HIMAP A2 Eventbuilder E

8/15/2019 HIMAP A2 Eventbuilder E

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HIMAP -BCGHYUNDAI HEAVY INDUSTRIES CO. LTD

BAY CONTROLLER

Appendix 2

Event builder

HEAVY INDUSTRIES CO., LTD.


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Appendix 2 Event builder

HIMAP - BCG® HIMAP_A2_Eventbuilder_E.doc 2/48

Version: 08.08.2007 (RR)

File: HIMAP - BCG_A2_Eventbuilder_E

Firmware:- CU: 1.10 / 08.03.2007- MU: 1.10 / 19.10.2005

- RU: 1.10 / 08.11.2006


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Table of content

A2.1 Event system introduction .................................................................................... 4

A2.2 Event list ................................................................................................................. 5

A2.3 Event builder........................................................................................................ 22

A2.3.1 Breaker control ...................................................................................................... 23

A2.3.2 Interlock diagrams................................................................................................. 24

A2.3.3 Breaker test mode.................................................................................................. 25

A2.3.4 Logic diagrams ...................................................................................................... 26

A2.3.5 AND elements ....................................................................................................... 27

A2.3.6 OR elements .......................................................................................................... 28

A2.3.7 AND/OR elements ................................................................................................ 29

A2.3.8 Timer ..................................................................................................................... 30

A2.3.9 Counter .................................................................................................................. 33

A2.3.10 Flip-flops ...............................................................................................................34

A2.3.11 CAN events ........................................................................................................... 36

A2.4 Logic connections ................................................................................................ 37

A2.4.1 Logic connections of the Interlock diagrams ........................................................ 37

A2.4.2 Logic connections of the Logic diagrams ............................................................. 44


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A2.1 Event system introduction

The event system of the device gives the user the possibility to realize his own applications.

With events all functions of the device can be activated or deactivated. An event is a internal

logical representation of a device process. The event system offers sources and sinks of

events.The event sources have fixed unique event numbers. These event numbers became active

(logically “True”) if the condition related to this event is fulfilled (e.g. a limit is reached),

otherwise inactive (logically “False”).

The event sinks are linked to fixed processes or fixed functions and can be programmed by

the user. The user can build a link between the source and the sink by setting an event source

number to an event sink number. The sink (function) became active if the related source

became also active.

Note: Some modules are sinks and sources at the same time, e.g. all binary outputs are sinks

and will be activated by source events. But every binary output produces himself again source

events when he becomes active. The same is valid for alarms and all event builder elements.

The source events can be combined over logic modules (event builder) which produces newsource events.

Examples:

• The ANSI 25 /A Synchronizing unit 1 should be activated by a binary input (FUNC

20). The binary input is an event source and the Sync. unit is an event sink. The event

number related to the input is 521.

This number must be set on parameter [1000] (SYNC. UNIT 1 actives by [0521]) by

the user. Then FUNC.20 activates the Sync. unit 1.

• The ANSI 50 Over current device should open a circuit breaker over a binary output

(Shunt #1). ANSI 50 is an event source and the binary output an event sink

(respectively a source). One event number related to ANSI 50 is [1402] (1.limitreached and delay passed).

This number must be set on Shunt #1 (e.g. 01: [1402]). Then a measured current value

will open a circuit breaker.


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A2.2 Event list

The event list summarizes all software events that are available by the device.

Table A2.2-1 Event list

No. Symbol(LCD text) DescriptionEventhistory Eventsystem

[0000] OFF-Event Event is always inactive (false) - X

[9999] ON-Event Event is always active (true) - X

Alarm events

[0001]

-

[0079]

Alarm 1-79 Alarm channel 1-79

X X

[0080]

-

[0099]

Alarm groups 1-20

X X

System events

Breaker feedback events (The events are appearing only if the related parameter are setted)

[0113] BR1 ON feedback Breaker 1 ON feedback event X X

[0114] BR1 OFF feedback Breaker 1 OFF feedback event X X[0117] BR1 IN feedback Breaker 1 IN feedback event X X[0118] BR1 OUT feedback Breaker 1 OUT feedback event X X[0121] BR1 E-ON

feedbackBreaker 1 EARTH-ON feedback event

X X

[0122] BR1 E-OFFfeedback

Breaker 1 EARTH-OFF feedback event X X




X X

[0135] BR2 E-OFF

feedback





X X

[0148] BR3 E-OFF

feedback


Breaker control events

[0115] BR1 ON->OFF Control event to set breaker 1 from ON to OFF position X X

[0116] BR1 OFF->ON Control event to set breaker 1 from OFF to ON position X X

[0119] BR1 OUT->IN Control event to set breaker 1 from OUT to IN position X X

[0120] BR1 IN->OUT Control event to set breaker 1 from IN to OUT position X X

[0123] BR1 E->OFF Control event to set breaker 1 from EARTH to OFF position X X

[0124] BR1 OFF->E Control event to set breaker 1 from OFF to EARTH position X X

[0125] BR1 CTRL fail Within control time breaker 1 doesn’t reach the desired position

X X

[0128] BR2 ON->OFF Control event to set breaker 2 from ON to OFF position X X

[0129] BR2 OFF->ON Control event to set breaker 2 from OFF to ON position X X

[0132] BR2 OUT->IN Control event to set breaker 2 from OUT to IN position X X[0133] BR2 IN->OUT Control event to set breaker 2 from IN to OUT position X X

[0136] BR2 E->OFF Control event to set breaker 2 from EARTH to OFF position X X

[0137] BR2 OFF->E Control event to set breaker 2 from OFF to EARTH position X X


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[0138] BR2 CTRL fail Within control time breaker 2 doesn’t reach the desired

positionX X

[0141] BR3 ON->OFF Event to set breaker 3 from ON to OFF position X X

[0142] BR3 OFF->ON Event to set breaker 3 from OFF to ON position X X

[0145] BR3 OUT->IN Event to set breaker 3 from OUT to IN position X X

[0146] BR3 IN->OUT Event to set breaker 3 from IN to OUT position X X

[0149] BR3 E->OFF Event to set breaker 3 from EARTH to OFF position X X[0150] BR3 OFF->E Event to set breaker 3 from OFF to EARTH position X X

[0151] BR3 CTRL fail Within control time breaker 3 doesn’t reach the desired position

X X

Breaker counter (life cycle events)

[0158] BR1 ON life Active if parameter [0158] ≥ parameter [0163] (life % = 0) X X

[0159] BR1GND life Active if parameter [0159] ≥ parameter [0164] (life % = 0) X X[0160] BR2 ON life Active if parameter [0160] ≥ parameter [0165] (life % = 0) X X[0161] BR2GND life Active if parameter [0161] ≥ parameter [0166] (life % = 0) X X[0162] BR3 ON life Active if parameter [0162] ≥ parameter [0167] (life % = 0) X XPower pulse events

[0170] (P+) - pulse event Active if the counted kWh (active) reached parameter [0169] - X

[0175] (P-) - pulse event Active if the counted kWh (reactive) reached parameter [0174] - X

[0177] (Q+) - pulse event Active if the counted kvarh (cap) reached parameter [0176] - X

[0179] (Q-) - pulse event Active if the counted kvarh (ind) reached parameter [0178] - X

General PM parameter

[0185] Start block. Start is blocked (the event under parameter [0185] is inactive) X X

Negative seq.uence check (will be checked always)

[0205] GEN: neg. seq. Generator voltage has negative seq.uence (only L1 and L3) X X

[0207] BUS1: neg. seq. BUS1 voltage has negative seq.uence (only L1 and L3) X X

[0209] BUS2: neg. seq. BUS2 voltage has negative seq.uence (only L1 and L3) X X

Blackout

[0230] Blackout 1 event Blackout 1 by event is active X X

[0232] Blackout 1 limit Mains monitor: bus1 voltage limit reached (own device) X X

[0233] Blackout 1 delay All conditions for blackout 1 are fulfilled and delay passed X X[0237] Blackout 2 event Blackout 2 by event is active X X

[0239] Blackout 2 limit Mains monitor: bus2 voltage limit reached (own device) X X

[0240] Blackout 2 delay All conditions for blackout 2 are fulfilled and delay passed X X

[0244] Blackout stop Prelimitinary event: Blackout stop 1 or 2 delay passed X X

Diesel control

[0262] RPM ignition n > ignition limit X X

[0263] RPM running up n > running up limit X X

[0264] RPM overspd. n > overspeed limit X X

[0266] PICKUP set Active if parameter [0266] = OFF or IGNITION and high signal on the pickupinput

X X

[0268] RPM max. diff Diff. between tacho, pickup and generator voltage X X

[0269] RPM high limit n > high limit (optional) X X

[0270] RPM low limit n < low limit (optional) X X[0271] Prelubricate Pulsetime will be set after a breaktime (in AUTO and n < ignition) X X

[0273] Alarmblock. delay Event for alarmblocking (if n < ignition) X X

Additional limits

[0280] OVERSPEED limit Gen. reaches overspeed limit X X

[0281] OVERSPEEDdelay

Delay time passed for overspeed limitX X

[0282] OVOLT. limit Gen. reaches overvoltage limit X X

[0283] OVERVOLTAGE.

delay

Delay time passed for overvoltage limitX X

[0284] OVERCURRENT.limit

Gen. reaches overcurrent limitX X

[0285] OVERCURRENT.delay Delay time passed for overcurrent limit X X

[0286] OVERLOADOWN limit

Gen. reaches overload limitX X


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[0287] OVERLOAD

OWN delay

Delay time passed for overload limitX X

[0288] OVERLOAD NETlimit

The total net power reaches overload limitX X

[0289] OVERLOAD NETdelay

Delay time passed for overload limitX X

[0290] PF CAP. limit Gen. reaches low cap. power factor limit X X

[0291] PF CAP. delay Delay time passed for low cap. power factor limit X X

[0292] PF IND. limit Gen. reaches low ind. power factor limit X X

[0293] PF IND. delay Delay time passed for low ind. power factor limit X X

[0294] Rev. power limit Gen. reaches reverse overload limit X X

[0295] Rev. power.delay Delay time passed for reverse overload limit X X

[0296] Pq limit Gen. reaches reactive ind. overload limit X X

[0297] Pq delay Delay time passed for reactive ind. overload limit X X

[0298] LDexcl.limit This function will calc. the actual net load without the own gen. and comparethis load to the high limit [0298].

X X

[0299] LDexcl.delay Delay passed X X

Communication events

[0300] ASC1 com. OK Com. OK serial channel 1 (only for the REMOTE protocol) X X

[0304] PBUS com. OK Profibus: Device exchanges data with the master X X[0324] ASC2 bad com Bad com. serial channel 2 (line differential protection) X X

[0330] MODBUS EVENT Modbus communication event [0001] X X

[03xx] … Modbus communication event [x] X X

[0349] Modbus communication event [0020] X X

[0350] PROFIBUS EV. Profibus communication event [0001] X X

[03xx] … Profibus communication event [x] X X

[0365] Profibus communication event [0016] X X

[0366] MDECno alive Timeout (1.2 sec) for the NMT alive PDU passed X X

[0367] MDEC failureOne of the MDEC failure codes are active (for details see

MDEC - failures page)X X

[0368] MDEC SD failOne of the MDEC measure data has sensor defect (for details

see MDEC - status or meters page)X X

[0369] MDEC MD failOne of the MDEC measure data has missing data (for detailssee MDEC - status or meters page)

X X

[0370]CAN event (ALLnet)

CAN event [0001] (The event is active on all nodes on the CAN Bus ifthere is one or more nodes with active event parameter)

X X

[037x] … CAN event [x] X X

[0377] CAN event [0008] X X

[0378]CAN event (OWNnet)

CAN event [0009] (The event is active on all nodes in the same net(BCG) if there is one or more nodes with active event parameter)

X X

[03xx] … CAN event [x] X X

[0385] CAN event [0016] X X

[0386]CAN event (ALL

net)

CAN event [0017] (The event is active on all nodes on the CAN Bus ifthere is one or more nodes with active event parameter)

X X

[03xx] … CAN event [x] X X

[0392] CAN event [0023] X X

Analog input events

[0400] 1. Limit reached Analog input 1 has reached the 1.limit (HIGH or LOW) X X

[0401] 1. Limit delay time The limit is reached and the delay time has passed X X



[04xx] … X X

[04xx] … X X





Binary input events

[0500] Function input 10 Function input 10 set X X


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[0501] Function input 10 Function input 10 set and delay time passed (parameter

[0501])X X

[05xx] … X X

[05xx] … X X


[0527] Function input 23 Function input 23 set and delay time passed (parameter

[0527])

X X


[0529] Function input 24 Function input 24 set and delay time passed (parameter[0501])

X X

[05xx] … X X

[05xx] … X X


[0599] Function input 59 Function input 59 set and delay time passed (parameter[0527])

X X

Diesel starting phase

[0630] Preglowing X X

[0635] Start valve X X

[0636] Breaktime X X[0637] Running up time X X

[0639] R.load time Ready to take load time X X

[0640] Sync. time X X

Diesel stopping phase

[0650] Stop abort if lastnet gen.

Active until ACKX X

[0651] AL2 stop time If stop is initiated by an alarm with priority 2 X X

[0652] Load.red. n < Use this event on a binary output to reduce the speed X X

[0654] Loud.red. time Load reduction is active X X

[0655] CB OFF stop Use this event on a binary output to open the CB X X

[0656] Cool down time X X

[0658] Running down time X X[0659] Fix stop time Hold stop valve for a fixed time after running down X X

[0660] Stop valve Use this event on a binary output to give a stop signal X X

Preferential trip limits

[0670] Current 1.limit One of the own net nodes reaches 1.high current limit X X

[0671] Current 1.delay Delay time passed for 1.high current limit X X

[0672] Current 2.limit One of the own net nodes reaches 2.high current limit X X

[0673] Current 2. delay Delay time passed for 2.high current limit X X

[0674] Current 3. limit One of the own net nodes reaches 3.high current limit X X


[0676] Current 4. limit One of the own net nodes reaches 4.high current limit X X


[0678] Low freq. limit One of the own net nodes (with CB ON) reaches low freq.

limit X X

[0679] Low freq. delay Delay time passed for low frequency limit X X

[0680] High load limit One of the own net nodes reaches high load limit X X

[0681] High load delay Delay time passed for high load limit X X

[0682] BUS overfreq. Bus 1 reaches overfrequency limit X X

[0683] BUS underfreq. Bus 1 reaches underfrequency limit X X

[0684] BUS overvoltage Bus 1 reaches overvoltage limit X X[0685] BUS undervoltage Bus 1 reaches undervoltage limit X X[0686] BUS abnormal One of the Bus 1 limits reached and delay time passed X X

Binary output events

[0700] Shunt trip #1 Shunt trip #1 output set X X

[0701] Shunt trip #2 Shunt trip #2 output set X X

[0702] Lockout relay +delay

Lockout relay setX X

[0703] Lockout relay Conditions for Lockout relay fulfilled X X

[0704] Synchron ON relay Synchron.ON set X X


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+ delay

[0705] Synchron ON Conditions for Synchron.ON relay fulfilled X X

[0706] Function output 1 +delay

Function output 1 setX X

[0707] Function output 1 Conditions for function output 1 fulfilled X X

[07xx] … X X

[07xx] … X X[0720] Function output 8 +

delay



[0722] Function output 60+ delay



[07xx] … X X

[07xx] … X X

[0768] Function output 83+ delay



Event builder[0800]

-

[0839]

LOGIC DIAGR. 40 Logic diagrams

X X

[0840]

-

[0849]

AND elements 10 AND logics

X X

[0850]

-

[0859]

OR elements 10 OR logics

X X

[0860]

-

[0869]

AND/OR elements 10 AND/OR logics

X X

[0870]

-

[0889]

TIMER 20 Timer

X X

[0890]

-

[0894]

Counter 5 Counter

X X

[0895]

-

[0899]

FLIP-FLOP 5 Flip-flops

X X

Power management

[0903] PM 1.load limit All PM-events will be active also on the slave devices X X

[0905] PM 2.load limit X X

[0907] PM low freq. X X[0909] PM high current X X

[0913] PM load-stop This function will calc. the actual net load without the firstgen. in the stop list and compare this load to the low limit[0913].

X X

[0914] PM current-stop This function will calc. the total actual net current without thefirst gen. in the stop list and compare this to the low limit[0914].

X X

Load sharing

[0930] Speed higher - X

[0931] Speed lower - X

[0939] LS diff. limit Any net gen. reached his allowed load difference X X

[0940] LS diff. delay Delay time passed at any net gen. X X

Frequency controller

[0952] Speed higher - X

[0953] Speed lower - X


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Load page: voltage control

[0961] U > Load page BCG: Load page -> Command window -> Voltage -> up X X

[0962] U < Load page BCG: Load page -> Command window -> Voltage -> down X X

Voltage controller

[0964] Voltage higher - X

[0965] Voltage lower - X

Voltage remote control[0966] Voltage higher Active if the event under parameter [0966] is active - X

[0967] Voltage lower Active if the event under parameter [0967] is active - X

Power factor (cos ) controller



Big consumer request (BCR)

[0984] BCR1 release Request 1 available (event for binary output) X X

[0986] BCR1 not av. Request 1 not available (event for alarm controller) X X

[0988] BCR2 release X X

[0990 BCR2 not av. X X

[0992] BCR3 release X X

[0994] BCR3 not av. X X[0996] BCR4 release X X

[0998] BCR4 not av. X X

ANSI code events (RELAY)

[1013] Frequency higher ANSI 25 Synchronizing unit 1 (feeder -> bus1) - X

[1014] Frequency lower - X



[1023] Synchron U1 X X

[1024] Abnormal bus 1 X X

[1043] Frequency higher ANSI 25 Synchronizing unit 2 (feeder -> bus2) - X

[1044] Frequency lower - X[1045] Voltage higher - X




[1073] Frequency higher ANSI 25 Synchronizing unit 3 (bus1 -> bus2) - X

[1074] Frequency lower - X





[1091] 24 limit ANSI 24 Overexcitation relay X X

[1092] 24 trip X X[1101] 27 1.limit Under voltage 1.step limit reached X X

[1102] 27 1.trip Under voltage 1.step tripped X X

[1103] 27 2.limit Under voltage 2.step limit reached X X

[1104] 27 2.trip Under voltage 1.step tripped X X

[1111] 27B2 1.limit Bus 2 undervoltage 1.step limit reached X X

[1112] 27B2 1.trip Bus 2 undervoltage 1.step tripped X X







[1131] 32_1r limit ANSI 32 Overload relay X X

[1132] 32_1r trip X X

[1133] 32_2r limit X X


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[1134] 32_2r trip X X

[1135] 32_1p limit X X

[1136] 32_1p trip X X

[1137] 2_2p limit X X

[1138] 32_2p trip X X

[1141] 37_min. limit ANSI 37 Undercurrent relay (motor) X X

[1142] 37_max. limit X X[1143] 37 UC trip X X

[1171] 40Q limit ANSI 40 Loss of excitation X X

[1172] 40Q trip X X

[1175] 40-1 limit Circle 1 diameter X X

[1177] 40-1 trip X X

[1179] 40-2 limit Circle 2 diameter X X

[1181] 40-2 trip X X

[1201] 46_TOC_pickup Reverse phase TOC limit reached X X

[1202] 46_TOC_tripped Reverse phase TOC tripped X X

[1205] 46_1_pickup Reverse phase 1.step limit reached X X

[1206] 46_1_tripped Reverse phase 1.step tripped X X

[1207] 46_2_pickup Reverse phase 2.step limit reached X X

[1208] 46_2_tripped Reverse phase 2.step tripped X X

[1301] 47 pickup Phase seq.uence relay limit reached X X

[1302] 47 tripped Phase seq.uence relay tripped X X

[1341] 49 TO limit ANSI 49 Thermal overload (general) X X

[1346] 49 TO trip X X

[1350] 49 CO trip ANSI 49 Thermal overload (user) X X

[1373] 49 CI trip ANSI 49 Thermal overload (interval) X X

[1382] 50_BF trip ANSI 50 Breaker failure X X

[1401] ANSI 50_1_pickup Instantaneous overcurrent 1.step limit reached X X

[1402] ANSI 50_1_tripped Instantaneous overcurrent 1.step tripped X X

[1404] ANSI 50_2_pickup Instantaneous overcurrent 2.step limit reached X X

[1405] ANSI 50_2_tripped Instantaneous overcurrent 2.step tripped X X

[1407] ANSI 50_r_pickup Instantaneous rev. overcurrent limit reached X X

[1408] ANSI 50_r_tripped Instantaneous rev. overcurrent tripped X X

[1421] ANSI 50G_pickup Instantaneous ground overcurrent limit reached X X

[1422] ANSI 50G_tripped Instantaneous ground overcurrent tripped X X

[1501] 51_TOC_pickup AC overcurrent TOC limit reached X X

[1502] 51_TOC_tripped AC overcurrent TOC tripped X X

[1505] ANSI 51_1_pickup AC overcurrent 1.step limit reached X X

[1506] ANSI 51_1_tripped AC overcurrent 1.step tripped X X





[1521] 51G_TOC_pickup AC ground overcurrent TOC limit reached X X

[1522] 51G_TOC_tripped AC ground overcurrent TOC tripped X X

[1542] 51_LR trip ANSI 51 Locked rotor (motor): - Starting phase tripped X X

[1543] 51_LR r.limit - Running phase limit reached X X

[1544] 51_LR r.trip - Running phase tripped X X

[1601] 59 1.limit Over voltage TOC/1.step limit reached X X

[1602] 59 1.trip Over voltage TOC/1.step tripped X X

[1605] 59 2.limit Over voltage 2.step limit reached X X

[1606] 59 2.trip Over voltage 2.step tripped X X

[1611] 59B1 1.limit Bus 1 overvoltage 1.step limit reached X X

[1612] 59B1 1.trip Bus 1 overvoltage 1.step tripped X X







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[1701] 64_Ugnd1_pickup Over voltage ground 1 limit reached (Ugnd 1 input) X X

[1702] 64_Ugnd1_tripped Over voltage ground 1 tripped (Ugnd1 input) X X

[1704] 64_Ugnd2_pickup Over voltage ground 2 limit reached (Ugnd2 input) X X

[1705] 64_Ugnd2_tripped Over voltage ground 2 tripped (Ugnd2 input) X X

[1708] ANSI 59N_pickup Neutral over voltage limit reached X X

[1709] ANSI 59N_tripped Neutral over voltage tripped X X[1721] 66 allow time ANSI 66 Start inhibit – allow time X X

[1723] 66 limit time - limit time X X

[1724] 66 therm.limit - thermal limit X X

[1725] 66 inhibit - general start inhibit event (for alarm controller) X X

[1801] 67_T limit AC dir. overcurrent TOC limit reached X X

[1802] 67_T trip AC dir. overcurrent TOC tripped X X

[1811] 67GS limit AC dir. Ground 1 sensitive overcurrent limit reached X X

[1812] 67GS max. limit AC dir. Ground 1 sensitive overcurrent max limit reached X X

[1813] 67GS trip AC dir. Ground 1 sensitive overcurrent tripped X X

[1817] 67GD limit AC dir. Ground 2 overcurrent limit reached X X

[1818] 67GD trip AC dir. Ground 2 overcurrent tripped X X

[1841] 78 vec.surg ANSI 78 Vector surge supervision X X[1842] 78 current.inc X X

[1845] 78 dF limit ANSI 78 dF/dt supervision X X

[1846] 78 dF trip X X

[1901] 79 reclaim ANSI 79 AC reclosing relay X X

[1914] 79 reclaim event X X

[1916] reclaim suc X X

[1917] reclaim error X X

[1930] Contact wear Contact wear detailed protection history registration X X

[1939] CW 1.sw.current Contact wear 1. switching current limit reached X X

[1940] CW 2.sw.current Contact wear 2. switching current limit reached X X[1941] CW 3.sw.current Contact wear 3. switching current limit reached X X[1942] CW 4.sw.current Contact wear 4. switching current limit reached X X[1943] CW 1.limit Contact wear 1. limit reached X X

[1944] CW 2.limit Contact wear 2. limit reached X X[1945] CW 3.limit Contact wear 3. limit reached X X[1946] CW 4.limit Contact wear 4. limit reached X X[1947] CW 1.sw.cyc. Contact wear 1. switching cycles limit reached X X

[1948] CW 2.sw.cyc. Contact wear 2. switching cycles limit reached X X[1949] CW 3.sw.cyc. Contact wear 3. switching cycles limit reached X X[1950] CW 4.sw.cyc. Contact wear 4. switching cycles limit reached X X[2001] 81 O1.limit Over frequency 1.step limit reached X X

[2002] 81 O1.trip Over frequency 1.step tripped X X

[2004] 81 O2.limit Over frequency 2.step limit reached X X

[2005] 81 O2.trip Over frequency 2.step tripped X X

[2007] 81 U1.limit Under frequency 1.step limit reached X X[2008] 81 U1.trip Under frequency 1.step tripped X X

[2010] 81 U2.limit Under frequency 2.step limit reached X X

[2011] 81 U2.trip Under frequency 2.step tripped X X

[2021] 81B1 O1.limit Bus 1 overfrequency 1.step limit reached X X

[2022] 81B1 O1.trip Bus 1 overfrequency 1.step tripped X X



[2025] 81B1 U1.limit Bus 1 underfrequency 1.step limit reached X X

[2026] 81B1 U1.trip Bus 1 underfrequency 1.step tripped X X



[2031] 81B2 O1.limit Bus 2 overfrequency 1.step limit reached X X[2032] 81B2 O1.trip Bus 2 overfrequency 1.step tripped X X




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[2092] 86_Lockout_Set Lockout relay set X -

[2101] 87 limit ANSI 87 Differential protection X X

[2102] 87 trip X X[2121] 87_N limit ANSI 87 Restrict earth fault X X

[2122] 87_N trip X X

[2221] 94_S1UV limit Under voltage limit for shunt trip 1 coil reached X X

[2222] 94_S1UV trip Under voltage for shunt trip 1 coil tripped X X

[2224] 94_S2UV limit Under voltage limit for shunt trip 2 coil reached X X

[2225] 94_S2UV trip Under voltage for shunt trip 2 coil tripped X X

[2227] 94_A_OV limit Over voltage limit for auxiliary (ctrl-) voltage reached X X

[2228] 94_A_OV trip Over voltage for auxiliary (ctrl-) voltage tripped X X

[2229] 94_A_UV_limit Under voltage limit for auxiliary (ctrl-) voltage reached X X

[2230] 94_A_UV_trip Under voltage for auxiliary (ctrl-) voltage tripped X X

[2303] ANSI 95i_tripped Inrush blocking is tripped with the corresponding ANSI code(ACK to reset)

X X

[2311] FF G Uo limit Fuse failure: gen. displacement voltage limit reached X X

[2312] FF G min. limit Fuse failure: gen. min. voltage limit reached X X

[2313] FF G max. limit Fuse failure: gen. max. voltage limit reached X X

[2314] FF GEN trip Fuse failure: gen. tripped X X

[2321] FF B1Uo limit Fuse failure: bus 1 displacement voltage limit reached X X

[2322] FF B1min. limit Fuse failure: bus 1 min. voltage limit reached X X

[2323] FF B1max. limit Fuse failure: bus 1 max. voltage limit reached X X

[2324] FF BUS1 trip Fuse failure: bus 1 tripped X X

[2331] FF B2Uo limit Fuse failure: bus 2 displacement voltage limit reached X X

[2332] FF B2 min. limit Fuse failure: bus 2 min. voltage limit reached X X

[2333] FF B2 max. limit Fuse failure: bus 2 max. voltage limit reached X X

[2334] FF BUS2 trip Fuse failure: bus 2 tripped X X

[2341] AUX CURRENT 1

limit

Auxiliary limits: Average current 1. limit reachedX X

[2342] AUX CURRENT 1delay

Auxiliary limits: Average current 1. limit delay passedX X

[2344] AUX CURRENT 2limit

Auxiliary limits: Average current 2. limit reachedX X

[2345] AUX CURRENT 2delay

Auxiliary limits: Average current 2. limit delay passedX X

[2347] AUX VOLTAGE 1limit

Auxiliary limits: Average voltage 1. limit reachedX X

[2348] AUX VOLTAGE 1delay

Auxiliary limits: Average voltage 1. limit delay passedX X

[2350] AUX VOLTAGE 2limit Auxiliary limits: Average voltage 2. limit reached X X

[2351] AUX VOLTAGE 2delay

Auxiliary limits: Average voltage 2. limit delay passedX X

[2353] AUX POWER 1

limit

Auxiliary limits: Sum power 1. limit reachedX X

[2354] AUX POWER 1delay

Auxiliary limits: Sum power 1. limit delay passedX X

[2356] AUX POWER 2

limit

Auxiliary limits: Sum power 2. limit reachedX X

[2357] AUX POWER 2delay

Auxiliary limits: Sum power 2. limit delay passedX X

[2359] AUX FREQ. 1

limit

Auxiliary limits: Frequency 1. limit reached

X X[2360] AUX FREQ. 1

delayAuxiliary limits: Frequency 1. limit delay passed

X X

[2362] AUX FREQ. 2 Auxiliary limits: Frequency 2. limit reached X X


14/48



limit

[2363] AUX FREQ. 2

delay

Auxiliary limits: Frequency 2. limit delay passedX X

Request own power

[2403] Pw release Request available (event for binary output) X X

[2404] Pw not avail Request not available (event for alarm controller) X X

Speed remote control[2421] Speed higher Active if the event under parameter [2421] is active - X

[2422] Speed lower Active if the event under parameter [2422] is active - X

PM: Load ranges

[2430] LOADRANGE OK Active if parameter [2430] is set, and all gen. needed for all ranges are inAUTOM.

X X

[2431] LDRANGE AUTO Active if parameter [2430] is set, and all gen. needed for the actual range arein AUTOM. X X

[2434] PM 1.range The actual net power is within the 1. load range (no delay!) X X

[2436] PM 2.range . X X

[2438] PM 3.range . X X

[2440] PM 4.range . X X

[2442] PM 5.range . X X

[2444] PM 6.range . X X[2446] PM 7.range . X X

[2448] PM 8.range The actual net power is within the 8. load range (no delay!) X X

Nominal Settings (will be activated at systemstart if P2460 or 2461 are set)

[2460] NOM.SETTING1 P200-203 are the actual nominal settings X X




Miscellaneous events

[2900] Local mode X X

[2901] Remote mode X X

[2902] Scada mode X X

[2903] Test mode local X X

[2904] Test mode remote X X

[2905] Manual mode BCG - only X X

[2906] Automatic mode BCG - only X X

[2907] ON key Active as long as key is pressed X X

[2908] OFF key Active as long as key is pressed X X

[2909] ACK key Active as long as key is pressed X X

[2910] Select breaker 1 Select breaker 1 with the frame over the F4 - key X X



[2913]Breaker undefined position

Not allowed feedback signals of a breakerX X

[2914] CB OPEN err. CB opens without device command X X[2915] Select breaker 4 Select breaker 4 with the frame over the F4 - key X X

[2916] START key Active as long as key is pressed X X

[2917] STOP key Active as long as key is pressed X X

[291]8 Beeper Corresponds to the alarm beeper X X


[2920] EM. OFF Active as long as “OFF”- and “ACK”-keys are pressed simultan X X

[2921] System reset X -

[2922] System start X -

[2923] LEM unstable Corresponds to the Ready-LED X X

[2924] Alarm impuls This event gives an impuls with every new alarm X X

[2925] Non volatile RAMreset

X -

[2926] Stucke password X -

[2927] Aid password X -

[2928] Access code #1 X -


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[2931] Interlock error X -

[2932] Heater ON X X

[2933] Heater AUTO X X

[2934] Start toggleOnly BCG: this event changes with every start valve trial. Can be used to

change the battery on every start attempt.X X

[2935] CURRENT4addlimit

Additional low limit for Analog input 4 (set with parameter [0058]) X X

[2936] New Alarm(s) Active if a new alarm appears. Reset with any ACK X X

[2937] Alarm page Active if the alarm page is visible X X

[2938] AUTO key Active as long as key is pressed X X

[2939] MANU key Active as long as key is pressed X X

Load page: speed control

[2940] n > Load page BCG: Load page -> Command window -> Speed ctrl. -> up X X

[2941] n < Load page BCG: Load page -> Command window -> Speed ctrl. -> down X X

Speed control general events

[2942] n > generalActive if one of the following events are active:[0930], [0952], [1013], [1043], [1073], [2421] or [2940]

- X

[2943] n < generalActive if one of the following events are active:[0652], [0931], [0953], [1014], [1044], [1074], [2422] or[2941]

- X

Voltage control general events

[2944] U > generalActive if one of the following events are active:

[0961], [0964], [0966], [0975], [1015], [1045] or [1075]- X

[2945] U < generalActive if one of the following events are active:[0962], [0965], [0967], [0976], [1016], [1046] or [1076]

- X

Blocking events

[2946] Stopblock PM Active on all net nodes X X

[2947] Stopblock BCR Active on all net nodes X X

[2948] CB ON block Active if more than one gen. in starting and no CB closed in the net X X

[2949] NEG.SEQ.blockActive if during synchronizing one voltage system has negative seq.uence

X XDiesel start sources (active during start phase)

[2950] PM START Power management X X

[2951] BCR START Big consumer request X X

[2952] Key START Front panel of device X X

[2953] L.page START Load page (could be own or another device) X X

[2954] Event START Parameter 186: “Start next diesel“ X X

[2955] Monit. START Monitoring system (over CAN bus) X X

[2956] Serial START Serial com. RS 422/485 (Modbus) X X

[2957] Black. START Blackout (active until the diesel is stopped by any source) X X

[2958] S.fail START Start failure of a diesel -> start next diesel X X

[2959] Alarm START Alarm with priority -> start next diesel X X

[2960] Remote START Parameter [0187]: “Remote start“ X X

Diesel stop sources (active during stop phase)

[2970] PM STOP Power management X X

[2971] Key STOP Front panel of device X X

[2972] L.page STOP Load page (could be own or another device) X X

[2973] Monit. STOP Monitoring system (over CAN bus) X X

[2974] Serial STOP Serial com. RS 422/485 (Modbus) X X

[2975] Black. STOP Blackout X X

[2976] Alarm STOP Alarm with priority X X

[2977] Remote STOP Parameter [0188]: “Remote stop“ X X

[2978] EMERGEN.STOP By ACK+STOP keys or by event (parameter [0661]) X X

Diesel start failure (events active after a failure until “ACK”)

[2980] Startfailure Common start failure event X X

[2981] Ignitionfail After start max trials speed does not reach ignition limit X X

[2982] RPM=0 fail Speed does not fall under deadband (2%) before start X X

[2983] Run.speed fail Speed does not reach running up speed in the running up phase X X


16/48



[2984] Run.volt. fail Voltage does not reach running up volt. in the running up phase X X

[2985] Sync. fail The synchronizing time exceeds the max time (parameter

[0640])X X

Diesel stop failure (events active after a failure until “ACK”)

[2990] Stopfailure Common stop failure event X X

[2991] AL.PRIO2fail After alarm prio.2 delay next diesel still in starting phase X X

[2992] Ld.red. fail After load reduction max. time (parameter [0654]) load doesnot reach the limit (parameter [0653]). X X

[2993] CB OFF fail After giving the CB-OFF order the CB does not open in 5 sec. X X

[2994] Run.downfail After running down phase (also after stop fixed delay):n > ignition.

X X

System fail events (for details see table 2.2.1)

[3000] System fail Common alarm of system check. X X

[3001] ROM error disabled X X

[3002] RAM error disabled X X

[3003] EEPROM error Error in EEPROM device X X

[3004] Settings error disabled X X

[3005] CPU CLOCK fail The CU quartz has deviations X X

[3006] COM.CU-MU fail SSC-Comm. fails X X[3007] COM.CU-RU fail SSC-Comm. fails X X

[3008] CAN1 send error CU CAN fails to transmit messages X X

[3009] SPC3-HW fail No comm. to profibus controller X X

[3010] RTC fail Real time clock failure X X

[3011] RTC battery low disabled X X

[3012] BINin oscillate Basic binary input oscillation X X

[3013] MU PRM CS fail Parameter checksum fail (send via SSC) X X

[3014] GPS-modul fail disabled X X

[3015] LC-display fail disabled X X

[3016] DAC-comm.error MAX5550 communication error X X

[3017] CMR1/2 is low Controller sync. connections defect X X

[3018] No 4Mbit-RU-RAM RU detects a RAM less than 1MB X X

[3019] CAN1 node error Less nodes on CAN-Bus than parameter [0309] X X

[3020] Outp.driver error Relais driver defect (basic unit) X X

[3021] ADC 1 error ADC 1 failure (basic unit) X X

[3022] ADC 2 error ADC 2 failure (basic unit) X X

[3023] Ext.board error No comm. to a extension board X X

[3024] ext.ADC 1 error ADC 1 failure (extension board) X X




[3028] exOUTPdriv1 error Relais driver 1 defect (extension board) X X

[3029] exOUTPdriv2 error Relais driver 2 defect (extension board) X X

[3030] Lockout error Lockout output fails if change request X X[3031] P2 (24V) error Supply voltage fails X X

[3032] Vcc (5V) error disabled X X

[3033] Vcc3 error Supply voltage fails X X

[3034] Veed(LCD) error disabled X X

[3035] RU PRM CS fail Parameter checksum fail (send via SSC) X X

[3036] CAN2 send error RU CAN fails to transmit messages X X

[3037] CAN2 Bus off RU CAN reaches bus off state X X

[3038] Event oscillate Event system overload X X

[3039] CAN2 bad comm. disabled X X

[3040] ADC 3 error ADC 3 failure (only Type Y) X X

[3041] ASC2 bus off MU serial port no comm. (Line diff.) X X

[3042] ASC2 bad comm. MU serial port bad comm. (Line diff.) X X[3043] CAN1 bad comm. CU CAN failure X X

[3044] ASC1 bus off Serial port 1 (only for the REMOTE protocol) X X

[3045] ASC1 bad comm. Serial port 1 (only for the REMOTE protocol) X X


17/48



[3046] exOUTPdriv3 err Ext. board (CMA216) relais driver fail X X

[3047] RU-old firmware Recorder firmware not compatible to CU X X

[3048] MODEM init.fail No init. at systemstart possible X X

[3049] ADC-ADS7841 err Optional Analog Inputs 12 Bit-ADC Error X X

MDEC - Binary status events

[3100] PV 110001 Stop Activated X X

[3101] PV 110003 SS Overspeed (ECU) X X

[3102] PV 110008 Injection Limitation X X[3103] PV 110009 SS Power Reduction Active X X[3104] PV 110010 Combined Alarm Yellow (ECU) X X[3105] PV 110013 Speed Demand Fail Mode X X[3106] PV 110014 Combined Alarm Red (ECU) X X[3107] PV 110015 Test Overspeed Active X X[3108] PV 110018 Feedback Increase Speed X X[3109] PV 110019 Feedback Decrease Speed X X[3110] PV 110024 Feedback Local X X[3111] PV 110029 LO P-Lube Oil X X[3112] PV 110030 SS P-Lube Oil X X

[3113] PV 110047 LO P-Fuel X X[3114] PV 110048 SS P-Fuel X X[3115] PV 110050 LO P-Charge Air X X[3116] PV 110055 LO Coolant Level X X[3117] PV 110064 LO P-Fuel (Common Rail) X X[3118] PV 110065 HI P-Fuel (Common Rail) X X[3119] PV 110066 SS Override X X[3120] PV 110068 Engine Running X X[3121] PV 110074 Cylinder Cutout X X[3122] PV 110076 Speed Limit 1 X X[3123] PV 110077 Speed Limit 2 X X[3124] PV 110078 Load Generator ON X X

[3125] PV 110088 Horn X X[3126] PV 110089 Preheat Temperature Low X X[3127] PV 110091 AL BIN-AUX 1 X X[3128] PV 110092 AL BIN-AUX 2 X X[3129] PV 110093 AL BIN-AUX 3 X X[3130] PV 110094 AL BIN-AUX 4 X X[3131] PV 110095 AL P-AUX 1 Limit 1 X X[3132] PV 110096 AL P-AUX 2 Limit 1 X X[3133] PV 110097 AL T-AUX 1 Limit 1 X X[3134] PV 110098 AL T-AUX 2 Limit 1 X X[3135] PV 110099 SS Coolant Level Charge Air X X[3136] PV 110116 AL ECU Defect X X[3137] PV 110118 AL Speed Demand Defect X X[3138] PV 110122 LO ECU Power Supply Voltage X X[3139] PV 110123 HI ECU Power Supply Voltage X X[3140] PV 110129 HI T-Coolant (ECU) X X[3141] PV 110130 SS T-Coolant (ECU) X X[3142] PV 110133 HI T-Charge Air X X[3143] PV 110139 HI T-Coolant Intercooler X X[3144] PV 110143 HI T-Lube Oil X X[3145] PV 110144 SS T-Lube Oil X X[3146] PV 110168 SS T-Charge Air X X[3147] PV 110170 HI T-ECU X X[3148] PV 110177 SS Engine Speed Low X X[3149] PV 110178 AL ECU Error/Check Error Code X X

[3150] PV 110185 AL Common Rail Leackage X X[3151] PV 110202 AL P-AUX 1 Limit 2 X X[3152] PV 110204 AL P-AUX 2 Limit 2 X X[3153] PV 110213 AL Automatic Engine Stop X X


18/48



[3154] PV 110226 Feedback Alarm Reset X X[3155] PV 110232 BIN AUX1 X X[3156] PV 110233 BIN AUX2 X X[3157] PV 110234 BIN AUX3 X X[3158] PV 110235 BIN AUX4 X X[3159] PV 110239 MG Start Speed Not Reached X X[3160] PV 110240 MG Runup Speed Not Reached X X[3161] PV 110241 MG Idle Speed Reached X X[3162] PV 110252 AL T-AUX 1 Limit 2 X X[3163] PV 110254 AL T-AUX 2 Limit 2 X X[3164] PV 110256 Actual Operating Mode X X[3165] PV 110270 LOLO ECU Power Supply Voltage X X[3166] PV 110271 HIHI ECU Power Supply Voltage X X[3167] PV 110284 AL P-Fuel Filter Diff. HI X X[3168] PV 110290 SD Coolant Level X X[3169] PV 110293 SD Coolant Level Charge Air X X[3170] PV 110299 HI T-Fuel X X[3171] PV 331001 Combined Alarm P-Fuel (Rail) X X[3172] PV 331002 Combined Alarm P-Fuel (Rail) X X

[3173] PV 331003 Combined Alarm P-Fuel (Rail) X X

ADEC - Binary status events

[3100] PV 001 14 AL Combined Alarm Red X X

[3101] PV 001 10 AL Combined Alarm Yellow X X

[3102] PV 001 68 Engine Running X X[3103] PV 001 74 Cylinder Cutout X X[3104] PV 001 78 Load Generator ON X X[3105] PV 001 3 SS Overspeed X X[3106] PV 001 177 SS Engine Speed Low X X[3107] PV 001 118 AL Speed Demand Defect X X[3108] PV 001 239 AL Start Speed Not Reached X X

[3109] PV 001 240

AL Runup Speed Not Reached

X X[3110] PV 001 241 AL Idle Speed Not Reached X X[3111] PV 001 13 Speed Demand Fail Mode X X[3112] PV 001 18 Feedback Increase Speed X X[3113] PV 001 19 Feedback Decrease Speed X X[3114] PV 001 213 Automatic Shutdown X X[3115] PV 001 1 External Stop Activated X X[3116] PV 001 66 Override Feedback for ECU X X[3117] PV 001 89 Preheat Temp. Not Reached X X[3118] PV 001 226 Feedback Alarm Reset X X[3119] PV 001 256 Feedback CAN Mode Switch X X[3120] PV 005 301 Priming Pump On X X[3121] PV 001 237 AL Prelubrication Fault X X[3122] PV 009 590 AL Water In Fuel Prefilter 1 X X[3123] PV 009 600 AL Water In Fuel Prefilter 2 X X[3124] PV 005 353 HI Level Day-Tank X X[3125] PV 005 354 LO Level Day-Tank X X[3126] PV 005 363 HI Level Holding-Tank X X[3127] PV 005 364 LO Level Holding-Tank X X[3128] PV 001 55 LO Coolant Level X X[3129] PV 001 99 LO Intercooler Coolant Level X X[3130] PV 001 29 LO P-Lube Oil X X[3131] PV 001 30 LOLO P-Lube Oil X X[3132] PV 009 520 HI Pressure 1 X X[3133] PV 009 530 HI Pressure 2 X X

[3134] PV 001 129 HI T-Coolant X X[3135] PV 001 130 HIHI T-Coolant X X[3136] PV 001 143 HI T-Lube Oil X X[3137] PV 001 144 HIHI T-Lube Oil X X


19/48



[3138] PV 001 133 HI T-Charge Air X X[3139] PV 001 168 HIHI T-Charge Air X X[3140] PV 001 139 HI T-Coolant Intercooler X X[3141] PV 005 241 T-Generator Warning X X[3142] PV 001 299 HI T-Fuel X X[3143] PV 009 500 HI T-Exhaust A X X[3144] PV 009 510 HI T-Exhaust B X X[3145] PV 009 540 HI T-Winding 1 X X[3146] PV 009 550 HI T-Winding 2 X X[3147] PV 009 560 HI T-Winding 3 X X[3148] PV 009 580 HI T-Ambient X X[3149] PV 001 116 AL ECU Defect X X[3150] PV 001 170 HI T-ECU X X[3151] PV 001 271 HIHI ECU Power Supply Voltage X X[3152] PV 001 270 LOLO ECU Power Supply Voltage X X[3153] PV 001 123 HI Power Supply X X[3154] PV 001 122 LO Power Supply X X[3199] MDEC Fail page Active if the MDEC failure page is visible X X

Generator net events (only BCG, XG and ECG)[3200] CB ON = 0 No generators with CB closed in own net (Blackout) X X

[3201] CB ON = 1 One generator with CB closed in own net X X

[3202] CB ON = 2 Two generators with CB closed in own net X X[3203] CB ON = 3 Three generators with CB closed in own net X X[3204] CB ON = 4 Four generators with CB closed in own net X X[3205] CB ON = 5 Five generators with CB closed in own net X X[3210] CB ON ≥ 1 One or more generators with CB closed in own net X X[3211] CB ON ≥ 2 Two or more generators with CB closed in own net X X[3212] CB ON ≥ 3 Three or more generators with CB closed in own net X X[3213] CB ON ≥ 4 Four or more generators with CB closed in own net X X[3214] CB ON ≥ 5 Five or more generators with CB closed in own net X X

[3220] CB ON < 2 Less than two generators with CB closed in own net X X[3221] CB ON < 3 Less than three generators with CB closed in own net X X[3222] CB ON < 4 Less than four generators with CB closed in own net X X[3223] CB ON < 5 Less than five generators with CB closed in own net X X[3224] CB ON < 6 Less than six generators with CB closed in own net X X

[3230] 1st stand-by First generator in the start stand-by list X X

[3231] 2nd stand-by Second generator in the start stand-by list X X

[3235] 1st to stop First generator in the stop list X X

[3236] 2nd to stop Second generator in the stop list X X

[3240] CB ON lost One or more gen. with CB closed are lost in the own netNote: Parameter [0309] must be set to the total number of nodes on the CAN

Bus.

X X

Application events[3300] APPLICATION Active for 3 sec if ENTER on 1. position (MENU: CONTROL > APPLIC.) X X

[3301] APPLICATION X X[3302] APPLICATION X X[3303] APPLICATION X X[3304] APPLICATION X X

[3305] APPLICATION X X[3306] APPLICATION X X[3307] APPLICATION X X[3308] APPLICATION X X

[3309] APPLICATION X X[3310] APPLICATION X X

[3311] APPLICATION Active for 3 sec if ENTER on 12. position (MENU: CONTROL > APPLIC.) X XWirefault events

[3320] WIREFAULT Common wirefault (Binary input condition: “N.O.+W.F” or “N.C.+W.F”) X X


20/48



[3321] W.F. FUNC.10 Wirefault of Function input 10 X X














PT100 Sensor defect events (Ext. board CMA217/218)

[3400] PT100SensDef Common PT100 sensor defect (one of channel 1-6 is out of range) X X

[3401] PT100-1 SD Sensor defect of PT100 channel 1 X X

[3402] PT100-2 SD Sensor defect of PT100 channel 2 X X

[3403] PT100-3 SD Sensor defect of PT100 channel 3 X X[3404] PT100-4 SD Sensor defect of PT100 channel 4 X X[3405] PT100-5 SD Sensor defect of PT100 channel 5 X X[3406] PT100-6 SD Sensor defect of PT100 channel 6 X X

Binary inputs inverted after delay events (if condition: N.O.+INV or N.C.+INV.)

[3501] Function input 10 Event [0501] inverted X X

[35xx] Function input xx Event [05xx] inverted X X

[3599] Function input 59 Event [0599] inverted X X

System Messages

[9000] SSCCON init. X -

[9001] CU-Stack OF X -

[9002] PB:init SPC3 X -

[9003] PB:reset X -

[9004] PB:offline X -

[9005] PB:mac reset X -

[9006] PB:go dex X -

[9007] PB:leave dex X -

[9008] PB:wd timout X -

[9009] PB:new GC X -

[9010] MU-Sample-Error X -

[9011] MU-ADC-Error X -

[9012] MR refresh X -

[9020] ServiceAcces X -

[9021] Testmode X -[9022] I/O-Test X -

[9023] WatchdogTest X -

[9024] PowerONreset X -

[9025] PRM download New parameters downloaded with the “Parameter Tool” X -

[9026] REC start X -

[9027] REC trigger X -

[9028] Calibration Calibration mode access X -

[9090] MODEM init. X -

[9091] MDMe ring Modem ring from extern X -

[9092] MDMe connect Modem connection from extern established X -

[9093] MDMe hang up Modem connection from extern aborted X -

[9094] MDMi connect Modem connection from intern established X -

[9095] MDMi hang up Modem connection from intern aborted X -

[9999] ON-Event Event is always active (true) - X


21/48



Table 2.2.2 System fail events description

Note: All system fails can be only reset with ACK.

Ev. LCD Text DescriptionCycle

(ms)

Delay

(sec)Detailed reason

[3000] System fail Common alarm of system check. - -Active if any of the events [3001]-[3048]are active

[3001] ROM error disabled

[3002] RAM error disabled

[3003] EEPROM error Error in EEPROM device 2000 - EEPROM gives no I2C-ACK back

[3004] Settings error disabled

[3005] CPU CLOCK fail The CU quartz has deviations - - PLL hardware interrupt

[3006] COM.CU-MU fail SSC-Comm. fails 5000 20 No SSC messages within 5 sec

[3007] COM.CU-RU fail SSC-Comm. fails 5000 20 No SSC messages within 5 sec

[3008] CAN1 send error CU CAN fails to transmit messages 500 10 No CAN Tx interrupt

[3009] SPC3-HW fail No comm. to profibus controller 2000 8 Write fail to SPC3 controller

[3010] RTC fail Real time clock failure 1000 - Read fail after 5 trials

[3011] RTC battery low disabled

[3012] BINin oscillate Basic binary input oscillation 1000 -During 1 sec changes exceeds parameter

[0084]

[3013] MU PRM CS fail Parameter checksum fail (send via SSC) - 10CU fails at systemstart to send parameters

to MU

[3014] GPS-modul fail disabled [3015] LC-display fail disabled [3016] DAC-comm.error MAX5550 communication error 10000 30 Read back value not OK (SPI-Bus)

[3017] CMR1/2 is low Controller sync. connections defect - - Checked once at systemstart

[3018] No 4Mbit-RU-RAM RU detects a RAM less than 1MB - - Checked once at systemstart

[3019] CAN1 node errorLess nodes on CAN-Bus than parameter

[0309]500 10 CAN node is missing

[3020] Outp.driver err Relais driver defect (disabled for Type Y) 500 20 Wrong return value from driver

[3021] ADC 1 error ADC 1 failure (basic unit) 100 2 ADC-Test channel deviation

[3022] ADC 2 error ADC 2 failure (basic unit) 100 2 ADC-Test channel deviation

[3023] Ext.board error No comm. to a extension board 250 10 ADC-Test channel = FFh

[3024] ext.ADC 1 error ADC 1 failure (extension board) 250 20 ADC-Test channel deviation




[3028] exOUTPdriv1 err Relais driver 1 defect (extension board) 500 20 Wrong return value from driver

[3029] exOUTPdriv2 err Relais driver 2 defect (extension board) 500 20 Wrong return value from driver

[3030] Lockout error Lockout output fails if change request - - No feedback (LOR) after 50 ADC readtrials

[3031] P2 (24V) error Supply voltage fails 2000 10 LSB value out of range (200-245)

[3032] Vcc (5V) error disabled

[3033] Vcc3 error Supply voltage fails 2000 10 LSB value out of range (125-166)

[3034] Veed(LCD) error disabled

[3035] RU PRM CS fail Parameter checksum fail (send via SSC) - 10CU fails at systemstart to send parameters

to RU

[3036] CAN2 send error RU CAN fails to transmit messages 100 20 No CAN Tx interrupt

[3037] CAN2 Bus off RU CAN reaches bus off state 100 - CAN Bus off interrupt

[3038] Event oscillate Event system overload 1000 300More than 200 eventchanges per sec during

a period of 5 minutes

[3039] CAN2 bad comm. disabled

[3040] ADC 3 error ADC 3 failure (only Type Y) 500 10 ADC-Test channel deviation

[3041] ASC2 bus off MU serial port no comm. (Line diff.) No Rx messages[3042] ASC2 bad comm. MU serial port bad comm. (Line diff.) Too less Rx messages

[3043] CAN1 bad comm. CU CAN failure 1000 60 Too less Rx messages

[3044] ASC1 bus offSerial port 1 (only for the REMOTE

protocol)1000 10 No Rx messages

[3045] ASC1 bad comm.Serial port 1 (only for the REMOTE

protocol)1000 60 Too less Rx messages

[3046] exOUTPdriv3 err Ext. board (CMA216) relais driver fail 10000 30 Wrong return value from driver

[3047] RU-old firmware Recorder firmware not compatible to CU 5000 - Old RU (before 16.03.2005)

[3048] MODEM init.fail No init. at systemstart possible - - No return value from modem

[3049] ADC-ADS7841 err Optional Analog Inputs 12 Bit-ADC Error 100 2 ADC-Test channel deviation


22/48



A2.3 Event builder

The event builder offers several possibilities to combine events and to build user defined

applications. The various logic elements can be accessed through the following overview list

(see figure A2.3-1). This list is placed in the menu tree as follows: MENU > SETTING >

SYSTEM > EVENT BUILDER.The first 3 items (Breaker control, Interlock diagrams, Breaker test mode) are linked to the

breaker control and can not be used for other purposes.

The other elements can be used for any applications.

Figure A2.3-1 Event builder

EVENT BUILDER

Breaker control

Interlock diagrams

Breaker test mode

Logic diagrams (800-839)

AND elements (840-849)

OR elements (850-859)AND / OR (860-869)

Timer (870-889)

Counter (890-894)

Flip-flops (895-899)

CAN events (370-392)

BACK EXIT


23/48



A2.3.1 Breaker control

The event builder provides 18 trigger logic elements for the breaker control. These logic

elements are reserved only for the breaker control. Each logic element has an unique output

event number. If the logic is fulfilled, the output event number becomes active (if the

corresponding interlock diagram is fulfilled). With this event a binary output can be set to

control a circuit breaker.

Figure A2.3-2 Breaker control

Parameter description:

[BREAKER CONTROL - Select :]Selects one of the 18 logic elements (see table A2.3-1):

Table A2.3-1 Breaker control - select_1

Nr. CONTROL Event

01 ON->OFF [0115]

02 OFF->ON [0116]

03 OUT->IN [0119]04 IN->OUT [0120]

05 EARTH->OFF [0123]

06

BREAKER 1

OFF->EARTH [0124]

07 ON->OFF [0128]

08 OFF->ON [0129]09 OUT->IN [0132]

10 IN->OUT [0133]


12

BREAKER 2

OFF->EARTH [0137]

13 ON->OFF [0141]

14 OFF->ON [0142]

15 OUT->IN [0145]

16 IN->OUT [0146]


18

BREAKER 3

OFF->EARTH [0150]

[01:] to [10:] (Event numbers)

Each of the 18 logic elements has 10 input event numbers. Event numbers which are not usedcan be set to 0 (false).

BREAKER CONTROL – Select: 01

Trigger logic for BREAKER 1 ON->OFF

01: 0

02: 0

03: 0

04: 2900 INTER

05: 2910 & ≥1 -LOCK 115

06: 2908 CHECK

07: 290108: 0

09: 010: 0

BACK EXIT

&

&

Setting range:

Event nr.:

01: 0-9999

02: 0-9999

03: 0-9999

04: 0-9999

05: 0-9999

06: 0-9999

07: 0-999908: 0-9999

09: 0-999910: 0-9999


24/48


25/48



A2.3.3 Breaker test mode

The event builder provides 6 trigger logic elements to test the breaker control (see figure

A2.3-3). These logic elements are reserved only for the breaker control. Each logic element

has an unique output event number. If the logic is fulfilled, the output event number becomes

active. With this event a binary output can be set to control a circuit breaker.

Note: These logic elements do not check the interlock diagrams. They should be used to test a

breaker movement from ON->OFF or OFF->ON if the selected breaker is in the test position

(OUT position), and if the operating mode is “Test mode local” (event [2903]) or “Test mode

remote” (event [2904]).

Figure A2.3-3 Breaker test mode


[BREAKER TEST MODE - Select :]

Selects one of the 6 logic elements (see table A2.3-3).

Table A2.3-3 Breaker test mode - select

Nr. CONTROL Event

01 ON->OFF [0115]

02BREAKER 1

OFF->ON [0116]

03 ON->OFF [0128]

04

BREAKER 2

OFF->ON [0129]05 ON->OFF [0141]

06BREAKER 3

OFF->ON [0142]


Each of the 6 logic elements has 10 input event numbers. Event numbers which are not used

can be set to 0 (false).

BREAKER TEST MODE – Select: 01

Trigger for test BREAKER 1 ON->OFF

01: 0

02: 0

03: 004: 2903

05: 2910 & ≥1 115

06: 2908

07: 2904

08: 0

09: 010: 0

BACK EXIT

&

&

Setting range:

Event nr.:

01: 0-9999

02: 0-9999

03: 0-9999

04: 0-9999

05: 0-9999

06: 0-9999

07: 0-9999

08: 0-9999

09: 0-999910: 0-9999


26/48



A2.3.4 Logic diagrams

The event builder provides 40 logic diagrams with 50 event inputs for general purpose. Each

logic diagram has an unique output event number. The numbers are: 800-839. If the diagram

is enabled and the logic is fulfilled the output event number becomes active.

Note: see chapter A2.4.2. for the logic connection for one diagram.

Figure A2.3-4 Logic diagram event


[LOGIC DIAGRAM EVENT - Select :]

Selects one of the 40 logic diagrams:

[Condition:]

Enables the selected logic diagram.

• OFF: The output event is always inactive.

• ON: The output event is active if the logic is fulfilled.


Each of the 40 logic diagrams has 50 input event numbers. Event numbers which are not used

can be set to 0 (false) or 9999 (true).

LOGIC DIAGRAM EVENT – Select: 800

Condition: ON

01: 0 11: 0 21: 0 31: 0 41: 0

02: 0 12: 0 22: 0 32: 0 42: 0

03: 0 13: 0 23: 0 33: 0 43: 0

04: 0 14: 0 24: 0 34: 0 44: 0

05: 0 15: 0 25: 0 35: 0 45: 0

06: 0 16: 0 26: 0 36: 0 46: 0

07: 0 17: 0 27: 0 37: 0 47: 0

08: 0 18: 0 28: 0 38: 0 48: 009: 0 19: 0 29: 0 39: 0 49: 0

10: 0 20: 0 30: 0 40: 0 50: 0

BACK EXIT

Setting range: 800-839

OFF/ON

Event nr.:

01-50: 0-9999


27/48



A2.3.5 AND elements

The event builder provides 10 AND logic elements for general purpose (see figure A2.3-5).

Each logic element has an unique output event number. The numbers are: [0840] to [0849]. If

the element is enabled and the logic is fulfilled the output event number becomes active.

Figure A2.3-5 AND Element

Figure A2.3-5 AND element


[AND ELEMENT - Select :]

Selects one of the 10 logic elements.

[ - mode :]

Enables the selected logic element.



• INVERT: The output event will be inverted.




AND ELEMENT – Select: 840

- mode: ON

01: 0

02: 0

03: 0

04: 0

05: 0

06: 0

07: 0

08: 0

09: 010: 0

BACK EXIT

Setting range:

OFF/ON/INVERT

Event nr.:

01: 0-9999

02: 0-9999

03: 0-9999

04: 0-9999

05: 0-9999

06: 0-9999

07: 0-9999

08: 0-9999

09: 0-9999

10: 0-9999

& 840


28/48



A2.3.6 OR elements

The event builder provides 10 OR logic elements for general purpose (see figure A2.3-6).

Each logic element has an unique output event number. The numbers are: (0850) to [0859). If

the element is enabled and the logic is fulfilled the output event number becomes active.

Figure A2.3-6 OR element


[OR ELEMENT - Select :]


[ - mode:]








OR ELEMENT – Select: 850

- mode: ON

01: 0

02: 0

03: 0

04: 0

05: 0

06: 0

07: 0

08: 0

09: 010: 0

BACK EXIT

Setting range:

OFF/ON/INVERT

Event nr.:

01: 0-9999

02: 0-9999

03: 0-9999

04: 0-9999

05: 0-9999

06: 0-9999

07: 0-9999

08: 0-9999

09: 0-9999

10: 0-9999

1 850


29/48



A2.3.7 AND/OR elements

The event builder provides 10 mixed AND/OR logic elements for general purpose (see figure

A2.3-7). Each logic element has an unique output event number. The numbers are: [0860] to

[0869]. If the element is enabled and the logic is fulfilled the output event number becomes

active.

Figure A2.3-7 AND/OR element


[AND/OR ELEMENT - Select :]


[ - mode :]







can be set to 0 (false).

AND/OR ELEMENT – Select: 860

- mode: ON

01: 0

02: 0

03: 0

04: 0

05: 0 & ≥1 860

06: 0

07: 0

08: 009: 010: 0

BACK EXIT

&

&

Setting range:

OFF/ON/INVERT

Event nr.:

01: 0-9999

02: 0-9999

03: 0-9999

04: 0-9999

05: 0-9999

06: 0-9999

07: 0-9999

08: 0-999909: 0-999910: 0-9999


30/48



A2.3.8 Timer

The event builder provides 20 timer elements with several functionallities (see figure A2.3-8).

Each timer has an unique output event number. The numbers are: (0870) to (0889]. If the

timer is enabled and the function is fulfilled, the output event number becomes active.

Figure A2.3-8 Timer element


[TIMER ELEMENT - Select :]

Selects one of the 20 timer elements.

[ - mode :]

Enables the selected timer element and defines the functionallity:

• disabled: The output event is always inactive.

• ON: The output event is active if the input logic is true and the delay is passed.

For this function several time units available:

• ON (sec): The valid unit is seconds.

• ON (min): The valid unit is minutes.

• ON (h): The valid unit is hours.

• ON (day): The valid unit is days. Note: the fraction after the point will be calculated in seconds. Examples:

• 0.7 min = 0.7 × 60 sec = 42 sec

• 3.8 h = 3.8 × 3600 sec = 13680 sec

• 1.3 day = 1.3 × 86400 sec = 112320 sec

Figure A2.3-9 Graphic representation of mode “ON”

TIMER ELEMENT – Select: 870

- mode : ON

- delay : 3.7 sec

01: 0

02: 9999

BACK EXIT

Setting range:

See description below

0.0 – 999.9 sec

Event nr.:

01: 0-9999

02: 0-99991 870

t

Input

- mode: ON

t

Output

delay


31/48



• PULSER: This function creates pulses with an ON/OFF time defined with the delay

time.

Figure A2.3-10 Graphic representation of mode “PULSER”

• OFF-Delay: the output will be set immediately if the input is set. The output will be

reset if the input is inactive again and the delay time is passed.

Figure A2.3-11 Graphic representation of mode “OFF-delay”

•

MONOFLOP-C: this function will create one constant pulse (duration = delay time)if the input is set.

Figure A2.3-12 Graphic representation of mode “MONOFLOP-C”

• MONOFLOP-I: this function will create one pulse (duration = delay time) if the

input is set. The pulse will be interrupted if the input gets inactive within the delay

time.

Figure A2.3-13 Graphic representation of mode “MONOFLOP-I”

t

Input

- mode: PULSER

t

Output

delay delay delay delay

t

Input

- mode: OFF-delay

t

Output

delay delay

t

Input

- mode: MONOFLOP-C

t

Output

delaydelay

t

Input

- mode: MONOFLOP-I

t

Output

delay


32/48



[- delay :]

The delay time for each timer can be set.


Each of the 20 timer elements has 2 input event numbers. Event numbers which are not used



33/48



A2.3.9 Counter

The event builder provides 5 counter elements for general purpose. These counters are

counting the changings of an event. Each counter has an unique output event number. The

numbers are [0890] to [0894]. If the counter is enabled and the counting is finished the output

event number becomes active until the counter is reset.

Figure A2.3-14 Counter element


[COUNTER ELEMENT - Select :]

Selects one of the 5 counter elements.

[ - condition :]

Enables the selected counter element.

• OFF: The output event is always inactive, and the counting is stopped.

• VOLATILE: The counting is enabled. The counter will be reset automatically by

systemstart of the device.

• NOVOLATILE: The counting is enabled. The counter will store the value

novolatile.

[ - count edge :]

Defines the counting edge.

• RISING: Only an event change from L -> H will increment the counter.

• FALLING: Only an event change from H -> L will increment the counter.

• ANY: Every event change will increment the counter.

[ - count event :]

The changings of this event will be counted.

[ - count limit :]

If the counter reaches this limit the output event will be activated.

[ - reset by :]

If this event is active the counter is blocked and reset to 0.

[ - block by :]

If this event is active the counting is stopped (but the count value is hold).

COUNTER ELEMENT – Select: 890

- condition :NOVOLATILE

- count edge : RISING

- count event: 500

- count limit: 75

- reset by : 514

- block by : 516

BACK EXIT

Setting range:

OFF/VOLATILE/NOVOLATILE

RISING/FALLING/ANY

0-9999 (event nr.)

0-65534

0-9999 (event nr.)0-9999 (event nr.)


34/48


35/48




Each of the 10 Flip-flop elements has 10 input event numbers. Event numbers which are not

used can be set to 0 (false) or 9999 (true).


36/48



A2.3.11 CAN events

The event builder provides 23 communication events over the CAN 1 Bus (see figure A2.3-

16). These events can be used to synchronize processes on several devices at the same time.

The events are connected logically by an OR gate between the devices.

Figure A2.3-16 CAN events


[0370. - 0377. CAN event (ALL net) :]

These 8 events are valid on all nodes on the CAN 1 bus.

Example: The event number which is set under parameter [0370] becomes active on

the first device. Than event [0370] is active on all devices on the CAN 1 bus.

[0378. - 0385. CAN event (OWN net) :]

Note: These events are valid only for BCG (power management).

These 8 events are valid on all nodes in the same net. The net is defined with the net

selectors (parameters [0182] and [0183]).


the first device in one net. Than event [0378] is active on all devices in the same net

like the first device.

[0386. - 0392. CAN event (ALL net) :]These 7 events are valid on all nodes on the CAN 1 bus.


the first device. Than event [0386] is active on all devices on the CAN 1 bus.

CAN EVENTS (synchron events)

0370.CAN event (ALL net) - 01: 0

0371. – 02: 0

0372. – 03: 0

0373. – 04: 0

0374. - 05: 0

0375. - 06: 0

0376. - 07: 0

0377. - 08: 0

0378.CAN event (OWN net) - 09: 0

0379. - 10: 0

0380. - 11: 0

0381. - 12: 0

0382. - 13: 0

0383. - 14: 0

0384. - 15: 0

0385. - 16: 0

0386.CAN event (ALL net) - 17: 0

0387. - 18: 0

0388. - 19: 0

0389. - 20: 0

0390. - 21: 00391. - 22: 0

0392. - 23: 0

Setting range:

Event nr.:01-23: 0-9999

BACK EXIT


37/48



A2.4 Logic connections

In this chapter the internal logic connections of the Interlock diagrams (see chapter A2.3.2)

and the Logic diagrams (see chapter A2.3.4) are detailed described.

Note: contact the manufacturer for other logic connections.

A2.4.1 Logic connections of the Interlock diagrams

INTERLOCK DIAGRAM 01

logic 01

Breaker 1 ON->OFF

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

& & [0115]

12.

13.

14.

1

&

release control event


logic 02

Breaker 1 ON->OFF

01.

02.

03.

04.

05.

06.

07.

08.

09.

& [0115]release control event


38/48




logic 01

Breaker 1 OFF->ON

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

& & [0116]

12.

13.

14.

1

&



logic 02

Breaker 1 OFF->ON

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

& [0116]

12.

13.

14.


15.


39/48




logic 01

Breaker 1 EARTH->OFF

01.

02.

03.

04.

05.

06.07.

08.

09.

10.

11.

&

& [0123]

12.

13.

14.

1

release control event15.

16.

17.

18.

19.

20.

&


logic 01

Breaker 1 OFF->EARTH

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

&

& [0124]

12.

13.

14. 1


15.

16.

17.

18.

19.

20.

&

21.

22.

23.

24.

25.


40/48




logic 01

Breaker 2 ON->OFF

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

& & [0128]

12.

13.

14.

1

&



logic 01

Breaker 2 OFF->ON

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

& & [0129]

12.

13.

14.

1

&



41/48




logic 01

Breaker 2 EARTH->OFF

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

&

& [0136]

12.

13.

14.

1

release control event15.

16.

17.

18.

19.

20.

&


logic 01

Breaker 2 OFF->EARTH

01.

02.

03.

04.05.

06.

07.

08.

09.

10.

11.

&

& [0137]

12.

13.

14.

1


15.

16.

17.

18.

19.

20.

&

21.

22.

23.

24.

25.


42/48




logic 01

Breaker 3 ON->OFF

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

>1

&

[0141]

12.

13.

14.

&release control event

15.

16.

17.

18.

19.

20.

21.

22.

23.24.

25.

26.

27.

28.

29.

30.

>1

>1

1

1


43/48




logic 01

Breaker 3 OFF->ON

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

>1

&

[0142]

12.

13.

14.

&release control event

15.

16.

17.

18.

19.

20.

21.

22.

23.

24.

25.

26.

27.

28.

29.

30.

>1

>1

1

1


44/48



A2.4.2 Logic connections of the Logic diagrams

In this chapter the internal logic connections of the Logic diagrams (see chapter A2.3.4) are

detailed described. This diagrams offers large, more complex logics.

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

1

&>1

50.

80x

LOGIC DIAGRAM 800-805

01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

&

1>1

50.

8xx



45/48




01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

1

&

>150.

81x

12.

13.

14.

15.

16.

17.

18.

19.

20.

21.

22.

23.

24.

25.

26.

27.

28.

29.

30.

31.

32.

1

1

&


46/48




01.

02.

03.

04.

05.

06.

07.

08.

09.

10.

11.

&

1

>150.

8xx

12.

13.

14.

15.

16.

17.

18.

19.

20.

21.

22.

&

&

01.

02.

03.

04.

05.

06.

07.

08.

&

&

>150.

830

LOGIC DIAGRAM 830

1

&

1


47/48



01.

02.

03.

04.

05.

06.

07.

08.

&

&

>150.

831

LOGIC DIAGRAM 831

109.

10.

11.

&

LOGIC DIAGRAM 832

01.

02.

03.

04.

05.

06.

Documents

HIMAP A2 Eventbuilder E