EP3C10M164C8N Altera, EP3C10M164C8N Datasheet - Page 141

EP3C10M164C8N

Manufacturer Part Number

EP3C10M164C8N

Description

IC CYCLONE III FPGA 402MHZ BGA-164

Manufacturer

Altera

Series

Cyclone IIIr

Datasheets

1.EP3C10M164C8N.pdf (350 pages)

2.EP3C10M164C8N.pdf (274 pages)

Specifications of EP3C10M164C8N

No. Of Logic Blocks

645

Family Type

Cyclone III

No. Of I/o's

106

I/o Supply Voltage

3.3V

Operating Frequency Max

402MHz

Operating Temperature Range

0Â°C To +85Â°C

Family Name

Cyclone III

Number Of Logic Blocks/elements

10320

# I/os (max)

106

Frequency (max)

402MHz

Process Technology

65nm

Operating Supply Voltage (typ)

1.2V

Logic Cells

10320

Ram Bits

423936

Operating Supply Voltage (min)

1.15V

Operating Supply Voltage (max)

1.25V

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

164

Package Type

MBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

EP3C10M164C8N

Manufacturer:

ALTERA

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Chapter 7: High-Speed Differential Interfaces in the Cyclone III Device Family

Design Guidelines

Figure 7–16. Cyclone III Device Family High-Speed I/O Timing Budget

Note to

(1) The equation for the high-speed I/O timing budget is:

Design Guidelines

Differential Pad Placement Guidelines

Board Design Considerations

Period

Figure

7–16:

0.5

Internal Clock Period

Altera Corporation

TCCS

Figure 7–16

For more information, refer to the

Device Data Sheet

This section provides guidelines for designing with the Cyclone III device family.

To maintain an acceptable noise level on the V

restrictions on the placement of single-ended I/O pins in relation to differential pads.

For more information about the guidelines on placing single-ended pads with respect

to differential pads in the Cyclone III device family, refer to the

Features

This section explains how to achieve the optimal performance from the Cyclone III

device family I/O interface and ensure first-time success in implementing a

functional design with optimal signal quality. You must consider the critical issues of

controlled impedance of traces and connectors, differential routing, and termination

techniques to get the best performance from the Cyclone III device family.

Use the following general guidelines for improved signal quality:

■

RSKM

Base board designs on controlled differential impedance. Calculate and compare

all parameters, such as trace width, trace thickness, and the distance between two

differential traces.

Maintain equal distance between traces in differential I/O standard pairs as much

as possible. Routing the pair of traces close to each other maximizes the

common-mode rejection ratio (CMRR).

Longer traces have more inductance and capacitance. These traces must be as

short as possible to limit signal integrity issues.

Place termination resistors as close to receiver input pins as possible.

chapter.

shows the Cyclone III device family high-speed I/O timing budget.

0.5 × TCCS

RSKM

chapters in volume 2 of the Cyclone III Device Handbook.

RSKM

0.5

TCCS.

Cyclone III Device Data Sheet

(Note 1)

CCIO

supply, you must observe some

RSKM

Cyclone III Device Handbook, Volume 1

0.5 × TCCS

and

Cyclone III Device I/O

Cyclone III LS

7–17

EP3C10M164C8N Altera, EP3C10M164C8N Datasheet - Page 141

EP3C10M164C8N

Specifications of EP3C10M164C8N

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