EP3C5E144A7N Altera, EP3C5E144A7N Datasheet - Page 140

EP3C5E144A7N

Manufacturer Part Number

EP3C5E144A7N

Description

Cyclone III

Manufacturer

Altera

Datasheet

1.EP3C5E144A7N.pdf (274 pages)

Specifications of EP3C5E144A7N

Family Name

Cyclone III

Number Of Logic Blocks/elements

5136

# I/os (max)

Frequency (max)

437.5MHz

Process Technology

65nm

Operating Supply Voltage (typ)

1.2V

Logic Cells

5136

Ram Bits

423936

Operating Supply Voltage (min)

1.15V

Operating Supply Voltage (max)

1.25V

Operating Temp Range

-40C to 125C

Operating Temperature Classification

Automotive

Mounting

Surface Mount

Pin Count

144

Package Type

EQFP

Lead Free Status / Rohs Status

Compliant

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7–16

High-Speed I/O Timing

Table 7–5. High-Speed I/O Timing Definitions

Figure 7–15. High-Speed I/O Timing Diagram

Cyclone III Device Handbook, Volume 1

Transmitter channel-to-channel skew

Sampling window

Receiver input skew margin

Input jitter tolerance (peak-to-peak)

Output jitter (peak-to-peak)

Note to

(1) The TCCS specification applies to the entire bank of differential I/O as long as the SERDES logic is placed in the logic array block (LAB) adjacent

to the output pins.

Table

7–5:

Parameter

This section discusses the timing budget, waveforms, and specifications for

source-synchronous signaling in the Cyclone III device family. Timing for

source-synchronous signaling is based on skew between the data and clock signals.

High-speed differential data transmission requires timing parameters provided by IC

vendors and requires you to consider the board skew, cable skew, and clock jitter. This

section provides information about high-speed I/O standards timing parameters in

the Cyclone III device family.

Table 7–5

Internal Clock

Input Clock

Input Data

Receiver

External

lists the parameters of the timing diagram as shown in

(1)

TCCS

RSKM

Symbol

—

RSKM

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

The timing difference between the fastest and slowest output

edges, including t

included in the TCCS measurement.

The period of time during which the data must be valid in order

for you to capture it correctly. The setup and hold times

determine the ideal strobe position in the sampling window.

RSKM is defined by the total margin left after accounting for the

sampling window and TCCS. The RSKM equation is:

Allowed input jitter on the input clock to the PLL that is tolerable

while maintaining PLL lock.

Peak-to-peak output jitter from the PLL.

RSKM

Sampling Window (SW)

Time Unit Interval (TUI)

= T

+ T

(

--------------------------------------------- -

TUI SW TCCS

+ PLL jitter.

–

variation and clock skew. The clock is

–

RSKM

Description

)

TCCS

Figure

High-Speed I/O Timing

7–15.

EP3C5E144A7N Altera, EP3C5E144A7N Datasheet - Page 140

EP3C5E144A7N

Specifications of EP3C5E144A7N

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