bms io all-final
TRANSCRIPT
8/13/2019 BMS IO All-Final
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MMC GAMUDA KVMRT (PDP) SDN BHD
PROJEK MASS RAPID TRANSIT LEMBAH KELANG – JAJARAN SUNGAI BULOH - KAJANG MINUTES OF MEETING
KVMRT
NO. OF PAGES : 12
VENUE AND TIME OF MEETINGDATE & TIME OF
MEETING NEXT MEETING
MKL08, Room 1 24/07/2013, 09:30 a.m. -
TITLE OF MEETING: Discrepac! "# $MS I%O p"is a U'er(r")'
Sai"s *Li#+ Esca,a"r & Tra-e,,a"r a'
E-ir"ea, /"r", S!se0
DISTRI$UTION LIST
ATTENDED $ A,, ae'ees
a0 Ra I'er Si(3 − S!se+ PDP RIS
40
Lee 5e( /3")−
S!se+ PDP L5/c0 T3"as ap − S!se+ PDP T
'0 Terr! 6" − S!se+ PDP T6
e0 Marc" /3e)( − S!se+ PDP M/
#0 /3a( Sia7 ee − S!se+ PDP /S
(0 N""r 6i'a!a3 − S!se+ PDP N6
30 eap $e"7 6e( − MRT/ $6
i0 M"3aa' 6i8i − MRT/
M6
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MINUTES OF MEETING
A!"#$a%$o&':
PDP @ Pr"ec De,i-er! Parer
SI @ S!se Ie(rai"%Ier#ace5P/ @ 5"r9s Pac9a(e /"rac"r
$MS @ $)i,'i( Maa(ee S!se
MM @ M" Mac'"a,'
MGKT @ MM/GAMUDA KVMRT T)e,
I%O @ Ip) % O)p)
D%I @ Di(ia, Ip)
D%O @ Di(ia, O)p)
A%I @ Aa,"()e Ip)A%O @ Aa,"()e O)p)
E/S @ E-ir"ea, /"r", S!se
A$SENT 5IT6
APOLOGIES: NIL
ATTA/6MENT TO MINUTES: Ae'ace ,is+ Pre-i")s Meei(
Mi)es #"r 3e LV & UPS+
P,)4i( & Draia(e a' Fire
Ser-ices a' is aac3es+ O-era,,
$MS I%O Discrepac! sc3e'),e #"r
U'er(r")' Sai"s.
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
1.0 I&%!o()*%$o&
1.1 L5/ "pee' 3e eei( a' 7e,c"e 3e sa9e3",'er
#"r 3e eei(.
I#"
1.2 T3e pre-i")s eei( i)es 7as 'isc)sse' 3e
sa9e3",'ers a(ree' " 3e eei( i)es.
I#"
1.? T3e p)rp"se "# 3is eei( 7as " carr! " 3e $MS
I%O 'iscrepac! eei( #"r )'er(r")' sai"s. T3e
eei( 7"),' 'isc)ssi" " 3e Li#+ Esca,a"r &
Tra-e,,a"r a' E-ir"ea, /"r", S!se *E/S0.
I#"
2.0 L$+% a&( E'*aa%o!
2.1 Li#
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 3i(3
,e-e, ier#ace.
D%I *#"r ,i# c"r", pae,0
*i0 Pae, L"ca,%Re"e Sa)s
*ii0 O%O## Sa)s
*iii0 R %S S
I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
*i0
Pae, L"ca,%Re"e Sa)s*ii0 O%O## Sa)s
*iii0 R)%S"p Sa)s
*i-0 Fa),%Trip A,ar
*-0 Up%F"r7ar' Direci"
*-i0 D"7%$ac97ar' Direci"
*-ii0 Maieace O%O## Sa)s
$MS 7"),' c"r", 3e #",,"7i( p"is 3r")(3 3i(3,e-e, ier#ace.
D%O *#"r esca,a"r c"r", pae,0
*i0 O%O## /"a'
*ii0 R)%S"p /"a'
*iii0 Up%F"r7ar' Direci" /"a'
*i-0 D"7%$ac97ar' Direci" /"a'
2.? Tra-e,,a"r
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 3i(3
,e-e, ier#ace.
D%I *#"r ra-e,,a"r c"r", pae,0
*i0 Pae, L"ca,%Re"e Sa)s
*ii0 O%O## Sa)s
*iii0 R)%S"p Sa)s
*i 0 F ,%T i A,
I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
/irc)i+ /3eica, D"si( S!se+ N"/3eica,Treae S!se+ /"'esi( 5aer $,"7'"7
Operai"
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 6i(3
Le-e,:
D%I *#"r c3i,,er c"r", s!se0
*i0 R)i(%S"p
*ii0 Trip A,ar*iii0 L"ca,%Re"e Sa)s
*i-0 6i(3 Le-e, A,ar
*-0 L"7 Le-e, A,ar
*-i0 Is",ai" Va,-e Sa)s *Ope%/,"se'0
*-ii0 6i(3%O##%L"7 Spee'
A%I *#"r c3i,,er c"r", s!se0*i0 5aer Tepera)re *S)pp,! a' Re)r0
*ii0 F,"7 Ses"r
*iii0 /)rre%953
$MS 7"),' c"r", 3e #",,"7i( p"is 3r")(3 6i(3
Le-e,:
D%O *#"r c3i,,er c"r", s!se0
*i0 O %O## / ,
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
D%O *#"r c3i,,er c"r", s!se0
*i0 O%O## /"r",
*ii0 Va,-e Ope%/,"se
?.? Varia4,e Re#ri(era F,"7
MGKT c"ee' 3a 3is 7as " a-ai,a4,e "7.
6"7e-er+ MGKT 7"),' re)es $MS " "i"r i#
re)ire' i 3e #))re.
I#"
?.< Air 6a',i( Ui *A6U0
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 L"7
Le-e, ier#ace:
D%I
*i0 R)i(%S"p
*ii0 Fa M""r Trip A,ar
*iii0 L"ca,%Re"e Sa)s
*i-0 /"" S"9e Deec"r Sa)s
*-0 Fi,er Press)re A,ar
*-i0 Di##ereia, Press)re Ses"r *DPS0 Fa Sa)s
*-ii0 Daper F),,! Ope%/,"se Sa)s
A%I
*i0 /)rre%K53
*ii0 Ai T
I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
MGKT 7"),' 3a-e #)r3er iera, 'isc)ssi"
re(ar'i( 3e c"r", a' "i"ri( "# 3e Priar!
Air 6a',i( Ui S!se a' 7"),' eai-e,! rep,!
" PDP 4! 12 A)()s 2>1?.
PMN " C Sepe4er 2>1?: MGKT c"#ire' 3a
3e Priar! Air 6a',i( Ui is " a-ai,a4,e a 3is
"e a' 3is is s)4ec " 3e #ia, 'esi(.
?. S"9e EBraci" Fa
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 L"7
Le-e, ier#ace:
D%I
*i0 Fa Trip A,ar
*ii0 L"ca,%Re"e Sa)s
*iii0 Daper Ope%/,"se
$MS 7"),' c"r", 3e #",,"7i( p"is 3r")(3 L"7
Le-e, Ier#ace #"r aieace:
D%O
*i0 O%O## /"r",
*ii0 Daper /,"se%Ope
I#"
?. Space /O2 Ses"r I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
*ii0 R)i(%S"p
*iii0 Fa), A,ar
*i-0 L"ca,%re"e Sa)s
*-0 Va,-e "%"## sa)s
A%I
*i0 R"" Air Tepera)re
$MS 7"),' c"r", 3e #",,"7i( p"is 3r")(3 L"7Le-e, ier#ace:
D%O
*i0 O%O## /"r",.
N"e: T3e O%O## /"r", 7"),' ier,"c9 7i3
3e -a,-e "%"##.
A%O
MGKT 7"),' c"#ir 73e3er $MS ee' " c"r",
3e epera)re eai-e,! " 12 A)()s 2>1?.
PMN " C Sepe4er 2>1?: MGKT c"#ire' 3a
$MS 7"),' " c"r", 3e epera)re
?.11 Fa /"i, Ui *Gr")p Ui0
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 L"7
L , i #
I#" /,"se' as per
PMN
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
?.12 Sp,i Air /"'ii"i( Ui
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 L"7
Le-e, ier#ace:
D%I
*i0 R)i(%S"p
*ii0 Maser Trip A,ar
*iii0 L"ca,%Re"e Sa)s
A%I
*i0 R"" Air Tepera)re
D%O
*i0 O%O## /"r",
I#"
?.1? Vei,ai"%EBraci" Fa /"r", Pae, *Si(,e Fa
S!se0 a' Si(,e Fa Ui *Fres3%EB3a)s Air Fa0
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 L"7
Le-e, ier#ace:
D%I
*i0 R)i(%S"p
*ii0 Fa), A,ar
*iii0 L"ca,%Re"e Sa)s
*i 0 D F ,, O %/, S
I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
$MS 7"),' "i"r a' c"r", 3e #",,"7i( p"is:
D%I
*i0 R)i(%S"p
*ii0 Fa Trip%Fa), A,ar
*iii0 L"ca,%Re"e Sa)s
*i-0 Daper Ope%/,"se
A%I *i0 R"" Air Tepera)re
D%O
*i0 O%O## /"r",
*ii0 Daper Ope%/,"se
?.1C Saircase Press)ri8ai" Fa
$MS 7"),' "i"r 3e #",,"7i( p"is 3r")(3 ,"7
,e-e, ier#ace:
D%I
*i0 R)i(%S"p
*ii0 Fa),%Trip A,ar
*iii0 L"ca,%Re"e Sa)s
*i-0 Daper Ope%/,"se
*-0 Di##ereia, Press)re Ses"r
$MS ,' , 3 # ,, i i 3 3 ,
I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
D%I
*iii0 6i(3 Le-e, A,ar
*i-0 L"7 Le-e, A,ar
N"e: T3e 5aer EBpasi" Ta9 is (r")pe' )'er 3e
cae("r! "# 5aer /"",e' /3i,,er.
?.1H M""ri8e' Va,-e a' M"'),ai( Va,-e
MGKT a'-ise' 3a 3e "i"ri( %c"r",,i( "r"i"ri( a' c"r",,i( "# 3e ""ri8e' -a,-e a'
"'),ai( -a,-e 3a' 4ee cap)re' i 3e i'i-i')a,
E/S s!se.
I#"
?.1 M""ri8e' Daper%M""ri8e' S"9e%Fire Daper
MGKT a'-ise' 3a 3e "i"ri( %c"r",,i( "r
"i"ri( a' c"r",,i( "# 3e ""ri8e'
'aper%""ri8e' s"9e%#ire 'aper 3a' 4ee
cap)re' i 3e i'i-i')a, E/S s!se.
I#"
?.2> M"'),ai( Daper
MGKT a'-ise' 3a 3e "i"ri( %c"r",,i( "r
"i"ri( a' c"r",,i( "# 3e ""ri8e' -a,-e a'
"'),ai( -a,-e 3a' 4ee cap)re' i 3e i'i-i')a,
E/S
I#"
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MINUTES OF MEETING
ITEM DES/RIPTION A/TION $ TIMELINE
MES$.
<.< T3e eei( 'isisse' a 12:?> p.. I#"
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BMS Discrepancy I/O schedule for Building Management System
Legend/Notes:
Font with Blue:
Represents the discrepancy in BMS I/O schedule of BMS contract
compared to the Underground I/O schedule
Font with red:Represents the discrepancy in Underground schedule compared to theBMS I/O schedule of BMS contract.
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
0 %igital #ower Meter "%#M$ #S
11Incoming 2rea3er output +oltage
"per phase$
11Incoming 2rea3er output current
"per phase$
11nergy onsumption
0 %igital #ower Meter "%#M$ IS 114/(
0 %igital #ower Meter "%#M$ U&'11)igh *e+el Interface using Mod2us
#rotocol through RS567.
0 ss / 4on0ss Section (B
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
4/(
0 ss / 4on0ss Section (B IS
11Open/lose
11rip
11*oc3out
11*ocal/Remote
11Open/lose
0 ss / 4on0ss Section (B U&'
11Open/lose
11rip 4/(
0 Bus Section (B "4/O$
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
0 Bus Section (B "4/O$ IS11Open/lose
11rip
0 Bus Section (B "4/O$ U&'11Open/lose
11rip
0 Bus Section (B "4/$
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
0 Bus Section (B "4/$ IS11Open/lose
rip
0 Bus Section (B "4/$ U&'11Open/lose
rip
"i$ BMS would monitor the following points +ia
low le+el:
a. Open/losed
2. rip
"ii$ M&- demanded that the non0essential
2rea3er shall 2e controlled 2y either BMS or
FS(%( for sa3e of operation. #%# e8plained
that F95; had 2een issued to instruct BMS
not to control any *< switch2oard.
[PMN: S!"D" #ould only monitor and control
the incoming of the L$ %rea&er'(
BMS would monitor the following points
through high le+el, using Mod2us "RS567$
protocol:
a$ Incoming Brea3er Output <oltage "per phase$
2$ Incoming Brea3er Output urrent "per phase$
c$ nergy onsumption
BMS would monitor the following points:
9$ Open/lose
=$ rip
BMS would monitor the following points:
9$ Open/lose
=$ rip
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
0 Incomer (B
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
0 Incomer (B IS
11Open/lose
11#rotection Operated
11rip
0 Incomer (B U&'
11Open/lose
11#rotection Operated
11rip
M SB 0( a nd M SB0B "Outgoing Brea 3er$ #S11Brea3er Open/loseStatus
11Brea3er rip (larm
MSB 0( and MSB0B "Outgoing Brea3er$ IS 4/(
MSB 0( and MSB0B "Outgoing Brea3er$ U&' 4/(
MSB0( and MSB0B #S
11Selector Switch
Operation Mode Status
11#* 'atchdog Fault
Status
MSB0( and MSB0B IS 4/(
MSB0( and MSB0B U&' 4/(
0 % Supply #S 4/(
0 % Supply IS 11ommon (larm11Failure
0 % Supply U&'11ommon (larm
11Failure
0 mergency #ower Outage Button #S "4/($ 4/(
0 mergency #ower Outage Button IS 11Button #ush
0 mergency #ower Outage Button U&' 11Button #ush
BMS would monitor the following points:
9$ Open/lose
=$ #rotection Operated
;$ rip
BMS would monitor the following points:
a. Brea3er Open/close status2. Brea3er rip (larm
"ii$ BMS would monitor any outgoing (B
especially the (B for chiller plant room, <S,
and S M.
he meeting concluded that BMS would not
monitor the selector switch operation mode
status and the #* watchdog fault status of the
MSBs.
4o discrepancy found 2etween contracts. BMS
would monitor the following points:
a$ Button #ush
4ote: M&- would clarify the usage of the
mergency #ower Outage Button for BOMB(.
4o discrepancy found 2etween contracts. BMS
would monitor the following points:
a$ ommon (larm2$ Failure
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
0 apacitor Ban3 #S "4/($ 4/(
0 apacitor Ban3 IS
11Open/lose
11#rotection Operated
11rip
11Failure
11mergency (larm
0 apacitor Ban3 U&'
11Open/lose
11#rotection Operated
11rip
11Failure
11mergency (larm
;;3< transformer 0 "Off0load isolator$ #S "4/($ 4/(
; ;3 < tra nsformer 0 "Off0 load isolator $ IS 11Open/lose
;;3< transformer 0 "Off0load isolator$ U&' "4/($ 4/(
;;3< transformer to 597< ( #S "4/($ 4/(
;;3< transformer to 597< ( IS 11Open/lose
;;3< transformer to 597< ( U&'11emperature alarm
")igh emperature$
M&- commented that the off load isolator of
the ;;3< transformer was not in their scope of
wor3. herefore, BMS would not monitor this.
BMS would only monitor the following point:
a$ )igh emperature (larm
4o discrepancy found 2etween contracts. BMS
would monitor the following points:
a$ Open/lose
2$ #rotection Operated
c$ rip
d$ Failure
e$ mergency (larm
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
U#S #S
11Fault/rip (larm
11Master rip/Summary rip
11( #ower Supply failure (larm
11*ow <oltage (larm
11U#S Online Status
11U#S on Battery Status
11U#S on Static Bypass Status
11U#S on Maintenance Bypass
11Status Rectifier/In+erter Fault (larm
11Incoming Brea3er Output <oltage
"per phase$
11Incoming Brea3er Output urrent
"per phase$
U#S IS
11On/Off Status
11ommon (larm
11Battery %ischarge (larm
11rip
11Failure
U#S U&'
11Supply ( 2rea3er open/close
11Supply B 2rea3er open/close
11Supply ( 2rea3er trip
11Supply B 2rea3er trip
118ternal Bypass on/off
11Battery charging/discharging
11Battery common alarm
11Fan normal/failure or o+erload11emperature alarm/shutdown
11U#S on/emergency shutdown
11oupling panel summary alarm
11U#S online Status
11U#S on statis 2ypass status
11U#S on maint enance 2ypass status
11Rectifier /In+erter Fault alarm
11Incoming +oltage "per phase$
11Incoming current "per phase$
11outgoing +oltage "per phase$
11outgoing current "per phase$
11Input power "per phase$
11Output power "per phase$
11Input Fre!uency
11Output Fre!uency
11Output acti+e #ower
BMS would monitor the following points
through high le+el interface.
a$ Supply ( Brea3er Open/lose
2$ Supply B Brea3er Open/lose
c$ Supply ( Brea3er rip
d$ Supply B Brea3er rip
e$ 8ternal Bypass On/Off
f$ Battery harging/%ischarging
g$ Battery ommon (larm
h$ Fan 4ormal/Failure or O+erload emperature
(larm/Shutdown
i$ U#S On/mergency Shutdown
>$ oupling #anel Summary (larm
3$ U#S Online Status
l$ U#S on Static Bypass Status
m$ U#S on Maintenance Bypass Status
Rectifier /In+erter Fault alarm
n$ Incoming <oltage "per phase$
o$ Incoming urrent "per phase$p$ Outgoing <oltage "per phase$
!$ Outgoing urrent "per phase$
r$ Input #ower "per phase$
s$ Output #ower "per phase$
t$ Input Fre!uency
u$ Output Fre!uency
+$ Output (cti+e #ower
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
*ighting panel"s$ #S
11#anel *ocal/Remote
Status
11Fault/rip
11*ighting Off status
11*ighting ;;? On status
11*ighting @@? On status
11*ighting 9? On status
11*ighting Off command
11*ighting ;;? On
command
11*ighting @@? On
command
11*ighting 9? On
command
*ighting panel"s$ IS11On/Off Status
11rip
11Open control
11lose control
*i ght ing pane l"s $ "#u 2li c li ght ing $ U& '11On/Off Status 11Open control
11lose control
#u2lic *ighting #S 4/( 4/(
#u2lic *ighting IS 11On/Off Status 11On/Off ontrol
#u2lic *ighting U&' 4/( 4/(
BMS would monitor the following points:
a$ *ighting ;;? On/Off
2$ *ighting @@? On/Off
c$ *ighting 9? On/Off
BMS would control the following points:
d$ *ighting ;;? On/Off
e$ *ighting @@? On/Off
f$ *ighting 9? On/Off
4ote: M&- ad+ised that the ;;? lightings
monitoring and controlling are from U#S while
the @@? lightings monitoring and controlling are
from essential power.
#lease refer to the *ighting #anel, Item =.95 of
the minutes.
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
mergency *ighting "#u2lic (rea$ #S 4/( 4/(
mergency *ighting "#u2lic (rea$ Is 11On/Off Status 11On/Off ontrol
mergency *ighting "#u2lic (rea$ U&' 4/( 4/(
#latform <oid "per platform$ #S 4/( 4/(
#latform <oid "per platform$ IS 11On/Off Status 11On/Off ontrol
#latform <oid "per platform$ U&' 4/( 4/(
ntrance *ighting "per entrance$ #S 4/( 4/(
ntrance *ighting "per entrance$ IS 11On/Off Status 11On/Off ontrol
ntrance *ighting "per entrance$ U&' 4/( 4/(
#hoto Sensor "if any$ #S 4/( 4/(
#hoto Sensor "if any$ IS 11na2le/%isa2le Status na2le/%isa2le ontrol
#hoto Sensor "if any$ U&' 4/( 4/(
unnel 4ormal *ighting #S
11#anel *ocal/Remote
Status
11Fault/rip (larm
11*ighting Off Status
11*ighting 9? on status
11On/Off command
unnel 4ormal *ighting IS 4/( 4/(
unnel 4ormal *ighting U&' 4/( 4/(
11it is the U#S lighting ";7?$. #oints had 2een
pro+ided to BMS for monitoring. Refer to
lighting panel.
4o lighting would 2e pro+ided at the #latform
<oid. herefore, BMS would not monitor and
control the lighting at #latform <oid.
BMS would monitor the following points:
a$ On/Off status
BMS would control the following points:
a$ On/Off control
M&- ad+ised that photo sensor was not
a+aila2le at this moment. herefore, BMS
would not monitor and control it.
4ote: BMS would monitor if the photo sensor is
a+aila2le in the future.
BMS would monitor the following points:
a$ #anel *ocal/Remote Status
2$ Fault/rip (larm
c$ *ighting Off Status
d$ *ighting 9? on status
BMS would control the following point:
a$ On/Off ommand
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
%irectional Signage #S 4/( 4/(
%irectional Signage IS 11On/Off Status 11On/Off ontrol
%irectional Signage U&' 4/( 4/(
%irectional Signage 0 stair #S 4/( 4/(
%irectional Signage 0 stair IS11On/Off Status
11ntry/4o ntry Status
11On/Off ontrol
11ntry/4o ntry ontrol
%irectional Signage 0 stair U&' 4/( 4/(
#assenger Information %isplay #S 4/( 4/(
#assenger Information %isplay IS 11On/Off Status 11On/Off ontrol
#assenger Information %isplay U&' 4/( 4/(
(d+ertising #anels #S 4/( 4/(
(d+ertising #anels IS 11On/Off Status 11On/Off ontrol
(d+ertising #anels U&' 11On/Off Status 11On/Off ontrol
%irectional Signage
he meeting ad+ised #%# to see3 ad+ice from
#%#As architect regarding the directional
signage.
9st #M4: #%# had sought ad+ice from the
architect and made to understood that the
scope of wor3 was under the architect 2ased at
M&-As office. herefore, M&- shall ta3e
action on thisC
=nd #M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.BMS would monitor and control the On/Off of
the %irectional SignageC
#M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
he I/O schedule for the directional signage
would 2e further discussed in future tentati+ely
after ; Months of this meeting.C
BMS would not control and monitor the
#assenger Information %isplay as this was under
the scope of elecommunication System.
he meeting ad+ised #%# to see3 ad+ice from
#%#As architect regarding the (d+ertising #anel.
9st #M4: #%# had sought ad+ice from the
architect and made to understood that the
scope of wor3 was under the architect 2ased at
M&-As office. herefore, M&- shall ta3e
action on thisC
=nd #M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
BMS would monitor and control the On/Off of
the %irectional SignageC
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
mergency call 2ells #S 4/(
mergency call 2ells IS 11(cti+ated/%eacti+ated
mergency call 2ells U&' 4/(
Information Signages #S 4/( 4/(
Information Signages IS 11On/Off Status 11On/Off ontrol
Information Signages U&' 4/( 4/(
Security shutter / Roller shutter panel"s$ #S
11#anel *ocal/Remote
Status
11On/Off Status
11Fault/rip (larm
11On/Off ommand
Security shutter / Roller shutter panel"s$ IS
11Fully Open Status
11Fully losed Status
11rip
11*ocal/Remote
11Open control
11lose control
Security shutter / Roller shutter panel"s$ U&'
11Fully Open Status
11Fully lose Status
11rip
11*ocal/Remote
11Open control
11lose control
M #S 4/(
M IS
11Open/losed
11#rotection Operated11rip
11*ocal/Remote
M U&'
11Open/lose
11#rotection Operated
11rip
11*oc3out
BMS would not monitor the mergency all
Bells as this was under the scope of
elecommunication System.
he meeting ad+ised #%# to see3 ad+ice from
#%#As architect regarding the Information
Signage.
9st #M4: #%# had sought ad+ice from the
architect and made to understood that the
scope of wor3 was under the architect 2ased at
M&-As office. herefore, M&- shall ta3e
action on thisC
=nd #M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
BMS would monitor and control the On/Off of
the %irectional SignageC
BMS would monitor the following points:
a$ Fully Open Status
2$ Fully lose Status
c$ rip
d$ *ocal/Remote
BMS would control the following points:
a$ Open control
2$ lose control
#lease refer to the indi+idual mechanical
system.
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
lectrical panel"s$ #S 4/(
lectrical panel"s$ IS11Open/lose Status
11rip
lectrical panel"s$ U&'11Open/lose Status
11rip
he meeting decided that BMS would monitor
the Su2 Switch Board "SSB$ instead of
%istri2ution Board "%B$.
BMS would monitor the following points:
a$ Open/lose Status
2$ rip Status
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!uipment "#S/IS$ %ocument "IS/#%igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
Sewage 'ater an3 "(-( >ector ransfer
tan3$#S
11)igh *e+el (larm
11*ow *e+el (larm
Sewage 'ater >ection an3 IS 11)igh 'ater *e+el #ump
Sewage 'ater >ection an3 U&' 11)igh 'ater *e+el (larm
Sewage Su2mersi2le #it #S 4/(
Sewage Su2mersi2le #it IS 4/(
Sewage Su2mersi2le #it U&' 11)igh 'ater *e+el (larm
>ector #ump ontrol #anel #S
11#anel (uto/Manual Status
11( #ower Supply Failure
(larm
>ector #ump ontrol #anel IS 4/(
>ector #ump ontrol #anel U&' 4/(
Sewage 'ater >ector #umps "(-( >ector
tranfer pump$#S
11Run/Stop Status
11Fault/rip (larm4/(
Sewage 'ater >ector #umps IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "on/off$
11On/Off
11Remote reset
Sewage 'ater >ector #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
Sewage Su2mersi2le #umps #S 4/( 4/(
Sewage Su2mersi2le #umps IS 4/( 4/(
Sewage Su2mersi2le #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
Station %rainage 'ater Sump #it "(-( Sump
pit$#S
11)igh *e+el (larm
11*ow *e+el (larm
Station %rainage 'ater Sump #it "(-(
%rainage 'ater Sump #it$IS 11)igh 'ater *e+el (larm
Station %rainage 'ater Sump #it U&'11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
he meeting concluded that the >ector #ump
ontrol #anel, Sewerage Su2mersi2le #umps to
2e grouped in a category for the same pump
room.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor a single panel power
supply 2ut multiple pumps
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status0
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status0single panel.
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
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!uipment "#S/IS$ %ocument "IS/#%igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
Sump #ump ontrol #anel #S
11#anel (uto/Manual Status
11( #ower Supply Failure
(larm
Sump #ump ontrol #anel IS 4/(
Sump #ump ontrol #anel U&' 4/(
Station %rainage 'ater Su2mersi2le #umps
"(-( Sump #ump$#S
11Run/Stop Status
11Fault/rip (larm4/(
Station %rainage 'ater Su2mersi2le #umps
"(-( %rainage 'ater Su2mersi2le #umps$IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "on/off$
11On/Off
11Remote reset
Station %rainage 'ater Su2mersi2le #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
unnel %rainage 'ater Sump #it "(-( Sump
pit$#S
11)igh *e+el (larm
11*ow *e+el (larm
unnel %rainage 'ater Sump #it "(-(
%rainage 'ater Sump pit$IS 11)igh 'ater *e+el (larm
unnel %rainage 'ater Sump #it U&'11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
unnel %rainage 'ater Su2mersi2le #umps
"(-( Sump #ump$#S
11Run/Stop Status
11Fault/rip (larm4/(
unnel %rainage 'ater Su2mersi2le #umps
"(-( %rainage 'ater Su2mersi2le #umps$IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "on/off$
11On/Off
11Remote reset
unnel %rainage 'ater Su2mersi2le #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
#ressure Reducing <al+e #S 11<al+e (larm
#ressure Reducing <al+e IS 4/(
#ressure Reducing <al+e U&' 4/(
he meeting concluded that BMS no need to
monitor the #ressure Reducing <al+e. he
#ressure Reducing <al+e is for domestic
purpose only.
he meeting concluded that the Sump #ump
ontrol #anel and Station %rainage 'ater
Su2mersi2le #ump to 2e grouped in a category
for the same pump room.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor a single panel powersupply 2ut multiple pumps
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status0 single panel
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ e$ #ower Status0single panel
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
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!uipment "#S/IS$ %ocument "IS/#%igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
= ompartment #ota2le 'ater an3 "(-( %'
Storage an3$#S
11)igh *e+el (larm
11*ow *e+el (larm
= o mp artm en t # ota2l e 'ate r an3 IS11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
= o mp artm en t # ota2l e 'ate r an3 U&'11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
%' #ump ontrol #anel #S
11#anel (uto/Manual Status
11( #ower Supply Failure
(larm
%' #ump ontrol #anel IS 4/(
%' #ump ontrol #anel U&' 4/(
#ota2le 'ater Booster #ump "(-( %' #ump$ #S11Run/Stop Status
11Fault/rip (larm4/(
#ota2le 'ater Booster #ump IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
11On/Off
11Remote reset
#ota2le 'ater Booster #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
4/(
'ater Meters and Su2metering #S 4/(
'ater Meters and Su2metering IS11'ater onsumption
11'ater *ea3age
'ater Meters and Su2metering U&' 4/( 11'ater onsumption
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
he meeting concluded that the %omestic
'ater #ump ontrol #anel and #orta2le 'ater
Booster 'ater #ump to 2e grouped in acategory for the same pump room.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor a single panel power
supply 2ut multiple pumps
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status0single panel
BMS would monitor the following point through
high le+el:
a$ 'ater onsumption
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
Sprin3ler 'ater an3 #S11 )igh *e+el (larm
11*ow *e+el (larm
Sprin3ler 'ater an3 IS11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
Sprin3ler 'ater an3 U&'11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
Sprin3ler #ump ontrol #anel #S
11#anel (uto/Manual
Status11( #ower Supply Failure
(larm
Sprin3ler #ump ontrol #anel IS 4/(
Sprin3ler #ump ontrol #anel U&' 4/(
Sprin3ler #ump #S11Run/Stop
11Fault/rip (larm4/(
Sprin3ler #ump IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
11On/Off
11Remote Reset
Sprin3ler #ump U&'
11Mode "(uto/Manual$
11Start Status11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
4/(
Sprin3ler Doc3ey #ump #S11Run/Stop
11Fault/rip (larm
Sprin3ler Doc3ey #ump IS 4/(
Sprin3ler Doc3ey #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
= compartment 'et Riser an3 #S 4/(
= compartment 'et Riser an3 IS 4/(
= compartment 'et Riser an3 U&'11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
'et Riser #ump #S 4/(
'et Riser #ump IS 4/(
BMS would monitor the following points:
2$ )igh 'ater *e+el (larm
c$ *ow 'ater *e+el (larm
he meeting concluded that the Sprin3ler #ump
ontrol #anel and Sprin3ler #ump to 2e grouped
in a category.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
BMS would monitor the following points:a$ )igh 'ater *e+el (larm
*ow 'ater *e+el (larm
BMS would monitor the following points:
l l
" / $ " / / $ l " $ l " $ l " $ l " h l " $ " $
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
'et Riser #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%# M&- MSB$ Meeting omments
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
'et Riser Doc3ey #ump #S 4/(
'et Riser Doc3ey #ump IS 4/(
'et Riser Doc3ey #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
Fire (larm #anel #S 11!uipment )ealth Status "%I$
Fire (larm #anel IS 11ommon Fire (larm
Fire (larm #anel U&'11#anel Status "On/Faulty$
11Eone *ocation of Fire
)ose Reel #ump ontrol #anel #S
11On/Off Status
11( #ower Supply Failure
(larm
)ose Reel #ump ontrol #anel IS 4/(
)ose Reel #ump ontrol #anel U&' 4/(
)ose Reel #ump #S11Run/Stop
11Fault/rip (larm4/(
)ose Reel #ump IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
11On/Off
11Remote Reset
)ose Reel #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
4/(
= compartment 'et Riser an3 #S11)igh *e+el (larm
11*ow *e+el (larm
= compartment 'et Riser an3 IS11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
= compartment 'et Riser an3 U&'11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
he meeting concluded that the )ose Reel #ump
ontrol #anel, and )ose Reel Doc3ey #ump to 2e
grouped in a category.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
BMS would monitor the following point through
high le+el:a$ )ealth Status of the Fire (larm #anel
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%# M&- MSB$ Meeting omments
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
FM= ontrol #anel #S11!uipment )ealth Status/Fault
alarm
FM= ontrol #anel IS 4/(
FM= ontrol #anel U&' 4/(
Fire Roller Shutter #S
11On/Off Status Fully
Opned / losed
11Fault/rip (larm
Fire Roller Shutter IS 4/(
Fire Roller Shutter U&' 4/(
Fire Ser+ice 'ater Meter #S 4/(
Fire Ser+ice 'ater Meter IS 4/(
Fire Ser+ice 'ater Meter U&'11'ater onsumption
11'ater *ea3age
#M4: BMS would not monitor the water
consumption for the Fire Ser+ices 'ater MeterC
#M4: BMS would not monitor the water lea3age
for the Fire Ser+ices 'ater MeterC
BMS would monitor the following point:
a$ )ealth Status of FM=
BMS would monitor the following point:
a$ Fully Opened
2$ Fully losed
c$ Fault/rip (larm
he Fire Roller Shutter is not monitored through
Fire (larm #anel.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
*ift #S
11#anel *ocal/Remote Status "%I$
11On/Off Status "%I$
11Run/Stop Status "%I$
11Fault/rip (larm "%I$
11Master rip/Summary (larm "%I$
11Up/Forward %irection "%I$
11%own/Bac3ward %irection "%I$
11Maintenance On/Off Status "%I$
11%oor (larm "%I$
11mergency (larm "%I$
11Special Operation Mode "%I$GGGGGGGGGGGGGGGGGGGGGGGGG
11*ift #ar3ing *oc3out "%O$
11*ift )ome "%O$
11*ift Reset alarm Bell "%O$
*ift IS
11On/Off Status "%I$
11rip "%I$
11mergency (larm "%I$
11ommon fault/4ormal "%I$
*ift U&'
11Summary *ift Fault/rip "%I$
11#ower On/Off "%I$
11Operation On/Off "%I$
11Summary (larm "%I$
11Maintenance Status "%I$11 ash rolley Function"%I$
1178 Miscellaneous "%I$
GGGGGGGGGGGGGGGGGGGGGGGG
11=8 Operation Mode "%O$
scalator #S 4/( 4/(
11#anel *ocal/Remote Status "%I$
11On/Off Status "%I$
11Run/Stop Status "%I$
11Fault/rip (larm "%I$
11Up/Forward %irection "%I$
11%own/Bac3ward %irection "%I$
11Maintenance On/Off Status "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11On/Off ommand "%O$
11Run/Stop ommand "%O$11Up/Forward %irection ommand
"%O$
11%own/Bac3ward %irection
ommand "%O$
scalator IS11On/Off Status
11ommon fault/4ormal
11Open ontrol
11lose ontrol4/(
BMS would monitor the following points
through high le+el interface.
%/I
"i$ #anel *ocal/Remote Status
"ii$ On/Off Status
"iii$ Run/Stop Status
"i+$ Fault/rip (larm
"+$ Master rip/Summary (larm
"+i$ Up %irection
"+ii$ %own %irection
"+iii$ Maintenance On/Off Status
"i8$ %oor (larm
"8$ mergency (larm
"8i$ Special Operation Mode
"8ii$ ash rolley Function
BMS would control the following points
through high le+el interface.
%/O
"i$ *ift #ar3ing *oc3out
"ii$ *ift )ome
"iii$ *ift Reset alarm Bell
4ote: 8act points to 2e discussed after the
*ift %esignated ontractor is on 2oard. M&-
prefered )igh *e+el InterfaceC
BMS would monitor the following points
through high le+el interface.
%/I"i$ #anel *ocal/Remote Status
"ii$ On/Off Status
"iii$ Run/Stop Status
"i+$ Fault/rip (larm
"+$ Up/Forward %irection
"+i$ %own/Bac3ward %irection
"+ii$ Maintenance On/Off Status
BMS would control the following points
l l .
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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scalator U&' 4/( 4/(
11#ower On/Off Status "%I$
11#anel *ocal/Remote Status "%I$
11Up %irection "%I$
11%own %irection "%I$
11Start/Stop Status "%I$
11=8 maintenance On/Off Status "%I$
11Fault/rip (larm "%I$
1178 Miscellaneous "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11Run/Stop ommand "%O$
11Up %irection "%O$
11%own %irection "%O$
11Remote Stop "%O$
1178 Miscellaneous "%O$
ra+ellator #S
11#anel *ocal/Remote
Status
11On/Off Status11Run/Stop Status
11Fault/rip (larm
11Up/Forward %irection
11%own/Bac3ward
%irection
11Maintenance On/Off
Status
11#it Flooding (larm
11On/Off ommand
11Run/Stop ommand
11Up/Forward %irection
ommand
11%own/Bac3ward
%irection ommand
ra+ellator IS 4/( 4/(
ra+ellator U&' 4/( 4/(
through high le+el interface.
%/O
"i$ On/Off ommand
"ii$ Run/Stop ommand
"iii$ Up/Forward %irection ommand
"i+$ %own/Bac3ward %irection ommand
4ote: 8act points to 2e discussed after the
*ift %esignated ontractor is on 2oard. M&-
prefered )igh *e+el InterfaceC
BMS would monitor the following points
through high le+el interface.
%/I
"i$ #anel *ocal/Remote Status
"ii$ On/Off Status
"iii$ Run/Stop Status
"i+$ Fault/rip (larm
"+$ Up/Forward %irection
"+i$ %own/Bac3ward %irection
"+ii$ Maintenance On/Off Status
BMS would control the following points
through high le+el interface.
%/O
"i$ On/Off ommand
"ii$ Run/Stop ommand
"iii$ Up/Forward %irection ommand
"i+$ %own/Bac3ward %irection ommand
4ote: 8act points to 2e discussed after the
*ift %esignated ontractor is on 2oard. M&-
prefered )igh *e+el InterfaceC
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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ooling ower #S
11#anel *ocal/Remote Status "%I$
11Run/Stop Status "%I$
11Fault/rip (larm "%I$
11Filter #ressure (larm "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11Room emperature "(I$
11Isolating ontrol <al+e Status "(I$
ooling ower IS
11Running/Stop "%I$
11Master rip (larm "%I$11*ocal/Remote Status "%I$
11)igh/Off/*ow Speed "%I$
11)igh0)igh/)igh/*ow *e+el Switch
"%I$
11<( rip (larm
GGGGGGGGGGGGGGGGGGGGGGGGG
11Running/Stop "%O$
11)igh/Off/*ow Speed "%O$
GGGGGGGGGGGGGGGGGGGGGGGGG
11urrent/3'h "(I$
11'ater emperature "(I$ 0supply
11'ater emperature "(I$ 0return
11Flow Sensor "(I$
ooling ower U&'
11Running/Stop "%I$
11rip (larm "%I$
11*ocal/Remote Status "%I$
11)igh *e+el (larm "%I$
11*ow *e+el (larm "%I$
11Isolation <al+e Status "%I$
"Open/losed$
GGGGGGGGGGGGGGGGGGGGGGGGG
11On/Off ontrol "%O$
11)igh/Off/*ow Speed "%O$
11<al+e lose/Open "%O$
GGGGGGGGGGGGGGGGGGGGGGGGG
11'ater emperature "(I$
11Flow Sensor "(I$
ondensing 'ater #ump #S
11#anel (uto/Manual Status
11Run/Stop Status
11Fault rip (larm
4/(
ondensing 'ater #ump "(-( #ump$ IS
11Running/Stop
11Master rip (larm11*ocal/Remote Status
11Flow switch
11<( rip (larm
11Running/Stop11urrentt/3'h
11'ater #ressure4/(
ondensing 'ater #ump U&' 4/(
11Running/Stop "%I$
11rip (larm "%I$
11*ocal Remote Status "%I$
11'ater #ressure "%I$
11-') "(I$
GGGGGGGGGGGGGGGGGGGGGGGG
11On/Off ontrol "%O$BMS would monitor the following points through
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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hilled 'ater #ump <S% %ri+e #S
11#anel (uto/Manual Status
11Run/Stop Status
11Fault rip (larm
4/(
hilled 'ater #ump <S% %ri+e "(-( #ump$ IS
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
11Flow switch
11<( rip (larm
11Running/Stop11urrentt/3'h
11'ater #ressure4/(
hilled 'ater #ump <S% %ri+e U&' 4/(
11Running/Stop "%I$
11rip (larm "%I$
11*ocal/Remote Status "%I$
11Fault Mode for <S% "%I$
113'h "(I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11On/Off "%O$
hilled 'ater )eader/#rimary #S 4/(
hilled 'ater )eader/#rimary IS 4/(
hilled 'ater )eader/#rimary U&'
11'ater #ressure "(I$
11'ater emperature "(I$
11Flow Sensor "(I$
%iffferential #ressure ontrol Bypass #S 4/( 4/(
%iffferential #ressure ontrol Bypass "(-(
%ifferential 2y0pass for hilled 'ater ircuit$IS
11'ater temperature
11Flow Sensor
4/(
%iffferential #ressure ontrol Bypass U&' 4/(
11<al+e Opening #osition Feed2ac3"(I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11<al+e Opening #osition ontrol "(O$
hemical %osing System #S
11#anel (uto/Manual Status
11Run Stop Status
11Fault/rip (larm
4/(
hemical %osing System IS 4/( 4/(
hemical %osing System U&' 4/(
11Running/Stop "%I$
11Master rip (larm "%I$
114ormal/Fault (larm "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11<al+e Open/lose "%O$
)igh *e+el:
%/I
"i$ Running/Stop
"ii$ rip (larm
"iii$ *ocal/Remote Status
"i+$ )igh *e+el (larm
"+$ *ow *e+el (larm
"+i$ Isolation <al+e Status "Open/losed$
"+ii$ )igh/Off/*ow Speed
(/I
"i$ 'ater emperature "Supply and Return$
"ii$ Flow Sensor
"iii$ urrent/3'h
BMS would control the following points through
)igh *e+el:
%/O
"i$ On/Off ontrol
"ii$ )igh/Off/*ow Speed
"iii$ <al+e lose/Open
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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4on0hemical reatment System #S
11#anel (uto/Remote Status
(uto/Manual
11Run/Stop Status
11Fault/rip (larm
4on0hemical reatment System IS 4/(
4on0hemical reatment System U&' 4/(
ondensing 'ater Blowdown Operation #S 4/(
ondensing 'ater Blowdown Operation IS 4/(
on de nsi ng 'at er B lo wd own Op er at io n U &'11Isolation <al+e Status "%I$
11<al+e Open/lose "%O$
'ater ooled hiller #S
11#anel *ocal/Remote Status "%I$
11Run/Stop Status "%9$
11Fault/rip (larm "%I$
11Filter #ressure (larm "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11Room temperature "(I$11Supply/Return (ir emperature "(I$
11Supply/Return 'ater emperature
"(I$
11ontrol <al+e Status "(I$
11#ressure Sensor "(I$ Refrigerent
Sensor "(I$
'ater ooled hiller IS
11Running/Stop "%I$
11Master rip (larm "%I$
11*ocal/Remote Status "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11Running/Stop "%O$
GGGGGGGGGGGGGGGGGGGGGGGGG
11urrent/3'h "(I$
11'ater emperature "(I$
11'ater #ressure "(I$
11Flow Sensor "(I$
BMS would monitor the following points through
)igh *e+el interface:
%/I
"i$ Running/Stop
"ii$ hiller rip (larm l
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
l
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'ater ooled hiller U&'
11Running/Stop "%I$
11hiller rip (larm "%I$
11*ocal/Remote Status "%I$
11Isolation <al+e Status "%I$
11Flow Switch "%I$
11Refrigerant *ea3eage "%I$
GGGGGGGGGGGGGGGGGGGGGGGGG
11On/Off ontrol "%O$
11<al+e Open/lose "%O$
GGGGGGGGGGGGGGGGGGGGGGGGG
113'h "(I$
11'ater emperature "(I$
11'ater #ressure "(I$
11Flow Sensor "(I$
<aria2le Refrigerant Flow #S11#anel *ocal/Remote
Status11<RF ontrol
<aria2le Refrigerant Flow IS 4/(
<aria2le Refrigerant Flow U&' 4/(
(ir )andling Unit #S
11#anel *ocal/remote Status11Run Stop Status
11Fault/trip (larm
11%amper Fully Open/lose
Status
11Filter #ressure (larm
11hilled 'ater
emperature Reset
11%emand *imit ontrol
Reset
11Room emperature
11)umidity/O= *e+el
11Supply/Return (ir
emperature
11Supply Return 'ater
emperature
11ontrol <al+e Status
(ir )andling Unit IS
11Running/Stop
11Master rip (larm
11*ocal/remote Status
11Filter/Stariner log
11ommon Smo3e %etector
Status
11<( trip (larm
11Running/Stop
11urrent/3'h
11(ir emperature
11'ater emperature
11'ater #ressure
BMS would monitor the following points through
*ow *e+el interface:
%/I
"i$ Running/Stop
"ii$ Fan Motor rip (larm
"iii$ *ocal/Remote Status
"i+$ ommon Smo3e %etector Status
"+$ Filter #ressure (larm
"+i$ %ifferential #ressure Sensor "%#S$ Fan Status
"+ii$ %amper Fully Open/lose Status
(/I
"i$ urrent/-'h
"ii$ (ir emperature
"iii$ Relati+e )umidity
"i+$ 'ater emperature
"+$ 'ater #ressure
"+i$ <al+e Opening #osition Feed2ac3"+ii$ %amper #osition Feed2ac3
"i+$ Isolation <al+e Status
"+$ Flow Switch
"+i$ Refrigerant *ea3age or Refrigerant Sensor
(/I
"i$ 3'h
"ii$ 'ater emperature
"iii$ 'ater #ressure
"i+$ Flow Sensor
BMS would control the following points through
)igh *e+el interface:
%/O
"i$ On/Off ontrol
"ii$ <al+e Open/lose
M&- commented that this was not a+aila2le
now. )owe+er, M&- would re!uest BMS to
monitor if re!uired in the future.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
r
"+iii$ O= *e+el in the duct
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(ir )andling Unit U&'
11Running/Stop
11Fan Motor rip (larm
11*ocal/Remote Status
11ommon Smo3e %etector
Status
11Filter
11%#S Fan Status
11On/Off ontrol
11urrent/-'h
11(ir emperature
11Relati+e )umidity
11'ater emperature
11'ater #ressure
11<al+e Opening #osition
Feed2ac3
11%amper #ositionFeed2ac3
11<al+e Opening #osition
ontrol
11%amper Opening #osition
ontrol
#rimary (ir )anding Unit #S 4/( 4/( 4/( 4/(
#rimary (ir )anding Unit IS
11Running/Stop
11Master rip/(larm
11*ocal/Remote Status
11Filter/Strainer log
11<( rip (larm
11Running/Stop
11urrent/3'h
11(ir emperature
11'ater emperature
11'ater #ressure
11Flow Sensor
11Fan <aria2le Speed
ontrol
#rimary (ir )anding Unit U&' 4/( 4/( 4/( 4/(
Smo3e 8tract ion Fan "(-( Smo3e Spil l Fan$ #S
11Run/Stop Status
11Fault/rip (larm
11Flow Switch Status
11%amper Fully Open/lose
Status
4/(
Smo3e 8traction Fan IS
11Running/Stop
11Master rip (larm
11*ocal/Remote Sattus
11<( rip (larm
11Running/Stop
Smo3e 8traction Fan U&'
11Running/Stop
11Fan rip (larm11*ocal/Remote Status
11%amper Open/lose
11On/Off ontrol11%amper lose/Open
Space O= Sensor "#u2lic (rea$ #S 4/( 4/(
Space O= Sensor "#u2lic (rea$ IS11Running/Stop
11Master rip (larm11O= oncentration
Space O= Sensor "#u2lic (rea$ U&' 4/( 11O= oncentration
"+iii$ O= *e+el in the duct
BMS would control the following points through
hardwired *ow *e+el interface:
%/O
"i$ On/Off ontrol
(/O
"i$ <al+e Opening #osition ontrol
"ii$ %amper Opening #osition ontrol
he following points shall 2e pro+ided 2y BMS
through BMS software configuration:
"i$ Set #oint emperature Reset"ii$ %emand *imit ontrol Reset
BMS would monitor the following points through
*ow *e+el interface:
%/I
"i$ Fan rip (larm
"ii$ *ocal/Remote Status
"iii$ %amper Open/lose
BMS would control the following points through
*ow *e+el Interface:
%/O
"i$ On/Off ontrol
"ii$ %amper lose/Open
M&- would ha+e further internal discussion
regarding the control and monitoring of the
#rimary (ir )andling Unit System and would
tentati+ely reply to #%# 2y 9= (ugust =9;.
#M4 on 7 Septem2er =9;: M&- confirmed
that the #rimary (ir )andling Unit is not a+aila2le
at this moment and this is su2>ect to the final
design.C
BMS would monitor the following points through
*ow *e+el Interface:
(/I
"i$ O= concentration
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
BMS would monitor the following points through
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Space emperature Sensor "#u2lic (rea$ #S 4/(
Space emperature Sensor "#u2lic (rea$ IS 4/(
S pac e emp er at ur e S ens or " #u 2l ic (r ea $ U &' 11(ir emperature
Space Relati+e )umidity Sensor "#u2lic (rea$ #S 4/(
Space Relati+e )umidity Sensor "#u2lic (rea$ IS 4/(
Space Relat i+e )umidity Sensor "#u2lic (rea$ U&' 11Relati+e )umidity
Fan oil Unit "Single Unit$ #S 4/( 4/( 4/(
Fan oil Unit "Single Unit$ "(-( FU$ IS
11Running/Stop
11Master rip
11*ocal/Remote Status
11Running/Stop 11(ir emperature
Fan oil Unit "Single Unit$ U&'
11Running/Stop
11Fault (larm
11*ocal/remote Status
11<al+e on/off status
1 1On /O ff on tr ol 1 1Ro om (i r emp er at ure
Fan oil Unit "&roup Unit$ #S
Fan oil Unit "&roup Unit$ "(-( FU$ IS
11Running/Stop
11Master rip
11*ocal/Remote Status
11Running/Stop 11(ir emperature
*ow *e+el Interface:
(/I
(ir emperature
BMS would monitor the following points through
*ow *e+el Interface:
(/I
Relati+e )umidity
BMS would monitor the following points through*ow *e+el interface:
%/I
"ii$ Running/Stop
"iii$ Fault (larm
"i+$ *ocal/remote Status
"+$ <al+e on/off status
(/I
"i$ Room (ir emperature
BMS would control the following points through
*ow *e+el interface:
%/O
"i$ On/Off ontrol.
4ote: he On/Off ontrol would interloc3 with
the +al+e on/off.
(/OM&- would confirm whether BMS need to
control the temperature tentati+ely on 9= (ugust
=9;.
BMS would monitor the following points through
*ow *e+el interface:
%/I
"+i$ Running/Stop
"+ii$ Fault (larm
"+iii$ *ocal/remote Status
"i8$ <al+e on/off status
(/I"ii$ Room (ir emperature
l r l ll r
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
l r l ll r
*ow *e+el interface:
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Fan oil Unit "&roup Unit$ U&'
11Running/Stop
11Fault (larm
11*ocal/remote Status
11<al+e on/off status
1 1On /O ff on tr ol 1 1Ro om (i r emp er at ure
Split (ir onditioning Unit #S
S pl it (i r ondi ti on ing Uni t "(- ( S pl it Un it $ I S
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
11Running/Stop 11(ir emperature
Split (ir onditioning Unit U&'
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
1 1On /O ff on tr ol 1 1Ro om (i r emp er at ure
<entilation/8traction Fan ontrol #anel "Single Fan
System$#S
11#anel *ocal/Remote
Status
11( #ower Supply Failure
(larm
<entilation/8traction Fan ontrol #anel "Single Fan
System$IS 4/(
<entilation/8traction Fan ontrol #anel "Single Fan
System$U&' 4/(
Single Fan Unit
"(-( Fresh (ir Fan$
GGGGGGGGGGGGGGGGGGGGGGGGGGGGG
"(-( 8haust (ir Fan$
#S
11Run/Stop Status
11Fault/rip (larm
11%amper Fully Open/lose
Status
GGGGGGGGGGGGGGGGGG
11Run/Stop Status
11Fault/rip (larm
11%amper Fully Open/lose
Status
11Run/Stop ommand
GGGGGGGGGGGGGGGGGG
11Run/Stop ommand
4/(
Single Fan Unit
"(-( Fresh (ir Fan$
GGGGGGGGGGGGGGGGGGGGGGGGGGGGG
"(-( 8tract (ir Fan$
IS
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
GGGGGGGGGGGGGGGGGG
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
11Running/Stop
GGGGGGGGGGGGGGGGGG
11Running/Stop
4/(
GGGGGGGGGGGGGGGGGG
11(ir emperature
BMS would monitor the following points through
*ow *e+el interface:
%/I
"i$ Running/Stop
"ii$ Master rip (larm
"iii$ *ocal/Remote Status
(/I
"i$ Room (ir emperature
%/O
"i$ On/Off ontrol
BMS would monitor the following points through
*ow *e+el interface:
%/I
"i$ Running/Stop
"ii$ Fault (larm
"iii$ *ocal/Remote Status
"i+$ %amper Fully Open/lose Status
(/I
"i$ Room (ir emperature
%/O
"i$ On/Off ontrol
4ote:
"i$ he room temperature would 2e interloc3
with the Fan On/Off. Room emperature
monitoring is only applica2le at #lant and
!uipment Rooms.
"ii$ BMS would control the fan 2ased on the
control logic gi+en 2y M&-.
*ow *e+el interface:
%/O
"ii$ On/Off ontrol.
4ote: he On/Off ontrol would interloc3 with
the +al+e on/off.
(/O
M&- would confirm whether BMS need to
control the temperature tentati+ely on 9= (ugust
=9;.
#M4 on 7 Septem2er =9;: M&- confirmed
that BMS would not control temperatureC
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
11Running/Stop
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Single Fan Unit U&'
11Running/Stop
11Fault (larm
11*ocal/Remote Status
1 1On /O ff on tr ol 1 1Ro om (i r emp er at ure
<entilation/8traction Fan ontrol #anel "%ual Fan
System$#S
11#anel *ocal/Remote
Status
11( #ower Supply Failure
(larm
11Flow Switch Status
11Room emperature
<entilation/8traction Fan ontrol #anel "%ual Fan
System$IS 4/( 4/(
<entilation/8traction Fan ontrol #anel "%ual Fan
System$U&' 4/( 4/(
%ual/win Fan Unit "F(F/(F$
"(-( Fresh (ir Fan$
GGGGGGGGGGGGGGGGGGGGGGGGGGGGG
"(-( 8haust (ir Fan$
#S
11Run/Stop Status
11Fault/rip (larm
11%amper Fully Open/lose
Status
GGGGGGGGGGGGGGGGGG
11Run/Stop Status
11Fault/rip (larm
11%amper Fully Open/lose
Status
11Run/Stop ommand
11%amper Fully Open/lose
ommand
GGGGGGGGGGGGGGGGGG
11Run/Stop ommand
11%amper Fully Open/lose
ommand
%ual/win Fan Unit "F(F/(F$
"(-( Fresh (ir Fan$
GGGGGGGGGGGGGGGGGGGGGGGGGGGGG
"(-( 8tract (ir Fan$
IS
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
GGGGGGGGGGGGGGGGGG
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
11Running/Stop
GGGGGGGGGGGGGGGGGG
11Running/Stop
4/(
GGGGGGGGGGGGGGGGGG
11(ir emperature
%ual/win Fan Unit "F(F/(F$ U&'
11Running/Stop
11Fan rip fault (larm
11*ocal/Remote Status
11%amper Open/lose
11On/Off omntrol
11%amper Open/lose11Room (ir emperature
Staircase #ressuriHation Fan #S 4/( 4/(
Staircase #ressuriHation Fan IS
11Running/Stop
11Master rip (larm
11*ocal/Remote Status
11<( rip (larm
11Running/Stop
M&- would further discuss with MR
regarding the control and monitoring of the dual
fan system and would tentati+ely reply to #%# 2y
9= (ugust =9;.
#M4 on 7 Septem2er =9;: M&- confirmed
that BMS would monitor and control the
following points:
%/I
"i$ Running/Stop
"ii$ Fan rip/Fault (larm
"iii$ *ocal/Remote Status
"i+$ %amper Open/lose
(/I
"i$ Room (ir emperature
%/O
"i$ On/Off ontrol
"ii$ %amper Open/lose C
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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Staircase #ressuriHation Fan U&'
11Running/Stop
11Fan rip Fault (larm
11*ocal/Remote Status
11<al+e/%amper
Open/lose
11Smo3e %etector status
11%#S
11On/Off ontrol
11%amper Open/lose
'ater Ma3e Up an3 #S 11)igh/*ow *e+el (larm
'ater Ma3e Up an3 "(-( an3$ IS11)igh0)igh/)igh/*ow *e+el
Switch
'ater Ma3e Up an3 U&'11)igh *e+el (larm
11*ow *e+el (larm
'ater 8pansion an3 #S 11)igh/*ow *e+el (larm
'ater 8pansion an3 "(-( an3$ IS11)igh0)igh/)igh/*ow *e+el
Switch
'ater 8pansion an3 U&'11)igh *e+el (larm
11*ow *e+el (larm
MotoriHed <al+e #S 4/( 4/(
MotoriHed <al+e IS
11Master rip (larm
11*ocal/Remote Status
11+al+e/%amper lose/Open
11<al+e close/open
MotoriHed <al+e U&' 4/( 4/(
BMS would monitor the following points through
low le+el interface:
%/I
"i$ Running/Stop
"ii$ Fault/rip (larm
"iii$ *ocal/Remote Status
"i+$ %amper Open/lose
"+$ %ifferential #ressure Sensor
BMS would control the following points through
low le+el interface:
%/O
"i$ On/Off ontrol"ii$ %amper lose/Open
4ote: BMS pro+ide controlling functions for
maintenance purpose only.
BMS would monitor the following points through
low le+el interface:
%/I
"i$ )igh *e+el (larm
"ii$ *ow *e+el (larm
4ote: he 'ater Ma3e0up an3 is grouped under
the category of 'ater ooled hiller.
BMS would monitor the following points through
low le+el interface:
%/I
"iii$ )igh *e+el (larm
"i+$ *ow *e+el (larm
4ote: he 'ater 8pansion an3 is grouped
under the category of 'ater ooled hiller.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
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Modulating <al+e #S
11Master rip (larm
11*ocal/Remote Status
11+al+e/%amper lose/Open
11<al+e Opening #osition
Feed2ac3
11<al+e Opening #osition
ontrol
Modulating <al+e IS 4/( 4/( 4/(
Modulating <al+e U&' 4/( 4/( 4/(
MotoriHed %amper/MotoriHed Smo3e/Fire %amper #S 4/( 4/(
MotoriHed %amper/MotoriHed Smo3e/Fire %amper IS
11Master rip (larm
11*ocal/Remote Status
11+al+e/%amper lose/Open
11%amper lose/Open
MotoriHed %amper/MotoriHed Smo3e/Fire %amper U&' 4/( 4/(
Modulating %amper #S 4/( 4/( 4/(
Modulating %amper IS
11Master rip (larm
11*ocal/Remote Status
11+al+e/%amper lose/Open
11%amper Opening
#osition Feed2ac3
11%amper Opening #osition
ontrol
Modulating %amper U&' 4/( 4/( 4/(
BU Meter #S 4/( 4/(
BU Meter IS11Running/Stop
11Master rip (larm
11'ater emperature
11otal ooling apacity
"3'$ nergy "BU$11otal hiller power input
"3'$ ooling #ower
"BU/)$
11otal hilled 'ater flow
rate <olume
11Flow Sensor
M&- ad+ised that the monitoring /controlling or
monitoring and controlling of the motoriHed
damper/motoriHed smo3e/fire damper had 2een
captured in the indi+idual S system.
M&- ad+ised that the monitoring /controlling or
monitoring and controlling of the motoriHed
+al+e and modulating +al+e had 2een captured in
the indi+idual S system.
M&- ad+ised that the monitoring /controlling or
monitoring and controlling of the motoriHed
+al+e and modulating +al+e had 2een captured in
the indi+idual S system.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
M&- t f th di ith MR f thi d
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BU Meter U&' 4/( 4/(
M&- to further discuss with MR for this and
tentati+ely re+ert ad+ice to #%# 2y 9= (ugust
=9;.
#M4 on 7 Septem2er =9;: M&- confirmed
that BU Meter is not a+aila2le at this moment.C
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MMC GAMUDA KVMRT (PDP) SDN BHDPROJEK MASS RAPID TRANSIT LEMBAH KELANG – JAJARAN SUNGAI BULOH - KAJANG
MINUTES OF MEETINGKVMRT
NO. OF PAGES : 16
VENUE AND TIME OF MEETINGDATE & TIME OF
MEETING NEXT MEETING
MKL05, Room 1 01/07/2013, 02:00 p.m. 24 Jul 2013
TITLE OF MEETING: Discrepac! "# $MS I%O p"is a U'er(r")'
Sai"s *LV &UPS+ P,)-i( & Draia(e a'
Fire Ser/ices0
DISTRI$UTION LIST
ATTENDED $ A,, ae'ees
a2 Ra3 I'er Si(4 − S!se-+ PDP RIS
2 Lee 5e( 4") − S!se-+ PDP L5
c2 T4"-as ap− S!se-+ PDP T
'2 T"4 Si( La − S!se-+ PDP TSL
e2 Ke Lai − MGKT KL
#2 Na/i'ra − MGKT Na/i
(2 Kaa(a − MGKT Kaa(a
42 T. K"" − MM TK
i2 Te4 K)a 5ee − MM TK5
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
1.0 I)(#o+u(&o)
1.1 L5 "pee' 4e -eei( a' 7e,c"-e 4e sa8e4",'er
#"r 4e -eei(.
< <
1.> T4e p)rp"se "# 4e -eei( 7as " #ia,iBe 4e !pica,
$MS I%O #"r a,, 4e )'er(r")' sai"s. T4e -eei(
a,s" ace' " arr"7 4e (ap "# 4e $MS I%O p"i
74ic4 7as sip),ae' i 4e c"rac "# MGKT a'$MS S!se- 5P.
< <
2.0 L- ')+ US S*($m
>.1 Di(ia, P"7er Meer CDPM2
$MS 7"),' -"i"r 4e #",,"7i( p"is 4r")(4 4i(4,e/e,+ )si( M"')s CRS2 pr""c",:
a2 Ic"-i( $rea8er O)p) V",a(e Cper p4ase2
2 Ic"-i( $rea8er O)p) )rre Cper p4ase2
c2 Eer(! "s)-pi"
< <
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
$MS 7"),' -"i"r 4e #",,"7i( p"is:
Ci2 Ope%,"se
Cii2 Trip
>. $US Seci" A$ CN%2 ; Ic"-i( $rea8er
$MS 7"),' -"i"r 4e #",,"7i( p"is:
Ci2 Ope%,"se
Trip
< <
>. Ic"-er A$
$MS 7"),' -"i"r 4e #",,"7i( p"is:
Ci2 Ope%,"se
Cii2 Pr"eci" Operae'
Ciii2 Trip
< <
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
-"i"r 4e #",,"7i( p"is:
a2 "--" A,ar-
2 Fai,)re
>. E-er(ec! P"7er O)a(e $)"
N" 'iscrepac! #")' e7ee c"racs. $MS 7"),'
-"i"r 4e #",,"7i( p"is:
a2 $)" P)s4
N"e: MGKT 7"),' c,ari#! 4e )sa(e "# 4e
E-er(ec! P"7er O)a(e $)" #"r $OM$A.
< <
>.1? apaci"r $a8
N" 'iscrepac! #")' e7ee c"racs. $MS 7"),'
-"i"r 4e #",,"7i( p"is:
a2 Ope%,"se
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
$MS 7"),' -"i"r 4e #",,"7i( p"is 4r")(4 4i(4
,e/e, ier#ace.
a2 S)pp,! A $rea8er Ope%,"se
2 S)pp,! $ $rea8er Ope%,"se
c2 S)pp,! A $rea8er Trip
'2 S)pp,! $ $rea8er Trip
e2 Eera, $!pass O%O##
#2 $aer! 4ar(i(%Disc4ar(i(
(2 $aer! "--" A,ar-
42 Fa N"r-a,%Fai,)re "r O/er,"a' Te-pera)re
A,ar-%S4)'"7
i2 UPS O%E-er(ec! S4)'"7
32 ")p,i( Pae, S)--ar! A,ar-
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
2 Ip) Fre)ec!
)2 O)p) Fre)ec!
/2 O)p) Aci/e P"7er
>.1 Li(4i( Pae,
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 Li(4i( J O%O##
2 Li(4i( 66J O%O##
c2 Li(4i( 1??J O%O##
$MS 7"),' c"r", 4e #",,"7i( p"is:
'2 Li(4i( J O%O##
e2 Li(4i( 66J O%O##
#2 Li(4i( 1??J O%O##
< <
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
a2 O%O## sa)s
$MS 7"),' c"r", 4e #",,"7i( p"is:
a2 O%O## c"r",
>.1 P4"" Ses"r
MGKT a'/ise' 4a p4"" ses"r 7as " a/ai,a,e a
4is -"-e. T4ere#"re+ $MS 7"),' " -"i"r a'
c"r", i.
N"e: $MS 7"),' -"i"r i# 4e p4"" ses"r is
a/ai,a,e i 4e #))re.
< <
>.1 T)e, N"r-a, Li(4i(
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 Pae, L"ca,%Re-"e Sa)s
2 Fa),%Trip A,ar-
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
&#$(&o)'l S&)'$8
>.>1 Passe(er I#"r-ai" Disp,a!
$MS 7"),' " c"r", a' -"i"r 4e Passe(er
I#"r-ai" Disp,a! as 4is 7as )'er 4e sc"pe "#
Te,ec"--)icai" S!se-.
< <
>.>> A'/erisi( Pae,
T4e -eei( a'/ise' PDP " see8 a'/ice #r"- PDPs
arc4iec re(ar'i( 4e A'/erisi( Pae,.
1*( MN: '+ *ou( '+%&$ #om ($
'#&($( ')+ m'+$ (o u)+$#*(oo+ ('( ($ *op$ o
o#6 '* u)+$# ($ '#&($( "'*$+ '( MGKT*
o&$. T$#$o#$, MGKT *'ll ('6$ '(&o) o) (&*8
2)+
MN: MGKT oul+ +$*&) ($ +&#$(&o)'l
*&)'$ "'*$+ o) ($ m')u'l &%$) " MRT. 9MS
oul+ mo)&(o# ')+ o)(#ol ($ O)/O o ($
&#$(&o)'l S&)'$8
,"se' <
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MINUTES OF MEETING
ITEM DESRIPTION ATION $ TIMELINE
&#$(&o)'l S&)'$8
>.> Sec)ri! S4)er%R",,er S4)er Pae,
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 F),,! Ope Sa)s
2 F),,! ,"se Sa)s
c2 Trip
'2 L"ca,%Re-"e
$MS 7"),' c"r", 4e #",,"7i( p"is:
a2
Ope c"r",
2 ,"se c"r",
>.>6 M""r "r", ere CM2
P,ease re#er " 4e i'i/i')a, -ec4aica, s!se-.
< <
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ITEM DESRIPTION ATION $ TIMELINE
2 L"7 5aer Le/e, A,ar-
.> Se7a(e S)-ersi,e Pi
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 =i(4 5aer Le/e, A,ar-
< <
. E3ec"r P)-p "r", Pae,+ Se7era(e 7aer P)-ps
a' Se7era(e S)-ersi,e P)-ps.
T4e -eei( c"c,)'e' 4a 4e E3ec"r P)-p "r",
Pae,+ Se7era(e S)-ersi,e P)-ps " e (r")pe' i
a cae("r! #"r 4e sa-e p)-p r""-.
T4e -eei( c"c,)'e' 4a $MS 7"),' " c"r",
4e p)-ps.
$MS 7"),' -"i"r a si(,e pae, p"7er s)pp,! )
-),ip,e p)-ps
$MS 7"),' -"i"r 4e #",,"7i( p"is:
< <
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ITEM DESRIPTION ATION $ TIMELINE
Pae, a' Sai" Draia(e 5aer S)-ersi,e P)-p
" e (r")pe' i a cae("r! #"r 4e sa-e p)-p r""-.
T4e -eei( c"c,)'e' 4a $MS 7"),' " c"r",
4e p)-ps.
$MS 7"),' -"i"r a si(,e pae, p"7er s)pp,! )
-),ip,e p)-ps
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 Pae, CA)"%Ma)a,2 Sa)s
2 Sar Sa)s
c2 S"p Sa)s
'2 Trip%Fa), A,ar-
e2 P"7er Sa)s< si(,e pae,
.6 T)e, Draia(e 5aer S)-p Pi < <
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ITEM DESRIPTION ATION $ TIMELINE
T4e -eei( c"c,)'e' 4a $MS " ee' " -"i"r
4e Press)re Re')ci( Va,/e. T4e Press)re Re')ci(Va,/e is #"r '"-esic p)rp"se ",!.
. T7" C>2 "-par-e P"a,e 5aer Ta8%D"-esic
S"ra(e 5aer Ta8
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 =i(4 5aer Le/e, A,ar-
2 L"7 5aer Le/e, A,ar-
.1? D"-esic 5aer P)-p "r", Pae, a' P"ra,e
5aer $""ser P)-p
T4e -eei( c"c,)'e' 4a 4e D"-esic 5aer P)-p
"r", Pae, a' P"ra,e 5aer $""ser 5aer P)-p
" e (r")pe' i a cae("r! #"r 4e sa-e p)-p r""-.
T4e -eei( c"c,)'e' 4a $MS 7"),' " c"r",
4e p)-ps.
< <
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ITEM DESRIPTION ATION $ TIMELINE
a2 5aer "s)-pi"
4.0 F&#$ S$#%&$*
.1 T4e -eei( c"c,)'e' 4a $MS 7"),' -"i"r 4e
Fire Ser/ices E)ip-e ecep Fire R",,er S4)er
4r")(4 4e Mai Fire A,ar- Pae, )si( =i(4 Le/e,
Ier#ace.
< <
.> Spri8,er 5aer Ta8
$MS 7"),' -"i"r 4e #",,"7i( p"is:
2 =i(4 5aer Le/e, A,ar-
c2 L"7 5aer Le/e, A,ar-
< <
. Spri8,er P)-p "r", Pae,+ Spri8,er P)-p a'
Spri8,er @"c8e! P)-p
T4e -eei( c"c,)'e' 4a 4e Spri8,er P)-p
"r", Pae,+ Spri8,er P)-p a' Spri8,er @"c8e!
P)-p " e (r")pe' i a cae("r!
< <
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ITEM DESRIPTION ATION $ TIMELINE
a2 =i(4 5aer Le/e, A,ar-
L"7 5aer Le/e, A,ar-
. 5e Riser P)-p
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 Pae, CA)"%Ma)a,2 Sa)s
2 Sar Sa)s
c2 S"p Sa)s
'2 Trip%Fa), A,ar-
e2
P"7er Sa)s
< <
.6 5e Riser @"c8e! P)-p
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 Pae, CA)"%Ma)a,2 Sa)s
< <
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ITEM DESRIPTION ATION $ TIMELINE
4e p)-ps.
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 Pae, CA)"%Ma)a,2 Sa)s
2 Sar Sa)s
c2 S"p Sa)s
'2 Trip%Fa), A,ar-
e2 P"7er Sa)s
. T7" C>2 "-par-e 5e Riser Ta8
$MS 7"),' -"i"r 4e #",,"7i( p"is:
a2 =i(4 5aer Le/e, A,ar-
2 L"7 5aer Le/e, A,ar-
< <
.1? FM>?? "r", Pae, < <
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ITEM DESRIPTION ATION $ TIMELINE
o)*ump(&o) o# ($ F&#$ S$#%&$* '($# M$($#8
MN: 9MS oul+ )o( mo)&(o# ($ '($# l$'6'$
o# ($ F&#$ S$#%&$* '($# M$($#8
5.0 L&( ')+ E*'l'(o#
.1 MN: To "$ +&*u**$+ o) 24 Jul 20138 < <
;.0 E)%&#o)m$)( o)(#ol S*($m <ES=
6.1 MN: To "$ +&*u**$+ o) 24 Jul 20138 > <
7.0 E)+ o M$$(&)
H.1 Meei( 'is-isse' a :?? p.-. < <
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BMS Discrepancy I/O schedule for Building Management System
Legend/Notes:
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Font with Blue:
Represents the discrepancy in BMS I/O schedule of BMS contract
compared to the Underground I/O schedule
Font with red:
Represents the discrepancy in Underground schedule compared to the
BMS I/O schedule of BMS contract.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
0 %igital #ower Meter "%#M$ #S
11Incoming 2rea3er output +oltage
"per phase$
11Incoming 2rea3er output current
"per phase$
i
BMS would monitor the following points
through high le+el, using Mod2us "RS567$
protocol:
a$ Incoming Brea3er Output <oltage "per phase$
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11nergy onsumption
0 %igital #ower Meter "%#M$ IS 114/(
0 %igital #ower Meter "%#M$ U&'11)igh *e+el Interface using Mod2us
#rotocol through RS567.
0 ss / 4on0ss Section (B
MSB0( and B "Incoming Brea3er$
#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
4/(
0 ss / 4on0ss Section (B IS
11Open/lose
11rip
11*oc3out
11*ocal/Remote
11Open/lose
0 ss / 4on0ss Section (B U&'
11Open/lose
11rip 4/(
0 Bus Section (B "4/O$
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
0 Bus Section (B "4/O$ IS11Open/lose
11rip
0 Bus Section (B "4/O$ U&'11Open/lose
11rip
0 Bus Section (B "4/$
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
0 Bus Section (B "4/$ IS11Open/lose
rip
0 Bus Section (B "4/$ U&'11Open/lose
rip
"i$ BMS would monitor the following points +ia
low le+el:
a. Open/losed
2. rip
"ii$ M&- demanded that the non0essential
2rea3er shall 2e controlled 2y either BMS or
FS(%( for sa3e of operation. #%# e8plained
that F95; had 2een issued to instruct BMS
not to control any *< switch2oard.
[PMN: S!"D" #ould only monitor and control
the incoming of the L$ %rea&er'(
a$ Incoming Brea3er Output <oltage "per phase$
2$ Incoming Brea3er Output urrent "per phase$
c$ nergy onsumption
BMS would monitor the following points:
9$ Open/lose
=$ rip
BMS would monitor the following points:
9$ Open/lose
=$ rip
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
0 Incomer (B
MSB0( and B "Incoming Brea3er$#S
11Brea3er Open/lose
Status
11Brea3er rip (larm
0 Incomer (B IS
11Open/lose
11#rotection Operated
BMS would monitor the following points:
9$ Open/lose
=$ #rotection Operated
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11rip
0 Incomer (B U&'
11Open/lose
11#rotection Operated
11rip
M SB 0( a nd MSB0B "Outgoing Brea 3er$ #S
11Brea3er Open/lose
Status
11Brea3er rip (larm
MSB 0( and MSB0B "Outgoing Brea3er$ IS 4/(
MSB 0( and MSB0B "Outgoing Brea3er$ U&' 4/(
MSB0( and MSB0B #S
11Selector Switch
Operation Mode Status
11#* 'atchdog Fault
Status
MSB0( and MSB0B IS 4/(
MSB0( and MSB0B U&' 4/(
0 % Supply #S 4/(
0 % Supply IS11ommon (larm
11Failure
0 % Supply U&' 11ommon (larm11Failure
0 mergency #ower Outage Button #S "4/($ 4/(
0 mergency #ower Outage Button IS 11Button #ush
0 mergency #ower Outage Button U&' 11Button #ush
=$ #rotection Operated
;$ rip
BMS would monitor the following points:
a. Brea3er Open/close status
2. Brea3er rip (larm
"ii$ BMS would monitor any outgoing (Bespecially the (B for chiller plant room, <S,
and S M.
he meeting concluded that BMS would not
monitor the selector switch operation mode
status and the #* watchdog fault status of the
MSBs.
4o discrepancy found 2etween contracts. BMS
would monitor the following points:
a$ Button #ush
4ote: M&- would clarify the usage of the
mergency #ower Outage Button for BOMB(.
4o discrepancy found 2etween contracts. BMS
would monitor the following points:
a$ ommon (larm
2$ Failure
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
0 apacitor Ban3 #S "4/($ 4/(
0 apacitor Ban3 IS
11Open/lose
11#rotection Operated
11rip
11Failure
4o discrepancy found 2etween contracts. BMS
would monitor the following points:
a$ Open/lose
2$ #rotection Operated
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11mergency (larm
0 apacitor Ban3 U&'
11Open/lose
11#rotection Operated
11rip
11Failure
11mergency (larm
;;3< transformer 0 "Off0load isolator$ #S "4/($ 4/(
; ;3 < tra nsformer 0 "Off 0loa d isola tor$ IS 11Open/lose
;;3< transformer 0 "Off0load isolator$ U&' "4/($ 4/(
;;3< transformer to 597< ( #S "4/($ 4/(
;;3< transformer to 597< ( IS 11Open/lose
;;3< transformer to 597< ( U&'11emperature alarm
")igh emperature$
M&- commented that the off load isolator of
the ;;3< transformer was not in their scope of
wor3. herefore, BMS would not monitor this.
BMS would only monitor the following point:
a$ )igh emperature (larm
$ p
c$ rip
d$ Failure
e$ mergency (larm
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
11Fault/rip (larm
11Master rip/Summary rip
11( #ower Supply failure (larm
11*ow <oltage (larm
11U#S Online Status
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U#S #S
11U#S on Battery Status
11U#S on Static Bypass Status
11U#S on Maintenance Bypass
11Status Rectifier/In+erter Fault (larm
11Incoming Brea3er Output <oltage
"per phase$
11Incoming Brea3er Output urrent
"per phase$
U#S IS
11On/Off Status
11ommon (larm
11Battery %ischarge (larm
11rip
11Failure
U#S U&'
11Supply ( 2rea3er open/close
11Supply B 2rea3er open/close
11Supply ( 2rea3er trip
11Supply B 2rea3er trip
118ternal Bypass on/off
11Battery charging/discharging
11Battery common alarm
11Fan normal/failure or o+erload
11emperature alarm/shutdown
11U#S on/emergency shutdown11oupling panel summary alarm
11U#S online Status
11U#S on statis 2ypass status
11U#S on mainte nance 2ypass status
11Rectifier /In+erter Fault alarm
11Incoming +oltage "per phase$
11Incoming current "per phase$
11outgoing +oltage "per phase$
11outgoing current "per phase$
11Input power "per phase$
11Output power "per phase$
11Input Fre!uency
11Output Fre!uency
11Output acti+e #ower
BMS would monitor the following points
through high le+el interface.
a$ Supply ( Brea3er Open/lose
2$ Supply B Brea3er Open/lose
c$ Supply ( Brea3er rip
d$ Supply B Brea3er rip
e$ 8ternal Bypass On/Off
f$ Battery harging/%ischarging
g$ Battery ommon (larm
h$ Fan 4ormal/Failure or O+erload emperature
(larm/Shutdown
i$ U#S On/mergency Shutdown
>$ oupling #anel Summary (larm
3$ U#S Online Status
l$ U#S on Static Bypass Status
m$ U#S on Maintenance Bypass Status
Rectifier /In+erter Fault alarm
n$ Incoming <oltage "per phase$
o$ Incoming urrent "per phase$
p$ Outgoing <oltage "per phase$
!$ Outgoing urrent "per phase$r$ Input #ower "per phase$
s$ Output #ower "per phase$
t$ Input Fre!uency
u$ Output Fre!uency
+$ Output (cti+e #ower
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
11#anel *ocal/Remote
Status
F lt/ i
11*ighting Off command
11*ighting ;;? On
d
BMS would monitor the following points:
a$ *ighting ;;? On/Off
2$ *ighting @@? On/Off
c$ *ighting 9? On/Off
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*ighting panel"s$ #S
11Fault/rip
11*ighting Off status
11*ighting ;;? On status
11*ighting @@? On status
11*ighting 9? On status
command
11*ighting @@? On
command
11*ighting 9? On
command
*ighting panel"s$ IS11On/Off Status
11rip
11Open control
11lose control
*ig hti ng pane l"s$ "#u2 lic l igh tin g$ U&'11On/Off Status 11Open control
11lose control
#u2lic *ighting #S 4/( 4/(
#u2lic *ighting IS 11On/Off Status 11On/Off ontrol
#u2lic *ighting U&' 4/( 4/(
$ g g /
BMS would control the following points:
d$ *ighting ;;? On/Off
e$ *ighting @@? On/Off
f$ *ighting 9? On/Off
4ote: M&- ad+ised that the ;;? lightings
monitoring and controlling are from U#S while
the @@? lightings monitoring and controlling are
from essential power.
#lease refer to the *ighting #anel, Item =.95 of
the minutes.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
mergency *ighting "#u2lic (rea$ #S 4/( 4/(
mergency *ighting "#u2lic (rea$ Is 11On/Off Status 11On/Off ontrol
mergency *ighting "#u2lic (rea$ U&' 4/( 4/(
11it is the U#S lighting ";7?$. #oints had 2een
pro+ided to BMS for monitoring. Refer to
lighting panel.
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#latform <oid "per platform$ #S 4/( 4/(
#latform <oid "per platform$ IS 11On/Off Status 11On/Off ontrol
#latform <oid "per platform$ U&' 4/( 4/(
ntrance *ighting "per entrance$ #S 4/( 4/(
ntrance *ighting "per entrance$ IS 11On/Off Status 11On/Off ontrol
ntrance *ighting "per entrance$ U&' 4/( 4/(
#hoto Sensor "if any$ #S 4/( 4/(
#hoto Sensor "if any$ IS 11na2le/%isa2le Status na2le/%isa2le ontrol
#hoto Sensor "if any$ U&' 4/( 4/(
unnel 4ormal *ighting #S
11#anel *ocal/Remote
Status
11Fault/rip (larm
11*ighting Off Status
11*ighting 9? on status
11On/Off command
unnel 4ormal *ighting IS 4/( 4/(
unnel 4ormal *ighting U&' 4/( 4/(
4o lighting would 2e pro+ided at the #latform
<oid. herefore, BMS would not monitor and
control the lighting at #latform <oid.
BMS would monitor the following points:
a$ On/Off status
BMS would control the following points:
a$ On/Off control
M&- ad+ised that photo sensor was not
a+aila2le at this moment. herefore, BMS
would not monitor and control it.
4ote: BMS would monitor if the photo sensor is
a+aila2le in the future.
BMS would monitor the following points:
a$ #anel *ocal/Remote Status
2$ Fault/rip (larm
c$ *ighting Off Status
d$ *ighting 9? on status
BMS would control the following point:
a$ On/Off ommand
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
%irectional Signage #S 4/( 4/(%irectional Signage
he meeting ad+ised #%# to see3 ad+ice from
#%#As architect regarding the directional
signage.
9st #M4: #%# had sought ad+ice from the
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%irectional Signage IS 11On/Off Status 11On/Off ontrol
%irectional Signage U&' 4/( 4/(
%irectional Signage 0 stair #S 4/( 4/(
%irectional Signage 0 stair IS11On/Off Status
11ntry/4o ntry Status
11On/Off ontrol
11ntry/4o ntry ontrol
%irectional Signage 0 stair U&' 4/( 4/(
#assenger Information %isplay #S 4/( 4/(
#assenger Information %isplay IS 11On/Off Status 11On/Off ontrol
#assenger Information %isplay U&' 4/( 4/(
(d+ertising #anels #S 4/( 4/(
(d+ertising #anels IS 11On/Off Status 11On/Off ontrol
(d+ertising #anels U&' 11On/Off Status 11On/Off ontrol
9st #M4: #%# had sought ad+ice from the
architect and made to understood that the
scope of wor3 was under the architect 2ased at
M&-As office. herefore, M&- shall ta3e
action on thisC
=nd #M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
BMS would monitor and control the On/Off of
the %irectional SignageC
#M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
he I/O schedule for the directional signage
would 2e further discussed in future tentati+ely
after ; Months of this meeting.C
BMS would not control and monitor the
#assenger Information %isplay as this was under
the scope of elecommunication System.
he meeting ad+ised #%# to see3 ad+ice from
#%#As architect regarding the (d+ertising #anel.
9st #M4: #%# had sought ad+ice from the
architect and made to understood that the
scope of wor3 was under the architect 2ased at
M&-As office. herefore, M&- shall ta3e
action on thisC
=nd #M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
BMS would monitor and control the On/Off of
the %irectional SignageC
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
mergency call 2ells #S 4/(
mergency call 2ells IS 11(cti+ated/%eacti+ated
mergency call 2ells U&' 4/(
/ /
BMS would not monitor the mergency all
Bells as this was under the scope of
elecommunication System.
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Information Signages #S 4/( 4/(
Information Signages IS 11On/Off Status 11On/Off ontrol
Information Signages U&' 4/( 4/(
Security shutter / Roller shutter panel"s$ #S
11#anel *ocal/Remote
Status
11On/Off Status
11Fault/rip (larm
11On/Off ommand
Security shutter / Roller shutter panel"s$ IS
11Fully Open Status
11Fully losed Status
11rip
11*ocal/Remote
11Open control
11lose control
Security shutter / Roller shutter panel"s$ U&'
11Fully Open Status
11Fully lose Status
11rip
11*ocal/Remote
11Open control
11lose control
M #S 4/(
M IS
11Open/losed
11#rotection Operated
11rip
11*ocal/Remote
M U&'
11Open/lose
11#rotection Operated
11rip
11*oc3out
he meeting ad+ised #%# to see3 ad+ice from
#%#As architect regarding the Information
Signage.
9st #M4: #%# had sought ad+ice from the
architect and made to understood that the
scope of wor3 was under the architect 2ased at
M&-As office. herefore, M&- shall ta3e
action on thisC
=nd #M4: M&- would design the directional
signage 2ased on the manual gi+en 2y MR.
BMS would monitor and control the On/Off of
the %irectional SignageC
BMS would monitor the following points:
a$ Fully Open Status
2$ Fully lose Status
c$ rip
d$ *ocal/Remote
BMS would control the following points:
a$ Open control
2$ lose control
#lease refer to the indi+idual mechanical
system.
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Out )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
lectrical panel"s$ #S 4/(
lectrical panel"s$ IS11Open/lose Status
11rip
he meeting decided that BMS would monitor
the Su2 Switch Board "SSB$ instead of
%istri2ution Board "%B$.
BMS would monitor the following points:
a$ Open/lose Status
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p
lectrical panel"s$ U&'11Open/lose Status
11rip
a$ Open/lose Status
2$ rip Status
!uipment "#S/IS$ %ocument "IS/#%igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
Sewage 'ater an3 "(-( >ector ransfer
tan3$#S
11)igh *e+el (larm
11*ow *e+el (larm
Sewage 'ater >ection an3 IS 11)igh 'ater *e+el #ump
S ' t > ti 3 U&' 11)i h ' t * l (l
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
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Sewage 'ater >ection an3 U&' 11)igh 'ater *e+el (larm
Sewage Su2mersi2le #it #S 4/(
Sewage Su2mersi2le #it IS 4/(
Sewage Su2mersi2le #it U&' 11)igh 'ater *e+el (larm
>ector #ump ontrol #anel #S
11#anel (uto/Manual Status
11( #ower Supply Failure
(larm
>ector #ump ontrol #anel IS 4/(
>ector #ump ontrol #anel U&' 4/(
Sewage 'ater >ector #umps "(-( >ector
tranfer pump$#S
11Run/Stop Status
11Fault/rip (larm4/(
Sewage 'ater >ector #umps IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "on/off$
11On/Off
11Remote reset
Sewage 'ater >ector #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
Sewage Su2mersi2le #umps #S 4/( 4/(
Sewage Su2mersi2le #umps IS 4/( 4/(
Sewage Su2mersi2le #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
Station %rainage 'ater Sump #it "(-( Sump
pit$#S
11)igh *e+el (larm
11*ow *e+el (larm
Station %rainage 'ater Sump #it "(-(
%rainage 'ater Sump #it$IS 11)igh 'ater *e+el (larm
Station %rainage 'ater Sump #it U&'11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
he meeting concluded that the >ector #ump
ontrol #anel, Sewerage Su2mersi2le #umps to
2e grouped in a category for the same pump
room.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor a single panel power
supply 2ut multiple pumps
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status0
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status0single panel.
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
!uipment "#S/IS$ %ocument "IS/#%igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
Sump #ump ontrol #anel #S
11#anel (uto/Manual Status
11( #ower Supply Failure
(larm
Sump #ump ontrol #anel IS 4/(
Sump #ump ontrol #anel U&' 4/(he meeting concluded that the Sump #ump
ontrol #anel and Station %rainage 'ater
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Sump #ump ontrol #anel U&' 4/(
Station %rainage 'ater Su2mersi2le #umps
"(-( Sump #ump$#S
11Run/Stop Status
11Fault/rip (larm4/(
Station %rainage 'ater Su2mersi2le #umps
"(-( %rainage 'ater Su2mersi2le #umps$IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "on/off$
11On/Off
11Remote reset
Station %rainage 'ater Su2mersi2le #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
unnel %rainage 'ater Sump #it "(-( Sump
pit$#S
11)igh *e+el (larm
11*ow *e+el (larm
unnel %rainage 'ater Sump #it "(-(
%rainage 'ater Sump pit$IS 11)igh 'ater *e+el (larm
unnel %rainage 'ater Sump #it U&'11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
unnel %rainage 'ater Su2mersi2le #umps
"(-( Sump #ump$#S
11Run/Stop Status
11Fault/rip (larm4/(
unnel %rainage 'ater Su2mersi2le #umps
"(-( %rainage 'ater Su2mersi2le #umps$IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "on/off$
11On/Off
11Remote reset
unnel %rainage 'ater Su2mersi2le #umps U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "on/off$
4/(
#ressure Reducing <al+e #S 11<al+e (larm
#ressure Reducing <al+e IS 4/(
#ressure Reducing <al+e U&' 4/(
he meeting concluded that BMS no need to
monitor the #ressure Reducing <al+e. he
#ressure Reducing <al+e is for domestic
purpose only.
ontrol #anel and Station %rainage 'ater
Su2mersi2le #ump to 2e grouped in a category
for the same pump room.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor a single panel power
supply 2ut multiple pumps
BMS would monitor the following points:a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status0 single panel
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ e$ #ower Status0single panel
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
!uipment "#S/IS$ %ocument "IS/#%igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O$ )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
= ompartment #ota2le 'ater an3 "(-( %'
Storage an3$#S
11)igh *e+el (larm
11*ow *e+el (larm
= o mpartm en t # ota2l e 'ate r an3 IS11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
= o mpartm en t # ota2l e 'ate r an3 U&'11)igh 'ater *e+el (larm
11*ow 'ater *e+el (larm
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
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%' #ump ontrol #anel #S
11#anel (uto/Manual Status
11( #ower Supply Failure
(larm
%' #ump ontrol #anel IS 4/(
%' #ump ontrol #anel U&' 4/(
#ota2le 'ater Booster #ump "(-( %' #ump$ #S11Run/Stop Status
11Fault/rip (larm4/(
#ota2le 'ater Booster #ump IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
11On/Off
11Remote reset
#ota2le 'ater Booster #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
4/(
'ater Meters and Su2metering #S 4/(
'ater Meters and Su2metering IS11'ater onsumption
11'ater *ea3age
'ater Meters and Su2metering U&' 4/( 11'ater onsumption
he meeting concluded that the %omestic
'ater #ump ontrol #anel and #orta2le 'ater
Booster 'ater #ump to 2e grouped in a
category for the same pump room.
he meeting concluded that BMS would notcontrol the pumps.
BMS would monitor a single panel power
supply 2ut multiple pumps
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status0single panel
BMS would monitor the following point through
high le+el:
a$ 'ater onsumption
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
Sprin3ler 'ater an3 #S11 )igh *e+el (larm
11*ow *e+el (larm
Sprin3ler 'ater an3 IS11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
BMS would monitor the following points:
2$ )igh 'ater *e+el (larm
c$ *ow 'ater *e+el (larm
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Sprin3ler 'ater an3 U&'11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
Sprin3ler #ump ontrol #anel #S
11#anel (uto/Manual
Status
11( #ower Supply Failure
(larm
Sprin3ler #ump ontrol #anel IS 4/(
Sprin3ler #ump ontrol #anel U&' 4/(
Sprin3ler #ump #S11Run/Stop
11Fault/rip (larm4/(
Sprin3ler #ump IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
11On/Off
11Remote Reset
Sprin3ler #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm11#ower Status "On/Off$
4/(
Sprin3ler Doc3ey #ump #S11Run/Stop
11Fault/rip (larm
Sprin3ler Doc3ey #ump IS 4/(
Sprin3ler Doc3ey #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
= compartment 'et Riser an3 #S 4/(
= compartment 'et Riser an3 IS 4/(
= compartment 'et Riser an3 U&' 11)igh 'ater le+el (larm11*ow 'ater *e+el (larm
'et Riser #ump #S 4/(
'et Riser #ump IS 4/(
he meeting concluded that the Sprin3ler #ump
ontrol #anel and Sprin3ler #ump to 2e grouped
in a category.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
*ow 'ater *e+el (larm
BMS would monitor the following points:
l l
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
'et Riser #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
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!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
'et Riser Doc3ey #ump #S 4/(
'et Riser Doc3ey #ump IS 4/(
'et Riser Doc3ey #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
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11#ower Status "On/Off$
Fire (larm #anel #S 11!uipment )ealth Status "%I$
Fire (larm #anel IS 11ommon Fire (larm
Fire (larm #anel U&'11#anel Status "On/Faulty$
11Eone *ocation of Fire
)ose Reel #ump ontrol #anel #S
11On/Off Status
11( #ower Supply Failure
(larm
)ose Reel #ump ontrol #anel IS 4/(
)ose Reel #ump ontrol #anel U&' 4/(
)ose Reel #ump #S11Run/Stop
11Fault/rip (larm4/(
)ose Reel #ump IS
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11Main Brea3er rip
11#ower Status "On/Off$
11On/Off
11Remote Reset
)ose Reel #ump U&'
11Mode "(uto/Manual$
11Start Status
11Stop Status
11rip/Fault (larm
11#ower Status "On/Off$
4/(
= compartment 'et Riser an3 #S
11)igh *e+el (larm
11*ow *e+el (larm
= compartment 'et Riser an3 IS11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
= compartment 'et Riser an3 U&'11)igh 'ater le+el (larm
11*ow 'ater *e+el (larm
he meeting concluded that the )ose Reel #ump
ontrol #anel, and )ose Reel Doc3ey #ump to 2e
grouped in a category.
he meeting concluded that BMS would not
control the pumps.
BMS would monitor the following points:
a$ #anel "(uto/Manual$ Status
2$ Start Status
c$ Stop Status
d$ rip/Fault (larm
e$ #ower Status
BMS would monitor the following point:
a$ )ealth Status of the Fire (larm #anel
BMS would monitor the following points:
a$ )igh 'ater *e+el (larm
2$ *ow 'ater *e+el (larm
!uipment "#S/IS$ %ocument "IS/#S/U&'$ %igital Input "%I$ %igital Output "%O$ (nalogue Input "(I$ (nalogue Output "(O )igh *e+el ")I$ "#%#,M&-, MSB$ Meeting omments
FM= ontrol #anel #S11!uipment )ealth Status/Fault
alarm
FM= ontrol #anel IS 4/(
FM= ontrol #anel U&' 4/(
BMS would monitor the following point:
a$ )ealth Status of FM=
BMS would monitor the following point:
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Fire Roller Shutter #S
11On/Off Status Fully
Opned / losed
11Fault/rip (larm
Fire Roller Shutter IS 4/(
Fire Roller Shutter U&' 4/(
Fire Ser+ice 'ater Meter #S 4/(
Fire Ser+ice 'ater Meter IS 4/(
Fire Ser+ice 'ater Meter U&'11'ater onsumption
11'ater *ea3age
#M4: BMS would not monitor the water
consumption for the Fire Ser+ices 'ater MeterC
#M4: BMS would not monitor the water lea3age
for the Fire Ser+ices 'ater MeterC
BMS would monitor the following point:
a$ Fully Opened
2$ Fully losed
c$ Fault/rip (larm
he Fire Roller Shutter is not monitored through
Fire (larm #anel.