Difference between revisions of "RTC"
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== Hardware == | == Hardware == | ||
| − | + | ===APF9328/APF27=== | |
No permanent RTC is present on the [[APF9328]]/[[APF27]] modules, but you can have one (as an option) on the development boards or add it yourself if you are an electrician (it is not so complex to add a DS1374 (with integrated quartz) on the I2C bus). Do not forget to provide the two power-supply (VCC and Vbackup)). | No permanent RTC is present on the [[APF9328]]/[[APF27]] modules, but you can have one (as an option) on the development boards or add it yourself if you are an electrician (it is not so complex to add a DS1374 (with integrated quartz) on the I2C bus). Do not forget to provide the two power-supply (VCC and Vbackup)). | ||
Currently only Maxim's DS1374 has been used but any I2C RTC, supported by Linux, should work the same way. | Currently only Maxim's DS1374 has been used but any I2C RTC, supported by Linux, should work the same way. | ||
| + | |||
| + | ===APF51=== | ||
| + | [[APF51]] module have an onboard PMIC with an integrated RTC. | ||
== Driver installation == | == Driver installation == | ||
| − | DS1374 is by default included in standard Armadeus Linux kernel. | + | ===APF9328/APF27=== |
| − | To check if your board (Linux) has correctly detected the RTC: | + | DS1374 is by default included in standard Armadeus Linux kernel. To check if your board (Linux) has correctly detected the RTC: |
<pre class="apf"> | <pre class="apf"> | ||
# dmesg | grep ds1374 | # dmesg | grep ds1374 | ||
Revision as of 13:15, 10 December 2010
On this page, you will find useful informations to use the Real Time Clock of your boards (if chip is mounted).
Contents
Hardware
APF9328/APF27
No permanent RTC is present on the APF9328/APF27 modules, but you can have one (as an option) on the development boards or add it yourself if you are an electrician (it is not so complex to add a DS1374 (with integrated quartz) on the I2C bus). Do not forget to provide the two power-supply (VCC and Vbackup)). Currently only Maxim's DS1374 has been used but any I2C RTC, supported by Linux, should work the same way.
APF51
APF51 module have an onboard PMIC with an integrated RTC.
Driver installation
APF9328/APF27
DS1374 is by default included in standard Armadeus Linux kernel. To check if your board (Linux) has correctly detected the RTC:
# dmesg | grep ds1374 ds1374-legacy 0-0068: chip found, driver version 1.0 ds1374-legacy 0-0068: rtc core: registered ds1374-legacy as rtc0 ds1374-legacy 0-0068: setting system clock to 1970-01-01 00:00:07 UTC (7)
Usage
 |
Note: We recommand to store time in UTC format in the RTC; that will ease the timezone/summer time handling. |
- From U-Boot there is a command date to read, reset, update the RTC.
BIOS> help date for more information BIOS> date reset to be done after battery exchange to remove message '''### Warning: RTC oscillator has stopped''' BIOS> date 013122302007 to set the date January 31th 2007 22h30.
- From Linux use the command hwclock to read, write, synchronize the RTC (here we pre-suppose that RTC is storing time in UTC format).
# hwclock --help # hwclock -r -u to read hardware clock and print result (localtime) # hwclock -s -u to set the system time from the hardware clock # hwclock -w -u to set the hardware clock to the current system time (UTC)
- and date to read and update system date and time while running:
# date --help for more information # date -R to read hardware clock and print result # date 013122302007 to sets the system date to january 31th 2007 22h30 (localtime)
- Then, when booting you will see something like this:
ds1374 0-0068: setting the system clock to 2007-09-09 17:35:51 (1189359351)
- TimeZone/Summer time handling can be configured in /etc/TZ:
# cat /etc/TZ CET-1DST,M3.5.0/2:00,M10.5.0/3:00
