nuttx/drivers/power/Kconfig

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#
# For a description of the syntax of this configuration file,
# see the file kconfig-language.txt in the NuttX tools repository.
#
menuconfig PM
bool "Power management (PM) system"
default n
---help---
Power management (PM) system. It consists of an OS interface
to board logic which can be used to obtain a recommended
power level according to a power management policy set by the
currently chosen PM governor. It is also used by drivers which
can allow or not a power level to be changed or not.
if PM
config PM_NDOMAINS
int "Number of PM activity domains"
default 1
---help---
Defines the number of "domains" that the PM system can control.
For example, you may want to separately manage the power from the
Network domain, shutting down the network when it is not be used,
from the UI domain, shutting down the UI when it is not in use.
config PM_PROCFS
bool "PM proc fs support"
---help---
Enable procfs for pm.
config PM_GOVERNOR_GREEDY
bool "Greedy governor"
---help---
This governor simply suggests the lowest-possible power state,
considering any states locked by calls to pm_stay() (accessible
via BOARDIOC_PM_STAY boardctl calls).
config PM_GOVERNOR_ACTIVITY
bool "Activity based"
---help---
The activity based governor receives activity reports from drivers
in units which are accumulated during a certain time slice interval.
The governor will then switch between power states given a set of
activity thresholds for each state.
menu "Governor options"
config PM_GOVERNOR_EXPLICIT_RELAX
int "Stay initially at PM_NORMAL"
default 0
---help---
If you boot into NSH, especially using the greedy PM governor, since
NuttX will almost immediately go idle (when waiting for a prompt), the
lowest possible run-level will be selected, which may not be desirable.
This is not a problem if you directly run you application at boot, which
can hold off power levels using pm_stay() (via boardctl).
This option will initialize all run levels as if
pm_stay/pm_staytimeout() were to be called once for each.
if set to -1, that means pm_stay(), so that your application
needs to call pm_relax() (via boardctl()) for every run-level you
wish to allow to enter.
if set to timeout (unit: ms), that means pm_staytimeout(ms).
pm_relax() will be auto called after timeout.
if PM_GOVERNOR_ACTIVITY
config PM_GOVERNOR_SLICEMS
int "PM time slice (msec)"
default 100
---help---
The power management module collects activity counts in time slices.
At the end of the time slice, the count accumulated during that
interval is applied to an averaging algorithm to determine the
activity level.
CONFIG_PM_GOVERNOR_SLICEMS provides the duration of that time slice in
milliseconds. Default: 100 Milliseconds
config PM_GOVERNOR_MEMORY
int "PM memory (msec)"
default 2
range 1 6
---help---
The averaging algorithm is simply: Y = (An*X + SUM(Ai*Yi))/SUM(Aj),
where i = 1..n-1 and j= 1..n, n is the length of the "memory",
Ai is the weight applied to each value, and X is the current
activity. These weights may be negative and a limited to the
range of int16_t.
CONFIG_PM_GOVERNOR_MEMORY provides the memory for the algorithm.
Default: 2
CONFIG_PM_GOVERNOR_COEFn provides weight for each sample. Default: 1
Setting CONFIG_PM_GOVERNOR_MEMORY=1 disables all smoothing.
config PM_GOVERNOR_COEFN
int "PM coefficient"
default 1
---help---
See help associated with CONFIG_PM_GOVERNOR_MEMORY.
config PM_GOVERNOR_COEF1
int "PM coefficient 1"
default 1
---help---
See help associated with CONFIG_PM_GOVERNOR_MEMORY.
config PM_GOVERNOR_COEF2
int "PM coefficient 2"
default 1
---help---
See help associated with CONFIG_PM_GOVERNOR_MEMORY
Ignored if CONFIG_PM_GOVERNOR_MEMORY <= 2
config PM_GOVERNOR_COEF3
int "PM coefficient 3"
default 1
---help---
See help associated with CONFIG_PM_GOVERNOR_MEMORY
Ignored if CONFIG_PM_GOVERNOR_MEMORY <= 3
config PM_GOVERNOR_COEF4
int "PM coefficient 4"
default 1
---help---
See help associated with CONFIG_PM_GOVERNOR_MEMORY
Ignored if CONFIG_PM_GOVERNOR_MEMORY <= 4
config PM_GOVERNOR_COEF5
int "PM coefficient 5"
default 1
---help---
See help associated with CONFIG_PM_GOVERNOR_MEMORY
Ignored if CONFIG_PM_GOVERNOR_MEMORY <= 5
config PM_GOVERNOR_IDLEENTER_THRESH
int "PM IDLE enter threshold"
default 1
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: <=1: Essentially no activity
config PM_GOVERNOR_IDLEEXIT_THRESH
int "PM IDLE exit threshold"
default 2
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: >=2: Active
config PM_GOVERNOR_IDLEENTER_COUNT
int "PM IDLE enter count"
default 30
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: Thirty IDLE slices to enter IDLE mode from normal
config PM_GOVERNOR_STANDBYENTER_THRESH
int "PM STANDBY enter threshold"
default 1
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: <=1: Essentially no activity
config PM_GOVERNOR_STANDBYEXIT_THRESH
int "PM STANDBY exit threshold"
default 2
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: >=2: Active
config PM_GOVERNOR_STANDBYENTER_COUNT
int "PM STANDBY enter count"
default 50
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: Fifty IDLE slices to enter STANDBY mode from IDLE
config PM_GOVERNOR_SLEEPENTER_THRESH
int "PM SLEEP enter threshold"
default 1
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: <=1: Essentially no activity
config PM_GOVERNOR_SLEEPEXIT_THRESH
int "PM SLEEP exit threshold"
default 2
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: >=2: Active
config PM_GOVERNOR_SLEEPENTER_COUNT
int "PM SLEEP enter count"
default 70
---help---
State changes then occur when the weight activity account crosses
threshold values for certain periods of time (time slice count).
CONFIG_PM_xxxENTER_THRESH is the threshold value for entering state xxx.
CONFIG_PM_xxxENTER_COUNT is the count for entering state xxx.
Resuming to normal state, on the other hand, is usually immediate and
controlled by wakeup conditions established by the platform.
Default: Fifty IDLE slices to enter SLEEP mode from STANDBY
endif # PM_GOVERNOR_ACTIVITY
endmenu
endif # PM
config DRIVERS_POWERLED
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bool "High Power LED driver"
default n
---help---
Enables building of an powerled upper half driver.
menuconfig DRIVERS_SMPS
bool "Switched-Mode Power Supply (SMPS)"
default n
---help---
Enables building of an SMPS upper half driver.
if DRIVERS_SMPS
config SMPS_HAVE_OUTPUT_VOLTAGE
bool "Have Output Voltage"
default n
config SMPS_HAVE_OUTPUT_CURRENT
bool "Have Output Current"
default n
config SMPS_HAVE_OUTPUT_POWER
bool "Have Output Power"
default n
config SMPS_HAVE_INPUT_VOLTAGE
bool "Have Input Voltage"
default n
config SMPS_HAVE_INPUT_CURRENT
bool "Have Input Current"
default n
config SMPS_HAVE_INPUT_POWER
bool "Have Input Power"
default n
config SMPS_HAVE_EFFICIENCY
bool "Have Power Efficiency"
default n
endif
menuconfig POWER
bool "Power Management Support"
default n
---help---
Enable building of power-related devices (battery monitors, chargers,
etc).
if POWER
config REGULATOR
bool "Regulator core driver support"
default n
---help---
The regulator core driver implements the uper layer framework that the lower
layer driver can register with, and the common regulator APIs that are easy
for other drivers to call for the control of their power supply.
config REGULATOR_RPMSG
bool "Regulator rpmsg driver support"
depends on RPTUN
default n
---help---
The rpmsg regulator driver implements the common regulator APIs, inside which
the regulator operations are sent from the client to the remote device via
the rpmsg channel. The remote device(namely server) is responsible for
the parse and the completion.
if REGULATOR
config REGULATOR_GPIO
bool "Regulator gpio driver support"
default n
---help---
The regulator gpio driver implements the lower regulator ops that use gpio to
control to regulator.
endif
config BATTERY_CHARGER
bool "Battery Charger support"
default n
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config BQ2425X
bool "BQ2425X Battery charger support"
default n
select I2C
select I2C_BQ2425X
depends on BATTERY_CHARGER
depends on ALLOW_BSD_COMPONENTS
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---help---
The BQ24250/BQ24251 are battery charger for lithium-ion batteries.
config BQ2429X
bool "BQ2429X Battery charger support"
default n
select I2C
select I2C_BQ2429X
depends on BATTERY_CHARGER
---help---
The BQ24296/BQ24297/BQ24296M are battery charger for lithium-ion batteries.
config AXP202
bool "AXP202 Battery charger support"
default n
select I2C
depends on BATTERY_CHARGER
---help---
axp202 are battery charger for lithium-ion batteries.
config AXP202_DC2_VOLTAGE
int "AXP202 DC2 output voltage"
default 0
depends on AXP202
---help---
AXP202 DC2 output voltage. 0 is disable, enable range: [700, 2275] mV.
config AXP202_DC3_VOLTAGE
int "AXP202 DC3 output voltage"
default 3300
depends on AXP202
---help---
AXP202 DC3 output voltage. 0 is disable, enable range: [700, 3500] mV.
config AXP202_LDO2_VOLTAGE
int "AXP202 LDO2 output voltage"
default 0
depends on AXP202
---help---
AXP202 LDO2 output voltage. 0 is disable, enable range: [1800, 3300] mV.
config AXP202_LDO3_VOLTAGE
int "AXP202 LDO3 output voltage"
default 0
depends on AXP202
---help---
Enable LDO3 output voltage. 0 is disable, enable range: [700, 2275] mV.
config AXP202_LDO4_VOLTAGE
int "AXP202 LDO4 output voltage"
default 0
depends on AXP202
---help---
Enable LDO4 output voltage. 0 is disable, other value:
1250 1300 1400 1500 1600 1700 1800 1900
2000 2500 2700 2800 3000 3100 3200 3300 mV.
config MCP73871
bool "Microchip MCP73871 Battery charger support"
default n
depends on BATTERY_CHARGER
---help---
A simple driver to report MCP73871 status.
if BQ2429X
config DEBUG_BQ2429X
bool "BQ2429X Debug Features"
default n
---help---
Enable BQ2429X battery management debug features.
endif # BQ2429X
config BATTERY_GAUGE
bool "Battery Fuel Gauge support"
default n
config MAX1704X
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bool "MAX1704X Battery fuel gauge support"
default n
select I2C
select I2C_MAX1704X
depends on BATTERY_GAUGE
---help---
The MAX17040/MAX17041 are ultra-compact, low-cost, host-side fuel-gauge
systems for lithium-ion (Li+) batteries in handheld and portable equipment.
The MAX17040 is configured to operate with a single lithium cell and the
MAX17041 is configured for a dual-cell 2S pack.
config BQ27426
bool "BQ27426 Battery fuel gauge support"
default n
select I2C
depends on BATTERY_GAUGE
---help---
The bq27426 battery fuel gauge accurately predicts the battery capacity and other
operational characteristics of a single, Li-based, rechargeable cell.
It can be interrogated by a system processor to provide cell information,
such as state-of-charge (SOC).
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config I2C_BQ2425X
bool
default y if BQ2425X
config I2C_BQ2429X
bool
default y if BQ2429X
config I2C_AXP202
bool
default y if AXP202
config I2C_MAX1704X
bool
default y if MAX1704X
config BATTERY_MONITOR
bool "Battery Monitor/Management support"
default n
config BQ769X0
bool "BQ769X0 Battery monitor support"
default n
select I2C
select I2C_BQ769X0
depends on BATTERY_MONITOR
---help---
The BQ76920/BQ76930/BQ76940 provide monitoring, balancing, and
protection features for up to 15 cells in series.
config I2C_BQ769X0
bool
default y if BQ769X0
if BQ769X0
config BQ769X0_USE_INTERNAL_TS
bool "Use internal temperature sensor on BQ769X0"
default n
endif
endif # POWER