EP4SE530H35C2N Altera, EP4SE530H35C2N Datasheet - Page 267

EP4SE530H35C2N

Manufacturer Part Number

EP4SE530H35C2N

Description

IC STRATIX IV FPGA 530K 1152HBGA

Manufacturer

Altera

Series

STRATIX&REG; IV Er

Datasheets

1.EP4SGX110DF29C3N.pdf (80 pages)

2.EP4SGX110DF29C3N.pdf (1154 pages)

3.EP4SGX110DF29C3N.pdf (432 pages)

4.EP4SGX110DF29C3N.pdf (22 pages)

5.EP4SGX110DF29C3N.pdf (72 pages)

6.EP4SE230F29C3N.pdf (12 pages)

Specifications of EP4SE530H35C2N

Number Of Logic Elements/cells

531200

Number Of Labs/clbs

21248

Total Ram Bits

27376

Number Of I /o

744

Voltage - Supply

0.87 V ~ 0.93 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

1152-HBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

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Chapter 7: External Memory Interfaces in Stratix IV Devices

Stratix IV External Memory Interface Features

February 2011 Altera Corporation

Leveling Circuitry

DDR3 SDRAM unbuffered modules use a fly-by clock distribution topology for better

signal integrity. This means that the CK/CK# signals arrive at each DDR3 SDRAM

device in the module at different times. The difference in arrival time between the first

DDR3 SDRAM device and the last device on the module can be as long as 1.6 ns.

Figure 7–27

Figure 7–27. DDR3 SDRAM Unbuffered Module Clock Topology

Because the data and read strobe signals are still point-to-point, take special care to

ensure that the timing relationship between the CK/CK# and DQS signals (tDQSS,

tDSS, and tDSH) during a write is met at every device on the modules. Furthermore,

read data coming back into the FPGA from the memory is also staggered in a similar

way.

Stratix IV FPGAs have leveling circuitry to address these two situations. There is one

leveling circuitry per I/O sub-bank (for example, I/O sub-bank 1A, 1B, and 1C each

has one leveling circuitry). These delay chains are PVT-compensated by the same DQS

delay settings as the DLL and DQS delay chains.

For frequencies equal to and above 400 MHz, the DLL uses eight delay chains, such

that each delay chain generates a 45° delay. The generated clock phases are

distributed to every DQS logic block that is available in the I/O sub-bank. The delay

chain taps then feeds a multiplexer controlled by the ALTMEMPHY megafunction to

select which clock phases are to be used for that ×4 or × 8 DQS group. Each group can

use a different tap output from the read-leveling and write-leveling delay chains to

compensate for the different CK/CK# delay going into each device on the module.

DQS/DQ

shows the clock topology in DDR3 SDRAM unbuffered modules.

DQS/DQ

CK/CK#

DQS/DQ

Stratix IV Device Handbook Volume 1

DQS/DQ

Stratix IV Device

DQS/DQ

7–47

EP4SE530H35C2N Altera, EP4SE530H35C2N Datasheet - Page 267

EP4SE530H35C2N

Specifications of EP4SE530H35C2N

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