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* '''RTC System Hardware clock''': system hardware clock is controlled by OMAP processors PMIC using its internal RTC peripheral. Every bootupRTC PMIC affords two behaviours:** '''RTC battery is not used''': PMIC RTC peripheral keeps hardware clock alive when OS isn't running and power source is active. If the power source fails, the default firmware copies the hardware PMIC RTC peripheral will lose its clock data from /dev/rtc to system clock data to .** '''RTC battery is used''': PMIC RTC peripheral keeps hardware clock up to datealive when OS isn't running and backup battery powers the backup state as far as the input voltage is high enough (at least 2 weeks into IGEPv2).
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|| [[Image:RTC diagram.png|800px|Block diagram from IGEP0033]]<br>
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= Requirements =
This How-to has been tested with an IGEPv2 RC Board (DM3730 and TPS65950), steps used below can be slightly different for other boards:
* IGEPv2 with its power supply
* [[IGEP firmware Yocto]]
* Network cablewith Internet acces
* PC
= Rectify clock drift=IGEP Boards use as a source clock an external 32,768 kHz crystal. This passive component can add clock drifts due: * General drift error* Ambient temperature drift error* Aging drift error* ...
<pre>ntpd -d -c /etc/ntp.conf -q</pre>===(alternative) ntpdate program===Ntpdate program is not installed into firmware by default, use zypper program to download and install the package:
* Uninstall ntp deamon:
<pre> zypper rm ntp</pre>
* Install ntpdate
<pre>zypper in ntpdate</pre> Once you installed the programfinished it, make sure that IGEP is connected to Internet.
* Synchronize system clock and hardware clockwith NTP server:
<pre> ntpdate pool.ntp.org; hwclock --systohc </pre>
* Compare offset between ntp server and your system clock:
<pre> ntpdate -q pool.ntp.org && date </pre> If the result is positive, it means that your system clock is delayed and viceversa.
=== ntpd deamon Calculate systematic clock error===Each IGEP Board has its own systematic clock error. To guess it, Can be helpful use [http://labs.isee.biz/index.php/How_to_adjust_Hardware_RTC_clock#ntpdate__program ntpdate program] to calculate systematic clock error added every day:
=== Calculate Rectify systematic clock error configuring PMIC RTC registers=======Overview====Now its time to compensated this delayed drift (+3.6 seconds/day) configuring PMIC RTC registers. The edited registers will be:
==== Overview Edit registers====Registers will be edited using the i2c-tools, these registers will be saved until RTC source is not active:
==== Edit registers Correct system clock====Hardware clock will be compensated automatically, to transfer hardware clock to system clock is necessary use hwclock command:
<pre> hwclock --hctosys</pre>