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NTP Server Systems: How to Decoding the DCF-77 Time Signal

The DCF time and frequency radio transmission is broadcast from Frankfurt, Germany. The time signal can be utilised by computer timing equipment to provide a precise time reference. Network timing solutions, such as NTP server systems, which provide an accurate time reference for computer networks can utilise the signal to provide an accurate external source of time. This article describes how the DCF-77 signal can be decoded to provide an accurate time reference for NTP servers and other computer timing applications.

Before describing the format of the transmission, it's worth mentioning a little about the history of the transmitter. The German National Standard time and frequency radio broadcast, call sign DCF-77, has been in operation since 1959. The broadcast is currently operated by T-Systems, a division of the Deuche Telecom group. Precise timing information for the broadcast is generated from caesium atomic clocks maintained by the German National Physics Laboratory. The transmittor has a power rating of 50W, which can be received up to 1900 km from Frankfurt. Reception can easily be obtained throughout much of central and northwestern Europe. The transmission is broadcast as an amplitude-modulated, pulse-width encoded data signal. Precise timing information is continuously broadcast, repeated each minute. Data is broadcast as 59 pulses, one pulse each second, each pulse representing a data bit. Each pulse represents a data bit, either a binary one or binary zero. A one hundred millisecond pulse represents a binary zero, while a two hundred millisecond pulse represents a binary one. The pulses can be decoded at the end of the minute into date and time information.

Time and date information is encoded in the DCF-77 transmission as Binary Coded Decimal format. Data bits are encoded into the transmission as follows. Data bits in the range 1 to 14 are reserved for future developments. Bit 15 indicates the transmitter in current operation - primary transmitter or backup transmitter. Bit 16 represents the announcement of daylight saving change. Bit 17 indicates whether daylight saving is currently in use. Bit 18 indicates standard time and is the inverse of bit 17. Bit 19 indicates that an imminent leap second is to be inserted. Bit 20 indicates the start of time and date information. Bits 21-27 represent BCD encoded minutes. Bits 29-34 represent BCD encoded hours. Bits 36-41 represent BCD encoded day of month Bits 42-44 represent BCD encoded day of week Bits 45-49 represent BCD encoded month of the year. Bits 50-57 represent BCD encoded year. Finally, parity bits are inserted into the encoded data as follows. Parity bit 28 covers bits 21-27. Parity bit 35 covers bits 29-34. Parity bit 58 covers bits 36-57.

To summarise, the DCF-77 time transmission is a reliable and accurate source of time from NTP server systems and other computer timing applications. The signal can be generally be received indoors close to the NTP time server itself, thus reducing installations costs. Additionally, the straight-forward encoding of timing date within the transmission enables simple implementation into NTP server software. Indeed, the standard NTP server software distribution for Linux includes a reference clock driver for the DCF-77 signal.

Article Source: http://articles.directorygold.com

Dave Evans provides a technical authoring service for NTP Server and other computer network time synchronisation systems. These solutions provide precise time to network infrastructure. Click here, if you would like to find out more about SNTP and DCF-77 NTP Server systems.

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