EP3C16F256C7N Altera, EP3C16F256C7N Datasheet - Page 31
EP3C16F256C7N
Manufacturer Part Number
EP3C16F256C7N
Description
IC CYCLONE III FPGA 16K 256FBGA
Manufacturer
Altera
Series
Cyclone® IIIr
Datasheets
1.EP3C5F256C8N.pdf
(5 pages)
2.EP3C5F256C8N.pdf
(34 pages)
3.EP3C5F256C8N.pdf
(66 pages)
4.EP3C5F256C8N.pdf
(14 pages)
5.EP3C5F256C8N.pdf
(76 pages)
6.EP3C16F256C7N.pdf
(274 pages)
Specifications of EP3C16F256C7N
Number Of Logic Elements/cells
15408
Number Of Labs/clbs
963
Total Ram Bits
516096
Number Of I /o
168
Voltage - Supply
1.15 V ~ 1.25 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
256-FBGA
Family Name
Cyclone III
Number Of Logic Blocks/elements
15408
# I/os (max)
168
Frequency (max)
437.5MHz
Process Technology
65nm
Operating Supply Voltage (typ)
1.2V
Logic Cells
15408
Ram Bits
516096
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
256
Package Type
FBGA
For Use With
544-2601 - KIT DEV CYCLONE III LS EP3CLS200P0037 - BOARD DEV/EDUCATION ALTERA DE0544-2411 - KIT DEV NIOS II CYCLONE III ED.
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Number Of Gates
-
Lead Free Status / Rohs Status
Compliant
Other names
544-2463
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
EP3C16F256C7N
Manufacturer:
ALTERA
Quantity:
138
Chapter 1: Cyclone III Device Data Sheet
Glossary
Table 1–39. Glossary (Part 5 of 5)
© January 2010 Altera Corporation
Letter
W
V
X
Y
Z
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
C M( DC)
DIF( AC )
DIF( DC)
IC M
ID
IH
IH(A C)
IH(DC )
IL
IL ( AC )
IL ( DC)
IN
OC M
OD
OH
OL
OS
OX ( AC)
REF
REF (A C)
REF (DC )
S WING (A C)
S WING (DC )
TT
X ( AC)
Term
—
—
—
—
DC Common Mode Input Voltage.
AC differential Input Voltage: The minimum AC input differential voltage required for switching.
DC differential Input Voltage: The minimum DC input differential voltage required for switching.
Input Common Mode Voltage: The common mode of the differential signal at the receiver.
Input differential Voltage Swing: The difference in voltage between the positive and
complementary conductors of a differential transmission at the receiver.
Voltage Input High: The minimum positive voltage applied to the input which is accepted by the
device as a logic high.
High-level AC input voltage.
High-level DC input voltage.
Voltage Input Low: The maximum positive voltage applied to the input which is accepted by the
device as a logic low.
Low-level AC input voltage.
Low-level DC input voltage.
DC input voltage.
Output Common Mode Voltage: The common mode of the differential signal at the transmitter.
Output differential Voltage Swing: The difference in voltage between the positive and
complementary conductors of a differential transmission at the transmitter. V
Voltage Output High: The maximum positive voltage from an output which the device considers is
accepted as the minimum positive high level.
Voltage Output Low: The maximum positive voltage from an output which the device considers is
accepted as the maximum positive low level.
Output offset voltage: V
AC differential Output cross point voltage: The voltage at which the differential output signals must
cross.
Reference voltage for SSTL, HSTL I/O Standards.
AC input reference voltage for SSTL, HSTL I/O Standards. V
peak-to-peak AC noise on V
DC input reference voltage for SSTL, HSTL I/O Standards.
AC differential Input Voltage: AC Input differential voltage required for switching. For the SSTL
Differential I/O Standard, refer to Input Waveforms.
DC differential Input Voltage: DC Input differential voltage required for switching. For the SSTL
Differential I/O Standard, refer to Input Waveforms.
Termination voltage for SSTL, HSTL I/O Standards.
AC differential Input cross point Voltage: The voltage at which the differential input signals must
cross.
OS
= (V
REF
OH
should not exceed 2% of V
+ V
OL
) / 2.
Definitions
—
—
—
—
REF (DC)
REF (AC )
.
Cyclone III Device Handbook, Volume 2
= V
REF (DC)
+ noise. The
OD
= V
OH
– V
OL
.
1–31
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