EP4CE22U14I7N Datasheet EP4CE22U14I7N, EP4CGX30CF19I7N, EP4CE15U14A7N | P7-P9

Chapter 1: Cyclone IV FPGA Device Family Overview 1–7

Cyclone IV Device Family Speed Grades

March 2016 Altera Corporation Cyclone IV Device Handbook,

Volume 1

Cyclone IV Device Family Speed Grades

Table 1–5 lists the Cyclone IV GX devices speed grades.

Table 1–6 lists the Cyclone IV E devices speed grades.

Table 1–5. Speed Grades for the Cyclone IV GX Device Family

Device F169 F324 F484 F672 F896

EP4CGX15 C6, C7, C8, I7 — — — —

EP4CGX22 C6, C7, C8, I7 C6, C7, C8, I7 — — —

EP4CGX30 C6, C7, C8, I7 C6, C7, C8, I7 C6, C7, C8, I7 — —

EP4CGX50 — — C6, C7, C8, I7 C6, C7, C8, I7 —

EP4CGX75 — — C6, C7, C8, I7 C6, C7, C8, I7 —

EP4CGX110 — — C7, C8, I7 C7, C8, I7 C7, C8, I7

EP4CGX150 — — C7, C8, I7 C7, C8, I7 C7, C8, I7

Table 1–6. Speed Grades for the Cyclone IV E Device Family

(1), (2)

Device E144 M164 M256 U256 F256 F324 U484 F484 F780

EP4CE6

C8L, C9L, I8L

C6, C7, C8, I7,

——I7N

C8L, C9L, I8L

C6, C7, C8, I7,

—— — —

EP4CE10

C8L, C9L, I8L

C6, C7, C8, I7,

——I7N

C8L, C9L, I8L

C6, C7, C8, I7,

—— — —

EP4CE15

C8L, C9L, I8L

C6, C7, C8, I7

I7N C7N, I7N I7N

C8L, C9L, I8L

C6, C7, C8, I7,

——

C8L, C9L, I8L

C6, C7, C8, I7,

—

EP4CE22

C8L, C9L, I8L

C6, C7, C8, I7,

——I7N

C8L, C9L, I8L

C6, C7, C8, I7,

—— — —

EP4CE30 — — — — — A7N —

C8L, C9L, I8L

C6, C7, C8, I7,

C8L, C9L, I8L

C6, C7, C8, I7

EP4CE40 — — — — — A7N I7N

C8L, C9L, I8L

C6, C7, C8, I7,

C8L, C9L, I8L

C6, C7, C8, I7

EP4CE55 — — — — — — I7N

C8L, C9L, I8L

C6, C7, C8, I7

C8L, C9L, I8L

C6, C7, C8, I7

EP4CE75 — — — — — — I7N

C8L, C9L, I8L

C6, C7, C8, I7

C8L, C9L, I8L

C6, C7, C8, I7

EP4CE115 — — — — — — —

C8L, C9L, I8L

C7, C8, I7

C8L, C9L, I8L

C7, C8, I7

Notes to Table 1–6:

(1) C8L, C9L, and I8L speed grades are applicable for the 1.0-V core voltage.

(2) C6, C7, C8, I7, and A7 speed grades are applicable for the 1.2-V core voltage.

1–8 Chapter 1: Cyclone IV FPGA Device Family Overview

Cyclone IV Device Family Architecture

Cyclone IV Device Handbook, March 2016 Altera Corporation

Volume 1

Cyclone IV Device Family Architecture

This section describes Cyclone IV device architecture and contains the following

topics:

■ “FPGA Core Fabric”

■ “I/O Features”

■ “Clock Management”

■ “External Memory Interfaces”

■ “Configuration”

■ “High-Speed Transceivers (Cyclone IV GX Devices Only)”

■ “Hard IP for PCI Express (Cyclone IV GX Devices Only)”

FPGA Core Fabric

Cyclone IV devices leverage the same core fabric as the very successful Cyclone series

devices. The fabric consists of LEs, made of 4-input look up tables (LUTs), memory

blocks, and multipliers.

Each Cyclone IV device M9K memory block provides 9 Kbits of embedded SRAM

memory. You can configure the M9K blocks as single port, simple dual port, or true

dual port RAM, as well as FIFO buffers or ROM. They can also be configured to

implement any of the data widths in Table 1–7.

The multiplier architecture in Cyclone IV devices is the same as in the existing

Cyclone series devices. The embedded multiplier blocks can implement an 18 × 18 or

two 9 × 9 multipliers in a single block. Altera offers a complete suite of DSP IP

including finite impulse response (FIR), fast Fourier transform (FFT), and numerically

controlled oscillator (NCO) functions for use with the multiplier blocks. The

Quartus

II design software’s DSP Builder tool integrates MathWorks Simulink and

MATLAB design environments for a streamlined DSP design flow.

f For more information, refer to the Logic Elements and Logic Array Blocks in Cyclone IV

Devices, Memory Blocks in Cyclone IV Devices, and Embedded Multipliers in Cyclone IV

Devices chapters.

Table 1–7. M9K Block Data Widths for Cyclone IV Device Family

Mode Data Width Configurations

Single port or simple dual port ×1, ×2, ×4, ×8/9, ×16/18, and ×32/36

True dual port ×1, ×2, ×4, ×8/9, and ×16/18

Chapter 1: Cyclone IV FPGA Device Family Overview 1–9

Cyclone IV Device Family Architecture

March 2016 Altera Corporation Cyclone IV Device Handbook,

Volume 1

I/O Features

Cyclone IV device I/O supports programmable bus hold, programmable pull-up

resistors, programmable delay, programmable drive strength, programmable

slew-rate control to optimize signal integrity, and hot socketing. Cyclone IV devices

support calibrated on-chip series termination (Rs OCT) or driver impedance matching

(Rs) for single-ended I/O standards. In Cyclone IV GX devices, the high-speed

transceiver I/Os are located on the left side of the device. The top, bottom, and right

sides can implement general-purpose user I/Os.

Table 1–8 lists the I/O standards that Cyclone IV devices support.

The LVDS SERDES is implemented in the core of the device using logic elements.

f For more information, refer to the I/O Features in Cyclone IV Devices chapter.

Clock Management

Cyclone IV devices include up to 30 global clock (GCLK) networks and up to eight

PLLs with five outputs per PLL to provide robust clock management and synthesis.

You can dynamically reconfigure Cyclone IV device PLLs in user mode to change the

clock frequency or phase.

Cyclone IV GX devices support two types of PLLs: multipurpose PLLs and general-

purpose PLLs:

■ Use multipurpose PLLs for clocking the transceiver blocks. You can also use them

for general-purpose clocking when they are not used for transceiver clocking.

■ Use general purpose PLLs for general-purpose applications in the fabric and

periphery, such as external memory interfaces. Some of the general purpose PLLs

can support transceiver clocking.

f For more information, refer to the Clock Networks and PLLs in Cyclone IV Devices

chapter.

External Memory Interfaces

Cyclone IV devices support SDR, DDR, DDR2 SDRAM, and QDRII SRAM interfaces

on the top, bottom, and right sides of the device. Cyclone IV E devices also support

these interfaces on the left side of the device. Interfaces may span two or more sides of

the device to allow more flexible board design. The Altera

DDR SDRAM memory

interface solution consists of a PHY interface and a memory controller. Altera supplies

the PHY IP and you can use it in conjunction with your own custom memory

controller or an Altera-provided memory controller. Cyclone IV devices support the

use of error correction coding (ECC) bits on DDR and DDR2 SDRAM interfaces.

Table 1–8. I/O Standards Support for the Cyclone IV Device Family

Type I/O Standard

Single-Ended I/O LVTTL, LVCMOS, SSTL, HSTL, PCI, and PCI-X

Differential I/O SSTL, HSTL, LVPECL, BLVDS, LVDS, mini-LVDS, RSDS, and PPDS

P1-P3 P4-P6 P7-P9 P10-P12 P13-P14

EP4CE22U14I7N

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FPGA - Field Programmable Gate Array FPGA - Cyclone IV E 1395 LABs 79 IOs

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