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IFDX, 4, 8, 16

Single- and Multiple-Input D Flip-Flops with Clock Enable

Element
XC3000
XC4000E
XC4000X
XC5200
XC9000
Spartan
SpartanXL
Virtex
IFDX
N/A
Primitive
Primitive
N/A
N/A
Primitive
Primitive
Macro
IFDX4,
IFDX8,
IFDX16
N/A
Macro
Macro
N/A
N/A
Macro
Macro
Macro

figures/x6009n.gif

figures/x6010n.gif

figures/x6011n.gif

figures/x6012n.gif

The IFDX D-type flip-flop is contained in an input/output block (IOB). The input (D) of the flip-flop is connected to an IPAD or an IOPAD (without using an IBUF). The D input provides data input for the flip-flop, which synchronizes data entering the chip. The data on input D is loaded into the flip-flop during the Low-to-High clock (C) transition and appears at the output (Q). The clock input can be driven by internal logic or through another external pin. When CE is Low, flip-flop outputs do not change.

The flip-flops are asynchronously cleared with Low outputs when power is applied. FPGAs simulate power-on when global set/reset (GSR) is active. GSR (XC4000, Spartans) default to active-High but can be inverted by adding an inverter in front of the GSR input of the STARTUP symbol.

For information on legal IFDX, IFDX_1, ILDX, and ILDX_1 combinations, refer to the “ILDX, 4, 8, 16” section.

Inputs
Outputs
CE
Dn
C
Qn
1
Dn

dn
0
X
X
No Chg
dn = state of referenced input (Dn) one setup time prior to active clock transition

Figure 6.14 IFDX Implementation Virtex

Figure 6.15 IFDX8 Implementation XC4000, Spartans, Virtex

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