EPF10K50EQC240-3N Altera, EPF10K50EQC240-3N Datasheet - Page 97

EPF10K50EQC240-3N

Manufacturer Part Number

EPF10K50EQC240-3N

Description

IC FLEX 10KE FPGA 50K 240-PQFP

Manufacturer

Altera

Series

FLEX-10KE®r

Datasheet

1.EPF10K30ETC144-3.pdf (100 pages)

Specifications of EPF10K50EQC240-3N

Number Of Logic Elements/cells

2880

Number Of Labs/clbs

360

Total Ram Bits

40960

Number Of I /o

189

Number Of Gates

199000

Voltage - Supply

2.3 V ~ 2.7 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

240-MQFP, 240-PQFP

Family Name

FLEX 10KE

Number Of Usable Gates

50000

Number Of Logic Blocks/elements

2880

# Registers

189

# I/os (max)

189

Frequency (max)

166.67MHz

Process Technology

CMOS

Operating Supply Voltage (typ)

2.5V

Logic Cells

2880

Ram Bits

40960

Device System Gates

199000

Operating Supply Voltage (min)

2.3V

Operating Supply Voltage (max)

2.7V

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

240

Package Type

PQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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FLEX 10KE Embedded Programmable Logic Devices Data Sheet

During initialization, which occurs immediately after configuration, the

device resets registers, enables I/O pins, and begins to operate as a logic

device. The I/O pins are tri-stated during power-up, and before and

during configuration. Together, the configuration and initialization

processes are called command mode; normal device operation is called user

mode.

SRAM configuration elements allow FLEX 10KE devices to be

reconfigured in-circuit by loading new configuration data into the device.

Real-time reconfiguration is performed by forcing the device into

command mode with a device pin, loading different configuration data,

reinitializing the device, and resuming user-mode operation. The entire

reconfiguration process requires less than 85 ms and can be used to

reconfigure an entire system dynamically. In-field upgrades can be

performed by distributing new configuration files.

Before and during configuration, all I/O pins (except dedicated inputs,

clock, or configuration pins) are pulled high by a weak pull-up resistor.

Programming Files

Despite being function- and pin-compatible, FLEX 10KE devices are not

programming- or configuration file-compatible with FLEX 10K or

FLEX 10KA devices. A design therefore must be recompiled before it is

transferred from a FLEX 10K or FLEX 10KA device to an equivalent

FLEX 10KE device. This recompilation should be performed both to create

a new programming or configuration file and to check design timing in

FLEX 10KE devices, which has different timing characteristics than

FLEX 10K or FLEX 10KA devices.

FLEX 10KE devices are generally pin-compatible with equivalent

FLEX 10KA devices. In some cases, FLEX 10KE devices have fewer I/O

pins than the equivalent FLEX 10KA devices.

Table 81

shows which

FLEX 10KE devices have fewer I/O pins than equivalent FLEX 10KA

devices. However, power, ground, JTAG, and configuration pins are the

same on FLEX 10KA and FLEX 10KE devices, enabling migration from a

FLEX 10KA design to a FLEX 10KE design.

Altera Corporation

EPF10K50EQC240-3N Altera, EPF10K50EQC240-3N Datasheet - Page 97

EPF10K50EQC240-3N

Specifications of EPF10K50EQC240-3N

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