SM320F2812-HT Datasheet, PDF(121/155 Page) Texas Instruments

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SM320F2812-HT Datasheet, PDF (121/155 Pages) Texas Instruments – Digital Signal Processor

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SM320F2812-HT

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SGUS062A â JUNE 2009 â REVISED APRIL 2010

6.22 XINTF Signal Alignment to XCLKOUT

For each XINTF access, the number of lead, active, and trail cycles is based on the internal clock

XTIMCLK. Strobes such as XRD, XWE, and zone chip-select (XZCS) change state in relationship to the

rising edge of XTIMCLK. The external clock, XCLKOUT, can be configured to be either equal to or

one-half the frequency of XTIMCLK.

For the case where XCLKOUT = XTIMCLK, all of the XINTF strobes changes state with respect to the

rising edge of XCLKOUT. For the case where XCLKOUT = one-half XTIMCLK, some strobes change state

either on the rising edge of XCLKOUT or the falling edge of XCLKOUT. In the XINTF timing tables, the

notation XCOHL is used to indicate that the parameter is with respect to either case; XCLKOUT rising

edge (high) or XCLKOUT falling edge (low). If the parameter is always with respect to the rising edge of

XCLKOUT, the notation XCOH is used.

For the case where XCLKOUT = one-half XTIMCLK, the XCLKOUT edge with which the change is aligned

can be determined based on the number of XTIMCLK cycles from the start of the access to the point at

which the signal changes. If this number of XTIMCLK cycles is even, the alignment is with respect to the

rising edge of XCLKOUT. If this number is odd, then the signal changes with respect to the falling edge of

XCLKOUT. Examples include the following:

â¢ Strobes that change at the beginning of an access always align to the rising edge of XCLKOUT. This is

because all XINTF accesses begin with respect to the rising edge of XCLKOUT.

Examples:

XZCSL

XRNWL

Zone chip-select active low

XR/W active low

â¢ Strobes that change at the beginning of the active period aligns to the rising edge of XCLKOUT if the

total number of lead XTIMCLK cycles for the access is even. If the number of lead XTIMCLK cycles is

odd, then the alignment is with respect to the falling edge of XCLKOUT.

Examples:

XRDL

XWEL

XRD active low

XWE active low

â¢ Strobes that change at the beginning of the trail period aligns to the rising edge of XCLKOUT if the

total number of lead + active XTIMCLK cycles (including hardware waitstates) for the access is even. If

the number of lead + active XTIMCLK cycles (including hardware waitstates) is odd, then the alignment

is with respect to the falling edge of XCLKOUT.

Examples:

XRDH

XWEH

XRD inactive high

XWE inactive high

â¢ Strobes that change at the end of the access aligns to the rising edge of XCLKOUT if the total number

of lead + active + trail XTIMCLK cycles (including hardware waitstates) is even. If the number of lead +

active + trail XTIMCLK cycles (including hardware waitstates) is odd, then the alignment is with respect

to the falling edge of XCLKOUT.

Examples:

XZCSH

XRNWH

Zone chip-select inactive high

XR/W inactive high

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Electrical Specifications 121

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