XC5VLX50T-1FFG1136C Xilinx Inc, XC5VLX50T-1FFG1136C Datasheet - Page 67

IC FPGA VIRTEX-5 50K 1136FBGA

XC5VLX50T-1FFG1136C

Manufacturer Part Number
XC5VLX50T-1FFG1136C
Description
IC FPGA VIRTEX-5 50K 1136FBGA
Manufacturer
Xilinx Inc
Series
Virtex™-5 LXTr

Specifications of XC5VLX50T-1FFG1136C

Total Ram Bits
2211840
Number Of Logic Elements/cells
46080
Number Of Labs/clbs
3600
Number Of I /o
480
Voltage - Supply
0.95 V ~ 1.05 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
1136-BBGA, FCBGA
No. Of Logic Blocks
7200
No. Of Gates
50000
Family Type
Virtex-5 LXT
No. Of Speed Grades
1
No. Of I/o's
480
Clock Management
PLL
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
HW-V5-ML561-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-V5-ML550-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-V5-ML521-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-V5GBE-DK-UNI-G - KIT DEV V5 LXT GIGABIT ETHERNET122-1508 - EVALUATION PLATFORM VIRTEX-5
Number Of Gates
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
122-1564

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Virtex-5 FPGA User Guide
UG190 (v5.3) May 17, 2010
Frequency Synthesis
Characteristics of the Deskew Circuit
Frequency Synthesis Operation
Source-Synchronous Setting
When DESKEW_ADJUST is set to source-synchronous mode, the DCM feedback delay
element is set to zero. As shown in
clock feedback delay element is set to minimize the sampling window. This results in a
more positive hold time and a longer clock-to-out compared to system-synchronous mode.
The source-synchronous switching characteristics section in the Virtex-5 FPGA Data Sheet
reflects the various timing parameters for the source-synchronous design when the DCM
is in source-synchronous mode.
The DCM provides several flexible methods for generating new clock frequencies. Each
method has a different operating frequency range and different AC characteristics. The
CLK2X and CLK2X180 outputs double the clock frequency. The CLKDV output provides a
divided output clock (lower frequency) with division options of 1.5, 2, 2.5, 3, 3.5, 4, 4.5, 5,
5.5, 6, 6.5, 7, 7.5, 8, 9, 10, 11, 12, 13, 14, 15, and 16.
The DCM also offers fully digital, dedicated frequency-synthesizer outputs CLKFX and its
opposite phase CLKFX180. The output frequency can be any function of the input clock
frequency described by M ÷ D, where M is the multiplier (numerator) and D is the divisor
(denominator).
The frequency synthesized outputs can drive the global-clock routing networks within the
device. The well-buffered global-clock distribution network minimizes clock skew due to
differences in distance or loading.
The DCM clock output CLKFX is any M ÷ D factor of the clock input to the DCM.
Specifications for M and D, as well as input and output frequency ranges for the frequency
synthesizer, are provided in the Virtex-5 FPGA Data Sheet.
Downstream DCMs when two or more DCMs are cascaded
DCMs with external feedback
DCMs with an external CLKIN that does not come from a dedicated clock input pin.
Eliminate clock distribution delay by effectively adding one clock period delay.
Clocks are deskewed to within CLKOUT_PHASE, specified in the Virtex-5 FPGA Data
Sheet.
Eliminate on-chip as well as off-chip clock delay.
No restrictions on the delay in the feedback clock path.
Requires a continuously running input clock.
Adapts to a wide range of frequencies. However, once locked to a frequency, large
input frequency variations are not tolerated.
Does not eliminate jitter. The deskew circuit output jitter is the accumulation of input
jitter and any added jitter value due to the deskew circuit.
The completion of configuration can be delayed until after DCM locks to guarantee
the system clock is established prior to initiating the device.
www.xilinx.com
Figure
2-4, in source-synchronous mode, the DCM
DCM Design Guidelines
67

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