) x8 and

x16 configuration options

• Internal scrubbing (2)

• Partial reconfiguration (3)

MAX® 10 Field Programmable Gate Array (FPGA) IC 56 387072 8000 81-UFBGA, WLCSP

Intel® MAX® 10 FPGA Device Overview

Intel® 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 Intel MAX 10 devices include:

• Internally stored dual configuration flash

• User flash memory

• Instant on support

• Integrated analog-to-digital converters (ADCs)

• Single-chip Nios II soft core processor support

Intel MAX 10 devices are the ideal solution for system management, I/O expansion,

communication control planes, industrial, automotive, and consumer applications.

Feature

Technology

55 nm TSMC Embedded Flash (Flash + SRAM) process technology

Packaging

• Low cost, small form factor packages—support multiple packaging technologies and pin pitches

• Multiple device densities with compatible package footprints for seamless migration between different device densities

• RoHS6-compliant

Core architecture

• 4-input look-up table (LUT) and single register logic element (LE)

• LEs arranged in logic array block (LAB)

• Embedded RAM and user flash memory

• Clocks and PLLs

• Embedded multiplier blocks

• General purpose I/Os

Internal memory blocks

• M9K—9 kilobits (Kb) memory blocks

• Cascadable blocks to create RAM, dual port, and FIFO functions

User flash memory (UFM)

• User accessible non-volatile storage

• High speed operating frequency

• Large memory size

• High data retention

• Multiple interface option

Embedded multiplier blocks

• One 18 × 18 or two 9 × 9 multiplier modes

• Cascadable blocks enabling creation of filters, arithmetic functions, and image processing pipelines

ADC

• 12-bit successive approximation register (SAR) type

• Up to 17 analog inputs

• Cumulative speed up to 1 million samples per second ( MSPS)

• Integrated temperature sensing capability

Clock networks

• Global clocks support

• High speed frequency in clock network

Internal oscillator

Built-in internal ring oscillator

PLLs

• Analog-based

• Low jitter

• High precision clock synthesis

• Clock delay compensation

• Zero delay buffering

• Multiple output taps

General-purpose I/Os (GPIOs)

• Multiple I/O standards support

• On-chip termination (OCT)

• Up to 830 megabits per second (Mbps) LVDS receiver, 800 Mbps LVDS transmitter

External memory interface (EMIF) (1)

Supports up to 600 Mbps external memory interfaces:

How to choose FPGA for your project?

MAX® 10 Field Programmable Gate Array (FPGA) IC 101 1677312 50000 144-LQFP Exposed Pad

Intel® MAX® 10 FPGA Device Datasheet

This datasheet describes the electrical characteristics, switching characteristics, configuration specifications, and timing for

Intel MAX? 10 devices.

Intel MAX 10 Device Grades and Speed Grades Supported

Commercial

•–C7

• –C8 (slowest)

Industrial

• –I6 (fastest)

• –I7

Automotive

•–A6

• –A7

How to choose FPGA for your project?