TMS320F2809, TMS320F2808, TMS320F2806
TMS320F2802, TMS320F2801, UCD9501
TMS320C2802, TMS320C2801, and TMS320F2801x DSPs
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SPRS230H–OCTOBER 2003–REVISED JUNE 2006
6.8.4 Low-Power Mode Wakeup Timing
Table 6-16 shows the timing requirements, Table 6-17 shows the switching characteristics, and
Figure 6-11 shows the timing diagram for IDLE mode.
Table 6-16. IDLE Mode Timing Requirements(1)
MIN NOM
MAX
UNIT
Without input qualifier
With input qualifier
2tc(SCO)
5tc(SCO) + tw(IQSW)
tw(WAKE-INT) Pulse duration, external wake-up signal
cycles
(1) For an explanation of the input qualifier parameters, see Table 6-15.
Table 6-17. IDLE Mode Switching Characteristics(1)
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
Delay time, external wake signal to
(2)
program execution resume
Without input qualifier
With input qualifier
Without input qualifier
With input qualifier
Without input qualifier
With input qualifier
20tc(SCO)
20tc(SCO) + tw(IQSW)
1050tc(SCO)
cycles
cycles
cycles
•
•
•
Wake-up from Flash
Flash module in active state
–
td(WAKE-IDLE)
Wake-up from Flash
Flash module in sleep state
–
1050tc(SCO) + tw(IQSW)
20tc(SCO)
Wake-up from SARAM
20tc(SCO) + tw(IQSW)
(1) For an explanation of the input qualifier parameters, see Table 6-15.
(2) 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.
t
d(WAKE−IDLE)
Address/Data
(internal)
XCLKOUT
t
w(WAKE−INT)
(A)
WAKE INT
A. WAKE INT can be any enabled interrupt, WDINT, XNMI, or XRS.
Figure 6-11. IDLE Entry and Exit Timing
Table 6-18. STANDBY Mode Timing Requirements
TEST CONDITIONS
MIN
NOM
MAX
UNIT
Without input qualification
With input qualification(1)
3tc(OSCCLK)
Pulse duration, external
wake-up signal
tw(WAKE-INT)
cycles
(2 + QUALSTDBY) * tc(OSCCLK)
(1) QUALSTDBY is a 6-bit field in the LPMCR0 register.
Electrical Specifications
105