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Virtex-5 FPGA User Guide
UG190 (v5.0) June 19, 2009
Chapter 6:
SelectIO Resources
reset and both phases of impedance adjustment proceed in succession. All I/Os using DCI
will be unavailable until the LOCKED output from the DCIRESET block is asserted.
This functionality is useful in applications where the temperature and/or supply voltage
changes significantly from device power-up to the nominal operating condition. Once at
the nominal operating temperature and voltage, performing the first phase of impedance
adjustment allows optimal headroom for the second phase of impedance adjustment.
For controlled impedance output drivers, the impedance can be adjusted either to match
the reference resistors or half the resistance of the reference resistors. For on-chip
termination, the termination is always adjusted to match the reference resistors.
DCI can configure output drivers to be the following types:
1.
Controlled Impedance Driver (Source Termination)
2.
Controlled Impedance Driver with Half Impedance (Source Termination)
It can also configure inputs to have the following types of on-chip terminations:
1.
Input termination to V
CCO
(Single Termination)
2.
Input termination to V
CCO
/2 (Split Termination, Thevenin equivalent)
For bidirectional operation, both ends of the line can be DCI-terminated regardless of
direction:
1.
Driver with termination to V
CCO
(Single Termination)
2.
Driver with termination to V
CCO
/2 (Split Termination, Thevenin equivalent)
Alternatively, bidirectional point-to-point lines can use controlled-impedance drivers
(with 3-state buffers) on both ends.
Controlled Impedance Driver (Source Termination)
Some I/O standards, such as LVCMOS, must have a drive impedance matching the
characteristic impedance of the driven line. DCI can provide controlled impedance output
drivers to eliminate reflections without an external source termination. The impedance is
set by the external reference resistors with resistance equal to the trace impedance.
The DCI I/O standards supporting the controlled impedance driver are: LVDCI_15,
LVDCI_18, LVDCI_25, LVDCI_33, HSLVDCI_15, HSLVDCI_18, HSLVDCI_25, and
HSLVDCI_33.
illustrates a controlled impedance driver in a Virtex-5 device.
X-Ref Target - Figure 6-6
Figure 6-6:
Controlled Impedance Driver
UG190_6_04_012706
IOB
R
Virtex-5 DCI
Z
0
Содержание Virtex-5 FPGA ML561
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