66.3.2.5 Low-power Mode Summary Table

The modes detailed above are the main low-power modes. Each part can be set to on or off separately and wake-up sources can be configured individually. The table below gives a summary of the low-power mode configurations.

Table 66-11. Low-power Mode Configuration Summary
Submode Low-power Mode
Backup Ultra-low-power Idle
Self-refresh ULP0 ULP1
64 kHz RC Oscillator, 32 kHz Oscillator, RTC, Backup Memory and Registers, POR ON
12 MHz RC Oscillator OFF ON
VDDCORE Regulator OFF ON
Core OFF (not powered) Powered (not clocked)
Memory, Peripherals OFF (not powered) Powered (512 Hz) Powered 
(not clocked) Powered (clocked)
Mode Entry SHDWC, FLEXCOM, Asynchronous Partial Wake-Up DDR in Self-refresh,SHDWC DDR in Self-refresh, Frequency reduced in PMC, WFI DDR in Self-refresh, CKGR_MOR.WAIT-MODE=1 DDR in Self-refresh, WFI
Potential Wake-up Sources Refer tp 66.3.2.1 Backup Mode Backup mode sources Any interrupt Refer to 66.3.2.3.2 ULP1 Mode Any interrupt
Core at Wake-up Reset Clocked back at 512 Hz Clocked back at 12 MHz Clocked back at full speed
PIO State While in Low-power Mode Reset Previous state saved
PIO State at Wake-up Inputs with pull-ups Unchanged
Consumption(2) IVDDBU= 4.5 μA typ(3)
at 25°C/3.0V IVDDBU= 4.5 μA typ(3)
at 25°C/3.0V

IVDDIODDR = 40 μA

0.21 mA at 25°C/1.1V

0.27 mA at 25°C/1.2V

0.17 mA at 25°C/1.1V

0.27 mA at 25°C/1.2V

28 mA at 25°C/1.2V(4)
Wake-up Time(1) Start-up time Start-up time 300 ms 15 μs 800 ns at 498 MHz
Note:
  1. When considering wake-up time, the time required to start the PLL is not taken into account. Once started, the device works with the main oscillator. The user has to add the PLL start-up time if it is needed in the system. The wake-up time is defined as the time taken for wake-up until the first instruction is fetched.
  2. The external loads on PIOs are not taken into account in the calculation.
  3. Total current consumption.
  4. Dynamic Clock Gating enabled (L2CC_POWCR.DCKGATEN = 1).