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307 lines
15 KiB
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307 lines
15 KiB
Plaintext
Audio IRIG Receiver for Precision Timekeeping
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Revised 20 September 1993
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Note: This information file is included in both the BSD audio driver
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distribution (bsd_audio.tar.Z) and NTP Version 3 distribution
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(xntp3.tar.Z) as the file README.irig. Both distributions can be
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obtained via anonymous ftp from louie.udel.edu in the directory pub/ntp.
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1. Introduction
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This software distribution includes modifications to the BSD audio
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driver for the Sun SPARCstation written by Van Jacobson and
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collaborators at Lawrence Berkeley National Laboratory. The
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modifications provide for the connection of a standard Inter-Range
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Instrumentation Group (IRIG) timecode signal generator and the decoding
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of the signal to produce data sufficient to synchronize a host clock to
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the IRIG signal. There are several timing receivers now on the market
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that can produce IRIG signals, including those made by Austron,
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TrueTime, Odetics and Spectracom, among others. These data can be used
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to precisely synchronize the host computer clock to within a few
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microseconds without requiring level converters or pulse generators
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necessary with the one-pulse-per-second signals also produced by these
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receivers. The current implementation of the Network Time Protocol
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Version 3 supports the modified BSD driver when installed in the SunOS
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4.1.x kernel.
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The specific IRIG signal format supported by the driver is designated
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IRIG-B. It consists of an amplitude-modulated 1000-Hz sinewave, where
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each symbol is encoded as ten full carrier cycles, or 10 ms in duration.
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The symbols are distinguished using a pulse-width code, where 2 ms
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corresponds to logic zero, 5 ms to logic one and 8 ms to a position
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identifier used for symbol synchronization. The complete IRIG-B message
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consists of a frame of ten fields, each field consisting of a nine
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information symbols followed by a position identifier for a total frame
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duration of one second. The first symbol in the frame is also a position
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identifier to facilitate frame synchronization.
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The IRIG-B signal encodes the day of year and time of day in binary-
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coded decimal (BCD) format, together with a set of control functions,
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which are not used by the driver, but included in the raw binary
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timecode. Either the BCD timecode or the combined raw timecode and BCD
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timecode can be returned in response to a read() system call. The BCD
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timecode is in handy ASCII format: "ddd hh:mm:ss*" for convenience in
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client programs. In this format the "*" status character is " " when the
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driver is operating normally and "?" when errors may be present (see
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below). In order to reduce residual errors to the greatest extent
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possible, the driver computes a timestamp based on the value of the
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kernel clock at the on-time epoch of the IRIG-B signal. In addition, the
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driver automatically adjusts for slowly varying amplitude levels of the
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IRIG-B signal and suppresses noise transients.
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In operation the IRIG driver interprets the IRIG-B signal in real time,
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synchronizes to the signal, demodulates the data bits and prepares the
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data to be read later. At the on-time epoch a timestamp is captured from
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the kernel clock and adjusted for the phase of the IRIG carrier signal
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relative to the 8-kHz codec sample clock. When a client program issues a
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read() request, the most recent timecode data, including a status byte
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and the corrected timestamp, are stored in a structure and returned to
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the caller. Depending on the frequency with which the driver is called,
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this may result in old data or duplicate data or even invalid data,
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should the driver be called before it has computed its first timestamp.
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In practice, the resulting ambiguity causes few problems. The caller
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converts the ASCII timecode returned by a read() system call to Unix
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timeval format and subtracts it from the kernel timestamp provided by
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the driver. The result is an adjustment that can be subtracted from the
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kernel time, as returned in a gettimeofday() call, for example, to
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correct for the deviation between IRIG time and kernel time. The result
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can always be relied on to within plus/minus 128 microseconds, the audio
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codec sampling interval, and ordinarily to within a few microseconds, as
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determined by the interpolation algorithm.
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2. Programming Interface
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The IRIG driver modifications are integrated in the BSD audio driver
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bsd_audio.c without affecting its usual functions in transmitting and
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receiving ordinary speech, except when enabled by specific ioctl()
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system calls. However, the driver cannot be used for both speech and
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IRIG signals at the same time. Once activated by a designated ioctl()
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call, the driver remains active until it is explicitly deactivated by
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another ioctl() call. This allows applications to configure the audio
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device and pass the pre-configured driver to other applications. Since
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the driver is currently only a receiver, it does not affect the
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operation of the BSD audio output driver.
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Data are read using the standard read() system call. Since the output
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formats have constant lengths, the application receives the data into a
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fixed-length buffer or structure. The read() call never blocks; it
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simply returns the most recent IRIG data received during the last
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second. It may happen that, due to unavoidable race conditions in the
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kernel, data for other than the most recent second are returned. The
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driver's internal data structure is updated as an atomic unit; thus, the
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entire structure is valid, even if it contains old data. This should
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cause no problems, since in the intended application the driver is
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called at regular intervals by a time-synchronization daemon such as
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NTP. The daemon can determine the validity of the time indication by
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checking the timecode or status byte returned with the data.
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The header file bsd_audioirig.h defines the irig_time structure and
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ioctl() codes used by the driver. Following are those codes specific to
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the IRIG function of the driver. Unless indicated otherwise, the (third)
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argument of the ioctl() system call points to an integer or string.
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AUDIO_IRIG_OPEN
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This command activates the IRIG receiver. The audio driver must be
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opened with this command before other commands can be issued. The
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argument is ignored. When the IRIG receiver is initialized, all
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internal data are purged and any buffered data are lost.
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AUDIO_IRIG_CLOSE
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This command deactivates the IRIG receiver. The argument is
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ignored. The buffers are purged and any buffered time data are
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lost. The original BSD audio driver functions are enabled and it
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resumes operating normally.
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AUDIO_IRIG_SETFORMAT
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The argument is a pointer to an integer designating the output
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format for the IRIG data. There are currently two formats defined,
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0 (default) and 1. If an invalid format is selected, the default
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format is used.
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The data returned by a read() system call in format 0 is a character
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string in the format "ddd hh:mm:ss*\n", which consists of 13 ASCII
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characters followed by a newline terminator for a total of 14
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characters. The "*" status character is an ASCII space " " if the status
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byte determined by the driver is zero and "?" if not. This format is
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intended to be used with simple user programs that care only about the
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time to the nearest second.
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The data returned by a read() system call in format 1 is a structure
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defined in the bsd_audioirig.h header file:
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struct irig_time {
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struct timeval stamp; /* timestamp */
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u_char bits[13]; /* 100 irig data bits */
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u_char status; /* status byte */
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char time[14]; /* time string */
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};
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The irig-time.stamp is a pair of 32-bit longwords in Unix timeval
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format, as defined in the sys/time.h header file. The first word is the
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number of seconds since 1 January 1970, while the second is the number
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of microseconds in the current second. The timestamp is captured at the
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most recent on-time instant of the IRIG timecode and applies to all
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other values returned in the irig_time structure.
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The irig_time.bits[13] is a vector of 13 bytes to hold the 100-bit,
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zero-padded raw binary timecode, packed 8 symbols per byte. The symbol
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encoding maps IRIG one to 1 and both IRIG zero and IRIG position
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identifier to 0. The order of encoding is illustrated by the following
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diagram (the padding bits are represented by xxxx, which are set to
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zero):
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IRIG symbol number 00000000001111111111 . . . 8888889999999999xxxx
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01234567890123456789 . . . 4567890123456789xxxx
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-----------------------------------------------
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bits byte number <--00--><--01--><---- ----><--11--><--12-->
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bits bit in byte 01234567012345670123 . . . 45670123456701234567
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The irig_time.status is a single byte with bits defined in the
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bsd_audioirig.h header file. In ordinary operation all bits of the
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status byte are zero and the " " status character is set in the ASCII
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timecode. If any of these bits are nonzero, the "?" status character is
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set in the ASCII timecode.
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AUDIO_IRIG_BADSIGNAL
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The signal amplitude is outside tolerance limits, either in
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amplitude or modulation depth. The indicated time may or may not be
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in error. If the signal is too high, it may be clipped by the
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codec, so that the pulse width cannot be reliably determined. If
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too low, it may be obscured by noise. The nominal expectation is
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that the peak amplitude of the signal be maintained by the codec
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AGC at about 10 dB below the clipping level and that the modulation
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index be at least 0.5 (6 dB).
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AUDIO_IRIG_BADDATA
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An invalid hex code (A through F) has been found where BCD data is
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expected. The ASCII representation of the invalid code is set to
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"?". Errors of this type are most likely due to noise on the IRIG
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signal due to ground loops, coupling to other noise sources, etc.
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AUDIO_IRIG_BADSYNC
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A code element has been found where a position identifier should be
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or a position identifier has been found where a code element should
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be. The time is meaningless and should be disregarded. Errors of
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this type can be due to severe noise on the IRIG signal due to
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ground loops, coupling to other noise sources, etc., or during
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initial acquisition of the signal.
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AUDIO_IRIG_BADCLOCK
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Some IRIG timecode generators can indicate whether or not the
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generator is operating correctly or synchronized to its source of
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standard time using a designated field in the raw binary timecode.
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Where such information is available and the IRIG decoder can detect
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it, this bit is set when the generator reports anything except
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normal operating conditions.
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AUDIO_IRIG_OLDDATA
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The IRIG time has not changed since the last time it was returned
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in a read() call. This is not normally considered an error, unless
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it persists for longer than a few seconds, in which case it
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probably indicates a hardware problem.
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The irig_time.time[14] vector is a character string in the format "ddd
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hh:mm:ss*\0", which consists of 13 ASCII characters followed by a zero
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terminator. The "*" status character is an ASCII space " " if the status
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byte is zero and "?" if not. This format is identical to format 0,
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except that in format 1 the time string is null-terminated.
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2.1. Programming Example
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The following pseudo-code demonstrates how the IRIG receiver may be used
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by a simple user program. Of course, real code should include error
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checking after each call to ensure the driver is communicating properly.
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It should also verify that the correct fields in the structure are being
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filled by the read() call.
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include "bsd_audioirig.h"
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int format = 1;
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struct irig_time it;
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Audio_fd = open("/dev/audio", O_RDONLY);
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ioctl(Audio_fd, AUDIO_IRIG_OPEN, NULL);
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ioctl(Audio_fd, AUDIO_IRIG_SETFORMAT,&format);
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while (condition)
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read(Audio_fd, &it, sizeof(it);
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printf("%s\n", it.time);
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ioctl(Audio_fd, AUDIO_IRIG_CLOSE, NULL);
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close(Audio_fd);
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3. Implementation and Configuration Notes
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The signal level produced by most IRIG-equipped radios is on the order
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of a few volts peak-peak, which is far larger than the audio codec can
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accept; therefore, an attenuator in the form of a voltage divider is
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needed. The codec can handle IRIG signals at the microphone input from
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4.2mV to 230mV peak-peak. A suitable attenuator conists of a series-
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connected 100K-Ohm resistor at the input and a parallel-connected 1K-Ohm
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resistor at the output, both contained along with suitable connectors in
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a small aluminum box. The exact values of these resistors are not
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critical, since the IRIG driver includes an automatic level-adjustment
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capability.
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For the most accurate time using the IRIG signal and a particular radio,
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it may be necessary to adjust the time1 parameter of the fudge command
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to compensate for the codec delay and any additional delay due to IRIG
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processing in the radio itself. Since the codec samples at an 8-kHz
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rate, the average delay is about 62 usec; however, the delays due to the
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radios and IRIG signals themselves can vary. For instance, in the
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Austron recievers the IRIG delay is essentially zero, while in the
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Spectracom receivers the delay is about 240 usec relative to the 1-pps
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signal. In addition, the poll interval can be reduced from the usual 64
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seconds to 16 seconds to reduce wander of the local hardware clock.
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Finally, the prefer parameter can be used to bias the clock-selection
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algorithm to favor the IRIG time, which is ordinarily the best time
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available. For example, the following two lines in the NTP configuration
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file ntp.conf are appropriate for the Spectracom Netclock/1 WWVB
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Synchronized Clock with IRIG Option:
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server 127.127.6.0 prefer minpoll 4 maxpoll 4 # irig audio decoder
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fudge 127.127.6.0 time1 0.0005
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The time1 value of .0005 s (500 usec) was determined by actual
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measurement. Since the IRIG delay in Austron receivers is essentially
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zero, the fudge command is not necessary with these receivers. The
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correct value in case of other radios may have to be determined by
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actual measurement. A convenient way of doing this is to configure the
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PPSPPS feature in the NTP Version 3 distribution and adjust time1 until
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the 1-pps signal and IRIG signal both show the same offset.
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The modified BSD driver includes both the modified driver itself
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bsd_audio.c and the IRIG header file bsd_audioirig.h, as well as
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modified header files bsd_audiovar.h and bsd_audioio.h. The driver is
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installed in the same way as described in the BSD driver documentation,
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with the addition of the following define in the kernel configuration
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file:
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options AUDIO_IRIG # IRIG driver
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This causes the IRIG code to be included in the BSD driver, as well as a
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C-coded codec interrupt routine which replaces the assembly-coded
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routine and provides the IRIG functionality. While the C-coded routine
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is somewhat slower than the assembly-coded routine, the extra overhead
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is not expected to be significant. Note that the IRIG driver calls the
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kernel routine microtime() as included in the ppsclock directory of the
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NTP Version 3 distribution xntp3. It is highly recommended that this
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routine be installed in the kernel configuration as well. The
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instructions for doing this are contained in the ppsclock directory of
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the xntp3 distribution.
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Roy LeCates <lecates@udel.edu> and David Mills <mills@udel.edu>
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Electrical Engineering Department
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University of Delaware
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Newark, DE 19716
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302 831 8247 fax 302 831 4316
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24 August 1993
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