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100

WAKE INT

(see Note B)

XCLKOUT

(see Note A)

A0−A15

d(WAKE−IDLE)

w(WAKE−INT)

SM320F2812-HT

SGUS062A–JUNE 2009 –REVISED APRIL 2010

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6.15 Low-Power Mode Wakeup Timing

Table 6-10 is also the IDLE Mode Wake-Up Timing Requirements table.

Table 6-10. IDLE Mode Switching Characteristics

(1)

PARAMETER TEST CONDITIONS MIN TYP MAX UNIT

Without input qualifier 2 x t

c(SCO)

Cycles

Pulse duration, external wake-up

w(WAKE-INT)

signal

With input qualifier 1 × t

c(SCO)

+ IQT

(2)

Cycles

Delay time, external wake signal

to program execution resume

(3)

–Wake-up from Flash

Without input qualifier 8 × t

c(SCO)

Cycles

–Flash module in active state

– Wake-up from Flash

With input qualifier 8 × t

c(SCO)

+ IQT

(2)

Cycles

–Flash module in active state

d(WAKE-IDLE)

–Wake-up from Flash

Without input qualifier 1050 × t

c(SCO)

Cycles

–Flash module in sleep state

–Wake-up from Flash

With input qualifier 1050 × t

c(SCO)

+ IQT

(2)

Cycles

–Flash module in sleep state

–Wake-up from SARAM Without input qualifier 8 × t

c(SCO)

Cycles

–Wake-up from SARAM With input qualifier 8 × t

c(SCO)

+ IQT

(2)

Cycles

(1) Not production tested.

(2) Input Qualification Time (IQT) = [5 × QUALPRD × 2] × t

c(SCO)

(3) This is the time taken to begin execution of the instruction that immediately follows the IDLE instruction. Execution of an ISR (triggered

by the wake-up) signal involves additional latency.

A. XCLKOUT = SYSCLKOUT

B. WAKE INT can be any enabled interrupt, WDINT, XNMI, or XRS.

Figure 6-13. IDLE Entry and Exit Timing

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