EPF10K30EQC208-2 Altera, EPF10K30EQC208-2 Datasheet - Page 32

EPF10K30EQC208-2

Manufacturer Part Number

EPF10K30EQC208-2

Description

IC FLEX 10KE FPGA 30K 208-PQFP

Manufacturer

Altera

Series

FLEX-10KE®r

Datasheet

1.EPF10K30ETC144-3.pdf (100 pages)

Specifications of EPF10K30EQC208-2

Number Of Logic Elements/cells

1728

Number Of Labs/clbs

216

Total Ram Bits

24576

Number Of I /o

147

Number Of Gates

119000

Voltage - Supply

2.375 V ~ 2.625 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

208-MQFP, 208-PQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

544-2225

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FLEX 10KE Embedded Programmable Logic Devices Data Sheet

On all FLEX 10KE devices (except EPF10K50E and EPF10K200E devices),

the input path from the I/O pad to the FastTrack Interconnect has a

programmable delay element that can be used to guarantee a zero hold

time. EPF10K50S and EPF10K200S devices also support this feature.

Depending on the placement of the IOE relative to what it is driving, the

designer may choose to turn on the programmable delay to ensure a zero

hold time or turn it off to minimize setup time. This feature is used to

reduce setup time for complex pin-to-register paths (e.g., PCI designs).

Each IOE selects the clock, clear, clock enable, and output enable controls

from a network of I/O control signals called the peripheral control bus.

The peripheral control bus uses high-speed drivers to minimize signal

skew across the device and provides up to 12 peripheral control signals

that can be allocated as follows:

If more than six clock enable or eight output enable signals are required,

each IOE on the device can be controlled by clock enable and output

enable signals driven by specific LEs. In addition to the two clock signals

available on the peripheral control bus, each IOE can use one of two

dedicated clock pins. Each peripheral control signal can be driven by any

of the dedicated input pins or the first LE of each LAB in a particular row.

In addition, a LE in a different row can drive a column interconnect, which

causes a row interconnect to drive the peripheral control signal. The chip-

wide reset signal resets all IOE registers, overriding any other control

signals.

When a dedicated clock pin drives IOE registers, it can be inverted for all

IOEs in the device. All IOEs must use the same sense of the clock. For

example, if any IOE uses the inverted clock, all IOEs must use the inverted

clock and no IOE can use the non-inverted clock. However, LEs can still

use the true or complement of the clock on a LAB-by-LAB basis.

The incoming signal may be inverted at the dedicated clock pin and will

drive all IOEs. For the true and complement of a clock to be used to drive

IOEs, drive it into both global clock pins. One global clock pin will supply

the true, and the other will supply the complement.

When the true and complement of a dedicated input drives IOE clocks,

two signals on the peripheral control bus are consumed, one for each

sense of the clock.

Up to eight output enable signals

Up to six clock enable signals

Up to two clock signals

Up to two clear signals

Altera Corporation

EPF10K30EQC208-2 Altera, EPF10K30EQC208-2 Datasheet - Page 32

EPF10K30EQC208-2

Specifications of EPF10K30EQC208-2

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