Vortex Media Clock V 400A User Manual

V-400A Series Multifunction Clocks  
and Calendar Clocks  
Operating and Installation  
Instructions  
75 The Grove, Ealing LONDON W5 5LL  
Email: info  
@vtx.co.uk  
Web: www.vtx.co.uk  
Telephone:  
Fax:  
+
44 (0 )20 8579 2743  
+
44 (0 )20 8840 0 0 18  
Introduction - 1  
Operating Modes  
The 400A family of electronic digital clocks and calendar clocks allows a wide range of user programmable  
operating modes as detailed below. To program the required functions please refer to the Function  
Programming instructions starting on page 6. For a full description of the various program function selection  
options please refer to pages 7 to 9.  
automatic or manual control of display brightness - program function 1.  
12 or 24 hour display selection - program function 2.  
Stand-alone operation - program function 3, selection 1 - or synchronisation from :  
Uni-polar or alternate polarity signals, 6 - 24v, at a one second, half minute or one minute  
repetition rate - program function 3, selections 2 to 7.  
W482 time code signals with selection of one of fifteen different time zones - program function  
3, selection 8.  
MSF or DCF radio time code signals when used in conjunction with a 484 series radio time code  
receiver. The displayed time may be either CET when synchronised to DCF signals, BST when  
synchronised to MSF signals or UTC (GMT) when synchronised to either DCF or MSF signals -  
program function 3, selections 9 to 12. Please refer to page 23 of this manual for further  
information.  
IRIG-B or afnor NF S 87- 500 time code signals - requires optional 404.I internal interface for  
modulated sine wave signals or 404.4 internal interface for RS485 level logic signals  
- program function 3, selections 13 & 14.  
EBU or SMPTE signal in either of two date formats - requires optional 404.E internal interface  
- program function 3, selections 15 & 16.  
W482 time code from a 400A series clock used as a local master to synchronise up to 10 other  
400A series clocks acting as slaves and located within 200 metres. The 400A clock used as a local  
master requires the internal 404.M interface option. The clock used as the local master may  
derive its time keeping from its internal crystal or be synchronised to radio time code signals.  
Please refer to page 22 of this manual for further information.  
RS232 or RS485 serial ascii data in one of three message formats - program function 3, selections  
18 to 20; at 1200, 2400, 4800, or 9600 baud - program function 10 - with seven or eight data  
bits - program function 11 - and odd or even parity- program function 12. Serial ascii  
synchronisation requires either the optional internal 404.2 (RS232) or 404.4 (RS485) interface.  
Refer to page 12 for details of serial formats.  
GPS satellite time signals displayed either as UTC or as local time with up to 13 hours offset -  
program function 6, from UTC with pre-programmable seasonal time-change offset corrections -  
requires 488GPS antenna and receiver/interface - program function 3, selection 23.  
The display can be programmed to blank or stop in the event of synchronising code failure or to  
continue to count, using the internal high stability quartz crystal timebase, from the last valid signal  
received -program function 4.  
Time only clocks (401A, 420A and 490A models) can be programmed for use as a stopwatch, when  
used with a 496A control panel, to count time in hours, minutes and seconds or minutes, seconds  
and 1/100th seconds (hours and minutes or minutes and seconds for model 420A) - program  
function 7, selection 1 or 2. Please refer to pages 18 & 19 of this manual for further information.  
The 401A, 420A and 490A models can be programmed for use with a type 402A control panel to  
give the ability to switch between time-of-day and stopwatch time. The time-of-day count may be  
stand-alone or synchronised to remote impulse or code master clocks or radio time code signals. The  
stopwatch time can be programmed to count down from a user pre-programmed time value,  
stopping at or counting through zero, or to count up from zero. Five user selectable  
count-hold-reset modes are available for different timing applications - program function 7, selection  
3 . Please refer to pages 13 to 17 of this manual for further information.  
Issue 2.2  
1
Introduction - 2  
All models may be programmed to provide one of seven serial RS232 ascii data output messages  
when used in stand-alone or radio-synchronised modes - program function 9. The output messages  
may be either every second, after receipt of an ascii `T’ or `t’ - program function 7, selection 4) or  
on a voltage free switch closure - program function 7, selection 5. The output messages may be at  
1200, 2400, 4800, or 9600 baud - program function 10 - , with seven or eight data bits - program  
function 11 - and odd or even parity - program function 12. Requires optional internal 404.2  
(RS232) interface. Please refer to pages 12 and 20 - 21 of this manual for further information.  
All models may be programmed to provide an alternating time/temperature display - program  
function 7, selections 6 or 7 - with user selection of the time interval between display changes -  
program function 13 . The display temperature may be adjusted to correct errors due to sensor  
location and calibration. - requires optional temperature sensor. Please refer to page 22 of this  
manual for further information.  
All models may be programmed for automatic seasonal time changes in accordance with European,  
UK or US change-over patterns - program function 14 . Manual selection of the appropriate  
change-over month and Sunday (first, second, third, fourth or last in month) is normally once-only.  
The 450A, 451A, 452A, 453A, 454A and 460A calendar clocks may be programmed for four  
alternate date displays to show:  
Julian date (the day of year) in place of day-of-week display - program function 15,  
selection 2  
Week number in place of day-of-week display - program function 15, selection 3  
The first Monday in each year is taken as the start of week 1.  
Numeric day-month-year display - program function 15, selection 4  
Numeric month-day-year display - program function 15, selection 5  
The date display of calendar clocks may be programmed to display one, two, or three languages -  
program functions 16 to 19 - from those listed below. If two or three languages are selected the  
display changes at a user-selectable rate - program function 13.  
Catallonian  
German  
Spanish  
Galician  
Hungarian  
Italian  
- selection CA  
- selection D  
- selection E  
- selection GA  
- selection H  
- selection I  
Czech  
- selection CR  
- selection DK  
- selection F  
Danish  
French  
English  
Croat  
- selection GB  
- selection HR  
- selection N  
- selection P  
- selection RU  
- selection SF  
- selection SL  
Norwegian  
Portuguese  
Russian  
Finnish  
Dutch  
- selection NL  
- selection PL  
- selection S  
- selection SK  
- selection W  
Polish  
Swedish  
Slovak  
Slovenian  
Welsh  
Installation  
400A series clocks are available with cases suitable for surface wall mounting, flush mounting in a panel with  
rear access, flush mounting in a wall box and single or double sided ceiling suspension. The surface wall  
mounting case is supplied with special mounting brackets to enable the angle of the front face of the clock to  
Issue 2.2  
2
Introduction - 3  
be varied to reduce or eliminate unwanted reflections. Please refer to pages 24 to 28 for further mounting  
information.  
Power Supply Connection  
400A series clocks may be supplied for 230v ac, 110/120v ac, 12v dc, 24v dc or 48v dc. The clock must be  
connected to the appropriate supply after first verifying the correct voltage by reference to the supply voltage  
label fixed to or printed on the rear panel of the clock.  
A connection to the earth line must be made to ensure safe operation and ensure compliance  
with EMC regulations.  
To ensure conformance with EN60950:  
(A) For installations where the 400A clock is to be permanently connected into the mains power  
circuit, a readily accessible disconnect device should be incorporated in the fixed wiring.  
(B) For installations where the 400A clock is to be plugged into the mains power circuit, a  
socketed outlet should be installed near the equipment and should be easily accessible.  
All installation work should be performed in accordance with the Sixteenth Edition of the IEE  
Wiring Regulations.  
An internal automatically re-charging battery will, when fully charged, maintain the internal time count for a  
period normally in excess of 60 hours if the mains supply is interrupted.  
The power supply is fitted with an internal 100mA fuse (450A, 490A.05 etc = 160mA fuse). In case of fault  
the fuse should only be replaced by a suitably qualified engineer after disconnection from the mains  
power supply and correction of the fault condition.  
External Signal Connection  
A six way terminal block is located on the rear panel of the clock to enable the connection of external signals.  
Details of the connections for various signal configurations are shown on page 28.  
The mains power supply must be disconnected when making connections to external signals.  
Manual Time Synchronisation  
The 400A clock or calendar clock should be set to time of day, when used in stand-alone mode, prior to the  
connection of a synchronising impulse signal or in the absence of the required synchronising code or radio  
signal, by means of the three time setting switches located on the rear of the clock. The locations of these  
switches are illustrated on pages 24 and 28 and the setting sequence is detailed on pages 4 and 5.  
401A, 420A and 490A series clocks which normally display time only may also be set to date in order to  
enable automatic pre-programmed seasonal time-changes and to provide date information for serial ascii data  
outputs if an optional internal serial interface module is fitted.  
Optional Internal Interfaces  
A range of optional internal interfaces allow connection of the clock to a variety of signals and external  
equipment. The appropriate interfaces are normally factory fitted in accordance with order specification.  
If it is necessary to fit a new internal interface in order to change the specification of the clock the work must  
be carried out by a suitably qualified engineer in accordance with the instructions on page 20.  
Guarantee  
The 400A series clocks are fully guaranteed, on a return to works basis, against failure due to faulty parts or  
workmanship for one year from date of purchase. In the event of failure, either within or outside the warranty  
period, please pack the unit with care and return it to our factory for examination and repair.  
Issue 2.2  
3
Time and Date Setting - 1  
A
C
A
B
Enter setting mode  
and step to  
next stage  
Zero seconds or  
increment other  
unit values  
Return to  
normal operation  
at any stage  
B
C
A
C
B
C
display of seconds  
flashes on/off  
seconds count  
set to zero  
A
C
B
C
display of minutes  
flashes on/off  
minutes count  
increments  
A
C
B
C
display of hours  
flashes on/off  
hours count  
increments  
Display for 401 & 420  
A
C
B
C
month  
display of months  
flashes on/off  
months count  
increments  
A
C
B
C
day-of-month  
display of day-of-month  
flashes on/off  
day-of-month count  
increments  
Issue 2.2  
4
Time and Date Setting - 2  
A
C
A
Enter setting mode  
and step to  
next stage  
Zero seconds or  
increment other  
unit values  
Return to  
normal operation  
at any stage  
B
C
B
A
C
B
C
display of year  
flashes on/off  
years count  
increments  
A
C
B
C
display of month in which seasonal  
forward month value  
forward change occurs - display flashes on/off  
changes - value may be 3, 4, 9, or 10  
A
C
B
C
display of Sunday in changeover month  
on which forward change occurs  
Sunday value changes  
value may be 1(st), 2(nd), 3(rd), 4(th) or L (last)  
A
C
B
C
display of month in which seasonal  
backward month value  
backward change occurs - display flashes on/off  
changes - value may be 3, 4, 9, & 10  
A
C
B
C
display of Sunday in changeover month  
on which backward change occurs  
Sunday value changes  
value may be 1(st), 2(nd), 3(rd), 4(th) or L (last)  
Return to normal operation  
Issue 2.2  
5
Function Programming  
Enter programming mode  
after three seconds  
B
B
C
step to next programming stage  
A
C
A
B
Return to  
normal operation  
at any stage  
Change program function option  
A
C
B
Program  
function No.  
Program function  
option flashes on/off  
Program function  
option changes  
B
C
Program  
function No.  
Program option selection  
flashes on/off  
A
B
Return to normal operation  
Note:  
Following the display of the last appropriate program option  
selection the version number of the software will be shown i.e.  
U 40 = software version 4.0.  
A table is provided on the inside rear cover of this manual for  
recording the user selected program settings. It is recommended  
that the installed settings are recorded in this sheet in case of  
incorrect or unauthorized adjustment of the program settings.  
If all three switches are pressed together a display test will be  
performed.  
Issue 2.2  
6
Programmable Options - 1  
Comments  
Prog.  
No.  
Function  
Selection Options  
1
Display  
A
7
= Automatic  
brightness  
= brightest manual setting  
~
= dimmest manual setting  
1
2
3
Hour display  
mode  
12  
24  
= 12 hour display  
= 24 hour display  
Synchronisation  
mode  
1
2
3
4
5
6
7
8
= Stand-alone operation  
Uses internal crystal  
6-24v  
= one second uni-polar impulse  
= one second alternate polarity impulse  
= half minute uni-polar impulse  
= half minute alternate polarity impulse  
= one minute uni-polar impulse  
= one minute alternate polarity impulse  
= W482 time code  
6-24v  
6-24v  
6-24v  
6-24v  
6-24v  
Code from 482 or 4850  
series master clock  
requires appropriate  
484 series radio time code  
receiver  
9
= MSF time code - BST display  
= MSF time code - UTC(GMT) display  
= DCF time code - CET display  
= DCF time code - UTC display  
= IRIG-B time code  
10  
11  
12  
13  
requires 404.I interface,  
- set year manually.  
14  
15  
= afnor NF S 87- 500 time code  
= EBU/SMPTE time code  
requires 404.I interface  
requires 404.E interface  
- refer to page 11 = Leitch (TM) format  
= EBU/SMPTE time code  
16  
requires 404.E interface  
- refer to page 11  
17  
18  
19  
20  
21  
22  
23  
= Slave to local 400A master  
= RS232/RS485 serial ascii format (1)  
= RS232/RS485 serial ascii format (2)  
= RS232/RS485 serial ascii format (6)  
= H310 serial time code  
requires 404.2 (RS232)  
or 404.4 (RS485) interface  
= Mobaline® time code  
= GPS time code  
refer to 488GPS manual  
-for further information  
4
Run mode  
1
1
2
= blank if code fails  
W482, H310, Mobaline &  
GPS synchronisation only.  
EBU, IRIG and serial ASCII  
codes only.  
= display last message for -  
= setable to time and date, continue to  
count with colons flashing when not  
synchronised  
Issue 2.2  
7
Programmable Options - 2  
Prog.  
No.  
Function  
Selection Options  
Comments  
5
Time zone  
1
= Zone number  
Only available when  
synchronised to W482  
time code from 482 or  
4850 series master clock  
~
F
6
7
GPS time offset +13 = Local time difference from UTC in  
Only required when  
synchronised to 488GPS  
system  
hours  
~
-13  
External  
controller  
mode  
0
1
= no external controller  
= 496A stopwatch controller with  
Only with 401A,420A or  
HH:MM:SS display (HH:MM with 420A) 490A series clocks  
= 496A stopwatch controller with  
MM:SS:1/100 sec display (MM:SS with  
420A series)  
2
3
4
5
= 402A up/down stopwatch controller  
with time/stopwatch display selection  
= Serial ascii code on demand -  
Requires 404.2 interface  
triggered by ascii ‘T’ or ‘t’ input  
= Serial ascii code on demand -  
Requires 404.2 interface  
triggered by voltage free switch closure  
= Alternate time/temperature display °C  
= Continuous temperature display °C  
C
Requires 406 temperature  
sensor  
°
8
9
Temperature  
adjustment  
mode  
= Temperature sensor adjustment to  
correct for sensor calibration and  
mounting errors  
Only required when 406  
temperature sensor  
connected  
+5°  
~
- 5°  
Serial Output  
format  
0
=No serial output - setting for  
‘ Local Master’ mode.  
Requires 404.M interface  
for ‘Local Master’ mode.  
Selections 9.1 to 9.7  
require 404.2 RS232  
interface module.  
1
2
3
4
5
6
7
= Seconds to years + status  
= Years to seconds  
= Years to seconds + status  
= Years to seconds +1/100 sec  
= Years to seconds +1/100 sec + status  
= Hours, minutes, seconds  
External controller mode  
must be set to 0,6 or 7  
for ‘Local Master’ mode  
or 0,4,5,6, or 7 for serial  
outputs.  
= Hours, minutes, seconds + 1/100 sec  
10  
Baud rate  
12  
24  
48  
96  
= 1200 baud  
= 2400 baud  
= 4800 baud  
= 9600 baud  
Only required when  
synchronised to serial ascii  
code or serial ascii output  
required  
Issue 2.2  
8
Programmable Options - 3  
Comments  
Prog.  
No.  
Function  
Bit length  
Parity  
Selection Options  
11  
12  
13  
7
8
= 7 data bits  
= 8 data bits  
O
E
= odd parity  
= even parity  
Hold time  
1
= delay in seconds between changes in  
languages or between time and  
temperature display  
~
15  
14  
15  
Seasonal time  
change-over  
mode  
= no change-over mode set  
forwards  
backwards  
GB  
EU  
US  
= British change-over pattern  
= European change-over pattern  
= American change-over pattern  
1:00 - 2:00 2:00 - 1:00  
2:00 - 3:00 3:00 - 2:00  
2:00 - 3:00 2:00 - 1:00  
Special display  
modes  
1
= Standard display  
See page 10 for  
illustration of special  
display modes.  
2
= Modes 2 - 5 available on  
450A, 452A, 453A and 454A  
calendar clocks  
~
5
2
= Modes 2 - 6 available on 490A.02  
and 490A.05 clocks  
~
6
Alternating date and time  
display on 401A & 420A.  
7 = day-of-month, month  
8 = month, day-of-month  
7
= Modes 7, 8 available on 401A  
and 420A clocks  
~
8
16  
Number of  
languages  
display  
1
2
3
= one language  
= two languages  
= three languages  
Only required for calendar  
clocks  
17  
-
First, second  
and third  
CA  
CR  
D
= Catallonian  
= Czech  
I
= Italian  
N
= Norwegian  
= Dutch  
language  
selections  
= German  
= Danish  
= Spanish  
= French  
NL  
P
19  
DK  
E
= Portuguese  
= Polish  
PL  
RU  
S
F
= Russian  
= Swedish  
= Finnish  
= Slovak  
GA  
GB  
H
= Galicain  
= English  
= Hungarian  
= Croat  
SF  
SK  
SL  
W
HR  
= Slovenian  
= Welsh  
Issue 2.2  
9
Special Display Formats  
Special Display Modes  
for 450A, 452A, 453A and 454A  
Calendar Clocks  
Special Display Modes  
for 490A.02 and 490A.05 Clocks  
Display mode 1  
day-of-week day-of-month  
month  
month  
month  
Display mode 2  
day-of-year day-of-month  
Display mode 3  
week-number day-of-month  
Display mode 4  
day-of-month  
month  
year  
Display mode 5  
month  
day-of-month  
year  
Display mode 6  
Issue 2.2  
10  
EBU/SMPTE Code Formats  
400A series clocks may be programmed to synchronise to EBU/SMPTE time code signals when the optional  
404.E interface is fitted. Calendar clocks may be synchronised to one of two date formats. Format 1 (*)  
is desgined to work with other manufacturers' displays - eg Leitch (TM) whereas Format 2 (**) displays time/date on a  
video signal in an understandable order. Both formts work with V-401A/V-420A/V-490A Time Displays (ie no date)  
Application  
401, 420 & 490 Clocks  
Calendar Clocks  
V-400A Clock  
Prog. 3, Opt. 15  
Prog. 3, Opt. 16  
Prog. 3, Opt 15 *  
Prog. 3, Opt 16 **  
program setting  
Master Clock  
Prog. 17, Opt. ‘0’  
Prog. 18, Opt. ‘0’  
Not applicable  
414 Timer only  
Prog. 17, Opt. ‘1’  
Prog. 18, Opt. ‘0’  
Prog. 17, Opt. ‘1’  
Prog. 18, Opt. ‘1’  
program settings  
Bits  
Data Bit Content  
0 - 3  
Frame No. units  
Unused bits  
Frame No. units  
Unused bits  
Frame No. units  
Unused bits  
Frame No. tens  
Unused bits  
Days Units  
Frame No. units  
Status bits  
4 - 7  
8 - 9  
Frame No. tens  
Unused bits  
Frame No. tens  
Unused bits  
Frame No. tens  
Unused bits  
Unused bits  
Seconds units  
Years units  
10 - 11  
12 - 15  
16 - 19  
20 - 23  
24 - 26  
27  
Seconds units  
Unused bits  
Seconds tens  
Unused bits  
Seconds units  
Unused bits  
Seconds tens  
Unused bits  
Seconds units  
Months units  
Seconds tens  
Unused bit  
Seconds tens  
Unused bit  
28 - 29  
30  
Days tens  
Years tens  
Months tens  
Unused bit  
31  
32 - 35  
36 - 39  
40 - 42  
43  
Minutes units  
Unused bits  
Minutes tens  
Unused bits  
Minutes units  
Unused bits  
Minutes tens  
Unused bits  
Minutes units  
Unused bits  
Minutes tens  
Unused bit  
Minutes units  
Months units  
Minutes tens  
Unused bit  
Months tens  
Unused bits  
Hours units  
Days units  
44 - 45  
46 - 47  
48 - 51  
52 - 55  
56 - 57  
58 - 59  
60 - 62  
63  
Years units  
Unused bits  
Hours units  
Unused bits  
Hours tens  
Hours units  
Unused bits  
Hours tens  
Unused bits  
Hours units  
Unused bits  
Hours tens  
Hours tens  
Unused bits  
Days tens  
414 Control bits  
Unused bits  
Unused bits  
Years tens  
Unused bits  
Sync word  
64 - 79  
Sync word  
Sync word  
Sync word  
Issue 2.2  
11  
Serial ASCII Data Formats  
400A Series clocks and calendar clocks, when fitted with a 404.2 (RS232) or 404.4 (RS485) optional internal  
interface module, are capable of synchronisation to one of three serial ASCII data message formats and will  
transmit messages in seven formats. The clock may be programmed to receive or transmit messages at 1200,  
2400, 4800 or 9600 baud - program function 10 -, seven or eight data bits - program function 11 - and odd  
or even parity - program function 12.  
When programmed to transmit serial messages - by selecting options 1 to 7 of program function 9 - the clock  
will transmit a new message at every second edge. If the clock is programmed to transmit in one of the two  
`on-demand’ modes - program function 7 , selections 4 or 5 - the message will only be transmitted following  
the receipt of an ASCII `T’ or `t’ - program function 7, selection 4 - or the closure of an external voltage free  
switch contact - program function 7, selection 5.  
Output Format 1 (Input synchronisation - program function 3, selection 18)  
STX Su St Mu Mt Hu Ht Du Dt Mtu Mtt Yu Yt Stt ETX  
Output Format 2 (Input synchronisation - program function 3, selection 19)  
T Yt Yu : Mtt Mtu : Dt Du : 0 W : Ht Hu : Mt Mh : St Su CR LF  
Output Format 3  
T Yt Yu : Mtt Mtu : Dt Du : 0 W : Ht Hu : Mt Mh : St Su `_’ St CR LF  
Output Format 4  
T Yt Yu : Mtt Mtu : Dt Du : 0 W : Ht Hu : Mt Mh : St Su . Sht Shu CR LF  
Output Format 5  
T Yt Yu : Mtt Mtu : Dt Du : 0 W : Ht Hu : Mt Mh : St Su . Sht Shu `_St CR LF  
Output Format 6 (Input synchronisation - program function 3, selection 20)  
* Ht Hu Mt Mu St Su CR LF  
Output Format 7  
* Ht Hu Mt Mu St Su Sht Shu CR LF  
`t’ = tens, `u’ = units value  
Byte  
Description  
ASCII  
value  
Byte  
Description  
ASCII  
value  
1
STX  
ETX  
Stt  
T
CR  
LF  
:
.
`_`  
*
start transmission  
end transmission  
status - see table  
start transmission  
carriage return  
line feed  
colon  
point  
space  
start character  
02H  
03H  
Sh  
S
M
H
W
D
Mt  
Y
/
100 seconds  
30 - 39H  
30 - 39H  
30 - 39H  
30 - 39H  
31 - 37H  
30 - 39H  
30 - 39H  
30 - 39H  
30H  
seconds  
minutes  
hours  
day-of-week  
day-of-month  
month  
54H  
0DH  
0AH  
3AH  
2EH  
20H  
2AH  
year  
zero  
0
Status Byte - ASCII value 30H - 3FH  
Bit 0  
Bit 1  
Bit 2  
Bit 3  
0 = MSF  
0 = Winter time  
0 = not synchronised  
0 = no early warning bit  
1 = DCF  
1 = Summer time  
1 = synchronised  
1 = early warning bit  
Issue 2.2  
12  
402A Stopwatch Controller - 1  
The 402A Stopwatch Control unit enables a 401A,420A or 490A series clock to be used both as a  
multifunction stopwatch and a time-of-day clock with the display freely switchable between time-of-day and  
stopwatch time. The time-of-day count may be synchronised to a wide variety of external time codes, impulses  
and time signals.  
Four switches control the stopwatch count, display selection and function programming of the control unit.  
The operation of these switches is illustrated on the following pages.  
The stopwatch function can be programmed to count:  
Up from zero - program function SA, selection 1.  
Down from a pre-programmed start-time to stop at zero - program function SA, selection 2.  
To count down and then up through zero - program function SA, selection 3. In this mode a minus  
sign will appear in the left hand character position when the count is minus and the most significant  
digit is zero.  
To continuously count down to zero with automatic re-start from a pre-programmed start time -  
program function SA, selection 4.  
The stopwatch can be programmed to operate:  
In a simple start-stop mode - program function SB, selection 1.  
With one of four programmed spilt actions to enable the time intervals between sequential events to  
be timed incrementally or accumulatively. Please refer to pages 14 and 17 for further information. -  
program function SB, selections 2 to 5.  
The stopwatch display can be programmed to show:  
Minutes, seconds and one hundredth seconds (minutes and seconds for 420A series clocks) -  
program function SC, selection 1.  
Hours, minutes and seconds (hours and minutes for 420A series clocks) - program function SC,  
selection 2.  
Minutes, seconds and one hundredth seconds (minutes and seconds for 420A series clocks) unless  
the hours count is one or more in which case the display automatically switches to show hours,  
minutes and seconds (minutes and seconds for 420A series clocks) - program function SC,  
selection 3.  
The countdown start time can be programmed in hours, minutes and seconds (hours and minutes for 420A  
clocks). The programmed time is held in non-volatile EEPROM and is automatically recalled whenever the  
stopwatch is in a countdown mode and the `RESET’ switch is pressed or automatically when count option - 4  
- is selected.  
An optional internal interface module (404.R) provides a normally open voltage-free relay contact pair, rated  
at 24v 1A dc and programmable from one to three seconds contact closure duration in steps of 0.1 seconds,  
which starts when the countdown reaches zero - program function SD, selections 0 (no contact closure) to 30  
(3 seconds closure).  
The 402A Stopwatch Control unit can also be used to remotely set the clock to time and date.  
The 402A controller unit is connected to the 401A, 420A or 490A clock by means of the three metre long  
three core cable provided. The interconnecting cable may be extended to ten metres length using a screened  
cable. Please refer to page 24 and 28 for details of the connections to the clock.  
Issue 2.2  
13  
402A Stopwatch Controller -2  
Prog. Function  
No.  
Selection Options  
Comments  
SA  
Select count  
direction  
1
2
= Up from zero  
Reset switch sets count to  
zero.  
= Down from a pre-programmed  
start-time to stop at zero  
Reset switch sets count to  
pre-programmed  
countdown start time.  
Minus sign displayed  
during countdown when  
most significant digit = 0.  
3
4
= Down from a pre-programmed  
start-time and then up through zero.  
= Continuously count down to zero with  
automatic restart from a  
pre-programmed start time  
SB  
Select START-  
HOLD-STOP  
switch action  
1
2
=Single start - stop -start -stop count  
action.  
Refer to page 17 for  
illustrations of count  
actions.  
= First action starts count, subsequent  
actions update display to new  
incremental split time.  
3
= First action starts count, subsequent  
actions alternately freeze the display to  
show incremental split times and rejoin  
the running time.  
4
5
= First action starts count, subsequent  
actions update display to new  
accumulative split time.  
= First action starts count, subsequent  
actions alternately freeze the display to  
show accumulative split times and rejoin  
the running time.  
SC  
Select display  
resolution  
1
2
3
= Minutes seconds and 1/100 seconds  
(minutes and seconds for 420A series)  
= Hours, minutes and seconds  
(hours and minutes for 420A series)  
= Minutes seconds and 1/100 seconds  
(minutes and seconds for 420A series)  
unless the hours count is one or more  
when the display will show hours,  
minutes and seconds. (hours and  
minutes for 420A series)  
SD  
Set period of  
relay contact  
closure at end  
of count-down  
0
= No relay contact closure  
Requires 404.R relay  
output option  
1
= 0.1 seconds contact closure  
~
30  
= 3.0 seconds contact closure  
Issue 2.2  
14  
402A Stopwatch Controller - 3  
54.0  
Switch Control Unit Details  
3 core cable  
to clock  
27.0  
12.0  
44.0  
22.0  
22.0  
START - HOLD - STOP  
RESET  
Panel  
102.0 88.0 72.0  
cut-out  
C
SW  
402A  
M3 clearance hole  
Control switch functions in normal operating mode  
C
Time-of-day display selected  
SW  
Stopwatch display selected  
START - HOLD - STOP  
Refer to page 16 for further  
information on stopwatch start, stop  
and display hold functions and  
programming  
Stopwatch start, hold or stop function selected  
RESET  
or  
Stopwatch time count stopped  
and reset to zero  
Stopwatch time count stopped and set to  
pre-programmed countdown start time value  
C
SW  
Refer to the following page for  
further information on stopwatch  
function, countdown start time  
and time-of-day programming  
First display of stopwatch function, countdown  
start time and time-of-day programming  
Issue 2.2  
15  
402A Stopwatch Controller - 4  
Control switch functions in programming and time-setting mode  
Enter Programming Mode  
C
SW  
First display of stopwatch function, countdown  
start time and time-of-day programming  
Set clock to time-of-day  
C
RESET  
Time-of-day time setting display selected  
Seconds set to zero by the use  
of the RESET switch  
with seconds flashing on/off  
START - HOLD - STOP  
Refer to pages 4 and 5 for further information on  
time and date setting. Use the START-STOP-HOLD  
switch in place of switch A and the RESET switch in  
place of switch B. Press switch C or switch SW to end  
timesetting mode.  
Time setting display indexed to minutes  
by use of START-HOLD-STOP switch  
Program count-down start time  
SW  
RESET  
Countdown start time display selected  
with seconds display flashing on/off  
Increment countdown start time  
seconds value using RESET switch  
START - HOLD - STOP  
Press switch C or switch SW to end  
countdown start time programming  
Countdown start time display indexed to minutes  
by use of START-HOLD-STOP switch  
Program stopwatch count, display hold, display resolution and alarm time modes  
START - HOLD - STOP  
RESET  
Count direction program display selected with  
option selection display flashing on/off  
Increment count mode selection  
using RESET switch  
START - HOLD - STOP  
Press switch C or switch SW to end  
programming mode.  
Display indexed to count hold mode selection  
by use of START-HOLD-STOP switch  
Issue 2.2  
16  
402A Stopwatch Controller - 5  
Stopwatch Count/Hold function options  
Count start/stop and display hold function selection  
Stopwatch timer and display at zero (or pre-programmed down count start time)  
START - HOLD - STOP  
Stopwatch timer starts with display following counter  
1:04  
START - HOLD - STOP  
Timer stops,  
display shows  
Display freezes  
to show ’SPLIT’  
Display freezes  
to show ’SPLIT’  
Display freezes  
to show  
Display freezes  
to show  
accumulated time time, timer restarts time, timer restarts ’SPLIT’ time, timer ’SPLIT’ time, timer  
2:10  
at zero or pre-set  
at zero or pre-set continues to count continues to count  
START - HOLD - STOP  
Timer starts,  
display follows  
timer count  
Display updates  
to show new ’SPLIT’  
time, timer restarts  
at zero or pre-set  
Display updates  
and continues  
to follow  
Display updates  
to show new  
’SPLIT’ time, timer  
continues to count  
Display updates  
and continues  
to follow  
4:30  
timer count  
timer count  
Display continues  
to follow timer  
count  
Display shows  
last ’SPLIT’ time,  
timer continues  
to count  
Display continues  
to follow timer  
count  
Display shows  
last ’SPLIT’ time,  
timer continues  
to count  
Display continues  
to follow timer  
count  
5:13  
START - HOLD - STOP  
Timer stops,  
display shows  
Display updates to Display freezes to  
show new ’SPLIT’ show new ’SPLIT’  
Display updates  
to show new  
Display freezes  
to show new  
accumulated time time, timer restarts time, timer restarts ’SPLIT’ time, timer ’SPLIT’ time, timer  
at zero or pre-set at zero or pre-set continues to count continues to count  
RESET  
Stopwatch timer is stopped and reset to zero (or pre-programmed down-count start time)  
Issue 2.2  
17  
496A Stopwatch Controller - 1  
54.0  
44.0  
Switch Control Unit Details  
3 core cable  
to clock  
27.0  
12.0  
22.0  
22.0  
START - STOP  
Panel  
cut-out  
102.0 88.0 72.0  
HOLD - RESET  
496A  
M3 clearance hole  
The 496A Stopwatch Controller unit enables a 401A, 420A or 490A series clock to be used as a stopwatch.  
The clock may be programmed to display either :  
Hours, minutes and seconds (hours and minutes for 420A series clocks) - program function 7,  
selection 1.  
Minutes, seconds and1/100th seconds (minutes and seconds for 420A series clocks) - program  
function 7, selection 2.  
Two switches control the stopwatch count, display hold and reset operations. The different methods of  
operation of these switches are illustrated on the following page.  
When a minutes, seconds and 1/100th second display is selected and the display is following the running time  
the 1/100th second character is blanked as it is impossible to read. When the display is held or stopped the  
1
/100th second character appears.  
The 496A Stopwatch controller is connected to the 401A, 420A or 490A clock by means of the three metre  
long, four core cable provided. The interconnecting cable may be extended to ten metres length using a  
screen cable. Please refer to pages 24 and 28 for details of connections to the clock.  
Issue 2.2  
18  
496A Stopwatch Controller - 2  
Stopwatch Count/Hold function options  
Using START - STOP - RESET action  
Using START - HOLD - STOP action  
Program No.  
Selection No.  
Selection No.  
Stopwatch timer and display at zero  
Stopwatch timer and display at zero  
START - STOP  
START - STOP  
Min.  
Min.  
Min.  
Min.  
Min.  
Min.  
Sec.  
Timer starts  
Sec.  
1/100.  
Min.  
Min.  
Sec.  
Timer starts  
Sec.  
1/100.  
1/100 sec display  
blanks during count  
1/100 sec display  
blanks during count  
1:04  
1:04  
START - STOP  
HOLD - RESET  
Sec.  
Timer stops  
Sec.  
1/100.  
1/100.  
1/100.  
1/100.  
1/100.  
Sec.  
Sec.  
1/100.  
Display shows ’SPLIT’ time.  
Timer continues to count. Colons  
flash on/off to indicate hold mode.  
2.10  
2.10  
START - STOP  
HOLD-RESET  
Sec.  
Timer starts  
Sec.  
Min.  
Min.  
Sec.  
Sec.  
1/100.  
1/100.  
Display updates to  
running timer count  
4.30  
4.30  
HOLD-RESET  
Sec.  
Sec.  
Sec.  
Sec.  
Display continues  
to follow timer  
count  
Display shows ’SPLIT’ time.  
Timer continues to count. Colons  
flash on/off to indicate hold mode.  
5.13  
5.13  
START - STOP  
START - STOP  
Sec.  
Timer stops  
Sec.  
Min.  
Sec.  
Timer count stops  
Sec.  
1/100.  
Colons illuminated continuously  
Display shows previous ’SPLIT’ time  
HOLD - RESET  
HOLD - RESET  
Sec.  
Sec.  
Min.  
Sec.  
Sec.  
1/100.  
Display updates to show the time at which  
the START - STOP switch was pressed  
Display & timer reset to zero  
A further HOLD-RESET action will  
reset the timer count and display to zero.  
Note: The count must be stopped to  
enable reset to zero to be actioned.  
Issue 2.2  
19  
Internal Interface Installation  
The 400A series of clocks and calendar clocks may be programmed to synchronise to and to output a wide  
variety of signals. In a number of applications, as detailed throughout this manual, an optional internal  
interface module must be added in order to convert the external signals into the logic levels required by the  
400A series clock or to generate the appropriate output signal levels.  
The required interface module will normally, if specified at time of order, be factory installed during the testing  
procedure prior to dispatch. If it is necessary to subsequently install an interface module in a 400A series clock  
the following steps must be taken.  
Ensure that any power supply to the clock is completely disconnected.  
Place the clock on a conductive, grounded, work-surface ensuring that the case body is protected to  
avoid damage to the finish of the case and the front display filter.  
Unscrew the cross-head self-tapping screws which hold the rear panel to the clock case body.  
A ‘Pozidrive’ type screwdriver should be used and the screws saved for re-assembly.  
Locate and remove the battery connection jumper - J4 - which is located above the end of the  
right-hand battery. To avoid loss retain the jumper on one pin of the J4 header.  
By reference to the drawing below, locate the ten pin vertical header - J5 - and remove the  
standard jumper connecting pins 2 and 3.  
The optional interface module must be installed with the ten way female socket mating with header  
- J5. The body of the female socket must be towards the square processor chip and on the side of  
the interface module away from the transformer and batteries. The side of the module carrying  
surface mounted components must be towards the batteries and transformer.  
Ensure that the module socket is correctly aligned with the - J5 - header pins.  
Ensure that the flat, 20 way, interconnecting cable assembly between the display printed circuit  
board and the power/logic printed circuit board is correctly in place with the cable mounted socket  
securely seated on the shrouded board mounted plug - J6.  
Replace the J4 jumper to re-connect the battery.  
Carefully replace the back cover of the clock ensuring that no strain is placed on the interconnecting  
cables. All of the original retaining screws must be replaced to ensure electrical and mechanical  
safety and EMC screening. If any screws have been misplaced they may be replaced with No. 4 x 3/8”  
self tapping countersunk screws.  
Jumper required for standard operation  
- remove to fit interface option module  
program memory  
processor  
J4  
J4  
P95/01A  
J6  
Typical module installed  
J4 - Remove jumper to  
disconnect battery  
J5 - Interface module connector  
Issue 2.2  
20  
Internal Interface Function Options  
Synchronisation Mode  
Stand-alone  
None  
None  
None  
None  
1
4
4
4
4
4
4
8
8
8
4
4
8
8
4
4
8
8
4
4
Impulse  
2 -7  
8
8
4
8
8
W482 Time Code  
8
4
8
8
MSF & DCF Radio  
Time Code  
9 - 12  
4
4
4
4
4
IRIG-B & afnor  
Nf S 87-500 Code  
404.I 13 -14  
8
8
4
8
8
4
4
4
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
EBU/SMPTE  
Time Code  
404.E 15 - 16  
8
8
400A Local  
Slave Mode  
None  
17  
4
8
8
8
8
8
RS232  
Serial Ascii  
404.2 18 - 20  
RS485  
Serial Ascii  
404.4 18 - 20  
H310  
Time Code  
None  
21  
4
8
Mobaline  
Time Code  
None 22  
8
4
4
8
8
GPS code from  
488GPS System  
None  
23  
8
System configurations indicated by 4 are available. Configurations indicated by  
8
are not available.  
Serial RS232 or RS485 outputs require an internal 404.2 (RS232) or 484.4(RS485) module. 400A Master  
Clock output operation requires an internal 404.M module.  
Issue 2.2  
21  
Special Operating Modes  
Temperature Display  
Two temperature display modes are available. The temperature may be displayed continuously or alternately  
exchanged with the hours and minutes time display. When the alternate time/temperature display mode is  
selected the period between display changes may be adjusted by the user.  
An external type 406 Temperature Sensor module is required to allow temperatures in the range -17°C to  
+50°C to be displayed. The 406 module is normally supplied with a three core, 5m connecting cable which  
may be user extended up to a maximum of 100m. The connection of the module to the 400A series clock is  
illustrated on page 28 of this manual.  
The 406 module is housed in a two part, clip together, ventilated case measuring 70mm x 70mm x 25mm  
deep. The module may be mounted on a suitable vertical surface, either by the use of two strips of double  
sided tape or by mechanical fixing via two screws through the marked positions in the detachable base plate  
of the unit. The module must be mounted in a position where it is not subject to direct rain or other water  
spray.  
Please refer to pages 4 - 9 of this manual for programming information.  
Important note: The clock should be programmed to the required temperature display function with the  
temperature sensor disconnected. The temperature sensor must be connected to the clock after the required  
display mode has been programmed.  
To program a 400A series clock to display temperature information program function 7 should be set to  
selection `C’ to display alternating time and temperature or selection °’ to display the temperature only.  
The temperature sensor is factory calibrated to +/- 1°C. However any temperature display system is subject to  
errors caused by installation location related environmental conditions. The correct temperature should be  
established by reference to an accurate shielded thermometer. Program function 8 allows the displayed  
temperature to be corrected to compensate for errors, when program function 8 is selected the display flashes  
on/off showing the adjusted temperature. The displayed value may be adjusted, up or down by up to 5  
degrees, to the required corrected value by use of the `B’ setting switch. The correction factor is permanently  
stored in non-volatile memory.  
Program function 13 allows the `hold time’ between display changes to be set in the range 1 to 15 seconds.  
Note that the alternating cycle is always returned to show time information at the start of each new minute.  
Local Master Clock Mode  
The local master clock mode enables any 400A series clock, when fitted with an internal 404.M interface  
module, to control up to ten 400A clocks operating as slaves with a maximum cable length of 200m.  
A 400A clock will only operate as a `local master’ clock if, in addition to having a 404.M module installed, it  
is maintaining its timekeeping from the internal high stability crystal (stand-alone synchronisation mode) or it  
is synchronised to MSF or DCF radio time code via a 484 series receiver.  
Any 400A clock will operate as a `local slave’ as the interface circuit is present as standard.  
The master clock should be programmed, by reference to pages 4 - 9 of this manual, as follows:  
Program function 3 - Synchronisation mode - selection 1, 9, 10, 11 or 12 as appropriate  
Program function 7 - External Controller mode - selection 0  
Program function 9 - Serial Output mode - selection 0  
Each slave clock should be programmed as follows:  
Program 3 - Synchronisation mode - selection 17  
The slave clocks should be connected in parallel to the master clock, by reference to the connection diagrams  
shown on page 28 of this manual, using a single twisted pair cable.  
The interconnecting cable may be unscreened in the majority of installations but should be screened in the  
presence of high levels (1Vm) of radio frequency emissions or when the interconnecting cable runs are  
adjacent to machinery or equipment likely to produce significant levels of electrical noise.  
If screened cable is used the screen should be grounded at the 400A local master clock end only.  
Issue 2.2  
22  
Radio Time Code Synchronisation  
The 400A series clocks will, when connected to an appropriate 484 series radio receiver and programmed for  
radio time code synchronisation, automatically synchronise to the radio time code information transmitted  
from radio station DCF located at Mainflingen near Frankfurt or from MSF at Rugby. The clock may display  
BST - program function 3, selection 9 - (MSF synchronised), CET - program function 3, selection 11 - (DCF  
synchronised) or UTC (GMT) from either MSF - selection 10 - or DCF - selection 12. The DCF signal is  
transmitted at 77.5KHz and is derived from an atomic clock at the Physics Institute of Brunswick. The MSF  
signal is transmitted at 60KHz and is referenced to the Caesium Beam Oscillator at the National Physical  
Laboratory.  
The type 484.02 (MSF) and 484.03 (DCF) time signal receivers are housed in a compact weather-proof case  
and are connected to the clock or master clock by a single cable pair. In many locations the receiver will  
operate within the building. In difficult reception areas, where an external mounting point is required, the  
receiver unit may be located up to 200 metres from the clock.  
The type 484.06 (MSF) and 484.07 (DCF) time signal receivers are low cost units for internal use only.  
Installation  
The 484 series radio time code receiver should be mounted:  
At least 2 metres from the 400A series clock.  
At the greatest practical distance from:  
Other electrical equipment including computers, fluorescent lights and signs, metal girders and  
reinforced concrete walls. Any other sources of electrical noise.  
Preferably on the outside of the building (484.02 and 484.03 only) as high as possible. The case is  
weatherproof to IP65 but it is preferable to provide some protection from direct rain.  
With the cable entry on the lower face of the case (484.02 and 484.03).  
The 484 series receiver may be connected to the 400A series clock directly by means of the cable provided or,  
at a greater distance, by means of a suitable extension cable.  
At distances of up to 10 metres unscreened two core cable may be used. At greater distances, or in areas of  
high electrical noise, a two core screened cable must be used with the screen grounded at one end only. The  
maximum recommended distance between the receiver and master clock is 200 metres.  
Alignment  
The 484.02 and 484.03 radio receivers have dual ferrite antenna which normally permit location regardless of  
orientation to the transmitter. The receiver is mounted by means of the four fixing holes in the rear surface  
which are accessed after removing the front cover. The four mounting holes are located outside of the central  
sealed compartment. The 484.06 and 484.07 receivers have a single antenna element and are supplied with  
an adjustable mounting bracket to enable orientation with the longest face of the receiver at 90° to the  
direction of the transmitter.  
The front cover of the 484.02 and 484.03 receivers may be removed to enable an indicator LED to be viewed.  
The indicator LED for the 484.06 and 484.07 receiver is located in the front face of the unit. The alignment of  
the receiver is correct when the LED flashes on/off once per second.  
Signal Reception  
Under normal circumstances the DCF signal provides reliable operation at distances of up to 1500km. MSF  
signals are normally usable up to 1000km. Greater operating ranges are possible at night. The received and  
decoded signal provides an operating accuracy of better than +/- 20ms and provides completely automatic  
seasonal time changes.  
In best conditions the 400A series clock will take three minutes to synchronise with the transmitted time code  
from either DCF or MSF. When the 400A series clock is `locked’ to the transmitted signal, the colon between  
the hours and minutes characters is illuminated continuously. During periods of signal failure or signal  
corruption the clock will maintain timekeeping using its internal high stability quartz crystal oscillator and the  
colons will flash on/off every second.  
It should be noted that MSF is off the air for maintenance purposes from 10:00 to 14:00 on the first Tuesday  
of each month and usually for up to two weeks during the summer months for annual maintenance. The MSF  
transmission status can be checked by telephoning 020 8943 6493.  
Issue 2.2  
23  
Mounting Details - 400A.02 Series Panel Mounng Clocks  
Fit three supplied clamps  
into case slots  
Panel  
6 way plug for  
external system  
connections  
(supplied)  
Side View  
Mains or low  
voltage power  
supply connection  
145  
144  
132  
WARNING  
ISOLATE MAINS  
BEFORE REMOVING  
COVER  
Refer to page 28  
72 58  
for details of external  
system connections  
230 VOLTS  
AC  
Rear View  
A
B
C
Front View  
401.02  
Time, Date & Program  
Setting Switches  
A
B
C
Front View  
420.02  
Issue 2.2  
24  
Mounting Details - Ceiling Suspended Cases  
mounting rose & upper  
tube supplied by customer  
20mm tube  
50mm square  
connecting section  
mains & data cable  
suspended ceiling  
20mm support tube  
painted to  
BS0055/RAl9010  
single or double  
sided clock  
Case style .SS. - ’X’ = 58  
Case style .DS. - ’X’ = 120  
’X’  
Issue 2.2  
25  
Mounting Details - Flush Mounting Cases  
Flush Fitting Panel Case  
Flush Fitting Case with Mounting Box  
3
55  
80  
6
’X’ + 6  
’X’  
6
- maximum panel thickness  
22  
Spring loaded mounting spigot  
’X’ = Standard surface mounting  
case body height  
Steel mounting box  
Issue 2.2  
26  
Mounting Details - Surface Mounting Cases  
16  
3o  
Model  
Case Size  
L x H x D  
Fixing  
Centres  
401A.05 305 x 90 x 58  
420A.05 240 x 90 x 58  
420A.06 240 x 90 x 58  
450A.05 550 x 90 x 58  
451A.05 550 x 90 x 58  
452A.05 480 x 180 x 58  
453A.05 480 x 180 x 58  
454A.05 300 x 300 x 58  
460A.05 460 x 90 x 58  
490A.05 300 x 300 x 58  
195  
130  
130  
440  
440  
370  
370  
190  
350  
190  
6o  
Issue 2.2  
27  
External Interface Connections  
External Interface Connector  
Supply Voltage Label  
A
B
C
230 VOLTS  
AC  
WARNING  
ISOLATE MAINS  
BEFORE REMOVING  
COVER  
Time, Date & Program Setting Switches  
Brown  
Blue  
- Live  
- Neutral  
110 or 230V AC Power Supply Connection Cable  
Green & Yellow - Earth  
Red  
+12, 24 or 48V dc  
- 0V dc  
Blue  
12, 24 or 48V DC Power Supply Connection Cable  
Green  
- Earth  
484 Series DCF or MSF  
EBU/SMPTE Time Code  
Radio Time Code Receiver  
Green or  
uncovered  
Connector  
polarity  
is not critical  
Red or clear  
Requires 404.E internal interface  
RS232 Serial ASCII  
Red  
496A Stopwatch Controller  
Black  
Yellow  
Ground  
TX data  
RX data  
Requires 404.2 internal interface  
RS485 Serial ASCII  
Blue  
Red  
Blue  
402A Up/Down Stopwatch  
Controller  
406 Temperature Sensor  
Green  
Data - A  
Data -B  
Requires 404.4 internal interface  
Local Master Operation  
Alternate Polarity 12-24v  
impulses*  
* = Connector  
polarity  
is not critical  
W482 Time Code*  
H310 Time Code*  
’Local Slave’ Mode*  
Green  
Red  
’A’  
’B’  
Requires 404.M internal interface  
For control up to ten off 400  
series ’Local Slave Clocks’  
Uni-polar 12-24v impulses  
’A’ = common, ’B’ = pulse  
ML time code  
IRIG-B Time Code  
Afnor NF S 87-500 Time Code  
RS232 ’switch trigger’  
Red  
Connector  
polarity  
is not critical  
Green  
Requires 404.I internal interface  
Issue 2.2  
28  
Program Option Record Sheet  
Date  
Function  
Program  
No.  
1
Display brightness  
Hour display mode  
Synchronisation mode  
Run mode  
2
3
4
5
Time zone  
6
GPS time offset  
7
External controller mode  
Temperature adjustment  
Serial output format  
Baud rate  
8
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
Bit length  
Parity  
Display Hold Time  
Seasonal time change-over mode  
Special display mode  
Number of languages  
First language selection  
Second language selection  
Third language selection  
SA  
SB  
SC  
SD  
402 Stopwatch Controller count direction  
402 Stopwatch Controller hold mode  
402 Stopwatch Controller display mode  
402 Stopwatch Controller alarm time  
Clock Type  
Serial No.  
Issue 2.2  
Vortex Communications Ltd  
75 The Grove, Ealing LONDON W5 5LL  
Email:  
info  
@vtx.co.uk  
Web:  
www.vtx.co.uk  
Telephone:  
Fax:  
+
+
44 (0 )20 8579 2743  
44 (0 )20 8840 0 0 18  
Issue 2.2  

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