JAJSHM4U April 2001 – July 2019 TMS320F2810 , TMS320F2811 , TMS320F2812
PRODUCTION DATA.
デバイスごとのパッケージ図は、PDF版データシートをご参照ください。
The low-power modes on F281x are similar to the 240x devices. Table 6-30 summarizes the various modes.
MODE | LPM[1:0] | OSCCLK | CLKIN | SYSCLKOUT | EXIT(1) |
---|---|---|---|---|---|
Normal | X,X | on | on | on | – |
IDLE | 0,0 | on | on | on(2) | XRS,
WDINT, Any Enabled Interrupt, XNMI, Debugger(3) |
STANDBY | 0,1 | on
(watchdog still running) |
off | off | XRS,
WDINT, XINT1, XNMI, T1/2/3/4CTRIP, C1/2/3/4/5/6TRIP, SCIRXDA, SCIRXDB, CANRX, Debugger(3) |
HALT | 1,X | off
(oscillator and PLL turned off, watchdog not functional) |
off | off | XRS,
XNMI, Debugger(3) |
The various low-power modes operate as follows:
IDLE Mode | This mode is exited by any enabled interrupt or an XNMI that is recognized by the processor. The LPM block performs no tasks during this mode as long as the LPMCR0(LPM) bits are set to 0,0. |
STANDBY Mode | All other signals (including XNMI) will wake the device from STANDBY mode if selected by the LPMCR1 register. The user will need to select which signal(s) will wake the device. The selected signal(s) are also qualified by the OSCCLK before waking the device. The number of OSCCLKs is specified in the LPMCR0 register. |
HALT Mode | Only the XRS and XNMI external signals can wake the device from HALT mode. The XNMI input to the core has an enable/disable bit. Hence, it is safe to use the XNMI signal for this function. |
NOTE
The low-power modes do not affect the state of the output pins (PWM pins included). They will be in whatever state the code left them when the IDLE instruction was executed.