XQ2V3000 Xilinx, XQ2V3000 Datasheet - Page 14

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XQ2V3000

Manufacturer Part Number
XQ2V3000
Description
QPro Virtex-II 1.5V Military QML Platform FPGAs
Manufacturer
Xilinx
Datasheet

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QPro Virtex-II 1.5V Military QML Platform FPGAs
High pin count packages (especially ball grid arrays) can
not accommodate external termination resistors.
Virtex-II XCITE DCI provides controlled impedance drivers
and on-chip termination for single-ended and differential
I/Os. This eliminates the need for external resistors, and
improves signal integrity. The DCI feature can be used on
any IOB by selecting one of the DCI I/O standards.
When applied to inputs, DCI provides input parallel termina-
tion. When applied to outputs, DCI provides controlled
impedance drivers (series termination) or output parallel
termination.
DCI operates independently on each I/O bank. When a DCI
I/O standard is used in a particular I/O bank, external refer-
ence resistors must be connected to two dual-function pins
on the bank. These resistors, the voltage reference of the N
transistor (VRN), and the voltage reference of the P transis-
tor (VRP) are shown in
When used with a terminated I/O standard, the value of
resistors are specified by the standard (typically 50 Ω).
When used with a controlled impedance driver, the resistors
set the output impedance of the driver within the specified
range (25 Ω to 100 Ω) . For all series and parallel termina-
tions listed in
must have the same value for any given bank. One percent
resistors are recommended.
The DCI system adjusts the I/O impedance to match the two
external reference resistors or half of the reference resis-
tors, and compensates for impedance changes due to volt-
age and/or temperature fluctuations. The adjustment is
done by turning parallel transistors in the IOB on or off.
14
Figure 10: DCI in a Virtex-II Bank
Table 11
1 Bank
DCI
DCI
DCI
DCI
and
Figure
VRN
VRP
Table
10.
V CCO
12, the reference resistors
GND
DS031_50_101200
R
R
REF
REF
(1%)
(1%)
www.xilinx.com
1-800-255-7778
Controlled Impedance Drivers (Series
Termination)
DCI can be used to provide a buffer with a controlled output
impedance. It is desirable for this output impedance to
match the transmission line impedance (Z). Virtex-II input
buffers also support LVDCI and LVDCI_DV2 I/O standards.
Table 11: SelectI/O-Ultra Controlled Impedance Buffers
Controlled Impedance Drivers (Parallel
Termination)
DCI also provides on-chip termination for SSTL3, SSTL2,
HSTL (Class I, II, III, or IV), and GTL/GTLP receivers or
transmitters on bidirectional lines.
Table 12
Virtex-II devices. V
Note that there is a V
GTLP_DCI, due to the on-chip termination resistor.
Table 12: SelectI/O-Ultra Buffers with On-Chip Parallel
Termination
SSTL3 Class II
SSTL2 Class II
HSTL Class IV
SSTL3 Class I
SSTL2 Class I
HSTL Class III
HSTL Class II
I/O Standard
HSTL Class I
Virtex-II DCI
V
3.3 V
2.5 V
1.8 V
1.5 V
Z
CCO
lists the on-chip parallel terminations available in
Figure 11: Internal Series Termination
IOB
V
CCO
CCO
LVDCI_33
LVDCI_25
LVDCI_18
LVDCI_15
= 3.3 V, 2.5 V, 1.8 V or 1.5 V
DCI
CCO
Termination
must be set according to
SSTL3_II
SSTL2_II
HSTL_IV
External
HSTL_III
SSTL3_I
SSTL2_I
HSTL_II
HSTL_I
requirement for GTL_DCI and
Z
DS122 (v1.1) January 7, 2004
DCI Half Impedance
Product Specification
LVDCI_DV2_33
LVDCI_DV2_25
LVDCI_DV2_18
LVDCI_DV2_15
SSTL3_II_DCI
SSTL2_II_DCI
SSTL3_I_DCI
SSTL2_I_DCI
HSTL_IV_DCI
HSTL_III_DCI
HSTL_II_DCI
Termination
HSTL_I_DCI
On-Chip
DS031_51_110600
Table
(1)
(1)
(1)
(1)
8.
R

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