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12        <h3>NTP PARSE clock data formats</h3>
13        <p>The parse driver currently supports several clocks with different query mechanisms. In order for you to find a sample that might be similar to a clock you might want to integrate into parse i'll sum up the major features of the clocks (this information is distributed in the parse/clk_*.c and ntpd/refclock_parse.c files).</p>
14        <hr>
15        <h4>Meinberg clocks</h4>
16        <pre>
17Meinberg: start=&lt;STX&gt;, end=&lt;ETX&gt;, sync on start
18      pattern=&quot;\2D:  .  .  ;T: ;U:  .  .  ;    \3&quot;
19      pattern=&quot;\2  .  .  ;  ;   :  :  ;        \3&quot;
20      pattern=&quot;\2  .  .  ;  ;   :  :  ;    :  ;        ;   .         .       &quot;
21</pre>
22        <p>Meinberg is a German manufacturer of time code receivers. Those clocks have a pretty common output format in the stock version. In order to support NTP Meinberg was so kind to produce some special versions of the firmware for the use with NTP. So, if you are going to use a Meinberg clock please ask whether there is a special Uni Erlangen version. You can reach <a href="http://www.meinberg.de/">Meinberg</a> via the Web. Information can also be ordered via eMail from <a href="mailto:%20info@meinberg.de">info@meinberg.de</a></p>
23        <p>General characteristics:<br>
24            Meinberg clocks primarily output pulse per second and a describing ASCII string. This string can be produced in two modes. either upon the reception of a question mark or every second. NTP uses the latter mechanism. The DCF77 variants have a pretty good relationship between RS232 time code and the PPS signal while the GPS receiver has no fixed timeing between the datagram and the pulse (you need to use PPS with GPS!) on DCF77 you might get away without the PPS signal.</p>
25        <p>The preferred tty setting for Meinberg is:</p>
26        <pre>
27		CFLAG		(B9600|CS7|PARENB|CREAD|HUPCL)
28		IFLAG		(IGNBRK|IGNPAR|ISTRIP)
29		OFLAG		0
30		LFLAG		0
31        </pre>
32        <p>The tty setting for Meinberg GPS 166/167 receivers is:</p>
33        <pre>
34		CFLAG		(B19200|CS8|PARENB|CREAD|HUPCL)
35		IFLAG		(IGNBRK|IGNPAR|ISTRIP)
36		OFLAG		0
37		LFLAG		0
38        </pre>
39        <p>The clock is run at datagram once per second. Stock dataformat is:</p>
40        <pre>
41    &lt;STX&gt;D:&lt;dd&gt;.&lt;mm&gt;.&lt;yy&gt;;T:&lt;w&gt;;U:&lt;hh&gt;:&lt;mm&gt;:&lt;ss&gt;;&lt;S&gt;&lt;F&gt;&lt;D&gt;&lt;A&gt;&lt;ETX&gt;
42pos:  0  00 00 0 00 0 11 111 1 111 12 2 22 2 22 2 2  2  3  3   3
43      1  23 45 6 78 9 01 234 5 678 90 1 23 4 56 7 8  9  0  1   2
44
45&lt;STX&gt;           = '\002' ASCII start of text
46&lt;ETX&gt;           = '\003' ASCII end of text
47&lt;dd&gt;,&lt;mm&gt;,&lt;yy&gt;  = day, month, year(2 digits!!)
48&lt;w&gt;             = day of week (sunday= 0)
49&lt;hh&gt;,&lt;mm&gt;,&lt;ss&gt;  = hour, minute, second
50&lt;S&gt;             = '#' if never synced since powerup else ' ' for DCF U/A 31
51                  '#' if not PZF sychronisation available else ' ' for PZF 535
52&lt;F&gt;             = '*' if time comes from internal quartz else ' '
53&lt;D&gt;             = 'S' if daylight saving time is active else ' '
54&lt;D&gt;             = 'U' if UTC time code is deliverd else ' '
55&lt;A&gt;             = '!' during the hour preceeding an daylight saving time
56                      start/end change
57&lt;A&gt;             = 'A' if a leap second is announced
58</pre>
59        <pre>
60        &lt;STX&gt;&lt;dd&gt;.&lt;mm&gt;.&lt;yy&gt;; &lt;w&gt;; &lt;hh&gt;:&lt;mm&gt;:&lt;ss&gt;; &lt;U&gt;&lt;S&gt;&lt;F&gt;&lt;D&gt;&lt;A&gt;&lt;L&gt;&lt;R&gt;&lt;ETX&gt;
61    pos:  0   00 0 00 0 00 11 1 11 11 1 11 2 22 22 2  2  2  2  2  3  3   3
62          1   23 4 56 7 89 01 2 34 56 7 89 0 12 34 5  6  7  8  9  0  1   2
63    &lt;STX&gt;           = '\002' ASCII start of text
64    &lt;ETX&gt;           = '\003' ASCII end of text
65    &lt;dd&gt;,&lt;mm&gt;,&lt;yy&gt;  = day, month, year(2 digits!!)
66    &lt;w&gt;             = day of week (sunday= 0)
67    &lt;hh&gt;,&lt;mm&gt;,&lt;ss&gt;  = hour, minute, second
68    &lt;U&gt;             = 'U' UTC time display
69    &lt;S&gt;             = '#' if never synced since powerup else ' ' for DCF U/A 31
70                      '#' if not PZF sychronisation available else ' ' for PZF 535
71    &lt;F&gt;             = '*' if time comes from internal quartz else ' '
72    &lt;D&gt;             = 'S' if daylight saving time is active else ' '
73    &lt;A&gt;             = '!' during the hour preceeding an daylight saving time
74                          start/end change
75    &lt;L&gt;             = 'A' LEAP second announcement
76    &lt;R&gt;             = 'R' alternate antenna
77</pre>
78        <p>Meinberg GPS166 receiver<br>
79            You must get the Uni-Erlangen firmware for the GPS receiver support to work to full satisfaction !</p>
80        <pre>
81        &lt;STX&gt;&lt;dd&gt;.&lt;mm&gt;.&lt;yy&gt;; &lt;w&gt;; &lt;hh&gt;:&lt;mm&gt;:&lt;ss&gt;; &lt;+/-&gt;&lt;00:00&gt;; &lt;U&gt;&lt;S&gt;&lt;F&gt;&lt;D&gt;&lt;A&gt;&lt;L&gt;&lt;R&gt;&lt;L&gt;; &lt;position...&gt;&lt;ETX&gt;
82 *
83           000000000111111111122222222223333333333444444444455555555556666666
84           123456789012345678901234567890123456789012345678901234567890123456
85        \x0209.07.93; 5; 08:48:26; +00:00;        ; 49.5736N  11.0280E  373m\x03
86 *
87
88    &lt;STX&gt;           = '\002' ASCII start of text
89    &lt;ETX&gt;           = '\003' ASCII end of text
90    &lt;dd&gt;,&lt;mm&gt;,&lt;yy&gt;  = day, month, year(2 digits!!)
91    &lt;w&gt;             = day of week (sunday= 0)
92    &lt;hh&gt;,&lt;mm&gt;,&lt;ss&gt;  = hour, minute, second
93    &lt;+/-&gt;,&lt;00:00&gt;   = offset to UTC
94    &lt;S&gt;             = '#' if never synced since powerup else ' ' for DCF U/A 31
95                      '#' if not PZF sychronisation available else ' ' for PZF 535
96    &lt;U&gt;             = 'U' UTC time display
97    &lt;F&gt;             = '*' if time comes from internal quartz else ' '
98    &lt;D&gt;             = 'S' if daylight saving time is active else ' '
99    &lt;A&gt;             = '!' during the hour preceeding an daylight saving time
100                          start/end change
101    &lt;L&gt;             = 'A' LEAP second announcement
102    &lt;R&gt;             = 'R' alternate antenna (reminiscent of PZF535) usually ' '
103    &lt;L&gt;		   = 'L' on 23:59:60
104</pre>
105        <p>For the Meinberg parse look into clock_meinberg.c</p>
106        <h4>Raw DCF77 Data via serial line</h4>
107        <p>RAWDCF: end=TIMEOUT&gt;1.5s, sync each char (any char),generate psuedo time codes, fixed format</p>
108        <p>direct DCF77 code input</p>
109        <p>In Europe it is relatively easy/cheap the receive the german time code transmitter DCF77. The simplest version to process its signal is to feed the 100/200ms pulse of the demodulated AM signal via a level converter to an RS232 port at 50Baud. parse/clk_rawdcf.c holds all necessary decoding logic for the time code which is transmitted each minute for one minute. A bit of the time code is sent once a second.</p>
110        <pre>
111	The preferred tty setting is:
112		CFLAG           (B50|CS8|CREAD|CLOCAL)
113		IFLAG		0
114		OFLAG		0
115 		LFLAG		0
116</pre>
117        <h4>DCF77 raw time code</h4>
118        <p>From &quot;Zur Zeit&quot;, Physikalisch-Technische Bundesanstalt (PTB), Braunschweig und Berlin, M&#132;rz 1989<br>
119        </p>
120        <p>Timecode transmission:</p>
121        <pre>
122	AM:
123
124	time marks are send every second except for the second before the
125	next minute mark
126	time marks consist of a reduction of transmitter power to 25%
127	of the nominal level
128	the falling edge is the time indication (on time)
129	time marks of a 100ms duration constitute a logical 0
130	time marks of a 200ms duration constitute a logical 1
131</pre>
132        <p>see the spec. (basically a (non-)inverted psuedo random phase shift) encoding:</p>
133        <pre>
134	FM:
135
136	Second	Contents
137	0  - 10	AM: free, FM: 0
138	11 - 14	free
139	15		R     - alternate antenna
140	16		A1    - expect zone change (1 hour before)
141	17 - 18	Z1,Z2 - time zone
142		 0  0 illegal
143		 0  1 MEZ  (MET)
144		 1  0 MESZ (MED, MET DST)
145		 1  1 illegal
146	19		A2    - expect leap insertion/deletion (1 hour before)
147	20		S     - start of time code (1)
148	21 - 24	M1    - BCD (lsb first) Minutes
149	25 - 27	M10   - BCD (lsb first) 10 Minutes
150	28		P1    - Minute Parity (even)
151	29 - 32	H1    - BCD (lsb first) Hours
152	33 - 34      H10   - BCD (lsb first) 10 Hours
153	35		P2    - Hour Parity (even)
154	36 - 39	D1    - BCD (lsb first) Days
155	40 - 41	D10   - BCD (lsb first) 10 Days
156	42 - 44	DW    - BCD (lsb first) day of week (1: Monday -&gt; 7: Sunday)
157	45 - 49	MO    - BCD (lsb first) Month
158	50           MO0   - 10 Months
159	51 - 53	Y1    - BCD (lsb first) Years
160	54 - 57	Y10   - BCD (lsb first) 10 Years
161	58 		P3    - Date Parity (even)
162	59		      - usually missing (minute indication), except for leap insertion
163</pre>
164        <hr>
165        <h4>Schmid clock</h4>
166        <p>Schmid clock: needs poll, binary input, end='\xFC', sync start</p>
167        <p>The Schmid clock is a DCF77 receiver that sends a binary time code at the reception of a flag byte. The contents if the flag byte determined the time code format. The binary time code is delimited by the byte 0xFC.</p>
168        <pre>
169	TTY setup is:
170		CFLAG		(B1200|CS8|CREAD|CLOCAL)
171		IFLAG		0
172		OFLAG		0
173 		LFLAG		0
174
175</pre>
176        <p>The command to Schmid's DCF77 clock is a single byte; each bit allows the user to select some part of the time string, as follows (the output for the lsb is sent first).</p>
177        <pre>
178	Bit 0:	time in MEZ, 4 bytes *binary, not BCD*; hh.mm.ss.tenths
179	Bit 1:	date 3 bytes *binary, not BCD: dd.mm.yy
180	Bit 2:	week day, 1 byte (unused here)
181	Bit 3:	time zone, 1 byte, 0=MET, 1=MEST. (unused here)
182	Bit 4:	clock status, 1 byte,	0=time invalid,
183					1=time from crystal backup,
184					3=time from DCF77
185	Bit 5:	transmitter status, 1 byte,
186					bit 0: backup antenna
187					bit 1: time zone change within 1h
188					bit 3,2: TZ 01=MEST, 10=MET
189					bit 4: leap second will be
190						added within one hour
191					bits 5-7: Zero
192	Bit 6:	time in backup mode, units of 5 minutes (unused here)
193</pre>
194        <hr>
195        <h4>Trimble SV6 ASCII time code (TAIP)</h4>
196        <p>Trimble SV6: needs poll, ascii timecode, start='&gt;', end='&lt;', query='&gt;QTM&lt;', eol='&lt;'</p>
197        <p>Trimble SV6 is a GPS receiver with PPS output. It needs to be polled. It also need a special tty mode setup (EOL='&lt;').</p>
198        <pre>
199	TTY setup is:
200		CFLAG            (B4800|CS8|CREAD)
201		IFLAG            (BRKINT|IGNPAR|ISTRIP|ICRNL|IXON)
202		OFLAG            (OPOST|ONLCR)
203		LFLAG            (ICANON|ECHOK)
204</pre>
205        <p>Special flags are:</p>
206        <pre>		PARSE_F_PPSPPS	    - use CIOGETEV for PPS time stamping
207		PARSE_F_PPSONSECOND - the time code is not related to
208				      the PPS pulse (so use the time code
209				      only for the second epoch)
210
211	Timecode
212	0000000000111111111122222222223333333	/ char
213	0123456789012345678901234567890123456	\ posn
214	&gt;RTMhhmmssdddDDMMYYYYoodnnvrrrrr;*xx&lt;	Actual
215	----33445566600112222BB7__-_____--99-	Parse
216	&gt;RTM                      1     ;*  &lt; 	Check
217</pre>
218        <hr>
219        <h4>ELV DCF7000</h4>
220        <p>ELV DCF7000: end='\r', pattern=&quot; - - - - - - - \r&quot;</p>
221        <p>The ELV DCF7000 is a cheap DCF77 receiver sending each second a time code (though not very precise!) delimited by '`r'</p>
222        <pre>
223	Timecode
224	  YY-MM-DD-HH-MM-SS-FF\r
225
226		FF&amp;0x1	- DST
227		FF&amp;0x2	- DST switch warning
228		FF&amp;0x4  - unsynchronised
229</pre>
230        <hr>
231        <h4>HOPF 6021 und Kompatible</h4>
232        <p>HOPF Funkuhr 6021 mit serieller Schnittstelle Created by F.Schnekenbuehl &lt;frank@comsys.dofn.de&gt; from clk_rcc8000.c Nortel DASA Network Systems GmbH, Department: ND250 A Joint venture of Daimler-Benz Aerospace and Nortel.</p>
233        <pre>
234 hopf Funkuhr 6021
235      used with 9600,8N1,
236      UTC via serial line
237      &quot;Sekundenvorlauf&quot; ON
238      ETX zum Sekundenvorlauf ON
239      dataformat 6021
240      output time and date
241      transmit with control characters
242      transmit evry second
243 </pre>
244        <p>Type 6021 Serial Output format</p>
245        <pre>
246      000000000011111111 / char
247      012345678901234567 \ position
248      sABHHMMSSDDMMYYnre  Actual
249       C4110046231195     Parse
250      s              enr  Check
251
252  s = STX (0x02), e = ETX (0x03)
253  n = NL  (0x0A), r = CR  (0x0D)
254
255  A B - Status and weekday
256
257  A - Status
258
259      8 4 2 1
260      x x x 0  - no announcement
261      x x x 1  - Summertime - wintertime - summertime announcement
262      x x 0 x  - Wintertime
263      x x 1 x  - Summertime
264      0 0 x x  - Time/Date invalid
265      0 1 x x  - Internal clock used
266      1 0 x x  - Radio clock
267      1 1 x x  - Radio clock highprecision
268
269  B - 8 4 2 1
270      0 x x x  - MESZ/MEZ
271      1 x x x  - UTC
272      x 0 0 1  - Monday
273      x 0 1 0  - Tuesday
274      x 0 1 1  - Wednesday
275      x 1 0 0  - Thursday
276      x 1 0 1  - Friday
277      x 1 1 0  - Saturday
278      x 1 1 1  - Sunday
279</pre>
280        <hr>
281        <h4>Diem Computime Clock</h4>
282        <p>The Computime receiver sends a datagram in the following format every minute</p>
283        <pre>
284   Timestamp	T:YY:MM:MD:WD:HH:MM:SSCRLF
285   Pos          0123456789012345678901 2 3
286		0000000000111111111122 2 2
287   Parse        T:  :  :  :  :  :  :  \r\n
288
289   T	Startcharacter &quot;T&quot; specifies start of the timestamp
290   YY	Year MM	Month 1-12
291   MD	Day of the month
292   WD	Day of week
293   HH	Hour
294   MM   Minute
295   SS   Second
296   CR   Carriage return
297   LF   Linefeed
298</pre>
299        <hr>
300        <h4>WHARTON 400A Series Clock with a 404.2 Serial interface</h4>
301        <p>The WHARTON 400A Series clock is able to send date/time serial messages in 7 output formats. We use format 1 here because it is the shortest. We set up the clock to send a datagram every second. For use with this driver, the WHARTON 400A Series clock must be set-up as follows :</p>
302        <pre>
303  					Programmable	Selected
304  					Option No	Option
305	BST or CET display		3		9 or 11
306	No external controller		7		0
307	Serial Output Format 1		9		1
308	Baud rate 9600 bps		10		96
309	Bit length 8 bits		11		8
310	Parity even			12		E
311</pre>
312        <p>WHARTON 400A Series output format 1 is as follows :</p>
313        <pre>
314   Timestamp	STXssmmhhDDMMYYSETX
315   Pos		0  12345678901234
316  		0  00000000011111
317
318   STX	start transmission (ASCII 0x02)
319   ETX	end transmission (ASCII 0x03)
320   ss	Second expressed in reversed decimal (units then tens)
321   mm	Minute expressed in reversed decimal
322   hh	Hour expressed in reversed decimal
323   DD	Day of month expressed in reversed decimal
324   MM	Month expressed in reversed decimal (January is 1)
325   YY	Year (without century) expressed in reversed decimal
326   S	Status byte : 0x30 +
327		bit 0	0 = MSF source		1 = DCF source
328		bit 1	0 = Winter time		1 = Summer time
329		bit 2	0 = not synchronised	1 = synchronised
330		bit 3	0 = no early warning	1 = early warning
331</pre>
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