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UDCF(4)			  OpenBSD Programmer's Manual		       UDCF(4)

NAME
     udcf - Gude ADS Expert mouseCLOCK USB timedelta sensor

SYNOPSIS
     udcf* at uhub?

DESCRIPTION
     The udcf driver provides support for the Gude ADS Expert mouseCLOCK USB
     and the Expert mouseCLOCK USB II, receivers for the German DCF77 and the
     Swiss HBG time signal stations.  While receivers for the British MSF time
     signal station are also being made, udcf lacks support for them.

     udcf implements a timedelta sensor and the delta (in nanoseconds) between
     the received time information and the local time can be accessed through
     the sysctl(8) interface.  The clock type is indicated in the sensor
     description:

	   DCF77       German DCF77 time signal station (77.5 kHz longwave
		       transmitter located in Mainflingen near Frankfurt).

	   HBG	       Swiss HBG time signal station (75 kHz longwave
		       transmitter located in Prangins near Geneva).

	   Unknown     The clock type has not been determined.

     The quality of the timedelta is reported as the sensor status:

	   UNKNOWN     No valid time information has been received yet.

	   OK	       The time information is valid and the timedelta is safe
		       to use for applications like ntpd(8).

	   WARN	       The time information is still valid, but no new time
		       information has been decoded for at least 5 minutes due
		       to a reception or parity error.	The timedelta should
		       be used with care.

	   CRITICAL    No valid time information has been received for more
		       than 15 minutes since the sensor state degraded from OK
		       to WARN.	 This is an indication that hardware should be
		       checked to see if it is still functional.  The
		       timedelta will eventually degrade to a lie as all
		       computer internal clocks have a drift.

SEE ALSO
     intro(4), uhub(4), usb(4), ntpd(8), sysctl(8)

HISTORY
     The udcf driver first appeared in OpenBSD 4.0.

AUTHORS
     The udcf driver was written by Marc Balmer <mbalmer@openbsd.org>.

CAVEATS
     DCF77 uses a 77.5 kHz long wave radio signal transmitted from near
     Frankfurt, Germany.  Up to about 900 km, the radio signal can travel
     directly to the receiver, providing a linearly increasing time offset
     based on distance.	 Due to the curvature of the Earth, beyond this
     distance the signal must bounce off the lower ionosphere (residing at
     approximately 70 km elevation during the day, and 90 km at night), thus
     causing a non-linearly increasing time offset which can only be roughly
     calculated using trigonometry.  Since the distance and transmission
     geometry is not known, the clock receivers and udcf driver currently make
     no effort to calculate this offset.  We simply assume that the offset is
     small.

     In Germany, the train system uses DCF77 clocks.  As the distance from
     Frankfurt increases, trains can be expected to run later.

OpenBSD 4.9			 July 5, 2008			   OpenBSD 4.9

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