Power, Reset, and Clock Management
Table 8-13. Typical Power Modes (continued)
Power Modes
Application State
Power Domains, Clocks, and Voltage
Supply States
Deepsleep0
PD_PER peripheral and Cortex-A8/MPU
Power supplies:
register information will be lost. On-chip
All power supplies are ON.
peripheral register (context) information of
VDD_MPU = 0.95 V (nom)
PD-PER domain needs to be saved by
application to SDRAM before entering this
VDD_CORE = 0.95 V (nom)
mode. DDR is in self-refresh. For wakeup,
Clocks:
boot ROM executes and branches to
Main Oscillator (OSC0) = OFF
peripheral context restore followed by
All DPLLs are in bypass.
system resume.
Power domains:
PD_PER = OFF
PD_MPU = OFF
PD_GFX = OFF
PD_WKUP = ON
DDR is in self-refresh.
RTC-Only
RTC timer remains active and all other
Power supplies:
device functionality is disabled.
All power supplies are OFF except
VDDS_RTC.
VDD_MPU = 0 V
VDD_CORE = 0 V
Clocks:
Main Oscillator (OSC0) = OFF
Power domains:
All power domains are OFF.
8.1.4.3.1 Active
In Active mode, the supply to all voltage rails must be maintained. All power domains come up in ON state
and the device is fully functional.
8.1.4.3.2 Standby
The device can be placed in Standby mode to reduce power consumption during low activity levels. This
first level of power management allows you to maintain the device context for fast resume times. The main
characteristics of this mode which distinguish it from Active mode are:
•
All modules are clock gated except GPIOs
•
PLLs may be placed in bypass mode if downstream clocking does not require full performance
•
Voltage domains VDD_MPU and VDD_CORE voltage levels can be reduced to OPP50 levels because
the required performance of the entire device is reduced
•
MPU power domain (PD_MPU) is in OFF state
•
DDR memory is in low power self-refresh mode.
Further power reduction can be achieved in this mode if the RTC function is not required. See
, Internal RTC LDO.
The above conditions result in lower power consumption than Active mode but require the user to save the
MPU context to OCMC RAM or DDR to resume properly upon wakeup. Contents of the internal SRAM are
lost because PD_MPU is turned OFF. Wakeup in Standby mode is achieved using any GPIO. GPIO
wakeup is possible by switching the pad to GPIO mode and configuring the corresponding GPIO bank for
generating an interrupt to the MPUSS. Note that pads that do not have a GPIO muxmode (for example,
ADC or USB), cannot cause these wakeups. If additional or other wakeup sources are required, the
associated peripheral module clock and interconnect clock domain should remain enabled (this may
require the associated PLL to remain locked) and the module must be configured appropriately for wakeup
by configuring it to generate an interrupt to the MPUSS.
510
Power, Reset, and Clock Management (PRCM)
SPRUH73H – October 2011 – Revised April 2013
Copyright © 2011–2013, Texas Instruments Incorporated
