XC5VLX110-1FFG676C Xilinx Inc, XC5VLX110-1FFG676C Datasheet - Page 312
XC5VLX110-1FFG676C
Manufacturer Part Number
XC5VLX110-1FFG676C
Description
IC FPGA VIRTEX-5 110K 676FBGA
Manufacturer
Xilinx Inc
Series
Virtex™-5 LXr
Datasheets
1.XC5VLX30-1FFG324C.pdf
(91 pages)
2.XC5VLX30-1FFG324C.pdf
(13 pages)
3.XC5VLX30-1FFG324C.pdf
(385 pages)
Specifications of XC5VLX110-1FFG676C
Total Ram Bits
4718592
Number Of Logic Elements/cells
110592
Number Of Labs/clbs
8640
Number Of I /o
440
Voltage - Supply
0.95 V ~ 1.05 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
676-BBGA, FCBGA
No. Of Logic Blocks
17280
No. Of Gates
110000
Family Type
Virtex-5 LX
No. Of Speed Grades
1
No. Of I/o's
440
Clock Management
PLL
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
HW-V5-ML523-UNI-G - EVALUATION PLATFORM VIRTEX-5
Number Of Gates
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
122-1557
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Chapter 6: SelectIO Resources
312
Actual SSO Limits versus Nominal SSO Limits
Electrical Basis of SSO Noise
Parasitic Factors Derating Method (PFDM)
Table 6-40: Maximum Number of Simultaneously Switching Outputs per Bank (Continued)
The Virtex-5 FPGA SSO limits are defined for a set of nominal system conditions in
Table
Derating Method (PFDM)
differences between actual and nominal PCB power systems, receiver capacitive loading,
and maximum allowable ground bounce or V
Device SSO
SSO noise can manifest as power supply disturbance, in the form of ground bounce or V
bounce. GND and V
V
V
across power system parasitics by supply current transients. One cause of current
transients is output driver switching events. Numerous output switching events occurring
at the same time lead to bigger current transients, and therefore bigger induced voltages
(ground bounce, V
die, package, and PCB, therefore, parasitics from all three must be considered. The larger
the value of these parasitics, the larger the voltage induced by a current transient (power-
supply disturbance).
V
bounce also affects inputs configured as certain I/O standards because they interpret
incoming signals by comparing them to a threshold referenced to the die ground (as
opposed to I/O standards with input thresholds referenced to a V
voltage disturbance exceeds the instantaneous noise margin for the interface, then a non-
changing input or output can be erroneously interpreted as changing.
SSO noise can also manifest in the form of crosstalk between I/Os in close proximity to one
another. The sparse chevron pinout of Virtex-5 devices reduces crosstalk in the pinout
region to a minimum.
This section describes a method to evaluate whether a design is within the SSO limits when
taking into account the specific electrical characteristics of the user's unique system.
The SSO limits in
These factors fall into three groups of electrical characteristics:
•
CC
CC
CC
Voltage
3.3V
PCB PDS parasitics (nominal 1 nH per via)
rail). The deviation of die supplies from PCB supplies comes from the voltage induced
bounce affects stable high outputs. Ground bounce affects stable low outputs. Ground
rail) with respect to the voltage of the associated PCB supply (PCB GND rail or PCB
6-40. To compute the actual limits for a specific user's system, the
Calculator, automates this process.
GTL
GTL_DCI
GTLP
GTLP_DCI
LVDCI_33 50 Ω
HSLVDCI_33 50 Ω
IOSTANDARD
Table 6-40
CC
CC
bounce, or rail collapse). Relevant transient current paths exist in the
bounce is a deviation of the die supply voltage (die GND rail or die
www.xilinx.com
must be used. The PFDM allows the user to account for
assume nominal values for the parasitic factors of the system.
Limit per 20-pin Bank
CC
12
12
12
12
20
20
bounce. A spreadsheet calculator,
Virtex-5 FPGA User Guide
UG190 (v5.3) May 17, 2010
Limit per 40-pin Bank
REF
voltage). If the die
Parasitic Factors
25
25
25
25
40
40
Full
CC
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