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Nyon Castle

Castles in VaudCultural property of national significance in the canton of VaudHistoric house museums in SwitzerlandMuseums in the canton of VaudNyon
Château de Nyon
Château de Nyon

Nyon Castle is a castle in the municipality of Nyon of the Canton of Vaud in Switzerland. It is a Swiss heritage site of national significance.

Excerpt from the Wikipedia article Nyon Castle (License: CC BY-SA 3.0, Authors, Images).

Geographical coordinates (GPS)

Latitude Longitude
N 46.38218 ° E 6.24063 °
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Address

Château de Nyon

Château de Nyon
1260
Vaud, Switzerland
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Phone number

call+41223164270

Website
chateaudenyon.ch

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Château de Nyon
Château de Nyon
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HBG (time signal)
HBG (time signal)

HBG was a low frequency time signal transmitter for the Swiss time reference system. It transmitted on 75 kHz with 20 kW power, and was located in Prangins, Switzerland. Due to the cost of urgently needed renovation for the ageing antennas, and the ease with which all existing users could switch to the DCF77 time signal, the Swiss Federal Government decided to shut down HBG at the end of 2011. HBG transmission ceased on New Year’s Day 2012 at 07:00:13.2 UTC.On 6 September 2012 at 12:02:00 UTC both antenna towers were demolished by controlled explosives.The HBG transmission format was very similar to DCF77. At the beginning of each second (with the exception of the 59th), the carrier signal was interrupted for a period of 0.1 s or 0.2 s, which corresponded to a binary "0" or "1". The transmission of the minute, hour, calendar date, day of the week, month and current year was achieved by means of a BCD code identical to that of DCF77. Like DCF77, the carrier was not interrupted during the last second of each minute. Differences from the DCF77 time code: The carrier frequency. Phase modulation was not included. Amplitude modulation was done by disabling the transmitter (0% amplitude) rather than reducing it to 15% amplitude as DCF77 does. Announcement bits warning of impending time zone changes or leap seconds were sent 12 hours in advance, rather than 1 hour. The first pulse of each minute was not a standard 0 bit as DCF77 sends. Instead, it was a double pulse, two 0.1 s interruptions separated by 0.1 s of carrier. A triple pulse signalled the start of a new hour, and a four-pulse signal was transmitted at noon and midnight.It is understood that this frequency is now available in Europe, as well as any other part of the world, for time signal dissemination.