13-185-044January 30, 2012
CCRD
2121 Ponce de Leon Boulevard, Suite 350,
Coral Gables, FL 33134 "
Re: Available Fault Current for Larkin Community Hospital
Dear CORD:.
Thank you for contacting FPL about the available fault current at Larkin Community Hospital,
Based on the plans you have provided dated 00/00/00, the maximum available fault current at the
transformer secondary terminals is estimated to be 46055 symmetrical amperes at 120/20$ volts:
rf'he protective device on the line side of the transformer currently in place or to be installed and
serving your property located at the- subject.location is a 50 amp type "KS" fuse, The primary
service voltage is 13.2kV L -L. This calculated symmetrical fault curvnals not intended for use
as the basis for motor starting calculations and does not include:
• Consideration for any motor contribution or
• Fault current asymmetry,
The FPL equipment currently serving or planned to serve your facility May changeover time as,a,.
result of any numbel- of factors, including but not limited to transfori ier replacelnents.due.to load
growth, electrical grid changes or emergencies. As a result, although we are roviding yoti Nvith
this information for the sole purpose of assisting you in the completion of your study; you and
your client should not design, install Or operate your system in reliance upon any expectation
that the specific size and type of equipment currently in place will remain so. If and when the
-size and -type of thcTccluipirient- chaag€s, caul• employees are not always in- a positiola -to
inunediately notify customers.
As the construction project progresses, any questions or inforlaaation you may need can be
- - - - - communicated thro -ugh me; - Phavu-elm-ln-sed my business card for easy reference and look
forward to hearing from you in the near fitlue.
Brt o Brava (f6r GtiilIei�no Puer ij enia Chap ez) - -- - - -
- - - - - mgineer
� I
FEEDER INPUT DATA
GENERAL FIRE ALARM NOTES:
Project #:412469,000
2121 'once de Leon Boilevard
Suite 350
Coral Gables, FL 33134
phone: 305.569.1692
305 F69.1643
Proles <ione' Consultrg E,gineers
Austin . Da.'las . Delwer • houston - Kansas City Miami
Ncshv'II2 . Phc i;:. R;chni .'Wasiington D.C.
EB00007658
A. REFER TO FLOOR PLANS FOR EXACT QUANTITIES OF DEVICES.
B. PROVIDE ALL POWER SUPPLIES AND ACCESSORIES REQUIRED FOR A COMPLETE AND FULLY
FUNCTIONAL SYSTEM.
C. REFER TO SPECIFICATIONS FOR FURTHER REQUIREMENTS.
D. THE FIRE ALARM INITIATING DEVICES, INDICATING DEVICES, CONTROL /ANNUNCIATOR PANELS, AND OTHER PERIPHERAL DEVICES SHOWN
ON THESE DOCUMENTS DO NOT CONSITUTE THE TOTAL QUANTITY AND /OR TYPE OF DEVICES REQUIRED FOR THIS PROJECT. THE
EQUIPMENT INDICATED ON THESE DRAWINGS IS SHOWN FOR THE PURPOSE OF COORDINATION ONLY AND AS A GENERAL MINIMUM
REQUIREMENT. THE FIRE ALARM CONTRACTOR SHALL BE RESPONSIBLE FOR THE DESIGN, LAYOUT, AND INSTALLATION OF A COMPLETE
SYSTEM IN ACCORDANCE WITH LOCAL APPLICABLE CODES AND STANDARDS (INCLUDING THIRD PARTY LIFE SAFETY REPORTS), AND
WITH THE REQUIREMENTS OF THE LOCAL AUTHORITY HAVING JURISDICTION. THE SYSTEM DRAWINGS SHALL BE DESIGNED AND SEALED
BY A PROFESSIONAL ENGINEER. REFER TO THE PROJECT SPECIFICATIONS FOR SYSTEM PERFORMANCE REQUIREMENTS
E CONTRACTOR TO COORDINATE THE SHUTDOWN OF THE AIR HANDLER UNITS AND EXHAUST FANS WITH DIVISION 15. REFER TO
MECHANICAL SHEET M8 01 FOR SEQUENCE OF OPERATIONS.
LEGEND NOTES:
0 CR I
I LINETYPE LEGEND
0�r
EXISTING
NEW
CONSTRUCTION
FACP
FATC
TO FLOORS ABOVE
_]
SF( nNn FI
PARTIAL FIRE ALARM RISER DIAGRAM
O2SCALE:NTS
------------
- - - - -- _______________________
FEEDER SCHEDULE
= = = == ----
CIRCUIT
BREAKER
GENERATION CONTRIBUTION DATA
600V MAX.
FEEDER FROM FEEDER TO
= = ==
QTY VOLTS LENGTH FEEDER
�E
FEEDER TAG
----------------------------
BUS CONTRIBUTION VOLTAGE
NAME NAME NAME
/PH L -L
SIZE
AMPS
20
20
20
25
20
30
20
BC
FDR C
DP -5 PNL C
4 208 105.0 FEET 4/0 Copper
6
8
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BUS FPL
AMPERE RATING
FEEDER DESCRIPTION
Insulation Type:
PVC Insulation Class:
15.3, 20.3
-MN FPL MAIN 208.00 16.59
Three Phase Contribution: 46055.0 AMPS 12.00
3 #12, 1#12 G, 3/4" C
+/- Impedance: 0.0640 + J
0.0497 Ohms /1000 ft
3.88 + J 3.02 PU
15.4, 20.4
Single Line to Ground Contribution: 46055.0 AMPS 8,00
3 #12, 1#12 N, 1#12 G. 3/4" C
ZO Impedance: 0.2017 + J
0.1224 Ohms /1000 ft
12.24 + J 7.43 PU
15.41, 20.41
Pas Sequence Impedance (100 MVA Base) 0.5005 + J 6.01 PU
3 #12, 1#12 N, 1#12 G, 1#12 IG, 3/4" C
MAIN SW#1 DP -1
3 208 10.0
FEET 500 Copper
25.3, 30.3
Zero Sequence Impedance (100 MVA Base) 1.24 + J 5.93 PU
3 #10, 1#10 G. 3/4" C
Duct Material: Non- Magnetic
Insulation Type:
PVC Insulation Class:
25.4, 30.4
PROVIDE
TYPE, PROVIDE
TYPE, PROVIDE
3 #10, 1#10 N, 1#10 G, 3/4" C
+/- Impedance: 0.0276 + J
0.0373 Ohms /1000 ft
0.2126 + J 0.2874 PU
25.41, 30.41
F A U L T A N A L Y S IS S U M M A R Y #�** #*�*++•
3 #10, 1#10 N, 1#10 G. 1#10 IG, 3/4" C
ZO Impedance: 0.0438 + J
0.0999 Ohms /1000 ft
0.3375 + J 0.7697 PU
35.3, 40.3
-------------------------------------------------------
3#8, 1 #10 G, 3/4" C
BUS FPL -MN DP -5
3 208 10.0
FEET 300 Copper
35.4, 40.4
-------------------------------------------------------
BUS NAME VOLTAGE AVAILABLE FAULT CURRENT
3#8, 1 #8 N, 1 #10 G, 3/4" C
Duct Material: Non- Magnetic
Insulation Type:
PVC Insulation pass:
35.41, 40.41
L -L 3 PHASE X/R LINE /GRND X/R
3#8, 1#8 N, 1#10 G, 1#10 IG, 1" C
+/- Impedance: 0.0451 + J
0.0394 Ohms /1000 ft
0.3475 + J 0.3036 PU
45.3, 50.3
1.3
3#6, 1 #10 G. 3/4" C
ZO Impedance: 0.0717 + J
0.1002 Ohms /1000 ft
0.5524 + J 0.7720 PU
45.4, 50.4
BUS FPL -MN 208. 46055.0 12.0
3#6, 1 #6 N, 1 #10 G, 11- C
1.00
1.00
1.00
45.41, 50.4i
DP -1 208, 41767.1 7.1
3#6, 1#6 N, 1#10 G, 1#10 IG, 11- C
DP -1 PNL K2
1 208 150.0
FEET 4/0 Copper
60.3
DP -5 208. 43599.3 7.4
3#4, 1#10 G, 11- C
Duct Material: Magnetic
Insulation Type:
PVC Insulation Class:
60.4
MAIN SW#1 208. 43823.9 8.8
3#4, 1 #4 N. 1 #10 G, 1 1/4" C
+/- Impedance: 0.0640 + J
0.0497 Ohms /1000 ft
22.19 + J 17.23 PU
60.41
PNL C 208. 26544.8 2.0
3#4, 1#4 N. 1#10 G, 1#10 IG, 1-1/4- C
ZO Impedance: 0.2017 + J
0,1224 Ohms /1000 ft
69.93 + J 42.44 PU
70.3
PNL K2 208. 8364.0 1.0
3#4, 1#8 G, 1" C
3 208 10.0
FEET 500 Copper
70.4
3#4, 1#4 N, 1#8 G, 1-1/4- C
Insulation Type:
0.0373 Ohms /1000 ft
PVC Insulation Class:
0.2126 + J 0.2874 PU
THWN
70.41
FDR SUB -K2
3#4, 1#4 N, 1#8 G. 1#8 IG, 1-1/4- C
0.0999 Ohms /1000 ft
0.3375 + J 0.7697 PU
80.3
3 #3, 1#8 G, 1-1/4- C
FEET 1 Copper
80.4
Duct Material: Magnetic
3#3, 1#3 N, 1#8 G, 1 -1 /4" C
PVC Insulation Class:
THWN
A. XXX.
80.41
+/- Impedance: 0.1600 + J
3 #3, 1#3 N, 1#8 G. 1#8 IG, 1-1/4- C
16.64 + J 5.93 PU
90.3
ZO Impedance: 0.5042 + J
3 #2, 1#8 G, 1-1/4- C
52.44 + J 14.59 PU
90.4
3 #2, 1#2 N. 1#8 G, 1-1/4' C
KEYED NOTES:
90.41
3 #2, 1#2 N, 1#8 G. 1#8 IG, 1-1/4- C
OPROVIDE UPDATED PANEL DIRECTORY. HAND WRITTEN SCHEDULES ARE NOT PERMITTED.
100.3
3 #1, 1#8 G, 1 -1/4" C
100.4
3 #1, 1#1 N, 1#8 G, 1-1/2- C
100.41
3 #1, 1 #1 N, 1#8 G, 1#8 IG, 1-1/2- C
110.3
3 #1, 1#6 G, 1 -1/4" C
110.4
3 #1, 1 #1 N. 1#6 G, 1-1/2- C
110.41
3 #1, 1 #1 N, 1#6 G. 1#6 IG, 1-1/2- C
125.3, 150.3
3 #1 /0, 1#6 G, 1-1/2- C
125.4, 150.4
3 #1 /0, 1 #1 /0 N, 1 #6 G, 2" C
125.41, 150.41
3 #1 /0, 1 #1 /0 N, 1 #6 G, 1 #6 IG, 2" C
175.3
3 #2/0, 1 #6 G. 2" C
175.4
3 #2/0, 1#2/0 N, 1#6 G, 2" C
175.41
3 #2/0, 1#2/0 N, 1 #6 G, 1 #6 IG, 2" C
200.3
3#3/0, 1#6 G, 2" C
200.4
3 #3/0, 11#3/0 N, 1 #6 G. 2" C
200.41
3 #3/0, 1#3/0 N, 1#6 G, 1#6 IG, 2" C
225.3
3#4/0, 1#4 G, 2" C
225.4
3#4/0, 1#4/0 N, 1#4 G, 2-1/2" C
225.41
3#4/0, 1#4/0 N, 1#4 G, 1 #4 IG, 2-1/2-
C
250.3
3 #250KCM, 1 #4 G, 2-1/2- C
250.4
3 #250KCM, 1- 250KCM N. 1 #4 G, 2-1/2"
C
250.41
3 #250KCM, 1- 250KCM N, 1#4 G, 1#4 IG,
2-1/2- C
300.3
3#350KCM, 1#4 G, 2-1/2- C
300.4
3 #350KCM, 1- 350KCM N, 1#4 G, 3" C
300.41
3 #350KCM, 1- 350KCM N, 1#4 G, 1#4 IG,
3" C
350.3
3#500KCM, 1 #3 G, 3" C
350.4
3 #500KCM, 1- 500KCM N, 1#3 G, 3-1/2-
C
350.41
3 #500KCM, 1- 500KCM N, 1#3 G, 1#3 IG,
3-1/2- C
400.3
2 SETS EACH OF [3 #3/0, 1 #3 G, 2" C]
400.4
2 SETS EACH OF [3 #3/0, 1#3/0 N, 1 #3 G,
2-1/2" C]
400.41
2 SETS EACH OF [3#3/0, 1#3/0 N, 1#3 G,
11#3 IG, 2-1/2* C]
450.3
2 SETS EACH OF [3#4/0, 1 #2 G, 2" C]
450.4
2 SETS EACH OF [3#4/0, 1#4/0 N. 1#2 G.
2-1/2- C]
450.41
2 SETS EACH OF [3#4/0, 1#4/0 N, 1#2 G,
1#2 IG, 2-1/2- C]
500.3
2 SETS EACH OF [3 #250KCM, 1 #2 G, 2 -1/2" C]
500.4
2 SETS EACH OF [3 #250KCM, 1 #250KCM N,
1#2 G, 2-1/2" C]
500.4i
2
SETS EACH OF [3 #250KCM, 1 #250KCM N,
1#2 G, 1 #2 IG, 2-1/2- C]
600.3
2
SETS EACH OF [3 #350KCM, 1 #1 G, 2-1/2- C]
600.4
2
SETS EACH OF [3 #350KCM, 1 #350KCM N,
1 #1 G, 3" C]
600.4i
2
SETS EACH OF [3 #350KCM, 1 #350KCM N,
1#1 G. 1 #1 IG, 3" C]
700.3
2
SETS EACH OF [3 #500KCM, 1 #1 /0 G, 3"
C]
700.4
2
SETS EACH OF [3#500KCM, 1 #500KCM N,
1#1/0 G, 3-1/2- C]
700.41
2
SETS EACH OF [3#500KCM, 1 #500KCM N,
1#11/0 G, 11#11/0 IG, 3-1/2-
C]
800.3
3
SETS EACH OF [3#300KCM, 1 #1 /0 G. 3"
C]
800.4
3
SETS EACH OF [3#300KCM, 1 #300KCM N,
1 #1 /0 G, 3" C]
800.41
3
SETS EACH OF [3#300KCM, 1 #300KCM N,
11#11/0 G, 1#1/o IG, 3" C]
900.3
3
SETS EACH OF [3#350KCM, 1 #2/0 G, 3"
C]
900.4
3
SETS EACH OF [3#350KCM, 1 #35011 N,
1 #2/0 G, 3" C]
900.41
3
SETS EACH OF [3 #350KCM, 1 #350KCM N,
1#2/0 G, 1#2/0 IG, 3" C]
1000.3
3
SETS EACH OF [3#400KCM, 1 #2/0 G, 3"
C]
1000.4
3
SETS EACH OF [3#400KCM, 1 #400KCM N,
1 #2/0 G, 3" C]
1000.41
3
SETS EACH OF [3#400KCM. 1 #400KCM N,
1#2/0 G, 1#2/0 IG, 3" C]
1200.3
4
SETS EACH OF [3 #350KCM, 1#3/0 G, 3"
C]
1200.4
4
SETS EACH OF [3#350KCM, 1 #350KCM N,
1 #310 G, 3" C]
1200.41
4
SETS EACH OF [3 #350KCM, 1 #350KCM N,
1#3/0 G, 1#3/0 (G, 3-1/2-
C]
1400.3
4
SETS EACH OF [3#500KCM, 1#4/0 G, 3" C]
1400.4
4
SETS EACH OF [3#500KCM, 1#50OKCM N,
1#4/0 G, 3 -1/2" C]
1400.4i
4
SETS EACH OF [3#500KCM, 1 #500KCM N,
1#4/0 G, 1#4/0 IG, 3-1/2-
C]
1600.3
5
SETS EACH OF [3#400KCM, 1#4/0 G, 3" C]
1600.4
5
SETS EACH OF [3#400KCM, 1 #400KCM N,
1 #4/0 G. 3" C]
1600.41
5
SETS EACH OF [3#400KCM, 1 #400KCM N,
1#4/0 G, 1#4/0 IG, 3-1/2-
C]
2000.3
6
SETS EACH OF [3#400KCM, 1 #250KCM G,
3" C]
2000.4
6
SETS EACH OF [3#400KCM, 1 #400KCM N,
1 #250KCM G, 3" C]
2000.41
6
SETS EACH OF [3#400KCM, 1 #400KCM N,
1 #250KCM G, 1 #250KCM IG,
3-1/2- C]
2500,3
7
SETS EACH OF [3#500KCM, 1 #350KCM G,
3-1/2- C]
2500.4
7
SETS EACH OF [3 #500KCM, 1#500KCM N,1#350KCM
G, 3 -1/2" C]
2500.41
7
SETS EACH OF [3#500KCM, 1 #500KCM N,
1 #350KCM G, 1 #350KCM IG,
4" C]
January 30, 2012
CCRD
2121 Ponce de Leon Boulevard, Suite 350,
Coral Gables, FL 33134 "
Re: Available Fault Current for Larkin Community Hospital
Dear CORD:.
Thank you for contacting FPL about the available fault current at Larkin Community Hospital,
Based on the plans you have provided dated 00/00/00, the maximum available fault current at the
transformer secondary terminals is estimated to be 46055 symmetrical amperes at 120/20$ volts:
rf'he protective device on the line side of the transformer currently in place or to be installed and
serving your property located at the- subject.location is a 50 amp type "KS" fuse, The primary
service voltage is 13.2kV L -L. This calculated symmetrical fault curvnals not intended for use
as the basis for motor starting calculations and does not include:
• Consideration for any motor contribution or
• Fault current asymmetry,
The FPL equipment currently serving or planned to serve your facility May changeover time as,a,.
result of any numbel- of factors, including but not limited to transfori ier replacelnents.due.to load
growth, electrical grid changes or emergencies. As a result, although we are roviding yoti Nvith
this information for the sole purpose of assisting you in the completion of your study; you and
your client should not design, install Or operate your system in reliance upon any expectation
that the specific size and type of equipment currently in place will remain so. If and when the
-size and -type of thcTccluipirient- chaag€s, caul• employees are not always in- a positiola -to
inunediately notify customers.
As the construction project progresses, any questions or inforlaaation you may need can be
- - - - - communicated thro -ugh me; - Phavu-elm-ln-sed my business card for easy reference and look
forward to hearing from you in the near fitlue.
Brt o Brava (f6r GtiilIei�no Puer ij enia Chap ez) - -- - - -
- - - - - mgineer
� I
FEEDER INPUT DATA
GENERAL FIRE ALARM NOTES:
Project #:412469,000
2121 'once de Leon Boilevard
Suite 350
Coral Gables, FL 33134
phone: 305.569.1692
305 F69.1643
Proles <ione' Consultrg E,gineers
Austin . Da.'las . Delwer • houston - Kansas City Miami
Ncshv'II2 . Phc i;:. R;chni .'Wasiington D.C.
EB00007658
A. REFER TO FLOOR PLANS FOR EXACT QUANTITIES OF DEVICES.
B. PROVIDE ALL POWER SUPPLIES AND ACCESSORIES REQUIRED FOR A COMPLETE AND FULLY
FUNCTIONAL SYSTEM.
C. REFER TO SPECIFICATIONS FOR FURTHER REQUIREMENTS.
D. THE FIRE ALARM INITIATING DEVICES, INDICATING DEVICES, CONTROL /ANNUNCIATOR PANELS, AND OTHER PERIPHERAL DEVICES SHOWN
ON THESE DOCUMENTS DO NOT CONSITUTE THE TOTAL QUANTITY AND /OR TYPE OF DEVICES REQUIRED FOR THIS PROJECT. THE
EQUIPMENT INDICATED ON THESE DRAWINGS IS SHOWN FOR THE PURPOSE OF COORDINATION ONLY AND AS A GENERAL MINIMUM
REQUIREMENT. THE FIRE ALARM CONTRACTOR SHALL BE RESPONSIBLE FOR THE DESIGN, LAYOUT, AND INSTALLATION OF A COMPLETE
SYSTEM IN ACCORDANCE WITH LOCAL APPLICABLE CODES AND STANDARDS (INCLUDING THIRD PARTY LIFE SAFETY REPORTS), AND
WITH THE REQUIREMENTS OF THE LOCAL AUTHORITY HAVING JURISDICTION. THE SYSTEM DRAWINGS SHALL BE DESIGNED AND SEALED
BY A PROFESSIONAL ENGINEER. REFER TO THE PROJECT SPECIFICATIONS FOR SYSTEM PERFORMANCE REQUIREMENTS
E CONTRACTOR TO COORDINATE THE SHUTDOWN OF THE AIR HANDLER UNITS AND EXHAUST FANS WITH DIVISION 15. REFER TO
MECHANICAL SHEET M8 01 FOR SEQUENCE OF OPERATIONS.
LEGEND NOTES:
0 CR I
I LINETYPE LEGEND
0�r
EXISTING
NEW
CONSTRUCTION
FACP
FATC
TO FLOORS ABOVE
_]
SF( nNn FI
PARTIAL FIRE ALARM RISER DIAGRAM
O2SCALE:NTS
------------
- - - - -- _______________________
DESCRIPTION
SPARE
EXISTING LOAD
SPARE
NEW AHU -19 NOTE 2
MOTORIZED DAMPERS
RE -HEAT COIL NOTE 1
EF -DWI
= = = == ----
CIRCUIT
BREAKER
GENERATION CONTRIBUTION DATA
CABLE
FEEDER FROM FEEDER TO
= = ==
QTY VOLTS LENGTH FEEDER
�E
- - - -__
----------------------------
BUS CONTRIBUTION VOLTAGE
NAME NAME NAME
/PH L -L
SIZE
AMPS
20
20
20
25
20
30
20
NAME NAME L -L MVA X "d X/R
FDR C
DP -5 PNL C
4 208 105.0 FEET 4/0 Copper
6
8
aaaassaaaa:aasass :ass : :aasaas :as
BUS FPL
10
Duct Material: Magnetic
Insulation Type:
PVC Insulation Class:
THWN
-MN FPL MAIN 208.00 16.59
Three Phase Contribution: 46055.0 AMPS 12.00
+/- Impedance: 0.0640 + J
0.0497 Ohms /1000 ft
3.88 + J 3.02 PU
MUA -1 NOTE 3
Single Line to Ground Contribution: 46055.0 AMPS 8,00
26
ZO Impedance: 0.2017 + J
0.1224 Ohms /1000 ft
12.24 + J 7.43 PU
20
20
Pas Sequence Impedance (100 MVA Base) 0.5005 + J 6.01 PU
FDR DP -1
MAIN SW#1 DP -1
3 208 10.0
FEET 500 Copper
EF -K1
SPARE
Zero Sequence Impedance (100 MVA Base) 1.24 + J 5.93 PU
1
Duct Material: Non- Magnetic
Insulation Type:
PVC Insulation Class:
THWN
PROVIDE
TYPE, PROVIDE
TYPE, PROVIDE
3 #10, 1 #10
3 #10, 1 #10
3 #12, 1 #12
+/- Impedance: 0.0276 + J
0.0373 Ohms /1000 ft
0.2126 + J 0.2874 PU
F A U L T A N A L Y S IS S U M M A R Y #�** #*�*++•
'SUB -K2' LOAD SUMMARY
ZO Impedance: 0.0438 + J
0.0999 Ohms /1000 ft
0.3375 + J 0.7697 PU
-------------------------------------------------------
FDR DP -5
BUS FPL -MN DP -5
3 208 10.0
FEET 300 Copper
TOTAL CONNECTED LOAD
-------------------------------------------------------
BUS NAME VOLTAGE AVAILABLE FAULT CURRENT
RCPTS
1.3
Duct Material: Non- Magnetic
Insulation Type:
PVC Insulation pass:
THWN
L -L 3 PHASE X/R LINE /GRND X/R
6;P15-32.006 (L _fj6G °I OF'
A Ff <�t) A (� rj34( T�;; ,
��l
DI:tAVVII.43, i tJST X.7E 13t981VIFFTE a
SHOP DRAVVlNGS �'(HR PERI`'f I �
Daft: i Ij VJy T
! .
+/- Impedance: 0.0451 + J
0.0394 Ohms /1000 ft
0.3475 + J 0.3036 PU
0,4
1.3
16.9
ZO Impedance: 0.0717 + J
0.1002 Ohms /1000 ft
0.5524 + J 0.7720 PU
76.g
BUS FPL -MN 208. 46055.0 12.0
1.25
1.00
1.00
1.00
1.00
DP -1 208, 41767.1 7.1
FDR K2
DP -1 PNL K2
1 208 150.0
FEET 4/0 Copper
16.9
DP -5 208. 43599.3 7.4
n 1
Duct Material: Magnetic
Insulation Type:
PVC Insulation Class:
THWN
MAIN SW#1 208. 43823.9 8.8
+/- Impedance: 0.0640 + J
0.0497 Ohms /1000 ft
22.19 + J 17.23 PU
PNL C 208. 26544.8 2.0
ZO Impedance: 0.2017 + J
0,1224 Ohms /1000 ft
69.93 + J 42.44 PU
PNL K2 208. 8364.0 1.0
FDR MAIN SW#1 BUS FPL -MN MAIN SW#1
3 208 10.0
FEET 500 Copper
PNL SUB -K2 208. 5590.5 0.7
Duct Material: Non- Magnetic
+/- Impedance: 0.0276 + J
Insulation Type:
0.0373 Ohms /1000 ft
PVC Insulation Class:
0.2126 + J 0.2874 PU
THWN
***sae*+tsssstsss* FAULT ANALYSIS REPORT COMPLETED+«
FDR SUB -K2
ZO Impedance: 0.0438 + J
PNL K2
0.0999 Ohms /1000 ft
0.3375 + J 0.7697 PU
GENERAL NOTES:
PNL SUB -K2 1 208 45.0
FEET 1 Copper
Duct Material: Magnetic
Insulation Type:
PVC Insulation Class:
THWN
A. XXX.
+/- Impedance: 0.1600 + J
0.0570 Ohms /1000 ft
16.64 + J 5.93 PU
ZO Impedance: 0.5042 + J
0.1403 Ohms /1000 ft
52.44 + J 14.59 PU
KEYED NOTES:
OPROVIDE UPDATED PANEL DIRECTORY. HAND WRITTEN SCHEDULES ARE NOT PERMITTED.
C SUB -K2 K2
I I
° 1100A
155®0 SCA j
8364 SCA
100.4 10000 AK:
L225.4
7 SCA
85000 AK;
3 SETS OF (4 #500MCM, DP -1
1 #3 /OG IN 12 "X24" DUCT)
MAIN #1
1200 AMP
1200 AMP
3 SETS OF (4 #500MCM,
1 #3 /OG IN 12 "X24" DUCT)
ELE
225.4 TO PANEL EC1
435999 SCA
6Li000 AIC
DP -5 DP4
500.4
M
FIRST FLOOR
EXISTING PANEL: SUB -K2 FED FROM: K2 NORMAL
LOCATION: KITCHEN OFFICE WIRES: 4W + G NEUTRAL BUS: Yes
MAIN BUS: 100A ENCLOSURE: NEMA 1 GROUND BUS: Yes
MCB: N/A BUS TYPE: Copper ISOLATED GROUND BUS: No
VOLTAGE: 208/120 MOUNTING: Recessed 200% NEUTRAL: No
AIC: 10,000A PANEL LUGS: Main Lugs Only FEED THROUGH LUGS: Yes
CKT
N0.
1
3
5
7
9
11
13
15
17
19
21
23
25
DESCRIPTION
SPARE
EXISTING LOAD
SPARE
NEW AHU -19 NOTE 2
MOTORIZED DAMPERS
RE -HEAT COIL NOTE 1
EF -DWI
TOTAL
LOAD
(VA)
-
-
450
-
1944
1944
1944
100
1667
1667
1667
696
CIRCUIT
BREAKER
PHASE
A
B
C
A
B
C
A
B
C
A
B
C
A
CIRCUIT
BREAKER
TOTAL
LOAD
VA
360
360
360
1944
1944
1944
180
1333
1333
1333
793
793
793
DESCRIPTION
EXISTING LOAD
CKT
NO
2
AMPS
20
20
20
25
20
30
20
POLES
2
1
2
3
1
3
1
AMPS
20
20
20
25
20
30
20
POLES
1
1
1
3
1
3
3
EXISTING LOAD
4
EXISTING LOAD
NEW AHU -18 NOTE 2
6
8
10
12
NEW MECH ROOM REC
14
RE -HEAT COILS NOTE 1
16
18
20
MUA -1 NOTE 3
22
24
26
27
29
NOTES:
SPARE
SPARE
-
-
20
20
1
1
B
C
20
20
1
1
667
-
EF -K1
SPARE
26
30
1
NOTE 1: PROVIDE NEW 3P -30 AMP CIRCUIT
NOTE 2: PROVIDE NEW 3P -25 AMP CIRCUIT
NOTE 3: PROVIDE NEW 3P -20 AMP CIRCUIT
BREAKER
BREAKER
BREAKER
TO MATCH
TO MATCH
TO MATCH
EXISTING TYPE.
EXISTING
EXISTING
PROVIDE
TYPE, PROVIDE
TYPE, PROVIDE
3 #10, 1 #10
3 #10, 1 #10
3 #12, 1 #12
G IN 3/4 "C.
G IN 3/4 "C.
G IN 3/4 "C,
'SUB -K2' LOAD SUMMARY
C;0NgP1_IA�JCE_
TOTAL
TOTAL
TOTAL CONNECTED LOAD
LTS
0.5
RCPTS
1.3
MTRS
15.4
HEAT
9.0
MISC
0.1
(KVA)
26.2
( AMPS)
72.8
6;P15-32.006 (L _fj6G °I OF'
A Ff <�t) A (� rj34( T�;; ,
��l
DI:tAVVII.43, i tJST X.7E 13t981VIFFTE a
SHOP DRAVVlNGS �'(HR PERI`'f I �
Daft: i Ij VJy T
! .
DEMAND FACTOR
SEE DEMAND FACTOR TABLE
TOTAL DEMAND LOAD
0,4
1.3
16.9
9.0
0.1
27.7
76.g
CONTINUOUS (DESIGN) FACTOR
1.25
1.00
1.00
1.00
1.00
TOTAL DESIGN LOAD
0.6
1.3
16.9
9 n
n 1
17 p
CRITICAL EM -MAIN SW #2
ATS #3 -CR 600AM1 F
600A 600AMP
500.4
TO PANEL LS -A
DP -3
40 AMP 80.4 80.4
J
80.4
ELECTRICAL RISER DIAGRAM
01PARTIAL s�� „,s
LIFE SAFETY
ATS #1 -LS
IODA
EM -MAIN SW #3
200AMP
125AMP
EM PANELBOARD
AW
a 3'f`n.5 I t S,il�i�
skPPIQ, o"AFL_,
IhIll- '1-' -1,111H
STANDBY
GENERATOR #1
175 KW
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