XC3S1600E-5FG320C Xilinx Inc, XC3S1600E-5FG320C Datasheet - Page 48

XC3S1600E-5FG320C

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XC3S1600E-5FG320C

Description

PROGRAMMABLE MICROCHIP

Manufacturer

Xilinx Inc

Datasheet

1.XC3S1600E-5FG320C.pdf (193 pages)

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This phase error is a measure of the clock skew that the

clock distribution network introduces. The control block acti-

vates the appropriate number of delay elements to cancel

out the clock skew. Once the DLL has brought the CLK0 sig-

nal in phase with the CLKIN signal, it asserts the LOCKED

output, indicating a lock on to the CLKIN signal.

Table 26: DLL Attributes

DLL Clock Input Connections

An external clock source enters the FPGA using a Global

Clock Input Buffer (IBUFG), which directly accesses the glo-

bal clock network or via an Input Buffer (IBUF). Clock sig-

nals within the FPGA drive a global clock net using a Global

Clock Multiplexer Buffer (BUFGMUX). The global clock net

connects directly to the CLKIN input. The internal and exter-

nal connections are shown in

respectively. A differential clock (e.g., LVDS) can serve as

an input to CLKIN.

DLL Clock Output and Feedback Connections

As many as four of the nine DCM clock outputs can simulta-

neously drive four of the BUFGMUX buffers on the same die

edge. All DCM clock outputs can simultaneously drive gen-

eral routing resources, including interconnect leading to

OBUF buffers.

DS312-2 (v1.1) March 21, 2005

Advance Product Specification

CLK_FEEDBACK

CLKIN_DIVIDE_BY_2

CLKDV_DIVIDE

DUTY_CYCLE_CORRECTION

Attribute

Figure 39a

Chooses either the CLK0 or CLK2X output to

drive the CLKFB input

Halves the frequency of the CLKIN signal just

as it enters the DCM

Selects the constant used to divide the CLKIN

input frequency to generate the CLKDV

output frequency

Enables 50% duty cycle correction for the

CLK0, CLK90, CLK180, and CLK270 outputs

and

Figure

Description

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39c,

DLL Attributes and Related Functions

A number of different functional options can be set for the

DLL component through the use of the attributes described

tions that follow:

The feedback loop is essential for DLL operation and is

established by driving the CLKFB input with either the CLK0

or the CLK2X signal so that any undesirable clock distribu-

tion delay is included in the loop. It is possible to use either

of these two signals for synchronizing any of the seven DLL

outputs: CLK0, CLK90, CLK180, CLK270, CLKDV, CLK2X,

or CLK2X180. The value assigned to the CLK_FEEDBACK

attribute must agree with the physical feedback connection:

a value of 1X for the CLK0 case, 2X for the CLK2X case. If

the DCM is used in an application that does not require the

DLL — that is, only the DFS is used — then there is no

required feedback loop so CLK_FEEDBACK is set to

NONE.

There are two basic cases that determine how to connect

the DLL clock outputs and feedback connections: on-chip

synchronization and off-chip synchronization, which are

illustrated in

Table

26. Each attribute is described in detail in the sec-

Figure 39a

NONE, 1X, 2X

TRUE, FALSE

1.5, 2, 2.5, 3, 3.5, 4, 4.5, 5, 5.5, 6.0,

6.5, 7.0, 7.5, 8, 9, 10, 11, 12, 13, 14,

15, and 16

TRUE, FALSE

through

Figure

Functional Description

Values

39d.

XC3S1600E-5FG320C Xilinx Inc, XC3S1600E-5FG320C Datasheet - Page 48

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