EP3C10E144C7N Altera, EP3C10E144C7N Datasheet - Page 18

EP3C10E144C7N

Manufacturer Part Number

EP3C10E144C7N

Description

IC CYCLONE III FPGA 10K 144-EQFP

Manufacturer

Altera

Series

Cyclone® IIIr

Datasheets

1.EP3C5F256C8N.pdf (5 pages)

2.EP3C5F256C8N.pdf (34 pages)

3.EP3C5F256C8N.pdf (66 pages)

4.EP3C5F256C8N.pdf (14 pages)

5.EP3C5F256C8N.pdf (76 pages)

Specifications of EP3C10E144C7N

Number Of Logic Elements/cells

10320

Number Of Labs/clbs

645

Total Ram Bits

423936

Number Of I /o

Voltage - Supply

1.15 V ~ 1.25 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

144-EQFP

For Use With

544-2601 - KIT DEV CYCLONE III LS EP3CLS200544-2411 - KIT DEV NIOS II CYCLONE III ED.

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

Other names

544-2425
EP3C10E144C7N

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Page 18

For details about implementing these features, refer to the

volume 2 of the Quartus II Handbook.

Minimizing Simultaneous Switching Noise

Simultaneous switching noise (SSN) becomes a concern when too many pins within

close proximity change levels at the same time and cause V

on the quiet pins nearby. Noise generated by SSN can reduce noise margin and cause

incorrect switching.

When creating your design, try to separate the pins that switch simultaneously. If

possible, distribute the switching pins to different I/O banks. Set the unused I/O pins

nearby to V

also turn on the slow slew rate feature and use a lower drive strength for the

switching pins. Proper termination on the switching I/O pins also helps to reduce

reflection and the SSN effect on the quiet pins.

For details about the sources of the SSN, ways to mitigate SSN and guidelines on a

PCB design for the general high speed digital designs, refer to

Simultaneous Switching Noise (SSN) Design Guidelines.

For board design guidelines, refer to

AN 315: Guidelines for Designing High-Speed FPGA PCBs.

Unused Pin Connection

The Quartus II software generates the pin report file (.pin) when you compile your

design. This report file specifies how you should connect the unused pins of your

device. For a Cyclone III device, unused I/O pins are marked in the report file as any

one of the following depending on how you set the unused pins in the Quartus II

software:

■

All I/O pins specified as GND* can either be connected to ground to improve the

device's immunity to noise, or left unconnected. Leave all RESERVE I/O pins

unconnected on your board because these I/O pins drive out unspecified signals.

Tying a RESERVED I/O pin to V

contention that can damage the output driver of the device.

RESERVED_INPUT I/O pins can be connected to a high or low signal on the board

while RESERVED_INPUT_WITH_WEAK_PULLUP and

RESERVED_INPUT_WITH_BUS_HOLD pins can be left unconnected.

GND*

RESERVED

RESERVED_INPUT

RESERVED_INPUT_WITH_WEAK_PULLUP

RESERVED_INPUT_WITH_BUS_HOLD

to minimize V

sag, or to ground to minimize ground bounce. You can

, ground, or another signal source can create

AN 224: High-Speed Board Layout Guidelines

I/O Management

sag or ground bounce

AN 508: Cyclone III

Board Design Considerations

chapter in

and

EP3C10E144C7N Altera, EP3C10E144C7N Datasheet - Page 18

EP3C10E144C7N

Specifications of EP3C10E144C7N

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