HomeMy WebLinkAbout350 Towne Center Cir 95-968; (A) INTERIOR REMODEL5o cT2 n C C
ZONE DATE
CONTRACTOR
ADDRESS / q' ' -07' JPIS PHONE #
LOCATIOr
OWNER.
ADDRESS
PHONE #
PLUMBING
CONTRACTOR ADDRESS
PHONE #
jLECTRICAL
CONTRACTOR S d ,,,, tt
ADDRESS
PHONE #
MECHANICAL
CONTRACTOR ADDRESS
PHONE #
MISCELLANEOUS
CONTRACTOR ADDRESS
SEPTIC
TANK PERMIT NO. SOIL
TEST REQUIREMENTS O FINISHED
FLOOR ELEVATION
REQUIREMENTS () ARCHITECTURAL
APPROVAL DATE: PERMIT # /
5 964 JOBiYi '
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COST $
3, g3 j , 1-4 [ K SUBDIVISION:
LOT
NO. BLOCK:
SECTION: _
SQUARE
FEET: FEE $
1 5 3 9 , CM MODEL:
STATE
NO.0 -0- fi-O(: G S OCCUPANCY CLASS: FEE $
FEE $
FEE $
INSPECTIONS
TYPE
DATE OK REJECT BY FEE $
ENERGY SECT. CERTIFICATE
OF OCCUPANCY ISSUED #
DATE: FINAL
DATE 1
I
CITY OF SANFORD, FLORIDA
APPLICATION FOR BUILDING PERMIT
350 Towne Center Circle LA
PERMIT ADDRESS Seminole Towne Center Mall PERMIT NUMBER l
319W)41K.05
Total Contract Price of Job Total Sq. Ft. 131,420 sf
Describe Work Interior finishes for Department Store
Type of Construction Interior Remodeling Flood Prone (YES) (NO)
Number of Stories 2 Number of Dwellings None Zoning
Occupancy: Residential Commercial Yes Industrial
LEGAL DESCRIPTION (please attach printout from Seminole County)
TAX I.D. NUMBER 63-O978527
OWNER Parisian, Inc. PHONE NUMBER 205/940-4000
ADDRESS 750 Lakeshore Parkway
CITY Birmingham STATE Alabama ZIP 35211
TITLE HOLDER (IF OTHER THAN OWNER) Seminole Towne Center Limited
ADDRESS i i q T.T-f- T.T-i,4--f--- qr,-oor
CITY Tndiananolis STATE Indiana ZIP 46204
BONDING COMPANY Federal Insurance
ADDRESS 15 Mountain View Road
CITY Warren STATE New Jersey ZIP 07060
ARCHITECT Crawford McWilliams Hatcher
ADDRESS quite 100, 2101 Magnolia Avenue
CITY Birmingham STATE Alabama ZIP 35205
MORTGAGE LENDER Teachers.Retirement systems of the State of Illinois
ADDRESS 2815 West Washington Street
CITY Springfield STATE Illinois ZIP 62794
CONTRACTOR Brasfield & Gorrie General Contractor, Inc. PHONE NUMBER 205/328-4000
ADDRESS 729 South 30th Street ST. LICENSE NUMBER CC, CA09656
CITY Birmingham STATE Alahama ZIP 35233
Application is hereby made to obtain a permit to do the work and installations as
indicated. I certify that no work or installation has commenced prior to the issuance
of a permit and that all work will be performed to meet standards of all laws regulating
construction in this jurisdiction. I understand that a separate permit must be secured
for ELECTRICAL, PLUMBING, MECHANICAL, SIGNS, POOLS, ETC.
OWNER'S AFFIDAVIT: I certify that all the foregoing information is accurate and that
all work will be done in compliance with all applicable laws regulating construction
and zoning. A COPY OF THE RECORDED COPY OF THE NOTICE OF COMMENCEMENT WILL BE POSTED
ON THE JOB SITE WITH PERMITS NO LATER THAN SEVEN (7) DAYS AFTER THE PERMIT HAS BEEN
ISSUED. FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOU PAYING TWICE FOR
THE IMPROVEMENTS TO YOUR PROPERTY. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH
YOUR LENDER OR AN ATTORNEY BEFORE RECORDING YOUR NOTICE OF COMMENCEMENT.
NOTICE: In addition to the requirements of this permit, there may be additional
restrictions applicable to this property that may be found in the public records of
this county, and there may be additional permits required from other governmental
entities such as water management districts, state agencies, or federal agencies.
ACCEPTANCE OF PERMIT IS VERIFICATION THAT I WILL NOTIFY THE OWNER OF THE PROPERTY OF
THE REQUIREMENTS OF FLORIDA LIEN LAW, FS713.
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Signature of Owner/,ARRRk & Date
PARISIAN TNC
Type or Print Owner/Agent Name
ignat re of Notary & Date
Official Seal)
Sign tune ofontracto.r & Date ° w
H U1
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Typ Print Contractor's Name d x
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Signatu e of Notar Date
Official Seal)'
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Application Approved BY: Date: n
FEES: Building.3Nd0 Radon ;Lv Police Fire a
Open Space Road, Impact Applicationrblci.
PERMIT VALIDATION: CHECK CASH DATE BY t7
ORIGINAL (BUILDING) YELLOW (CUSTOMER) PINK (COUNTY TAX OFFICE) GOLD (CO. ADMIN)
I - . -. -
THIS APPLICATION USED FOR WORK VALUED $2500.00 OR MORE
ADDENDUM
OWNER: PARISIAN
ADDRESS: 350 Towne Center Boulevard
DATE: August 30, 1995
REASON FOR DISAPPROV
CONDITIONAL AGREEMENT: Items to be completed prior to the SOFT OPENING:
1. Bulk clean up of the parking lot of debris and trash. 2. All stop signs need to be
accompanied with a stop bar as approved on site plans.
Y 5D Coo Y S SS
Joe fyoop7, Simon/MSA
GINEERING/PL/ANNKG
S QJ
CITY MAN
Date Started -
CITY OF O•D FLORIDA
Request for Final Inspection for
Certificate of Occupaitcy
ADDRESS:
The Building Department has prepared a certificate of occupancy for the above locationandisrequestingafinalinspectionbyyourdepartment.
After your inspection, please come to the Building Department to sign -off on theCertificateofOccupancy, or submit a certificate of occupancy addendum if it has beendenied.
Your prompt attention will be appreciated. Thank you.
Distribution: Engineering
Fire
Public W rks
UtilitieS 7/'i
Zoning
Date Started: ( //
Vf CITY OF O•D FLORIDA
nspection for
Certificate 1Occupancy
ADDRESS:_ Z Sb / Oo-l"Le ci
The Building Department has prepared a certificate of occupancy for the above locationandisrequestingafinalinspectionbyyourdepartment.
After your inspection, please come to the Building Department to sign -off on theCertificateofOccupancy, or submit a certificate of occupancy addendum if it has beendenied.
Your prompt attention will be appreciated. Thank you.
Distributon: Engineering
Fire
Pubic W rksUtilities77)/,j
Zoning
t® Started:
ADDRESS:
The Buildin4
and is requ(
After your inspection, please come to the Building Department to sign -off on theCertificateofOccupancy, or submit a certificate of occupancy addendum if it has beendenied.
Your prompt attention -will be -appreciated.• Thank you:
Distributon: Engineering
Fire
Public W rks °
UtllitIes/zv/,-j
Zoning °
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The Building Department has prepared a certificate of occupancy for the above locationandisrequestingafinalinspectionbyyourdepartment.
After your inspection, please come to the Building Department to sign -off on the
Certificate of Occupancy, or submit a certificate of occupancy addendum if it has beendenied.
Your prompt attention will be appreciated. Thank you.
DistribuLon: Engineering
Fire
Public W rks
Utilities 2
Zoning
Date Started.
3
CITY OF SANFORD, FLORIDA
Request for 'Final Inspection for±
Certificate of Occupancy °
ADDRESS: cz
The Building Department has prepared a certificate of occupancy for the above locationandisrequestingafinalinspectionbyyourdepartment.,
After your inspection, please come to the Building Departme
denied.
nt to sign -off on'the ° Certificate of Occupancy, or submit a certificate of occupancy addendum if it has been
Your prompt attention will be appreciated. Thank you.
Distributon: Engineering
Fire"`
Public W rks °
UtilitiesT2')/'j
Zoning E
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September 11, 1995
Mr. Vince Fioretti
city of Sanford
Fire Department
1303 South French Avenue
Sanford, Florida 32771
Re: Parisian Seminole Town Centex'
Final Certificate of occupancy
Dear Vince:
This letter shall serve as official request for the issuance ofthefinalcertificateofoccupancyforthepurposeofopeningfor
business on September 16, 1995, for the above referenced project.
Sincerely,
Parisian, Inc.
Gary Jes
Pro t Manager
I& 407ST60700 SANFORD FIRE/RES P02
P-A-R-1 S
August 7,1995
Mt. V. I9aaetd
C4 of Saw
FlM Dept
13G3 S: Freach St.
3=ftd, FL 32771
Re: Petieiaa - Seminole Towne Ceatar
Dear W. Fiorctti,
VIA FAX: (407) W-W5
3a4100 At
the won of the M safety grams mowdm on Aught 2, 1995, you i 6mad that PmWw
u9WW to toquat the'saw= of a tetaporaty Celicm of OwuPamy S
is our undmwn&mg that the T.C.O. allm us to move eMPlayee.Into the bdft ft ma
cbm and =WW Wo obo dWmsW m$ bw do buUftz fbt.bMvkw#, pnniwwekmu
atop bmliir vd& eaomxhe woftw enty 1 I m mi to the PWK=d off,
M Wo plaa to move in pa August 11,1995_ Plwe
lm the mdamft at your oullot mnv=W ca siaoei+
eay, _ ... PAPJSTW
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12,14 6. / , b 4
cvry OF SMNFORD
BUJIMTN"; DEPARTMEN'T
SEMINIOLE '11OWNE CENTER OFFICE
seminole, Towne Center -
Sanford, Fl
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On -
T arinspection per ful'ned of the the,
i items were found. P
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CITY OF SANFORD. FLORIDA
PERMIT NO. DAT
THE UNDERSIGNED HEREBY APPLIES FOR A PERMIT TO INSTALL THE FOL-
LOWING ELECTRICAL WORK;
OWNER'S NAME/
v-O C ,
ADDRESS OF JOB J C zi L T'-'-«
i
ELEC. CONTR. ® a) Residential Non-residential—
I
Subiect to rules and regulations of the city and national electric codes.
Number AMOUNT
Alteration Addition Re air Dc,
Change f Service Residential i
Commercial
I
Mobile Home
I
Factory Built Housingf
I
New Residential 0-100 Amp Service
101-200 Amp Service
201 Amp and above 9
New Commercial Amp Service
i
Application, Fee t
t
TOTAL
By signing this application I am stating I will be in compliance with the NEC including Article 110, Section 110 9 and 110-10. t
1
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tng Official p v Mao Cle an
STATE COMPETENCY NOe&22227
CITY OF SANFORD, FLORIDA
APPLICATION FOR BUILDING PERMIT
PERMIT ADDRESSd
Total Contract
X---&
e of Job
Describe Work
Type of Construction
Number of Stories
Occupancy: Residential
LEGAL DESCRIPTION
TAX I.D. NUMBER
OWNER '
ADDRESS
CITY
TITLE HOLDER (IF OTHER THAN OWNER)
ADDRESS
PERMIT NUMBERj(
Total Sq. Ft. lor!/L
i
E„J Flood Prone (YES) (NO)
Number of Dwellings Zoning
Commercial Industrial
lease attach printout from Seminole County)
PHONE NUMBER r/—S
STATE Z I P
CITY STATE
BONDING COMPANY
ADDRESS
CITY
ARCHITECT
ADDRESS
CITY
MORTGAGE LENDER
ADDRESS
CITY
STATE
STATE
STATE
ZIP
ZIP
ZIP
ZIP
CONTRACTOR 24de/J/J i
PHONE NUMBER
ADDRESS f% /, iJ i ST. LICENSE NUMBER
CITY STATE r ZIP
Application is hereby made to obtain a permit to do the work and installations as
indicated. I certify that no work or installation has commenced prior to the issuance
of a permit and that all work will be performed to meet standards of all laws regulating
construction in this jurisdiction. I understand that a separate permit must be secured
for ELECTRICAL, PLUMBING, MECHANICAL, SIGNS, POOLS, ETC.
OWNER'S AFFIDAVIT: I certify that all the foregoing information is accurate and that
all work will be done in compliance with all applicable laws regulating construction
and zoning. A COPY OF THE RECORDED COPY OF THE NOTICE OF COMMENCEMENT WILL BE POSTED
ON THE JOB SITE WITH PERMITS NO LATER THAN SEVEN (7) DAYS AFTER THE PERMIT HAS BEEN
ISSUED. FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOU PAYING TWICE FOR
THE IMPROVEMENTS TO YOUR PROPERTY. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH
YOUR LENDER OR AN ATTORNEY BEFORE RECORDING YOUR NOTICE OF COMMENCEMENT.
NOTICE: In addition to the requirements of this permit, there may be additional
restrictions applicable to this property that may be found in the public records of
this county, and there may be additional permits required from other governmental
entities such as water management districts, state agencies, or federal agencies.
ACCEPTANCE OF PERMIT IS VERIFICATION THAT I WILL NOTIFY THE OWNER OF THE PROPERTY OF
THE REQUIREMENTS OF FkPRIDA LIEN LAW, FS713.
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Type or Print Owner/Agent Name
ZALTAT
Sign,dtureof Notary & Date
NOTARY PUBLIC STATE OF FLORIDA)
CO'MMIFSION N'O. CC210064
AY CCi:, iBvIJ SION F XP. TUNE 21,19%
Type
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JN(.)ITARY PUBL`ICSTATE OF FLAP
CO`vlbt", IOiv ilfl..CC21W64.
1tLY COiaL' L,ir HnP. tt'NE.23,.
Application Approved BY: Date: Z
FEES: Building o Radon .,Police ire
Open Space Roa Impact +Apli ation
PERMIT VALIDATION: CHECK CASH DATE
BYORIGINAL (BUILDING) YELLOW (CUSTOMER) PINK (COUNTY TACE) GOLD ( ADMIN)
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THIS APPLICATION USED FOR WORK VALUED $2500.00 OR MORE
CITY OF SANFORD
FIRE -DEPARTMENT
FEES FOR SERVICES
PHONE #: 407-322-4952
DATE: l'ZS''PERMIT #:C
BUSINESS NAME:
ADDRESS: M c.J 16 kj c !'
PHONE NUMBER:( )
PLANS REVIEW
BURN PERMIT
TANK PERMIT
COMMENTS:
IR TENT PERMIT
REINSPECTION
FIRE SYSTEM
AMOUNT $
Fees must be paid to Sanford Building Department,,300 N.
Park Avenue, Sanford, Florida. Phone # 330-5656.
Proof of payment must be made to Sanford Fire Prevention
before any further services can take place.
I certify that the above
information is true and
correct and that I will
comply with all applicable
codes and ordinances of the
City of nford, Flori
Sanfor Fire Prevention plicants Signature
acct 29 9-30-LW_i00-0000-- CURHENT 94
4"" Z-"=
date 05/06/94 PI`r/ '
name MINOLE TOW Pc EM E| , ` Jv land 8, 296 10[ add1 ~ MELVZN SIMnN & ASSOC INC aQro ' C
dd2 P O BOX 7033 a tiY ty ext feat (
CSZ INDIANAPOLZS IN 46207 bldg . [
Pad income U total Yal 8,3967^0(
td dor 11g exrcpt exemptions ex -amount yc acre/if tax -due e&i-
82 10 00 000000 - - - O0000000 00 00 ~
sd^ prial- -val ( noce
le
al TRACT 1 (LESS BEG 267.91 FT N & 1S.42 1"T N 623 DFG W OF S 1/4 r-,OR ' RUN
N 63 DEG W 172"62 FT WLY [)N CURVE 39.27 FT S 87 DEO W !-,9.90 FT
N 63 DEB W 70 FT N 27 UEG E 6V T N 63 DFG W 11 Fl N 27 UFG E 248.
04*FT S 63 DEG E 3L+2 FT S 27 DEG W 8.58 FT 8 18 DEG-E 28.28 FT
8 27 UEB W 224.52 FT SWLY ON CUNVE 28.56 F[ TO Hi'G & 8EG 85B.55 FT
N & 25.07 FT OF g 1/4 COR RUN N 27 DEG E 320 FT 8 63 DEG E S2 FT N
27 DEG E 20 FT 0 63 UEG E 180.96 T S 27 UEG W IS F? S 63 DEG E 75.
40 FT S 27 DEG 53 FT SWLY QN CURVE 3.15 FT S 87 DEG 08 MIN 08 SEU
W 18.83 FT SNLY ON CUF VE 78.72 T S 27 DECi W 169.99 FT SWLY ON CURVE
39~27 FT N 63 OIEO W 227.87 FT TO BE IS SEMINOLE
1'OWNE CENTER REPLA'r PB 4/ PGS 8-10 INFO:
010A-0000 & 01013-0000 CUTOUT FOR '94 sa1es
data^ KS042094 land
08 04 l9/94 bldg
land-----------------------------------------------------------_--________
cd
unit/rate, area dec depth ovd amount Y adj rea5on I
AS 00000400 999999 000 - 03999996 00 2
AS 00000400 999999 000 03999996 00 3
AS 0Q()00400 099027 ()00 00396108 00 i
extra
features --------------------------- codm
description area rep-<1mount ovd yr-dep apprai(zed bldQ buildinQs--------------------------------------------_-___-________-___-__
bldg
imp bu(--'a basL, sub H.
W. ^8iIl^ SUBERv CFA emino1e
County Property Appraiser 1101
East First Street San}
ord: Florida 32771 '
I
Component Performance Method for Commercial Buildings
ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION
Florida Department of Community Affairs
FLA/COM-94 Version 2.1
PROJECT NAME_SEMINOLE TOWNE CENTER _
ADDRESS: _S D, FLORIDA
OWNER: PARISIAN
AGENT:
BUILDING TYPE: Mercantile (Retail)
CONSTRUCTION CONDITION: New construction
DESIGN COMPLETION: _Shell Building
CONDITIONED FLOOR AREA: _124595_ _
MAX. TONNAGE OF EQUIPMENT PER SYSTEM:i_
COMPLIANCE CALCULATION:
Form 40OB-94
PERMITTING OFFICE: 1.
41
CLIMATE ZONE: _
PERMIT NO:
JURISDICTION NO:_691500_____
50
NUMBER OF ZONES: 8
METHOD B DESIGN CRITERIA RESULT
ENVELOPE PERFORMANCE 53.14 88.34 PASSES
OTHER ENVELOPE REQUIREMENTS. PASSES
LIGHTING
INTERIOR LIGHTING 346364.00 348866.00 PASSES
EXTERIOR LIGHTING 0.00 320.00 PASSES
LIGHTING CONTROL REQUIREMENTS PASSES
HVAC EQUIPMENT
COOLING EQUIPMENT
1. EER 9.80 8.50 ASSES
IPLV 7.50 7.50 PASSES
2. EER 9.80 8.50 PASSES
IPLV 7.50 7.50 PASSES
3. EER 30 8.50 PASSES
IPLV 7.50 7.50 PASSES
4. EER 9.30 8.50 PASSES
IPLV 7.50 7.50 PASSES
5. EER 9.30 8.50 PASSES
iPLV 7.50 7.50 PASSES
6. EER 9.30 8.50 PASSES
IPLV 7.50 7.50 PASSES
7. EER 9.80 8.50 PASSES
IPLV 7.50 7.50 PASSES
8. EER 9.80 8.50 PASSES
IPLV 7.50 7.50 PASSES
HEATING EQUIPMENT
1. Et 20.00 N/A
2. Et 20.00 N/A
3. Et 20.00 N/A
4. Et 20.00 N/A
5. Et 20.00 N/A
6. Et 20.0.0 N/A
7. Et 20.00 N/A
8. Et 20.00 N/A
AIR DISTRIBUTION SYSTEM INSULATION LEVEL
1. With Insulated Roof 6.00 6.00 PASSES
2. With Insulated Roof 4.20 20 PASSE
3. With Insulated Roof 6.00 6.00 PASSES
4. With Insulated Roof 4.20 4.20 PASSES
5. With Insulated Roof 6.00 6.00 PASSES
6. With Insulated Roof 4.20 4.20 PASSES
7. With Insulates: Roof 6.00 6.00 PASSES
8. With Insulated Roof 4.20 4.20 PASSES
WATER HEATING EQUIPMENT
1. SL 0.00 0.01 PASSES
2. SL 0.00 0.02 PASSES
3. SL 0.00 0.01 PASSES
PIPING INSULATION REQUIREMENTS
1. Circulating 1.00 0.90 PASSES
2. Non -Circulating 1.00 0.89 PASSES
Circulating 1.00 0.90 PASSES
COMPLIANCE CERTIFICATION:
i hereby certify that the plans and
specifications covered by this calcu-
lation are in compliance with the
Florida Energy Efficier Cope.
PREPARED BY:
DATE: ------
I hereby certify than this building is
in compliance with the Florida Energy
Efficiency Code.
OWNER/AGENT: _
DATE:
I hereby certify(*) that the
Energy Efficiency Code.
SYSTEM DESIGNER
ARCHITECT :
MECHANICAL:
PLUMBING
ELECTRICAL: _
LIGHTING
Signature
by registered
be used where
Review of the plans and specifica-
tions covered by this calculation
indicates compliance with the
Florida Energy Efficiency Code.
Before construction is completed,
this building will be ins-ected
for comniia_nce in accordance with
Section +553.908, F' Lida Statu tr_s-.
BUILDING 0 FIC AL :
4e.5
i z-'_"`
DATE:-- 1 - 1
system design is in compliance with the Florida
REGISTRATION/STATE
is required where Florida law requires design to be performed
design professionals. Typed names and registration: numbers may
all relevant information is contained on signed/sealed plans.
BUILDING INFORMATION COMPLIANCE
CHECK
401.------GLAZING--ZONE 1------------------------------------------------ v-
Elevation Type U SC VLT Shading Area(Sgft)3
3
Total Glass Area in Zone 1 = 03
401.------GLAZING--ZONE 2------------------------------------------------ v-
Elevation Type U SC VLT Shading Area(Sgft)3
East Commercial 56 33 4 273
Southeast Commercial 56 33 4 273
South Commercial 56 33 4 273
Southwest Commercial 56 33 4 273
West Commercial 56 33 4 273
Northwest Commercial 56 33 4 273
North Commercial 56 33 4 273
Northeast Commercial 56 33 4 273
Total Glass Area in Zone 2 = 2173
401.------GLAZING--ZONE 3------------------------------------------------ v-
Elevation Type U SC VLT Shading Area(Sgft)3
Total Glass Area in Zone 3 = 03
401.------GLAZING--ZONE 4-------- =------- v-
Elevation Type U SC VLT Shading Area(Sgft)3
3
North . Commercial 56 33 4 Continuous Ove 7253
Northeast Commercial 56 33 4 Continuous Ove 7253
Total Glass Area in Zone 4 = 14503
401.------GLAZING--ZONE 5--------------------------------------------- v-
Elevation Type U SC VLT Shading Area(Sgft)3
Total Glass Area in Zone 5 =
J
03
401.------GLAZING--ZONE 6------------------------------------------------ v-
Elevation Type U SC VLT Shading Area(Saft)3
Total Glass Area in Zone 6 = 03
401.------GLAZING--ZONE 7------------------------------------------------ v-
Elevation Type U SC VLT Shading Area(Sgft)3
3
Northwest Commercial 56 33 4 Continuous Ove 753
Northeast Commercial 56 33 4 Continuous Ove 753
Southeast Commercial 56 33 4 Continuous Ove 3983
South Commercial 56 33 4 Continuous Ove 3983
Southwest Commercial 56 33 4 Continuous Ove 3983
Total Glass Area in Zone 7 = 13443
401.------GLAZING--ZONE 8------------------------------------------------ v-
Elevation Type U Sc VLT Shading Area(Sgft)3
Total Glass Area in Zone 8 = 03
Total Glass Area = 30113
402.------WALLS--ZONE 1------------------------------------------------ 3---
Elevation Type U Added R Gross(Sgft)3
Northeast 16"concretewall 78 0 4863
North 16"concretewall 78 0 623
East 16"concretewall 73 0 863
Total Wall Area in Zone 1 6343
402.------WALLS--ZONE 2------------------------------------------------ 3---
Elevation Type U Added R Gross(Sgft)3
3
East sto-wall system 05 0 1983
Southeast sto-wall system 05 0 1983
South sto-wall system 05 0 1983
Southwest sto-wall syste r, 05 0 1983
West sto-wall system 05 0 1983
Northwest sto-wall system 05 0 1983
North sto-wall system 05 0 1983
Northeast sto-wall system 05 0 1983
Northeast brick & stud 067 0 2037!
East brick &'stud 067 0 3313
Total Wail Area in Zone 2 39513
402.------WALLS--ZONE 3------------------------------------------------ 3---
Elevation Type U Added R Gross(Sgft)3
3
Northeast 16"c:oncret.ewall 78 0 3943
East 16"concretewall 78 0 2103
North 16"concret:ewall 78 0 623
Northeast brick & stud 067 0 2373
East brick & stud 067 0 8832
Southeast 16"concretewall 78 0 2403
Southeast brick & stud 067 0 1645.3
Total Wall Area in Zone 3 30763
402.------WALLS--ZONE 4------------------------------------------------ 3---
Elevation Type U Added R Gross(Sgft)3
3
North sto-wall system 05 0 7253
Northeast sto-wall system 05 0 7253
North brick &'stud 067 0 3313
Northeast brick & stud 067 0 15463
East brick & stud 067 0 6833
Southeast brick & stud 067 0 15363
Total Wall Area in Zone 4 55463
402.------WALLS--ZONE 5------------------------------------------------ 3---
Elevation Type U Added R Gross(Sgft)3
3
Southwest load dock wall 18 0 8383
Southwest brick & stud 067 0 16633
Total Wall Area in Zone 5 25563
402.------WALLS--ZONE 6------------------------------------------------- 3---
Elevation Type U Added R Gross(Sgft)3
Southwest brick & stud 067 0 21333
Total Wall. Area in Zone 6 21333
402.------WALLS--ZONE 7------------------------------- ------------------ ---
Elevation Type U Added R Gross(Sgft)3
3
Northwest sto-wall system .05 0 1363
Northeast sto-wall system .05 0 1363
Southeast sto-wall system .05 0 7183
South sto-wall system 05 0 7183
Southwest sto-wall system .05 0 712
Southeast brick & stud .067 0 10503
Southwest brick & stud .067 0 21353
Total Wall Area in Zone 7 = 56123
402.------WALLS--ZONE 8------------------------- ----------------------- 3---
Elevation Type U Added R Gross(Sgft)3
3
Southwest brick & stud .067 0 24533
Southeast brick & stud .067 0 12693
Total Wall Area in Zone 8 = 37223
Total Gross Wail Area = 272303
403.------DOORS--ZONE 1------------------------------------------------ 3---
Elevation Type U Area(Sgft)3
Total Door Area in Zone 1 = 03
403.------DOORS--ZONE 2------------------------------------------------ 3---
Elevation Type U Area(Sgft)3
3
Northeast 1-3/4 Steel Door -Solid Urethane foam cc 0.20 423
Total Door Area in Zone 2 = 423
403.------DOORS--ZONE 3-------------------------------------- =--------- 3--
Elevation Type U Area(Sgft)3
3
Southeast 1-3/4 Steel Door -Solid Urethane foam cc 0.20 213
Total Door Area in Zone 3 = 21.3
403.------DOORS--ZONE 4-------------------------------------------- ---- - 3---
Elevation Type U Area(Sgft)3
3
North 2 storefront door all glass .56 633
Northeast 2 storefront door all glass .56 633
Total Door Area in Zone 4 == 1263
403.------DOORS--ZONE 5------------------------------------- ----------- 3---
Elevation Type U Area(Sgft)3
3
Southwest 1-3/4 Steel Door -Solid Urethane foam cc 0.40 1283
Southwest 1-3/4 Steel Door -Solid Urethane foam cc 0.20 633
Southwest 1-3/4 Steel Door -Solid Urethane foam co 0.20 243
Total Door Area in Zone 5 = 2153
403.------DOORS--ZONE 6------------------------------------------------ 3---
Elevation Type U Area(Sgft)3
Total Door Area in Zone 6 = 03
403.------DOORS--ZONE 7 ------------------------------------------------
Elevation Type U Area(Sgft)3
3
Southeast 2 storefront door all glass .56 423
Southwest 2 storefront door all glass .56 423
Southeast 1-3/4 Steel Door -Solid Urethane foam cc 0.20 423
Total Door Area in Zone 7 = 1263
403.------DOORS--ZONE 8------------------------------------------------ 3--
Elevation Type U Area(Sgft)3
Total Door Area in Zone 8 = 03
Total Door Area = 5303
404------- ROOFS --ZONE 1
Type Color U Ached R Area(Sgft)3
Total Roof Area in Zone 1 03
404.------ROOFS--ZONE 2-------------------------------------------------3---
Type Color U Added R Area(Sgft)3
184 Licrht 042 0 150573
Total Woof Area in Zone 2 150573
404.------ROOFS--ZONE 3------------------------------------------------ 3---
Type Col. or U Added. R Area ( Sqf t ) 3
3
Total Root Area in Zone 3 0
404.------ROOFS--ZONE 4------------------------------------------------ 3---
Type Color U Added R Area(Sgft)3
184 Light 042 0 1i433
Total Roof Area in Zone 4 181433
404.------ROOFS--ZONE 5-------------------------------------------------- 3---
Type Color U Added R Area(Sgft)3
Total- Roof Area in Zone 5 03
404.------ROOFS--ZONE 6 ------------------------------------------------
Type Color U Added IR Area(Sgft)3
3
184 Licht 042 0 174503
Total Roof Area in Zone 6 174503
404.------ROOFS--ZONE 7------------------------------------------------ 3---
Type Color U Added R Area(Sgft)3
3
Total Roof Area in Zone 7 03
404.------ROOFS--ZONE 8------------------------------------------------ 3---
Type Color U Added R Area(Sgft)3
3
184 Light 042 15221.3
Total Roof Area in Zone ; 152213
loLal goof Area CJv!_
405.------FLOORS-ZONE 1------------------------------------------------ 3---
Type R Area(Sgft)3
Slab on Grade/Uninsulated 0 150893
Total Floor Area in Zone 1 150893
405.------FLOORS-ZONE 2------------------------------------------------ 3---
Type R Area(Sgft)3
3
Floor over Conditioned Space/Uninsulated 0 150573
Total Floor Area in Zone 2 iS0573
405.------FLOORS-ZONE 3------------ ------------------------------------ 3---
Type R Area(Sgft)3
Slab on Gracie/Uninsulated 0 165343
Total Floor Area in Zone 3 165343
405.------FLOORS-ZONE 4------------------------------------------------ 3---
Type R Area(Sgft)3
3
Floor over Conditioned Space/Uninsulated 0 174503
Total Floor Area in Zone 4 17450.3
405.------FLOORS-ZONE 5------------------------------------------------ 3---
Type R Area(Sgft)3
Slab on Grade/Uninsulated 0 179833
Total Floor Area in Zone 5 179833'
405.------FLOORS-ZONE 6-------------- ---------------------------------- 3---
Type R Area(Sgft)3
3
Floor over Conditioned Space/Uninsulated 0 181433
Total Floor Area in Zone 6 181433
405.------FLOORS-ZONE 7------------------------------------------------ 3---
Type R Area(Sgft)3
3
Slab on Grade/Uninsulated 0 163153
Total Floor Area in Zone 7 163153
405.------FLOORS-ZONE 8------------------------------------------------ 3---
Type R Area(Sgft)3
Floor over Conditioned Space/Uninsulated 0 152213
Total Floor Area in Zone 8 152213
Total Floor Area 1317923
406.------INFILTRATION 3---
3CHECK 3
Infiltration Criteria in 406.1.ABC.1 have been met. 3 3
407.------COOLING SYSTEMS ---------------------------=-------------------3---
Type No Efficiency IPLV Tons3
1. Air Cooled ( >= 65,000 Btu/h 1 9.8 7.5 40.003
2. Air Cooled ( >= 65,000 Btu/h 1 9.8 7.5 40.003
3. Air Cooled ( >= 65,000 Btu/h 1 9.3 7.5 50.003
4. Air Cooled ( >= 65,000 Btu/h 1 9.3 7.5 50.003
S. Air Cooled ( >= 65,000 Btu/h 1 9.3 7.5 50.003
6. Air Cooled ( >= 65,000 Btu/h 1 9.3 7.5 50.003
7. Air Cooled ( >= 65,000 Btu/h 1 9.3 7.5 40.003
8. Air Cooled ( >= 65,000 Btu/h 1 9.8 7.5 40.003
408.------HEATING SYSTEMS-----------------------------------------=- 3----
Type No Efficiency BTU/hr 3
1. Electric Resistance 1 20 1898652
2. Electric Resistance 1 20 1966.253
3. Electric Resistance 1 20 2203753
4. Electric Resistance 1 20 2305503
5. Electric Resistance 1 20 2339253
6. Electric Resistance 1 20 2441003
7. Electric Resistance 1 20 2034153
8. Electric Resistance 1 20 1966.2.53
409.------VENTILATION 3---
Jt 17ECK.3
Ventilation Criteria in 409.1.AjBC.1 have been met. 3 3
410.-----AIR DISTRIBUTION SYSTEM ----------------------------------------3---
AHU Type Duct Location R-value3
1. Packaged Variable Air Volume With Insulated Roof 6.03
2. Packaged Variable Air Volume With insulated Roof 4.23
3. Packaged Variable Air Volume With Insulated Roof 6.03
4. Packaged Variable Air Volume With Insulated Roof 4.23
5. Packaged Variable Air Volume With Insulated Roof 6.03
6. Packaged Variable Air Volume With insulated Roof 4.23
7. Packaged Variable Air Volume With Insulated Roof 6.03
8. Packaged Variable Air Volume With Insulated Roof 4.23
411.-----PUMPS AND PIPING -ZONE 1--------------------------------------- 3---
Type R-value/in Diameter Thickness3
3
1. Circulating 4.5 1 13
411.-----PUMPS AND PIPING ZONE 2 ----------------------------------------
Type R-value/in Diameter Thickness3
411.-----PUMPS AND PIPING ZONE 3--------------------------------------- 3---
Type R-value/in Diameter Thickness3
3
411.-----PUMPS AND PIPING ZONE 4----------------------------------------3---
Type R-value/in Diameter Thickness3
411.-----PUMPS AND PIPING ZONE 5--------------------------------------- 3---
Type R-va ue, in Diameter Thickness3
1. Non-Circulatingr 4.5 .75 13
411.-----PUMPS AND PIPING ZONE 6--------------------------------------- 3---
Type R-value/in Diameter Thick..ess3
3
411.-----PUMPS AND PIPING ZONE 7--------------------------------------- 3---
Type R-value/in Diameter Thickness3
3
411.-----PUMPS AND PIPIti::_--'ZONE 8--------------------------------------- 3---
Type R-value/in Diameter Thickness3
J
1. Circulatinq 4.5 1 13
412.-----WATER HEATING SYSTEMS -ZONE 1---------------------------------- 3---
Type Efficiency StandbyLoss InputRate Gallons,-"
l. 12 kW 20 0 9000 403
412.-----WATER HEATING SYSTEMS -ZONE 2 --------------------------------------
Type Efficiency StandbyLoss InputRate Gallons""'
412.-----WATER HEATING SYSTEMS -ZONE ?---------------------------------- 3---
Type Efficiency StandbyLoss InputRate Gallons3
3
412.-----WATER HEATING SYSTEMS -ZONE 4---------------------------------- 3---
Type Efficiency StandbyLoss InputRate Gallons3
3
412.-----WATER HEATING SYSTEMS -ZONE 5---------------------------------- 3---
Type Efficiency StandbyLoss InputRate Gallons3
1. 12 kW 20 0 6000 152
412.-----WATER HEATING SYSTEMS -ZONE 6---------------------------------- 3---
Type Efficiency StandbyLoss InputRate Gallons3
412.-----WATER HEATING SYSTEMS -ZONE 7----------------------------------
3
3---
Type Efficiency StandbyLoss InputRate Gailons3
3
412.-----WATER HEATING SYSTEMS -ZONE 8 ---------------------------------
Type Efficiency StandbyLoss InputRate Gallons3
3
1. 12 kW 20 0 9000 403
413.-----ELECTRICAL POWER DISTRIBUTION- ----------------- 3
3C HE lK, 3
Metering criteria in 413.1.ABC.1 Have been met. 3
Transformer criteria in 413.1.ABC.2 have been met. 3 3
414:----- MOTORS 3 3----
Motor efficiencies in 414.1.ABC.1_ have been met. J 3
415.-----LIGHT ING SYSTEMS-7iivE 1-----------------------------------------3---
Space Type No Control_ Type 1 No Co.ltrol Type 2 No Watts Area(Sgft)3
Type E(Fin 1 Programmable T 7 Programmable T 19 37817 143403
Total Watts for Zone 1 = 378173
Total Area for Zone 1 = 143403
415 . -----LIGHTING SYSTEMS -ZONE 2------------------------------------------= ;
Space Type No Control Type 1 No Control Type 2 No Watts Area(.Sgft)3
Type E(Fin 1 Programmable T 11 Programmable T 15 37930 141693
Total Watts for Zone 2 = 379303
Total Area for Zone 2 = 141693
415.-----LIGHTING SYSTEMS -.ONE 3--------------------------------------- 3---
Space Type No Control Type 1 No Control Type 2 No Watts Area(Sgft)3
3
Type E(Fin 1 Programmable T 10 Programmable T 22 45864 15713.3
Total Watts for Zone 3 = 458643
Total Area for Zone 3 = 157133
415.-----LIGHTING SYSTEMS -ZONE 4--------------------------------------- 3---
Space Type No Control Type 1 No Control Type 2 No Watts Area(Sgr-t)3
3 - - - - - - - - - - - - - - - - ----------
Type E(Fin 1 Programmable T 11 Programmable T 22 47695 164373
Total Watts for Zone 4 = 476953
Total Area -for Zone 4 = 164373
415.-----LIGHTING SYSTEMS -ZONE 5---------------- ------------------------ 3---
Space Type No Control Type 1 No Control Type 2 No .Watts Area(Sgft)3
Type E(Fin 1 Programmable T 13 Programmable T 16 42625 170903
Total Watts for Zone 5 = 426253
Total Area for Z-one 5 = 170903
415 .------LIGtIT ING " Y' TEM„ ZOIdE 6---------------------------------------- 3----
Space Type No Control Type 1 No Control Type 2 No Watts Area(Sgft.)3
Type E(Fin 1 Programmable T 15 Programmable T 20 51628 170053
Total Watts for Zone 6 = 516283
Total Area for Zone 6 = 170053
415.-----LIC.-riTiivG SYSTEMS -ZONE 7----- 3---
Space Type No Control Type 1 No Control Type 2 No Watts Area(Sgft)3
3
Type E(Fin 1 Prcgrammable T 11 Programmable T 21 45587 155033
Total Watts for Zone 7 = 455873
Total Area for Zone 7 = 155033
415. ----LIGHTING SYSTEMS -ZONE 8--------------------------------------- 3---
Space Type No Control Type 1 No Control Type 2 No Watts Area(Sgft)3
3
Type E(Fin 1 Programmable T 5 Programmable T 21 37218 14338.3
Total Watts for Zone 8 = 372183
Total Area for Zone 8 = 143383
Total Watts = 3463643
Total Area = 1245953
3CHECK 3
Lighting criteria in 415.1.ABC. have been met. 3 3
16. HVAC load sizing has been performed. (407.i.ABC.1) 3 3
3---
17. Duct sizing and design have been performed. (410.1.ABC.1.2) 3 3
18. Testing and balancing will be uerformed. (410.1.ABC.4) 3 3
J----- 3---
19. Operation/maintenance manual will be provided to owner.(102.1)3 3
Crawford McWilliams Hatcher Architects, Inc
CONSTRUCTION BULLETIN NO. 2
DATE: January 16, 1995
RE: Parisian Department Store
Seminole Town Center
Sanford, Florida
f SWj,t
ARCHITECT'SR`
PROJECT NO.: 488/F3
DISTRIBUTION: Includes one copy of Construction Bulletin plus any Supplemental and
Revised Drawings as listed herein:
WHO OF VIA SEPIAS PRINTS COPIES SIZE
Bill McReynolds Parisian, Inc. Courier --- 1 1 FULL
Ed Eitzen Brasfield & Gorrie Pick -Up 1 1 1 FULL
Kenneth Thomas Brasfield & Gorrie Site Fed -Ex 1 5 1 FULL
Jerry Hatch L/B/Y/D Pick -Up --- 1 1 FULL
Tom Posko Posko Associates, Inc. F04 --- 1 1 FULL
Robert Lazenby Kelly Lundstrom George Fed-X --- 1 1 FULL
Gary Winn City of Sanford Mail --- 2 1 FULL
CMH Office Copy/Rack Set 1 1 FULL
This Construction Bulletin modifies the Contract Documents, previously issued. All
prici.ng should be coordinated per modifications and additions in this Construction
Bulletin. Do not perform or make changes incorporated herein that affect Construction
Cost or Contract Time without proper prior authorization.
Suite 100 2101 Magnolia Avenue Birmingham, Alabama 35205 Telephone (205) 251-3216 FAX (205) 326-0820
CONSTRUCTION BULLETIN NO. 2
Parisian at Seminole Town Center
January 16, 1995
Page 2
DRAWINGS:
ARCHITECTURAL
CB2.1 Sheet A2.1 - Lower Level Floor Plan:
1 Revise partitions at clerical area
2 Add sink in Receiving Area and at
CB2.2
CB2.3
CB2.4
CB2.5
CB2.6
CB2.7
CB2.8
CB2.9
CB2.10
CB2.11
CB2.12
CB2.13
CB2.14
CB2.15
rooms #134-139.
Janitor Closet -(shown on Plumbing).
Sheet A3.1 - Upper Level Floor Plan:
1 Add shelves at Alteration Pick -Up Room 332.
2 Add shelves at File Room 315.
3 Rate walls at Paint Booth Room 310.
4 Add garci studs at Shoe Clearance Room 303.
5 Modify Closet and walls at Loss Prevention Rooms 368-370.
Sheet A6.1 - Door Schedule:
1 Add hardware groups and modify doors as noted.
Sheet A7.2 - Upper Level Reflected Ceiling Plan:
1 Revise lighting layout at Center Court Area.
Sheet A7.3 - Ceiling Details:
1 Revise Detail 14/A7.3.
ELECTRICAL
Sheet E-1 - Legend & Schedules:
1 Revised as noted.
Sheet E-2 - Lower Level Lighting Plan:
1 Revised as noted.
Sheet E-3 - Lower Level Power:
1 Revised as noted.
Sheet E-4 - Lower Level Systems:
1 Revised as noted.
Sheet E-5 - Upper Level Lighting Plan:
1 Revised as noted.
Sheet E-6 - Upper Level Power Plan:
1 Revised as noted.
Sheet E-7 - Upper Level Systems Plan:
1 Revised as noted.
Sheet E-8 - Partial Plans:
1. Revised as noted.
Sheet E-9 - Riser Diagram, Schedules:
1. Revised as noted.
Sheet E-12 - Panelboard Schedules:
1. Revised as noted.
CONSTRUCTION BULLETIN NO. 2
Parisian at Seminole Town Center
January 16, 1995
Page 3
CB2.16 Sheet E-13 - Panelboard Schedules:
1. Revised as noted.
SPECIFICATIONS:
CB2.17 Section 15020 — Plumbing and Sewerage Work: Corrected to show revised
fixtures. Section attached hereto and made a part of this Bulletin #2.
END OF CONSTRUCTION BULLETIN NO. 2
PB:st
PARISIAN - SEMINOLE TOWNE CENTER 15020-1
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
Division 15 Section 15020
Mechanical Plumbing and
Sewerage Work
1.01 - Scope
A. Requirements of Conditions of Contract and sections 'listed under General
Requirements apply to work under this section.
Visit building and become thoroughly familiar with all conditions affecting this
Section of Work. Ignorance of field conditions affecting work will not be
considered reason for additional cost above contracted price. Check locations
and elevations of existing drains and water supply before proceeding with work.
Comply with all local, state and federal Codes and regulations. Pay all fees,
secure permits, licenses and material approval as required.
B. Work Included:
1. Scope
2. General Provisions
3. Permits, Codes and Regulations
4. Kind and Quality of Materials
5. Pipe and Fittings
6. Unions and Flanges
7. Valves and Valving
8. Identification of Piping
9. Services
10. Excavating and Backfilling
11. Joints
12. Sanitary Drain, Soil, Waste and Vent Pipe
13. Pipe Insulation
14. Cleanouts
15. Access Panels
16. Openings, Cutting and Sleeves
17. Hangers, Supports, Anchors
18. Protection
19. Testing of Piping Systems
20. Domestic Water Heater
21. Clear Water Pumps
22. Circulating Pump
23. Water Softener
24. Fixtures
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER 15020-2
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
C. Work under other sections: Line voltage wiring and fire protection systems.
1.02 - General Provisions
A. In general, this section includes all plumbing to constitute complete installation
as specified, shown on drawings and required, including such items as storm and
sanitary sewers, drainage and waste systems, vent piping, water mains, domestic
supply, hot and cold water distribution, soil, waste and vent pipe, pipe insulation,
and connection to utilities.
1.03 - Permits, Codes and Regulations
A. Comply with all state Codes, laws, F.I.A., OSHA, FM regulations. Secure
permits and licenses applicable to this section of the work. Pay all fees and post
all bonds incident thereto. See Conditions of Contract.
1.04 - Kind and Ouality of Materials
A. Materials, appliances and fixtures to be new, of best quality and grade, in strict
accordance with specification requirements.
1.05 - Pipe and. Fittings
A. To conform to the appropriate Federal or American Society for Testing
Materials specifications listed.
B. Storm Sewer:
Outside and inside of building. Branches to roof conductors and above floor
cast iron soil pipe and fittings, mechanical joint, where permitted CS-188-59,
Class A, standard weight and tarred, or, where permitted by Code, PVC
Schedule 40 ASTM-D-3003 inside, ASTM-D-3033 outside. Note building is
return air ceiling plenum. If Code allows PVC in plenum it shall be completely
wrapped in 1/2-inch fiberglass aluminum jacket insulation. This insulation shall
be taped. Insulation shall have a flame and smoke rating as tested by ASTM
S-86, NFPA-225 and U.L.-1723 not exceeding 25 flame spread or 50 smoke
developed.
C. Sanitary Sewer:
Inside and outside of building.
1. Include soil stacks and branches, cast iron pipe and fittings, hub and spigot
with neoprene gaskets, no hub with stainless steel bands (above ground
CISPI-301), for all sizes 3-inch and larger CS-188-59, Class A, standard
weight and tarred (below ground). Where permitted by Code Schedule 40
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
15020-3
PVC. Pipe and fittings ASTM D2665 and installed per ASTM D2321.
Note building is return air ceiling plenum. If Code allows PVC in plenum
it shall be completely wrapped in 1/2-inch fiberglass aluminum jacket
insulation. This insulation shall be taped. Insulation shall have a flame and
smoke rating as tested by ASTM ;S-86, NFPA-225 and U.L.-1723 not
exceeding 25 flame spread or 50 smoke developed.
2. Sanitary underground piping from floor sink and slop sink in Alterations
Room shall be cast iron for 50 LF (minimum).
D. Waste and Vent Pipes:
1. Pipe fittings for waste pipe, cast iron drainage, Federal Specifications
WW-P-40 lb., Type II coated. Where permitted by Code Schedule 40 PVC
pipe and fittings ASTM D2665 and installed per ASTM D2321. If Code
allows PVC in plenum it shall be completely wrapped in 1/2-inch fiberglass
aluminum jacket insulation. This insulation shall be taped. Insulation shall
have a flame and smoke rating as tested by ASTM S-86, NFPA-225 and
U.L-1723 not exceeding 25 flame spread or 50 smoke developed.
2. Pipe fittings for vent pipe, cast iron screwed Federal Specification
WW-P-40 lb., Type I, Class A, black. Where Code permits PVC
Schedule 40 pipe and fittings. ASTM D2665 and installed per ASTM
D2321. Note building is return air ceiling plenum. If Code allows PVC
in plenum it shall be completely wrapped in 1/2-inch fiberglass
aluminum jacket insulation. This insulation shall be taped. Insulation
shall have a flame and smoke rating as tested by ASTM S-86, NFPA-
225 and U.L-1723 not exceeding 25 flame spread or 50 smoke
developed.
E. Water Pipe:
1. Domestic pipe system above floor, not in ground. Type "L" hard copper.
Copper pipe to have wrought copper sweat fittings. ASTM B42.
1.06 - Unions and Flanges
A. Unions: Water Supply
1. Screwed, galvanized malleable iron ground joint.
2. Sweat, Mueller Streamline Series No. 11,200 or equal by Epco or Crane.
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
1.07 - Valves and Valving
A. Valves:
15020-4
1. General: Watts, Nibco, Hammond or Crane of standard dimensions,
suitable for 150 pounds working pressure. Ball valve for 2-1/2-inch and
smaller piping.
2. Ball valves by Watts, Teflon seat and seals, repair of valve without
disturbing pipe alignment, full ported. Stainless ball, two-piece bronze body.
Nibco 590.
3. Check valves: 2-inch and less, Nibco No. 413.
4. Traps:
a. Provide "P" traps with threaded drain plug for traps above grade. Traps
below grade shall be same less drain plug.
b. Traps for sinks, lavatories, etc., shall be chrome -plated.
5. Vacuum Breakers and Backflow Preventers:
a. Vacuum breakers or backflow preventers approved by the State shall
be installed on all fixtures having threaded hose bib connections and at
other locations specified in the State Plumbing Code.
b. .All water supply piping to the plumbing fixtures and equipment, heating
and cooling equipment, and any other equipment shall be so arranged
as to prevent a cross connection between the water supply and the
drainage system. Provide sight or funnel drains, backflow preventers,
vacuum breakers. or any approved method to accomplish a safe,
uncontaminated water supply system in compliance with the State
Plumbing Code. Backflow preventers shall be equal to Watts, Neptune,
Lawler, Chicago, Nidel, or Clayton.
6. Water Hammer Arresters:
a. Provide water hammer arresters where noted on the drawings, at all
quick -closing valves, and at other locations in the piping system as may
be required to accomplish noiseless operation of the system under all
operating conditions. All water hammer arresters must be exposed or
accessible by means of access panels.
b. Provide Josam, J.R. Smith, or Wade water hammer arresters.
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER 15020-5
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
7. Escutcheons:
a. Provide on all pipes passing through finished floors, walls and ceilings
with outside diameter sufficient to cover sleeve. opening and inside
diameter to fit snugly around pipe.
B. Valving:
1. Fixtures: Each individual fixture or piece of equipment shall have an
independent shut-off valve adjacent to fixture. Where supplies are
concealed, an access panel shall be provided.
2. Branch lines and mains: All branch lines from mains and division of mains
shall be provided with isolation valves allowing service to the branch without
draining of entire system.
1.08 - Identification of Piping
A. Pipe Identification: All pipe installation shall be identified by painting and name
stenciling in accordance with -the following specification.
1. This Contractor shall identify all piping in this contract with Brady labels.
Show pipe size, content and flow arrows. Lettering to be 1-inch high, as
1-inch cold water), and located so as to be visible from floor or through
access panel.
1.09 - Services
A. Definitely establish elevations and locations of services in the field.
B. Check given locations, elevations and pitches with relation to service stubs, to
services at building entry.
C. Report immediately to construction manager, in writing, any major deviation in
location in conflict with Code pitches caused by variation in service stubs, and
await decision on appropriate adjustment of line locations and elevations before
proceeding.
1.10 - Excavating and Backfilling
A. Excavating: As required to lay all drains and water supplies inside building,
including drains, by this contractor.
1. Remove all surplus earth and rubble of trench excavation from the site and
building.
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER 15020-6
UNDERGROUNDPACKAGE
REVISED JANUARY 4, 1995
2. Barricade in strict accordance with governing ordinance.
3. Saw cutting and removal of existing concrete floors.
4. Concrete patching existing floors where plumbing is installed.
B. Backfilling: Refer to Section 02200.
1.11 - Joints
A. Cast iron soil pipe: Oakum and lead caulking, or no -hub joint.
B. Screwed: Threads pipe clean cut and square with pipe, made tight with
compound. Paint all exposed threads, thoroughly ream and clean all pipe after
cutting.
C. Solder sweat joints: Clean interior of fittings and exterior of pipe; apply Nibco
flux; head and apply 95/5 lead free solder to fill void; remove excess and cool.
1.12 - Sanitary Drain, Soil. Waste and Vent Pipe
A. Installation:
1. Drains: Extend drain pipe to all points according to pitch and elevation
shown. Traps, heads and all other fittings as required. Make changes in
direction of pipe with Y's and 1/8 or 1/16 bends. Lay all inside drains below
floors except where otherwise shown or specified to required depth for floor
drains and other connections for proper pitch at outlets. Main drain
cleanout, as shown. Support pipe laid on filled or loose soil as required by
Plumbing Code.
2. Soil and waste: Install all soil, waste and vent stacks as shown on drawings.
Support substantially in place with approved pipe clamps and supports along
with necessary supports for horizontal branches.
3. Vent pipe shall be of diameter shown or required by Plumbing and
Drainage Code. Run from the back of each trap; continue up to not less
than two feet above any fixture connection. Should enlarge soil vent pipe
as required before going through roof.
4. Connections to the sewer at the base of all stacks or vertical lines shall be
made with long sweep 1/4 bends, two 1/8 bends, or a "Y" and 1/8 bend
combination. All changes in direction of soil or waste pipe shall be made
by means of suitable bends, and where possible "Y" and 1/8 bend
combinations shall be used instead of quarter bends. All horizontal soil and
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER 15020-7
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
waste piping must have a slope of 1/4-inch per foot wherever possible, but
not less than 1/8-inch per foot.
5. Cleanouts shall be extended to the -top of floor or to -the face of walls and
shall be caped with access covers as hereinafter specified or scheduled on
the drawings.
6. Installation of plastic piping through fire rated walls and ceilings must
comply with the Standards of the State Code. Plastic piping may not be
installed in fire rated walls or ceiling plenums.
7. Extend from existing water main where shown on drawings and connect
water piping to all plumbing fixtures and all other equipment as shown on
the drawings. Underground piping shall be supported on bedding sand.
Above ground piping shall be suspended and rigidly supported with hangers
as herein specified.
8. Conceal all water piping wherever possible; bring stub extensions as close
to fixtures as possible. Install all water piping so that it can be drained and
provide a brass drain plug at low points.
9. Locating any water piping over electrical equipment rooms is not permitted.
1.13 - Pipe Insulation
A. Insulate all inside storm, all hot and all cold water pipe and fittings with 1-inch
thick preformed foamglass insulation or Fiberglass 25 1-inch thick insulation with
ASJ jacket.
1.14 - Cleanouts
A. Wherever there is a change of sewer or waste pipe run, and in straight runs of
sewer or waste, where shown on plan. Clean out cover plates in public spaces
to be chrome plated in walls, brass in vinyl floors, and stainless in carpet.
B. There shall be no cleanout in sales areas of the building.
1.15 - Access Panels
A. Furnish access panels for all cleanouts, valves or other equipment requiring
adjustment or servicing concealed within walls, furred spaces or ceilings. Panels
shall be of sizes to provide adequate access.
488 CB #2
4.
PARISIAN - SEMINOLE TOWNE CENTER 15020-8
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
1.16 - Openings, Cutting and Sleeves
A. Provide as necessary to permit installation of piping or any other part of work
under this section.
B. Cooperate with other trades and adjust with them, all questions of interference,
right of way for piping, etc.
C. Make all arrangements with various contractors for any special framing, spacing
or chases. Accurately locate all openings and provide and set all sleeves in
cooperation with contractors whose work is affected thereby.
D. Sleeves to be 1-inch larger than outside pipe diameter and of sufficient length
to extend 3 inches above and pass through entire floor masonry base or through
wall construction, including plaster. Sleeves in concrete or masonry walls shall
be of Schedule 40 galvanized. Caulk opening between pipe and sleeve with
Dow -Corning No. 781 sealant.
E. In event holes must be cut through reinforced concrete, they must be carefully
drilled so as to avoid spalling and unnecessary damage or weakening of any
structural member; chopping or breaking out will not be permitted.
F. Obtain Construction Manager's approval before cutting or drilling through
concrete or masonry in place, and then proceed as directed. Make good, as
directed by Engineer, damage to finished work resulting from cutting or drilling
required because of neglect of Contractor to provide accurate and sufficient
information.
1.17 - Hangers, Supports, Anchors.
A. Support all piping throughout, neatly and suitably, in an approved manner, to
allow for ample expansion and contraction.
B. Support vertical pipe lines with wrought iron or steel pipe clamps at beams or
floors.
C. Support horizontal piping at intervals of five feet for cast iron soil or waste and
eight feet for copper and screwed pipe. Provide and set all concrete inserts in
cooperation with Concrete Contractor before concrete is poured, or provide A-J
or other approved rod anchors to suit weight of pipe with covering and fittings.
D. All anchors, hangers and supports to be designed to meet local structural
requirements and Engineer's approval. Perforated iron shall not be used on any
part of the plumbing system.
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER 15020-9
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995 7.
1.18 - Protections
A. Open ends of all pipe, drains, water and fixture outlets including those extending
above roof, must be effectively closed and kept closed during construction.
1.19 - Testing of Piping Systems
A. All piping, equipment, etc., shall be tested in accordance with the following, and
requirements of Codes having jurisdiction. The Contractor shall notify the
Construction Manager of the scheduled dates on which said tests will be made.
B. All tests shall be conducted for continuous duration of eight hours and shall be
witnessed by the governmental authorities having jurisdiction, if so required.
C. All tests must be made before concealment of the work or any insulations are
applied. Any leaks that may develop or imperfections that are detected shall be
properly repaired or replaced, as determined by the Architect, and the tests shall
be repeated until all work is proven sound and in perfect order.
D. All temporary piping, pumps, gauges, etc., necessary to conduct the tests shall
be provided by the contractor and the costs shall be included in his original
proposal for the work.
E. All new underground sewers shall be capped at outlets before being backfilled
and tested with a water pressure of 10 feet of head.
F. All new suspended waste and vent piping and all soil and waste risers shall be
tested by filling with cold water at a minimum of 10 feet of head or one story
height, before connecting to fixtures.
G. All new storm sewers and downspouts shall be tested as specified for waste and
vent piping.
H, All domestic water piping and equipment throughout the project shall be water
tested at 125 psig.
I. All solder joints shall be struck with a soft face hammer while under testing
pressure.
J. The extremities of all piping being tested with water shall be vented to purge air
from piping.
1.20 - Domestic Water Heater - Electric
A. Equal to Day and Night, A.O. Smith, Rheem, Ruud, with one year commercial
warranty. Tank shall be glass lined, shall be insulated to meet ASHRAE 90-80
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
15020-10
Energy Code requirements, and be provided with factory installed magnesium
anodes, high limit control and all other necessary operating and safety controls
and U.L approval. Provide ASME rated T & P relief valve with discharge
piped to floor drain.
1.21 - Clear Water Pumps
A. Provide Simplex sump pump as shown on drawings and details.
B. Pump shall be vertical mounted, extended shaft, wet pit constructed.
C. Provide 2-pole jacketed polyurethane mercury weighted float switches complete
with 20-foot control cables, mounted to rigid guide rod to provide for low water
off position. Provide 24-inch square sump frame and steel cover.
1.22 - Circulating Pump
A. The pumps shall be single -stage vertical split -case design in bronze -fitted
construction. The pump internals shall be capable of being serviced without
disturbing the external piping connections. The impeller shall be enclosed type
hydraulically and dynamically balanced and keyed to the shaft. The pump seal
shall be standard single mechanical seal with carbon steel ring and ceramic seat.
Replaceable shaft sleeves shall be furnished to cover the wetted area of the
shaft under the seal. The bearing frame assembly of the pump shall be fitted
with regreaseable ball bearings to provide quiet operation. A flexible coupler
shall be employed between the pump and the motor and equipped with a
coupling guard.
B. The pump shall. be factory tested, thoroughly cleaned and painted with
machinery enamel prior to shipment.
C. Pump shall be Bell and Gossett, or Taco, Inc.
1.23 - Water Softener (Owner Purchased)
A. Contractor shall sample and test building water. Test results shall be submitted
to Parisian.
B. The Contractor shall furnish and install Cleaver Brooks Model ACC -TAB 30-1.
System shall be designed for maximum efficiency in salt consumption with the
capability of removing 5,000 grains with one pound of salt, recharge water
consumption.
C. The pressure tank should incorporate insulation.
488 CB #2
PARISIAN - SEMINOLE TOWNE CENTER 15020-11
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995 -
D. The softener pressure tank shall be fabricated from fiberglass - vinylester
non -corrosive material designed to operate under a nominal pressure of 120 psi.
Tank shall have a minimum burst pressure of 750 psi. It shall also be rated to
meet criteria of 12 to 20 cycles per minute of 0 to 187 psi hydrostatically, for a
minimum of 250,000 cycles. The design shall be approved by U.L, NSF, FDA,
UPC agencies. Tank shall carry a minimum limited warranty of 10 years.
E. The salt storage tank shall be fabricated from high density polyethylene material
with an ultra violet inhibitor. The valving within the tank shall be constructed
of non -corrosive material.
F. Main Control Valve: The main control valve shall be located on the top of the
pressure tank. Its design shall be of a rotary disc non -corrosive type with quick
disconnect camps for ease of service. Valve shall incorporate a five cycle
operation and shall recharge the system in the specific sequence of (1) up flow
brining (2) slow rinse (3) backwash (4) down rinse (5) service. Maximum water
consumption used for recharge shall not exceed 120 gallons per square foot area
of pressure tank.
G. The system shall be initiated for a recharge by a time clock automatic control.
The 24 hour timer shall automatically initiate the recharge during the early a.m.
hours. The frequency of such a recharge shall be made flexible in order to
select an every day, every other day, every third day, or every six day program.
The timer shall provide a control to initiate an immediate recharge if so desired
and shall provide a control to place the timer on a semi -automatic program.
H. The resin shall be synthetic cation type exchange bead equivalent to Duolite
C-20.as manufactured by Diamond Shamrock. The resin shall be uniform in size
and conform to U.S. FDA Standard Regulation 121.1148.
488 CB #2
4.
PARISIAN - SEMINOLE TOWNE CENTER 15020-12
UNDERGROUNDPACKAGE
REVISED JANUARY 4, 1995
1.24 - Fixtures
PLUMBING FIXTURE SCHEDULE
i11Ad- ' . MFGR.
ROOM KEY
NO. ACCESSORIES DESCRIPTION OR USE S-
1 Just SL Chicago Faucet 18x15, 20 gauge Type 304 Stock 1815-
B-GR 785-E3 stainless steel sink rooms Elkay
Kohler w/3 holes (4" centers) PSR-
1517 Amer. Std. strainer. Wrist handle gooseneck Just
strainer faucet with aerator. J-
35 S-
3 Just SL Just J900 19x21, 20 gauge Type 304 Assoc. 1921-
B-GR Delta 400 stainless steel sink w/4 holes Lounge Elkay
Just strainer 4" J-35 centers) and strainer PSR
2219 Just J35. Single lever faucet
w/spray & hose. S-
4 Just Delta 711 14xl4x7-1/2, 18 ga. 302 Diaper SL-
2017-A-GR WFHDF stainless steel, 2-hole Changing Elkay
single lever gooseneck. Area LR-
1720 S-
5 Mustee Chicago 20x24 fiberglass/stone Alterations, Utilatub
Faucet Single tub on legs, swing Visual No.
18F 891 spout faucet w/aerator, Room 4"
centers. L-
1 Delta 523 HGM Bowl integral to Toilet Faucet
countertop. Provide open grid Room drain.
Remove pop-up drain. L-
2 Delta 523 HGM Bowl integral to Handicapped Faucet
countertop. Provide open grid Toilet drain.
Provide offset tailpiece Room for
handicap access. Remove
pop-up drain. Lr3
Kohler, Chicago faucet, 20x18 wall hung lavatory Toilet K-
2032 802A-665 w/3 holes (2" centers) room Amer.
Std. Kohler drain, and open grid drain. 0355.
012 K-7715 Metering faucet with temperature
selection. 488
CB #2
PARISIAN - SEMINOLE TOWNE CENTER
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
L-4 Kohler,
K-2032
Amer. Std.
0355.012
WC-1 Kohler,
K-4330-ET
Amer. Std.
WC-2 Same as
WC-1
Toilet Kohler,
Seat K-4666C
Church,
395- s/s
Beneke,
Bemis
Chicago faucet,
802A-665
Kohler offset
drain, 13885
Amer. Std. off-
set drain,
7723.018
Sloan flush
valve Royal
116-1.5
Sloan Flush
Valve
Royal 111
15020-13
2008 wall hung lavatory Handicapped
w/3 holes (2" centers) Toilet
and open grid drain. Metering Room
faucet with temperature selection.
Drain with offset tailpiece
1-1/4"1 1-1/4" x 1-1/2" trap
3/8" supplies w/loose key stops.
Water closet, siphon jet Toilet
elongated bowl, 1.5-gallon Room
flush, wall -mounted (see seats).
Provide manufacturer -supplied carriers.
Mount at handicap height Handicapped
uses same seat) Toilet
Water closet seat;
open front, white
solid plastic elongated,
no cover. Check hinge.
MB-1 Fiat, Fiat 830-AA 32x32x12 mop basin.
TSB-1611 Chicago faucet Faucet with vacuum
Stern 897 and breaker. Mount vacuum
Williams vacuum breaker breaker 7'6" A.F.F. Hose &
bracket Fiat 832-AA.
All
toilets
Janitor's
Closet
FD-1 J.R.Smith, Floor drain polished Mechanical
2005-A bronze grate at Room
Josam, finished floor with Toilet
Zurn wide flange deck and Rooms
trap primer connection.
FD-2 J.R.Smith 12" diameter grate. Mens'
2330-Y No hub medium duty drain. Alteration
Josam Polished bronze grate. Room
RD J.R.Smith, Roof drain with under- Roof
1010 deck clamp, sump &
Josam, extension.
Zurn
CB #2
r-• - -• • -
PARISIAN - SEMINOLE TOWNE CENTER
UNDERGROUND PACKAGE
REVISED JANUARY 4, 1995
HB-1 Woodford
B65P
EDF Elkay,
EBFSA-8
Westinghouse,
Hays
U-1 ` Kohler Sloan 186
K-4960-T Hand flush
Amer. Std. valve
6501.010
U-2 Kohler Sloan 180-1.5
K-5016-T Hand flush
Amer. Std.
HB-2 Woodford
Model 14
15020-14
Hose bibb; loose key, Exterior
vacuum breaker, freeze walls
proof.
Handicapped electric Where
drinking fountain; shown on
stainless steel. drawings
Bardon water guard Men's
series top spud. Provide Toilet
strainer. Provide manufacturer -
supplied carrier.
Dexter Water Guard Series Handicapped
Top Spud. Provide strainer. Urinal
Provide manufacturer -supplied
carrier. Mount rim of bowl at 17" A.F.F.
Hose bibb: Loose key On Roof
Vacuum breaker, and interior
Freeze proof to building
488 CB #2
POSKO ASSOCIATES, INC.
CONSULTING ENGINEERS
SUITE 200
20720 WEST WATERTOWN ROAD
WAUKESHA. WISCONSIN 53186
414) 786-7200 • FAX (414) 786-6376
TO Brasfield & Gorrie, Inc.
729 South 30th Street
Birmingham, AL 35233
DATE
10/19/94
JOB NO.
9408-54
ATTENTION
Ed Eitzen
RE:
Seminole Towne Center - Parisian
WE ARE SENDING YOU )] Attached Under separate cover via Federal Express the following items:
Shop drawings Prints Plans Samples Specifications
Copy of letter Change order
COPIES DATE NO. DESCRIPTION -
1 Florida Energy Efficiency Code Report- sealed original
1 Florida Energy Efficiency Code Report - copy
i
I
I
THESE ARE TRANSMITTED as checked below:
For approval Approved as submitted
x] For your use Approved as noted
As requested Returned for corrections
For review and comment
FOR BIDS DUE 19
REMARKS
Resubmit copies for approval
C; Submit copies for distribution
Return corrected prints
PRINTS RETURNED AFTER LOAN TO US
COPY TO
SIGNED: Neil Rynders —
If enclosures are not as noted, kindly notify us at once. J
CITY OF SANFORD
FIRE -.DEPARTMENT
FEES FOR SERVICES
PHONE #: 4 - 4 9 5 2 %
DATE: /Z- 9q PERMIT #: S_
BUSINESS
ADDRESS:
PHONE NUMBER:( )
PLANS REVIEW
BURN PERMIT
TANK PERMIT
COMMENTS: /
TENT PERMIT
REINSPECTION
FIRE SYSTEM
0_
AMOUNT
OA-la- r-L..' N t
Fees must be paid to Sanford Building Department,,300 N.
Park Avenue, Sanford, Florida. Phone # 330-5656.
Proof of payment must be made to Sanford Fire Prevention
before any further services can take place.
J
SAAJKor ire Prevention
I certify that the above
information is true and
correct and that I will
comply with all applicable
codes and ordinances of the
C ity/
j off•
Sanfor Florida.
AEylic!in VrPature
CITY OF SANFORD. FLORIDA
PERMIT NO. DATE
THE UNDERSIGNED HEREBY APPLIES FOR A PERMIT TO INSTALL THE FOL-
LOWING ELECTRICAL WORK:
7 50 LAKES µo12E Pay
OWNER'S NAME PA e 1S l (a N TKC. a0-414Am AL,
ADDRESS OF JOB SAN Fd rz0
ELEC. CONTR. Residential Non-residentiaL_r
Subject to rules and regulations of the city and national electric codes.
Number AMOUNT
Alteratio Addition R air
t
L
Change of Service Residential
Commercial
Mobile Home
Factory Built Housing
New Residential 0-100 Amp Service
101-200 Amp Service
201 Amp and above
New Commercial Amp Service
Application. Fee 76)
FI (LE A L- A 2 M S Y9 TEM 11,4 S7AL+.ar(cn/
TOTALQ
By signing this application I am stating 1 will be in compliance with the
WZR
1A and 110-10.
Building Official s
STATE COMPETENCY NO.
SECURITY ENGINEERS STEMS, INC.
7111 Grand National Drive Suite 101-A
ORLANDO, FL 32819
407) 352-4752
FAX (407) 352.0023
To C ITI OF S A rat Pba 10
eP \ 71— AA M S R W
WE ARE SENDING YOU Attached Un er separate cover via
L[CTUEEQ (01F "QQUSEDUMU
DATE
10
JOB
7 -Z ^, CJX
ATTENTIO
10i(A 2D Co1k V
RE:
following items:
Shop drawings rints Plans Samples Specifications
Copy of letter Change order
COPIES DATE NO. DESCRIPTION
16 1 F l fLE fkE- W1 S ST LA nl S
3 b
Z
o u TA boo L,
6 CAL-C. S
to Z-> cic) S-FA-m (_ i scirrSoFr-
THESE ARE TRANSMITTED as checked below:
For proval Approved as submitted Resubmit copies for approval
For your use Approved as noted Submit copies for distribution
As quested El Returned for corrections El Return corrected prints
For review and comment
FOR BIDS DUE 19 PRINTS RETURNED AFTER LOAN TO US
REMARKS
COPY
PRODUCT240 ees Inc., Gmhm, Mau 01471.
SIGNED:
If enclosures are not as noted, kindly notify us at once.
SECURITY EMG1NEERS-!-f,e2,r'fS--, E`G1NEERINC. 7111
Grand National Drive Suite 101,A ORLANDO.
FL328lB / FAX (
407),0- 5Z4J2` to
WE
ARE SENDING YOU O Attached 0 Under separate cover via O
Shop drawings MooPrnts O Plano Copy
of letter 0 Change order F-1 10
the
following items: O
Samples O Specifications COPIES
the
following items: O
Samples O Specifications COPIES
DATE NO. DESCRIPTION Al
THESE
ARE TRANSMITTED as checked below: El
For.,ap 'proval O Approved s submitted 2
For your use El Approved bS'noted El
As It
For review and comment F-1 0
FOR BIDS DUE _19— REMARKS
i
O
Rooubmit_-=__'ndpios for approval O
Submit----_'oopieofor distribution O
Return_----'cnrreoted prints O
PRINTS RETURNED AFTER LOAN TO US SIGNED:
If
enclosures are not as noted, kindly notify us at once.
A CURITY ENGINEERS SYSTEMS, INC.
TAMPA BAY OFFICE
180 Scarlet Blvd.
Oldsmar, FL 34677
FL LIC #EF0000321
813) 854-2078 - FAX (813) 855-2505
May 31, 1995
City of Sanford
300 N. Park Ave.
Sanford, FL 32771
To Whom It May Concern,
SYSTEM DESIGN & ENGINEERING
FIRE ALARM • SECURITY • CARD ACCESS
C.C.T.V. • SOUND • VIDEO IMAGING
SYSTEM INSTALLATIONS & SERVICE
Please allow Mike Trotter to act as my agent in obtaining permits
from the City of Sanford, FL.
Sincerely,
Walter Wiseman
President
SECURITY ENGINEERS SYSTEMS, INC.
License EF 0000321
Before me personally appeared Walter Wiseman, to me well known and
known to me to be the person described in and who executed the
foregoing instrument, and acknowledged to and before me that Walter
Wiseman executed said instrument for the purpose therein expressed.
WITNESS my hand and official seal, this 31st day of May, 1995.
Notary Public
expires
1999
BRANCH OFFICES .
4364 L.B. McLEOD ROAD ORLANDO, FLORIDA 32811 (407) 422-4994 FAX (407) 422-2160
1 152 WEST PENSACOLA STREET TALLAHASSEE, FLORIDA 32304 (904) 575-6757 FAX (904) 574-6786
l ---
v.) '
BATTERY JOB NAME: PARISIAN
CALCULATIONS
SECURITY ENGINEERS,SYSTEMS,
DEVICE PA UMBER
r -
MAIN CPU MMB-1
KEYPAD/DISPLAY MKB-1
REM. PWR. SPLY PSR-1
ANALOG BOARD, ALD-2
CONV.ZONE MOD. CZM-4
SIGNAL MOD.- CSM-4
RELAY MOD. CRM-4
OUT/IN MOD. MOI-1
COMM. MOD. NET-4
CXL INTERFACE CMI-300
PRN./CRT INTF. PIM-1
O.C. OUTPUTS MOD-16,
O.C. INPUTS MID-16
5VDC CONVERTER PS-5A
REMOTE MKB-1 RCP71
CLASS 'A' NTWK NET-7
THERMAL PRN TSP-40
AUDIO CTRLR ACM-1
AMP SUPVSY ASC-1
AMP SUPVSY _ ASC-2
OUTPUT CTRLR OCC-1
F.F. TELE. CTRL TMM-1
TERMINAL BLOCK TBM-1
L.E.D. MODULE VLM-1
SWITCH MODULE VSM-1
PHONE CARD ZCT-8B
1CH SPKR CARD ZC1-88-25
1CH SPKR CARD ZC1-BB-70
2CH SPKR CARD ZC2-BB-25
2CH SPKR CARD ZC2-8B-70
3CH SPKR CARD ZC3-BB-25
3CH SPKR CARD ZC3-BB-70
100W AMP EL-410C
ANALOG ION ^ ID_60I
ANALOG PHOTO, ID-6
ANALOG HEAT- ID-60T
AUDIBLE BASE ADBI-60
DUCT DETECTOR ID-60IB
DEV SUPV
QTY CURR
REM. ZONE MOD. CZM-1
SUPV.OUTPUT MOD ICP
MONITOR MOD. ' TRI-60
DUAL MON MOD 60D
TOTAL TOTAL
SUPV ALARM ALARM
CURR CURRENT CURRENT
1 0.2 0.2 0.5 0.5
i 0.15 0.15 0.2 0.2
0 0.2 0 0.3 0
2 0.06 0.12 0.06 0.12
0 0.004 0 0.72 0
5 0.012 0.06 0.012 0.06
1 0.015 0.015 0.075 0.075
0 0.025 0 0.037 0
0 0.02 0 0.02 0
0 0.03 0 0.03 0
0 0.005 0 0.005 0
0 0.002 0 0.85 0
0 0.002 0 0.Bs 0
0 0.2 0 0.2 0
0 0.15 0 0.2 0
0 0.03 0 0.03 0
0 0.02 0 0.1 0
0 0.1 0 0.1 0
0 0.005 0 0.005 ^` 0
0 0.005 0 0.005 0
0 0.005 0 0.005 0
0 0.05 0 0.05 0
0 0.001 0 0.001 0
0 0.0001 0 0.001 0
0 0.0001 0 0.001 0
0 0.009 0 0.3 0
0 0.0001 0 0.001 0
0 0.0001 0 0.001 0
0 0.0001 0 0.001 0
0 0.0001 0 0.001 0
0 0.0001 0 0.001 0
0 0.0001 0 0.001 0
0 0.05 0 0.1 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0 0 0 0
0 0.0005 0 0.0006 0
202 0.0005 0.101 0.0008 0.1616
0 0.0005 0 0.0006 0
0 0 0 0.037 0
0 0.0005 0 0.0006 0
0 0 0 0 0
0 0.004 0 0.045 0
0 0.012 0 0.0005 0
0 0.003 0 0.003 0
2 0.006 0.o/z A 0"012
7 —
W-1
e
RELAY MODULE TRI-60R 0 0.006 0 0.006 0
ISOLATION MOD. 0 0.001 0 0.001 0
HORN —STROBE SHG24-1575 70 0 0 0.11 7.7
HORN HD-24 0 0 0 0.063 0
STROBE GX4-1575 24 0 0 0.093 2.232
DOOR HOLDERS 5 4 —AQ 0 0.07 0 0 0
CUBE RELAY' }' LY724 ' 8 0 0 0.05 0.4
MINI HORN : HDC&24 0 0 0 0.03 0
4 WIRE DEVICE? ESL) 0 0 0 0.05 0
A/V (A.D.A.) MT-24—WM 0 0 0 0.14 0
STROBE (A.D.A,) WMIT 0 0 0 0.09 0
SPEAKER (25V @ 1 WATT) 0 0 0 0.04 0
0 0 0 0 0
TOTAL TOTAL
EHRSORY ALARM
Km1 CURRENT
0.658 1l.bl
HOURS OF
STANDBY SUPERVISORY 0.9551
REQUIRED==24 AMPERE
HOURS
15.792 ALARM
MINUTES OF AMPERE
ALARM BATTERY HOURS
REQUIRYD== 5 AMPERE 0.9551
HOURS=) HOURS
0.0833333 REQUIRED= 17
SECURITY ENGINEERS SYSTEMS, INC.
ORLANDO' OFFICE
7111 Gr nd (yationaj Dr., # 101-A
Orland FL 32819
m64,1f rEF0000321
407) 352-4752 - FAX (407) 352-0023
SYSTEM DESIGN 6 ENGINEERING
FIRE ALARM • SECURITY • CARO ACCESS
C.C.T.V. • SOUND • VIDEO IMAGING
SYSTEM INSTALLATIONS 6 SERVICE
l
PARISIAN DEPARTMENT STORE
SUBMITTAL ON:
FIRE ALARM SYSTEM #16740
HOME OFFICE
0 180 SCARLET BLVD. OLDSMAR, FL 34677 (813) 854-2070 FAX (813) 855-2505
PARISIAN DEPARTMENT STORE
SUBMITTAL ON:
FIRE ALARM SYSTEM
CERBERUS MXL
PYROTRONICS
CERBERUS
PYROTRONICS
C k ERUS CSM-4
PYROTRONICS
CERBERUS ILP-1
PYROTRONICS
CERBERUS TRI760 SERIE
PYROTRONICS
CERBERUS MSI-10
PYROTRONICS
GENTEX SHG-24-1575'
GENTEX GXS-4-1575
SILENT KNIGHT 5104
C PI(cs
16740
CONTROL PANEL
MAIN PANEL DISPLAY/KEYBOARD
OR MXL PANEL
SIGNAL MODULE FOR MXL PANEL
ADDRESSABLE PHOTO ELECTRIC
DETECTOR
S ADDRESSABLE CONTROL & ALARM
INPUT MODULES
ADDRESSABLE PULL STATION
ADA COMPLIANT HORN STRODE
ADA COMPLIANT STROBE
UL LISTED CENTRAL STATION
COMMUNICATOR
uC--rS rA
C-A"uLAT70NS
T._ W.
ER US 01rt"`k' ,
tom
f-Y-IRQT
E r LT i t
Features
19 EnAroLINK Automatic
Environmental Compensation
for Smoke Detectors
10 Capacity for up to 3,000
Intelligent Input Devices
I Dynamic Supervision of
Intelligent Devices
Security Device Monitoring
Sprinkler Supervision
r Intelligent/Analog Detection
Circuits, Style 6 (Class A) or
Style 4 (Class B) Style 7
with LIM-1)
Detector Sensitivity
Read-out/Printout per NFPA
72E
4 Style D (Class A) or Style B
Class B) Conventional
Initiating Circuits
ra We Z (Class A) or Style Y
Class B) Indicating Appliance
Circuits
Degrade Mode Operation
Distributed Processing
80 Character Backlit
Alphanumeric Display
Thermal Strip Printer
Supervised Remote Printer
e 32 Character Custom
Messages
Multiple Command Stations
f
a °
F 7 S Systemh
DesCdpboin
The MXL is a microprocessor based Advanced ProtectionSystem. Its use of unique mufti -processor "Network" de- sign along with its ability to utilize both analog and con- ventional detection devices make it the most flexible and
reliable system in the life safety field. The MXL is ideallysuitedforcommercial, institutional and industrial fire, se- cudty and control applications. It complies with the re-
quirements of NFPA 72, (A, B, C, D). It is UL 864 and1076securitylistedaswellasFM, ULC, CSFM, City ofChicago, U.S. Coast Guard and MEA approved.. It is alsoULlistedforreleasingperNFPA13.
The basic MXL control unit consists of the following sub- assemblies: (1) MMB-1 Main Control Board; (2) MPS-6
19 Holiday Schedule
City Tie/Lease lane
Coded Outputs
Supervised Serial Annunciator
Driver/Input Interface
Interactive VDT - Monochrome & Color
Color Graphics Option
NFPA 72, (A, B, C, D)
NEC 760 Power Limited Circuits
16 Gauge Steel Enclosure
UL Listed 864,1076, ULC Listed
FM, CSFM, MEA, City of Chicago and
U.S. Coast Guard Approved
Pre-ndinn Raranc;— n.irnA 1-1
y I V/
Power Supply; (3) MKB-2 Annunciator and Keyboard; (4) MBR-2/MDR-2 or MSE-2 Enclosure.
Optional modules which can be Installed with the MXLSysteminclude: (1) MOM-4 Expansion Card Cage; (2) ALD-2 Analog Loop Driver; (3) CRM-4 Controllable RelayModule; (4) CSM-4 Controllable Signal Module; (5) CZM- 4 Conventional Zone Module; (8).PIM-1 Peripheral Inter- face Module; (9) CMI-300 CXL Modem Interface Module; 10) MOD-16 Output Driver, (11) MOI-1 Network Inter- face; (12) MID-16 Input Module; (13) PSR-1 Remote Sup - Ply; (14) MPS-12 DC Supply; (15) MXL-VDT InteractiveVideoDisplayTerminal; (7) NET-4 Style 4 Network Inter- face; (8) NET-7 Style 7 Network Interface; (16) MXL-GColorGraphic; (17) MXL-GT Color Terminal; (18) A fullrangeof "I" Series Intelligent detectors and devices (seedatasheets).
CATALOG NUMBER
ry,
flW
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x dr I
its ii
n
M
IVIMB-1 Main Con'trO Board
The function control 4f the JCL is contained on the MMB-
1 Main Control Board. The on board 16 bit processor
along with non-volatile EPROM and Flash memory allowthesystemtobecustomconfiguredtomeetawiderange
of customer requirements. The MMB-1 controls operating
sequences and monitors input device identity, detector
sensitivity, network communication and operator,com-
rnands entered through the MKB-2 Annunciator/Key-
board. The MMB-1 also provides 2 ALD (Analog LoopDriver) circuits. Each ALD loop can be configured as
Style 4 (Class B) or Style 6 (Class A) and can monitor
and control up to 60 Cerberus Pyrotronics Intelligent Input
Devices and 60 programmable device relays. Through
the use of the LIMA loop isolator modules, ALD circuits
can be configured as Style 7.
The MMB-1 is equipped with 2 programmable and code -
able Style Y (Class B) or Style Z (Class A) indicating ap- pliance circuits. Each circuit can activate up to 1.5 Amps
of listed audible or visual indicating appliances.
Aumliary relays are provided for extemal monitoring ofCommonSystemAlarm, Common System Trouble, andCommonSupervisory.
The MMB-1 includes a built-in battery charger and trans-
fer circuit. The charger is microprocessor controlled and
incorporates a brown out circuit which switches the sys-
tem to optional standby batteries during loss or reduction
of the primary source AC. Upon command, the system is
capable of displaying the real time battery voltage, AC
voltage, charge current and other power data on the MKB-
2 Alphanumeric display. It also includes a one Amp, 24VDC, Class A output.
The MMB-1 is fully FIELD PROGRAMMABLE off line us- ing a laptop computer. Complete system configuration
can be easily uploaded, downloaded or edited using Accu. INK custom programming software. Program options in-
clude but are not limited to EnviroUNK smoke detector
environmental compensation, ChronoLINK History Log- ging, Output Control by Event; Check and Change Time
Based Control, Detector Sensitivity, Alarm Verification byDeviceorZone, 32 Character Custom Alphanumeric Mes-
sages, System Operation Passwords and IAC Coding. The MMB-1 provides a port for connection of the program- ming laptop computer.
lulE
MKB-2 Annunciator/Keypad
The MKB-2 mounts on a hinged frame in the MXL Enclo-
sure and provides an 80 character backlit LCD alphanu-
meric annunciator which continuously scrolls to displayInformationconcerningsystemstatusalongwith32char-
acter user defined device messages. When multiple
events occur, the MKB-2 displays the last event of the
highest priority. Additional data can be viewed by depress- ing the NEXT key. At any time, the display scroll can be
stopped by depressing the HOLD button. Switches are
provided for acknowledging fire alarms, supervisories, se-
curity conditions, and system troubles. An individual
switch is also provided for silencing the system indicating
appliance circuits. A separate switch is used for resettingthecontrolpanel.
A 10 digit numeric keypad is supplied to allow entry of the
user passwords, as well as perform specific menu driven
operation, programming and maintenance functions. An-
other series of switches located on the MKB-2 allows
user access to the TSP-40 Thermal Strip Printer whenused.
A set of user assignable "Function" keys provide single
button access to a variety of system commands. These
switches may be used to perform system operation such
as "Drill,' manual relay control, zone disconnect, etc.
Contained on the MKB-2 annunciator are system status
indicator LED's which can function even if the main sys-
tem microprocessor fails. They provide indication of Main
Powe.-On, Fire Alarm, Security Condition, System
Trouble, Supervisories, System Audibles Active/SilencedandPartialSystemDisable.
The MKB-2 Annunciator communicates with the MMB-1
Main Control Board through the system network link.
MKB-2
MPS-6 Power Supply
The MPS-6 is a fully supervised power supply which pro- vides the system with primary DC power. It is rated at 6.5Ampsandisunfilteredandunregulated. It supplies the
MXL Control Unit and its expansion modules with powerrequiredfornormaloperation. The unit incorporates a re-
settable circuit breaker on the primary input and includesabuiltinAClinefilterforsurgeandnoisesuppression.. The MPS-6 mounts in the MXL enclosure backbox.
a.-
dl Goa p3 . , , .. 1 gi ate, °;' 'i. 3e ' -, IF_
r.• r O
w a a r L/M%ff LV Display/Keyboard
ENGINEER AND ARCHITECT SPECIFICATIONS
Full Command Keyboard
80 Character LED Display
Automatic Backlight
High Resolution Supertwist LCD
Programmable Function Keys
Partial Disable LED
Power LED
Alarm, Supervisory, Trouble And SecurityLED's
Audibles Active/Silenced LED
Menu Driven Operator Commands
User Help Screens
Printer Control Keys
Display Control Keys
Tactile Membrane Switches With AudibleFeedback
Hinged Panel For Easy Access
UL/ULC Listed, CSFM, FM, NYBSA, CityofChicagoApproved
Description
The MKB-2 is a display/keyboard module for use with
the Cerberus Pyrotronics MXL and MXLV Systems. The
MKB-2 is supplied on a hinged frame and mounts on
the MBR-2 enclosure backbox. It provides a complete
operator interface including an 80 character backlit su-
pertwist LCD for display of all system information. The
MKB-2 also provides a set of grouped keypads used to
execute system commands such as Acknowledge, Si- lence, Reset as well as disarming of devices for
maintenance and generation of system diagnostic re-
ports.
From the keypad the operator is able to change the
sensitivity setting of smoke detectors, check device
voltages, obtain system power reports, disarm input
and output devices, and manually toggle remote and
local relays. All commands are menu. driven and a helpkeyallowstheoperatortogetfurtherexplanationofthe
d
command structure. Operator actions are prompted sotrainingiskepttoaminimum.
The MK13-2 also provides a set of 12 programmablefunctionkeys. The keys can be configured to activate
functions such as Drill, Fan Shutdown, Door Release, etc.
LED's on the MKB-2 in conjunction with a local audible,
Indicate active conditions such as Alarm, Supervisory, Trouble, and Security. The LED's flash and the audible
sounds until events are acknowledged. Additional
LED's indicate Audibles Silenced, Power On and Par-
tial System Disable. The Partial System Disable LED
illuminates whenever an input or output device is•dis- armed.
Display control keys allow the operator to Hold or
Freeze the scrolling display, and view additional active
events.
infe[INK 1y; CATALOG NUMBER;;Z0SYSTEMSSINT (ES '• -
l
Multiple MKB-2's can be used in the system each pro-
viding full control of the MXL system. Up to 4 MKB-2's
can operate in a fully supervised mode, each with inde-
pendent printer drive apdbility (using a PIM-1).
Additional slave MKB- 's can be used operating in an
unsupervised mode, each also capable of supporting
a PIM-1 driving unsupervised peripheral devices.
The hinged panel allows easy access to the rear of the
MKB-2 and the other modules in the rear of the MBR-2
enclosure backbox. The MKB-2 is covered by a clear
Plexiglas lens (MDL-1) as a part of the MDR-2 lockable
door.
This equipment is approved for operation over the tem-
perature range of 0' C and 49' C.
Engineer And Architect Specification
The display/keyboard module for use with the Cer-
berus Pyrotronics MXL and MXLV Systems shall be
model MKB-2. The MKB-2 shall be supplied on a
hinged frame and mount on the MBR-2 enclosure back -
box. It shall provide a complete operator interface
including an 80 character backlit supertwist LCD for
display of all system information. The MK13-2 shall also
provide a set of grouped keypads used to execute sys-
tem commands such as Acknowledge, Silence, Reset
as well disarming of devices for maintenance and gen-
eration of system diagnostic reports.
From the keypad the operator shall be able to change
the sensitivity setting of smoke detectors, check device
voltages, obtain system power reports, disarm input
and output devices, and manually toggle remote and
local relays. All commands shall be menu driven with a
help key to allow the operator to get further explanation
of the command structure. Operator actions shall be
prompted in order to minimize training.
MKB-2 Controls and Indicators
F-= ---=.
ACK 0 ALARM 0 POWER
64 0 AUDIBLESSILENCED
PARTIAL
O SYSTEM
pc O SUPERVISORY
DISABLE
O TROUBLE
O SECURITY
OC 1 ALT 2ucnarucnoprucnon
oao ao T
Ft
ao® ao_ F2
a ®® F4
FIGURE 1
MKB-2 Panel
The MKB-2 shall provide a set of 12 programmable
function keys. The keys shall be configurable to acti-
vate functions such as Drill, Fan Shutdown, Door
Release, etc.
LED's on the MKB-2 in conjunction with a local audible,
shall indicate active conditions such as Alarm, Supervi-
sory, Trouble, and Security. The LED's shall flash and
the audible sound until events are acknowledged. Addi-
tional LED's shall indicate Audibles Silenced, Power On
and Partial System Disable. The Partial System Disable
LED shall illuminate whenever an input or output de-
vice is disarmed.
Display control keys shall allow the operator to Hold or
freeze the scrolling display, and view additional active
events.
Multiple MKB-2's shall be capable of being used in the
system each providing full control of the MXL system.
Up to 4 MKB-2's shall be capable of operation in a fully
supervised mode, each with independent printer driver
capability (using a PIM-1). Additional slave MK13-2s
shall be capable of operation in an unsupervised
mode, each capable of supporting a PIM-1 driving un-
supervised peripherals.
The hinged panel shall allow easy access to the rear of
the MKB-2 and the other modules in the rear of the
MBR-2 enclosure backbox. The MKB-2 shall be cov-
ered by a clear Plexiglas lens (MDL-1) in a lockable
cabinet door (MDR-2).
Ordering Information
Model Descri tan Part No.
h1KB-2 Di P;
r,,
Ypad 500892077
Mounting Diagram
Mt
Installing the MKFIGURE 2
13 2 Annunciator/Keyboard
Cerberus Pyrotronics Cerberus Pyrotronics
8 Ridgedale Avenue 50 East Pearce Street
Cedar Knolls, NJ 07927 4/93 16"Richmond Hill, OntarioP'VROO KS Tel: (201) 267-1300 10M + L48, 187, CN
FAX: (201) 397-7008 CPY-IG Tel: (416) 764-8384PrinteSdinItAt .,,. (,t 1 a1731 31 "'' c April
1993
O
ENGINEER AND ARCHITECT SPECIFICATIONS
Supervised Alarm Indicating Appliance Circuits
Operates Audible or Visual Devices
0 2 Class A (Style Z) or Class B (Style Y) Circuits
2 Solid State Outputs
24 VDC 1.5 Amps Per Circuit
City Tie or Lease Line Output
Releasing Service
Fully Programmable
Coded Audibles
On Board Microprocessor
March Time/Uniform Code 3
Selectable Degrade Operation
Silencable/Non-Silencable Option
Automatic/Manual Control
Circuits Power Limited Per NEC 760
UL/ULC Listed
CSFM, NYMEA, FM Approved
NFPA 13, Pre -Action And Deluge
Description
The Controllable Signal Module CSM-4 provides two fully
supervised, programmable indicating appliance circuits
and two open collector solid state outputs. The CSM-4
supplies two Class B (Style Y) or Class A (Style Z) type
output circuits for the supervision and control of listed
audible or visual indicating appliances such as horns,
bells, strobes, etc. Each circuit can provide up to 1.5
amps (24 VDC) of current to power indicating appli-
ances.
Any output on a CSM-4 may be configured as either a
supervised connection to a local energy type Master
City Box or a supervised connection to a Leased Line re-
mote monitoring system. Each circuit may also be
configured for pre -action or deluge releasing service perNFPA13.
Each circuit or output may be controlled automatically
through the MXL program logic or manually using theMXLkeypad. Automatic control may also be time based.
Each circuit or output can be manually "Armed" or "Dis-
armed" through the MXL keypad. When any circuit or
output has been "Disarmed," the MXL LCD annunciator
will indicate the affected circuit or output and the. "Partial
System Disable" LED will illuminate, until the circuit or
output has been returned to the "Armed" condition.
The CSM-4 also provides two open collector solid state
outputs rated at 40 VDC, 250 mA. These
outputs are independently programmable and
controlled in the same manner as the indicating
appliance circuits.
The CSM-4 contains an on -board microprocessor which
allows its indicating circuit outputs to function in a de-
grade mode even if the main MXL processor or the
network communication link has failed. Each circuit's de-
grade mode of operation can be separately configured
to respond to an alarm in the following manner: OFF, ON
CONTINUOUSLY or 1 SECOND ON - 1 SECOND OFF. In
a degrade mode a CSM-4 will respond to an alarm from
any Intelligent/Analog (ALD) or Conventional Zone
CZM) connected to the same network drop.
iflldlk CATALOG NUMBER5 0" 0
I
CStv1-4 indicating appliarlce cirPuit Outputs may be con- 7uied to provide a cod , maich time, or uniform codeutput.
ach circuit is also capable of being configured for pre - action or deluge, releasing services per NFPA 13.
his equipment is approved for operation over the tem-
perature range of 0°C to 49°C.
Engineer and Architect Specifications
indicating appliance circuits shall be provided by a Cer- erus Pyrotronics Model CSM-4 plug-in controllable
sigr ialing module. The unit shall provide two alarm indi-
cating appliance circuits which may be configured as
either Class A (Style Z) or Class B (Style Y). Each circuit
will be capable of activating up to 1.5 amps of listed
audible or visual indicating appliances. These circuits
shall also be capable of being configured for activationAalocalenergyMasterCityconnectionorpolarityrever- ial type Leased Line connection.
ach circuit shall also be capable of being configured to
ctivate a solenoid for pre -action or deluge releasingerviceperNFPA13.
he indicating appliance circuits shall be capable of a
leg rade mode of operation in the event of main proces- or failure or loss of network communication.
the CSM-4 shall also provide two programmable solid
tate outputs. These outputs shall be the open collectorvpecapable..of sinking up to 250 mA ® 40 VDC,
outputs, supervised indicating appliance and unsu-
rvised solid state, shall be capable of automatic
activation or de -activation through control by event orimebasedprogrammingcontainedinthecontrolpanel. hey shall also be capable of manual activation or de-ac- ovation using the system keypad. Disarming any circuit
or output shall result in the alphanumeric display indicat- ing the circuit or output which has been disarmed as
vell as the illumination of the `System Partial Disable" ED,
i he CSM-4 shall be a plug-in type module using golddatededgeconnectorstointerfacewiththeMOM-4 ex-
ansion card cage. It shall occupy one half slot in thecardcage. Indicating circuit, City Tie and Lease Line
Power shall be provided to the CSM-4 through the mainxntrolpowersupplyorthroughthesupervisedremotePowersupplies.
Dimensional Data
6.500
G2R1 0000
eB9sseMRSS
S4 I B 4 3 OPTIONS
T L
N CSNI-4
F2
2 AMP 3AG NO
ze
4.500
CSM-4 Board
GI)
S1
MR®?,
NETWORK S3
ADDRESS
F1
2 AMP 3AG NO
@N@@N@N@@NN
@O@ONNON@@@@@te10
PS T8-6 P7
T83
MOMA C= —i
T82 SLOTS FOR CSM-4
NON@@N@q@N@ s o -- -
T84
T87
CSM-4 Installation Slots
Miring Diagrams
MOM 4
T8I. T82. TR3ORT84
STYLE Y
STYLE 1CLASS8) (
CLASS AI
CIRCUIT 1
22K. ir2W CIRCUIT 2
NOT POWER LtMRED
u u
o $
G
W u33
a
0 0
a 10 11 12 13 14 tS 18
POLARITY SHOWN W SUPERVISORY STATE 'EOL DEVICE. PM 140820380MAXIMUMLINERESISTANCE. 3 0HMS TOTAL
CSM-4 Loop Wiring for supervised IndicatingApplianceCircuit
Intelligent Photoelectric Detectorso' for d ,3
Control Panels
ENGINEER AND ARCHITECT SPECIFICATIONSS
ILP-1, ILPT' 1
On Board Motorola Microprocessor Based Design
Innovative Technology Provides High Speed, Fault
Tolerant System/Detector Communications
EEPROM Supervision; Protects Critical Detector
Programming
c
o Highly Resistant to RFI, EMI and Humidity.
o Remote Sensitivity Adjustment and Measurement
Capability
o Field Cleanabl Phe otochamber
o Alarm Indicator LED
o Two -Wire Operation
Optional 135 Degree F Thermal Model, ILPT 1
Compatible with SENSORLINK, Model FPI-32 Field
Programmer/Tester: Program Nerify Detector
Addressing. Perform Diagnostic Testing of Detectors
EnviroLINK: Software Based Automatic Environmental
Compensation (available only when used with MXL
systems).
o Optional, Fully Programmable Relay Base and AudibleBase
Listed, ULC, FM, CSFM, NYMEA, and City ofChicagoListingsPending.
Introduction
Cerberus Pyrotronics ILP-1 and ILPT 1 intelligent photo-
electric smoke detectors offer the fire and life safetyindustrythemostadvancedmethodofdetection,
programming and'communications available today. Additionally, the ILP series detectors provide an ex-
tremely high degree of resistance to RFI, EMI and
humidity. The ILP Series photoelectric detector utilizes a
state-ofAhe-art Motorola microprocessor with "on -board" EEPROM. The microprocessor provides the power to
operate the detector's sophisticated detection, error
checking and supervision algorithms.
The ILP Series intelligent photoelectric detectors are
compatible with Cerberus Pyrotronics' Sensor LINK FPI- 32 field programmer/tester. The FPI-32 is a compact,
portable, menu -driven accessory which makes program - ling and testing detectors faster, easier and more
reliable than other methods. The FPI-32 eliminates the
iflle[INK:
l ttf SSll/t(IS
need for cumbersome, unreliable mechanical program-
ming methods and reduces installation and service costs
by electronically programming addresses and function-
ally testing the ILP's performance before the detector isinstalled.
The ILP Series photoelectric detectors are also compat-
ible with Cerberus Pyrotronics' IXL, MXL and XL3 controlpanels.
All ILP Series detectors are Underwriters LaboratoriesListed,
Description
The ILP-1 and ILPT 1 are plug-in, two -wire photoelectricdetectors, compatible with Cerberus Pyrotronics' IXL,
MXL or XL3 systems. Each ILP detector consists of a
dust resistant, field cleanable photo chamber, micropro-
cessor based electronic circuitry with plastic cover andbase. Electronic component packaging uses surface
CATALOG NUMBER
l
Applications patp
Installation of the iLP series of hotp oelectric detectors
requires a two -wire circuit of 18 AWG thermoplastic
fixture wire enclosed in conduit, or 18 AWG limited
energy, shielded cable without conduit if permitted by
local building codes. Field wiring should conform to local
and National Electric Codes, and to the control panel
wiring specifications.
T-tapping" is permitted only for Style 4 (Class B) wiring
ILP series photoelectric detectors can be applied within
the maximum 30 foot center spacing (900 sq.ft. areas) as
referenced in the NFPA 72. This applications guideline is
based on ideal conditions, specifically; smooth ceiling
surfaces, minimal air movement, and no physical ob- .
structions between potential fire sources and the detec-
tor. Do not mount detectors in close proximity to ventila- tion or heating and air conditioning outlets. Exposed
joists or beamed ceilings may also affect safe spacing
limitations for detectors. Should questions arise. regard-
ing detector placement, observe NFPA 72 guidelines.
Engineer and Architect Specifications
The detector shall be a Cerberus Pyrotronics ILP-1 Series
addressable, photoelectric detector which shall be
compatible with either a Cerberus Pyrotronics MXL, IXL,
or XL3 control panel. The detector shall have a plug-in
head" unit which mounts to a twist -lock base. The
detector head will incorporate micro- processor based
circuitry which shall perform all detection and communi-
cations functions. No electronic circuitry or address.
identification mechanisms shall be contained in the
detector's base. The detector shall operate on a two -wire
circuit and shall include an LED indicator which will flash
to signal an alarm condition. The detector shall be listed
with Underwriter's Laboratories, Inc.
The photoelectric detector shall utilize a light emitting
diode (LED), mirror and light sensing photodiode as-
sembled in a fixed array so that under normal conditions,
light transmitted by the LED is directed away from the
photodiode and scattered throughout the smoke cham-
ber in a controlled pattern. The smoke chamber design
should effectively manage light dissipation and exVane-
ous reflections from dust particles or other airborne
contaminants in such a way as to maintain stable,
consistent detector operation.
Detector addressing shall be accomplished electroni-
cally, using a portable field programming/test accessory. Mechanical means such as programming pins, dip -
switches, etc.! shall not be used. The field programmingdeviceshallbeaCerberusPyrotronicsSensorLINKmodel
FPI-32. The portable programming device shall be menu
driven and operate using rechargeable batteries or
120VAC power. Once the desired address has been
entered at the FPI-32 programming device, the device
will download the data to the detector's memory andv
L
verify that the detector address is correctly programmed.
Communications between the detector and the program-
ming accessory shall be supervised by error checking
algorithms. The field programming accessory. shall also
be capable of performing diagnostic tests to determine if
a detector is operating properly.
When required, the smoke detector shall contain a 135'F
57°C) fixed temperature, self -restoring heat sensor.
Actuation shall cause the detector to initiate an alarm.
The detector shall remain in alarm until reset by the
control panel.
The detector shall be capable of bidirectional communi-
cations with the control panel and shall be dynamically
supervised and uniquely identifiable by the control panel.
The control panel shall be capable of analyzing the
signal for the detector's analog value for calibration,
sensitivity and address identification. These values shall
be displayed upon command from the control panel. The
detector's sensitivity shall be individually adjustable from
the control panel. Should the detector sensitivity voltage
shift beyond an acceptable level and remain there for a
predetermined duration, a discrete detector trouble
signal shall be annunciated at the XL3 or MXL control
panel.
The detector shall be compatible, when installed on the
same XL3 signaling circuit, with other Cerberus
Pyrotronics ID-60 Series or X series addressable photo-
electric, ionization or thermal detectors; MXI or MSX
series addressable manual pull stations and TRI or TRX
series addressable interface modules. The detector shall
be compatible on the same MXL signalling circuit with all
ID-60 series photoelectric, ionization and thermal ad-
dressable detectors, MSI series addressable, manual
pull stations, TRI series addressable interface device,
ICP output control devices or CZM series or other
intelligent modules. The detector shall be compatible on
the same IXL's ICON signalling circuit with other ID-60
series photoelectric, ionization and thermal addressable
detectors, MSI series addressable manual pull stations,
or TRI series addressable interface devices.
The detector shall be capable of operating' one remote
alarm indicator or auxiliary relay or audible base. The
relay or remote alarm indicator, or audible base is
normally activated by the associated detector, however,
the XL3 or MXL system shall be capable of being pro-
grammed to operate the relay or remote alarm indicator,
or audible base independently of the associated detec-
tor. All detectors, remote alarm indicators, audible bases
and or relays connected to the initiating circuit can be in
alarrn or activated simultaneously.
The addressable photoelectric detectors shall be com-
patible with the standard Model DB-3S base, the ADBI-
60 audible base, the DB-X3RS relay base and the AD3P
air duct housing. The base assembly in which the
detector is installed shall be of twist -lock design with
screw clamp terminals. The base shall use self -wiping
contak and shall accept other compatible Cerberus
mount type technology. The entire electronic assembly is
fully protected from not a trar)sients by shielding and is
coated to resist moistur and corrosion.
j''he ILP-1 and ILPT 1 photoelectric detector utilizes a
light emitting diode (LED), and light sensing photodiode
assembled in a fixed array so that under normal condi-
tions , light transmitted by the LED is directed away from
the photodiode and scattered throughout the smog e
chamber in a controlled pattern. The smoke chamber is
designed to manage light dissipation and extraneous
reflections from dust particles or other non -smoke
airborne contaminants in such away as to maintain
stable, consistent detector operation.
The ILP-1 and ILPT 1 detector's microprocessor uses an
integral EEPROM to store the detector's address, and
other critical operating parameters which include an
assigned, programmable value for alarm and trouble
thresholds.
The microprocessor's software employs sophisticated,
proprietary algorithms to identify and disregard false
alarms caused by radio frequency (RFI) and electromag-
netic (EMI) interference and also validate all trouble
conditions before annunciating or reporting to the control
panel. Communications within the detector itself and also
between the ILP-1 and ILPT 1 detectors and the control
panel or the FPI-32 programming accessory are super-
vised and safeguarded against disruption by reliable,
microprocessor based error checking routines. Addition-
Ily, the microprocessor supervises all EEPROM memory
nations and provides a high degree of EEPROM failure
fault tolerance.
In IXL or MXL applications, an ILP series detector
determines it's operating status to be normal, in alarm, or
in trouble depending on the difference between the
alarm threshold value stored in the detector's memoryandthedetector's latest analog measurement. The
detector then communicates changes in its status to the
MXL or IXL control panel. In addition, MXL panels will
periodically sample the value of the detector's analogsignalinordertodetermineifthosevaluesindicate
excessive dust buildup in the photo -chamber; if so the
MXL will indicate that the particular detector requires
maintenance. For XL3 control panel applications, the
detector's operating status is determined to be normal, in
alarm or in trouble depending upon the difference
between the alarm threshold values stored in memory attheXL3panelandtheanalogvalueofsignalstransmit-
ted by the detector and evaluated at the control panel.
When an ILP series detector's alarm condition is con-
firmed by the control panel, the detector's LED flashes
and continues flashing until the system is reset at the
control panel. Also, any user defined system alarm
function or control by event functions are activated. Each
P series detector is capable of)operating one "I" series
mote alarm indicator, or one auxiliary relay, or oneaudiblebase.
U4
Detector sensitivity, calibration and identification are
dynamically supervised by the control panel. Detector
sensitivity can be changed from the control panel.
The SensorLINK FPI-32 Program/Test accessory is used to
program and verify the detector's address. The techni-
cian selects the accessory's program mode to enter the
desired address. The FPI-32 will then automatically set
and verify the address and test the detector. The FPI-32
operates on AC power or rechargeable batteries, provid-
ing the flexibility and convenience to program and test
detectors anywhere. When in the test mode, the FPI-32
will perform a series of diagnostic tests on the ILP
detectors without altering the address, allowing techni-
cians to determine if the detector is operating properly or
not.
The ILP series detectors may be installed on the same
MXL or XL3 circuit with ID-60 series detectors, MSI series
manual stations, TRI series interfaces, ICP output control
devices or the CZM series conventional zone modules.
The ILP series detectors may also be installed on the
same XL3 circuit with X series detectors, manual stations
or interface modules. ILP series detectors may be
installed on the same IXL (ICON) circuit with other "I"
series detectors, manual stations or TRI interfaces.
All ILP series detectors can be cleaned in the field as
required by simply removing first the detector cover, then
the photo chamber cover and cleaning the interior
surfaces of the photo chamber with a clean, -Soft -cloth or
brush.
The ILPT1 is a photoelectric detector with a restorable
thermal sensor. An alarm will be initiated when the
temperature around the detector's thermal sensor
reaches 135 degrees Fahrenheit (57'C) or when suffi-
cient smoke enters the photoelectric chamber. .
ILP series detectors are also designed for use with
Cerberus Pyrotronics AD-3P or AD-3XRP air duct hous- ings for air duct applications.
The ILP series detectors use the Cerberus Pyrotronics
low profile surface mounting detector bases. Detector
base model DB-3S' mounts to a 4-inch octagonal, square
or single gang electrical box. Relay base model DB-
MRS mounts to a 4-inch square deep electrical box.
Audible base model ADBI-60 mounts to a 4-inch square
deep electrical box. When a 4-inch square or 4-inch
square deep electrical box is used, an optional trim ringisavailable; model RA-ADB. The DB-3S, DB-X3RS and
ADBI-60 bases use screw clamp terminals for all electri-
cal connections and self -wiping contacts for increased
reliability. These bases contain a provision for an op-
tional, concealed locking mechanism, model DB-LK, to
Prevent unauthorized removal of the detector head.
All ILP series photoelectric detectors are approved for
operation within the U.L. specified temperature range of0'C and 38'C.
i
yrotronics plug-in detectors. A locking mechanism shall Ordering Informationinstalledinthoseareasuherdtamperresistant
t illation is required.
echnical Specifications
urrent requirements: Normal- 1.2 mA typical 000
Alarm- 1.5 mA typical
iltage range: 16 VDC-30 VDC
Peak pulsed voltage
Aerating temperature: +32T (0'C) to 100T (38'C)
Per UL 268/268A
umidity: 0-93% Relative Humidity,
Non -Condensing
Aountina Data
r
pS mp
nuiouio a av
o O
t:sro-
flXa 1 .
00
o
BASE - MODEL NO D8•3S
INX. ALD. MMB OR ICON 5 to
LOOP WIRES fROM CONTROL PANEL
6 IA
Rj
1
Model Description Shipping .
wt.
ME Lb. Kg.
LP-1 Addressable photoelectric smoke 1 0.45
detector
ILPT-1 Addressable photoelectric smoke 1 0.45
detector with 135' fixed thermal
B-3S Low profile surface mount base 1 0.45
ADBI-60 I Series audible base 1 0.45
DB-X3RS Mounting base with relay 1 0.45
RLI-1 Remote alarm Indicator (for 4' 1 0.45
octagon box mounting)
RLI-2 Remote alarm Indicator (for switch 1 0.45
box mounting)
DB-LK Locking kit for D-3S, DB-X3RS & 0.5
ADB-X3 10.22
RAD-ADB Optional finish ring for boxes
I Wiring Diagram
TO
NEXT
RELAY BASE • -
f- BASE
MODE/ NO 08 X3RS
oenor+at
6 ra
REMOTE Au1RM INDICATOR
MODELS al. 1. RU 2 — —
5+
NO RELAY
6_
C CONTACTSINC3A30VOC1120 VAC
to
f ® NEXT
BASE
TICS: The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics equipment will be considered a misapplication oforuSPyrotronicsequipmentandassuchvoidallwarrantieseitherexpressedorimpliedwithregardstoloss, damage, liabilities and/or serviceems.
CRichmond
Pyrolronics ,,
Cerberus Pyrotronics CER
IP$ 8 Ridgedale Avenue 5/94 ; % East
Pearce Street i-
YRO.B'RaryIFCS Cedar Knolls, NJ 07927 10M Richmond
Hill, Ontario L48,
1E37 CN TO: (201) 267-1300 CPY-IG Tel: ((105) 764-R3114 May 1994 2,.)1) ;1^7.700iS uild in l? C.A. FAX 1,30r731-`!/! i I`luw ii;EUe
d' Rice' a Ot (r'.y
TRIM60 Series
Intelligent Initiating Devices Interface Modules
ENGINEER AND ARCHITECT SPECIFICATIONS
Intelligent Interface Modules For XL3,
MXL and IXL Control Panels
TRI-60, TRI-60R, TRI-60D
Interfaces and Supervises Normally Open (Fire
Detection) or Normally Closed Contacts (Security
Detection)
Integral SPDT Relay Model TRI-60R
Dual Input Model TRI-60D
Microcomputer Chip Technology
Innovative Technology Supports Intricate
System and Interface Communication
Dynamic Supervision
Two Wire Operation
SensorLlNK, model FPI-32 Programs and Verifies
Device's Address and Tests Device's Functionality
Electronic Address Programming is Easier
and More Dependable
UL/ULC Listed, FM, CSFM, NYMEA and
City of Chicaoo AnnrnvPri
Introduction
Cerberus Pyrotronics TRI-60 Series Intelligent interface
modules are designed to provide the means of interfacing
direct shorting devices to the MXL system's ALD loop cir-
cuit, the IXL system's ICon loop circuit or to the XL3
system's INX loop circuit.
Cerberus Pyrotronics TRI-60 Series Intelligent interface
modules provide the market's most advanced method of
address programming and supervision, combined with so-
phisticated control panel communication. Each TRI-60
Series interface module incorporates a microcomputer
chip. The TRI-60 Series microcomputer chip technologyanditssophisticatedbi-directional communication capa-
bilities with the control panel, achieve the state of an
Intelligent Device."
Description
The TRI-60 Series intelligent interface modules are avail-
able in three models. The TRI-60 and TRI-60R are
designed to monitor a normally open or closed dry con- tact. The interface module reports the contact's status to
the control panel. The TRI-60 model can only monitor and
report the status of the contact, while the TRI-60R incorpo-
rates an addressable Form C relay. The TRI-60R relay and
contact device input are controlled at the same address.
For the XL3 and MXL system, the relay and input contact
can be controlled as a separate function, while for the IXL,
they are controlled as a related function. The relay is typi-
cally used where control or shunting of external equipment
is required.
The TRI-60D is a dual input module and is designed to su-
pervise and monitor two sets of dry contacts. This
interface module requires two address settings. However,
only one trouble message per TRI-60D device is available.
The TRI-60D is ideal for monitoring a waterflow switch and
its respective valve tamper. switch.
The TRI-60 Series devices can also be used to monitor the
status of normally closed security switches.
The device's microcomputer chip has the capacity of stor-
ing, in memory, identification information as well as
important operating status information. In addition, the TRI-
60 Series interface modules., using their microcomputer
chip, can communicate in either of two protocols, XL3 orMXLfortheMXLandIXL (ICon).
ifl-idINK r;^. CATALOG NUMBER S S
I[ w S• S[ 1 1 1 (I S - Ora 15%
7
SiF
reiberus Pyrotronics' inn /ative'technolbgy allows all TRI-
Series intelligent interface modules to be programmed
using a new accessory, the SensorLINK model FPI-32 .
rogrammer/Tester. The FPI-32 Programmer/Tester is a
compact, portable, menu driven accessory that makes pro-
grarnming and testing an interface device faster, easier
and snore dependable than previous methods. The FPI-32
eliminates the need for mechanical addressing mecha-
nisn is., such as program jumpers, dipswitches or rotary
dials, because the FPI-32 electronically sets the TRI-60 in-
erface's address into the interface's microcomputer chip
ion -volatile memory. Vibration, corrosion and other condi-
tions that deteriorate mechanical addressing mechanisms
are no longer a cause for concern.
Fhe TRI-60 Series is fitted with screw terminals for connec-
tion to an addressable circuit.
1-he TRI-60 Series operates with either the IXL, MXL or XL3
control panels.
The TRI-60 Series is fully compatible on the same MXL or
XL3 circuit with all intelligent ID-60 Series detectors, ,MSI
aeries addressable manual stations or any other address-
ible intelligent modules, such as the CZM or VCR. The
FRI (50 Series is fully compatible on the IXL (ICon) circuit
dith all intelligent ID-60 detectors and MSI manual stations.
411 TRI-60 Series intelligent interface modules are UL listed.
Environmental operating conditions for all TRI-60 Series
modules are 32' F (0'C) to 120' F (49'C) with a relative hu-
dity of not greater than 93 non-condensating.
agineer and Architect Specifications
The addressable interface module shall incorporate a cus-
tom microprocessor based integrated circuit that shall
provide communication with its compatible control panel.
The addressable interface module shall be a Cerberus Py-
rotronics TRI-60 Series that shall be compatible with a
Cerberus Pyrotronics IXL, MXL or XL3 control panel.
Cerberus Pyrotronics TRI-60 Series intelligent interface
modules shall provide the means of interfacing direct short-
ing devices to the control panel's addressable circuits. The
telligent interface modules shall be available in three
models. The TRI-60 and TRI-60R shall be designed to
monitor a single normally open or normally closed dry con-
tact. The interface module shall report the contact's status
to the control panel. The TRI-60 model shall only monitor
and report the status of the contact, while the TRI-60R
shall incorporate an addressable Form C relay. The TRI-
6UR relay and contact device input shall be controlled as a
separate function at the same address by the XL3 or MXL
control panel. The TRI-60D shall be a dual input module
designed to supervise and monitor two sets of dry con-
Lacts. This interface module shall require two address
settings. Only one trouble message per TRI-60D device
shad be annunciated. This trouble message shall be an-
nunciated using the lower numerical assigned address
message.
2)
The TRI Series devices shall be capable of and listed for
interfacing normally closed security switches to the MXL or
XL3 (per UL 1076).
The addressable interface module shall be UL listed.
The addressable interface module shall be dynamically su-
pervised and uniquely identifiable by the control panel.
The addressable interface module's address shall be pro-
grammed with the use of a portable programming
accessory. The programming accessory shall be a Cer-
berus Pyrotronics FPI-32 Programmer/Tester. The portable
programmer shall be menu driven. Once the desired ad-
dress is entered the programmer shall set and verify the
address. The programming accessory shall also be capa-
ble of testing the interface's functionality. The addressable
interface module's address shall be set by electronic
means only. No mechanical means such as programming
pins, dipswitches or rotary dials shall be required.
The TRI-60 Series shall be compatible on the same XL3 or
MXL circuit with other Cerberus Pyrotronics intelligent ID-
60 Series detectors, TRI Series addressable interfaces,
MSI Series addressable manual stations or any other Cer-
berus Pyrotronics XUMXL addressable intelligent module.
The TRI-60 Series shall be compatible on the same IXL
ICon) circuit as other intelligent ID-60 Series detectors,
MSI Series manual stations and TRI Series interfaces.
Ordering Information
flllodel
k
Description Shipping WC:
Lb. Kg.
TRI-60 Single Input 10 oz. .3
TRI-60R Single Input w/ Relay 10 oz. .3
TRI-60D Dual input 10 oz. .3
Mounting Data
NOTE: Rear conduit entry not recommended, only 1/2" clearance.
Ln
w '
3
Addressable Interfa Model TRI-60, TRI-60D, TRI-60R
mounts directly into a 3 and 1/2 inches deep, double gang
switchbox (user supplied) only. Each module is secured to
the switchbox with a standard blank, double gang switch -
plate (also user supplied). Refer to Figure 1 for details.
NORMALLY END OF LINE
OPEN •---•RESISTORIDSWITCHES3.6K, 1/4W
NOTES:
I. There can be any number of normally open switches.
2. The end of fine resistor must be located at the last switch.
3. Do not wire a normally closed switch across the end of
line resistor.
4. In security applications, an open or short causes a
security alarm.
NOTES
3.
4.
Figure 2
Wiring Normally Open Switches
Typical Wiring
Refer to Figures 2, 3, 4, 5 or 6) Refer to the appropriate
wiring diagram below and wire the addressable interface
module accordingly.
Note: Recommended wire size:
18 AWG minimum
14 AWG maximum
Wire larger than 14 AWG can damage the screw terminals.
NORMALLY CLOSED
SWITCHES
Z INE
R
NOTES:
1. There can be any number of normally closed switches.
2. The end of line resistor must be located at the TRI.
3. An open causes a security alarm. .
Figure 3
Wiring Normally Closed Switches
tL TONEXT
ADDRESSABLE DEVICE
t J
FROM MXL CONTROL PANELt1ORFROMIXL, ICON MODULE SEE NOTES 6 & 7
2 OR FROM PREVIOUS
3
j
ADDRESSABLE DEVICE
END OF LINE DEVICE
4 SEE NOTE 2
5 SUPERVISED SWITCH
SEE NOTES 1, 3 & 7
6 NOTUSED .
7
Figure 4
Model TRI-60 Wiring
8 EARTH GROUND -77
SEE NOTES /?7
6&7
For XL3: All supervised switches must be held closed for at least 15
seconds to guarantee detection
For MXL: All supervised switches must be held closed and/or open for
at least a quarter of second to guarantee detection.
End of line device: 3.6K ohms 1/4W resistor, P/N 140-820185.
The supervised switches have the following ratings:
Voltage maximum 27 VDC
Current maximum 3.5mA during pollingContactresistancemaximum10ohms
Maximum cable length 200 feet (18 AWG)
Maximum Capacitance:
CLine to line 02 uF
CLine to shield .04 uF
Max line size 14 AWG
Min line size 18 AWG
When used with the XL3 System, Supervised switch S1 is on even
numbered addresses, and Supervised switch S2 is on odd numberedaddresses. When used with the MXL System Supervised switch S 1 is
on the first programmed address, and Supervised switch S2 is on the
second programmed address.
Ground shield ONLY at the specified location on the Control Panel.
5. Relay contacts are rated:
2A, 125 VAC resistive,
2A, 30 VDC resistive
The relay is shown in standby condition.
6. When using shielded cable (with or without conduit): Connect the
cable shield to terminal 8 on the TRI.
When using conduit without shielded cable, ground
the conduit adequately and continually. Then connect
terminal 8 of the TRI to the electrical box in which it is mounted.
For IXL/ICon wiring, see ICon Installation Instructions PIN 315-
092134.
7. If INX/ALD wiring is shielded, shield the switch wiring also. Connect
all shields to terminal 8.
If INX/ALD wiring Is not shielded, the switch wiring must be in
conduit.
8. For proprietary burglary application (Refer to Figure 7):
a. Use a TSW-1 tamper switch to monitor the main enclosure
b. Monitor each TRI-60/60R/60D related to this application
continuously by using a listed motion detector (to prevent
tampering).
9. In supervisory:
TRI-60/60R draws .5mA
TRI-60D draws 1mA
m 0
11• - ++ ' MTV An
ENGINEER AND ARCHITECT SPECIFICATIONS
MSI-10 And MSI-20 Intelligent Manual. Fire
Alarm, Boxes for MXL and XL3 Control Panels
o Durable Design
e Shock and Vibration Resistant
o Pull Down Lever Remains Down Until Reset
o New Custom Microcomputer Chip Technology
o Dynamic Supervision
e Reset with Allen Key
No Break Rods Necessary
Two Wire Operation
o Surface or Semiflush Installation
o FPI-32 Programs and Verifies Device's Address
and Tests Device's Functionality
Electronic Address Programming is Easier and
More Dependable
s Single and Double Action Models
ul Listed, ULC Listed, FM and CSFM
Introduction
Approved
Cerberus.Pyrotronics MSI-10 and 20 intelligent manual
fire alarm boxes provide the markets' most advanced
method of address programming and supervision,
combined with sophisticated control panel communica-
tion. Each MSI manual fire alarm box incorporates a new
custom microcomputer chip. The microcomputer chip
technology, and its sophisticated bi-directional communi-
cation capabilities with the control panel, achieves the
state of an "Intelligent Initiating Device."
Description
The MSI-10 and 20 are constructed of durable molded
polycarbonate material which is matte finished in red with
raised white lettering. The housing accommodates a
pull -down" lever which, when operated, locks in position
indicating the manual fire alarm box has been activated.
The pull down lever remains down and locked until the
manual fire alarm box is reset. The manual fire alarm box
is reset only by opening the hinged housing cover with
an alien key and then closing and locking the cover.
5 1 1 1 l M S S f t Y l (1 t
MSI-10
Singl coon)
MSI-20
Double Action)
The MSI-10 and 20 manual fire alarm boxes operate with
the MXL, IXL/ICON-1 and XL3 control panels.
The manual fire alarm box's microcomputer chip has the
capacity of storing, in memory, identification information
as well as important operating status information.
Cerberus Pyrotronics' innovative technology also allows
all MSI Series Intelligent manual fire alarm boxes to be
programmed by using a new accessory, the Model FPI-
32 Programmer/Tester. The FPI-32 Programmer/Tester is
a compact, portable, menu driven accessory which
makes programming and testing a manual fire alarm box
device faster, easier and more dependable than previous
methods. The FPI-32 eliminates the need for the device's
mechanical addressing mechanisms, such as program
jumpers, dipswitches or rotary dials because the FPI-32
electronically sets the manual fire alarm box's address
into its microcomputer chip, nonvolatile memory. Vibra-
tion, corrosion and other conditions which deteriorate
mechanical addressing mechanisms are no longer a
cause for concern.
CATALOG NUMBER `6`62
IT-, MSI-10 ;and 20 are fitted with screw terminals for
connection to an addressable circuit.
Ttu MSI-10 and 20 can be either surface or semiflush
rruxmted. r.
le MSI-10 and 20 manual fire alarm boxes derive their
lower, communicate information and receive commands
over a single pair of wires.
The MSI Series is compatible on the same circuit with all
ID-60 Series ionization, photoelectric or thermal detec-
tors, TRI-2 Series interfaces or CZM Series addressable
conventional zone modules.
The MSI-10 and 20 intelligent manual fire alarm box is
Underwriters Laboratories, Inc. listed.
Engineer and Architect Specifications
The addressable manual fire alarm box shall incorporate
a custom microprocessor based integrated circuit which
shall provide communication with its compatible control
panel. The addressable manual fire alarm box shall be a
Cerberus Pyrotronics Model MSI-10 or MSI-20 which
shall be compatible with both the Cerberus Pyrotronics
MXL, IXL/ICON-1 and XL3 control panels.
The addressable manual fire alarm box shall be con-
structed of durable molded polycarbonate material which
is matte finished in red with raised white lettering. The a
housing shall accommodate a "pull down" lever, which
when operated locks in position after releasing a springloadedswitch. To indicate the manual fire alarm box has
yen activated, the pull down lever shall remain down
id locked until the manual fire alarm box is reset. The
manual fire alarm box shall be reset only by opening the
hinged housing cover with an alien key and then closingandlockingthecover.
The addressable manual fire alarm box shall be ULlisted.
Mounting Data
The addressable manual fire alar ox shall be dynami-
cally supervised and uniquely identifiable by the control
panel.
The addressable manual fire alarm box's address shall
be programmed with the use of a portable programming
accessory. The programming accessory shall be a
Cerberus Pyrotronics FPI-32 Programmer(Tester.i The
portable programmer shall be menu driven. Once the
desired address is entered, the programmer shall set
and verify the address. The programming accessory
shall also be capable of testing the device's functionality.
The addressable manual fire alarm box's address shall
be set by electronic means only. No mechanical means
such as programming pins, dipswitches or rotary dials
shall be required to set the device's address.
The MSI-10 or MSI-20 Manual Fire alarm box shall be
compatible on the same circuit with all other Cerberus
Pyrotronics ID-60 Series or X Series detectors. MSX or
MSI Series addressable manual fire alarm boxes, TRX or
TRI Series addressable interface modules, or CZM
Series addressable conventional zone modules.
Ordering Information.
Model No. Description Shipping Weight
11,07 MSI-10 Addressable Manual Fire Alarm
Box, Single Action 2 lb. (.90 kg.)
MSI-20 Addressable Manual Fire Alarm
Box, Double Action 2.5 lb. (1.13 kg)
SB-5R Surface Mounting Box 1.5 lb. (.68 kg.)
500-620490 Locking Tool Package (Contains 2
5 lb. (.23 kg.)
MSI-10 shown.
Same for the MSI-20) 4>
4"
MOUSING NAMEPLATE SB•5R
HINGED SURFACE MOUNTING BOX
TO
BACKPLATE -
i
1.3/16"
o5 l/2" A
HOUSING
N o I o ' •
0
3-1/2" DEEP SWITCH
BOX LOCKING \ 0 (USER
SUPPLIED) SCREWSURFACE
MOUNTING BACKPLATE \ ENCLOSURE
t
Typical Wiring Diagram
NOTES:
1. When using shielded cable (with or without conduit):
Connect the cable shield to terminal 3 (earth ground) on
the MSI. Do not ground the shield anywhere else but at
the specified location on the control panel enclosure. .
When using conduit without shielded cable:
Ground the conduit adequately and continually. Then
connect terminal 3 (earth ground) of the MSI to the
electrical box in which it is mounted.
0
M
4" Electronic Horn HG or SHG Series
RIFE
Applications it
4" low frequency electronic horn and alarm signal to a pulsing I .
E
p g ow frequencyhorn/strobe that meets code require- alarm signal by simply removing a jump- ments for supervised fire alarm systems er plug. Changing,from steady tone toforthehearingimpairedandADA'. pulsing tone does not prevent revertingTheHG/SHG series are quality elec- back to original tone at a later date. All SHG HG
tronic signaling devices that offer you units are shipped from the factory in the Approvalsbothdependableevacuationsignalsandsteadyalarmmode.
visual alarms or a combination of both by The FIG/SHG series are designed to •. simple terminal wiring. The SHG series be used for both new construction orcanalsobewiredtohaveindependentretrofitprojectsbyeasilymountingto4" operation of both horn and strobes. (See electrical boxes or 2 gang old work boxes 1( l MEMBER
wiring diagrams). This can be simply (see back for details). done by removing two jumper plugs lo- All HG/SHG devices are UL 464/1971 - Americans with Disabilities Act (ADA)
BFIRcatedoncircuitboard. (See installation listed for use with fire protective systems BSA/MEA #412-91-Emanualfordetails.) and are warranted for 2 ears from theTheHG/SHG series are easily field date of purchase.
y CSFM #7135-569:115
changeable from a steady low frequency • UL 46
72
UL 4
Standard Features
Low frequency/penetratingoutput. - p Textured finish high impact plastic Flush or semi -flush -mounting withoutLowcurrentconsumption17mA@faceplate. nominal voltage. (HG124) • Wide variety of mbunti options for •the need of a trim plate.
Wide voltage range. g p 1575 candela strobe option (SHG12- new construction and retrofit applica- 1575 and SHG24-1575). Meets ADAScrewterminals, separate in/out wir- tions.
ing option for both horn and strobe. • Supplied with beautyplugs to accom-
requirements.
Steady or pulsing tone. modate a v
p g UL 464/UL1971 listed for fire protec-
Available Models
Model OperatingNumberVoltage
HG124 10-30
SHG12-15
SHG12-1575
C-7),
ariety of installations.
Strobe maintains constant flash rate (1 live service/signal for hearing impaired.
per sec.) regardless of input voltage.
Flash
Light Effective
Rated Current
@ Nominal
Rated Current
@ Maximum.
Rates/Min Intensity In
Candela Operating
Voltage Operating
9 Voltage dB @10 Ft.
17mA 21 mA 100
10-16 40 15 137mA
10-16 60 15 (UL 1971) 226mA
75 (UL 1638)
SHG24-15 21-30 20 155G24-151 21-30 60 15
SHG24 1575 tow21 30 60 15 (UL 1971)
SHG2 1140
75 (UL 1638)
21 30 20 110
SHG24-110-1 21-30 60 -- 110
Note: 24VOC 15 candela units have a start-up current of 114mA
1575 candela units have a start-up current of 130mA110candelaunitshaveastart-up current of 148mA
12 VDC 15 candela units have a start-up current of 188mA
1575 candela units have a start-up current of 324mA
137mA 90
257mA 90
53mA 54mA 95
95mA 86mA - 95
110mA 98mA 95
110mA 98mA 95
237mA 2-0-0200mA 95
WHEN PLACING AN ORDER: add the following to the end of the model number:
t'
P = 'Plall mount
in (no lettering)
and R _ Retie faceplate
Wiring Diagrams
A +;1.11' aHNAND SHG SERIES POWERED 9J PARALLEL
It WED
ma
K Fr. S&
t>PEartsru 0 0 00
LHW
EOIR
B sl+ t Ia ES W N HORN AND STROBE POMPED NDEPENDENTLY.
NOIt 4 MOVE CIRCUIT (OVER 10-1SI%AND REMOVE JI/MPERS 1 AND 2,
E PLACE COVER AND PROCEED TO WME HORN WTO CIRCUIT,
UL USIEO
aNt K FI. S S. K hO. SS.
SHF I RWSENk
EOLR
EOM
NOTE: TOWER IS SUPPLIED TO DEVICES WHEN CONTROL PANEL IS LATCHED.
SERIES
Architect & Engineer Specifications
The alarm signal shall be Gentex model or
approved equal and shall be listed by Underwriters Laboratories
for Fire Protective Service hearing impaired., The model
shall also be listed with the California State Fire
Marshal and the Bureau of Standards and Appeals (NYC).
The alarm signals shall produce a sound output of 90 dBA or
greater peak as measured in an anechoic chamber.
The alarm signal shall be capable of changing from a steadytonetopulsingwithoutpermanentalterationtotheunit.
Maximum current consumption at 24VDC for alarm horn onlyshallnotexceed17milliampsandthemaximumcurrentcon-
sumption for horn/strobe using 15 candela shall not exceed
140mA @ 12VDG and 95mA @ 24VDC. For those applications
requiring the higher candela output strobe with alarm horn, the
strobe output shall be 75 candela. The current consumption of
the strobe (1575) shall not exceed 110 milliamps @ 24VDC and
226mA @ 12VDC @ 1 Hz, and combined with alarm horn shall
not exceed 115mA @ 24VDC and 226mA @ 12VDC. ,
The alarm signal shall be provided with screw terminals forin-
out field wiring, the strobe shall be capable of operation indepen
4ounting: 4" Square boxes w/brackets 2YB" deep minimum
dently after horn has been silenced. -
4" square metal/non-metallic switch/outlet boxes 2%" deep minimumGangable2gangswitch/masonry outlet boxes 2YB" deep minimum
vu I IE supplied with beauty plugs to accommodate a variety of installations. i`
4hr=IMTF.X
CORPORATION
ire Protection Products: 10985 Chicago Dr. Tx :i 10. Zeeland, MI 49464
T 95. FAX- 616/392-4219
r
9'IA
tw.l Printers nn nriCycled pr per
nxi2o49t iT
Tfr r s4r r (aR
ptv7i'f+'^'°'¢ >j F(5wh.x Sf•h 'Yv'
M
New UL 1 Constant
Flash Rate, Low Current
SERIES
Remote Visual Signal with Remote Audible/Visual
Universal Mounting Plate Signal
Meets Code Requirements for Supervised Systems
The GX Series are high quality remote
signaling devices that offer both audible
ijlarms, visual alarms, or a combination of
both.
The GX Series are available in Fire
Alarm Red or Beige faceplates with a
testured grain finish. These plastic
faceplates permit attractive flush
mounting.
The GX Series with the 1575
designator option meet the requirements
of UL 1971 and UL 1638, producing 15
candela and 75 candela. All models are
UL 1971 and UL 464 listed; the 1575
appliances are listed in compliance with
UL 464, UL 1971, and UL 1638. All
models are list for both filtered and
unfiltered power. .
AVAILABLE MODELS
Rated
Model #
3X90 2
GX90.4
Nominal
Vl otage12VDC
12VDC
Light
Intensity
In
Candela Current
Draw
@ Nominal
Voltage
12mA
15mA
Rated
Current Draw
@ Max Operating
Voltage
12mA
18mA
Flash
Rate/
Min. Peak .
db
@ 10
ft. 90
90
GXS
2-15 GXS-
2.1575 12 —
VDC 12
VOC 15
15 (
UL 19 11) 75 (
UL 1638) 115mA
209mA
115mA
240mA
40
g0
GXS
4.15 V145
1
575
24
VDC 24VDC
24
VDC 15
15
15 (
UL 1971) 75 (
UL 1638) 36mA
93mA
33mA
77mA
2078mA69mA
6060
GXS-
4-110 GXS
4 110-1 GXS
120=177 24
VDC 24
VDC 120
VAC 110
110
177
93mA
220mA _
400mA
77mA
179 '
A 20
60
GX90S-
2 15 GX90S-
2-1575 GX90S-
4-15 GX90S-
4.15-1 GX90S-
4-1575 GX90S 4
110 GX90S 4.
1101 12 VDC
12 VDC
24VDC 24
VDC 24
VDC 24
VDC 24
VDC 15 _
15 (UL
1971)
75 (UL 1638)
15 15 15 (
UL
1971)
75 (UL 1638)
110 -- 110 127mA
221mA
51mA
93mA
108mA
108mA
I
235mA
51mA_ 871nA
95mA
95mA
197mA
60
20
60
60
20DR
90
90
90
60
WHEN
PLACING
AN
ORDER: add the following to the end of the model number: For strobe ordersonly) (All orders) W" = Wall mount
and "R" = Red faceplate Fidin (no lett(
iring) R" - R-iqe f ccp!;tfe The GXS Series
and GX90S Series, at the 1/3
Hz flash rate, have no peak operating current and
only a momentary start-up current,
while the 1 Hz flash rate appliances have a
minimal peak operating current normally less
than a 7 percent increase from nominaloperating
current and minimal start-
up current. Notes: All 24
VDC
models operate from 21-30 VDC 20 + 10% All
12 VDC
models operate from 10-16 VDC 20 + 10% 24
VDC models
have thefollowing start-up current: 15cd 100mA 15cd
114mA 1
flash per sec 1575cd 130mA 110cd
220mA 110cd
148mA 1
flash per sec 12 UDC models
have the following start-up current: 15cd 188mA 1575cd324mA24
VDC models
have the following peak operating current: 15cd 36mA. 15cd
84mA 1
flash per sec 1575cd 110mA 110cd .
110mA 110cd
240mA 1
flash per sec ADA Approvals BFP
BS+
A/
MEAN285-
91-E CSFM *Listing 7135-
569:113 Listing 7120-569:
114 UL 464, UL
1971, UL 1638 ULC cNffVA^' MlMI:
111
M4n1
E Nr„EThissymbolon
thr U&CYs namcu a6• means it s
Lisien by inn'1'7SYI
li 11 !:: MA'II{n lllftll ,q Rae
I
i iring Diagram GX%90
h
u 1 Listed
uol Panel
Smoke End of Line
Detector Relay
l)
C?
i
Vor,,)o Supplied t0v`GX•90 fGk %16 S,gnial When End of Line
Resistorf',ui,•i is Latched
Mounting
Handy Box .....4" x 21/e" (Approx.)
Switch Box .....3" x 2" (Approx.) with
conduit knockouts
Masonry Box..33/4" (Approx.) with'/i'
and 3/4" concentric
knockouts
Nonmetallic
Swltchbox ......33/4" x 25/te" (Approx.)
Dimensions GX-90
r.77-M
3.2e." OODD00
O
Architect & Engineer
Specifications
The alarm horns shall be Gentex Model No.
GX 90. The appliance shall be listed with
Underwriters Laboratories for use with Fire
Protective Signaling Systems and produce a
minimum 85 dB at 10 ft. The appliance shall
be of solid-state construction and be polarized
to ope rate from 21-30 VDC with a 15 milliamp
current drain at 24 VDC; and from 12VDC with
a 12 rnilliamp current drain at 12VDC. The
appliance shall be provided with 2 terminals,
and mount to a variety of single -gang backboxt,s
M=X
Customer Service: 10985 Chicago Dr.
Box 310. Zeeland, MI 49464
616 31)2-7195, FAX: 616/392-4219
th Print
Wiring Diagram GX90S & GXS
0L GX90S & GXS
LISTED
CONTROL H L
PANEL
SUPERV
SIGNAL
CIRCUIT
RED 1 1 RED RED
GX90S & GX-90
HF]h
BLACK
SERIES
END OF LINE
RESISTOR
F 11
NOTE: • EACH WIRE RUN MUST BE BROKEN TO PROVIDE SUPERVISION OF SIGNAL CIRCUIT.
VOLTAGE SUPPLIED TO REMOTE SIGNAL WHEN PANEL IS LATCHED.
ALTHOUGH ELECTRICALLY COMPATIBLE, STROBE DEVICE UNITS ARE NOT RECOMMENDED FOR USE ONr:OOLO OR PULSING SIGNALING CIRCUITS.
Mounting Rough -in Box and Run Wiring
Outlet Box: 4" square with '/," K.O.
4'/16" square with'/i' K.O.
Masonry and Gang Box: 33/4" high
approx.) 2-Gang
Nonmetallic 2-Gang Switch Box: 4'/e'"W
xx 33/e"L x 3'/8"D (approx.)
Switch & Outlet Plastic Box: 2-Gang,
4"W x 3WL x 2'/z"D
approx.)
GX90S & GXS models will also mount
to single -gang boxes as listed tinder
GX90 alarm horn.
Dimensions GX90S
Architect & Engineer
Specifications
The alarm horn/strobe shall be Gentex ModelNo. . The appliance shall be listed byUnderwritersLaboratoriesInc. for use with Fire
Protective Signaling Systems, (hearing im- paired) in accordance with NFPA 72, UBC
standards and the local authority having juris- diction. The appliance shall produce a mini-
mum 82 dbA at 10 feet. The appliance shall be
of solid state construction and be polarized to
allow for supervision. All 24 models shall have
an operating range of 21-30V. The current
draw shall be' less than 93mA @ 24VDC @ 1 Hz
for 15cd models, 108niA @ 24VDC @ 1 Hz for
1575cd models, 235mA @ 24VDC @ 1 Hz for
11 Ocd models, 127mA @ 12VDC @ .6Hz for
15cd models and 221 mA @ 12VDC @ 1 Hz for
1575cd models. The appliance shall be provid- ed with two terminals and mount to a single
gang, double gang or double workbox. The
same operating characteristics of the GXS
strobe alone) shall also apply. ,r
Gentex Corporation reserves the riot to make chi
ed nn Recycled Paper
1. Mount one box for each remote
signaling device.
2. Run a minimum 16-gauge insulated
conductor to and from the signaling
device for low candela strobe and
14-gauge insulated conductor for .:
high candela strobes.
Dimensions GXS -.:`__
z.a.•
F`
A Se.w__
1
c C
EO""
Architect & Engineer
Specifications
The visual signal shall be the Gentex Model
The appliance shall be listed byUnderwritersLaboratoriesInc. for use with
Fire Protective Signaling Systems (hearing
impaired) UL 1971 and/orUL 1638. Thevisual
appliance shall be installed in accordance with
requirements of NFPA 72, Chapter 6 or the
UBC standards. The appliance shall mount to
a single gang, double gang or double work-
box. The appliance shall also be capable of
meeting thecandela requirements of the ADA
75cd) The appliance shall have a start up
current less than 114mA for 15cd, 130mA for
1575cd and 148mA for 11 Ocd. The appliance
shall be of solid state construction and be
polarized for supervision. All 24 models shall
have an operating range of 21-30V. The cur-
rent draw shall be less than 78mA @ 24VDC
@ 1Hz for 15cd models, 115mA @ 12VDC
@.6Hz for 15cd models, 93mA @ 24VDC @
1 Hz or 209mA @ 12VDC @ 1 Hz for 1575cd
models when used in conjunction with the
Americans with Disabilities Act (75cd) and
220mA @ 24VDC @ 1Hz for 11Ocd models.
4
Inges to the product data sheet at their discretion.
GX10,1491-1-I
1JL 864 Listed for NFPA 71
an be Used Stand Alone or ils a :;lave,
ommunicator
our Fully Supervised Inputs
i )ownloadable for Rornote Prograi nniiitg, Control
ind Monitoring
r useless Overload Protection with Automatic
i beset Circuitry and Fault Indicators
i)ual Phone Line Interface
Automatic 24 Hour Test
Deports in SIA and Most Major
Communications Formats
DESCRIPTION
Ttie Silent Knight Model 5104 is an 4-zone fire control
communicator. It is designed specifically to offer digital fire
retorting over ordinary telephone lines rather than costlyle_isu,d lines.
Tt to Model 5104 is approved for use in applications required to
weet UL 864 and NFPA 71 requirements. These requirements
include the monitoring of local evacuation controls. The 5104
will monitor dry contact alarm and trouble outputs and transmit
a separate code for each.
The Model 5104 can be used stand alone to monitor sprinkler
systems for waterflow, supervisory, and gate valve tamper
conditions. It can also be used stand alone for automatic fire
detection system for structures that are not required to have a
fire alarm system but want property protection (to call the firedepartmentafterhours).
Th e Model 5104 is fully supervised. Its microprocessor constantly
runs programs to monitor AC, standby battery, zone inputs, and
the telephone line connections. If a fault condition is detected,
sounds a local trouble audible and reports the condition to the
central station. If one of the telephone lines faults, for more than
45 seconds, it will automatically switch to the other to report thefailure.
r
5104 'IN
The Model 5104 conducts an automatic self -test every 24
hours —at a time you select —and sends a report to the central
station. It uses the industry standard SIA reporting format as
well as. other major formats to transmit to most central
station receivers.
The communicator will signal activation and restoration and
trouble conditions on any of the four inputs. There is one Style
0 (Class A) input, and three Style A (Class B) inputs. If an
application requires a different input configuration, the individual
input styles may be changed by using a Model 7181 Fire Zone
Converter Module. The 7181 also allows use of two -wire type
smoke detectors, instead of the normal four -wire contact type,
for automatic fire detection applications.
A single, programmable output is provided for alarm or dialer
failed conditions. This output cannot be used for evacuation
purposes.
Fuseless electronics provide built-in overload protection with
automatic reset that eliminates the cause of most field
service calls.
1
PROGRAMMING,
ftie 5104 can be programmed through the use of the optional
Model 5230 remote alphanumeric annunciator. Programming
options include: telepho a numbers, reporting format, account
mirnber, loop response times (electronic retard), test time,
outputactivation, user and installer codes. System programming is
stored in anon -volatile EEPROM chip which is reprogrammable h
Undredsof times. The 5104 accommodates up to three remote nnunciators
via a four -wire connection. A quick -connect plug i
I lows temporary connection of the annunciator for programming. t
blF'hU"Il i
POWER i
FIRE
ALARIA ANNUNCIATOR
5230
Programming
can also be accomplished through the use of the Silent
Knight Model 5521 desktop programmer. The 5521 also programs
other Silent Knight products and can be used to copy FEP
ROM chips on. ` 5521
I
downloadingcan be used to both remotely program the 5104 and
to check system status. Remote programming allows the installing
company to view the existing program, modify it, and it
necessary, troubleshoot the system. Downloading
software, Model 5541, includes both 31/z" & 51/4" disks
and is designed to be used on an IBM or compatible PC. It
also requires use of a Silent Knight Model 5530 modem. The downloading
software also contains programs for other Silent Knight
downloadable products. SPECIFICAI•
IONS ELECTRICAL
SPECIFICATIONS: Slave
Applications Input:
24 volts DC from a UL Listed Fire Control Panel Total
DC load: 75ma minimum @ 24 volts DC 600ma
maximum @ 24 volts DC Stand
Alone Applications Input:
120 VAC 60 Hz. 40 watts Standby:
12 volt 6.5 amp hour rechargeable battery (supplied) 5230
Remote Annunciator (three maximum per system) Load:
60ma standby 120ma
alarm INDICATOR
LIGHTS (LED'S): Power
On (Green) Trouble
Silenced (Yellow) Until Trouble is Cleared Dialer
Failure (Yellow) Telephone
Line Fault (2 Red) Inside Cabinet at L1
and L2 Inputs TELEPHONE
REQUIREMENTS: FCC
Registration #: AC698R-17462-AL-E Ringer
Equivalence 0.013 Type
of Jack: RJ31 X (2 required) MECHANICAL
SPECIFICATIONS: Dimensions:
12144 W x 151/4" H x 3" D 31.
1 cm W x 38.7cm H x 7.6cm D) Weight:
151bs. 6.
75 kg.) Color:
red OPTIONAL
ACCESSORIES: 5230
Remote Annunciator/Programmer 5521
Desktop Programmer 5530
Modem 5541
Download Software 7181
Fire Zone Converter Module 7860
Telephone Connecting Cord for RJ31
X Jack (2 required) APPROVALS:
UL
Listed - UL864/NFPA 71 FM
Approved CSFM
Approved BSA -
New York City 0
5530 •
p W
i
I
1 i
UL LISTED
LOCAL FIRE
CONTROL
SILENT KNIGHT
MODEL 5104
4 CHANNEL
COMMUNICATOR SILENT KNIGHT
MODEL 5230
OPTIONAL)
24 VQC POWER REMOTEANNUNCIATOR
3 MAX PER SYSTEM)
ALARM CONTACT
N.O. TYPCIAL)
TEL. LINE #1
TROUF LE CONTACT
N.C. TYPICAL) TO RJ31X
TEL. LINE #2
MODEL 5104 BLOCK DIAGRAM
Slave Communicator Application
v .
SILENT KNIGHT
MODEL 5104
120 VAC 60 Hz 4 CHANNEL
COMMUNICATOR SILENT KNIGHT
STYLE D INPUT
MODEL 5230
SUPERVISED) OPTIONAL)
MAX S WATERFLOW
DEVICES AS PER NFPA71 REMOTE ANNUNCIATOR
3 MAX PER SYSTEM)
STYLE A INPUTS
1
O
SUPERVISED)
SATE VALVE TAMPER OR PIV
WHEEL OCK
TEL. LINE 41 46T•G 10 12-R- BELL
SUPERVISOR - MUST CONNECT OPTIONAL)
NORMALLY OPEN
TO RJ31X
MODEL6712 TEL. LINE #212VDC6.5 AH
MODEL 5104 BLOCK DIAGRAM,
Stand-alone Waterf low Application
r
Plug-in Series 3; Series Z and ID-60
Ionization or Photoelectric Detectors
o Optional Relays for Supplementary
Equipment Operation
Optional Control Module for
Self-contained Operation (Series 3
Detectors Only)
Alarm LED Visible from Front
Clear Housing Cover for Quick
Identification of Detector Type
UL/ULC Listed
Introduction
The Cerberus Pyrotronics Series 3/X3 Air Duct Detector
Housings are designed to be used with Cerberus Pyro-
tronics Series 3, Series Z and Series ID-60, ionization or
photoelectric detectors. Designed for installation directly
to heating, ventilating, and air conditioning duct systems,
they comply with National Fire Protection Association
Standard No. 90A. When equipped with ionization or pho-
toelectric detectors, these units will signal the presence of
hazardous quantities of products of combustion or smoke
being carried through the duct system. Air duct detectors
are not intended to be substituted for open area detection.
The Series 3/X3 Air Duct Housings can be equipped with
optional relays. These relays are utilized to operate any
supplementary equipment when smoke or particles of
combustion are detected.
Note: Most control equipment including System 3
guarantees only one detector to alarm per zone.
Therefore only one detector per zone is permitted
when the detector operated relay function is
critical. The connection of a remote lamp or a
remote relay per detector is allowed, but not both.
The XL3 control panel assures operation of all
detector operated relays, therefore up to 30
detectors per circuit having relays for critical
functions may be used. For the MXL control panel,
up to 60 detectors per circuit having relays may
be used. The connection of a remote lamp or a
remote relay is allowed for each detector but not
both.
The Series 3/X3 Air Duct Housings (See Ordering Informa-
tion) are Underwriters Laboratories, Inc. listed.
Description
The Cerberus Pyrotronics Series 3/X3 Air Duct Housing is
uniquely designed to use the highly sensitive yet stable
Series 3, Series Z and Series ID detectors.
The sensitivity of Series 3 detectors can be checked in
place under,actual dynamic air flow conditions using a
Cerberus Pyrotronics Sensitivity Test Module. the sensitiv-
ity of Series ID-60 detectors can be checked in place un-
der actual dynamic conditions at the XL3 control panel or
MXL control panel respectively or may be printed by com-
mand on the optional printer.
The detector unit employs a cross -sectional sampling prin-
ciple of operation. Inlet sampling tubes are available in
four lengths (see table below). Outlet sampling tubes are
one common length. A continuous cross -sectional sample
of air moving through the duct is taken. This averages the
effects of laminar flow, stratification or skin effect phenom-
ena occurring in the duct that could prevent combustion
product or smoke (especially in large ducts) from reach-
ing a spot type detector.
In addition, the unique design of the Cerberus Pyrotronics
sampling chamber insures uniform sensitivity in air veloci-
ties, ranging from a low of 500 feet per minute to as high
as 4000 feet per minute.
infeL IAvI((S
CATALOG NUMBERM24
r
T'ie inlet sampling tube le th i`s determined by the width
tu` the air duct being prote ted. The inlet tube nearest to
t greater than the duct width should be used (see ta-
ble). The inlet tube can then be trimmed at the job site to
the exact width of the duct. The outlet sampling tube for
all ducts, irrespective of width, has fixed a length of ap-
proximately 3 inches (7.5 cm) and is supplied with the
duct housing.
Sampling Tube Selection Table
Duct Width Sampling Tube
Model No.
9" to 1'9" (21cm to 51 cm) STA-2
1'9" to 3'3" (51 cm to 97.5cm) STA-3
3'3" to 6'3"
97.5 cm to 187.5 cm) STA-6
6'3" to 9'9"
187.5 cm to 292.5 cm) STA-10
Greater than 9'9" (292.5 cm) Consult Cerberus
Pyrotronics
Maintenance of the detector is easily accomplished by
the removal of the Series 3/X3 Duct Housing sampling
chamber cover. The detector, which plugs into the hous-
ing, is easily removed for cleaning by a trained technician.
All that is necessary for the installation of the air duct de-
tector is the cutting of three small holes for the sampling
tube installation (template included) and the drilling of
cur holes for mounting -the air duct housing. The unit is
m easily mounted in place and connections made to
the existing wires or terminals if optional accessories are
utilized.
Engineer and Architect Specifications
The Air Duct Housing for the fire detection system shall be
a Cerberus Pyrotronics Series 3/X3 air duct housing.
The Air Duct Housing shall incorporate the use of one of
the following detectors.
Series 3 Ionization Model DI-133
Series 3 Ionization
High Altitude 3000-8000 ft.) Model DI-B3H
Series 3 Photoelectric Model PE-3
Series ID-60 Ionization Model ID-601B
Series ID-60 Ionization
High Altitude 3000-8000 ft.) Model ID-601BH
Series ID-60 Photoelectric Model ID-60P
Series Z Ionization Model DIZ-133
Series Z Ionization
High Altitude 3000-8000 ft.) Model DIX-133H
Series Z Photoelectric Model PEZ-3
The air duct housing unit shall be designed for detection
of combustion products and/or smoke in air conditioning
and ventilation system ducts in compliance with National
Fire Protection Association Standard 90A. The assembly
all consist of a housing to accommodate sampling
oes which extend into and across the duct of the ventila-
tion system.
While the fans are operating, a continuous cross -sectional
sampling of air from the duct shall flow through the se-
lected ionization or photoelectric detector, after which the
sampled air shall be returned to the duct.
Air handling equipment shall be shut down by a signal
from the fire detection system control equipment. When
the air duct housing incorporates the optional relay, the
shut down of air handling devices may be accomplished
by a signal directly from the detector.
The air duct housing shall be available with a self-con-
tained power supply so that it can function as a stand-
alone unit if desired. The self-contained stand-alone unit
will power and supervise two satellite units.
The air duct housing shall utilize a plug-in detector head
located in the air sampling chamber. The detector shall
be either ionization or photoelectric. There shall be provi-
sions to check the detector sensitivity in place under ac-
tual air flow conditions.
The air duct housing shall be mounted directly outside of
the air duct by means of four bolts (supplied). A template
shall be provided for making necessarycut-outs and holes.
Complete instructions shall be supplied with the unit.
The
air duct housing shall be a Cerberus Pyrotronics Model (
see listing on back page) and shall be Un- derwriter
Laboratories, Inc., listed, specifically for use in air
handling systems. Note
to Architect. When building codes regulate the lo- cation
of detectors within ventilating systems, make sure that
the number and locations of detectors is in accord- ance
with the code regulations. The "
X" Series and the PEC-3 detectors are obsolete as
of 1/1/92. The ID-60 Series are direct replacement for
the "X" Series and the PE-3 for the PEC-3.) Dimensions
4-
10.
2 cm rube
ISupply13A33.2cmi
be Duct
Electrical
Connection JJ
Mole for'.' Conduit (
Both Sides)
Typical Wirings`Typical Wiring For Self -Contained Unit and Satellite
i,, Model Remo1. R.5.1 Model
AD-31 or AD-3P RSw i SA-31 or SA-3P
InDN HIGH
120 VAC /
1]
9rf5060Mt2
NEU1
3AlarmComacls125VAC 2 VRengef
5d7 ;' Alarm LArtrD
R470a RL40 ` '—
C
OL
Er d Of Lme Devoe -'
NC B 2AMP
1.3r. Yrw RanW Alan lamp
RL..30 a RL 40
SATELLITE (2 Max.)
i
cwbe Ppoaorau
LYbd yrM1fm ]
c4r1eM PrW
W
cwovw Py momm
Lis$W XL3 or MXL
Syawm COM 018 Perlsls
HIGH Power Sourceconnalea
C.cwt
NEUTLO
11)
oaled Dev¢es
Manual `
w`
Tnermal Deteclors`
Slauan
Typical Wiring For System 3 Dependent Unit
Model - Model
AD-31 or AD-3P AD-3R1 or AD-3RP
Typical Wiring For MXL and X1.3 System Dependent Units
Model Model
AD-31 or AD-3P AD-3XRI or AD-3XRP
Typical Connections for INS-2 Use
Model AD-31 or AD-313 Model AD-31 nr Ataao
DATA
DATA
I
2e
ae 12e
Cwberw Pyrolronip -
LishO INS-2 SYS"
C4M/01 Panel _ V
V
ER
ER
NOTE: Use DIZ-B3, DIZ-133H, or PEZ-3 detectors only. Remote lamps and remote relays cannot be used with 7" series detectors.
To Imeaunq
Crwml OI Usled
Fee AlarmCOnlydlPanel
To Next Oeieclor
E oOLDe—e
TO Netl
e bIwAn.lop Device
i
i
I'
Jrdering Inforrn tidn
Model No.
AD-31
Descri tion
Series 3 air duct housing with cover for the Series 3, Series Z and Series
ID-60 detectors.
Shipping Weight
Lbs. Kg•
5 2.25
AD-3P Series 3 air duct housing with cover for the Series 3, Series Z and Series
ID-60 hotoelectric detectors.
5 2.25
AD-311I Series 3/X3 air duct housing with Series 3 remote relay and with cover for
Series 3 ionization detectors.
6 2.7
AD-3RP Series 3/X3 air duct housing with Series 3 remote relay and with cover for
Series 3 photoelectric detectors.
6 2.7
AD-3XRI Series 3/X3 air duct housing with Series ID-60 remote relay and with
cover for Series ID-60 for ionization detectors.
6 2,7
D-3XRP Series 3/X3 air duct housing with Series ID-60 remote relay and with
cover for Series ID-60 photoelectric detectors.
6 2.7
SA-31 Series 3 air duct housing with power supply for self-contained unit opera-
tion and with cover for Series 3 ionization detectors.
7 3.15
SA-313 Series 3 air duct housing with power supply for self-contained unit opera-
tion and with cover for Series 3 photoelectric detectors.
7 3.15
STA-2
STA-3
STA-6
STA-10
Sampling Tube, for ducts 9" to 1'9".
Sampling Tube, for ducts_1'9" to 3'3".
Sampling Tube for ducts 3'3" to 63".
Sampling Tube, for ducts 6'3" to 9'9". Sampling Tubes greater than 9'9",
consult Cerberus Pyrotronics.
1
2
4
6
45
9
1.8
3.7
RSW-1
DI-B3
DI-1331-11
PE-3
I6-60113
ID-601BH
ID-60P
DIZ-133
DIZ-1331-11
Reset Switch
Series 3 ionization detector.
Series 3 ionization detector for altitudes of3000-8000 ft.). _
Series 3 photoelectric detector.
Series ID-60 ionization detector.
Series ID-60 ionization detector (or altitudes_of 3000-8000 ft)_
Series ID-60 Photoelectric Detector.
Addressable ionization detector air duct use only (with AD-31).
Addressable ionization detector air duct use only (with AD-31) High Alti-
tude 3000-8000 ft.).
1
1
1
1
1
1
1
1
1
45
45
45
45
45
45
45
45
45
PEZ-3 Photoelectric detector.
Sensitivity test module for Series 3 ionization detector.
Sensitivity test module for Series 3 photoelectric detector.
Sensitivity test module cable assembly. _
1
1
1
1
45
45
TM- A3
TM-PE3
45
45
TMC
Note: Minimum hardware required is one Air Duct
Housing Assembly, one Sampling Tube and one
Detector.
NOTICE: The use of other than Cerberus Pyrotronics detectors and bases with Cer-
berus Pyrotronics control equipment will be considered a misapplication of Cer-
berus Pyrotronics equipment and as such void all warranties either expressed or
implied with regards to loss, damage, liabilities and/or service problems.
CECerberus PyrotronicsE Cerberus Pyr'otronics 50 East Pearce St.
VV UYMCHMICS 8 Ridgedale Ave. 9/93 Richmond Hill, OntarioCedarKnolls, NJ 07927 10M L48, 1B7 CN
Tel: (201) 267-1300 CPY-IG Tel: (905) 764-8384
FAX: (201) 397-7008 r' din U.S.A. FAX: (905) 731-9775
September 1993
Supersedes sheet dated 2192