EPF10K50RI240-4 Altera, EPF10K50RI240-4 Datasheet - Page 120

IC FLEX 10K FPGA 50K 240-RQFP

EPF10K50RI240-4

Manufacturer Part Number
EPF10K50RI240-4
Description
IC FLEX 10K FPGA 50K 240-RQFP
Manufacturer
Altera
Series
FLEX-10K®r
Datasheet

Specifications of EPF10K50RI240-4

Number Of Logic Elements/cells
2880
Number Of Labs/clbs
360
Total Ram Bits
20480
Number Of I /o
189
Number Of Gates
116000
Voltage - Supply
4.5 V ~ 5.5 V
Mounting Type
Surface Mount
Operating Temperature
-40°C ~ 100°C
Package / Case
240-RQFP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Other names
544-2240

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Notes:
(1)
(2)
(3)
Power
Consumption
120
FLEX 10K Embedded Programmable Logic Device Family Data Sheet
f
f
t
t
t
t
Symbol
CLKDEV1
CLKDEV2
INCLKSTB
LOCK
JITTER
OUTDUTY
Table 113. ClockLock & ClockBoost Parameters
To implement the ClockLock and ClockBoost circuitry with the MAX+PLUS II software, designers must specify the
input frequency. The MAX+PLUS II software tunes the PLL in the ClockLock and ClockBoost circuitry to this
frequency. The f
during device operation. Simulation does not reflect this parameter.
During device configuration, the ClockLock and ClockBoost circuitry is configured before the rest of the device. If
the incoming clock is supplied during configuration, the ClockLock and ClockBoost circuitry locks during
configuration, because the t
The t
JITTER
Input deviation from user specification in MAX+PLUS II (ClockBoost clock
multiplication factor equals 1)
Input deviation from user specification in MAX+PLUS II (ClockBoost clock
multiplication factor equals 2)
Input clock stability (measured between adjacent clocks)
Time required for ClockLock or ClockBoost to acquire lock
Jitter on ClockLock or ClockBoost-generated clock
Duty cycle for ClockLock or ClockBoost-generated clock
specification is measured under long-term observation.
CLKDEV
parameter specifies how much the incoming clock can differ from the specified frequency
The supply power (P) for FLEX 10K devices can be calculated with the
following equation:
P = P
Typical I
operating conditions tables on pages 46, 49, and 52 of this data sheet. The
I
logic. This value is calculated based on the amount of current that each LE
typically consumes. The P
load characteristics and switching frequency, can be calculated using the
guidelines given in Application Note 74 (Evaluating Power for Altera Devices).
1
The I
The parameters in this equation are shown below:
I
CCACTIVE
LOCK
CCACTIVE
CCACTIVE
value is less than the time required for configuration.
INT
(1)
(1)
CCSTANDBY
+ P
Compared to the rest of the device, the embedded array
consumes a negligible amount of power. Therefore, the
embedded array can be ignored when calculating supply
current.
Parameter
value depends on the switching frequency and the application
= K f
IO
= (I
value is calculated with the following equation:
MAX
CCSTANDBY
values are shown as I
(Part 2 of 2)
(3)
N tog
IO
(2)
value, which depends on the device output
+ I
LC
CCACTIVE )
-------------------------- -
MHz LE
CC0
A
V
in the FLEX 10K device DC
CC
Min
40
+ P
IO
Typ
50
Altera Corporation
Max
100
10
60
0.5
1
1
Unit
MHz
MHz
ps
ns
%
s

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