JAJSGF4F November 2012 – September 2021 TMS320F28050 , TMS320F28051 , TMS320F28052 , TMS320F28052F , TMS320F28052M , TMS320F28053 , TMS320F28054 , TMS320F28054F , TMS320F28054M , TMS320F28055
PRODUCTION DATA
Table 8-22 summarizes the various modes.
MODE | LPMCR0(1:0) | OSCCLK | CLKIN | SYSCLKOUT | EXIT(1) |
---|---|---|---|---|---|
IDLE | 00 | On | On | On | XRS, CPU-watchdog interrupt, any enabled interrupt |
STANDBY | 01 | On (CPU-watchdog still running) | Off | Off | XRS, CPU-watchdog interrupt, GPIO Port A signal, debugger(2) |
HALT(3) | 1X | Off (on-chip crystal oscillator and PLL turned off, zero-pin oscillator and CPU-watchdog state dependent on user code.) | Off | Off | XRS, GPIO Port A signal, debugger(2), CPU-watchdog |
The various low-power modes operate as follows:
IDLE Mode: | This mode is exited by any enabled interrupt 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: | Any GPIO port A signal (GPIO[31:0]) can wake the device from STANDBY mode. The user must select which signals will wake the device in the GPIOLPMSEL register. The selected signals are also qualified by the OSCCLK before waking the device. The number of OSCCLKs is specified in the LPMCR0 register. | |
HALT Mode: | CPU-watchdog, XRS, and any GPIO port A signal (GPIO[31:0]) can wake the device from HALT mode. The user selects the signal in the GPIOLPMSEL register. |
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 in when the IDLE instruction was executed. For more information, see the System Control and Interrupts chapter of the TMS320x2805x Real-Time Microcontrollers Technical Reference Manual.