EP4SE530H35C2N Altera, EP4SE530H35C2N Datasheet - Page 1023

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 2: Transceiver Design Flow Guide for Stratix IV Devices

Architecture

February 2011 Altera Corporation

Clocking

The Stratix IV GX transceiver is clocked by various input reference clocks, for

example:

■

Identify the transceiver channels input reference clock sources, for example:

■

For transceiver-FPGA interface clocking:

■

For information about transceiver specifications, refer to the

Characteristics for Stratix IV Devices

■

For information about transceiver clocking, refer to the

Stratix IV Devices

After you identify the required transceiver parameters, start the implementation and

integration phase.

Dedicated transceiver reference clock (refclk) pins. Altera recommends using

refclk pins whenever possible because the refclk pins yield reduced jitter on the

transmitted data.

Clock sources connected to global clock lines.

Clock outputs from the phase-locked loops (PLLs) in the FPGA fabric.

Ensure that your selected device has the required number of input reference clock

resources to implement your design.

Ensure that the transceiver clock input supports the required I/O standards.

Ensure that the clocking restrictions work with your selected device:

■

Ensure that the transceiver-FPGA interface clock frequency limits meet your

system requirements.

Identify the clocking scheme to clock the transceiver data to the logic in the FPGA

fabric. For example, if your design has multiple transceiver channels that run at

the same data rate and are connected to the one upstream link, you might be able

to use a single transceiver-FPGA clock to provide clocks to the transceiver data

path, which can conserve clock routing resources.

If you are using Basic (PMA direct) mode, determine whether you require a

left/right PLL to provide phase shifted clocks to the FPGA fabric. The left/right

PLL clocks the data received and transmitted between the transceiver and the

FPGA fabric interface and may be required to meet the timing requirements of the

data transfer.

Check whether the allowed frequencies for the transceiver input reference

clocks meet your system requirements.

If you use the PLL cascade clock, understand its restrictions.

If you are using the auxiliary transmit (ATX) PLL, understand the

recommendations for the input reference clock sources and the restrictions on

data rate ranges supported by the ATX PLL.

chapter.

Transceiver Clocking in

Stratix IV Device Handbook Volume 3

DC and Switching

2–5

EP4SE530H35C2N Altera, EP4SE530H35C2N Datasheet - Page 1023

EP4SE530H35C2N

Specifications of EP4SE530H35C2N

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