SACO 16D3 Annunciator unit - ABB Group · sealable locking screw. The lid also has an IP 54...
Transcript of SACO 16D3 Annunciator unit - ABB Group · sealable locking screw. The lid also has an IP 54...
SACO 16D3Annunciator unit
User´s manual and Technical description
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1MRS 751354-MUM EN
Issued 99-09-08Version A (replaces 34 SACO 16D3 EN1)Checked EPApproved EP
Data subject to change without notice
SACO 16D3Annunciator unit
Table of contents Features ........................................................................................................................................ 3General ......................................................................................................................................... 3Area of applications ...................................................................................................................... 3Description of functions ............................................................................................................... 4
Introduction ........................................................................................................................... 4Mechanical construction ......................................................................................................... 5Field contact circuits ............................................................................................................... 6Alarm channel functions ......................................................................................................... 6Visual alarm indication ........................................................................................................... 8Standardized operational sequences ........................................................................................ 8First-out indication ............................................................................................................... 10Event register ........................................................................................................................ 10Event register for the serial communication .......................................................................... 11Auxiliary outputs .................................................................................................................. 12Group alarm reflash signals ................................................................................................... 13Audible device output ........................................................................................................... 14Self-supervision output ......................................................................................................... 15Interlockings ......................................................................................................................... 16Serial communication interface ............................................................................................. 18Synchronizing of the blinking sequence ................................................................................ 18Programming ........................................................................................................................ 19Auxiliary power supply system .............................................................................................. 19
Application ................................................................................................................................. 20Mounting ............................................................................................................................. 20Terminals and wiring ............................................................................................................ 21Start-up ................................................................................................................................. 22Operational test .................................................................................................................... 22Legend plate ......................................................................................................................... 22Changing the mode of operation for relays on SWOM 16A1 .............................................. 23Selection of output contact mode for output relay on SWIM 2A1 ....................................... 24Operation instructions .......................................................................................................... 25First-out alarm indication ..................................................................................................... 26Event sequence register ......................................................................................................... 27
Programming ............................................................................................................................. 28Programming technique ....................................................................................................... 28Programming push-buttons .................................................................................................. 30Channel related parameters ................................................................................................... 30
Selection of channel input delay ...................................................................................... 30Selection of channel resetting delay ................................................................................. 30Selection of field contact type or pulse counter ............................................................... 31Selection of channel-specified indications ....................................................................... 31Configuration of pumping supervision ........................................................................... 31Configuration of reflash group alarms ............................................................................. 31
Module related parameters .................................................................................................... 32Selection of mode of operation for the reflash output relays ........................................... 32Selection of interlocking configuration ........................................................................... 33Selection of annunciator SPA bus slave address .............................................................. 33Selection of alarm sequence type ..................................................................................... 34Selection for the serial communication port .................................................................... 34
Parameter selection key ......................................................................................................... 35Parameter chart ..................................................................................................................... 36Channel interlocking scheme ................................................................................................ 37Remote information to and from the alarm annunciator ...................................................... 38Event codes ........................................................................................................................... 42
Technical data ............................................................................................................................ 42Testing ....................................................................................................................................... 44Maintenance and repair .............................................................................................................. 44Exchange and spare parts ............................................................................................................ 45Ordering information ................................................................................................................. 45
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Features SACO 16 D3 is a self-contained microprocessorbased multi channel alarm annunciator unit
16 contact operated on/off alarm or pulse count-ing channels per unit
16 signal follower relay outputs + two groupalarm outputs or alternatively 16 group alarmoutputs
Relay output for audible alarm and self supervi-sion
LEDs for visual alarm indication
Fully programmable by means of push-buttonson the front panel or via the serial communica-tion interface
Numerical display for first out alarm indication,event sequence reporting and programming
Event register for the 50 latest events
Serial communication interface for easy con-nection of the annunciator unit to a monitoringand/or control system.
Improved system reliability backed up by a sophis-ticated self-supervision function comprising bothhardware and software watchdog functions
High immunity against electrical interferenceand an enclosure to IP 54 when panel mounted
General The alarm annunciator unit type SACO 16D3is a part of the integrated substation secondaryequipment system SPACOM.
The on/off annunciator unit is a fully self-contained compact microprocessor based de-vice suitable for use as stand-alone annunciator,but also as data acquisition, recording or controlunit, either stand-alone or integrated into asystem.
The annunciator unit is provided with 16 chan-nels for operation from NO or NC field con-tacts. The unit is furthermore provided withfour auxiliary output relays, one for control ofan audible device (horn, buzzer etc.), one iscontrolled by the internal self-supervision sys-tem and two for general retransmission of indi-vidual or group alarm signals. The unit is alsoprovided with two control inputs for externalacknowledge and reset functions. The alarmannunciator unit is fully self-contained includ-ing an integral power supply unit generating theinternal supply voltages as well as the externalfield contact voltage, which also is used in theexternal acknowledge/reset circuits. Thus noseparate power units are needed for the fieldcontact circuits.
The unit is provided with 20 output relays forsignal transfer. Two of these relays are used asgroup alarm outputs, one is to be used forcontrolling an audible device and the other forthe internal supervision system. The other 16output relays can be used either as input signalfollowing outputs or as group alarm outputs.
The microprocessor module is a standardized100 mm x 160 mm Euro-card printed circuitboard (PCB) which also functions as the basicelement in large alarm annunciator systemsmechanically designed according to the 19 inchrack and cabinet system (SACO 64D4).
The modern microprocessor technology used inthe SACO system offers new features which notonly extend the conventional area of applicationfor alarm annunciator systems but also increasethe reliability of the annunciator systems. Themost significant feature of the new annunciatorsystem is the outstanding system flexibility. Theannunciator is truly field programmable bymeans of push-buttons on the front panel, orfrom a PC via the serial communication, for easyselection of a proper operational scheme andsuitable parameter values in the intended appli-cation.
Area ofapplication
The annunciator unit SACO 16D3 has beendeveloped and manufactured to meet the mostdemanding specifications regarding reliabilityin operation and immunity against interferencewhich can be expected from a modern annun-ciator system for use in:- electric power plants and substations- industrial plants and processes- marine vessels and off-shore installations- technical installations in buildings- water treatment plants, etc.
Furthermore the annunciator system can beused in any conventional application wherethere is a demand for a continuous supervisionor monitoring of a number of contacts to pro-vide an immediate fault recognition, fault iden-tification and a visual/audible alarm in order tocall attention to an abnormal process conditionor as a pulse counter for change of state of aprocess parameter under normal process condi-tions.
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Description offunctions
Introduction
The annunciator unit SACO 16D3 is a flexibleand versatile annunciator package comprising16 input alarm channels. Its main purpose is tosupervise a given process and to call attention toabnormal process conditions by the use of indi-vidual visual LED indicators and a commonaudible device. The annunciator system can alsobe connected to an event recorder system, bymeans of which printed records with channelidentification, date and time, are obtained when-ever a change in the state of an alarm channeloccurs.
The basic functions of the annunciator unit areillustrated in the block diagram below.
The alarm channel inputs are connected to thefield contacts. The field contacts, i.e. the outputcontacts of the devices sensing the process con-dition can be of the normally open (NO) or thenormally closed (NC) type.
The central unit continually compares incom-ing channel information with previously storedinformation. When a change of state has beendetected, the alarm channel is activated and ifthe situation persists for a longer time than thespecified channel input delay time, the eventwill be registered. The visual indicators and theauxiliary output relays respond to the situationaccording to the functional program they havebeen given.
The annunciator unit can be acknowledged andreset with a push-button on the front panel or bymeans of external remote push-buttons.
The annunciator unit comprises an internalevent register. The unit is provided with a serialcommunication interface and thus it can beconnected to a local data collector, e g a SRIO500M/1000M, by means of a serial communi-cation link. The information stored in the eventregister of the annunciator unit can be read outvia the serial communication link.
Internal supply
SWIM 2A1
Alarm channels 1...16
1 2 16
Supply1 2
16
16
Flatcable connector
Serial communication
SWOM 16A1
1 2 16
SPA-bussconnection
Self-supervision andaudible alarm output
Group reflashoutputs
1 2
Remotereset/ackn.
SACO 16D3
Relay outputs 1...16
Fig. 1. Block schematic diagram for the annunciator unit SACO 16D3.
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Mechanicalconstruction
The annunciator unit is composed of standard-ized 100 mm x 160 mm "Euro-card" plug-inmodules. An annunciator unit type SACO 16D3consists of the following modules:- a power supply module type SPGU 240A1 or
SPGU 48B2- an Input/Output module type SWIM 2A1- an alarm annunciator module type SWPM
3A1- an output relay module type SWOM 16A1
The enclosure of the annunciator module con-sists of an extruded aluminum profile to whichthe connection module SWCM 11A1 has beenfixed to form the mounting case. The connec-tion module comprises the plug-in PCB con-nectors and the screw terminals to facilitate allexternal connections. The connection modulealso comprises a 48 V dc power unit for voltagesupply to the field contact circuits.
The annunciator unit is intended for flushmounting. The depth behind the panel can bereduced by 40, 80 or 120 mm by using a raisingframe.
The cast aluminum alloy mounting frame isstove-finished with a beige semi gloss carbamideresin paint and provided with a rubber gasketwhich provides a degree of protection by enclo-sure to IP 54 between the mounting case and thepanel.
The mounting case is also provided with a glass-clear UV-stabilized polycarbonate lid with asealable locking screw. The lid also has an IP 54classification when closed with the finger screw.
The screw terminal blocks to facilitate all inputand output wire connections are located on theback of the mounting case. One or two max. 2.5mm2 conductors can be connected to eachterminal. No terminal lugs are needed. A con-nection diagram is shown on one of the sides ofthe case.
FAULTON
Connection moduleSWCM 3A1
Mounting case
Power supply module SPGU 240A1 or SPGU 48B2
Output relay module SWOM 16A1
Lid
Front panel
Fig. 2. Plug-in modules of the annunciator unit SACO 16D3.
Input/output module SWIM 2A1
Alarm annunciatormodule SWPM 3A1
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Field contact circuits The electrical contacts of the devices sensing theprocess condition must be potential-free whilethe annunciator unit itself generates the 48 V dcfield contact voltage. This specification alsoapplies to the remote control inputs.
The power unit supplying voltage to the fieldcontacts also provides a full galvanic isolationbetween the field contact circuits and the elec-tronic circuits of the annunciator unit it self aswell as the system earth. The channel inputs areprovided with transient suppression circuits andinput voltage limiters.
The alarm channels can be individually pro-grammed for operation from normally closed(NC) or from normally open (NO) contacts.The annunciator is provided with an integratedfield contact voltage supervision function. Whena fault is detected the LED indicator marked"FAULT" on the front panel is switched on andinternal supervision output relay operates. Thefault message can also be transmitted over theserial communication link to the higher systemlevels.
TRANSIENTSUPPRESSION
To alarmchannel
48 VDC
From the internalsupply module
0 V
48 V
Field contact
Galvanic isolation
Fig. 3. Principle of alarm channel input.
Alarm channelfunctions
An alarm channel is composed of a number offunctional blocks illustrated below. The lists ofvariables underneath some of the blocks indi-cate that a certain parameter can be selected
from a set of given values, i.e. the parameter canbe programmed. The selected parameter is shownin the numerical display when called up duringthe programming.
Fig. 4. Block schemating diagram for an alarm channel.
SEQUENCELOGICS
Reflash B
& Reflash A
Interlocking output (0)
Ack.Reset
1
Alarm indicator
Audible alarm
Reflash Ainterlockinginput (1)
Channel interlockinginput (2)
FIELD CONTACTSELECTION
INPUT DELAY RESET DELAY
48 V
Fieldcontact
Galvanic isolationand transientsuppression
0 = NO field contact1 = NC field contact2 = NO field contact, no return function3 = NC field contact, no return function4 = NO and NC field contact5 = pulse counter, counts on closing function6 = pulse counter, counts on opening function7 = pulse counter, counts on both closing and opening function
0 = 5 ms1 = 20 ms2 = 100 ms3 = 1 s4 = 5 s5 = 20 s6 = 60 s7 = 160 s
0 = 5 ms1 = 20 ms2 = 100 ms3 = 1 s4 = 5 s5 = 20 s6 = 60 s7 = 160 s
-
0 = sequence 0-41 = sequence 0-4, audible alarm also at dis- appering alarm2 = field contact following
Silence
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After the galvanic separation and the transientsuppression the incoming field contact signal isanalyzed and identified in respect of signal type.Seven input signal types are specified:0 = signal from normally open contact, with
return function1 = signal from normally closed contact, with
return function2 = signal from raising edge only3 = signal from falling edge only4 = signal from raising and the falling edge5 = pulse counter, counts by contact closing6 = pulse counter, counts by contact opening7 = pulse counter, counts by contact opening
and closing
The input signal types 2, 3 and 4 are usuallyselected when event recording is used. For ex-ample the signal indicating that a circuit breakerhas tripped is noticed and registered with itsraising edge only.
The pulse counter is used only when the data istransferred to a higher level system. The pulsecounter channels sequence logic is to be set tosignal following without blinking and audiblealarm functionality (S4 = 2). The reflash relaysconnected to the pulse counter channels are tobe configured as ISR, Impulse Shaping Reflash(S1 or S2 = 2).
The channels configured as pulse counters countspulses up to 3 Hz. The capacity of the counteris 0...29999. The counter is freely presettablewithin this range. When the pulse counter reaches29999 it starts over again from 0.
The counter can be read and set only via the SPAbus with the channel specific parameter V5.When the parameter V5 is read the present valueof the pulse counter is received, when written thepreset (start) value for the pulse counter is given.
The counters memory circuit has no batterybackup, hence the stored values are lost if theauxiliary power drops off and the counter startsover again from 0 or its preset value when theauxiliary power returns.
When a change of status has been detected for anincoming field contact signal and the new statusexceeds the channel input delay in duration, theoperation sequence memory is activated.
The channel input delay can be selected from aset of eight alternative values from the frontpanel:0 = 5 ms1 = 20 ms2 = 100 ms
3 = 1 s4 = 5 s5 = 20 s6 = 60 s7 = 160 s8 = another value, which is programmed via the
serial interface
Via the serial interface the channel input delaycan be freely programmed. Refer to the param-eter list in the end of this manual (S1).
If the change-of-status of a field contact signalmeans that the signal returns to normal, thechannel reset delay time must be exceeded be-fore the change is registered. The delay timealternatives are the same as those for the inputdelay but the channel reset delay times areselected separately (S2).
When the operation sequence logic circuits areactivated, the visual alarm displays start func-tioning according to the programmed opera-tional sequence (flash sequence). The most suit-able of five standard operational sequences ischosen by programming. All changes of status ofthe incoming signals are stored in the eventregister irrespective of the selected operationalsequence for the visual alarm displays.
The sequence memory is acknowledged/reset inthe following order:SlLENCE = resets the audible alarmACKNOWLEDGE = indicates recognition of
an alarmRESET = returns the channel to
the normal state
The alarm channels each generate two reflashsignals A and B which can be linked to theauxiliary reflash output relays, for details pleaserefer to section Configuration of reflash groupalarms on page 31.
Each alarm channel is also provided with twointerlocking signal inputs and one interlockingsignal output. The interlocking signal inputs/outputs are:0 = interlocking signal output. Can be con-
nected to the other channels1 = interlocking signal input. Blocks the reflash
signal A2 = interlocking signal input. Blocks the whole
alarm channel, returns as acknowledgedalarm
3 = interlocking signal input. Blocks the wholealarm channel, returns as a new alarm
The interlocking signal output is also alwaysactivated by an interlocking signal input beingactivated in the same channel.
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Visual alarmindication
The state of the alarm channel is indicated bysuper-bright LEDs. A legend plate of transpar-ent film is inserted in a slot at the edge of the alsotransparent plastic overlay. For more informa-tion, see section "Legend plate", page 22.
The first-out indication is accomplished withthe four digit display on the front panel. Theinformation stored in the event register can alsobe displayed on the digital display.
Acknowledge and reset is done with a push-button located on the plastic cover on the frontof the unit or with two external push-button.The reset indicator LEDs on the front panelmarked SILENCE, ACK, RESET/TEST showswhich of the actions is to be performed. Thereset sequence depends on the operational se-quences.
FAULT
ON
Four-digit seven-segment display
Reset indicator LEDsSILENCEACKNOWLEDGERESET/TEST
Acknowledge/Reset push-button
Channel window with indicatorLED and legend text
Event register step-by-stepread-out push-button
Fig. 5. Alarm indicators and push-buttons of the annunciator unit SACO 16D3.
Standardizedoperationalsequences
The annunciator unit is supplied with five stand-ardized field-selectable operational sequence al-ternatives of which the most adequate one for acertain application is selected. The operationalsequences are:0 = ISA A, automatic reset1 = ISA A-1, automatic reset, separate reset of
audible alarm2 = ISA M-1, manual reset, separate reset of
audible alarm3 = ISA R-1, manual reset, separate reset of
audible alarm, visual ringback on return4 = DIN 19235, manual reset after return to
normal if acknowledged while alert, visualringback on return if acknowledged beforereturn to normal
The above operational sequences are commonto all the 16 channels. However the sequencescan be altered on a per-channel basis accordingto the following:0 = indications according to the selected sequence1 = indications according to the selected sequence
but including audible alarm also on return.Valid only for sequences ISA R-1 and DIN19235
2 = field contact following indication withoutaudible alarm
The acknowledge/reset operations required aredetermined by the annunciator unit itself andthe acknowledge/reset operation being askedfor is pointed out with the indicator LED. Theannunciator unit is provided with two externalcontrol inputs, one for remote resetting of theaudible device and an other for remote acknowl-edge/reset of the alarm channels.
NOTE!The acknowledge/reset push-button on the frontpanel also operates as a visual display test but-ton. The test is accomplished by pressing theacknowledge/ reset test button continually forapproximately 1 second which causes all LEDindicators to light up and the digital display toshow 8888. The visual displays can not be testedif an alarm channel is unacknowledged or notreset. Pressing the test button for approximately15 s activates the self-supervision auxiliary out-put relay and the FAULT LED.
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Automatic resetISA A
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
Field contact
Acknowledge
Reset of audible output (Silence)
Audible output
Field contact
Visual alarm indicator
Acknowledge
Audible output
Field contact
Visual alarm indicator
Acknowledge
Reset of audible output (Silence)
Audible output
Reset
Field contact
Visual alarm indicator
Acknowledge
Reset of audible output (Silence)
Audible output
Reset
Field contact
Visual alarm indicator
Acknowledge
Reset of audible output (Silence)
Audible output
Reset
Automatic reset, separate reset of audible outputISA A-1
Manual reset, separate reset of audible outputISA M-1
Manual reset, visual ringback and separate reset of audible output ISA R-1
Manual reset, visual ringback if acknowledge is done before the alarminput returnsto normal state, separate reset of audible outputDIN 19235
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
ONOFF
Visual alarm indicator
Fig. 6. Selectable alarm sequences.
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First-out indication The annunciator unit is provided with a first-out indication feature. The alarm channel whichoperates first is indicated in the digital displaywith a letter A and the channel number. Thefirst-out indication always relates to the first
incoming alarm after an annunciator acknowl-edge/reset being performed. The first-out indi-cation can be reset with the acknowledge/resetpush-button.
Channel 1
Channel 2
Channel 3
Channel 16
First-outalarm memory
Reset
Digital display
Not used
Type of eventA = incoming alarm
Channel number1...16
Fig. 7. Principle of the first-out alarm indication.
Event register For evaluating of disturbances, the alarm an-nunciator unit has been provided with an eventregister, which enables the incoming and disap-pearing alarms to be read out. The register holds9 events which can be read out on the digitaldisplay step by step using the push-button ↑.
The latest (youngest) information, i.e. addressNo 9, is read out first and then the events arerepresented in the display one by one untiladdress No 1, which represents the oldest infor-mation, is reached.
Chronological orderDecimal point indicates first- out alarm after previousacknowledge Type of eventA = incoming alarm- = disappering alarm- - - - = acknowledge
Channel number 1...16
Channel 1
Channel 2
Channel 3
Channel 16
Eventregister
Acknowledge
Digital display
Youngest event
The information of the event register is read out with thepush button
Fig. 8. Operating principle of the event register.
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Event register for theserial communication
The annunciator unit incorporates a separateevent register which contains information onthe type of event and the channel number in-cluding a synchronous time stamp. This enablesa higher level system to read out events from theannunciator over the SPA bus serial communi-cation. The event register holds 50 events. Thetime stamps are relative and the time span ismax. 60 s. The clocks of the interconnectedunits are synchronized, generally once per sec-ond, by the higher level system (the SPA bus
master). The time resolution between the chan-nels is 5 ms.
The annunciator unit also includes a channelmatrix register which operates in parallel withthe event register and in which each channelcorresponds to one bit. If a channel is activatedduring an overflow situation of the even register,the corresponding bit in the matrix register isactivated.
Fig. 9. Event registration in SPACOM systems.
Overflow
Overflow
Time Slave Channel Code21
500
Adding of users text
Event register
Clock
SPA-bus
Synchronization
SRIO
Printer
Host systemTime Slave Channel Code
Channel CodeTime
Events
Clock0 - 60 s
SACO alarm module
Eventregister
Overflow
1 2 3 45 6 7 89 10 11
14 16
Event overflow matrix register
SPA-bus
Clock0 - 60 s
Time123....n
Channel Code
Events
SPA-bus
SPACOM protective relay module
Eventregister
1213 15
Time marking: year, month, day, hour and minute
123.......
484950
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Auxiliary outputs The annunciator includes four auxiliary outputrelays. Two output relays act as group alarmreflash output elements, one auxiliary outputrelay is dedicated for control of an audible deviceand one relay acts as an auxiliary output elementfor the internal self-supervision function.
Further the annunciator contains a 16-channeloutput relay module, which can be used forgroup alarm purposes or for input signal follow-ing reflashing. The connection is changed bymeans of two band cables, which becomes acces-sible after removing the front panel. The groupalarm connector is marked "GROUP ALARM"
and the connector of the reflash signal cable ismarked "SIGNAL FOLLOWER".
In the group alarm position the first two relayson the relay card operate in parallel with thefixed group alarm relay outputs.
When the relays of the output relay module areused as pure input signal following output ele-ments, the output relays completely follows theinput field signal. Any possible programmedchannel input or output delay is in this caseneglected.
Fig. 10. Principle diagram of reflashes.
1
Grouping
16 Group alarm 16
Group alarm 1
2 Group alarm 2
Field contact 1Alarmchannel 1
Field contact 16Alarmchannel 16
A
B
A
B
Field contact 2Alarmchannel 2
A
B
3 Group alarm 3Field contact 3
Alarmchannel 3
A
B
Selection ofreflash modefor relay 1
Selection ofreflash modefor relay 2
Selection ofreflash modefor relay 16
Selection ofreflash modefor relay 3
Flat-cabel
Flatcabel
Reflash output 1
Reflash output 2
Relay output 1
Relay output 2
Relay output 3
Relay output 4
Relay output 15
Relay output 16
SWOM 16A1
SWIM 2A1
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Group alarm reflashsignals
Each alarm channel generates two reflash outputsignals, A and B, which can be freely linked to thetwo reflash output relays to form two group alarmreflash functions. The two group alarm reflashoutput relays can be given one of the followingmodes of operation selectable by programming,separately for both of the output relays:0 = FCFR, Field Contact Following Reflash1 = AACR, Acknowledge Action Controlled
Reflash
2 = ISR, Impulse Shaping Reflash3 = FCFR + ISR, Field Contact Following
Reflash with a 300 ms interruption of thereflash signal any time a new alarm signaljoins in an already active group alarm bunch
4 = FCFR + AACR, Field Contact FollowingReflash and Action Controlled Reflash (sefigure below)
Channel input delays Channel reset delay
Alarm 1
Alarm 2
Acknowledge
Signal following
Alarm memory following
Pulse type
Signal following with break
FCFR + AACR
Fig. 11. Principle diagram for the different reflash signal types. The alarm signals 1 and 2 are groupedto the same group alarm reflash signal.
NOTE! The reflash signals are always accompa-nied by a certain basic delay. The basic delaytime depends on the number of incoming alarmsignals per time unit and on the number of
internal interlocking levels in use. The basictime delay of the reflash signal is 70 ms if onlyone alarm signal is received within a time periodof 200 ms and if no interlockings are used.
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Audible deviceoutput
Generally the relay output for control of anaudible device operates if one of the 16 alarmchannels is activated. Every channel can also beseparately programmed to deliver an audibleringback when the alarm channel returns tonormal state. If an alarm channel has beenprogrammed for a sequence providing a fieldcontact following visual indication only, noaudible alarm will be generated, please refer to"Standardized operational sequences" on page 8.
The audible device can be silenced by means ofthe acknowledge/reset push-button or by meansof an external control signal applied to the remotesilence control input (17) of the annunciatorunit.
An incoming alarm signal, for which only theaudible alarm has been silenced but the alarmsignal has not been acknowledged nor reset, willnot produce a new audible alarm if the fieldcontact starts "pumping".
Channell 1
Channel 2
Channel 3
Channel 16
Audiblealarmmemory
Reset of audibleoutput(Silence)
Audible devicerelay output
Fig. 12. Principle diagram for the audible alarm.
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Self-supervisionoutput
The annunciator unit is provided with extensiveself-supervision functionality which, in case ofan internal fault or if an internal malfunction isdetected, causes an operation of the self-super-vision auxiliary output relay. The self-supervi-sion system monitors continuously the internalvoltages, the program execution and microproc-essor logic. An internal malfunction of the unitproduces an automatic restart attempt and if thereason for the malfunction has disappeared, thenormal operation of the annunciator unit con-tinues.
If the fault on the program, the microprocessoror the supply voltages is of a permanent nature,the LED indicator marked FAULT is switchedon and the self-supervision auxiliary output
relay drops off (normally energized). At thesame time all the other auxiliary outputs arelocked including the serial communication port.If the voltage of the logic circuits totally disap-pears, the LED indicators marked ON andFAULT are turned off, but in other respects thefunctions are as described above.
If a fault occurs in the 48 V DC field contactvoltage, generated by the annunciator unit, theFAULT LED is switched on and the self-super-vision auxiliary output relay drops off (normallyenergized). The fault information can be sentover the serial communication. If the controlvoltage of the auxiliary output relays disappears,the self-supervision auxiliary output relay dropsoff.
Self-supervisionoutput relay
1
Reflash and communicationinterlocking
Internal self-supervision
Fault
24 v undervoltage
5 V over- and undervoltage
48 V undervoltage
Hardware and softwarewatchdog
The following fault messages can be shown inthe display:
- - -1 = parameter memory circuit not available- - -2 = faulty parameter memory (checksum
error)- - -3 = event register blocked due to field con-
tact "pumping" (se below)- - -4 = undervoltage in field contact circuit
supply
The serial communication is also supervised.The decimal point in the corner to the right inthe display starts blinking if there hasn't beenany serial communication within the last thirtyseconds. The blinking decimal point indicates afault on the communication bus or in the higherlevel system.
If no serial bus is connected to the annunciator,the bus supervision can be taken out of use. Thisis done by giving the parameter V201, "settingof data transmission rate", the value 1(synchout), se the section "Selection for the serialcommunication port", page 34.
To prevent a "pumping" field contact fromblocking the communication to a higher levelsystem, the unit is provided with a setting toindicate how many incoming alarms are allowedfrom one channel within one minute. In case thesetting limit is exceeded the channel is blockeduntil the alarms per minute again goes below theset value. A channel with a "pumping" fieldcontact is indicated as follows:
Channel number
"Pumping"
The indication is reset with the RESET push-button.
The "pumping" supervision is programmed byparameter S11 (channel related settings):
00 = "Pumping" supervision not in use01...99 = Maximum alarms per minute
Fig. 13. Principle diagram for the self-supervision system.
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Interlockings It has been mentioned in the section describingthe functions of an alarm channel that eachchannel is provided with three interlocking in-put types, 1, 2 and 3, and one interlockingoutput type, 0.
The interlocking input type 1 prohibits, whenenergized, only the channel reflash signal type Afrom being transmitted, while the interlockinginput type 2 blocks the whole alarm channel andif the blocking drops of while the channel is stillactive, the channel will be indicated as an ac-knowledged alarm. The interlocking input type3 also blocks the whole channel but returns as anew alarm when the interlocking drops of. Theinterlocking output type 0 is activated by analarm channel being activated or by one of theinterlocking inputs being activated. The featurementioned last enables the annunciator unit tobe programmed with up to eight interlockinglevels.
Note!If more than three interlocking levels are used itwill effect the resolution on the time stamp forthe event register.
The interlockings are distributed between thedifferent channels via eight internal interlock-ing lines, see figure on page 17.
Each channel can be connected to two inter-locking lines. This means that alternatively boththe interlocking inputs of an alarm channel areconnected to two different interlocking lines, orthe interlocking output and one of the inter-locking inputs are connected to two differentinterlocking lines.
When an external interlocking signal is to bebrought into the annunciator unit, one of thealarm channels can be used as an interlockinginput. In this case the alarm channel may begiven the field contact following visual indica-tion sequence (S4 = 2) so no audible alarm willbe generated from the channel, see page 31.
SEQUENCELOGICS
Reflash B
& Reflash A
Interlocking output (0) Acknowledge
Reset
1
Visual indicator
Audible alarm output
Reflash Ainterlockinginput (1)
Channelinterlockinginput (2)
Alarm input(or interlocking input)
Fig. 14. Principles for the interlocking functions of an alarm channel.
17
Example of channelinterlockingconfiguration
An external interlocking signal is connected toinput channel 10 which is configured to give ainterlocking output to interlocking line 1. Whenactive, line 1 interlocks reflash signal type A onchannel 7 and locks channel 8 totally. Channel8 gives also an interlocking output to line 2which in turn interlocks reflash signal type A onchannel 5.
The connections described above have beenmarked with dots on the corresponding lines infigure 15. The programming technique usingthe push-buttons on the front panel is describedon page 33.
To give a good overview of the interlockingconfiguration the figure 15 can be used whenconfiguring the interlocking scheme.
INTERLOCKING GROUPS
1 2 3 4 5 6 7 8
Channel 1/__ Function 1Function 2
Channel 2/__ Function 1Function 2
Channel 3/__ Function 1Function 2
Channel 4/__ Function 1Function 2
Channel 5/__ Function 1Function 2
Channel 6/__ Function 1Function 2
Channel 7/__ Function 1Function 2
Channel 8/__ Function 1Function 2
Channel 9/__ Function 1Function 2
Channel 10/__ Function 1Function 2
Channel 11/__ Function 1Function 2
Channel 12/__ Function 1Function 2
Channel 13/__ Function 1Function 2
Channel 14/__ Function 1Function 2
Channel 15/__ Function 1Function 2
Channel 16/__ Function 1Function 2
TYPE OF INTERLOCKING0 = interlocking output1 = reflash A interlocking input2 = channel interlocking input3= channel interlocking input
Alarm module No___
Interlocking input
0 1
2 10 2
1 1
1 2
Fig. 15. Interlocking diagram.
18
Serial communicationinterface
The alarm annunciator unit comprises a serialcommunication port over which the unit can beconnected to a local reporting and data commu-nication system using the SPA bus protocol.The physical connection for the serial interfaceis located on the screw terminals on the back ofthe unit using terminals 1, 2, 3, 13 and 14 (sefigure 16) The serial interface is according to theRS 485 standard.
Using electrical connection the transfer distanceis about 20 to 30 m depending on the interfer-ence level of the installation. The maximumallowed ground potential difference betweenthe units is ±10V.
A fiber optical connection module, SPA-ZC 17or SPA-ZC 21 is used to connect the unit to afiber optical bus. The transfer distance usingfiber optical media is approximately 30 m forplastic fiber and 2 km for glass fiber.
Note! Because of the disturbant environment(like in substations) where the units are operat-ing it is always recommended to use fiber opticalcommunication.
By using the LON/SPA gateway, SPA-ZC 100,the alarm annunciator might also be connectedto the LON bus.
The SPA bus protocol is described in the docu-ment SPA bus communication protocol V2.5,34 SPACOM 2 EN1 and the LON Talk proto-col is described in the document LON bus -LON Works network in protection and controlsystems; 1MRS750035-MTD EN
The speed of the serial communication is nor-mally 9600 bits/s
Through the serial communication the follow-ing information is read from the unit:- the event registers including the time mark-
ings- the state of the channels and of the system- the programmed parameter values- pulse counter values
The following data can be written to the unit:- time synchronization- audible device reset- alarm channels acknowledge and reset- control of an alarm channel- control of output relays- control of the interlocking channels- setting values- testing of the unit
Synchronizing of theblinking sequence
If several units are located close to each otherwithout any connection to a higher level system,it might be desired to synchronize the blinkingsequences between the units. This is done byconnecting the serial interfaces together and toconfigure one of the units to transmit a synchro-nizing signal (V201=1) and the others to receivethat signal (V201 = 0).
V201 Setting of transmission rate
0 = 9600 bits/s, synch pulse receiver1 = 9600 bits/s, synch pulse transmitter2 = 9600 bits/s3 = 4800 bits/s4 = 2400 bits/s5 = 1200 bits/s6 = 300 bits/s
Fig. 16. Principle lay-out of the serial communication interface.
8V
RTS
Data Data directionon SPA-bus
Rx/Tx
1
2
3
13
14
15
19
Programming The parameter values are stored in the unit in anon-volatile EEPROM memory. Thus the set-ting of parameter values can be performed andchanged by means of the push-buttons on thefront panel or via the serial communicationusing e.g. the SMS 010 software. This meansthat the annunciator unit is fully field-program-mable.
For connecting a PC directly to the serial inter-face of the unit (for parameterization) the cablesSPA-ZP 6A3 and SPA-ZP 21A are used.
The entry to the parameter memory can beblocked by means of a plug selector which islocated on the PCB right behind the front panel,see figure 31 on page 29.
Auxiliary powersupply system
The plug-in power supply module of the an-nunciator unit is specified for supply voltagewithin the range of 80...265 V AC or DC(SPGU 240A1) or 18...80 V DC (SPGU 48B2).
The annunciator unit is equipped with onepower supply module but with two identicalsupply voltage inputs (figure 17). Generallyonly one of the inputs is used, but the annuncia-tor can be supplied from two sources. It must,however, be noticed that the two supply inputs
are galvanically connected. Thus, in case twosupplies are used, it is recommended that thetwo supply sources are galvanically isolated. Ifan ac supply is used, an isolating transformer canbe installed to provide the galvanic separation(figure 18).
The insulation level between the supply sourceand the electronics as well as between the fieldcontact circuits and the electronics is 2 kV, 50Hz, 1 min.
Fig. 17. Principle diagram for the power supply system.
Fig. 18. Example of double power supply arrangement. Supply 1: 220 V AC with an isolatingtransformer 20 VA, 220 V/220 V. Supply 2: 110 V DC supply.
Field contact supply 48 V -
Logic supply 8 V-
Relay supply 24 V -
20
21
22
23
24
Supply 1
Supply 2
SPGU
20
21
22
23
24
Supply 1
Supply 2
220 VAC
110 VDC
SACO 16D3
SPGU
20
Application
Mounting
The annunciator unit is intended for flush mount-ing and provided with two mounting brackets.The depth behind the panel can be reduced bymeans of raising frames. Three raising frames areavailable, 40 mm, 80 mm and 120 mm:
- SPA-ZX 301, 40 mm raising frame- SPA-ZX 302, 80 mm raising frame- SPA-ZX 303, 120 mm raising frame
The corresponding mounting brackets are de-livered along with the raising frames.
The mounting frame is furnished with a rubbergasket which provides a degree of protection byenclosure to IP 54 between the case of theannunciator and the mounting panel.
Raising frame
SPA-ZX 301SPA-ZX 302SPA-ZX 303
209169129
74114154
a b
226
162
136
229
283249
2034
a b
Panel cut-out
214 ±1
139
±1
Fig. 19. Dimension and mounting drawings for the annunciator unit SACO 16D3.
21
SA
CO
16D
3
Mad
e in
Fin
land
12
11
10
9
8
7
6
5
4
3
2
1
24
2
3
22
2
1
20
1
9
18
1
7
16
1
5
14
1
3
60
5
9
58
5
7
56
5
5
54
5
3
52
5
1
50
4
9
72
7
1
70
6
9
68
6
7
66
6
5
64
6
3
62
6
1
84
8
3
82
8
1
80
7
9
78
7
7
76
7
5
74
7
3
96
9
5
94
9
3
92
9
1
90
8
9
88
8
7
86
8
5
L +N –
L +N –
UN
=1
8…
80
V
UN
=8
0…
26
5V
~
RS
81
11
63
-BA
RS
81
11
63
-AA
SE
RIA
L N
O Terminals
Rating plate with typedesignation, serial numberand rated supply voltage
Terminals andwiring
The screw terminal to facilitate all input andoutput connections are located on the rear panelof the annunciator case. Each screw terminalcan accommodate one or two max. 2.5 mm2
wires. No terminal lugs are needed.
A connection diagram is attached to on one ofthe side surfaces of the annunciator case.
Fig. 20. Rear view of the annunciator unit SACO 16D3.
Connections:Auxiliary supply 20-24Protective ground 22Field contact circuits 49 - 72
Acknowledge/reset 16 - 18Reflash outputs 5 - 12, 73-85Serial interface 1 -3 and 13 - 14
9695
9493
9291
9089
8887
8685
8483
8281
8079
7877
7675
7473REL.
1
com
REL.2
REL.3
com
REL.4
REL.5
com
7271
7069
6867
6665
6463
6261
6059
5857
5655
5453
5251
5049
CH1
CH11
CH9
CH10
CH12
CH13
CH14
CH15
CH16
CH2
CH3
CH4
CH5
CH6
CH7
CH8
2423
2221
2019
1817
1615
1413
1211
109
87
65
43
21
+48V
Rx/Tx
SIGNALGND
GROUPAL. 1
+
-RTS
FORSPA-ZC
+
-
N -
L +
N -
L +
RESET
AUD.RESET
GROUPAL. 2
AUD.ALARM
FAULT
+48V
+8V
REL.6
REL.7
com
REL.8
REL.9
com
REL.10
REL.11
com
REL.12
REL.13
com
REL.14
REL.15
com
REL.16
Fig. 21. Connection diagram for the annunciator unit SACO 16D3.
Important 1Make sure that the connected auxiliary supplyvoltage complies with the specification. If twoauxiliary supply voltages are used, both voltagesare to be in accordance with the specified supplyvoltage range.
Also make sure that the Protective ground (22)is properly wired.
Important 2If the annunciator is powered from two separateauxiliary voltage sources, the supply networksmust be galvanically separated e.g. with an iso-lating transformer if the customer does notaccept that the supply networks are galvanicallyinterconnected.
22
Start-up When the auxiliary supply voltage is connected,all active alarm channels are indicated as already
being acknowledged. These alarms are not to befound in the event register.
Operational test The unit is tested by first acknowledged/reset allalarms and then the acknowledge/reset push-button is kept depressed for about 1 second.This move will cause all LED indicators, exceptthe FAULT LED, to be switched on and thedigital display to indicate 8888 as long as thepush-button is depressed. If the acknowledge/
reset push-button is depressed for more than15 s, the self supervision output relay drops ofand the FAULT LED is lit.
The operational test comprises the internal sys-tem circuitry. The field contact circuits andauxiliary devices must be tested separately.
Legend plate The screened plastic overlay is provided withtranslucent windows for the 16 channels. Thechannel legend texts are applied on a drawingfilm also square-ruled to form 16 text fields. Thedrawing film can be inserted in a slot along theleft-hand edge of the front plate, see figure 22.The front plate including the legend text filmand the screened plastic overlay are kept in placeby means of four finger screws.
The legend text may be written with a drawing
ink pen or a typewriter. Together with theannunciator unit a sheet of drawing film com-prising three legend plates is delivered.
The channel text surface comprises 20 mm x 20mm and the text area is ruled with four lines.
NOTE! The starting point for the first line ofthe channel legend text is intended a fewmillimeters from left in order not to cover thevisual LED indicator of the channel.
T 1GROUNDFAULT
TRIP
G 1
MOTOR
GROUND FAULT
RELAY TRIP
Drawn with 2,5 mm lettering guide
Drawn with 1,8 mm lettering guide
1Annunciator unitidentification number
FAULT
ON
SACO 16D3
Fig. 22. Partially withdrawn a drawing film.
Fig. 23. Channel legend text drawing film.
23
Changing themode of operationfor relays onSWOM 16A1
The output relays on the relay module SWOM16A1 can be used in two ways. The output relayscan be used either as field contact signal followeror group alarm output relays.
In order to switch over from one function to theother the front plate is first to be removed byunwinding the four finger screws. Thereafterthe alarm module SWPM 3A1 is withdrawnfrom the case by grasping the knob marked"PULL". Now two flat cables become visible,one with a connector marked "SIGNAL FOL-LOWER" and the other with a connector marked
"GROUP ALARM". The one needed is snappedto the counter connector on the output relaymodule SWOM 16A1, see the figure below.Now the alarm module can be reinserted and thefront plate can be refitted.
The output contact of the relay module SWOM16A1 are normally open (NO) contacts. If the"GROUP ALARM" function has been selected,the first two output relays of the relay moduleoperate in parallel with the two fixed groupalarm outputs 1 and 2, see figure 10 on page 12.
GROUPALA
RM
SIG
NA
LF
OLL
OW
ER
SP
GU
240 A1
SWOM 16A1
Flat cable connectors
Fig. 24. Changing function of the output relays on the SWOM 16A1 module
24
Selection of outputcontact mode foroutput relay onSWIM 2A1
Upon delivery all output contacts of the annun-ciator unit are selected for a NO mode ofoperation except for the internal self supervisionoutput relay that is normally energized and itsoutput contact is open, i.e. NC. If needed themode of operation of the output contacts can bechanged to the NC for the selfsupervision out-put relay, the audible device output relay andthe two fixed group alarm relay outputs.
These output relays are physically located on thePCB of the Input/Output module SWIM 2A1.Access to the module is obtained so that first thelid is opened and the front panel dismountedand then the microprocessor module SWPM3A1 is withdrawn. The 16 relays on the relaymodule SWOM 16A1 are fixed as NO andcannot be changed.
WARNING!Although the auxiliary supply voltage of theannunciator unit has been switched off, externalvoltages may be present in the auxiliary reflashcontact circuits.
When the Input/Output module has been with-drawn from the case, the PCBs can be separatedfrom each other so that the retaining tongues ofthe plastic spacing plugs are depressed and theupper PCB is lifted. The jumper wires on thePCB corresponds to the output relays as follows:
W1 reflash output relay 1W2 reflash output relay 2W3 self-supervision system output relayW4 audible device output relay
The mode of operation selection for the outputrelays is carried out by moving the concernedjumpers on the PCB in the way illustrated bythe legend print on the PCB.
ZE
TT
LE
R
0911
AZ 2694-052-52250V
8A ~ A
C1
24 V
2/64250
SN
~4K
V/8m
mV
DE
0860
ZN1
ZE
TT
LE
R
0911
AZ 2694-052-52250V
8A ~ A
C1
24 V
2/64250
SN
~4K
V/8m
mV
DE
0860
ZN1
ZE
TT
LE
R
0911
AZ 2694-052-52250V
8A ~ A
C1
24 V
2/64250
SN
~4K
V/8m
mV
DE
0860
ZN1
ZE
TT
LE
R
0911
AZ 2694-052-52250V
8A ~ A
C1
24 V
2/64250
SN
~4K
V/8m
mV
DE
0860
ZN1
E E E E E E E E E E E E
Audible device output
Self-supervision output
Group reflash output 2
Group reflash output 1
Fig. 25. Output relays of the I/O module SWIM 2A1.
25
Operationinstructions
The alarm annunciator unit is very easy to use.In principle the use of the annunciator is con-trolled from the "Reset and test push-button"only. However, when parameters are selected
and altered and when stored information is readout from the event register, the four push-buttons in the lower right hand corner are used.
FAULT
ON
Power-on and fail indicators
First-out display and event register read-out display
Silence/Acknowledge/Reset sequence indicators
Reset and test push-button
Window with channel legend and visual indicator
Event register scanning and read-out push-button
The other push-buttons and indicatorsare used for programming
Fig. 26. Front panel indicators and event register push-buttons for the annunciator unit SACO 16D3.
During a normal process condition, when noalarms are active and when all acknowledges/resets have been performed, the only indicatorglowing on the front panel is the ON LED.When alarm signals are received, the alarmchannels starts and the visual LED alarm indica-tors are activated according to the selected se-quence programs. At the same time the firstalarm channel number and a letter A in front ofit is to be seen in the display. The SILENCE/ACKNOWLEDGE/RESET LEDs indicate thenext reset function at hand.
The reset functions are:SILENCE = stops the sound of the
audible deviceACKNOWLEDGE = indicates recognition of
an alarmRESET = returns the alarm chan-
nel to normal state
The SlLENCE and ACKNOWLEDGE se-quence actions can also be carried out withexternal push-buttons. The external push-but-tons are wired to the terminals AUD. RESET(17) and RESET (16) of the annunciator unit.
26
First-out alarmindication
The first-out alarm indication is a feature of theannunciator unit which means that the firstalarm channel to start after a reset is indicated
with a letter A and the channel number in thefour-digit display.
Channel 1
Channel 2
Channel 3
Channel 16
First-outalarm memory
Reset
Digital display
Not used
Type of eventA = incoming alarm
Channel number1...16
Fig. 27. Principle of the first-out alarm indication.
The first-out alarm indication is removed from the display with the acknowledge/ reset push-button.
27
Event sequenceregister
The annunciator unit continually registers theincoming events and the latest 9 events arealways stored in their chronological order in theevent sequence register from which they can beread out from the digital display at any time.
The events are read out with the push-button ↑,which becomes accessible when the plastic lidhas been opened. Each time the ↑ push-buttonis depressed, a new event is shown in the displaystarting with the youngest event and ending upwith the oldest event after which the display isturned off. The stepping through of the eventsequence register can be repeated if required.The stepping through always proceeds in thesame direction.
IMPORTANT!When the annunciator unit is turned into theprogramming mode by the push-button ↓, theinformation in the event sequence register isautomatically erased. The information in theevent sequence register is also lost if the auxiliarysupply of the annunciator unit is interrupted.However, the event register for the serial com-munication will not been reset when the unit isturned into programming mode only if theauxiliary supply is interrupted.
Chronological orderDecimal point indicates first- out alarm after previousacknowledge Type of eventA = incoming alarm- = disappering alarm- - - - = acknowledge
Channel number 1...16
Channel 1
Channel 2
Channel 3
Channel 16
Eventregister
Acknowledge
Digital display
Youngest event
The information of the event register is read out with thepush button
Fig. 28. Principle of the event sequence register.
28
Programming The alarm annunciator unit is a very flexibledevice but at the same time easy to use.
The programming work is carried out easily bymeans of the programming push-buttons on thefront panel or via the serial communicationusing e.g. the SMS 010 setting and monitoringsoftware. The parameter values are stored in anon-volatile EEPROM memory which meansthat the parameter programming is a very straightforward action and that the information con-tent of the memory is maintained even in a lossof supply situation.
The parameter values can be and are usuallyfinally defined after that the annunciator unithas been mounted at site during the commis-sioning work.
By means of a plug selector located on the PCBjust behind the front panel the switching over ofthe annunciator unit into the programmingmode can be prohibited. In this way the pro-gram memory of the annunciator unit can beprotected against unauthorized access.
Programmingtechnique
The annunciator unit is programmed by meansof the five push-buttons and the four digitdisplay on the front panel. The push-buttons are
accessible after that the plastic lid has beenopened.
FAULT
ON
Four-digit seven-segment display
Enter command push-button
Parameter pointer indicators
Parameter selector push-button
Data value selector push-button
Display cursor control push-button
Channel selector push-button
Fig. 29. Front view of the annunciator unit.
29
For better HMI (Human Machine Interface)the unit can be programmed via the serial
interface using a PC program, e.g. SMS 010software.
Fig. 30. SACO connected to a SMS PC.
IMPORTANT!When the programming work is done the unitgoes off-line, which means that the annunciatorunit is set out off its normal operation during the
time it is being programmed. The procedurewhen it goes back from programming mode isthe same as when it starts up.
S 1S 2
Fig. 31. Selector plugs.
IMPORTANT!The plug selector which is used to enable orprohibit programming of the annunciator unitcan be located in two places named S1 and S2.Programming is prohibited when the selector
plug is located in position S2 and enabled whenthe selector plug is in the position S1. The frontpanel can be dismounted by the four fingerscrews on the front panel.
Selector plug to enagle/prohibitparameter programming
30
Programmingpush-buttons
Parameter selector push-button ↓
With the parameter selector push-button thefive programmable parameter groups are calledup one by one. At the same time the previouslyselected parameter values are displayed. Whenall parameters have been stepped through, thefifth parameter pointer LED is switched off, theannunciator unit steps out of the programmingmode.
Display cursor control push-button →
The cursor can be moved with the display cursorcontrol push-button. The cursor always movesfrom the left to the right and the cursor positionis indicated by blinking digit(s).
Parameter value selector push-button ↑
With the parameter value selector push-buttonthe appropriate code number or data value forthe concerned parameter is selected, i.e. for thedigit(s) blinking.
Enter command push-button (Reset)
The selected data value is stored in the param-eter memory with the enter command push-button. Se figure 29 on page 28 to locate thebutton.
Channel selector push-button ∩
The channel to be programmed is called up withthe channel selector push-button. The channelsare stepped through one by one from 1 to 16 andthe channel to be programmed is indicated by itsLED indicator glowing.
Channel relatedparameters
Selection of channelinput delay
The pointer LED marked INPUT is called upwith the parameter selector push-button ↓ andthe channel to be programmed is chosen withthe channel selector ∩. The cursor is moved tothe leftmost digit of the display with the cursorcontrol push-button →. The concerned digitstarts blinking. The blinking number displayedcorresponds to the following values of the channelinput delay:
0 = 5 ms1 = 20 ms2 = 100 ms3 = 1 s4 = 5 s5 = 20 s6 = 60 s7 = 160 s8 = other time value set over the serial
communication
The required value is chosen with the data valueselector push-button ↑ and stored in the para-meter memory with the enter command push-button (Reset). The rest of the channels andtheir input delays can be programmed in thesame way. Escape from the programming modeby repeatedly pressing the parameter selectorpush-button ↓ until all the parameter pointerindicators are switched off.
NOTE!If no push-button has been pressed for a minute,the annunciator unit automatically escapes fromthe programming mode and enters into its nor-mal operation mode.
Selection of channelresetting delay
The channel resetting delay is programmed inexactly the same way as the channel input delay(see above). The cursor is, however, located tothe second digit from the left of the display,
which indicates the resetting delay time. Thetime values are also the same as those for theinput delay.
31
Selection of fieldcontact type orpulse counter
The LED marked INPUT is called up with theparameter selector push-button ↓ and the chan-nel to be programmed is chosen with the chan-nel selector push-button ∩. The cursor is movedto the third digit from the left of the display withthe cursor control push-button →. The valuecorresponds to the following input signal types:
0 = input signal from a normally open fieldcontact
1 = input signal from a normally closed fieldcontact
2 = channel activated from a raising edge signalonly
3 = channel activated from a falling edge signalonly
4 = channel activated from a raising and fallingedge signal
5 = pulse counting on closing contact6 = pulse counting on opening contact7 = pulse counting on closing and opening
contact
The chosen value is selected with the data valueselector push-button ↑ and stored in the param-eter memory with the enter command push-button.
NOTE!Those channels which have been programmedto be activated by a raising or a falling edge signalare not to be linked to any other type of reflashgroup than to the AACR and ISR types. Achannel which is controlled by an edge signalcan be interlocked but it can not itself generatean interlocking signal to be forwarded.
Selection of channel-specified indications
The LED marked INPUT is called up with theparameter selector push-button ↓ and the chan-nel to be programmed is chosen with the chan-nel selector push-button ∩. The cursor is movedto the fourth digit from the left with the cursorcontrol push-button →. The fourth digit ex-presses the type of indication as follows:
0 = normal sequence, i.e. the same operationsequence that has been selected for the wholeannunciator unit (se section Selection ofalarm sequence type on page 34).
1 = normal sequence, i.e. the same operationsequence as has been selected for the wholeannunciator unit but extended with an au-dible ringback feature upon return to nor-mal of an alarm channel. Applies only to thesequences 3 (ISA R-1) and 4 (DIN 19235),
2 = field contact following indication withoutaudible alarm
The chosen value is selected with the data valueselector push-button ↑ and stored in the param-eter memory with the enter command push-button.
Configuration ofpumping supervision
The LED marked INPUT is called up with theparameter selector push-button ↓ and the chan-nel to be included in the pumping supervision ischosen with the channel selector push-button∩. The cursor control push-button → is pressedfive (5) times and the first, third and fourth
digits are lit. The third and fourth digit expressesthe pumping supervision as follows:
00 = pumping supervision not in use01...99 = maximum allowed events per minute
Configuration ofreflash group alarms
The LED marked GROUP is called up with theparameter selector push-button ↓ and the channelwhich is to be joined to a reflash group is selectedwith the channel selector push-button ∩. Thenwith the cursor control push-button → the cursoris moved to the first two digits from the leftcorresponding to channel reflash type A or to thelast two digits corresponding to the channel reflashtype B. The designated reflash group is selectedwith the data value selector push-button ↑, that is:
-- = no reflash01 = output reflash group 102 = output reflash group 2
---
16 = output reflash group 16
If required the channel reflash types A and B canboth be programmed for the same channel. Theselected reflash configuration is stored in theprogram memory using the enter commandpush-button.
32
Module relatedparameters
The programming examples and selections abovehave all been channel specific which means thatthe parameters are selected individually for eachchannel.
The function which will be described in thefollowing section is annunciator specific, whichmeans that the selected function concerns thewhole annunciator unit.
Selection of modeof operation forthe reflash outputrelays
The LED marked OUTPUT is called up withthe parameter selector push-button ↓ and thefirst two digits from the left of the display areactivated with the cursor control push-button→. The blinking digits indicate, as listed below,which reflash group is being programmed at themoment, i.e.:
01 = output reflash group 102 = output reflash group 2
---
16 = output reflash group 16
The reflash group in question is called up withthe data value selector push-button ↑, afterwhich the cursor is moved to digits three andfour from the left of the display with the cursorcontrol push-button →. The two digits are
indicating the mode of reflash alarm signal forthe selected output reflash group as follows:
0 = field contact following reflash (FCFR)1 = acknowledge action controlled reflash
(AACR)2 = impulse shaping reflash (ISR), impulse
length 300 ms3 = field contact following reflash with a 300 ms
interruption of the reflash signal any time anew alarm signal joins into an already activegroup alarm
4 = FCFR + AACR, Field Contact FollowingReflash and Action Controlled Reflash
Se figure on page 13.
The chosen reflash mode is selected with thedata value selector push-button ↑ and stored inthe parameter memory with the enter commandpush-button.
33
Selection ofinterlockingconfiguration
The interlocking configuration is channel spe-cific, i.e. is done separately for each channel. Ageneral overview of the channel interlockings isillustrated in figure 34 on page 37, which can beused to draw up the interlocking scheme whenthe channel interlockings are to be programmed.
The parameter selector push-button ↓ is repeat-edly pressed until the LED marked INTER-LOCK starts glowing. Select channels with thechannel selector push-button ∩.
A maximum of two interlockings can be selectedper channel. I.e. a channel can receive interlock-ing signals from two different interlocking lines(groups) or transmit one interlocking signal andreceive one interlocking signal. The first twodigits from the left in the display correspond tothe first interlocking function and the digitsthree and four corresponds to the second inter-locking function.
If the first interlocking function is to be taken inuse, the first digit from the left in the displayindicate the type of interlocking, that is:0 = interlocking output1 = interlocking input, reflash type A inter-
locked2 = interlocking input, whole channel, return as
an acknowledged alarm3 = interlocking input, whole channel, return as
a new alarm
See interlockings on page 16.
When the required interlocking function hasbeen selected, it can be linked to the choseninterlocking line by moving the cursor to thesecond digit from the left with the cursor controlpush-buttons →. The chosen interlocking line(1...8) is selected with the data value selectorpush-button ↑. If no interlocking function isneeded, a - mark is selected in stead of thenumber of the interlocking line. The selectedparameter values are stored in the memory bypressing the enter command push-button.
The selection relating to the second channelinterlocking function is carried out in the sameway as the selection of the first interlockingfunction, but in this case the third digit from theleft of the display indicates the type of interlock-ing and the fourth digit states the correspondinginterlocking line.
IMPORTANT!If more than three interlocking levels are used(i.e. a channel that blocks a channel that blocksa channel) the resolution of the time stamp ofthe events will be effected.
The following example of an interlocking con-figuration relates to the figure is on page 17.
At first INTERLOCK function is selected.Channel 10 is called up.The display is set to 010-, which is stored in thememory.Channel 10 now activates interlocking Line 1.
Channel 8 is called up.The display is set at 2102, which is stored in thememory.Channel 10 now interlocks whole channel 8 (viathe interlocking line 1 ) at the same time channel8 activates interlocking line 2.
Then channel 7 is called up.The display is set at 110-, which is stored in thememory.Channel 10 now interlocks the reflash A ofchannel 7 via interlocking Line 1.
Then channel 5 is called up.The display is set at 120-, which is stored in thememory.Channel 10 now interlocks channel 8 whichinterlocks the channel reflash type A of channel5 via interlocking line 2.
Selection of annun-ciator SPA bus slaveaddress
The parameter selector push-button ↓ is repeat-edly pressed until the LED marked MODULEstarts glowing. The cursor is moved to the firsttwo digits from the left of the display, using thecursor control push-button →. The SPA busslave number (01...99) is selected for the annun-ciator unit with the data value selector push-
button ↑. The chosen slave number is enteredinto the parameter memory by pressing theenter control push-button.
NOTE!No slave number is needed if the annunciatorunit is not connected to a higher level system.
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The selectable alarm sequences are illustrated onpage 9. To select the chosen alarm sequence theparameter selector push-button ↓ is repeatedlypressed until the LED marked MODULE startsglowing. Using the cursor control push-button→, the cursor is moved to the third digit, seenfrom the left, which indicates the selectablealarm sequence types as follows:
0 = ISA A, automatic reset1 = ISA A-1, automatic reset2 = ISA M-1, manual reset3 = ISA R-1, indication on return to normal4 = DIN 19235, indication on return to normal
All sequence types but ISA A requires a separatereset of the audible alarm. The chosen sequenceis selected with the data value selector push-button ↑ and stored in the parameter memorywith the enter command push-button.
Selection of alarmsequence type
Selections for theserial communicationport
When the annunciator system is composed ofseveral interconnected units, the flash sequenceof the visual indicators can be synchronized.One of the annunciator units is defined as themaster (1), thus delivering a synchronizing pulseto all the other interconnected annunciators (0).If the annunciator units are connected to ahigher level system, the synchronizing pulses forthe annunciator units are obtained automatically.
The parameter selector push-button ↓ isrepeatedly pressed until the LED markedMODULE starts glowing. The cursor is thenmoved to the fourth digit from the left of thedisplay with the cursor control push-button →.The fourth digit corresponds to one of thefollowing functions:
0 = sync-pulse receiver, when not connected toa higher level system
1 = sync-pulse transmitter, when not connectedto a higher level system
2 = 9600 bits/s serial communication3 = 4800 bits/s4 = 2400 bits/s5 = 1200 bits/s6 = 300 bits/s
The data value selector push-button ↑ isrepeatedly pressed until the function aimed at isreached. The selected function is then stored inthe parameter memory by pressing the entercommand push-button.
If the annunciator unit is connected to a higherlevel system by means of a serial communicationlink or if the annunciator unit has been program-med to receive an externally generated synchro-nizing pulse and no synchronizing pulse isreceived within a time period of one minute, avisual indication in the form of a blinking deci-mal point will be switched on in the right- handlower corner of the display. When no serialcommunication link is connected to the annun-ciator unit, the annunciator unit must beprogrammed to function in the sync-pulse re-ceiver mode.
NOTE!The parameters need not to be stored in theparameter memory one by one, but they can bestored all together at the same time, when theyhave been given their specified values in thedisplay.
A summary of the programming parameters(figure 32) and empty parameter tables (figure33 and 34) is given on the following pages.
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Parameterselection key
Fig. 32. Parameter selection key for annunciator unut SACO 16D3.
Channelinput delay
Channelreset delay
Contacttype
Channelindication
0 = 5 ms1 = 20 ms2 = 100 ms3 = 1 s4 = 5 s5 = 20 s6 = 60 s7 = 160 s
0 = 5 ms1 = 20 ms2 = 100 ms3 = 1 s4 = 5 s5 = 20 s6 = 60 s7 = 160 s
0= NO contact1= NC contact2= NO contact, no return3= NC contact, no return4= NO and NC contact Pulse counters:5= NO contact6= NC contact7= NO and NC contact
0= seq. 0-41= seq. 0-4 audible also at return to normal2= field cont. following, no flashing, or audible
DISPLAY
PARAMETER
Input
Channel reflash A Channel reflash B- - = no group alarm01= group alarm 1 - - -16= group alarm 16
- - = no group alarm01= group alarm 1 - - -16= group alarm 16
Interlocking function 1 Interlocking function 2
Type ofinterlocking
Interlockinggroup
Type ofinterlocking
Interlockinggroup
0= interlocking output1= channel reflash A interlocked2= channel interlocked3= channel interlocked
- = not grouped1= group 12= group 23= group 34= group 45= group 56= group 67= group 78= group 8
0= interlocking output1= channel reflash A interlocked2= channel interlocked3= channel interlocked
- = not grouped1= group 12= group 23= group 34= group 45= group 56= group 67= group 78= group 8
Group alarm number Type of reflash relay function
01= group alarm relay 102= group alarm relay 2 - - -16= group alarm relay 16
0= field contact following1= alarm memory following2= 300 ms pulse3= 0 + 24= 0 + 1
Unit identification number Sequence Serial comm.
01= number 102= number 2 - - -99= number 99
0= ISA A1= ISA A-12= ISA M-13= ISA R-14= DIN 19235
0= syncr. input1= syncr. output2= 9600 Bd3= 4800 Bd4= 2400 Bd5= 1200 Bd6= 300 Bd
Group
Interlock
Output
Module
Parameter selectorpush-button
Display cursor controlpush-button
Channel selector push-button
Parameter value selectorpush-button
Enter commandpush-button (Reset)
Channelinput settings
Channel-related anti-pumping
00= supervision disabled00…99= allowed number ofregistrations per minute
Reflashgrouping
Configurationof interlockings
Group alarm settings
Annunciator module settings
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Parameter chart
Alarmchannel
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Input
Cha
nnel
inpu
tde
lay
Cha
nnel
res
etde
lay
Con
tact
type
Cha
nnel
in
dica
tion
Group Interlock
Typ
e of
in
terlo
ckin
g
Inte
rlock
ing
grou
p
Channel reflash A
Channel reflash B
Typ
e of
in
terlo
ckin
g
Inte
rlock
ing
grou
p
Interlock funct.1 Interlock funct.2
Output
Group alarmnumber
Type of reflashrelay function
Module
Unit identification number
Seq
uenc
e
Ser
ial
com
mun
icat
ion
Fig. 33. Parameter chart.
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Channelinterlockingscheme
INTERLOCKING GROUPS
1 2 3 4 5 6 7 8
Channel 1/__ Function 1Function 2
Channel 2/__ Function 1Function 2
Channel 3/__ Function 1Function 2
Channel 4/__ Function 1Function 2
Channel 5/__ Function 1Function 2
Channel 6/__ Function 1Function 2
Channel 7/__ Function 1Function 2
Channel 8/__ Function 1Function 2
Channel 9/__ Function 1Function 2
Channel 10/__ Function 1Function 2
Channel 11/__ Function 1Function 2
Channel 12/__ Function 1Function 2
Channel 13/__ Function 1Function 2
Channel 14/__ Function 1Function 2
Channel 15/__ Function 1Function 2
Channel 16/__ Function 1Function 2
TYPE OF INTERLOCKING0 = interlocking output1 = reflash A interlocking input2 = channel interlocking input3 = channel interlocking input
Alarm module No___
Fig. 34. Channel interlocking scheme for programming.
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Remote informationto and from thealarm annunciator
The following parameters can be read out orwritten down to the annunciator unit from ahigher level device.
Code Factory Value and functionsetting
Module related parameters
V205 - Program version
S1...16 0 Reflash output 1 sequence0 = FCFR1 = AACR2 = ISR3 = FCFR + ISR4 = FCFR + AACR
S17 3 Alarm sequences0 = ISA A1 = ISA A-12 = ISA M-13 = ISA R-14 = DIN 19235
S18 0 Specification of active channels to be printed out as a result whenparameter A is read out0 = both alarm and status channels are printed out1 = only alarm channels are printed out2 = no out printing
S19 0 Pumping supervision output relay00 = not connected01 = output relay 102 = output relay 2
---
16 = output relay 16
S33...48 0 Control of the output relay 1...16 over the SPA bus0 = not active1 = changing of state (on/off)2 = pulse activation
S49...64 0 Pulse length of output relay 1...160,3...25,5 = pulse length in seconds
V1 - Position of local/remote position0 = local + remote position1 = local position2 = remote position
V2 - Resetting of audible alarm output1 = reset
V3 - Acknowledge of alarm signal1 = acknowledge
V4 - Testing0 = testing off1 = testing on
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Code Factory Value and functionsetting
V50 - Status information of all 16 channels, HEX coded form0000 = no active channels0001 = channel 1 active0002 = channel 2 active0003 = channel 1 and 2 active0004 = channel 3 active0005 = channel 1 and 3 active0006 = channel 2 and 3 active0007 = channel 1,2 and 3 active0008 = channel 4 active0009 = channel 1 and 4 active000A = channel 2 and 4 active000B = channel 1,2 and 4 active000C = channel 3 and 4 active000D = channel 1,3 and 4 active000E = channel 2,3 and 4 active000F = channel 1,2,3 and 4 active---FFFF = all 16 channels active
V51 - Status information of the overflow matrix register, HEX coded form0000 = no active channels0001 = channel 1 active0002 = channel 2 active0003 = channel 1 and 2 active0004 = channel 3 active0005 = channel 1 and 3 active0006 = channel 2 and 3 active0007 = channel 1,2 and 3 active0008 = channel 4 active0009 = channel 1 and 4 active000A = channel 2 and 4 active000B = channel 1,2 and 4 active000C = channel 3 and 4 active000D = channel 1,3 and 4 active000E = channel 2,3 and 4 active000F = channel 1,2,3 and 4 active---FFFF = all 16 channels active
V100 - Reset of alarm channel1 = reset
V151 - Storing of information in non-volatile memory1 = storing
V200 - Module SPA slave address1...99 = address number 1...99
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Code Factory Value and functionsetting
V201 2 Setting of the data transfer rate0 = 9600 bits/s, synch in1 = 9600 bits/s, synch out2 = 9600 bits/s3 = 4800 bits/s4 = 2400 bits/s5 = 1200 bits/s6 = 300 bits/s
I1 - State of interlocking line 10 = not active state1 = active state
I2 - State of interlocking line 2I3 - State of interlocking line 3I4 - State of interlocking line 4I5 - State of interlocking line 5I6 - State of interlocking line 6I7 - State of interlocking line 7I8 - State of interlocking line 8
O1...16 - Sate of output relay 1...160 = not active state1 = active state
C 0 Status information of module0 = when read normal state, when written resets the status register1 = CPU reset has occurred2 = overflow of the event register has occurred3 = 1 + 2
F SACO Type designation of module16D2B
T - Time setting0.000...59.999 = time in seconds and milliseconds
L - Event sequence registerTime, channel and event code
B - Repeated read out of event registerTime, channel and event code
A - Active alarmsChannel number and event code
Channel related parameters (alarm channels 1...16)
S1 0.02 Channel input delay0.005...160.0 = reset delay0.005 s steps
S2 0.02 Channel reset delay0.005...160.0 = reset delay0.005 s steps
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Code Factory Value and functionsetting
S3 0 Field contact type0 = NO contact, with return function1 = NC contact, with return function2 = raising edge only3 = falling edge only4 = raising and the falling edge5 = pulse counter, counts by contact closing6 = pulse counter, counts by contact opening7 = pulse counter, counts by contact opening and closing
S4 0 Channel related sequence0 = visual indication in accordance with selected sequence1 = visual indication in accordance with selected sequence, but with audible alarm also on return to normal2 = field contact following visual indication without audible alarm
S5 0 Channel reflash A0 = not connected1…16 = connected to reflash group 1…16
S6 0 Channel reflash B0 = not connected1…16 = connected to reflash group 1…16
S7 0 Interlocking signal 1, type specification0 = interlocking output1 = interlocking input, reflash A blocked2 = interlocking input, entire channel, return as acknowledged alarm3 = interlocking input, entire channel, return as new alarm
S8 0 Interlocking signal 1, grouping0 = not connected1...8 = connected to interlocking line 1...8
S9 0 Interlocking signal 2, type specification0 = interlocking output1 = interlocking input, reflash A blocked2 = interlocking input, entire channel, return as acknowledged alarm3 = interlocking input, entire channel, return as new alarm
S10 0 Interlocking signal 2, grouping0 = not connected1...8 = connected to interlocking line 1...8
S11 0 Pumping supervision0 = not connected1...99 = allowed events per minute
V5 0 Pulse counter0...29999 = start value
I1 - Sate of alarm channel0 = not active1 = active
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Event codesCode Meaning
Module related event codes
E10 Module faultE13 Events from the overflow matrix registerE50 Module resetE51 Event register overflow
Channel related event codes
E1 Alarm channel activeE2 Alarm channel resetE3 Alarm channel active, signal follower, no blink- or audible functionalityE4 Alarm channel reset, signal follower
Technical data Alarm channelsNumber of alarm channels 16 channels
Type of field contact signal Normally open contact *)Normally closed contactRaising and/or falling edgePulse counter
Internally generated field contact voltage 48 V dc + 20 %
Loop current of closed field contact circuit 4 mA ±20%
Channel input and reset delay time, field-selectable 5 ms, 20 ms * ), 100 ms,1 s, 5 s, 20 s, 60 s or 160 sOther values possible overthe serial communication
Max. counting frequency for pulse counter 3 Hz
*) = factory settings
External acknowledge/reset inputsChannel acknowledge/ reset Closing contactReset of audible device Closing contact
The control voltage for the acknowledge/reset 48 V dc + 20 %circuits is taken from the internal supply
Reflash signal outputsFixed reflash group alarm outputs 2 relaysAudible device output 1 relayInternal self-supervision output 1 relayOutput relay contact types Normally open contacts, changeable
to normally closed contactsAdditional group alarm or signal following outputs 16 relays (NO, not possible to change)Rated contact current/breaking voltage 3 A/250 V ac or dc
Breaking capacity for dc currents when 1 A/0.25 A/0.15 Athe load time-constant L/ R < 40 ms atthe voltage levels 48/110/220 V dc
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Serial communication portProtocol SPA busInterface RS 485Data transfer rate, selectable 9600 Baud
4800 Baud2400 Baud1200 Baud 300 Baud
Bus connection modules SPA-ZC 17 or SPA-ZC 21
Auxiliary power supplyInternal power unit for any supply voltage 80. . .265 V dc or ac
or 18...80 V dc
Power demand from auxiliary source, min. /max. values 10 W/15 W
Test voltagesTest voltages applied to the following points:- alarm- and acknowledge/reset inputs to the frame- output relay contacts to the frame- auxiliary supply circuits to the frame- inputs, outputs and supply circuits between themselves
Dielectric test voltage as per IEC 255-5 2 kV, 50 Hz, 1 min.and SS 436 15 03Impulse test voltage as per IEC 255-5 5 kV, 1.2/5 µs, 0.5 Jand SS 436 15 03High-frequency interference test voltage as per 2.5 kV, 1 MHzIEC 255-6 and SS 436 15 03
Environmental conditionsService temperature range -10. . . +55°CStorage temperature range -40. . . +70°CHeat and damp as per I EC 68-2-3 < 95 % max. 56 d/y at +40 CDegree of protection by enclosure IP 54Weight 3.1 kg
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Testing The alarm annunciator unit is provided with anautomatic self-supervision system which moni-tors the internal system voltages as well as thefunction of the microprocessor and the logicalcircuits.
If an internal fault situation is detected, thecontact of the output relay of the self-supervi-sion system drops off and the FAULT LED isswitched on.
The LED indicators can be tested by pressing theacknowledge/reset push-button continuously formore than one second. Then all LED indicators,except the FAULT indicator, on the front panelare switched on together with all the segments ofthe digital display. If the push-button is depressedfor more than 15 seconds, the FAULT indicatoralso turns on and the output relay of the selfsupervision system drops off.
It is recommended that the function of the fieldcontact circuits are tested by performing pri-mary tests to the field contacts.
Maintenanceand repair
When the annunciator unit is operating undernormal service conditions as specified in thesection "Technical data", the annunciator unitis practically maintenance free. The modulesinclude no parts or components, which aresubject to an abnormal physical or electricalwear under normal operating conditions.
If the environmental conditions at the operatingsite differ from those specified, as to ambienttemperature, humidity or if the atmospherearound the annunciator unit holds chemicallyactive gases or dust, the modules ought to bevisually inspected in association with the sec-ondary testing being performed or whenever theplug-in modules are withdrawn from the case.At the visual inspection the following thingsshould be noted:- possible mechanical damage of the mounting
case, mounting brackets or frame, plastic lid orits rubber gasket, plug-in units or their con-nection sockets
- signs of oxidation on the PCBs, componentlegs and cups, screws and other metallic parts
- traces of dust and dirt accumulating inside theplastic lid, on the PCB or inside the case.Check the condition of the rubber gasket ofthe lid.
If the annunciator unit fails in operation or if theoperating values differ from those specified, theannunciator unit should be checked and re-paired by a competent specialist in an author-ized repair shop.
Generally a fault can be eliminated by changinga plug-in module, please refer to the spare partlist. When a new alarm module SWPA 3A1 isinserted, the programmed parameter memoryof the old alarm module can be plugged to thenew module. Thus the new alarm module isready to work with the same operating values asthe old one without being separately pro-grammed. The parameter memory is markedD17.
IMPORTANT!When the memory circuit is plugged in, the sloton the circuit should point towards the frontpanel of the module. In this way possible dam-age of the memory circuit can be avoided. Pleasealways use EDS protection when handling theelectronic circuit
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Exchange andspare parts
Alarm module SWPA 3A1Input and output module SWIM 2A1Output relay module SWOM 16A1Connection module, the whole rear unit SWCM 11A1Supply module, U = 80. . .265 V dc/ac SPGU 240A1Supply module, U = 18...80 V dc SPGU 48B2Alarm legend film, unwritten SYKU 639
Bus connection modules
RS 485 with two 9-pin D-type connectors SPA-ZC3Fiber optical module, plastic out - plastic in SPA-ZC 21 BB/SFiber optical module, glass out - glass in SPA-ZC 21 MM/SFiber optical module, plastic out - glass in SPA-ZC 21 BM/SFiber optical module, glass out - plastic in SPA-ZC 21 MB/S
Fiber optical module, plastic out - plastic in SPA-ZC 17 BB/SFiber optical module, glass out - glass in SPA-ZC 17 MM/SFiber optical module, plastic out - glass in SPA-ZC 17 BM/SFiber optical module, glass out - plastic in SPA-ZC 17 MB/S
Raising frames
Raising frame, 40 mm SPA-ZX 301Raising frame, 80 mm SPA-ZX 302Raising frame, 120 mm SPA-ZX 303
Orderinginformation
When ordering, please state:
1. Amount and type designation, e g: 5 pcs, SACO 16D32. Auxiliary supply voltage, e g: 230 V ac3. Accessories, amount and type, e g: 4 pcs, SPA-ZX 301
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1MR
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5135
4-M
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ABB OySubstation AutomationP.O.Box 699FIN-65101 VAASAFinlandTel. +358 (0)10 22 11Fax.+358 (0)10 22 41094www.abb.com/substationautomation