ARIZONA STATE 1 A R C H I T E C T U R A L UNIVERSITY Δ ...€¦ · lab n115 add / alt. #1 n113a....

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LOGANSALT LAKE CITY PHOENIX

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SSCHWADA BUILDING 055TEMPE, ARIZONA 85287

ADDENDUM1ARIZONA STATE

UNIVERSITY001

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0 BID SET - ADDENDUM 1

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A101

A201C4

VEST.N100V3

100V3

1131 115 VEST.N100V2

PREP. LABN115

ADD / ALT. #1N113A

. ROOM11 ADD / ALT. #1

N113

CORRIDORN100C1

A1A301

2

4

A101D6

A251

5' - 9"6 1/2"

2' - 5

"6"

20' - 0" 1' - 2" 12' - 1" 13' - 11"

3' - 4" 7"

1' - 0

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- 1"

11"

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115A

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5' - 0 1/2" 3"A1 A3

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S67

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S77 S67

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8' - 6

"

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A501A4

5

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1

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5 - P

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LAB

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12'-0" TYPICAL

12'-0" TYPICAL

4'-0" MAX

CEILINGSUSPENSIONSYSTEM

45

FIRST LINE OFBRACING 4'-0" ORLESS FROM WALLBOUNDARY

O

B4A701

3" = 1'-0"A701B3 A701 - TYP. SEISMIC BRACING DETAIL 01

1

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UNIVERSITY001

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A451

UP

FLOOR DRAIN

RETAINING WALL

HANDRAILS;RETURN ENDSTO WALL

A451B1

1

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UNIVERSITY001

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A

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A3 A302

C1 A302

20' -

5"17

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57' -

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72' -

4"

67' -

8"

EQ

EQ

EQ

2' - 10 5/8"

LINE O

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L1

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WAL

L1

E3 FIRE RISER SCHEMATIC

A3VENT THRU ROOF

B3WALL CLEANOUT

C3ROOF DRAIN

D32-WAY CLEANOUT

D5PIPE THRU WALL SLEEVE

B5COMPRESSED - AIR ASSEMBLY

A5HOT AND CHILLED WATER COIL PIPING

BACKFLOW PREVENTION SYSTEMREDUCED-PRESSURE

E5

A2EXCHANGER PIPINGHEAT

A1CHILLER PIPINGCOOLING PANELSCOPE/

C1WASTE AND VENT PIPING SCHEMATIC

E2GRADE CLEANOUT

12"

1/2"

1/8" C.I. BEND

1/2"

1/2"

1/2" C.W.

24"x12"

6"

3/8"

2"

3/8"

1 1/2"

1 1/2"

1 1/2" CR

1 1/2"

1 1/2" CS

1/2"

18" SQUARE

6"

P

P

P

P

P

P

P

P

ELEVATIONA

ACOLLAR

BUGLE-HEAD SCREW

INSULATIONCONCRETE ROOF STRUCTURE

ROOFING MEMBRANE

METAL COLLAR

VERTICAL FLASHING MEMBRANE

DRAW BAND

CONTINUOUS SEALANT

VENT

CONTINUOUS SEALANT

ROOF MEMBRANE

FLASHING

RIGID INSULATION

REFERENCED ON DRAWING AS "WCO"

WALL

FINISHED FLOOR

SCALE: N.T.S.

SCALE: N.T.S.

SCALE: N.T.S.

SCALE: N.T.S.

SCALE: N.T.S. SCALE: N.T.S.

SCALE: N.T.S.

SCALE: N.T.S.

PRESSURE GAUGE

0-150 PSI

PRESSURE

REGULATOR

(SET AT 100 PSIG)

(4) 2"x2"x1/4" THICK

NEOPRENE PADS

CONCRETE FLOOR SLAB

REFRIGERATED AIR DRYER

BALL VALVE

(TYP)

PRESSURE GAUGE (TYP.)

FLOOR LINE

UNION (TYP.)

SET @ 15 PSIVALVE. (TYPICAL)PRESSURE REDUCING

R.P.B.P.

DISTRIBUTION SYSTEMPLUGGED TEST TEE (TYP.) TO POTABLE WATER

GLOBE VALVE

BYPASS

FULL SIZE

SCALE: N.T.S.

BALL VALVE (TYP.)

FLOW

COUNTERSUNK BRASS

CAST IRON FERRULE WITH

CONCRETE SLAB

CLEANOUT STACKS

FLUSH WITH PAVINGCLEANOUT PLUG

2" GRASS

SCALE: N.T.S.

CIRCUIT SETTER

(B & G OR

APPROVED EQUAL)

BALL VALVE

(TYP.)

THERMOMETER

(TYP.)

(TYP.)

CHILLED

WATER

CIRCUIT SETTER

CHR

CHS

STRAINER

UNION (TYP.)

CHECK VALVE(TYP.)

SCALE: N.T.S.

FULL-SIZE DRAIN LINE

TO FLOOR SINK

1/2" COMPRESSED AIR

TO SCOPE ROOMS

COMPRESSED

AIR FILTER

OIL MIST

SEPARATOR

UNION

CHECK VALVE

1/2" FROM EXISTING COMPRESSED AIR

LINE IN BASEMENT OF SCHWADA

BUILDING

MINIMUM 24" TO TOP OF ROOF

HORIZONTAL

FLASHING MEMBRANECONTINUOUS SEALANT

CHROME WALL COVER AND SCREW

PLUGGED TEE WITH

CLEANOUT

BALANCE OF PIPING SAME AS

CLEANOUT TO GRADE

MAY EXTEND AS A

WASTE OR VENT

LINE

CONCRETE ROOF DECK WITH CONCRETE

TOPPING (SEE ARCH. DRAWINGS FOR

EXACT ROOF CONSTRUCTION DETAILS)

UNDERDECK

CLAMP DEVICE

30"x30" FLASHING

FLANGE IN FLASHING

CEMENT. RUN INTO

ROOF DRAIN BODY

ROOF

DRAIN

STRAINERFLASHING CLAMP RING

NOTE: PIPING SHOWN IS DIAGRAMATIC, CONTRACTOR SHALL

FOLLOW HEAT EXCHANGER MANUFACTURER'S INSTRUCTIONS ON

PIPING CONNECTIONS.

PRESSURE GAUGE

CHR

CHS

CHILLER

PRESSURE GAUGE

(O-100 PSI)

FLEX

CONNECTION

CIRCUIT-SETTER

(FLOW SENSOR)

B & G OR EQUAL

THERMOMETER

(0-100 F)

BALL VALVE

UNION

(TYP.)

(TYP.)

(TYP.)

(TYP.)

HWS

HWR

GLOBE VALVE WITH DDC ACTUATOR

COIL

(SEE SPEC. SECTION 230900)

THERMOMETER

(TYP.)

CONDENSATE TRAP

1

1

1 FOR CHILLED WATER COIL ONLY.

FLOW SETTER

(B & G 'CIRCUIT SETTER' OR

APPROVED EQUAL)

BALL VALVE

(TYP.)

PRESSURE GAUGE

CONNECTOR

("PETE'S" PLUG)

3/4" CONDENSATE

DRAIN LINE TO

FLOOR SINK

STRAINER WITH BLOWDOWN VALVE

REDUCED PRESSURE BACKFLOW PREVENTOR.(WATTS NO. 007 OR APPROVED EQUAL)

STRAINER WITH VALVE,

HOSE CONNECTION, AND

CAP.

UNION (TYP.)

1/2" C.W.

MAKE-UP

(SEE PLBG.DWG'S)

AD-1,2,OR3SCALE: N.T.S.

FLOOR LINE

MAIN FIRE LINE

UNDERGROUND

CONTROL VALVE

BACKFLOW PREVENTER

(DOUBLE-CHECK VALVE)

CONTROL VALVE

MANIFOLD

(SAME PIPE SIZE AS MAIN FIRE LINE)

CONTROL VALVE

PRE-ACTION VALVEPRE-ACTION

RISER

WET

RISER

WET SYSTEM CHECK VALVE

CONTROL VALVE

FDCBACKFLOW

PREVENTER

WITH CONTROL

VALVES

FLANGE

NOTE I: 90-DEGREE ELBOWS SHALL NOT BE USED EXCEPT FOR VENT PIPING.

NOTE II: NO TRAPS FOR FLOOR DRAINS/FLOOR SINKS, TRAP INSERT FITTINGS

TO BE PROVIDED (SEE PLUMBING FIXTURE SCHEDULE ON SHEET ME003).

3" FS-1

3" FD-1

3" FS-1

3" FS-1

3" FS-1

3" FS-1

3" FS-1

3" FD-1 3" FD-1

3" FD-1

S-1

C.O.

1 1/2"

4"

V.T.R.

4" G.C.O.

NOTE:

THIS SCHEMATIC DOES NOT

SHOW ALL VALVES,

APPURTENANCES, FITTINGS

REQUIRED BY VARIOUS

CODES, BUT IS A BASIC

REPRESENTATION OF HOW

THE WET SYSTEM AND THE

PRE-ACTION RISERS ARE

TO BE CONNECTED.

A3

ME002

FINISHED GRADE

SCALE: N.T.S.

CAST IRON

COVER

1/8 BEND IF

CLEANOUT

OCCURS AT END

OF LINE

CONCRETE BY PLUMBING CONTRACTOR,

TROWEL SMOOTH AND EDGEBRASS

CLEANOUT WITH

COUNTER-SUNK

HEAD

WASTE TRUNK

LINE OR LATERAL

FLEXIBLE PIPING CONNECTOR

(TYP.)

2 LAYERS OF 5/8"

UL CLASSIFIED

GYPSUM

WALLBOARD

2" COLLAR FILLED

W/METACAULK 880

PVC/CPVC PIPE (DWV OR PRESSURE)

METACAULK 880

1/4" BEAD IN

ANNULUS

HX-1

P-1

P-2

4"

4"

4"

E2

ME002

OFFSET DN.

4"

P.O.C. ABOVEFLOOR SLAB

SLEEVE THRUEXIST. CONC. WALL

EXIST. DUPLEXSEWAGE EJECTOR

WASTE SECURED TO CONC.WALL IN PASSAGEWAY @BASEMENT LEVEL (PROVIDESLEEVES WHERE PIPING MUST PASS THRU WALLS)

EXIST. 4"WASTE RISER

1/4" MANUAL AIR VENT TO FLOOR DRAIN

(TYP.)

DATE:

DRAWN BY:

CHECKED BY:

NEXUS PROJECT #:

SHEET CONTENTS:

LOGAN

SALT LAKE CITY

PHOENIX




A R C H I T E C T U R A L1

A

B

C

E

D

2 3 4 5 6

[PROJECT TITLE]

[STAMP/CONSULTANT]

[NOTES/LEGENDS]

2010

http://www.archnexus.com

Original drawings remain the property of theArchitect and as such the Architect retainstotal ownership and control. The design

represented by these drawings is sold to theclient for a one time use, unless otherwiseagreed upon in writing by the Architect.

Architectural NEXUS, Inc.

© Architectural Nexus, Inc.

2150 South 1300 East, Suite 200Salt Lake City, Utah 84106

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REVISIONS#

SCHWADA BUILDING 055

TEMPE, ARIZONA 85287

5/27/2010 2:40:46 PM

C:\Users\ral\Documents\SPECTRUM JOBS\100126-Mech Central_ral.rvt

MECHANICAL

AND PLUMBING

DETAILS

RXL

ARIZONA STATE UNIVERSITY

100126

2010.05.21

REGIONAL CENTER FOR ABERRATION CORRECTED ELECTRON

MICROSCOPY

BID SET

ME002

S.Rambo

1 05/21/10 BID SET

-ADDENDUM 1

2010.05.07

1

1

SYMBOL

HF-1

MANUFACTURER

CAMBRIDGE

MODEL NO.

01XH-24Z24Z12

HOUSING

TYPE

SIDELOCK;

ACCESS BOTH SIDES

AIR FILTER SCHEDULE

CFM

1,000

SYSTEM

SCOPE ROOM

U.L.

RATING

CLASS 1

RATED

EFF. %

(ASHRAE)

99.97

QTY.

1

CARTRIDGES

SIZE

W" x H" x D"

24x24x11½

ARRANGEMENT

-

MAXIMUM S.P. DROP

INITIAL

0.65

FINAL

1.3

SYMBOL

CP-1

1.

2.

MANUFACTURER

JEOL

CONTRACTOR SHALL PROVIDE 3/4" DIA. COOLING LINES FROM CHILLER AND PUMPS TO PANELS, WITH BALL

VALVES/B & G "CIRCUIT-SETTER"/PRESSURE GAUGES/THERMOMETERS, CONTROLS, FOR A COMPLETE SYSTEM.

ALTERNATE MFGS: ENERGIE SOLAIRE SA (SWISS SOLAR ENERGY PRODUCTS, WWW. ENERGIE-SOLAIRE.COM)

MODEL

HRP

COOLING PANEL SCHEDULE

SIZE

31" W. X 84" H.

X 1" THICK

COOLING CAPACITY

(TOTAL CONVECTION

& RADIANT)

1,734 BTU/HR

COMMENTS

1,2

SYMBOL

CD-1

CD-2

CS-1

ER-1

L-1

R-1

R-2

R-3

MANUFACTURER

KRUEGER

KRUEGER

KRUEGER

KRUEGER

RUSKIN

KRUEGER

KRUEGER

KRUEGER

MODEL NO.

1400

1400

AFS-580

S80

EME 4625

S80

S80

S80

TYPE

DROP FACE,4-CONE

DROP FACE,4-CONE

FIXED-BLADE

FIXED-BLADE

VERT. BLADES

FIXED-BLADE

FIXED-BLADE

FIXED BLADE

DIFFUSER AND GRILLE SCHEDULE

MOUNTING

T-BAR

SURFACE

T-BAR

SURFACE-MOUNT

MASONRY

T-BAR

SURFACE-MOUNT

SURFACE-MOUNT

BLOW

PATTERN

SEE PLAN

SEE PLAN

0° (STRAIGHT)

-

-

-

-

-

NECK

SIZE

SEE PLAN

SEE PLAN

18" DIA

-

24"x16"

SEE PLAN

SEE PLAN

18"x18"

OBD

NO (OBD IN DUCT)

YES

YES

YES

NO

YES

YES

NO

ACCESSORIES

AND REMARKS

FRAME 23, WHITE, STEEL CONSTUCTION

FRAME 22, WHITE, STEEL CONSTRUCTION

ALUM. CONST., FRAME 23, WHITE

FRAME 22

4" DEEP, BIRDSCREEN

FRAME 23, WHITE, STEEL CONSTUCTION

FRAME 22

FRAME 22

SYMBOL

EF-1

EF-2

EF-3

MANUFACTURER

COOK

COOK

COOK

MODEL NO.

ACRUD 100R

15DM

ACEB-70

ACEB-70

CFM

350

240

200

STATIC

PRESSURE

IN WG.

.625"

.375"

0.375"

WHEEL

DIAMETER

10 IN.

10 IN.

10 IN.

EXHAUST FAN SCHEDULE

H.P.

1/4

1/6

1/6

FAN

RPM

1,640

1,540

1,450

MAX

SONES

9.7

9.5

8.5

VOLTS/

PHASE/

CYCLE

120/1

120/1

120/1

AREA

SERVED

LAB HOOD

SCOPE &

CONTROL RMS.

LAB SNORKEL

REMARKS

ROOF-MTD. DOMEX, UP-BLAST, DIRECT-DRIVE,

SPEED-CONTROLLER, ROOF CURB.

ROOF-MTD. DOMEX, BELT-DRIVE, ROOF

CURB, SHALL RUN CONTINUOUSLY

ROOF-MTD. DOMEX,

BELT-DRIVE, ROOF CURB, WALL SWITCH

UNIT

FC-1

FC-2

FC-3

FC-4

FC-5

FC-6

FC-7

FC-8

FC-9

FC-10

FC-11

FC-12

FC-13

FC-14

FC-15

2006

I.M.C.

OCCUPANCY

CLASSIFICATION

STORAGE & REPAIR

OFFICE (CONTROL ROOM)

EQUIPMENT ROOM



EQUIPMENT ROOM


EQUIPMENT ROOM (SCOPE ROOM)




CORRIDOR

LAB ROOM

MECH. ROOM

ELEC. ROOM

FRESH AIR SCHEDULE2006

MAXIMUM

OCCUPANCY

1000 SQ. FT.

-

7

-

7

7

-

7

-

-

-

-

-

30

-

-

AREA

SQ. FT.

408

167

250

167

167

250

167

360

360

360

360

976

374

-

-

TOTAL

NO. OF

PERSONS

.10 CFM/SF

1

2

1

1

2

1

1

1

1

1

.10CFM/SF

11

-

-

2006

CFM PER

PERSON

-

20

20

20

20

20

20

20

20

20

20

-

20

-

-

CFM OF

FRESH AIR

40

20

40

20

20

40

20

20

20

20

20

100

220

-

-

SYMBOL

HX-1

1.

MANUFACTURER

TACO

PLATE AND FRAME TYPE, NITRILE GASKETS, #304 S.S. PLATES, 125 PSI RATING

MODEL NO.

PF-22

SQ. FT

HEATING

SURFACE

484

HEAT EXCHANGER SCHEDULE

LENGTH X

WIDTH

40"X12"X45" H.

FLOW

GPM

49

IN

F

53

CHILLED WATER

OUT

F

59

P.D.

FT. MAX.

8

FLUID

TYPE

DIST. WATER

SCOPE COOLING WATER

FLOW

GPM

18

IN

F

76

OUT

F

60

P.D.

FT. MAX

8

ADDITIONAL

SAFETY

FACTOR

50%

COMMENTS

1

SYMBOL

ST-1

1.

MANUFACTURER

SPEEDAIRE

CONTRACTOR SHALL RUN 1/2" DRAIN LINE TO NEAREST FLOOR SINK. PROVIDE 1/2" BALL VALVE IN DRAIN LINE NEAR TANK.

GRAINGER

ITEM NO.

I T Z Z 5

COMPRESSED AIR STORAGE TANK

CAPACITY

GALLONS

30

DIMENSIONS

INCHES

16" DIA X 37" LONG

WORKING

PRESSURE

175 PSI

COMMENTS

ASME 'U' CODE, POWDER-COATED FINISH, 1/2" DRAIN CONNECTION ON BOTTOM OF TANK. (1)

FIXTURE

SYMBOL

S-1

FD-1

FD-1

FS-1

RD-1

RD-1

ORD-1

ORD-1

DSN-1

DSN-1

**

FIXTURE

SINK

FLOOR DRAIN

FLOOR DRAIN

FLOOR SINK

ROOF DRAIN

ROOF DRAIN

OVERFLOW ROOF DRAIN

OVERFLOW ROOF DRAIN

DOWN-SPOUT NOZZLE

DOWN-SPOUT NOZZLE

NO VENT, NO TRAP ASSEMBLY, PROVIDE PRO-SET "TG-23P" TRAP INSERT FITTING.

MFG.

ELKAY

WADE

WADE

WADE

WADE

WADE

WADE

WADE

WADE

WADE

MODEL

PSR1918

1103 STD8

1104 STD8

9143

3008

3003

3008-D

3003-D

3948

3943

FAUCET OR

FLUSH VALVE

ELKAY LKDC2433

NO TRAP ASSEMBLY (USE PRO-SET

TG-23P TRAP INSERT FITTING), OR EQUAL OF 'SURE SEAL'

NO TRAP ASSEMBLY

NO TRAP ASSEMBLY (USE PRO-SET

TG-23P TRAP INSERT FITTING) OR EQUAL OF 'SURE SEAL'

-

-

-

-

-

-

PLUMBING FIXTURE SCHEDULEWASTE

2"

3"

4"

3"

8"

3"

8"

3"

8"

3"

VENT

1 1/2"

**

-

**

-

-

-

-

-

-

HW

PIPE

SERVICE

1/2"

-

-

-

-

-

-

-

-

-

CW

PIPE

SERVICE

1/2"

-

-

-

-

-

-

-

-

-

QUANTITY

1

4

1

6

2

1

2

1

2

1

WATER

FIXTURE

UNITS EA.

4

-

-

-

-

-

-

-

-

-

WASTE

FIXTURE

UNITS EA.

2

6

-

6

-

-

-

-

-

-

TOTAL:

WATER

FIXTURE

UNITS

4

-

-

-

-

-

-

-

-

-

4

WASTE

FIXTURE

UNITS

2

24

-

36

-

-

-

-

-

-

62.00

REMARKS

19"x18"x7 1/2" DEEP TYPE 304 STAINLESS, 4-HOLE,

12"x7" FAUCET SPOUT, SPRAY

8" DIA. NICKEL-BRONZE STRAINER

FOR STORMWATER DRAINAGE, 8" DIA. NICKEL-

BRONZE STRAINER

CAST-IRON 12"x12"x8" DEEP SUMP, ALUM. DOME

STRAINER, 3/4 GRATE

27" DIA. CAST-IRON BODY, CAST-IRON DOME

24" DIA. CAST-IRON BODY, CAST-IRON DOME

27" DIA. CAST-IRON BODY, 2" HIGH DAM,

CAST-IRON DOME

24" DIA. CAST-IRON BODY, 2" HIGH DAM,

CAST-IRON DOME

CAST-BRONZE, THREADED, FLANGE

CAST-BRONZE, THREADED, FLANGE

SYMBOL

P-1, P-2

2.

MANUFACTURER

PACO

CLOSE-COUPLED, END-SUCTION, BRONZE-FITTED, HI-EFF TEFC MOTOR, MECHANICAL SEAL, RE-GREASEABLE PUMP BEARINGS.

MODEL

1250-1

LOCATION

MECH. RM

SYSTEM

SCOPE

HEAT

EXCHANGER

FLUID

TYPE

DISTILLED

WATER

GPM

18

CIRCULATING FLUID

PUMP HEAD

(FT. FLUID)

85 FT.

TEMP

(F)

60

SP.

GR.

1.0

PUMP SCHEDULE

% EFF

42

BHP

.9

NPSH

6 FT.

NO. OF

STAGES

1

PUMP

RPM

3,500

TYPE

CENT.

STARTER

OR

VFD

STARTER

MOTOR

HP

1-1/2

RPM

3,500

ELECTRICAL

VOLT

460

PHASE

3

Hz

60

OPERATING

WEIGHT

(LBS)

55

COMMENTS

2

SYMBOL

FC-1

FC-2,4,5,7

FC-3,6

FC-8,9,10,11

FC-12

FC-13

FC-14

FC-15

AH-1

1

2

3

4

5

6

7

MANUFACTURER

TRANE

TRANE

TRANE

TRANE

TRANE

TRANE

TRANE

TRANE

TRANE

1" THICK MATT-FACED INSULATION/LINER.

CONTROL INTERFACE.

2" DEEP 30% (MERV 8) PLEATED AIR FILTER.

HORIZONTAL CONFIGURATION.

VERTICAL CONFIGURATION.

MOTOR COMPATIBLE WITH VFD (VFD PROVIDED BY ELEC. CONTRACTOR, SEE ELEC. DWGS.).

DUCT SMOKE DETECTOR IN RETURN AIR DUCT FOR FAN SHUT-DOWN. SMOKE DETECTOR FURNISHED BY ELECTRICAL

CONTRACTOR, WIRING AND CONDUIT BY ELECTRICAL CONTRACTOR, AND TESTING BY FIRE PROTECTION CONTRACTOR.

MODEL NO.

BCXC-36

BCXC-18

BCXC-72

BCXC-54

BCXC-36

BCXC-36

BCXC-54

BCXC-72

BCXC-24

AREA

SERVED

REPAIR

CONTROL

EQUIPMENT

SCOPE

CORRIDOR

LAB

MECH.

ELEC.

OSA

CFM

1,000

400

2,000

1,000

900

900

1,300

2,600

580

EXTERNAL

STATIC

PRESSURE

(IN. WG.)

0.5

0.5

0.5

1.6

0.6

0.5

0.5

0.5

0.5

MOTOR

H.P.

3/4

1/2

1

1 1/2

3/4

3/4

1

1 1/2

3/4

FAN BLADE

TYPE

FORWARD-CURVED

FORWARD-CURVED

FORWARD-CURVED

BACKWARD-INCLINED

FORWARD-CURVED

FORWARD-CURVED

FORWARD-CURVED

FORWARD-CURVED

FORWARD-CURVED

GPM

9.9

4

12.0

7.3

5.5

6.9

13.0

25.7

-

CHILLED WATER COIL

MAX. WATER

P.D.

FT HD

8

8

8

8

8

8

8

8

-

MIN. FACE

AREA

SQ. FT.

2.6

1.1

5.0

4.0

2.6

2.6

4.0

5.0

1.6

FAN COIL UNIT SCHEDULE

MIN.

COIL

ROWS

6

6

6

6

6

6

6

6

-

ENT

DB/WB

74/59

74/59

74/59

74/59

74/59

74/59

74/59

74/59

-

COOLING

CAPACITY

(MBH)@53° EWT/59° LWT

TOTAL

29.7

12.1

36.0

22.0

23.6

20.7

38.9

77.0

-

SENS

20.8

8.5

25.2

16.0

16.5

14.5

27.3

54.0

-

GPM

1.8

0.5

-

-

1.8

1.8

-

-

-

HEATING WATER COIL

MAX. WATER

P.D.

FT HD

5

5

-

-

5

5

-

-

-

MIN.

COIL

ROWS

1

1

-

-

1

1

-

-

-

ENT. AIR

70

70

-

-

70

70

-

-

-

HEATING

CAPACITY

(MBH)@140° EWT/59° LWT

18

5

-

-

18

18

-

-

-

VOLTS

460

460

460

460

460

460

460

460

460

ELECTRICAL

PHASE

3

3

3

3

3

3

3

3

3

CYCLE

60

60

60

60

60

60

60

60

60

AIR FILTER

MIN. AREA

SQ. FT

COMMENTS

1,2,3,4,6

1,2,3,4,6

1,2,3,4,6

1,2,3,4,6

1,2,3,4,6

1,2,3,5,6

1,2,3,5,6

1,2,3,5,6,7

1,2,3,5,6

SYMBOL

CH-1,2,3,4

CH-5

EQUIPMENT

SERVED

COOLING

PANELS

SCOPE

MANUFACTURER

HASKRIS

HASKRIS

MODEL

R250-CH

(R4) S (K9)

R175-CH

(R4) S (K9)

CONDENSER

WATER COOLED

WATER COOLED

MCA

22.8

15.3

V/ø

208/1

208/1

SCOPE / COOLING PANEL WATER CHILLER

WATER PUMP

FLOW

6.0 GPM

4.0 GPM

WATER TEMP.

STABILITY

0.1 DEG C

PLUS OR MINUS

0.1 DEG. C

PLUS OR MINUS

COOLING

CAPACITY

31,600 BTU/HR

22,165 BTU/HR

PRESSURE DROP THRU

CONDENSER COIL

25 PSI

(MAX)

25 PSI

(MAX.)

REMARKS

R-22 REFRIGERANT, WATER PUMPS (FOR PANEL CHILLED WATER)

SHALL BE 2(TWO) HASKRIS #T4IL-AB, PIPING TO ALL PANELS,

CONTROLS, COMPLETE SYSTEM

R-22 REFRIGERANT, WATER PUMPS (FOR SCOPE)

SHALL BE 2(TWO) HASKRIS #T4IL-AB, WATER MANIFOLD

& PIPING TO SCOPE CIRCUITS, CONTROLS, COMPLETE SYSTEM

HVAC CONTROLS SEQUENCE OF OPERATION

ALL FAN-COIL UNITS/AIR HANDLING UNIT FOR OUTSIDE

AIR/EXHAUST FANS EF-1 & EF-2/CONDENSER PUMPS

P-1 & P-2 (FOR MICROSCOPES & COOLING PANELS)

SHALL RUN CONTINUOUSLY.

THE HHW (HEATING HOT WATER) & CHW (CHILLED

WATER) COILS SHALL HAVE 2-WAY MODULATING

VALVES (GLOBE-TYPE) WITH DDC OPERATORS (0-10

VDC/4-20MA), CONTROLLED BY DDC ROOM

TEMPERATURE SENSORS.

THE CHW VALVES/OPERATORS/SENSORS/PROGRAMMABLE

LOGIC CONTROLLERS FOR THE 4 MICROSCOPE

FAN-COILS SHALL HAVE A HIGH-DEGREE OF

RESOLUTION/ACCURACY AS DESCRIBED IN

SPECIFICATION SECTION 230900, AND SHALL CONTROL ROOM

TEMP. WITHIN PLUS OR MINUS 0.05 DEG. F.

EXHAUST FAN EF-3 (FOR LAB/PREP ROOM 'SNORKEL') SHALL

THE WATER-COOLED CHILLERS FOR THE MICROSCOPES

AND THE COOLING PANELS (TOTAL OF 8 CHILLERS)

AND THEIR ASSOCIATED WATER PUMPS SHALL RUN

CONTINUOUSLY.

CONTROLS FOR PUMPS P-1 & P-2 SHALL PROVIDE

FOR "LEAD-LAG" START AND SHALL AUTOMATICALLY

ALTERNATE THE PUMPS DEPENDING ON WHICH IS THE

"LEAD" START.

BE CONTROLLED BY A WALL SWITCH.

CONTROLS CONTRACTOR SHALL RE-PROGRAM THE PLC'S AS

NEEDED TO COMPLY WITH THE COMMISIONING PLAN PHASE 2.

FAN-COIL UNITS FOR THE 4 MICROSCOPE ROOMS

(FC-8,9,10,11) SHALL HAVE VFD'S (VARIABLE-FREQUENCY

DRIVES) PROVIDED BY ELECTRICAL CONTRACTOR (SEE ELEC.

DWGS.). CONTROLS CONTRACTOR SHALL PROVIDE PLC

(PROGRAMMABLE LOGIC CONTROLLER) WITH MANUAL

ADJUSTMENT. PLC MANUAL ADJUSTMENT SHALL BE HOUSED

IN A WALL BOX WITH HINGED DOOR (NO LOCK), LOCATED IN

EQUIP. ROOMS (SEE MECH. PLAN ON SHEET MP101).

ALL FAN-COIL UNITS/AIR HANDLING UNIT FOR OUTSIDE

AIR/EXHAUST FANS EF-1 & EF-2/CONDENSER PUMPS P-1

& P-2/ SUMP PUMP SP-1/AND PRE-ACTION FIRE RISER

SHALL BE MONITORED (BUT NOT CONTROLLED) BY THE

EXISTING JOHNSON CONTROLS, INC. "EMCS" (ENERGY

MANAGEMENT & CONTROL SYSTEM). CONTRACTOR

SHALL LOCATE AND CONNECT INTO THE EMCS IN THE

EXISTING ADJACENT "SCHWADA" BUILDING.

DATE:

DRAWN BY:

CHECKED BY:

NEXUS PROJECT #:

SHEET CONTENTS:

LOGAN

SALT LAKE CITY

PHOENIX





A

B

C

E

D

2 3 4 5 6

[PROJECT TITLE]

[STAMP/CONSULTANT]

[NOTES/LEGENDS]

2010







T 801.924.5000 F 801.924.5001

REVISIONS#



5/26/2010 12:48:53 PM


MECHANICAL

AND PLUMBING

SCHEDULES

RXL


100126

2010.05.21


MICROSCOPY

BID SET

ME004

S.Rambo

1 05/21/10 BID SET

-ADDENDUM 1

2010.05.21

1

1

1

1

1

1

1

1

DN

FC-1

FC-3 FC-5

FC-10 FC-12

FC-15

FC-4

FC-9

CD-1500 CFM

15" DIA. N.

FC-6

R-1500 CFM

16"x16"

FC-14

FC-13

CD-2900 CFM

18"x18" N.

R-21000 CFM

20"x20"

(TYP.OF 2)

(TYP.OF 2)

R-1200 CFM

10"x10"

R-1700 CFM

18"x18"

CD-1

200 CFM

10"DIA. N.

CD-1450 CFM

15"DIA. N.

CD-1

50 CFM

6"DIA. N.

CD-21300 CFM

20"x20"

R-22600 CFM

20"x42"

CD-21300 CFM

18"x18"

CD-1

400 CFM

12"DIA. N.

CD-1400 CFM

12"DIA. N.

CD-1

50 CFM

6"DIA. N.

CD-1500 CFM

15"DIA. N.

HF-1HF-1

AH-1

L-1580 CFM

24"x16"

16"x8"

16"x8"

16"x12"16"x12"

6"x6"

6"x6"

6"x6" 12"x8"8"x6" 12"x8"

6"x6" 20"x18"

20"x10"

20"x12"

16"x8"

16"x8"

6"x6"10"x8"

20"x18"20"x18"

16"x8"

16"x8"

20"x18"

20"x18"

20"x18"

20"x18"

20"x10"20"x10"

20"x10"

6"x6"

10"x10" 12"x8"

12"x10" 14"x12"

14"x12"

6"x5"20"x10"

6"x5"

20"x12"

12"x12"

16"x12"

12"x12"

20"x18"

6"x6"

16"x12"

16"x12"

18"x10"

20"x18"

1

2 2

(TYP. 6)

3

99

CS-121 CFM

(TYP.48)

CS-121 CFM

(TYP.48)

10 10

NORTH WALL OF SCHWADA BUILDING

NNNN

RETURN16"x12"SUPPLY

18"x18"

44

14"x14"

14"x14"

14"x14"

14"x14"

CD-2

900 CFM

18"x18" N.

6"x6"

6"x6"

6"x6"

R-21000 CFM

20"x20"(TYP.2)

(TYP.2)

18"x18"3

44

1

11

11

6

7

6

7

55

88

20"x18"20"x18"

20"x18"

20"x18"

20"x18"

20"x18"

6X6 OSA WITHVOLUME DAMPER

(TYP.)

12"x12"

12

8 8

(TYP. 6)

12

10"x8"

10"x8"

20"x12"

20"x18"

20"x12"

CD-21300 CFM

20"x20"

HEADER HEADER

20"x10"

20"x10"

20"x12"

24"x16"

20"x12"20"x18"

10X10

15' DIA.

10' DIA.

SCOPE #1

ADD ALT #1

N113A-3

CONTROL

ADD ALT #1

N113

(TYP.6)

FC-11

FC-716"x8"

CD-2400 CFM

15" DIA. N.

R-2400 CFM

16"x16" N.

20"x18" 16"x8"

20"x18"

12"x12"

10

18"x18" 3

20"x18"

4

4

2

1

14"x14"14"x14"

HF-1 8 8

20"x18"

20"x18"RETURN RISER

SUPPLY RISER

6"x6"

6"x6"OSA WITH VOLUME DAMPER

20"x18"

ø18" FLEX(TYP.)

9

20"x18"20"x18"11 HEADER

SCOPE #4

ADD ALT #2

N103A-2

CONTROL

ADD ALT #2

N103

(TYP.6)

FC-2

FC-8

HF-1

1

2

3

ø18"

CS-121 CFM

(TYP.48)

14"x14"14"x14"

CD-2400 CFM

15" DIA. N.

R-2400 CFM

16"x16"

20"x18"

20"x18"

20"x18"

8"x6"

6"x6"

20"x18"

16"x8"

20"x18"

4

4

10

8

8

SUPPLY RISER

FLEX(TYP.)

9

RETURN RISER

16"x8"

6"x6"

20"x18"

20"x18"20"x18"

11

HEADER

18"x18"

L-1580 CFM

24"x16"

AH-1

CD-21300 CFM

20"x20"

R-22600 CFM

20"x42"

20"x12"

20"x12"

20"x18"

FC-15

CD-2

1300 CFM

18"x18"

24"x16"24"x16"

(TYP.2)

16"x12"

18"x10"

RETURN

12"x12"

6"x6"20"x12"20"x18"

20"x18"

20"x12"

CD-21300 CFM

20"x20"

12"x12"

16"x12"

DATE:

DRAWN BY:

CHECKED BY:

NEXUS PROJECT #:

SHEET CONTENTS:

LOGAN

SALT LAKE CITY

PHOENIX





A

B

C

E

D

2 3 4 5 6

[PROJECT TITLE]

[STAMP/CONSULTANT]

[NOTES/LEGENDS]

2010







T 801.924.5000 F 801.924.5001

REVISIONS#



5/26/2010 12:49:17 PM


MECHANICAL

FLOOR PLAN

RXL


100126

2010.05.21


MICROSCOPY

BID SET

MH101

S.Rambo

1. RADIANT COOLING SYSTEMS:

FOR EACH SCOPE ROOM, PROVIDE A RADIANT COOLINGSYSTEM CONSISTING OF 8 RADIANT COOLING PANELSHUNG ON THE WALLS, WITH CHILLED WATER SUPPLY ANDRETURN LINES CONNECTED TO A WATER-COOLEDCHILLER LOCATED IN THE EQUIPMENT ROOM, PLUS 2CHILLED WATER ROTARY PUMPS LOCATED IN THEEQUIPMENT ROOM. ALL NECESSARY PIPING, VALVES,FITTINGS, AND CONTROLS SHALL BE INCLUDED TO MAKEA COMPLETE OPERATING SYSTEM. THE SYSTEM SHALLBE SIZED TO PROVIDE COOLING CAPACITY EQUAL TO THESCOPE HEAT RELEASE INTO THE ROOM AIR ESTIMATEDTO BE 4,500 BTU AN HOUR. THE WATER-COOLED CHILLERWILL BE COOLED BY 55 DEGREE F. CHILLED WATERFROM THE EXISTING SCHWADA BUILDING (WHICH ISSERVED FROM THE CAMPUS CENTRAL PLANT). CHILLEDWATER PIPING TO THE WATER CHILLERS WILL BEPROVIDED BY TME MECHANICAL CONTRACTOR. SYSTEMSHALL BE SUPPLIED AND INSTALLED BY JEOL USA, INC.(978-535-5900, FAX 978-536-2205). THE RADIANT COOLINGSYSTEM WILL BE THE PRIMARY COOLING SYSTEM. THEMECHANICAL COOLING SYSTEM WILL BE THESECONDARY COOLING SYSTEM (CONTROLLED BY AROOM TEMPERATURE SENSOR).

2. ALL SUPPLY AIR AND RETURN AIR DUCT WORK SHALL BEGALVANIZED STEEL WITH 2-INCH THICK DUCT LINER,OWENS-CORNING "QUIET-R" ROTARY DUCT LINER (ORAPPROVED EQUAL).

3. TURNING VANES SHALL NOT BE INSTALLED INSUPPLY/RETURN DUCTWORK FOR FAN-COIL UNITSSERVING SCOPE ROOMS (FC-8 THRU FC-11), USERADIUSED ELBOWS.

GENERALSHEET NOTES

SHEET KEYNOTES

1. RETURN AIR CHASE FROM CEILING TO FLOOR, TYP. OF 3EACH SCOPE ROOM, WITH 18"x18" R-3 AT FLOOR +1".PROVIDE 14"x14" TRIANGLE DUCT CONNECTION TO TOPOF CHASE.

2. RETURN AIR CHASE FROM CEILING TO 8FT. ABOVE FLOOR(ABOVE DOORS). PROVIDE 14"x14" TRIANGLE DUCTCONNECTION TO TOP OF CHASE.

3. THE 18"x18" SUPPLY DUCTS SHALL BE 24" O.C. TO MATCHTHE CEILING GRID, TO GIVE 2" CLEARANCE BETWEENDUCTS.

4. PROVIDE 4"-WIDE FLEX. DUCT CONNECTOR IN RETURNAIR AND SUPPLY AIR DUCTS NEAR WALL PENETRATIONS.

5. 14"x14" R-2 IN WALL AT 4" ABOVE FLOOR

6. 15" DIA. NECK CD-2, 400CFM.

7. 16"x16" R-2, 400 CFM.

8. FLEX. DUCT CONNECTORS AT FAN-COIL UNIT (SUPPLYAND RETURN)

9. FLEX. DUCT FOR ALL CS-1 SHALL BE 2-INCH WALLTHICKNESS, HART AND COOLEY F-118, R=8.0 MIN., ORAPPROVED EQUAL.

10. RADIANT COOLING PANELS (30"W.x72"L.)(TYP. OF 8).

11. POINT-OF-CONNECTION TO EXHAUST DUCT, SEE PLAN ONSHEET MP101 FOR CONNECTION LOCATIONS, BALANCETO 20 CFM EXHAUST.

12. 10" DIA. NECK CD-2, 200 CFM.

SCALE: 1/8" = 1'-0"D2MECHANICAL PLAN LOWER LEVEL

SCALE: 1/8" = 1'-0"B1MECHANICAL PLAN ADD/ALT #1

SCALE: 1/8" = 1'-0"B3MECHANICAL PLAN ADD/ALT #2

SCALE: 1/8" = 1'-0"B5ELECTRICAL AND MECHANICAL ROOMS

2010.05.07

N N N

EXISTING

SCHWADA BLDG.

DN

EXISTING

SCHWADA BLDG.

UP

CHS

CHR

FC-1

FC-2

FC-8

FC-3

FC-4

FC-9

FC-5

FC-10

FC-6

FC-11

FC-7

FC-12

FC-15

CHS

1 1/4"ø 2"ø 2 1/2"ø 2 1/2"ø 3"ø 3"ø1 1/2"ø

HHSHHR HHR

HHS

3/4"ø 1"ø1"ø

4"ø

CHR

CH

R CH

SCH-1

CS

CR

CS CR

CS

CR

CS

CR3/4"ø

1/2"ø

3/4"ø

1"ø

CS

CR

CS

CR

HH

SH

HR

3/4"ø

3/4"ø

3/4"ø

1 1/4"ø1/2"ø

3/4"ø3/4"ø

FC-14

FC-13

AH-11 1/2"ø

2"ø2"øP-1

P-22 1/2"ø2 1/2"ø

1 1/2"ø

1 1/2"ø

1 1/4"ø

777777

7

88 8 8

7

1/2"ø1/2"ø

1"ø1"ø

1"ø

2"ø

1"ø

3/4"ø

1"ø1"ø

3/4"ø3/4"ø

1"ø1"ø

3/4"ø3/4"ø

1"ø1"ø

3/4"ø

1/2"ø1/2"ø 2 1/2"ø2 1/2"ø1 1/4"ø

3/4"ø3/4"ø

3/4"ø

1/2"ø

1"ø

1 1/2"ø 1 1/2"ø1 1/2"ø 2"ø2"ø 2"ø 3"ø 4"ø

3/4"ø

1/2"ø1/2"ø 1 1/4"ø1/2"ø

1"ø

1"ø

3/4"ø

1 1/4"ø1 1/4"ø 1 1/2"ø1 1/2"ø 1 1/2"ø1 1/2"ø

1 1/2"ø

666666

1"ø1"ø

1"ø1"ø

2"ø2"ø

1 1/2"øSSSS

S

S

S S

S

S

S

S

44

4

44

4

4

4

2

5

2

3

1

HX-1

7 (TYP. OF 3 IN MECH. ROOM)

CH-4

CH-3CH-5

CH-2

9

S

1"ø1"ø

1 1/4"ø

1"ø

S

S


NNNN

3/4"ø

(TYP.)

(TYP.)

(TYP.)

(TYP.)

(TYP.)

2

3/4"ø

3/4"ø

3"ø

1 1/2"ø

1616

16

16

4

EXISTING PIPING IN SCHWADA BUILDING:

6" CHS & CHR

3" HHS & HHR

CHS & RCHS & R HHS & R

ROOM TEMPERATURESENSOR/TRANSMITTER

(TYP)

3"ø3"ø

1 1/2"ø

18181818

1919

CORE-DRILL THRUEXIST. WALL FOR SLEEVES

CORE-DRILL THRUEXIST. WALL FOR SLEEVES

EF-2 EF-1

6"x4"

6"x4"

6"x5"

6"x5"

6"x4"

6"x4"

6"x8"

6"x8"

6"x4"

6"x6" 6"x5"

6"x4"

6"x4"

6"x4"

10

ER-140 CFM

6"x6" N.ER-140 CFM

6"x6" N.

ER-140 CFM

6"x6" N.

ER-140 CFM

6"x6" N.

11

S

1212

1212 1212 1212

1313 1313

EF-3


NNNN

SC

VARIABLE-SPEED CONTROLLER FOR EF-1

WALLSWITCH

FOR EF-3

TRENCH DUCT(SEE ARCH. AND ELEC. DWGS.)

V.P.V.P. V.P.V.P.

VOLUME DAMPER WITHLOCKING QUADRANT

(TYP.)

14

1515

1515

FUME HOOD (SEE ARCH. DWGS.)

17171717

DATE:

DRAWN BY:

CHECKED BY:

NEXUS PROJECT #:

SHEET CONTENTS:

LOGAN

SALT LAKE CITY

PHOENIX





A

B

C

E

D

2 3 4 5 6

[PROJECT TITLE]

[STAMP/CONSULTANT]

[NOTES/LEGENDS]

2010



represented by these drawings is sold to theclient for a one time use, unless otherwise

agreed upon in writing by the Architect.




T 801.924.5000 F 801.924.5001

REVISIONS#



5/2

6/2

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MECHANICAL

PIPING PLAN

RXL


100126

2010.05.21


MICROSCOPY

BID SET

MP101

S.Rambo

1 05/21/10 BID SET

-ADDENDUM 1

SCALE: 1/8" = 1'-0"1MECHANICAL PIPING PLAN

GENERALSHEET NOTES

SHEET KEYNOTES

2010.05.07

1. FROM P.O.C.'S TO EXISTING PIPING INBASEMENT-LEVEL CEILING (APPROX. 50FT. FROMSCHWADA NORTH WALL). CONTRACTOR SHALL CUTINTO EXISTING PIPING TO MAKE P.O.C.'S, PROVIDE BALLVALVES (FULL-PORT TYPE).

2. INSULATED SLEEVES THROUGH WALL FOR PIPING.

3. PIPING RACKED ON WALL AT BASEMENT LEVEL (4" DIA.CHS & CHR, 1" DIA. HHS & HHR).

4. FLEXIBLE PIPING CONNECTORS.

5. PIPE RISERS RACKED ON WALL, UP TO LOWER LEVELCEILING SPACE. (PROVIDE FLEX. CONNECTORS INRISERS).

6. PIPING ABOVE CEILING (TYP. ALL).

7. FAN-COIL UNIT SHALL HAVE 2-WAYPRESSURE-INDEPENDENT GLOBE CONTROL VALVE(S)WITH MODULATING DDC ACTUATOR CONTROLLED BYROOM TEMPERATURE SENSOR. SHALL BE COMPATIBLEWITH EXISTING JOHNSON CONTROLS EMCS (0-10VDC/4-20 MA) LOCATED IN THE EXISTING SCHWADABUILDING, CONTRACTOR SHALL LOCATE IN SCHWADAAND MAKE CONNECTIONS TO EXISTING EMCS.

8. SAME AS NOTE NUMBER SEVEN ABOVE, EXCEPTDEGREE OF RESOLUTION/ACCURACY MUST BEGREATER THAN STANDARD DDC ACTUATOR/ROOMTEMPERATURE SENSORS (SEE CONTROLS SPEC.230900). PROVIDE PLC (PROGRAMMABLE LOGICCONTROLLER).

9. SEE DETAIL A2 ON SHEET ME002 FOR PIPINGCONNECTIONS TO PLATE HEAT EXCHANGER (HX-1)

10. TRANSITION FROM HOOD EXHAUST CONNECTION TO10"x10", ALL EXHAUST DUCTWORK SHALL BE TYPE 304STAINLESS STEEL, UP THRU ROOF TO EF-1.

11. 8" DIA. GALVANIZED SHEET METAL DUCT WITH 8" DIA.BUTTERFLY VALVE BELOW CEILING (WITH LOCKINGQUADRANT AND LEVER HANDLE), UP THRU CEILINGAND TRANSITION TO 10"x10" AND UP THRU ROOF TOEF-3.

12. PROVIDE 3/4" TYPE "L" HARD COPPER LINE FROMVACUUM PUMP TO SCOPE ROOM (VACUUM PUMPPROVIDED BY SCOPE MANUFACTURER). ROUTE LINE INCABLE TRENCH DUCT, COORDINATE WITH ELECTRICALCONTRACTOR.

13. 1 1/2" DIA. SCH. 80 PVC PIPING WITH PLASTIC 1 1/2" BALLVALVE AT FINISHED FLOOR +36", EXTEND PIPE UPTHROUGH ROOF WITH FLASHING (TERMINATE AT 12"ABOVE ROOF SURFACE).

14. 10"x10" EXHAUST DUCT UP THRU ROOF TO EF-2.

15. POINT-OF-CONNECTION TO RETURN DUCT, SEE PLANON SHEET MH101 FOR CONNECTION LOCATIONS,BALANCE TO 20 CFM EXHAUST.

16. 3/4" CS & CR DOWN TO SCOPE CHILLERS (4 CHILLERSTOTAL IN EACH OF THE 2 EQUIP. ROOMS).

17. 3/4" BALL VALVE AT FLOOR +3-INCHES.

18. WALL BOX WITH HINGED DOOR CONTAINING PLC(PROGRAMMABLE DDC LOGIC CONTROLLER) ANDMANUAL ADJUSTMENT FOR VFD (VARIABLEFREQUENCY DRIVE) SERVING FAN COIL UNITSFC-8,9,10,11.

19 SLEEVE-SEAL SYSTEM (FOR WATER-TIGHT SEAL).

SCALE: 1/8" = 1'-0"2MECHANICAL EXHAUST PLAN

1

1

1

UP

[00C2]

80

77U1

77U2

75

MECHANICAL0.000000000000000

DN

8"

FIRE RISER 6"

3" F

EXIST 6" SEWERTO MANHOLE INUTILITY TUNNEL

EXISTING 4" C.W. TO BUILDING (SCHWADA)

EXISTING APS GAS LINE

GGGG G

D

D

D

D

D

D

4"ø

3" FS-1 3" FD-1

4"AD-1

3" FS-1

3" FS-1

3" FD-1 3" FS-1


NNNN

8"ø

8"ø

2

(TYP.)

33 55

3

7

9

5

3

9

4" FOOTING DRAINLINE (PERFORATED)

21

ST-1

66

DSN.-1DSN-1

6

S-1

4" PERFORATED DRAIN LINE

2,180 S.F. ROOF AREA+4,502 S.F. EXT. ROOF AREA+1,972 S.F. EXT. ROOF AREA+1,972 S.F. EXT. ROOF AREA 10,626 S.F TOTAL

2,180 S.F. ROOF AREA+1,972 S.F. EXT. ROOF AREA 4,152 S.F TOTAL

16

18

1

2

8

CAP

8" R

D

8"O

RD

8" R

D

8"O

RD

3"O

RD

3" R

D

2 (TYP)

10

72

(TYP)

30

11

22

77

2

13

AD-3

AD-2AD-1

14

14

1414

99

B5

ME002

D

5

13

1414

13

14

14

13

12

3" FD-1

3" FS-115

3" FD-1

4"ø

CA

CA H

WR

HW

CW

CWCA

CWCA

CA

HWR

VAC

HW

CW1/2"ø1/2"ø

B5

ME002

B5

ME002

EXISTING PIPING:

1 1/2" CA (LAB AIR)3" CW3" HW2 1/2" HWR

2" VAC

4

2" LUBRICATEDPLUG VALVE

REMOVE

G

G

19

7

3/4"ø3/4"ø3/4"ø3/4"ø

3/4"ø

17

CA

(TYP)

(TYP)(TYP)

F.D.C.

FIRE ALARM HORN

20

22

7

1/2"ø

P.O.C.

3/4"ø3/4"ø3/4"ø

77

2323 2323

7

(TYP)

4"ø

4"ø4"ø

13

(TYP)

3" FS-1

4"ø

4" G.C.O.

4"ø

12

10

E2

ME002

NEW APS GAS LINE TO METER

2626

26

2626 26

P.O.C.(TURN OFF SEWAGE EJECTOR PUMPLOCATED IN BASEMENT MECH. ROOM)PRIOR TO MAKING P.O.C.)

EXISTING 6" SEWER LINE(BELOW FLOOR OF LEVEL 2.)

S.

S.

S.

P.O.C.

6" SEWER

29

D

D

D

D

SAW-CUT & EXCAVATE&PATCHAS NEEDED TO SUITSITE CONDITIONS.

DAYLIGHT 4" DRAININ SUMP WALL

EXIST SUMPPUMP

EXIST CONC.SUMP WALL

EXIST CONC.SUMP WALL

4"ø

2

CORE-DRILL THRUEXIST. CONC. WALLFOR EACH PIPESLEEVE. (TYP. FORALL PENETRATIONSTHRU EXIST. WALLS)

30

PASSAGEWAY INBASEMENT LEVEL

EXIS

TIN

GC

ON

C. R

AM

PE

XIS

TIN

G C

ON

C. R

AM

P

30PERFORATED PIPE

SOLID-WALL PIPE

SLO

PE D

OW

N @

2%

MIN

. (T

YP.)

6"ø

2-WAY CLEAN OUT

D3

ME002

P.O.C. TO EXIST. 4" C.W. IN SCHWADA(SEE NOTE 29) 31

6"ø

2" GAS PIPING BELOW GRADE

EXIST. SEWAGEEJECTOR INSCHWADA MECH.ROOM

P.O.C.24

4"ø

27

14'X40' = 560 S.F.ROOF AREA

2

2

33

32

1

P.O.C. TO EXIST. 4"WASTE RISER ON WALL

SAW-CUT & EXCAVATE&PATCHAS NEEDED TO SUITSITE CONDITIONS.

34

28

4"ø

MECH. ROOM

104

ELEC. ROOM

103

SCOPE #1

ADD ALT #1

N113A-3

CONTROL

ADD ALT #1

N113

SCOPE #4

ADD ALT #2

N103A-2

CONTROL

ADD ALT #2

N103

DATE:

DRAWN BY:

CHECKED BY:

NEXUS PROJECT #:

SHEET CONTENTS:

LO

GA

NS

AL

T L

AK

E C

ITY

PH

OE

NIX





A

B

C

E

D

2 3 4 5 6

[PROJECT TITLE]

[STAMP/CONSULTANT]

[NOTES/LEGENDS]

2010








T 801.924.5000 F 801.924.5001

REVISIONS#

SC

HW

AD

A B

UIL

DIN

G 0

55

TE

MP

E, A

RIZ

ON

A 8

5287

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PLUMBING

FLOOR PLAN

RXL

AR

IZO

NA

ST

AT

E U

NIV

ER

SIT

Y

100126

2010.05.21

RE

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NA

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EN

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R F

OR

AB

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RA

TIO

N C

OR

RE

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ED

EL

EC

TR

ON

MIC

RO

SC

OP

Y

BID

SE

T

PL101

S.Rambo

GENERALSHEET NOTES

SHEET KEYNOTES

1 05/21/10 BID SET

-ADDENDUM 1

SCALE: 1/8" = 1'-0"C2PLUMBING LOWER LEVEL

SCALE: 1/8" = 1'-0"B5PLUMBING PLAN - ELEC. AND MECH. ROOMS

SCALE: 1/8" = 1'-0"B3PLUMBING PLAN ADD/ALT #1

SCALE: 1/8" = 1'-0"B1PLUMBING PLAN ADD/ALT #2

2010.04.12

1. FIRE SPRINKLER HEADS IN SCOPE ROOMS #2-1 & #3-1AND ADD/ALT ROOMS 116 & 117 SHALL BE SIDEWALLTYPE.

2. CORRIDOR AND VESTIBULES SHALL HAVECONVENTIONAL WET-PIPE SPRINKLER SYSTEM.

3. REMAINDER OF BUILDING SHALL HAVE SINGLE-STAGEPRE-ACTION SYSTEM.

4. FOR CONNECTION OF THE WET-PIPE AND PRE-ACTIONSYSTEMS, SEE SCHEMATIC DETAIL ON SHEET ME003.

5. SPRINKLER HEADS SHALL HAVE 165 DEG. F. FUSIBLELINKS, EXCEPT ELECTRICAL ROOM HEADS SHALL BE 212DEG. F.

6. FIRE PROTECTION CONTROL/MONITORING PANEL SHALLBE DESIGNED TO CONNECT TO BOTH THECONVENTIONAL WET RISER AND THE PRE-ACTIONRISER. THE PANEL SHALL BE CONNECTED TO THEJOHNSON CONTROLS 'FMS'.

7. DO NOT ROUTE ANY PIPING THRU OR ABOVE CEILING OFELECTRICAL ROOM.

8. DO NOT ROUTE ANY PIPING THRU OR BELOW FLOOR OFSCOPE ROOMS.

1. FROM P.O.C.'S TO EXISTING PIPING IN BASEMENT-LEVELCEILING (APPROX. 50FT FROM SCHWADA NORTH WALL).CONTRACTOR SHALL CUT INTO EXISTING PIPING TOMAKE P.O.C.'S, PROVIDE BALL VALVES.

2. INSULATED SLEEVES THRU WALL FOR PIPING.

3. 4" INSULATED SLEEVES THRU WALL FOR ROOF DRAINPIPING.

4. RELOCATE EXISTING GAS METER.

5. P.O.C. TO EXISTING 4" RDL'S "DROPS" (ABOVE FIRSTFLOOR CEILING OF SCHWADA BUILDING).

6. TO STORM DRYWELL (SEE CIVIL PLANS).

7. FLEXIBLE PIPING CONNECTION (TYP).

8. PIPING RACKED ON WALL IN BASEMENT (3/4" CA, 3/4" CW,3/4" HW, 3/4" HWR, 3/4" VAC., 4" W.)

9. 4" OPEN-ENDED ROOF DRAIN PIPING @ SPLASH BLOCK(SEE ARCH. DWGS.)

10. RELOCATE EXISTING APS GAS LINE TO THE NORTH.

11. PIPE RISERS ON WALL, UP TO LOWER-LEVEL CEILINGSPACE, PROVIDE FLEX. PIPE CONNECTORS IN RISERS.

12. PIPING ABOVE CEILING (TYP).

13. 1/2" R.P.B.F.P. ASSEMBLY. SEE DETAIL ON SHEET ME002

14. 1/2" COLD WATER PIPING DOWN WALL TO 1/2" BALLVALVE @ FLOOR +24" (FOR CONNECTION TO SCOPECHILLERS AND COOLING PANEL CHILLERS).CONTRACTOR SHALL VERIFY EXACT LOCATIONS OFCHILLERS PRIOR TO INSTALLING PIPING.

15. 1/2" COLD WATER DOWN TO 1/2" R.P.B.F.P. ASSEMBLY,CONNECT TO PLATE HEAT EXCHANGER SYSTEM @ PUMPINLET, SEE DETAIL E3 ON SHEET ME002.

16. FIRE SPRINKLER SYSTEM CONTROL PANEL, INTERFACEWITH BUILDING FIRE ALARM SYSTEM AND CAMPUS FMS(FACILITY MANAGEMENT SYSTEM) BY JOHNSONCONTROLS (0-10 VDC/4-20 MA SYSTEM).

17. 1/2" CA DOWN TO FUME HOOD CONNECTION WITH BALLVALVE (CONTRACTOR SHALL VERIFY EXACT LOCATIONWITH HOOD MFGR.).

18. 1/2" CA DOWN TO BALL VALVE @ 4" ABOVE BENCH TOP.CONTRACTOR SHALL VERIFY EXACT LOCATION WITHARCHITECT PRIOR TO INSTALLING PIPING.

19. 3/4" VACUUM DOWN TO FUME HOOD CONNECTION WITHBALL VALVE. CONTRACTOR SHALL VERIFY EXACTLOCATION WITH HOOD MFGR. PRIOR TO INSTALLINGPIPING.

20. P.O.C. TO EXISTING 2" GAS AT SCHWADA WALL.

21. COMPRESSED AIR STORAGE TANK (ST-1) ABOVECEILING, SUSPEND FROM ROOF STRUCTURE OR MOUNTON WALL, 30 GAL. CAPACITY, PROVIDE 3/4" CHECK VALVE@ TANK INLET, 1/2" BALL VALVE IN DRAIN LINE, ROUTEDRAIN LINE TO NEAREST FLOOR SINK.

22. 1/2" CA TO PRE-ACTION FIRE RISER.

23. 1/2" CA THRU CABLE TRAY (SEE ARCH. DWGS.) AND UPTO BALL VALVE AT FLOOR +12 IN.

24. REMOVE EXISTING 6" SEWER LINE, EXCAVATE ANDBACKFILL AS REQUIRED.

25. NOT USED.

26. FOR WASTE PIPING AT FLOOR SINKS AND FLOOR DRAINSIN EQUIPMENT ROOMS, SEE DETAIL C1 ON SHEET ME002.

27 REMOVE EXIST. 6" SEWER LINE (BELOW FLOOR OF LEVEL2), AND CAP 6" RISER DOWN TO LEVEL 1.

28 DROP 6" SEWER DOWN TO BELOW GRADE.

29 RAISE 4" C.W. LINE UP TO BOTTOM OF LEVEL 1 FLOORSLAB, RUN WEST ACROSS PASSAGEWAY, & OFFSETDOWN TO RECONNECT TO 4" C.W. IN SCHWADA.

30 SLEEVE-SEAL SYSTEM (FOR WATER-TIGHT SEAL),CORE-DRILL THRU EXIST. CONC. WALLS AS REQUIRED.

31 6" SEWER LINE EXPOSED TO WEATHER, PROVIDE PIPESUPPORTS, COAT WITH RUSTOLEUM PRIMER AND 2COATS OF EXTERIOR PAINT.

32 4" WASTE LINE SECURED TO CONC. WALL OFPASSAGEWAY IN BASEMENT, SLOPE DOWN @ 2% INDIRECTION OF FLOW. WASTE LINE SHALL BE BELOW ALLPLBG. LINES AND HVAC LINES THAT ARE CALLED-OUT ONTHIS SHEET AND SHEET MP101.

33 IN-LINE CLEANOUT FOR 4" WASTE LINE.

34 4" WASTE LINE APPROX. 1 FT ABOVE BASEMENT FLOORTO EXIST. 4" WASTE RISER, PROVIDE 2% SLOPE.

2010.05.21

1

1

1

1

UP

UP

[00C2]

[00C1]

[00C1]00C1

77U1

77U2

1U1A

1U1

1U1B

75

MECHANICAL

MECHANICAL

x x

x

xx

x

0.000000000000000

J

JJ

J

J J J J

DN

VEST.

N100V1

ADD / ALT.#2

N103

ADD / ALT.#1

N113

STOR./REPAIR

N101

EQUIP.ROOM

N105 CONTROL

N107

CONTROL

N109

EQUIP.ROOM

N111

SCOPE #2

N109A

ADD / ALT.#1

N113ASCOPE #3

N107A

ADD / ALT.#2

N103A

CORRIDOR

N100C1

PREP. LAB

N115

VEST.

N100V2

VEST.

N100V3

P100AP100BP100C

P100C-1

2

22

6

3

EP101

3

EP101

4

EP101

5

EP101

2

EP101

8

IG

IG

IG

IG

2

99

10

99

MICROTOME

N115A

ELEC

N100C1AELEC

N100C1B

P100D L100

P100D-1,310

P100D-2

P100D-4

P100D-6

P100D-5,7

7

P100D-8

1

13

P100D-9

R3

R2

R1

R4 R5

R61

2P100B-13,15

15

P100B-17

1IG

1IG

13

1IG

13

1

IG

131

IG

13

P100C-9 2P100A-9P100C-7

P100C-5,7

2 P100A-5

P100A-6,8,10

3

3

3

P100A-12,14,16

P100A-26,28,30

3

3

212 14

14

14

14

P100A-1

CH-2 CH-3

CH-6

CH-5

41

4

1

P100C-8

P100A-20

P100A-22P100C-10

P100A-25

1

1

1

P100A-27

CONTROLADD ALT #1

N113

SCOPE #1ADD ALT #1

N113A

EQUIP.ROOM

N111

CH-7CH-4

9IG

2IG

P100A-21,23

2

IG

P100A-11,13

T101B

1323

41

MP101-6 P100A-18

P100C-15

EQUIP.ROOM

N105CONTROL

N103

SCOPE #4

N103A

9IG

T101C

P100C-11,13

P100C-21,23

13

23

2

IG

MP101-5CH-1

IG1

CH-82IG

P100C-6 4

A-IC

1

BEH

7

38

3

4

BEL

9

9

EP101

IG

LC

MP101

T101A

ML101 T101B T101C

5

MECHROOM

NM1-0201

ELEC ROOM

NM1-0101

UPS15KVA

UPS16KVA

UPS

MBP

MBP

UPS15KVA

UP

S8K

VA

UP

S8K

VA

MPB

MPB

AH-1

P-1

P-2

7

11

MPB

MPB

FC-13

FC-15

FC-14

P100A-15

P100A-24

2

2

2

2

2

2

L100-50

L100-49

L100-56

L100-20

L100-26

L100-13

161

17

1

1

DOOR ACCESS

KEYNOTES

1. PROVIDE 4" SQUARE BOX WITHSINGLE-GANG PLASTER RING.

FLOOR LINE

SECURE AREA

DOORSWITCH

4" SQUARE J-BOX

T-BAR CEILINGCEILING

FLOOR LINE

NON-SECURE AREA

LOCAL NOISE SOUNDER 3/4" CND

STUB 3/4" CNDINTO CORRIDOR

RECESSED MOUNTDOOR SWITCH(TYP OF 2)

ELECTRIFIEDLOCKSET

POWER TRANSFER

HINGE

6"

3"

3/4"CND

3/4" CND

LC

42"

AF

F

CARD READER

3/4"

MOUNT ABOVE CEILINGOVER DOOR.

6"TO10"

FROMDOOR

CORE DOOR

CND1

1

3/4" CND

NON-SECURE AREA

6" TO10"

FROMDOOR

42"

AF

F.

CL

CARD READER

3"

FLOOR LINE

3/4" CND

1" RECESSEDDOOR SWITCH

SECURE SIDE

FLOOR LINE

STUB 3/4" CNDINTO CORRIDOR

4" SQUARE J-BOXMOUNT ABOVE CEILINGOVER DOOR.

3/4" CNDLOCAL NOISE SOUNDER

POWERTRANSFERDEVICE

CORE DOOR

3/4" CND

P100AP100BP100C

P100D

ADD ALTERNATE #1

ADDALTERNATE#2FC-1

FC-8 FC-9

FC-10

FC-11

FC-2 FC-3 FC-4 FC-5 FC-6

FC-7

(ROOF)

(ROOF)

11

11

(ROOF)

11

L100-19

L100-7

L100-32

L100-38

L100-37

L100-44

L100-43

L100-2L100-8 L100-14

L100-25 L100-31

2

22

2

2

2

2

22

2

2

2

P100A-7

BEL-5P100C-121

7

1

P100A-15

EF-3

FC-12

EF-1

EF-2

15151515

1

1

LEVEL 01

62' - 4"

FOOTING

58' - 10"

B.O. STRUCTURE

84' - 10"

LEVEL 02

77' - 8"

GRADE

69' - 10"

ROOF

86' - 9 1/4"

LEVEL 8

47' - 0"

GROUND LEVEL

70' - 2"

COORDINATE WITHMECHANICAL PIPING

1

2

3

DETAIL KEYNOTES

1. (2) 4" CONDUITS, (1)2" CONDUIT, AND (2) 3/4"CONDUITS FOR DATA, SECURITY AND FIREALARM. CONDUITS LOCATED ON OPPOSITE SIDEOF WALL (WITHIN CEILING SPACE OF EXISTINGLAB).

2. (1) 1" CONDUIT FOR EMERGENCY LIGHTING.

3. (2) 2.5" CONDUIT TO PANEL ML101. (2) 1"CONDUIT TO FIRE ALARM POWER SUPPLY. (1) 1"CONDUIT TO LAB HOOD.

DATE:

DRAWN BY:

CHECKED BY:

NEXUS PROJECT #:

SHEET CONTENTS:

LO

GA

NS

AL

T L

AK

E C

ITY

PH

OE

NIX





A

B

C

E

D

2 3 4 5 6

[PROJECT TITLE]

[STAMP/CONSULTANT]

[NOTES/LEGENDS]

2010








T 801.924.5000 F 801.924.5001

REVISIONS#

SC

HW

AD

A B

UIL

DIN

G 0

55

TE

MP

E, A

RIZ

ON

A 8

5287

5/2

6/2

010 1

2:5

6:4

6 P

M

POWER PLAN

ALR

AR

IZO

NA

ST

AT

E U

NIV

ER

SIT

Y

10038

5.14.10

BID

SE

T

EP101

SEG

SCALE: 1/8" = 1'-0"1LOWER LEVEL POWER PLAN

1 ROUTE CONDUITS UP TO CEILING LEVEL OF LEVELABOVE SEE SHAFT CONDUIT DETAIL. EP101/9

2 24" WIDE BY 12" DEEP TRENCH DUCT.

3 PROVIDE POWER FOR EMERGENCY LIGHTING.

4 PROVIDE POWER FOR LAB HOOD, AND FIRE ALARMPOWER SUPPLY.

5 LIGHTING CONTROL CABINET.

6 PROVIDE POWER FOR HOOD LIGHTING ANDRECEPTACLES.

7 PROVIDE 2' X 3' BLOCK OUT WITH SLEEVING SYSTEMTHROUGH CONCRETE WALL FOR FUTURECONDUITS.

8 PROVIDE VFC'S FOR FAN COIL SEE ONE-LINEDIAGRAM. STACK AS REQUIRED CLEARANCES.

9 12"W x 12"D TRENCH DUCT.

10 8' AFF 18" WIDE BY 6" DEEP CABLE TRAY

11 PROVIDE J-BOX FOR MECHANICAL CONTROLSPOWER.

12 PROVIDE 4 SQUARE BOX 2 1/8" DEEP WITH A SINGLEGANG PLASTER RING. PROVIDE (1) 1" CONDUITSTUBBED INTO ACCESSIBLE CEILING SPACE.

13 PROVIDE CONDUIT BREAK. SEE CONDUIT BREAKDETAIL EP602/3.

14 PROVIDE 2 COMPARTMENT WIRE MOLD #G4000 WITHRECEPTACLES 2' ON CENTER. STAGGER CIRCUITS,EVERY THIRD RECEPTACLE TO THE SAME CIRCUIT.PROVIDE (2) 1" CONDUITS FROM WIRE MOLD TOACCESSIBLE CEILING SPACE FOR DATA.

15 PROVIDE J-BOX FOR PLC. COORDINATE EXACTLOCATION WITH MECHANICAL PRIOR TO ROUGH-IN.

16 PROVIDE GROUNDING ELECTRODE. SEE SHEETEP602 DETAIL 1.

17 PROVIDE 19" RACK FOR UPS AND BYPASSMOUNTING.

SHEETKEYNOTES

GENERALSHEET NOTES

SCALE: 1/8" = 1'-0"3ADD ALT #1 POWER PLAN

SCALE: 1/8" = 1'-0"4ADD ALT#2 POWER PLAN

SCALE: 1" = 10'-0"5BASEMENT LEVEL POWER PLAN

SCALE: 1/4" = 1'-0"2

ELEC AND MECH ROOM POWERPLAN

SCALE: N.T.S.7TYPICAL DOUBLE ACCESS DOOR DETAIL

SCALE: N.T.S.8TYPICAL ACCESS DOOR DETAIL

SCALE: 1/8" = 1'-0"6HVAC POWER PLAN

1 ROUTE CONDUITS TO SCOPE ROOM LIGHTING,POWER, FIRE ALARM, AND AUXILIARY DEVICESABOVE CMU WALLS. PROVIDE EXPANSION FITTINGSAT GAP BETWEEN DOUBLE MASONRY WALLS.

2 USE TWISTED CONDUCTORS (6 TWISTS PER FOOTMINIMUM) FOR ALL LIGHTING AND POWER CIRCUITS,EXCLUDING FEEDERS TERMINATED AT THE MAINBREAKER IN THE FOLLOWING PANELS: ML101,MP101, P100A, P100B, P100C AND P100D. BRANCHWIRING FROM PANELS BEH AND BEL SHALL NOTREQUIRE TWISTING WITHIN THE EXISTING BUILDING,BUT SHALL REQUIRE TWISTING IN THE NEWADDITION

3 PROVIDE A MAXIMUM OF 3 CIRCUITS PER CONDUIT.

4 COORDINATE THE HEIGHT AND LOCATION OF ALLMECHANICAL EQUIPMENT DISCONNECTS WITHMECHANICAL CONTRACTOR.

5 PROVIDE 3 EA DIVIDERS IN TRENCH DUCT.COORDINATE SPACING WITH MANUFACTURER OFMICROSCOPE IN ORDER TO ACCOMODATE THEINSTALLATION OF CABLES AND PIPING.

6 PROVIDE A VERTICAL LADDER FROM THE CABLETRAY ABOVE TRENCH DUCT TO THE TRENCH DUCTFOR SUPPORTING PIPING AND CABLES.

7 AFTER INSTALLATION OF ALL EQUIPMENT BACK FILLTRENCH DUCTS WITH CLEAN SAND TO SEALAROUND CABLES/PIPING BETWEEN ROOM.

8 LABEL ALL RECEPTACLES CONNECTED TOEQUITECH PANEL "60 VOLTS LINE TO GROUND" SEESPECIFICATIONS FOR LABEL REQUIREMENTS.

9 ALL RECEPTACLES CONNECTED TO EQUITECHPANEL SHALL BE BLACK. SEE SPECIFICATIONS.

10 PROVIDE #10 NEUTRALS FOR MULTIWIRE BRANCHCIRCUITS SERVING COMPUTERS.

11 PROVIDE CONCRETE BASES FOR DRY TYPETRANSFORMERS AND UPS EQUIPMENT PERSPECIFICATIONS.

SCALE: 1/8" = 1'-0"9SHAFT CONDUIT DETAIL

05-25-10

1 2/25/10 ADDENDUM

1

1

1

1

8"

2"

A1(FOR 2 EQUIPMENT RMS.-FLOATING SLAB)FLOOR SINK/FLOOR DRAIN DETAIL

SCALE: N.T.S.

GRATE

FLOATING SLAB

3" DIA. WASTE PIPE

4" DIA. WASTE PIPE

BODY OF FLOOR SINK

OR FLOOR DRAIN

FINISHED FLOOR OF

FLOATING SLAB

324 S. State St., Suite 400Salt Lake City, UT 84111

800-678-7077801-328-5151

fax: 801-328-5155www.spectrum-engineers.com

2009 Spectrum Engineers, Inc.

REFERENCE:

CHECKED BY:

DRAWN BY:

PROJ NO:

ISSUE:

DATE:

PROJECT

SCALE

SHEET TITLE

1/16" = 1'-0"5/26/2010 12:50:25 PM

C:\Users\ral\Documents\SPECTRUM JOBS\100126-M

ech Central_ral.rvt

REGIONAL CENTER FORABERRATION CORRECTEDELECTRON MICROSCOPY

PLUMBING AND MECHANICALDETAILS 2

MSK01

05/26/10

100126

RAL

SLR

SCALE: 1/16" = 1'-0"1

PLUMBING ANDMECHANICAL DETAILS 2

ADD / ALT.#2

N103

(G-2)

(G-2)

(E2-1)

3

3

EL101

(EP-2)

(SA-1)

1

LCP-1

1

15

6

ADD / ALT.#1

N113

(G-2)(G-2)

4

EL101

(SA-1)

6

1

(S-3)

(S-3)

(S-3)

ELEC ROOM

NM1-0101

MP101

ML101

L100-3

(OC-31)

1


A R C H I T E C T U R A LA R C H I T E C T U R A LA R C H I T E C T U R A LA R C H I T E C T U R A L

[STAMP/CONSULTANT]

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SCHWADA BUILDING 055TEMPE, ARIZONA 85287

REVISIONSTO EL101ARIZONA STATE

UNIVERSITYESK01

10

03

8

ALR

5.1

4.1

0

SE

G

05-25-10

SCALE: 1/8" = 1'-0"1LIGHTING PLAN

SCALE: 1/8" = 1'-0"2LIGHTING PLAN

SHEETKEYNOTES

1 OCCUPANT OVERRIDE FOR LIGHTING CONTROLS.

2 REMOTE MOUNT ALL TX-1 FIXTURE POWERSUPPLIES IN EQUIPMENT ROOMS.

3 ROUTE CIRCUIT THROUGH LIGHTING RELAY PANEL.

4 CONNECT INTO EMERGENCY CIRCUIT AT FIXTUREBELOW. SEE LOWER LEVEL LIGHTING PLAN.

5 EXISTING SITE LIGHT TO BE REMOVED ANDRETURNED TO OWNER. EXTEND EXISTINGRACEWAY AND CONDUCTORS AS REQUIRED TOMAINTAIN POWER TO EXISTING LIGHT POLES TOREMAIN.

6 PROVIDE J-BOX WITH 3/4" CONDUIT TO ACCESSIBLECEILING SPACE FOR FUTURE DIMMER.

1 SCALE: N.T.S.3LIGHTING PLAN

LOAD CALCULATIONS

PANEL - BEL (50A AT 120/208V 3PH)DESCRIPTION

EXISTING LOAD*

NEW LOAD

TOTAL PANEL LOAD (AT 120/208V 3 PH)

PANEL - BEH (225A AT 277/480V 3PH)DESCRIPTION

EXISTING LOAD**

NEW LOAD


PANEL - MDP55 (1200A AT 277/480V 3PH)DESCRIPTION

EXISTING LOAD***

NEW LOAD


* EXISTING LOADS TAKEN FROM CONSTRUCTION DOCUMENTS

** EXISTING LOAD TAKEN FROM EMERGENCY SYSTEM LOAD STUDY

*** EXISTING LOAD TAKEN FROM ASU ENERGY INFORMATION SYSTEM

2.7KW

25KW

183KW

x1.25

x1.25

x1.25

x1.25

x1.25

x1.25

=

=

=

4.25KVA

39.1KVA

286KW

=

=

=

=

=

=

=

=

=

LOAD(KVA)

4.25

1.5

5.75

LOAD(KVA)

39.1

2.865

41.965

LOAD(KVA)

286

100.896

386.896

=

=

=

16.0

50.5

465.4

AMPS

AMPS

AMPS

J

MAIN ELECTRICAL ROOM

PANEL "MDP55"

ELECTRICAL ROOM #101

PANEL"ML101"

PANEL"MP101"

GROUNDINGELECTRODE

IG -#4/0 INSULATED CU.

EG -#1 INSULATED CU.

G -#4/0 INSULATED CU.

IG BUS

EG BUS

IG BUS

EG BUS

TO EQUIPMENT

PANEL"P100A"

IG BUS

EG BUS

PANEL"P100B"

IG BUS

EG BUS

PANEL"P100C"

IG BUS

EG BUS

PANEL"P100D"

IG BUS

EG BUS

TO EQTO EQUIPMENT TO EQUIPMENT

TO EQ

TO EQ

CORRIDOR #100

EXISTING GROUNDINGELECTRODE SYSTEM

EG -#6 INSULATED CU.IG -#6 INSULATED CU.

#6 (T

YPIC

AL)

TO SHIELDING

#6 EG#6 IG

CAD WELD ALLCONNECTIONS

CAD WELD

DIGITALDIALER

(4) UPS'S

1" CONDUIT1" CONDUIT1" CONDUIT

(2) UPS'S



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LOAD CALCANDDETAILS

ARIZONA STATEUNIVERSITY

ESK02

10

03

8

ALR

5.1

4.1

0

SE

G

105-25-10

SCALE: N.T.S.1GROUNDING DIAGRAM

SCALE: N.T.S.3DIGITAL DIALER CONECTION DETAIL

VOLTS/PHASE/WIRE:

277/480 V, 3 PH 4 WIRE

ACCESSORIES:

CKT

NO

1

3

5

7

9

11

13

15

*17

*19

*21

*23

TOTALS:

NEC DIVERSIFIED LOAD CALCULATIONS

*

OCP

AMP

20

20

20

20

20

20

20

20

20

20

PROVIDE NEW BREAKER INDICATED

POLE

1

1

1

1

1

1

1

1

3

1

PANEL DIRECTORY, IDENTIFICATION, GROUNDING BAR, INSULATED GROUND BAR, SUBFEED LUGS

LTG

1.4

LOAD (kVA)

CO PWR

1.4

1.4

1.4

LIGHTING 1kVA @125% =

RECEPTACLES 0kVA @100% =

REMAINDER 0kVA @ 50% =

PANEL SIZE & TYPE:

22" W x 6" D, BOLT-ON

2

0

0

DESCRIPTION

EXISTING LOAD

EXISTING LOAD

EXISTING LOAD

EXISTING LOAD

EXISTING LOAD

EXISTING LOAD

EXISTING LOAD

EXISTING LOAD

SEWAGE PUMP

SCOPE EM LIGHTING

kVA

kVA

kVA

MAIN SIZE & TYPE:

225 AMPERE MAIN CB

LCL

kVA

0.0

0.0

0.0

0.0

0.0

0.0

0.0

0.0

1.4

1.4

1.4

1.7

CONNECTED kVA PER PHASE

CONNECTED AMPS PER PHASE

A

0.0

0.0

0.0

2.7

3

10

PANEL "BEH" (EXISTING)

PHASE LOAD

B

0.0

0.0

0.0

2.7

3

10

C

0.0

0.0

1.4

2.7

4

15

LCL

kVA

0.0

0.0

0.0

0.0

0.0

0.0

0.0

0.0

0.0

1.4

1.4

1.4

ALL OTHER LOADS @100% =

25% OF LARGEST MOTOR =

LOCATION:

MAIN ELECTRICAL ROOM

8

0

DESCRIPTION

ELEVATORS

SEWAGE EJECTORS

PANEL BEL

SEWAGE PUMP

kVA

kVA

CABINET:

LTG

LOAD (kVA)

CO PWR

1.4

1.4

1.4

NOTES:

OCP

AMP

200

15

20

20

CONNECTED TOTAL kVA

CONNECTED AVERAGE AMPS PER PHASE

POLE

3

3

3

3

9

11

DIVERSIFIED TOTAL kVA =

AVERAGE AMPS PER PHASE =

CKT

NO

2

4

6

8

10

12

14

16

18

20*

22*

24*

10

12

LOAD CALCULATIONS

PANEL - BEL (50A AT 120/208V 3PH)DESCRIPTION

EXISTING LOAD*

NEW LOAD


PANEL - BEH (225A AT 277/480V 3PH)DESCRIPTION

EXISTING LOAD**

NEW LOAD


PANEL - MDP55 (1200A AT 277/480V 3PH)DESCRIPTION

EXISTING LOAD***

NEW LOAD


* EXISTING LOADS TAKEN FROM CONSTRUCTION DOCUMENTS

** EXISTING LOAD TAKEN FROM EMERGENCY SYSTEM LOAD STUDY

*** EXISTING LOAD TAKEN FROM ASU ENERGY INFORMATION SYSTEM

2.7KW

25KW

183KW

x1.25

x1.25

x1.25

x1.25

x1.25

x1.25

=

=

=

4.25KVA

39.1KVA

286KW

=

=

=

=

=

=

=

=

=

LOAD(KVA)

4.25

1.5

5.75

LOAD(KVA)

39.1

10.965

50.065

LOAD(KVA)

286

100.896

386.896

=

=

=

16.0

60.2

465.4

AMPS

AMPS

AMPS



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PANEL BEHAND LOADCALC

ARIZONA STATEUNIVERSITY

ESK03

10

03

8

AL

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5.1

4.1

0

SE

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1

11

05-25-10

ARIZONA STATE UNIVERSITYREGIONAL CENTER FOR ABERRATION CORRECTED ELECTRON MICROSCOPY

GENERAL COMMISSIONING REQUIREMENTS 019113 - 1

SECTION 019113 - GENERAL COMMISSIONING REQUIREMENTS

PART 1 - GENERAL

1.1 RELATED DOCUMENTS

A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and other Division 01 Specification Sections, apply to this Section.

1.2 SUMMARY

A. Section includes general requirements that apply to implementation of commissioning without regard to specific systems, assemblies, or components.

B. Related Sections:1. Division 23 Section "Commissioning of HVAC" for commissioning process activities for

HVAC systems, assemblies, equipment, and components.

1.3 DEFINITIONS

A. BoD: Basis of Design. A document that records concepts, calculations, decisions, and product selections used to meet the OPR and to satisfy applicable regulatory requirements, standards, and guidelines. The document includes both narrative descriptions and lists of individual items that support the design process.

B. Commissioning Plan: A document that outlines the organization, schedule, allocation of resources, and documentation requirements of the commissioning process.

C. CxA: Commissioning Authority.

D. OPR: Owner's Project Requirements. A document that details the functional requirements of a project and the expectations of how it will be used and operated. These include Project goals, measurable performance criteria, cost considerations, benchmarks, success criteria, and supporting information.

E. Systems, Subsystems, Equipment, and Components: Where these terms are used together or separately, they shall mean "as-built" systems, subsystems, equipment, and components.

1.4 COMMISSIONING TEAM

A. Members Appointed by Contractor(s): Individuals, each having the authority to act on behalf of the entity he or she represents, explicitly organized to implement the commissioning process through coordinated action. The commissioning team shall consist of, but not be limited to, representatives of Contractor, including Project superintendent and subcontractors, installers, suppliers, and specialists deemed appropriate by the CxA.



B. Members Appointed by Owner:

1. CxA: The designated person, company, or entity that plans, schedules, and coordinates the commissioning team to implement the commissioning process. Owner will engage the CxA under a separate contract.

2. Representatives of the facility user and operation and maintenance personnel.3. Architect and engineering design professionals.

1.5 OWNER'S RESPONSIBILITIES

A. Provide the OPR documentation to the CxA and Contractor for information and use.

B. Assign operation and maintenance personnel and schedule them to participate in commissioning team activities.

C. Provide the BoD documentation, prepared by Architect and approved by Owner, to the CxA and Contractor for use in developing the commissioning plan, systems manual, and operation and maintenance training plan.

1.6 CONTRACTOR'S RESPONSIBILITIES

A. Contractor shall assign representatives with expertise and authority to act on its behalf and shall schedule them to participate in and perform commissioning process activities including, but not limited to, the following:

1. Evaluate performance deficiencies identified in test reports and, in collaboration with entity responsible for system and equipment installation, recommend corrective action.

2. Cooperate with the CxA for resolution of issues recorded in the Issues Log.3. Attend commissioning team meetings held on a monthly basis until October 1, then on a

weekly basis until the completion of the project.4. Integrate and coordinate commissioning process activities with construction schedule.5. Review and accept construction checklists provided by the CxA.6. Complete construction checklists as Work is completed and provide to the

Commissioning Authority on a weekly basis.7. Review and accept commissioning process test procedures provided by the

Commissioning Authority.8. Complete commissioning process test procedures.

1.7 CxA'S RESPONSIBILITIES

A. Organize and lead the commissioning team.

B. Provide commissioning plan.

C. Convene commissioning team meetings.

D. Provide Project-specific construction checklists and commissioning process test procedures.



E. Verify the execution of commissioning process activities using random sampling. The sampling rate may vary from 1 to 100 percent. Verification will include, but is not limited to, equipment submittals, construction checklists, training, operating and maintenance data, tests, and test reports to verify compliance with the OPR. When a random sample does not meet the requirement, the CxA will report the failure in the Issues Log.

F. Prepare and maintain the Issues Log.

G. Prepare and maintain completed construction checklist log.

H. Witness systems, assemblies, equipment, and component startup.

I. Compile test data, inspection reports, and certificates; include them in the systems manual and commissioning process report.

PART 2 - PRODUCTS (Not Used)

PART 3 - EXECUTION (Not Used)

END OF SECTION 019113


General-service Compressed-air Piping © 2009 Spectrum Engineers, Inc.

221513 - 1

SECTION 221513 - GENERAL-SERVICE COMPRESSED-AIR PIPING

PART 1 - GENERAL


A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section.

1.2 SUMMARY

A. This Section includes piping and related specialties for general-service compressed-air systems operating at 200 psig (1380 kPa) or less.1. Division 22 Section "General-Service Packaged Air Compressors and Receivers" for

general-service air compressors and accessories.

1.3 DEFINITIONS

A. Low-Pressure Compressed-Air Piping: System of compressed-air piping and specialties operating at pressures of 150 psig (1035 kPa) or less.

1.4 PERFORMANCE REQUIREMENTS

A. Seismic Performance: Compressed-air piping and support and installation shall withstand effects of seismic events determined according to SEI/ASCE 7, "Minimum Design Loads for Buildings and Other Structures."

1.5 SUBMITTALS

A. Product Data: For the following:1. Dielectric fittings.2. Flexible pipe connectors.3. Safety valves.4. Pressure regulators. Include rated capacities and operating characteristics.5. Automatic drain valves.6. Filters. Include rated capacities and operating characteristics.

B. Qualification Data: For Installers.

C. Field quality-control test reports.

D. Operation and Maintenance Data: For general-service compressed-air piping specialties to include in emergency, operation, and maintenance manuals.

1.6 QUALITY ASSURANCE

A. Installer Qualifications:1. Extruded-Tee Outlet Procedure: Qualify operators according to training provided by T-

DRILL Industries Inc., for making branch outlets.2. Pressure-Seal Joining Procedure for Copper Tubing: Qualify operators according to

training provided by Viega; Plumbing and Heating Systems.3. Pressure-Seal Joining Procedure for Steel Piping. Qualify operators according to training

provided by Victaulic Company.



221513 - 2

B. ASME Compliance:1. Comply with ASME B31.1, "Power Piping," for high-pressure compressed-air piping.2. Comply with ASME B31.9, "Building Services Piping," for low-pressure compressed-air

piping.

1.7 PROJECT CONDITIONS

A. Interruption of Existing Compressed-Air Service: Do not interrupt compressed-air service to facilities occupied by Owner or others unless permitted under the following conditions and then only after arranging to provide temporary compressed-air service according to requirements indicated:1. Notify Architect no fewer than two days in advance of proposed interruption of

compressed-air service.2. Do not proceed with interruption of compressed-air service without Architect's written

permission.

PART 2 - PRODUCTS

2.1 PIPES, TUBES, AND FITTINGS

A. Schedule 40, Steel Pipe: ASTM A 53/A 53M, Type E or S, Grade B, black or hot-dip zinc coated with ends threaded according to ASME B1.20.1.1. Steel Nipples: ASTM A 733, made of ASTM A 53/A 53M or ASTM A 106, Schedule 40,

galvanized seamless steel pipe. Include ends matching joining method.2. Malleable-Iron Fittings: ASME B16.3, Class 150 or 300, threaded.3. Malleable-Iron Unions: ASME B16.39, Class 150 or 300, threaded.4. Steel Flanges: ASME B16.5, Class 150 or 300, carbon steel, threaded.5. Wrought-Steel Butt-Welding Fittings: ASME B16.9, Schedule 40.6. Steel Flanges: ASME B16.5, Class 150 or 300, carbon steel.7. Grooved-End Fittings and Couplings:

a. Available Manufacturers: Subject to compliance with requirements, manufacturers offering products that may be incorporated into the Work include, but are not limited to, the following:1) Anvil International, Inc.2) Star Pipe Products; Star Fittings Div.3) Victaulic Company.4) Ward Manufacturing, Inc.

b. Grooved-End Fittings: ASTM A 47/A 47M, malleable-iron castings or ASTM A 536, ductile-iron casting; with grooves according to AWWA C606 and dimensions matching steel pipe.

c. Couplings: AWWA C606 or UL 213, for steel-pipe dimensions and rated for 300-psig (2070-kPa) minimum working pressure. Include ferrous housing sections, gasket suitable for compressed air, and bolts and nuts. Provide EDPM gaskets for oil-free compressed air. Provide NBR gaskets if compressed air contains oil or oil vapor.

2.2 JOINING MATERIALS

A. Pipe-Flange Gasket Materials: Suitable for compressed-air piping system contents.1. ASME B16.21, nonmetallic, flat, asbestos free, 1/8-inch (3.2-mm) maximum thickness

unless thickness or specific material is indicated.a. Full-Face Type: For flat-face, Class 125, cast-iron and cast-bronze flanges.b. Narrow-Face Type: For raised-face, Class 250, cast-iron and steel flanges.

B. Flange Bolts and Nuts: ASME B18.2.1, carbon steel, unless otherwise indicated.



221513 - 3

2.3 VALVES

A. Metal Ball, Butterfly, Check, Gate, and Globe Valves: Comply with requirements in Division 22 Section "General-Duty Valves for Plumbing Piping."

2.4 DIELECTRIC FITTINGS

A. General Requirements: Assembly of copper alloy and ferrous materials with separating nonconductive insulating material. Include end connections compatible with pipes to be joined.

B. Dielectric Unions:1. Manufacturers: Subject to compliance with requirements, available manufacturers

offering products that may be incorporated into the Work include, but are not limited to, the following:a. Capitol Manufacturing Company.b. Central Plastics Company.c. Hart Industries International, Inc.d. Jomar International Ltd.e. Matco-Norca, Inc.f. McDonald, A. Y. Mfg. Co.g. Watts Regulator Co.; a division of Watts Water Technologies, Inc.h. Wilkins; a Zurn company.

2. Description:a. Standard: ASSE 1079.b. Pressure Rating: 125 psig (860 kPa) minimum at 180 deg F (82 deg C).c. End Connections: Solder-joint copper alloy and threaded ferrous.

2.5 FLEXIBLE PIPE CONNECTORS

A. Available Manufacturers: Subject to compliance with requirements, manufacturers offering products that may be incorporated into the Work include, but are not limited to, the following:1. Flex-Hose Co., Inc.2. Flexicraft Industries.3. Hyspan Precision Products, Inc.4. Mercer Rubber Co.5. Metraflex, Inc.6. Proco Products, Inc.7. Unaflex, Inc.8. Universal Metal Hose; a Hyspan Company

B. Bronze-Hose Flexible Pipe Connectors: Corrugated-bronze tubing with bronze wire-braid covering and ends brazed to inner tubing.1. Working-Pressure Rating: 200 psig (1380 kPa) minimum.2. End Connections, NPS 2 (DN 50) and Smaller: Threaded copper pipe or plain-end

copper tube.3. End Connections, NPS 2-1/2 (DN 65) and Larger: Flanged copper alloy.

C. Stainless-Steel-Hose Flexible Pipe Connectors: Corrugated-stainless-steel tubing with stainless-steel wire-braid covering and ends welded to inner tubing.1. Working-Pressure Rating: 200 psig (1380 kPa) minimum.2. End Connections, NPS 2 (DN 50) and Smaller: Threaded steel pipe nipple.3. End Connections, NPS 2-1/2 (DN 65) and Larger: Flanged steel nipple.



221513 - 4

2.6 SPECIALTIES

A. Safety Valves: ASME Boiler and Pressure Vessel Code: Section VIII, "Pressure Vessels," construction; National Board certified, labeled, and factory sealed; constructed of bronze body with poppet-type safety valve for compressed-air service.1. Pressure Settings: Higher than discharge pressure and same or lower than receiver

pressure rating.

B. Air-Main Pressure Regulators: Bronze body, direct acting, spring-loaded manual pressure-setting adjustment, and rated for 250-psig (1725-kPa) inlet pressure, unless otherwise indicated.1. Type: Pilot operated.

C. Air-Line Pressure Regulators: Diaphragm operated, bronze body, direct acting, spring-loaded manual pressure-setting adjustment, and rated for 200-psig (1380-kPa) minimum inlet pressure, unless otherwise indicated.

D. Automatic Drain Valves: Stainless-steel body and internal parts, rated for 200-psig (1380-kPa)minimum working pressure, capable of automatic discharge of collected condensate. Include mounting bracket if wall mounting is indicated.

E. Coalescing Filters: Coalescing type with activated carbon capable of removing water and oil aerosols; with color-change dye to indicate when carbon is saturated and warning light to indicate when selected maximum pressure drop has been exceeded. Include mounting bracket if wall mounting is indicated.

F. Mechanical Filters: Two-stage, mechanical-separation-type, air-line filters. Equip with deflector plates, resin-impregnated-ribbon-type filters with edge filtration, and drain cock. Include mounting bracket if wall mounting is indicated.

PART 3 - EXECUTION

3.1 PIPING INSTALLATION

A. Drawing plans, schematics, and diagrams indicate general location and arrangement of compressed-air piping. Indicated locations and arrangements were used to size pipe and calculate friction loss, expansion, air-compressor sizing, and other design considerations. Install piping as indicated unless deviations to layout are approved on Coordination Drawings.

B. Install piping concealed from view and protected from physical contact by building occupants, unless otherwise indicated and except in equipment rooms and service areas.

C. Install piping indicated to be exposed and piping in equipment rooms and service areas at right angles or parallel to building walls. Diagonal runs are prohibited, unless otherwise indicated.

D. Install piping above accessible ceilings to allow sufficient space for ceiling panel removal and to coordinate with other services occupying that space.

E. Install piping adjacent to equipment and machines to allow service and maintenance.

F. Install air and drain piping with 1 percent slope downward in direction of flow.

G. Install nipples, flanges, unions, transition and special fittings, and valves with pressure ratings same as or higher than system pressure rating, unless otherwise indicated.



221513 - 5

H. Equipment and Specialty Flanged Connections:1. Use steel companion flange with gasket for connection to steel pipe.2. Use cast-copper-alloy companion flange with gasket and brazed joint for connection to

copper tube. Do not use soldered joints for connection to air compressors or to equipment or machines producing shock or vibration.

I. Flanged joints may be used instead of specified joint for any piping or tubing system.

J. Extended-tee outlets with brazed branch connection may be used for copper tubing, within extruded-tee connection diameter to run tube diameter ratio for tube type, according to Extruded Tee Connections Sizes and Wall Thickness for Copper Tube (Inches) Table in ASTM F 2014.

K. Install eccentric reducers where compressed-air piping is reduced in direction of flow, with bottoms of both pipes and reducer fitting flush.

L. Install branch connections to compressed-air mains from top of main. Provide drain leg and drain trap at end of each main and branch and at low points.

M. Install thermometer and pressure gage on discharge piping from each air compressor and on each receiver. Comply with requirements in Division 22 Section "Meters and Gages for Plumbing Piping."

N. Install piping to permit valve servicing.

O. Install piping free of sags and bends.

P. Install fittings for changes in direction and branch connections.

Q. Install seismic restraints on piping. Seismic-restraint devices are specified in Division 22 Section "Vibration and Seismic Controls for Plumbing Piping and Equipment."

R. Install sleeves for piping penetrations of walls, ceilings, and floors. Comply with requirements for sleeves specified in Division 22 Section "Sleeves and Sleeve Seals for Plumbing Piping."

S. Install sleeve seals for piping penetrations of concrete walls and slabs. Comply with requirements for sleeve seals specified in Division 22 Section "Sleeves and Sleeve Seals for Plumbing Piping."

T. Install escutcheons for piping penetrations of walls, ceilings, and floors. Comply with requirements for escutcheons specified in Division 22 Section "Escutcheons for Plumbing Piping."

3.2 JOINT CONSTRUCTION

A. Ream ends of pipes and tubes and remove burrs. Bevel plain ends of steel pipe.

B. Remove scale, slag, dirt, and debris from inside and outside of pipe and fittings before assembly.

C. Threaded Joints: Thread pipe with tapered pipe threads according to ASME B1.20.1. Cut threads full and clean using sharp dies. Ream threaded pipe ends to remove burrs and restore full ID. Join pipe fittings and valves as follows:1. Apply appropriate tape or thread compound to external pipe threads unless dry seal

threading is specified.



221513 - 6

2. Damaged Threads: Do not use pipe or pipe fittings with threads that are corroded or damaged. Do not use pipe sections that have cracked or open welds.

D. Welded Joints for Steel Piping: Join according to AWS D10.12/D10.12M.

E. Brazed Joints for Copper Tubing: Join according to AWS's "Brazing Handbook," "Pipe and Tube" Chapter.

F. Soldered Joints: Apply ASTM B 813, water-flushable flux, unless otherwise indicated, to tube end. Join according to ASTM B 828 or CDA's "Copper Tube Handbook."

G. Extruded-Tee Outlets for Copper Tubing: Form branches according to ASTM F 2014, with tools recommended by procedure manufacturer, and using operators qualified according to Part 1 "Quality Assurance" Article.

H. Flanged Joints: Use asbestos-free, nonmetallic gasket suitable for compressed air. Join flanges with gasket and bolts according to ASME B31.9 for bolting procedure.

I. Dissimilar Metal Piping Material Joints: Use dielectric fittings.

3.3 VALVE INSTALLATION

A. General-Duty Valves: Comply with requirements in Division 22 Section "General-Duty Valves for Plumbing Piping."

B. Install shutoff valves and unions or flanged joints at compressed-air piping to air compressors.

C. Install shutoff valve at inlet to each automatic drain valve, filter, lubricator, and pressure regulator.

D. Install check valves to maintain correct direction of compressed-air flow to and from compressed-air piping specialties and equipment.

3.4 DIELECTRIC FITTING INSTALLATION

A. Install dielectric fittings in piping at connections of dissimilar metal piping and tubing.

B. NPS 2 (DN 50) and Smaller: Use dielectric unions.

C. NPS 2-1/2 to NPS 4 (DN 65 to DN 100): Use dielectric flanges.

D. NPS 5 (DN 125)and Larger: Use dielectric flange kits.

3.5 FLEXIBLE PIPE CONNECTOR INSTALLATION

A. Install flexible pipe connectors in piping as shown on drawings.

B. Install bronze-hose flexible pipe connectors in copper compressed-air tubing.

C. Install stainless-steel-hose flexible pipe connectors in steel compressed-air piping.

3.6 SPECIALTY INSTALLATION

A. Install safety valves on receivers in quantity and size to relieve at least the capacity of connected air compressors.



221513 - 7

B. Install air-line pressure regulators in branch piping to equipment.

C. Install automatic drain valves on aftercoolers, receivers, and dryers. Discharge condensate onto nearest floor drain.

D. Install coalescing filters in compressed-air piping at or near air compressors and upstream from mechanical filters. Mount on wall at locations indicated.

3.7 CONNECTIONS

A. Install unions, in piping NPS 2 (DN 50) and smaller, adjacent to each valve and at final connection to each piece of equipment and machine.

B. Install flanges, in piping NPS 2-1/2 (DN 65) and larger, adjacent to flanged valves and at final connection to each piece of equipment and machine.

3.8 HANGER AND SUPPORT INSTALLATION

A. Comply with requirements in Division 22 Section "Vibration and Seismic Controls for Plumbing Piping and Equipment " for seismic-restraint devices.

B. Comply with requirements in Division 22 Section "Hangers and Supports for Plumbing Piping and Equipment" for pipe hanger and support devices.

C. Vertical Piping: MSS Type 8 or 42, clamps.

D. Individual, Straight, Horizontal Piping Runs:1. 100 Feet (30 m) or Less: MSS Type 1, adjustable, steel clevis hangers.2. Longer Than 100 Feet (30 m): MSS Type 43, adjustable roller hangers.

E. Multiple, Straight, Horizontal Piping Runs 100 Feet (30 m) or Longer: MSS Type 44, pipe rolls. Support pipe rolls on trapeze.

F. Base of Vertical Piping: MSS Type 52, spring hangers.

G. Support horizontal piping within 12 inches (300 mm) of each fitting and coupling.

H. Rod diameter may be reduced 1 size for double-rod hangers, with 3/8-inch (10-mm) minimum rods.

I. Install hangers for copper tubing with the following maximum horizontal spacing and minimum rod diameters:1. NPS 1/4 (DN 8): 60 inches (1500 mm) with 3/8-inch (10-mm) rod.2. NPS 3/8 and NPS 1/2 (DN 10 and DN 15): 72 inches (1800 mm) with 3/8-inch (10-mm)

rod.3. NPS 3/4 (DN 20): 84 inches (2100 mm) with 3/8-inch (10-mm) rod.4. NPS 1 (DN 25): 96 inches (2400 mm) with 3/8-inch (10-mm) rod.5. NPS 1-1/4 (DN 32): 108 inches (2700 mm) with 3/8-inch (10-mm) rod.6. NPS 1-1/2 (DN 40): 10 feet (3 m) with 3/8-inch (10-mm) rod.7. NPS 2 (DN 50): 11 feet (3.4 m) with 3/8-inch (10-mm) rod.8. NPS 2-1/2 (DN 65): 13 feet (4 m) with 1/2-inch (13-mm) rod.9. NPS 3 (DN 80): 14 feet (4.3 m) with 1/2-inch (13-mm) rod.10. NPS 3-1/2 (DN 90): 15 feet (4.6 m) with 1/2-inch (13-mm) rod.11. NPS 4 (DN 100): 16 feet (4.9 m) with 1/2-inch (13-mm) rod.12. NPS 5 (DN 125): 18 feet (5.5 m) with 1/2-inch (13-mm) rod.



221513 - 8

13. NPS 6 (DN 150): 20 feet (6 m) with 5/8-inch (16-mm) rod.14. NPS 8 (DN 200): 23 feet (7 m) with 3/4-inch (19-mm) rod.

J. Install supports for vertical copper tubing every 10 feet (3 m).

3.9 LABELING AND IDENTIFICATION

A. Install identifying labels and devices for general-service compressed-air piping, valves, and specialties. Comply with requirements in Division 22 Section "Identification for Plumbing Piping and Equipment."

3.10 FIELD QUALITY CONTROL

A. Perform field tests and inspections.

B. Tests and Inspections:1. Piping Leak Tests for Metal Compressed-Air Piping: Test new and modified parts of

existing piping. Cap and fill general-service compressed-air piping with oil-free dry air or gaseous nitrogen to pressure of 50 psig (345 kPa) above system operating pressure, but not less than 150 psig (1035 kPa). Isolate test source and let stand for four hours to equalize temperature. Refill system, if required, to test pressure; hold for two hours with no drop in pressure.

2. Repair leaks and retest until no leaks exist.3. Inspect filters for proper operation.

C. Prepare test reports.



Plumbing Fixtures © 2009 Spectrum Engineers, Inc.

224000 - 1

SECTION 224000 - PLUMBING FIXTURES

PART 1 - GENERAL



1.2 SUMMARY

A. This Section includes the following conventional plumbing fixtures and related components:1. Faucets for sinks.2. Fixture supports.3. Commercial sinks.

B. Related Sections include the following:1. Division 22 Section "Domestic Water Piping Specialties" for backflow preventers, floor

drains, and specialty fixtures not included in this Section.

1.3 DEFINITIONS

A. Accessible Fixture: Plumbing fixture that can be approached, entered, and used by people with disabilities.

B. Fitting: Device that controls the flow of water into or out of the plumbing fixture. Fittings specified in this Section include supplies and stops, faucets and spouts, shower heads and tub spouts, drains and tailpieces, and traps and waste pipes. Piping and general-duty valves are included where indicated.

C. PVC: Polyvinyl chloride plastic.

D. Solid Surface: Nonporous, homogeneous, cast-polymer-plastic material with heat-, impact-, scratch-, and stain-resistance qualities.

1.4 SUBMITTALS

A. Product Data: For each type of plumbing fixture indicated. Include selected fixture and trim, fittings, accessories, appliances, appurtenances, equipment, and supports. Indicate materials and finishes, dimensions, construction details, and flow-control rates.

B. Shop Drawings: Diagram power, signal, and control wiring.

C. Operation and Maintenance Data: For plumbing fixtures to include in emergency, operation, and maintenance manuals.

D. Warranty: Special warranty specified in this Section.


A. Source Limitations: Obtain plumbing fixtures, faucets, and other components of each category through one source from a single manufacturer.



224000 - 2

1. Exception: If fixtures, faucets, or other components are not available from a single manufacturer, obtain similar products from other manufacturers specified for that category.

B. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, Article 100, by a testing agency acceptable to authorities having jurisdiction, and marked for intended use.

C. Regulatory Requirements: Comply with requirements in Public Law 102-486, "Energy Policy Act," about water flow and consumption rates for plumbing fixtures.

D. NSF Standard: Comply with NSF 61, "Drinking Water System Components--Health Effects," for fixture materials that will be in contact with potable water.

E. Select combinations of fixtures and trim, faucets, fittings, and other components that are compatible.

F. Comply with the following applicable standards and other requirements specified for plumbing fixtures:1. Stainless-Steel Commercial, Handwash Sinks: NSF 2 construction.

G. Comply with the following applicable standards and other requirements specified for faucets:1. Backflow Protection Devices for Faucets with Hose-Thread Outlet: ASME A112.18.3M.2. Faucets: ASME A112.18.1.3. NSF Potable-Water Materials: NSF 61.4. Pipe Threads: ASME B1.20.1.5. Supply Fittings: ASME A112.18.1.6. Brass Waste Fittings: ASME A112.18.2.

H. Comply with the following applicable standards and other requirements specified for miscellaneous fittings:1. Brass and Copper Supplies: ASME A112.18.1.2. Brass Waste Fittings: ASME A112.18.2.

I. Comply with the following applicable standards and other requirements specified for miscellaneous components:1. Flexible Water Connectors: ASME A112.18.6.2. Floor Drains: ASME A112.6.3.3. Pipe Threads: ASME B1.20.1.4. Supply and Drain Protective Shielding Guards: ICC A117.1.

1.6 WARRANTY

A. Special Warranties: Manufacturer's standard form in which manufacturer agrees to repair or replace components of whirlpools that fail in materials or workmanship within specified warranty period.1. Failures include, but are not limited to, the following:

a. Structural failures of unit shell.b. Deterioration of metals, metal finishes, and other materials beyond normal use.

2. Warranty Period for Commercial Applications: One year(s) from date of Substantial Completion.



224000 - 3

1.7 EXTRA MATERIALS

A. Furnish extra materials described below that match products installed and that are packaged with protective covering for storage and identified with labels describing contents.1. Faucet Washers and O-Rings: Equal to 10 percent of amount of each type and size

installed.2. Faucet Cartridges and O-Rings: Equal to 5 percent of amount of each type and size

installed.

PART 2 - PRODUCTS

2.1 SINK FAUCETS

A. Sink Faucets,:1. Available Manufacturers: Subject to compliance with requirements, manufacturers

offering products that may be incorporated into the Work include, but are not limited to, the following:a. American Standard Companies, Inc.b. Bradley Corporation.c. Broadway Collection.d. Chicago Faucets.e. Delta Faucet Company.f. Dormont Manufacturing Company.g. Eljer.h. Elkay Manufacturing Co.i. Fisher Manufacturing Co.j. Grohe America, Inc.k. Just Manufacturing Company.l. Kohler Co.m. Moen, Inc.n. Royal Brass Mfg. Co.o. Sayco; a Briggs Plumbing Products, Inc. Company.p. Speakman Company.q. T & S Brass and Bronze Works, Inc.r. Zurn Plumbing Products Group; Commercial Brass Operation.s. American Standard Companies, Inc.t. Bradley Corporation.u. Brasstech Inc.; Newport Brass Div.v. Broadway Collection.w. Central Brass Manufacturing Company.x. Chicago Faucets.y. Delta Faucet Company.z. Eljer.aa. Elkay Manufacturing Co.bb. Fisher Manufacturing Co.cc. Franke Consumer Products, Inc.; Kitchen Systems Div.dd. Gerber Plumbing Fixtures LLC.ee. Grohe America, Inc.ff. Hansgrohe Inc.gg. Hydrotek International, Inc.hh. Intersan Manufacturing Company.ii. Just Manufacturing Company.jj. Kohler Co.kk. Moen, Inc.ll. Pegler, Ltd.mm. Price Pfister, Inc.



224000 - 4

nn. Rohl LLC.oo. Royal Brass Mfg. Co.pp. Sayco; a Briggs Plumbing Products, Inc. Company.qq. Speakman Company.rr. T & S Brass and Bronze Works, Inc.ss. Water Management, Inc.tt. Wolverine Brass, Inc.uu. Zurn Plumbing Products Group; Commercial Brass Operation.

2.2 FIXTURE SUPPORTS

A. Available Manufacturers: Subject to compliance with requirements, manufacturers offering products that may be incorporated into the Work include, but are not limited to, the following:1. Josam Company.2. MIFAB Manufacturing Inc.3. Smith, Jay R. Mfg. Co.4. Tyler Pipe; Wade Div.5. Watts Drainage Products Inc.; a div. of Watts Industries, Inc.6. Zurn Plumbing Products Group; Specification Drainage Operation.

B. Sink Supports,:1. Description: Type III, sink carrier with hanger plate and exposed arms for sink-type

fixture. Include steel uprights with feet.

2.3 COMMERCIAL SINKS

A. Commercial Sinks,:1. Available Manufacturers: Subject to compliance with requirements, manufacturers

offering products that may be incorporated into the Work include, but are not limited to, the following:a. Advance Tabco.b. Elkay Manufacturing Co.c. Just Manufacturing Company.d. Metal Masters Foodservice Equipment Co., Inc.

2. Description: One-compartment, counter-mounting, stainless-steel commercial sink.a. Supplies: NPS 1/2 (DN 15) chrome-plated copper with stops or shutoff valves.b. Drain Piping: NPS 2 (DN 50) chrome-plated, cast-brass P-trap; 0.045-inch- (1.1-

mm-) thick tubular brass waste to wall;and wall escutcheon(s).

PART 3 - EXECUTION

3.1 EXAMINATION

A. Examine roughing-in of water supply and sanitary drainage and vent piping systems to verify actual locations of piping connections before plumbing fixture installation.

B. Examine cabinets, counters, floors, and walls for suitable conditions where fixtures will be installed.

C. Proceed with installation only after unsatisfactory conditions have been corrected.

3.2 INSTALLATION

A. Assemble plumbing fixtures, trim, fittings, and other components according to manufacturers' written instructions.



224000 - 5

B. Install off-floor supports, affixed to building substrate, for wall-mounting fixtures.1. Use carrier supports with waste fitting and seal for back-outlet fixtures.2. Use carrier supports without waste fitting for fixtures with tubular waste piping.3. Use chair-type carrier supports with rectangular steel uprights for accessible fixtures.

C. Install back-outlet, wall-mounting fixtures onto waste fitting seals and attach to supports.

D. Install floor-mounting fixtures on closet flanges or other attachments to piping or building substrate.

E. Install wall-mounting fixtures with tubular waste piping attached to supports.

F. Install floor-mounting, back-outlet water closets attached to building floor substrate and wall bracket and onto waste fitting seals.

G. Install counter-mounting fixtures in and attached to casework.

H. Install fixtures level and plumb according to roughing-in drawings.

I. Install water-supply piping with stop on each supply to each fixture to be connected to water distribution piping. Attach supplies to supports or substrate within pipe spaces behind fixtures. Install stops in locations where they can be easily reached for operation.1. Exception: Use ball, gate, or globe valves if supply stops are not specified with fixture.

Valves are specified in Division 22 Section "General-Duty Valves for Plumbing Piping."

J. Install trap and tubular waste piping on drain outlet of each fixture to be directly connected to sanitary drainage system.

K. Install tubular waste piping on drain outlet of each fixture to be indirectly connected to drainage system.

L. Install flushometer valves for accessible water closets and urinals with handle mounted on wide side of compartment. Install other actuators in locations that are easy for people with disabilities to reach.

M. Install tanks for accessible, tank-type water closets with lever handle mounted on wide side of compartment.

N. Install toilet seats on water closets.

O. Install trap-seal liquid in dry urinals.

P. Install faucet-spout fittings with specified flow rates and patterns in faucet spouts if faucets are not available with required rates and patterns. Include adapters if required.

Q. Install water-supply flow-control fittings with specified flow rates in fixture supplies at stop valves.

R. Install faucet flow-control fittings with specified flow rates and patterns in faucet spouts if faucets are not available with required rates and patterns. Include adapters if required.

S. Install shower flow-control fittings with specified maximum flow rates in shower arms.

T. Install traps on fixture outlets.1. Exception: Omit trap on fixtures with integral traps.



224000 - 6

2. Exception: Omit trap on indirect wastes, unless otherwise indicated.

U. Install hot-water dispensers in back top surface of sink or in countertop with spout over sink.

V. Install escutcheons at piping wall ceiling penetrations in exposed, finished locations and within cabinets and millwork. Use deep-pattern escutcheons if required to conceal protruding fittings. Escutcheons are specified in Division 22 Section "Escutcheons for Plumbing Piping."

W. Seal joints between fixtures and walls, floors, and countertops using sanitary-type, one-part, mildew-resistant silicone sealant. Match sealant color to fixture color. Sealants are specified in Division 07 Section "Joint Sealants."

3.3 CONNECTIONS

A. Piping installation requirements are specified in other Division 22 Sections. Drawings indicate general arrangement of piping, fittings, and specialties.

B. Connect fixtures with water supplies, stops, and risers, and with traps, soil, waste, and vent piping. Use size fittings required to match fixtures.

C. Ground equipment according to Division 26 Section "Grounding and Bonding for Electrical Systems."

D. Connect wiring according to Division 26 Section "Low-Voltage Electrical Power Conductors and Cables."


A. Verify that installed plumbing fixtures are categories and types specified for locations where installed.

B. Check that plumbing fixtures are complete with trim, faucets, fittings, and other specified components.

C. Inspect installed plumbing fixtures for damage. Replace damaged fixtures and components.

D. Test installed fixtures after water systems are pressurized for proper operation. Replace malfunctioning fixtures and components, then retest. Repeat procedure until units operate properly.

E. Install fresh batteries in sensor-operated mechanisms.

3.5 ADJUSTING

A. Operate and adjust faucets and controls. Replace damaged and malfunctioning fixtures, fittings, and controls.

B. Adjust water pressure at faucets to produce proper flow and stream.

C. Replace washers and seals of leaking and dripping faucets and stops.

D. Install fresh batteries in sensor-operated mechanisms.



224000 - 7

3.6 CLEANING

A. Clean fixtures, faucets, and other fittings with manufacturers' recommended cleaning methods and materials. Do the following:1. Remove faucet spouts and strainers, remove sediment and debris, and reinstall strainers

and spouts.2. Remove sediment and debris from drains.

B. After completing installation of exposed, factory-finished fixtures, faucets, and fittings, inspect exposed finishes and repair damaged finishes.

3.7 PROTECTION

A. Provide protective covering for installed fixtures and fittings.

B. Do not allow use of plumbing fixtures for temporary facilities unless approved in writing by Owner.



Commissioning Of Hvac © 2009 Spectrum Engineers, Inc.

230800 - 1

SECTION 230800 - COMMISSIONING OF HVAC

PART 1 - GENERAL


A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and other Division 01 Specification Sections, apply to this Section.

1.2 SUMMARY

A. Section includes commissioning process requirements for systems, assemblies, and equipment.

B. Related Sections:1. Division 01 Section "General Commissioning Requirements" for general commissioning

process requirements.

1.3 DEFINITIONS

A. Commissioning Plan: A document that outlines the organization, schedule, allocation of resources, and documentation requirements of the commissioning process.

B. CxA: Commissioning Authority.

C. HVAC: Heating, Ventilating, and Air Conditioning.

D. Systems, Subsystems, Equipment, and Components: Where these terms are used together or separately, they shall mean "as-built" systems, subsystems, equipment, and components.

1.4 INFORMATIONAL SUBMITTALS

A. Certificates of readiness.

B. Certificates of completion of installation, prestart, and startup activities.

1.5 CONTRACTOR'S RESPONSIBILITIES

A. Commissioning Approach: Due to the leading-edge equipment being installed in the microscope rooms and the reports from previous research institutions that have installed this equipment, it has been determined that complying with the manufacturer’s requirements may not be sufficient to assure that quality images can be obtained from the electron microscopes being installed. In accordance with this problem, a CxA shall prepare a two stage commissioning plan and the HVAC installers shall include necessary effort to implement the two stage commissioning plan for each microscope room to be commissioned, as follows:1. Commissioning Plan Phase I: Prepare commissioning plan to comply with the Owner’s

Project Requirements based upon the specifications from each microscope manufacturer.a. Owner’s Project Requirements for maximum air velocity: 6.0 fpm vertical, and 0.5

fpm horizontal.b. Owner’s Project Requirements for maximum temperature variation: +/- .05 degree

F.c. Owner’s Project Requirements for radiant cooling system: adjust system cooling

capacity to equal steady state microscope heat rejection into microscope room.



230800 - 2

Start with manufacturer’s heat rejection data and adjust as needed to actual steady state heat rejection.

d. Owner’s Project Requirements for vibration and acoustics based upon microscope manufacturer’s criteria.

2. Commissioning Plan Phase II: After the commissioning plan Phase I has been implemented, prepare commissioning plan to comply with the Owner’s Project Requirements based upon the quality of the image of each microscope.a. Adjust the room air velocity, room temperature, and room temperature variation to

optimize the operation of each microscope based upon meetings with the microscope operators.

B. Perform commissioning tests at the direction of the CxA.1. Temperature and Humidity Tests;2. Air Flow Tests;3. Vibration Noise Level Test;4. Acoustical Noise Level Test;

C. Attend construction phase controls coordination meeting.

D. Attend testing, adjusting, and balancing review and coordination meeting.

E. Participate in HVAC systems, assemblies, equipment, and component maintenance orientation and inspection as directed by the CxA.

F. Provide information requested by the CxA for final commissioning documentation.

G. Provide measuring instruments and logging devices to record test data, and provide data acquisition equipment to record data for the complete range of testing for the required test period.1. Temperature and Humidity Test: The equipment for the following tests shall comply, at a

minimum, with the standards set forth in ISO 14644-3, Annex C-Test Instrumentation.2. Air Flow Test: The equipment for the following tests shall provide air flow measurements

from 1 fpm to 100 fpm and shall indicate the direction of flow.3. Airborne noise measurements shall be made in the Imaging Room areas. Measurement

equipment shall conform to ANSI S14, “Specifications for Type 1 Sound Level Meters” and to ANSI S1.11, “Specifications fo Octave, Half-Octave, and Third-Octave Band Filter Sets. Measurement equipment shall be calibrated with an acoustical calibrator conforming to ANSI 1.40, “Specifications for acoustical Calibrators.”

4. Vibration measurements shall be taken using a measurement bandwith of .25Hz for a frequency range of 0 to 100 Hz. Data shall be collected for steady-state random “stationary” processes (such as HVAC and other tools) as well as short-term transient events (such as passing trucks) capturing the impact of maximum RMS (some signal analyzers call this a “peak hold” amplitude events. Note: The low frequency vibration testing accuracy is critical. Battery powered testing systems shall be used to minimize “house” electrical interference.

H. Temperature and Humidity Test:1. Scope of measurement: Take temperature and humidity reading in Scope room #2 and

#3.2. Measuring Procedure: Per ISO 14644-3, Annex B9 (Temperature) and B10 (Humidity).3. Tolerance: Comply with requirement of specifications for each scope including .05

degree C. termperature drift per hour and under load conditions.

I. Air Flow Test:



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1. Scope of Measurement: Take air flow reading in Scope room #2 and #3 within 12” of microscope column in four directions in the horizontal plane and at 1 foot intervals in the vertical plane.

2. Measuring Procedure: Per ISO standards.3. Tolerance: Flow shall not exceed 6 fpm vertically and 1 fpm horizontally.

J. Vibration Test:1. Scope of measurement: Make vibration tests for Scope rooms #2 and #3..2. Measuring Procedure: Vibration measurements shall be measured on the structural floor

and on top of the tool pedestal in a format comparable with the microscope specification for each of the microscopes.

3. Nearby elevators shall be operated during testing and results specifically observed/noted. Large truck delivery to the Schwada loading dock shall all be tested with results observed/noted.

4. Tolerance: Comply with requirement of microscope installation requirements for vibration.

K. Acoustical Noise Level Test:1. Scope of Measurement: Make acoustical noise level tests in Scope Room #2 and #3.2. Measuring Procedure: Data shall be measured at points16 ft., 12 ft., 8 ft., 4 ft., and 1 ft.,

above structural floor and on top of the microscope column in a format comparable with the microscope specification for each microscope.

3. Data shall be measured on the structural floor for each of the microscope rooms identified as NC noise ratings.

4. Tolerance: Comply with the requirements of microscope installation specifications.

1.6 CxA'S RESPONSIBILITIES

A. Provide Project-specific construction checklists and commissioning process test procedures for actual HVAC systems, assemblies, equipment, and components to be furnished and installed as part of the construction contract.

B. Direct commissioning testing.

C. Verify testing, adjusting, and balancing of Work are complete.

D. Provide test data, inspection reports, and certificates in Systems Manual.

1.7 COMMISSIONING DOCUMENTATION

A. Provide the following information to the CxA for inclusion in the commissioning plan:1. Plan for delivery and review of submittals, systems manuals, and other documents and

reports.2. Identification of installed systems, assemblies, equipment, and components including

design changes that occurred during the construction phase.3. Process and schedule for completing construction checklists and manufacturer's prestart

and startup checklists for HVAC systems, assemblies, equipment, and components to be verified and tested.

4. Certificate of completion certifying that installation, prestart checks, and startup procedures have been completed.

5. Certificate of readiness certifying that HVAC systems, subsystems, equipment, and associated controls are ready for testing.

6. Test and inspection reports and certificates.7. Corrective action documents.8. Verification of testing, adjusting, and balancing reports.



230800 - 4

PART 2 - PRODUCTS (Not Used)

PART 3 - EXECUTION

3.1 TESTING PREPARATION

A. Certify that HVAC systems, subsystems, and equipment have been installed, calibrated, and started and are operating according to the Contract Documents.

B. Certify that HVAC instrumentation and control systems have been completed and calibrated, that they are operating according to the Contract Documents, and that pretest set points have been recorded.

C. Certify that testing, adjusting, and balancing procedures have been completed and that testing, adjusting, and balancing reports have been submitted, discrepancies corrected, and corrective work approved.

D. Set systems, subsystems, and equipment into operating mode to be tested (e.g., normal shutdown, normal auto position, normal manual position, unoccupied cycle, emergency power, and alarm conditions).

E. Inspect and verify the position of each device and interlock identified on checklists.

F. Check safety cutouts, alarms, and interlocks with smoke control and life-safety systems during each mode of operation.

G. Testing Instrumentation: Install measuring instruments and logging devices to record test data as directed by the CxA.

3.2 TESTING AND BALANCING VERIFICATION

A. Prior to performance of testing and balancing Work, provide copies of reports, sample forms, checklists, and certificates to the CxA.

B. Notify the CxA at least 10 days in advance of testing and balancing Work, and provide access for the CxA to witness testing and balancing Work.

C. Provide technicians, instrumentation, and tools to verify testing and balancing of HVAC systems at the direction of the CxA.1. The CxA will notify testing and balancing Subcontractor 10 days in advance of the date of

field verification. Notice will not include data points to be verified.2. The testing and balancing Subcontractor shall use the same instruments (by model and

serial number) that were used when original data were collected.3. Failure of an item includes, other than sound, a deviation of more than 10 percent.

Failure of more than 10 percent of selected items shall result in rejection of final testing, adjusting, and balancing report. For sound pressure readings, a deviation of 3 dB shall result in rejection of final testing. Variations in background noise must be considered.

4. Remedy the deficiency and notify the CxA so verification of failed portions can be performed.

3.3 GENERAL TESTING REQUIREMENTS

A. Provide technicians, instrumentation, and tools to perform commissioning test at the direction of the CxA.



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B. Scope of HVAC testing shall include HVAC installation to the Microscope Rooms, from equipment for heat generation and refrigeration through distribution systems to each conditioned Microscope Room space. Testing shall include measuring capacities and effectiveness of operational and control functions.

C. Test all operating modes, interlocks, control responses, and responses to abnormal or emergency conditions, and verify proper response of building automation system controllers and sensors.

D. The CxA along with the HVAC Subcontractor, testing and balancing Subcontractor, and HVACInstrumentation and Control Subcontractor shall prepare detailed testing plans, procedures, and checklists for HVAC systems, subsystems, and equipment.

E. Tests will be performed using design conditions whenever possible.

F. If tests cannot be completed because of a deficiency outside the scope of the HVAC system, document the deficiency and report it to the Owner. After deficiencies are resolved, reschedule tests.

G. If the testing plan indicates specific seasonal testing, complete appropriate initial performance tests and documentation and schedule seasonal tests.

3.4 HVAC systems, subsystems, and equipment Testing Procedures

A. HVAC Instrumentation and Control System Testing: Field testing plans and testing requirements are specified in Division 23 Sections "Instrumentation and Control for HVAC" and "Sequence of Operations for HVAC Controls." Assist the CxA with preparation of testing plans.

B. Refrigeration System Testing: Provide technicians, instrumentation, tools, and equipment to test performance of chillers, heat exchangers, and pumps. The CxA shall determine the sequence of testing and testing procedures for each equipment item and pipe section to be tested.

C. HVAC Distribution System Testing: Provide technicians, instrumentation, tools, and equipment to test performance of air, and hydronic distribution systems; special exhaust; and other distribution systems, including HVAC terminal equipment and unitary equipment.

D. Vibration and Sound Tests: Provide technicians, instrumentation, tools, and equipment to test performance of vibration isolation and seismic controls..



Instrumentation And Control For Hvac © 2009 Spectrum Engineers, Inc.

230900 - 1

SECTION 230900 - INSTRUMENTATION AND CONTROL FOR HVAC

PART 1 - GENERAL



1.2 SUMMARY

A. This Section includes control equipment for HVAC systems and components, including control components for terminal heating and cooling units not supplied with factory-wired controls.

B. Related Sections include the following:1. Division 23 Section "Meters and Gages for HVAC Piping" for measuring equipment that

relates to this Section.2. Division 23 Section "COMMISSIONING OF HVAC" for requirements that relate to this

Section.

1.3 DEFINITIONS

A. DDC: Direct digital control.

B. I/O: Input/output.

C. LonWorks: A control network technology platform for designing and implementing interoperable control devices and networks.

D. MS/TP: Master slave/token passing.

E. PC: Personal computer.

F. PID: Proportional plus integral plus derivative.

G. RTD: Resistance temperature detector.

1.4 SYSTEM PERFORMANCE1. Reporting Accuracy and Stability of Control: Report values and maintain measured

variables within tolerances as follows:a. Water Temperature: Plus or minus 1 deg F (0.5 deg C).b. Water Flow: Plus or minus 5 percent of full scale, except chilled water flow at fan-

coils serving the microscope rooms shall be plus or minus 0.5% of full scale.c. Space Temperature: Plus or minus 1 deg F (0.5 deg C), except microscope rooms

shall be plus or minus 0.05 deg F (0.10 deg C).

1.5 SEQUENCE OF OPERATION

A. Refer to drawings for sequence of operation.



230900 - 2

1.6 SUBMITTALS

A. Product Data: Include manufacturer's technical literature for each control device. Indicate dimensions, capacities, performance characteristics, electrical characteristics, finishes for materials, and installation and startup instructions for each type of product indicated.1. DDC System Hardware: Bill of materials of equipment indicating quantity, manufacturer,

and model number. Include technical data for operator workstation equipment, interface equipment, control units, transducers/transmitters, sensors, actuators, valves, relays/switches, control panels, and operator interface equipment.

2. Control System Software: Include technical data for operating system software, operator interface, color graphics, and other third-party applications.

3. Controlled Systems: Instrumentation list with element name, type of device, manufacturer, model number, and product data. Include written description of sequence of operation including schematic diagram.

B. Shop Drawings: Detail equipment assemblies and indicate dimensions, weights, loads, required clearances, method of field assembly, components, and location and size of each field connection.1. Bill of materials of equipment indicating quantity, manufacturer, and model number.2. Schedule of valve actuators including specifications and degree or accuracy.3. Room temperature sensors including specifications and transmitter accuracy.4. Schedule of valves including flow characteristics and degree of accuracy.5. DDC Programmable Logic Controller.

C. Operation and Maintenance Data: For HVAC instrumentation and control system to include in emergency, operation, and maintenance manuals. In addition to items specified in Division 01 Section "Operation and Maintenance Data," include the following:1. Maintenance instructions and lists of spare parts for each type of control device and

compressed-air station.2. Interconnection wiring diagrams with identified and numbered system components and

devices.3. Keyboard illustrations and step-by-step procedures indexed for each operator function.4. Inspection period, cleaning methods, cleaning materials recommended, and calibration

tolerances.5. Calibration records and list of set points.


A. Installer Qualifications: Automatic control system manufacturer's authorized representative who is trained and approved for installation of system components required for this Project.

B. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, Article 100, by a testing agency acceptable to authorities having jurisdiction, and marked for intended use.

C. Comply with ASHRAE 135 for DDC system components.

1.8 DELIVERY, STORAGE, AND HANDLING

A. Factory-Mounted Components: Where control devices specified in this Section are indicated to be factory mounted on equipment, arrange for shipping of control devices to equipment manufacturer.

B. System Software: Update to latest version of software at Project completion.



230900 - 3

1.9 COORDINATION

A. Coordinate location of thermostats, and other exposed control sensors with plans and room details before installation.

PART 2 - PRODUCTS

2.1 MANUFACTURERS

A. In other Part 2 articles where titles below introduce lists, the following requirements apply to product selection:1. Manufacturer: Subject to compliance with requirements, provide products by the

manufacturer specified.

2.2 CONTROL SYSTEM

A. Manufacturer:1. Johnson Controls, Inc.; Controls Group.

B. Control system shall consist of sensors, indicators, actuators, final control elements, interface equipment, other apparatus, and accessories to control mechanical systems.

C. Control system shall consist of sensors, indicators, actuators, final control elements, interface equipment, other apparatus, accessories, and software connected to distributed controllers operating in multiuser, multitasking environment on token-passing network and programmed to control mechanical systems. An operator workstation permits interface with the network via dynamic color graphics with each mechanical system, building floor plan, and control device depicted by point-and-click graphics.

2.3 DDC EQUIPMENT

A. I/O Interface: Hardwired inputs and outputs may tie into system through controllers. Protect points so that shorting will cause no damage to controllers.1. Binary Inputs: Allow monitoring of on-off signals without external power.2. Pulse Accumulation Inputs: Accept up to 10 pulses per second.3. Analog Inputs: Allow monitoring of low-voltage (0- to 10-V dc), current (4 to 20 mA), or

resistance signals.4. Binary Outputs: Provide on-off or pulsed low-voltage signal, selectable for normally open

or normally closed operation with three-position (on-off-auto) override switches and status lights.

5. Analog Outputs: Provide modulating signal, either low voltage (0- to 10-V dc) or current (4 to 20 mA) with status lights, two-position (auto-manual) switch, and manually adjustable potentiometer.

6. Tri-State Outputs: Provide two coordinated binary outputs for control of three-point, floating-type electronic actuators.

7. Universal I/Os: Provide software selectable binary or analog outputs.

2.4 ELECTRONIC SENSORS

A. Description: Vibration and corrosion resistant; for wall, immersion, or duct mounting as required.

B. Thermistor Temperature Sensors and Transmitters:1. Available Manufacturers:

a. BEC Controls Corporation.



230900 - 4

b. Ebtron, Inc.c. Heat-Timer Corporation.d. I.T.M. Instruments Inc.e. MAMAC Systems, Inc.f. RDF Corporation.g. KELE

2. Accuracy: Plus or minus 0.5 deg F (0.3 deg C) at calibration point, except microscope rooms shall be 0.05 deg F (0.03 deg C).

3. Insertion Elements for Liquids: Brass or stainless-steel socket with minimum insertion length of 2-1/2 inches (64 mm).

4. Room Sensor Cover Construction: Manufacturer's standard locking covers.a. Set-Point Adjustment: Exposed.b. Set-Point Indication: Exposed.c. Thermometer: Exposed.d. Orientation: Vertical.

2.5 STATUS SENSORS

A. Status Inputs for Fans: Differential-pressure switch with pilot-duty rating and with adjustable range of 0- to 5-inch wg (0 to 1240 Pa).

B. Status Inputs for Pumps: Differential-pressure switch with pilot-duty rating and with adjustable pressure-differential range of 8 to 60 psig (55 to 414 kPa), piped across pump.

C. Status Inputs for Electric Motors: Comply with ISA 50.00.01, current-sensing fixed- or split-core transformers with self-powered transmitter, adjustable and suitable for 175 percent of rated motor current.

D. Voltage Transmitter (100- to 600-V ac): Comply with ISA 50.00.01, single-loop, self-powered transmitter, adjustable, with suitable range and 1 percent full-scale accuracy.

E. Power Monitor: 3-phase type with disconnect/shorting switch assembly, listed voltage and current transformers, with pulse kilowatt hour output and 4- to 20-mA kW output, with maximum 2 percent error at 1.0 power factor and 2.5 percent error at 0.5 power factor.

F. Current Switches: Self-powered, solid-state with adjustable trip current, selected to match current and system output requirements.

G. Electronic Valve/Damper Position Indicator: Visual scale indicating percent of travel and 2- to 10-V dc, feedback signal.

H. Water-Flow Switches: Bellows-actuated mercury or snap-acting type with pilot-duty rating, stainless-steel or bronze paddle, with appropriate range and differential adjustment, in NEMA 250, Type 1 enclosure.1. Manufacturers:

a. BEC Controls Corporation.b. I.T.M. Instruments Inc.

2.6 THERMOSTATS

A. Manufacturers:1. Erie Controls.2. Danfoss Inc.; Air-Conditioning and Refrigeration Div.3. Heat-Timer Corporation.4. Sauter Controls Corporation.



230900 - 5

5. tekmar Control Systems, Inc.6. Theben AG - Lumilite Control Technology, Inc.

B. Heating/Cooling Valve-Top Thermostats: Proportional acting for proportional flow, with molded-rubber diaphragm, remote-bulb liquid-filled element, direct and reverse acting at minimum shutoff pressure of 25 psig (172 kPa), and cast housing with position indicator and adjusting knob.

2.7 ACTUATORS

A. Electric Motors: Size to operate with sufficient reserve power to provide smooth modulating action or two-position action.1. Comply with requirements in Division 23 Section "Common Motor Requirements for

HVAC Equipment."2. Permanent Split-Capacitor or Shaded-Pole Type: Gear trains completely oil immersed

and sealed. Equip spring-return motors with integral spiral-spring mechanism in housings designed for easy removal for service or adjustment of limit switches, auxiliary switches, or feedback potentiometer.

B. Electronic Actuators: Direct-coupled type designed for minimum 60,000 full-stroke cycles at rated torque.1. Manufacturers:

a. Belimo Aircontrols (USA), Inc.b. Siemens.c. Honeywell

2. Valves: Size for torque required for valve close off at maximum pump differential pressure.

3. Coupling: V-bolt and V-shaped, toothed cradle.4. Overload Protection: Electronic overload or digital rotation-sensing circuitry.5. Fail-Safe Operation: Mechanical, spring-return mechanism. Provide external, manual

gear release on nonspring-return actuators.6. Power Requirements (Two-Position Spring Return): 24-V ac.7. Proportional Signal: 2- to 10-V dc or 4 to 20 mA, and 2- to 10-V dc position feedback

signal.8. Temperature Rating: Minus 22 to plus 122 deg F (Minus 30 to plus 50 deg C).9. Temperature Rating (Smoke Dampers): Minus 22 to plus 250 deg F (Minus 30 to plus

121 deg C).10. Run Time: 12 seconds open, 5 seconds closed.

2.8 CONTROL VALVES

A. Manufacturers:1. Danfoss Inc.; Air Conditioning & Refrigeration Div.2. Erie Controls.3. Hayward Industrial Products, Inc.4. Magnatrol Valve Corporation.5. Neles-Jamesbury.6. Parker Hannifin Corporation; Skinner Valve Division.7. Pneuline Controls.8. Sauter Controls Corporation.9. Siemens10. Belimo

B. Control Valves: Factory fabricated, of type, body material, and pressure class based on maximum pressure and temperature rating of piping system, unless otherwise indicated.



230900 - 6

C. Hydronic system globe valves shall have the following characteristics:1. NPS 2 (DN 50) and Smaller: Class 125 bronze body, bronze trim, rising stem, renewable

composition disc, and screwed ends with backseating capacity repackable under pressure.

2. NPS 2-1/2 (DN 65) and Larger: Class 125 iron body, bronze trim, rising stem, plug-type disc, flanged ends, and renewable seat and disc.

3. Internal Construction: Replaceable plugs and stainless-steel or brass seats.a. Single-Seated Valves: Cage trim provides seating and guiding surfaces for plug

on top and bottom.b. Double-Seated Valves: Balanced plug; cage trim provides seating and guiding

surfaces for plugs on top and bottom.4. Sizing: 5-psig (35-kPa) maximum pressure drop at design flow rate or the following:

a. Two-Way Modulating: Either the value specified above or twice the load pressure drop, whichever is more.

5. Flow Characteristics: Two-way valves shall have equal percentage characteristics; three-way valves shall have linear characteristics.

6. Close-Off (Differential) Pressure Rating: Combination of actuator and trim shall provide minimum close-off pressure rating of 150 percent of total system (pump) head for two-way valves and 100 percent of pressure differential across valve or 100 percent of total system (pump) head.

2.9 CONTROL CABLE

A. Electronic and fiber-optic cables for control wiring are specified in Division 27 Section "Communications Horizontal Cabling."

PART 3 - EXECUTION

3.1 INSTALLATION

A. Verify location of thermostats, humidistats, and other exposed control sensors with Drawings and room details before installation. Install devices 60 inches (1530 mm) above the floor.1. Install averaging elements in ducts and plenums in crossing or zigzag pattern.

B. Install guards on thermostats in the following locations:1. Entrances.2. Public areas.3. Where indicated.

C. Install labels and nameplates to identify control components according to Division 23 Section "Identification for HVAC Piping and Equipment."

D. Install hydronic instrument wells, valves, and other accessories according to Division 23 Section "Hydronic Piping."

E. Install electronic and fiber-optic cables according to Division 27 Section "Communications Horizontal Cabling."

3.2 ELECTRICAL WIRING AND CONNECTION INSTALLATION

A. Install raceways, boxes, and cabinets according to Division 26 Section "Raceway and Boxes for Electrical Systems."

B. Install building wire and cable according to Division 26 Section "Low-Voltage Electrical Power Conductors and Cables."



230900 - 7

C. Install signal and communication cable according to Division 27 Section "Communications Horizontal Cabling."1. Conceal cable, except in mechanical rooms and areas where other conduit and piping

are exposed.2. Install exposed cable in raceway.3. Install concealed cable in raceway.4. Bundle and harness multiconductor instrument cable in place of single cables where

several cables follow a common path.5. Fasten flexible conductors, bridging cabinets and doors, along hinge side; protect against

abrasion. Tie and support conductors.6. Number-code or color-code conductors for future identification and service of control

system, except local individual room control cables.7. Install wire and cable with sufficient slack and flexible connections to allow for vibration of

piping and equipment.

D. Connect manual-reset limit controls independent of manual-control switch positions. Automatic duct heater resets may be connected in interlock circuit of power controllers.

E. Connect hand-off-auto selector switches to override automatic interlock controls when switch is in hand position.

3.3 PLC PROGRAMMING FOR HVAC FOR MICROSCOPE ROOMS

A. Phase I: Program PLC to comply with the following Owner’s Project Requirements:1. Owner’s Project Requirements for room temperature of 68 degrees F., maximum air

velocity: 6.0 fpm vertical and 0.5 fpm horizontal.2. Owner’s Project Requirements for mximum temperature variation: +- .05 degree F.3. Owner’s Project Requirements for radiant cooling system: adjust radiant system cooling

capacity to equal steady state microscope heat rejection into microscope room. Start with manufacturer’s heat rejection data and adjust as needed to actual steady state heat rejection.

4. Owner’s Project Requirements for supply air system: adjust air flow to deliver specified cfm as listed on fan-coil schedule.

B. Phase II: After microscopes have been installed, program PLC and make other adjustments as required to obtain the Owner’s Project Requirements for a quality image as determined by the microscope operator. Adjust the room air velocity, room temperature, and room temperature variation to optimize the operation of each microscope individually based upon meetings as required with microscope operators.


A. Manufacturer's Field Service: Engage a factory-authorized service representative to inspect, test, and adjust field-assembled components and equipment installation, including connections, and to assist in field testing. Report results in writing.

B. Perform the following field tests and inspections and prepare test reports:1. Operational Test: After electrical circuitry has been energized, start units to confirm

proper unit operation. Remove and replace malfunctioning units and retest.2. Test and adjust controls and safeties.3. Leak Test: After installation, charge system and test for leaks. Repair leaks and retest

until no leaks exist.4. Pressure test control air piping at 30 psig (207 kPa) or 1.5 times the operating pressure

for 24 hours, with maximum 5-psig (35-kPa) loss.5. Pressure test high-pressure control air piping at 150 psig (1034 kPa) and low-pressure

control air piping at 30 psig (207 kPa) for 2 hours, with maximum 1-psig (7-kPa) loss.



230900 - 8

6. Test calibration of electronic controllers by disconnecting input sensors and stimulating operation with compatible signal generator.

7. Test each point through its full operating range to verify that safety and operating control set points are as required.

8. Test each control loop to verify stable mode of operation and compliance with sequence of operation. Adjust PID actions.

9. Test each system for compliance with sequence of operation.10. Test software and hardware interlocks.

C. DDC Verification:1. Verify that instruments are installed before calibration, testing, and loop or leak checks.2. Check instruments for proper location and accessibility.3. Check instrument installation for direction of flow, elevation, orientation, insertion depth,

and other applicable considerations.4. Check instrument tubing for proper fittings, slope, material, and support.5. Check installation of air supply for each instrument.6. Check flow instruments. Inspect tag number and line and bore size, and verify that inlet

side is identified and that meters are installed correctly.7. Check pressure instruments, piping slope, installation of valve manifold, and self-

contained pressure regulators.8. Check temperature instruments and material and length of sensing elements.9. Check control valves. Verify that they are in correct direction.10. Check air-operated dampers. Verify that pressure gages are provided and that proper

blade alignment, either parallel or opposed, has been provided.11. Check DDC system as follows:

a. Verify that DDC controller power supply is from emergency power supply, if applicable.

b. Verify that wires at control panels are tagged with their service designation and approved tagging system.

c. Verify that spare I/O capacity has been provided.d. Verify that DDC controllers are protected from power supply surges.

D. Replace damaged or malfunctioning controls and equipment and repeat testing procedures.

3.5 ADJUSTING

A. Calibrating and Adjusting:1. Calibrate instruments.2. Make three-point calibration test for both linearity and accuracy for each analog

instrument.3. Calibrate equipment and procedures using manufacturer's written recommendations and

instruction manuals. Use test equipment with accuracy at least double that of instrument being calibrated.

4. Control System Inputs and Outputs:a. Check analog inputs at 0, 50, and 100 percent of span.b. Check analog outputs using milliampere meter at 0, 50, and 100 percent output.c. Check digital inputs using jumper wire.d. Check digital outputs using ohmmeter to test for contact making or breaking.e. Check resistance temperature inputs at 0, 50, and 100 percent of span using a

precision-resistant source.5. Flow:

a. Set differential pressure flow transmitters for 0 and 100 percent values with 3-point calibration accomplished at 50, 90, and 100 percent of span.

b. Manually operate flow switches to verify that they make or break contact.6. Pressure:

a. Calibrate pressure transmitters at 0, 50, and 100 percent of span.



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b. Calibrate pressure switches to make or break contacts, with adjustable differential set at minimum.

7. Temperature:a. Calibrate resistance temperature transmitters at 0, 50, and 100 percent of span

using a precision-resistance source.b. Calibrate temperature switches to make or break contacts.

8. Stroke and adjust control valves and dampers without positioners, following the manufacturer's recommended procedure, so that valve or damper is 100 percent open and closed.

9. Stroke and adjust control valves and dampers with positioners, following manufacturer's recommended procedure, so that valve and damper is 0, 50, and 100 percent closed.

10. Provide diagnostic and test instruments for calibration and adjustment of system.11. Provide written description of procedures and equipment for calibrating each type of

instrument. Submit procedures review and approval before initiating startup procedures.

B. Adjust initial temperature and humidity set points.

C. Occupancy Adjustments: When requested within 12 months of date of Substantial Completion, provide on-site assistance in adjusting system to suit actual occupied conditions. Provide up to three visits to Project during other than normal occupancy hours for this purpose.

3.6 DEMONSTRATION

A. Engage a factory-authorized service representative to train Owner's maintenance personnel to adjust, operate, and maintain HVAC instrumentation and controls. Refer to Division 01 Section "Demonstration and Training."



Static Uninterruptible Power Supply 2009 Spectrum Engineers, Inc.

263353 - 1

SECTION 263353 - STATIC UNINTERRUPTIBLE POWER SUPPLY

PART 1 - GENERAL



1.2 SUMMARY

A. Section Includes:1. Three-phase, on-line, double-conversion, static-type, UPS units with the following

features:a. Surge suppression.b. Input harmonics reduction.c. Rectifier-charger.d. Inverter.e. Static bypass transfer switch.f. Battery and battery disconnect device.g. External maintenance bypass/isolation switch.h. Output isolation transformer.i. Remote UPS monitoring provisions.j. Battery monitoring.k. Remote monitoring.

1.3 DEFINITIONS

A. EMI: Electromagnetic interference.

B. LCD: Liquid-crystal display.

C. LED: Light-emitting diode.

D. PC: Personal computer.

E. THD: Total harmonic distortion.

F. UPS: Uninterruptible power supply.


A. Seismic Performance: UPS shall withstand the effects of earthquake motions determined according to ASCE/SEI 7 .1. The term "withstand" means "the unit will remain in place without separation of any parts

from the device when subjected to the seismic forces specified and the unit will be fully operational after the seismic event."

1.5 ACTION SUBMITTALS

A. Product Data: For each type of product indicated. Include data on features, components, ratings, and performance.



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B. Shop Drawings: For UPS. Include plans, elevations, sections, details, and attachments to other work.1. Detail equipment assemblies and indicate dimensions, weights, components, and

location and identification of each field connection. Show access, workspace, and clearance requirements; details of control panels; and battery arrangement.

2. Wiring Diagrams: For power, signal, and control wiring.


A. Seismic Qualification Certificates: For UPS equipment, from manufacturer.1. Basis for Certification: Indicate whether withstand certification is based on actual test of

assembled components or on calculation.2. Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate

and describe mounting and anchorage provisions.3. Detailed description of equipment anchorage devices on which the certification is based

and their installation requirements.

B. Manufacturer Certificates: For each product, from manufacturer.

C. Factory Test Reports: Comply with specified requirements.

D. Field quality-control reports.

E. Performance Test Reports: Indicate test results compared with specified performance requirements, and provide justification and resolution of differences if values do not agree.

F. Warranties: Sample of special warranties.

1.7 CLOSEOUT SUBMITTALS

A. Operation and Maintenance Data: For UPS units to include in emergency, operation, and maintenance manuals.

1.8 MAINTENANCE MATERIAL SUBMITTALS

A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and identified with labels describing contents.1. Fuses: One for every 10 of each type and rating, but no fewer than one of each.2. Cabinet Ventilation Filters: One complete set(s).


A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.

B. UL Compliance: Listed and labeled under UL 1778 by an NRTL.

C. NFPA Compliance: Mark UPS components as suitable for installation in computer rooms according to NFPA 75.

1.10 WARRANTY

A. Special Battery Warranties: Specified form in which manufacturer and Installer agree to repair or replace UPS system storage batteries that fail in materials or workmanship within specified warranty period.



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1. Warranted Cycle Life for Premium Valve-Regulated, Lead-calcium Batteries: Equal to or greater than that represented in manufacturer's published table, including figures corresponding to the following, based on annual average battery temperature of 77 deg F(25 deg C):

Discharge Rate Discharge Duration Discharge End Voltage

Cycle Life

8 hours 8 hours 1.67 40 cycles30 minutes 30 minutes 1.67 125 cycles15 minutes 1.5 minutes 1.67 750 cycles

B. Special UPS Warranties: Specified form in which manufacturer and Installer agree to repair or replace components that fail in materials or workmanship within special warranty period.1. Special Warranty Period: 10 years from date of Substantial Completion.

PART 2 - PRODUCTS

2.1 OPERATIONAL REQUIREMENTS

A. Automatic operation includes the following:1. Normal Conditions: Load is supplied with power flowing from the normal power input

terminals, through the rectifier-charger and inverter, with the battery connected in parallel with the rectifier-charger output.

2. Abnormal Supply Conditions: If normal supply deviates from specified and adjustable voltage, voltage waveform, or frequency limits, the battery supplies energy to maintain constant, regulated inverter power output to the load without switching or disturbance.

3. If normal power fails, energy supplied by the battery through the inverter continues supply-regulated power to the load without switching or disturbance.

4. When power is restored at the normal supply terminals of the system, controls automatically synchronize the inverter with the external source before transferring the load. The rectifier-charger then supplies power to the load through the inverter and simultaneously recharges the battery.

5. If the battery becomes discharged and normal supply is available, the rectifier-charger charges the battery. On reaching full charge, the rectifier-charger automatically shifts to float-charge mode.

6. If any element of the UPS system fails and power is available at the normal supply terminals of the system, the static bypass transfer switch switches the load to the normal ac supply circuit without disturbance or interruption.

7. If a fault occurs in the system supplied by the UPS, and current flows in excess of the overload rating of the UPS system, the static bypass transfer switch operates to bypass the fault current to the normal ac supply circuit for fault clearing.

8. When the fault has cleared, the static bypass transfer switch returns the load to the UPS system.

9. If the battery is disconnected, the UPS continues to supply power to the load with no degradation of its regulation of voltage and frequency of the output bus.

B. Manual operation includes the following:1. Turning the inverter off causes the static bypass transfer switch to transfer the load

directly to the normal ac supply circuit without disturbance or interruption.



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2. Turning the inverter on causes the static bypass transfer switch to transfer the load to the inverter.

C. Maintenance Bypass/Isolation Switch Operation: Switch is interlocked so it cannot be operated unless the static bypass transfer switch is in the bypass mode. Device provides manual selection among the three conditions in subparagraphs below without interrupting supply to the load during switching:1. Full Isolation: Load is supplied, bypassing the UPS. Normal UPS ac input circuit, static

bypass transfer switch, and UPS load terminals are completely disconnected from external circuits.

2. Maintenance Bypass: Load is supplied, bypassing the UPS. UPS ac supply terminals are energized to permit operational checking, but system load terminals are isolated from the load.

3. Normal: Normal UPS ac supply terminals are energized and the load is supplied through either the static bypass transfer switch and the UPS rectifier-charger and inverter, or the battery and the inverter.

D. Environmental Conditions: The UPS shall be capable of operating continuously in the following environmental conditions without mechanical or electrical damage or degradation of operating capability, except battery performance.1. Ambient Temperature for Electronic Components: 32 to 104 deg F (0 to 40 deg C).2. Ambient Temperature for Battery: 41 to 95 deg F (5 to 35 deg C).3. Relative Humidity: 0 to 95 percent, noncondensing.4. Altitude: Sea level to 4000 feet (1220 m).


A. The UPS shall perform as specified in this article while supplying rated full-load current, composed of any combination of linear and nonlinear load, up to 100 percent nonlinear load with a load crest factor of 3.0, under the following conditions or combinations of the following conditions:1. Inverter is switched to battery source.2. Steady-state ac input voltage deviates up to plus or minus 10 percent from nominal

voltage.3. Steady-state input frequency deviates up to plus or minus 5 percent from nominal

frequency.4. THD of input voltage is 15 percent or more with a minimum crest factor of 3.0, and the

largest single harmonic component is a minimum of 5 percent of the fundamental value.5. Load is 50 percent unbalanced continuously.

B. Minimum Duration of Supply: If battery is sole energy source supplying rated full UPS load current at 80 percent power factor, duration of supply is 15 minutes.

C. Input Voltage Tolerance: System steady-state and transient output performance remains within specified tolerances when steady-state ac input voltage varies plus 10, minus 30 percent from nominal voltage.

D. Overall UPS Efficiency: Equal to or greater than 95 percent at 100 percent load.

E. Maximum Energizing Inrush Current: Six times the full-load current.

F. Maximum AC Output-Voltage Regulation for Loads up to 50 Percent Unbalanced: Plus or minus 2 percent over the full range of battery voltage.



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G. Output Frequency: 60 Hz, plus or minus 0.5 percent over the full range of input voltage, load, and battery voltage.

H. Limitation of harmonic distortion of input current to the UPS shall be as follows:1. Description: Either a tuned harmonic filter or an arrangement of rectifier-charger circuits

shall limit THD to 5 percent, maximum, at rated full UPS load current, for power sources with X/R ratio between 2 and 30.

2. Description: THD is limited to a maximum of 32 percent, at rated full UPS load current, for power sources with X/R ratio between 2 and 30.

I. Maximum Harmonic Content of Output-Voltage Waveform: 5 percent rms total and 3 percent rms for any single harmonic, for 100 percent rated nonlinear load current with a load crest factor of 3.0.

J. Maximum Harmonic Content of Output-Voltage Waveform: 5 percent rms total and 3 percent rms for any single harmonic, for rated full load with THD up to 50 percent, with a load crest factor of 3.0.

K. Minimum Overload Capacity of UPS at Rated Voltage: 125 percent of rated full load for 10 minutes, and 150 percent for 30 seconds in all operating modes.

L. Maximum Output-Voltage Transient Excursions from Rated Value: For the following instantaneous load changes, stated as percentages of rated full UPS load, voltage shall remain within stated percentages of rated value and recover to, and remain within, plus or minus 2 percent of that value within 100 ms:1. 50 Percent: Plus or minus 5 percent.2. 100 Percent: Plus or minus 5 percent.3. Loss of AC Input Power: Plus or minus 1 percent.4. Restoration of AC Input Power: Plus or minus 1 percent.

M. Input Power Factor: A minimum of 0.85 lagging when supply voltage and current are at nominal rated values and the UPS is supplying rated full-load current.

N. EMI Emissions: Comply with FCC Rules and Regulations and with 47 CFR 15 for Class A equipment.

2.3 UPS SYSTEMS

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Eaton Corporation; Powerware Division.2. Liebert Corporation; a division of Emerson.

B. Electronic Equipment: Solid-state devices using hermetically sealed, semiconductor elements. Devices include rectifier-charger, inverter, static bypass transfer switch, and system controls.

C. Enclosures: Comply with NEMA 250, Type 1, unless otherwise indicated.

D. Control Assemblies: Mount on modular plug-ins, readily accessible for maintenance.

E. Surge Suppression: Protect internal UPS components from surges that enter at each ac power input connection including main disconnect switch, static bypass transfer switch, and maintenance bypass/isolation switch. Protect rectifier-charger, inverter, controls, and output components.



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1. Use factory-installed surge suppressors tested according to IEEE C62.41.1 and IEEE C62.41.2, Category B .

2. Additional Surge Protection: Protect internal UPS components from low-frequency, high-energy voltage surges described in IEEE C62.41.1 and IEEE C62.41.2. Design the circuits connecting with external power sources and select circuit elements, conductors, conventional surge suppressors, and rectifier components and controls so input assemblies will have adequate mechanical strength and thermal and current-carrying capacity to withstand stresses imposed by 40-Hz, 180 percent voltage surges described in IEEE C62.41.1 and IEEE C62.41.2.

F. Maintainability Features: Mount rectifier-charger and inverter sections and the static bypass transfer switch on modular plug-ins, readily accessible for maintenance.

G. Seismic-Restraint Design: UPS assemblies, subassemblies, and components (and fastenings and supports, mounting, and anchorage devices for them) shall be designed and fabricated to withstand static and seismic forces.

H. UPS Cabinet Ventilation: Redundant fans or blowers draw in ambient air near the bottom of cabinet and discharge it near the top rear.

I. Output Circuit Neutral Bus, Conductor, and Terminal Ampacity: Rated phase current times a multiple of 1.73, minimum.

2.4 RECTIFIER-CHARGER

A. Capacity: Adequate to supply the inverter during rated full output load conditions and simultaneously recharge the battery from fully discharged condition to 95 percent of full charge within 10 times the rated discharge time for duration of supply under battery power at full load.

B. Output Ripple: Limited by output filtration to less than 0.5 percent of rated current, peak to peak.

C. Control Circuits: Immune to frequency variations within rated frequency ranges of normal and emergency power sources.1. Response Time: Field adjustable for maximum compatibility with local generator-set

power source.

D. Battery Float-Charging Conditions: Comply with battery manufacturer's written instructions for battery terminal voltage and charging current required for maximum battery life.

2.5 INVERTER

A. Description: Pulse-width modulated, with sinusoidal output.

2.6 STATIC BYPASS TRANSFER SWITCH

A. Description: Solid-state switching device providing uninterrupted transfer. A contactor or electrically operated circuit breaker automatically provides electrical isolation for the switch.

B. Switch Rating: Continuous duty at the rated full UPS load current, minimum.

2.7 BATTERY

A. Description: Valve-regulated, recombinant, lead-calcium units, factory assembled in an isolated compartment of UPS cabinet, complete with battery disconnect switch.



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1. Arrange for drawout removal of battery assembly from cabinet for testing and inspecting.

B. Description: Valve-regulated, premium, heavy-duty, recombinant, lead-calcium units; factory assembled in an isolated compartment or in a separate matching cabinet, complete with battery disconnect switch.1. Arrange for drawout removal of battery assembly from cabinet for testing and inspecting.

C. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. C&D Technologies, Inc.; Standby Power Division.2. Eaton Corporation; Powerware Division.

D. Seismic-Restraint Design: Battery racks, cabinets, assemblies, subassemblies, and components (and fastenings and supports, mounting, and anchorage devices for them) shall be designed and fabricated to withstand static and seismic forces.

2.8 CONTROLS AND INDICATIONS

A. Description: Group displays, indications, and basic system controls on a common control panel on front of UPS enclosure.

B. Minimum displays, indicating devices, and controls include those in lists below. Provide sensors, transducers, terminals, relays, and wiring required to support listed items. Alarms include audible signals and visual displays.

C. Indications: Plain-language messages on a digital LCD or LED.1. Quantitative indications shall include the following:

a. Input voltage, each phase, line to line.b. Input current, each phase, line to line.c. Bypass input voltage, each phase, line to line.d. Bypass input frequency.e. System output voltage, each phase, line to line.f. System output current, each phase.g. System output frequency.h. DC bus voltage.i. Battery current and direction (charge/discharge).j. Elapsed time discharging battery.

2. Basic status condition indications shall include the following:a. Normal operation.b. Load-on bypass.c. Load-on battery.d. Inverter off.e. Alarm condition.

3. Alarm indications shall include the following:a. Bypass ac input overvoltage or undervoltage.b. Bypass ac input overfrequency or underfrequency.c. Bypass ac input and inverter out of synchronization.d. Bypass ac input wrong-phase rotation.e. Bypass ac input single-phase condition.f. Bypass ac input filter fuse blown.g. Internal frequency standard in use.h. Battery system alarm.i. Control power failure.j. Fan failure.k. UPS overload.l. Battery-charging control faulty.



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m. Input overvoltage or undervoltage.n. Input transformer overtemperature.o. Input circuit breaker tripped.p. Input wrong-phase rotation.q. Input single-phase condition.r. Approaching end of battery operation.s. Battery undervoltage shutdown.t. Maximum battery voltage.u. Inverter fuse blown.v. Inverter transformer overtemperature.w. Inverter overtemperature.x. Static bypass transfer switch overtemperature.y. Inverter power supply fault.z. Inverter transistors out of saturation.aa. Identification of faulty inverter section/leg.bb. Inverter output overvoltage or undervoltage.cc. UPS overload shutdown.dd. Inverter current sensor fault.ee. Inverter output contactor open.ff. Inverter current limit.

4. Controls shall include the following:a. Inverter on-off.b. UPS start.c. Battery test.d. Alarm silence/reset.e. Output-voltage adjustment.

D. Dry-form "C" contacts shall be available for remote indication of the following conditions:1. UPS on battery.2. UPS on-line.3. UPS load-on bypass.4. UPS in alarm condition.5. UPS off (maintenance bypass closed).

E. Emergency Power Off Switch: Capable of local operation and operation by means of activation by external dry contacts.

2.9 MAINTENANCE BYPASS/ISOLATION SWITCH

A. Description: Manually operated switch or arrangement of switching devices with mechanically actuated contact mechanism arranged to route the flow of power to the load around the rectifier-charger, inverter, and static bypass transfer switch.1. Switch shall be electrically and mechanically interlocked to prevent interrupting power to

the load when switching to bypass mode.2. Switch shall electrically isolate other UPS components to permit safe servicing.

B. Comply with NEMA PB 2 and UL 891.

C. Switch Rating: Continuous duty at rated full UPS load current.

D. Mounting Provisions: Separate wall- or floor-mounted unit.

E. Key interlock requires unlocking maintenance bypass/isolation switch before switching from normal position with key that is released only when the UPS is bypassed by the static bypass transfer switch. Lock is designed specifically for mechanical and electrical component interlocking.



263353 - 9

2.10 OUTPUT ISOLATION TRANSFORMER

A. Description: Shielded unit with low forward transfer impedance up to 3 kHz, minimum. Include the following features:1. Comply with applicable portions of UL 1561, including requirements for nonlinear load

current-handling capability for a K-factor of approximately 9 .2. Output Impedance at Fundamental Frequency: Between 3 and 4 percent.3. Regulation: 5 percent, maximum, at rated nonlinear load current.4. Full-Load Efficiency at Rated Nonlinear Load Current: 96 percent, minimum.5. Electrostatic Shielding of Windings: Independent for each winding.6. Coil Leads: Physically arranged for minimum interlead capacitance.7. Shield Grounding Terminal: Separately mounted; labeled "Shield Ground."8. Capacitive Coupling between Primary and Secondary: 33 picofarads, maximum, over a

frequency range of 20 Hz to 1 MHz.

2.11 OUTPUT DISTRIBUTION SECTION

A. Panelboards: Comply with Division 26 Section "Panelboards" except provide assembly integral to UPS cabinet.

2.12 MONITORING BY REMOTE COMPUTER

A. Description: Communication module in unit control panel provides capability for remote monitoring of status, parameters, and alarms specified in "Controls and Indications" Article. The remote computer and the connecting signal wiring are not included in this Section. Include the following features:1. Connectors and network interface units or modems for data transmission via RS-232 link.2. Software designed for control and monitoring of UPS functions and to provide on-screen

explanations, interpretations, diagnosis, action guidance, and instructions for use of monitoring indications and development of meaningful reports. Permit storage and analysis of power-line transient records. Designs for Windows applications, software, and computer are not included in this Section.

3. Software and Hardware: Compatible with that specified in Division 26 Section "Electrical Power Monitoring and Control."

2.13 BASIC BATTERY MONITORING

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Albercorp.2. BTECH, Inc.3. Eaton Corporation; Powerware Division.

B. Battery Ground-Fault Detector: Initiates alarm when resistance to ground of positive or negative bus of battery is less than 5000 ohms.

C. Battery compartment smoke/high-temperature detector initiates an alarm when smoke or a temperature greater than 75 deg C occurs within the compartment.

D. Annunciation of Alarms: At UPS control panel.



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2.14 BATTERY-CYCLE WARRANTY MONITORING

A. Description: Electronic device, acceptable to battery manufacturer as a basis for warranty action, for monitoring of charge-discharge cycle history of batteries covered by cycle-life warranties.

B. Performance: Automatically measures and records each discharge event, classifies it according to duration category, and totals discharges according to warranty criteria, displaying remaining warranted battery life on front panel display.

C. Additional monitoring functions and features shall include the following:1. Measuring and Recording: Total voltage at battery terminals; initiates alarm for

excursions outside the proper float-voltage level.2. Monitors: Ambient temperature at battery; initiates alarm if temperature deviates from

normally acceptable range.3. Keypad on Device Front Panel: Provides access to monitored data using front panel

display.4. Alarm Contacts: Arranged to initiate remote alarm for abnormal battery voltage or

temperature.5. Memory: Stores recorded data in nonvolatile electronic memory.6. RS-232 Port: Permits downloading of data to a portable PC.7. Modem: Makes measurements and recorded data accessible to a remote PC via

telephone line. Computer is not specified in this Section.

2.15 SOURCE QUALITY CONTROL

A. Factory test complete UPS system before shipment. Use simulated battery testing. Include the following:1. Test and demonstration of all functions, controls, indicators, sensors, and protective

devices.2. Full-load test.3. Transient-load response test.4. Overload test.5. Power failure test.

B. Observation of Test: Give 14 days' advance notice of tests and provide opportunity for Owner's representative to observe tests at Owner's choice.

C. Report test results. Include the following data:1. Description of input source and output loads used. Describe actions required to simulate

source load variation and various operating conditions and malfunctions.2. List of indications, parameter values, and system responses considered satisfactory for

each test action. Include tabulation of actual observations during test.3. List of instruments and equipment used in factory tests.

PART 3 - EXECUTION

3.1 EXAMINATION

A. Examine areas and conditions, with Installer present, for compliance with requirements for conditions affecting performance of the UPS.

B. Proceed with installation only after unsatisfactory conditions have been corrected.



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3.2 INSTALLATION

A. Equipment Mounting: Install UPS on concrete base. Comply with requirements for concrete base specified in Division 03 Section "Cast-in-Place Concrete ."1. Install dowel rods to connect concrete base to concrete floor. Unless otherwise

indicated, install dowel rods on 18-inch (450-mm) centers around the full perimeter of concrete base.

2. For supported equipment, install epoxy-coated anchor bolts that extend through concrete base and anchor into structural concrete floor.

3. Place and secure anchorage devices. Use setting drawings, templates, diagrams, instructions, and directions furnished with items to be embedded.

4. Install anchor bolts to elevations required for proper attachment to supported equipment.

B. Maintain minimum clearances and workspace at equipment according to manufacturer's written instructions and NFPA 70.

C. Connections: Interconnect system components. Make connections to supply and load circuits according to manufacturer's wiring diagrams unless otherwise indicated.

3.3 GROUNDING

A. Separately Derived Systems: If not part of a listed power supply for a data-processing room, comply with NFPA 70 requirements for connecting to grounding electrodes and for bonding to metallic piping near isolation transformer.

3.4 IDENTIFICATION

A. Identify components and wiring according to Division 26 Section "Identification for Electrical Systems."1. Identify each battery cell individually.

3.5 BATTERY EQUALIZATION

A. Equalize charging of battery cells according to manufacturer's written instructions. Record individual-cell voltages.


A. Manufacturer's Field Service: Engage a factory-authorized service representative to inspect, test, and adjust components, assemblies, and equipment installations, including connections.

B. Perform tests and inspections.1. Manufacturer's Field Service: Engage a factory-authorized service representative to

inspect components, assemblies, and equipment installations, including connections, and to assist in testing.

C. Tests and Inspections:1. Comply with manufacturer's written instructions.2. Inspect interiors of enclosures, including the following:

a. Integrity of mechanical and electrical connections.b. Component type and labeling verification.c. Ratings of installed components.

3. Inspect batteries and chargers according to requirements in NETA Acceptance Testing Specifications.



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4. Test manual and automatic operational features and system protective and alarm functions.

5. Test communication of status and alarms to remote monitoring equipment.6. Load the system using a variable-load bank to simulate kilovolt amperes, kilowatts, and

power factor of loads for unit's rating. Use instruments calibrated within the previous six months according to NIST standards.a. Simulate malfunctions to verify protective device operation.b. Test duration of supply on emergency, low-battery voltage shutdown, and transfers

and restoration due to normal source failure.c. Test harmonic content of input and output current less than 25, 50, and 100

percent of rated loads.d. Test output voltage under specified transient-load conditions.e. Test efficiency at 50, 75, and 100 percent of rated loads.f. Test remote status and alarm panel functions.g. Test battery-monitoring system functions.

D. Seismic-restraint tests and inspections shall include the following:1. Inspect type, size, quantity, arrangement, and proper installation of mounting or

anchorage devices.2. Test mounting and anchorage devices according to requirements in Division 26 Section

"Vibration and Seismic Controls for Electrical Systems."

E. The UPS system will be considered defective if it does not pass tests and inspections.

F. Record of Tests and Inspections: Maintain and submit documentation of tests and inspections, including references to manufacturers' written instructions and other test and inspection criteria. Include results of tests, inspections, and retests.

G. Prepare test and inspection reports.

3.7 PERFORMANCE TESTING

A. Monitoring and Testing Schedule: Perform monitoring and testing in a single 10-day period .1. Schedule monitoring and testing activity with Owner, through Architect, with at least 14

days' advance notice.2. Schedule monitoring and testing after Substantial Completion, when the UPS is supplying

power to its intended load.

B. Monitoring and Testing Instruments: Three-phase, recording, power monitors. Instruments shall provide continuous simultaneous monitoring of electrical parameters at UPS input terminals and at input terminals of loads served by the UPS. Instruments shall monitor, measure, and graph voltage current and frequency simultaneously and provide full-graphic recordings of the values of those parameters before and during power-line disturbances that cause the values to deviate from normal beyond the adjustable threshold values. Instruments shall be capable of recording either on paper or on magnetic media and have a minimum accuracy of plus or minus 2 percent for electrical parameters. Parameters to be monitored include the following:1. Current: Each phase and neutral and grounding conductors.2. Voltage: Phase to phase, phase to neutral, phase to ground, and neutral to ground.3. Frequency transients.4. Voltage swells and sags.5. Voltage Impulses: Phase to phase, phase to neutral, phase to ground, and neutral to

ground.6. High-frequency noise.7. Radio-frequency interference.8. THD of the above currents and voltages.



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9. Harmonic content of currents and voltages above.

C. Monitoring and Testing Procedures for Each Test Period:1. Exploratory Period: For the first two days of the first scheduled monitoring and testing

period, make recordings at various circuit locations and with various parameter-threshold and sampling-interval settings. Make these measurements with the objective of identifying optimum UPS, power system, load, and instrumentation setup conditions for subsequent test and monitoring operations.

2. Remainder of Test Period: Perform continuous monitoring of at least two circuit locations selected on the basis of data obtained during exploratory period.a. Set thresholds and sampling intervals for recording data at values selected to

optimize data on performance of the UPS for values indicated, and to highlight the need to adjust, repair, or modify the UPS, distribution system, or load component that may influence its performance or that may require better power quality.

b. Perform load and UPS power source switching and operate the UPS on generator power during portions of test period according to directions of Owner's power quality specialist.

c. Operate the UPS and its loads in each mode of operation permitted by UPS controls and by the power distribution system design.

d. Using loads and devices available as part of the facility's installed systems and equipment, create and simulate unusual operating conditions, including outages, voltage swells and sags, and voltage, current, and frequency transients. Maintain normal operating loads in operation on system to maximum extent possible during tests.

e. Using temporarily connected resistive/inductive load banks, create and simulate unusual operating conditions, including outages, voltage swells and sags, and voltage, current, and frequency transients. Maintain normal operating loads in operation on system to maximum extent possible during tests.

f. Make adjustments and repairs to UPS, distribution, and load equipment to correct deficiencies disclosed by monitoring and testing and repeat appropriate monitoring and testing to verify success of corrective action.

D. Coordination with Specified UPS Monitoring Functions: Obtain printouts of built-in monitoring functions specified for the UPS and its components in this Section that are simultaneously recorded with portable instruments in this article.1. Provide the temporary use of an appropriate PC and printer equipped with required

connections and software for recording and printing if such units are not available on-site.2. Coordinate printouts with recordings for monitoring performed according to this article,

and resolve and report any anomalies in and discrepancies between the two sets of records.

E. Monitoring and Testing Assistance by Contractor:1. Open UPS and electrical distribution and load equipment and wiring enclosures to make

monitoring and testing points accessible for temporary monitoring probe and sensor placement and removal as requested.

2. Observe monitoring and testing operations; ensure that UPS and distribution and load equipment warranties are not compromised.

3. Perform switching and control of various UPS units, electrical distribution systems, and load components as directed by power quality specialist. Specialist shall design this portion of monitoring and testing operations to expose the UPS to various operating environments, conditions, and events while response is observed, electrical parameters are monitored, and system and equipment deficiencies are identified.

4. Make repairs and adjustments to the UPS and to electrical distribution system and load components, and retest and repeat monitoring as needed to verify validity of results and correction of deficiencies.



263353 - 14

5. Engage the services of the UPS manufacturer's factory-authorized service representative periodically during performance testing operations for repairs, adjustments, and consultations.

F. Documentation: Record test point and sensor locations, instrument settings, and circuit and load conditions for each monitoring summary and power disturbance recording. Coordinate simultaneous recordings made on UPS input and load circuits.

G. Analysis of Recorded Data and Report: Review and analyze test observations and recorded data and submit a detailed written report. Include the following in each report:1. Description of corrective actions performed during monitoring and survey work and their

results.2. Recommendations for further action to provide optimum performance by the UPS and

appropriate power quality for non-UPS loads. Include a statement of priority ranking and a cost estimate for each recommendation that involves system or equipment revisions.

3. Copies of monitoring summary graphics and graphics illustrating harmonic content of significant voltages and currents.

4. Copies of graphics of power disturbance recordings that illustrate findings, conclusions, and recommendations.

5. Recommendations for operating, adjusting, or revising UPS controls.6. Recommendation for alterations to the UPS installation.7. Recommendations for adjusting or revising generator-set or automatic transfer switch

installations or their controls.8. Recommendations for power distribution system revisions.9. Recommendations for adjusting or revising electrical loads, their connections, or controls.

H. Interim and Final Reports: Provide an interim report at the end of each test period and a final comprehensive report at the end of final test and analysis period.

3.8 DEMONSTRATION

A. Engage a factory-authorized service representative to train Owner's maintenance personnel to adjust, operate, and maintain the UPS.



Conductors And Cables For Electronic Safety And Security © 2009 Spectrum Engineers, Inc.

280513 - 1

SECTION 280513 - CONDUCTORS AND CABLES FOR ELECTRONIC SAFETY AND SECURITY

PART 1 - GENERAL



1.2 SUMMARY

A. Section Includes:1. Coaxial cabling.2. Fire alarm wire and cable.3. Identification products.

1.3 DEFINITIONS

A. BICSI: Building Industry Consulting Service International.

B. EMI: Electromagnetic interference.

C. IDC: Insulation displacement connector.

D. Low Voltage: As defined in NFPA 70 for circuits and equipment operating at less than 50 V or for remote-control and signaling power-limited circuits.

E. Open Cabling: Passing telecommunications cabling through open space (e.g., between the studs of a wall cavity).

F. RCDD: Registered Communications Distribution Designer.


A. Seismic Performance: Pathways shall withstand the effects of earthquake motions determined according to ASCE/SEI 7 .1. The term "withstand" means "the unit will remain in place without separation of any parts

from the device when subjected to the seismic forces specified[ and the unit will be fully operational after the seismic event]."


A. Product Data: For each type of product indicated.1. For coaxial cable, include the following installation data for each type used:

a. Nominal OD.b. Minimum bending radius.c. Maximum pulling tension.

B. Shop Drawings: Cable tray layout, showing cable tray route to scale, with relationship between the tray and adjacent structural, electrical, and mechanical elements. Include the following:1. Vertical and horizontal offsets and transitions.2. Clearances for access above and to side of cable trays.3. Vertical elevation of cable trays above the floor or bottom of ceiling structure.



280513 - 2


A. Qualification Data: For qualified layout technician, installation supervisor, and field inspector.

B. Seismic Qualification Certificates: For pathways, accessories, and components, from manufacturer.1. Basis for Certification: Indicate whether withstand certification is based on actual test of




C. Source quality-control reports.

D. Field quality-control reports.


A. Operation and Maintenance Data: For wire and cable to include in operation and maintenance manuals. In addition to items specified in Division 01 Section "Operation and Maintenance Data," include the following:1. Allowable pulling tension of cable.2. Cable connectors and terminations recommended by the manufacturer.


A. Testing Agency Qualifications: An NRTL.1. Testing Agency's Field Supervisor: Currently certified by BICSI as an RCDD to supervise

on-site testing.

B. Surface-Burning Characteristics: As determined by testing identical products according to ASTM E 84 by a qualified testing agency. Identify products with appropriate markings of applicable testing agency.1. Flame-Spread Index: 25 or less.2. Smoke-Developed Index: 50 or less.

C. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.


A. Do not install conductors and cables that are wet, moisture damaged, or mold damaged.1. Indications that wire and cables are wet or moisture damaged include, but are not limited

to, discoloration and sagging of factory packing materials.

B. Environmental Limitations: Do not deliver or install UTP, optical fiber, and coaxial cables and connecting materials until wet work in spaces is complete and dry, and temporary HVAC system is operating and maintaining ambient temperature and humidity conditions at occupancy levels during the remainder of the construction period.



280513 - 3

PART 2 - PRODUCTS

2.1 PATHWAYS

A. Conduit and Boxes: Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems."

2.2 COAXIAL CABLE

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Alpha Wire Company.2. Belden CDT Networking Division/NORDX.3. Coleman Cable, Inc.4. CommScope, Inc.5. Draka Cableteq USA.6. Insert manufacturer's name.

B. General Coaxial Cable Requirements: Broadband type, recommended by cable manufacturer specifically for broadband data transmission applications. Coaxial cable and accessories shall have 75-ohm nominal impedance with a return loss of 20 dB maximum from 7 to 806 MHz.

C. RG59/U (Plenum Rated): NFPA 70, Type CMP.1. No. 20 AWG, solid, copper-covered steel conductor; foam fluorinated ethylene propylene

insulation.2. Double shielded with 100 percent aluminum-foil shield and 65 percent aluminum braid.3. Copolymer jacket.

D. NFPA and UL Compliance: Coaxial cables shall be listed and labeled by an NRTL acceptable to authorities having jurisdiction as complying with UL 1655, and with NFPA 70 "Radio and Television Equipment" and "Community Antenna Television and Radio Distribution" Articles. Types are as follows:1. CATV Plenum Rated: Type CATVP, complying with NFPA 262.

2.3 COAXIAL CABLE HARDWARE

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Emerson Network Power Connectivity Solutions; AIM Electronics brand.2. Leviton Voice & Data Division.3. Siemon.4. .

B. Coaxial-Cable Connectors: Type BNC, 75 ohms.

2.4 FIRE ALARM WIRE AND CABLE

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Comtran Corporation.2. Draka Cableteq USA.3. Genesis Cable Products; Honeywell International, Inc.4. Rockbestos-Suprenant Cable Corp.5. West Penn Wire; a brand of Belden Inc.6. .



280513 - 4

B. General Wire and Cable Requirements: NRTL listed and labeled as complying with NFPA 70, Article 760.

C. Signaling Line Circuits: Twisted, shielded pair, size as recommended by system manufacturer.1. Circuit Integrity Cable: Twisted shielded pair, NFPA 70, Article 760, Classification CI, for

power-limited fire alarm signal service Type FPL. NRTL listed and labeled as complying with UL 1424 and UL 2196 for a 2-hour rating.

D. Non-Power-Limited Circuits: Solid-copper conductors with 600-V rated, 75 deg C, color-coded insulation.1. Low-Voltage Circuits: No. 16 AWG, minimum.2. Line-Voltage Circuits: No. 12 AWG, minimum.3. Multiconductor Armored Cable: NFPA 70, Type MC, copper conductors,

Type TFN/THHN conductor insulation, copper drain wire, copper armor with outer jacketwith red identifier stripe, NTRL listed for fire alarm and cable tray installation, plenum rated, and complying with requirements in UL 2196 for a 2-hour rating.

2.5 IDENTIFICATION PRODUCTS

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Brady Corporation.2. HellermannTyton.3. Kroy LLC.4. PANDUIT CORP.5. .

B. Comply with UL 969 for a system of labeling materials, including label stocks, laminating adhesives, and inks used by label printers.

C. Comply with requirements in Division 26 Section "Identification for Electrical Systems."

2.6 SOURCE QUALITY CONTROL

A. Cable will be considered defective if it does not pass tests and inspections.

B. Prepare test and inspection reports.

PART 3 - EXECUTION

3.1 INSTALLATION OF PATHWAYS

A. Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems." for installation of conduits and wireways.

B. Install manufactured conduit sweeps and long-radius elbows whenever possible.

3.2 INSTALLATION OF HANGERS AND SUPPORTS

A. Comply with requirements in Division 26 Section "Hangers and Supports for Electrical Systems." for installation of supports for pathways, conductors and cables.



280513 - 5

3.3 WIRING METHOD

A. Install wiring in metal raceways and wireways. Conceal raceway except in unfinished spacesand as indicated. Minimum conduit size shall be 3/4 inch (21 mm) . Control and data transmission wiring shall not share conduit with other building wiring systems.

B. Install cable, concealed in accessible ceilings, walls, and floors when possible.

C. Wiring within Enclosures: Bundle, lace, and train conductors to terminal points. Use lacing bars and distribution spools. Separate power-limited and non-power-limited conductors as recommended in writing by manufacturer. Install conductors parallel with or at right angles to sides and back of enclosure. Connect conductors that are terminated, spliced, or interrupted in any enclosure associated with intrusion system to terminal blocks. Mark each terminal according to system's wiring diagrams. Make all connections with approved crimp-on terminal spade lugs, pressure-type terminal blocks, or plug connectors.

3.4 INSTALLATION OF CONDUCTORS AND CABLES

A. Comply with NECA 1.

B. Conductors: Size according to system manufacturer's written instructions unless otherwise indicated.

C. General Requirements for Cabling:1. Comply with TIA/EIA-568-B.1.2. Comply with BICSI ITSIM, Ch. 6, "Cable Termination Practices."3. Terminate all conductors; no cable shall contain unterminated elements. Make

terminations only at indicated outlets, terminals, and cross-connect and patch panels.4. Cables may not be spliced. Secure and support cables at intervals not exceeding 30

inches (760 mm) and not more than 6 inches (150 mm) from cabinets, boxes, fittings, outlets, racks, frames, and terminals.

5. Bundle, lace, and train conductors to terminal points without exceeding manufacturer's limitations on bending radii, but not less than radii specified in BICSI ITSIM, "Cabling Termination Practices" Chapter. Install lacing bars and distribution spools.

6. Do not install bruised, kinked, scored, deformed, or abraded cable. Do not splice cable between termination, tap, or junction points. Remove and discard cable if damaged during installation and replace it with new cable.

7. Cold-Weather Installation: Bring cable to room temperature before dereeling. Heat lamps shall not be used for heating.

8. Pulling Cable: Comply with BICSI ITSIM, Ch. 4, "Pulling Cable." Monitor cable pull tensions.

3.5 FIRE ALARM WIRING INSTALLATION

A. Comply with NECA 1 and NFPA 72.

B. Wiring Method: Install wiring in metal raceway according to Division 26 Section "Raceway and Boxes for Electrical Systems."1. Install plenum cable in environmental air spaces, including plenum ceilings.2. Fire alarm circuits and equipment control wiring associated with the fire alarm system

shall be installed in a dedicated raceway system. This system shall not be used for any other wire or cable.

C. Wiring within Enclosures: Separate power-limited and non-power-limited conductors as recommended by manufacturer. Install conductors parallel with or at right angles to sides and



280513 - 6

back of the enclosure. Bundle, lace, and train conductors to terminal points with no excess. Connect conductors that are terminated, spliced, or interrupted in any enclosure associated with the fire alarm system to terminal blocks. Mark each terminal according to the system's wiring diagrams. Make all connections with approved crimp-on terminal spade lugs, pressure-type terminal blocks, or plug connectors.

D. Cable Taps: Use numbered terminal strips in junction, pull, and outlet boxes, cabinets, or equipment enclosures where circuit connections are made.

E. Color-Coding: Color-code fire alarm conductors differently from the normal building power wiring. Use one color-code for alarm circuit wiring and another for supervisory circuits. Color-code audible alarm-indicating circuits differently from alarm-initiating circuits. Use different colors for visible alarm-indicating devices. Paint fire alarm system junction boxes and covers red.

3.6 POWER AND CONTROL-CIRCUIT CONDUCTORS

A. 120-V Power Wiring: Install according to Division 26 Section "Low-Voltage Electrical Power Conductors and Cables" unless otherwise indicated.

B. Minimum Conductor Sizes:1. Class 1 remote-control and signal circuits, No. 14 AWG.2. Class 2 low-energy, remote-control and signal circuits, No. 16 AWG.3. Class 3 low-energy, remote-control, alarm and signal circuits, No. 12 AWG.

3.7 CONNECTIONS

A. Comply with requirements in Division 28 Section "Access Control" for connecting, terminating, and identifying wires and cables.

B. Comply with requirements in Division 28 Section "Video Surveillance" for connecting, terminating, and identifying wires and cables.

C. Comply with requirements in Division 28 Section "Digital Addressable Fire-Alarm System " for connecting, terminating, and identifying wires and cables.

D. Comply with requirements in Division 28 Section "Refrigerant Detection and Alarm" for connecting, terminating, and identifying wires and cables.

3.8 FIRESTOPPING

A. Comply with requirements in Division 07 Section "Penetration Firestopping."

B. Comply with TIA-569-B, "Firestopping" Annex A.

C. Comply with BICSI TDMM, "Firestopping Systems" Article.

3.9 GROUNDING

A. For communications wiring, comply with ANSI-J-STD-607-A and with BICSI TDMM, "Grounding, Bonding, and Electrical Protection" Chapter.

B. For low-voltage wiring and cabling, comply with requirements in Division 26 Section "Grounding and Bonding for Electrical Systems."



280513 - 7

3.10 IDENTIFICATION

A. Identify system components, wiring, and cabling complying with TIA/EIA-606-A. Comply with requirements for identification specified in Division 26 Section "Identification for Electrical Systems."


A. Perform tests and inspections.

B. Tests and Inspections:1. Visually inspect cable placement, cable termination, grounding and bonding, equipment

and patch cords, and labeling of all components.2. Coaxial Cable Tests: Comply with requirements in Division 27 Section "Master Antenna

Television System."

C. Document data for each measurement. Print data for submittals in a summary report that is formatted using Table 10.1 in BICSI TDMM as a guide, or transfer the data from the instrument to the computer, save as text files, print, and submit.

D. End-to-end cabling will be considered defective if it does not pass tests and inspections.

E. Prepare test and inspection reports.



Pathways For Electronic Safety And Security © 2009 Spectrum Engineers, Inc.

280528 - 1

SECTION 280528 - PATHWAYS FOR ELECTRONIC SAFETY AND SECURITY

PART 1 - GENERAL



1.2 SUMMARY

A. Section Includes:1. Metal conduits, tubing, and fittings.2. Surface pathways.3. Boxes, enclosures, and cabinets.

B. Related Requirements:1. Division 26 Section "Raceways and Boxes for Electrical Systems" for conduits, wireways,

surface raceways, boxes, enclosures, cabinets, handholes, and faceplate adapters serving electrical systems.

1.3 DEFINITIONS

A. GRC: Galvanized rigid steel conduit.


A. Product Data: For surface pathways, wireways and fittings, floor boxes, hinged-cover enclosures, and cabinets.

B. Shop Drawings: For custom enclosures and cabinets. Include plans, elevations, sections, and attachment details.


A. Coordination Drawings: Pathway routing plans, drawn to scale, on which the following items are shown and coordinated with each other, using input from installers of items involved:1. Structural members in paths of pathway groups with common supports.2. HVAC and plumbing items and architectural features in paths of conduit groups with

common supports.

B. Qualification Data: For professional engineer.

C. Seismic Qualification Certificates: For pathway racks, enclosures, cabinets, and equipment racks and their mounting provisions, including those for internal components, from manufacturer.1. Basis for Certification: Indicate whether withstand certification is based on actual test of


and describe mounting and anchorage provisions.3. Detailed description of equipment anchorage devices on which certification is based and

their installation requirements.4. Detailed description of conduit support devices and interconnections on which

certification is based and their installation requirements.



280528 - 2

D. Source quality-control reports.

PART 2 - PRODUCTS

2.1 METAL CONDUITS, TUBING, AND FITTINGS

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. AFC Cable Systems, Inc.2. Allied Tube & Conduit; a Tyco International Ltd. Co.3. Alpha Wire Company.4. Anamet Electrical, Inc.5. Electri-Flex Company.6. O-Z/Gedney; a brand of EGS Electrical Group.7. Picoma Industries; Subsidiary of Mueller Water Products, Inc.8. Republic Conduit.9. Robroy Industries10. Southwire Company.11. Thomas & Betts Corporation.12. Western Tube and Conduit Corporation.13. Wheatland Tube Company; a division of John Maneely Company.

B. General Requirements for Metal Conduits and Fittings:1. Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for

intended location and application.2. Comply with TIA-569-B.

C. GRC: Comply with ANSI C80.1 and UL 6.1. Comply with NEMA RN 1.2. Coating Thickness: 0.040 inch (1 mm), minimum.

D. EMT: Comply with ANSI C80.3 and UL 797.

E. FMC: Comply with UL 1; zinc-coated steel .

F. LFMC: Flexible steel conduit with PVC jacket and complying with UL 360.

G. Fittings for Metal Conduit: Comply with NEMA FB 1 and UL 514B.1. Conduit Fittings for Hazardous (Classified) Locations: Comply with UL 886 and

NFPA 70.2. Fittings for EMT:

a. Material: Steel .b. Type: Setscrew or compression.

3. Expansion Fittings: PVC or steel to match conduit type, complying with UL 467, rated for environmental conditions where installed, and including flexible external bonding jumper.

4. Coating for Fittings for PVC-Coated Conduit: Minimum thickness of 0.040 inch (1 mm), with overlapping sleeves protecting threaded joints.

H. Joint Compound for IMC, GRC, or ARC: Approved, as defined in NFPA 70, by authorities having jurisdiction for use in conduit assemblies, and compounded for use to lubricate and protect threaded conduit joints from corrosion and to enhance their conductivity.

2.2 SURFACE PATHWAYS

A. General Requirements for Surface Pathways: Refer to Div 26 “Raceway and Boxes.”



280528 - 3

2.3 BOXES, ENCLOSURES, AND CABINETS

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Adalet.2. Cooper Technologies Company; Cooper Crouse-Hinds.3. EGS/Appleton Electric.4. Erickson Electrical Equipment Company.5. Hoffman; a Pentair company.6. Hubbell Incorporated; Killark Division.7. Lamson & Sessions; Carlon Electrical Products.8. Milbank Manufacturing Co.9. Molex, Woodhead Brand10. Mono-Systems, Inc.11. O-Z/Gedney; a brand of EGS Electrical Group.12. RACO; a Hubbell Company.13. Robroy Industries.14. Spring City Electrical Manufacturing Company.15. Stahlin Non-Metallic Enclosures; a division of Robroy Industries.16. Thomas & Betts Corporation.17. Wiremold / Legrand.

B. General Requirements for Boxes, Enclosures, and Cabinets:1. Comply with TIA-569-B.2. Boxes, enclosures and cabinets installed in wet locations shall be listed for use in wet

locations.

C. Sheet-Metal Outlet and Device Boxes: Comply with NEMA OS 1 and UL 514A.

D. Cast-Metal Outlet and Device Boxes: Comply with NEMA FB 1, ferrous alloy , Type FD, with gasketed cover.

E. Box extensions used to accommodate new building finishes shall be of same material as recessed box.

F. Small Sheet Metal Pull and Junction Boxes: NEMA OS 1.

G. Device Box Dimensions: 4-inches square by 2-1/8 inches deep (100 mm square by 60 mm deep) .

H. Gangable boxes are prohibited.

PART 3 - EXECUTION

3.1 PATHWAY APPLICATION

A. Indoors: Apply pathway products as specified below unless otherwise indicated:1. Exposed, Not Subject to Physical Damage: EMT .2. Exposed, Not Subject to Severe Physical Damage: EMT .3. Exposed and Subject to Severe Physical Damage: GRC . Pathway locations include the

following:a. Mechanical rooms.

4. Concealed in Ceilings and Interior Walls and Partitions: EMT .5. Damp or Wet Locations: GRC .



280528 - 4

6. Pathways for Optical-Fiber or Communications Cable in Spaces Used for Environmental Air: EMT .

7. Pathways for Concealed General Purpose Distribution of Optical-Fiber or Communications Cable: EMT .

8. Boxes and Enclosures: NEMA 250, Type 1, except use NEMA 250, .

B. Minimum Pathway Size: Minimum size is 1 inch (27 mm).

C. Pathway Fittings: Compatible with pathways and suitable for use and location.1. Rigid and Intermediate Steel Conduit: Use threaded rigid steel conduit fittings unless

otherwise indicated. Comply with NEMA FB 2.10.2. PVC Externally Coated, Rigid Steel Conduits: Use only fittings listed for use with this

type of conduit. Patch and seal all joints, nicks, and scrapes in PVC coating after installing conduits and fittings. Use sealant recommended by fitting manufacturer and apply in thickness and number of coats recommended by manufacturer.

3. EMT: Use setscrew or compression, steel fittings. Comply with NEMA FB 2.10.4. Flexible Conduit: Use only fittings listed for use with flexible conduit. Comply with

NEMA FB 2.20.

D. Install surface pathways only where indicated on Drawings.

3.2 INSTALLATION

A. Comply with NECA 1, NECA 101, and TIA-569-B for installation requirements except where requirements on Drawings or in this article are stricter. Comply with NECA 102 for aluminum pathways. Comply with NFPA 70 limitations for types of pathways allowed in specific occupancies and number of floors.

B. Keep pathways at least 6 inches (150 mm) away from parallel runs of flues and steam or hot-water pipes. Install horizontal pathway runs above water and steam piping.

C. Complete pathway installation before starting conductor installation.

D. Comply with requirements in Division 26 Section "Hangers and Supports for Electrical Systems" for hangers and supports.

E. Arrange stub-ups so curved portions of bends are not visible above finished slab.

F. Install no more than the equivalent of three 90-degree bends in any conduit run except for communications wiring conduits for which only two 90-degree bends are allowed. Support within 12 inches (300 mm) of changes in direction.

G. Conceal conduit and EMT within finished walls, ceilings, and floors unless otherwise indicated. Install conduits parallel or perpendicular to building lines.

H. Support conduit within 12 inches (300 mm) of enclosures to which attached.

I. Stub-ups to Above Recessed Ceilings:1. Use EMT, IMC, or RMC for pathways.2. Use a conduit bushing or insulated fitting to terminate stub-ups not terminated in hubs or

in an enclosure.

J. Threaded Conduit Joints, Exposed to Wet, Damp, Corrosive, or Outdoor Conditions: Apply listed compound to threads of pathway and fittings before making up joints. Follow compound manufacturer's written instructions.



280528 - 5

K. Coat field-cut threads on PVC-coated pathway with a corrosion-preventing conductive compound prior to assembly.

L. Terminate threaded conduits into threaded hubs or with locknuts on inside and outside of boxes or cabinets. Install insulated bushings on conduits terminated with locknuts.

M. Install pathways square to the enclosure and terminate at enclosures with locknuts. Install locknuts hand tight plus 1/4 turn more.

N. Do not rely on locknuts to penetrate nonconductive coatings on enclosures. Remove coatings in the locknut area prior to conduit assembly to assure a continuous ground path.

O. Cut conduit perpendicular to the length. For conduits of 2-inch (53-mm) trade size and larger, use roll cutter or a guide to ensure cut is straight and perpendicular to the length.

P. Install pull wires in empty pathways. Use polypropylene or monofilament plastic line with not less than 200-lb (90-kg) tensile strength. Leave at least 12 inches (300 mm) of slack at each end of pull wire. Cap underground pathways designated as spare above grade alongside pathways in use.

Q. Pathways for Optical-Fiber and Communications Cable: Install pathways, metal and nonmetallic, rigid and flexible, as follows:1. 1-Inch (27-mm) Trade Size and Larger: Install pathways in maximum lengths of 75 feet

(23 m).2. Install with a maximum of two 90-degree bends or equivalent for each length of pathway

unless Drawings show stricter requirements. Separate lengths with pull or junction boxes or terminations at distribution frames or cabinets where necessary to comply with these requirements.

R. Install pathway sealing fittings at accessible locations according to NFPA 70 and fill them with listed sealing compound. For concealed pathways, install each fitting in a flush steel box with a blank cover plate having a finish similar to that of adjacent plates or surfaces. Install pathway sealing fittings according to NFPA 70.

S. Install devices to seal pathway interiors at accessible locations. Locate seals so no fittings or boxes are between the seal and the following changes of environments. Seal the interior of all pathways at the following points:1. Where conduits pass from warm to cold locations, such as boundaries of refrigerated

spaces.2. Where an underground service pathway enters a building or structure.3. Where otherwise required by NFPA 70.

T. Comply with manufacturer's written instructions for solvent welding PVC conduit and fittings.

U. Expansion-Joint Fittings:1. Install fitting(s) that provide expansion and contraction for at least 0.000078 inch per foot

of length of straight run per deg F (0.0115 mm per meter of length of straight run per deg C) of temperature change for metal conduits.

2. Install expansion fittings at all locations where conduits cross building or structure expansion joints.

3. Install each expansion-joint fitting with position, mounting, and piston setting selected according to manufacturer's written instructions for conditions at specific location at time of installation. Install conduit supports to allow for expansion movement.



280528 - 6

V. Mount boxes at heights indicated on Drawings. If mounting heights of boxes are not individually indicated, give priority to ADA requirements. Install boxes with height measured to center of box unless otherwise indicated.

W. Recessed Boxes in Masonry Walls: Saw-cut opening for box in center of cell of masonry block, and install box flush with surface of wall. Prepare block surface to provide a flat surface for a raintight connection between box and cover plate or supported equipment and box.

X. Horizontally separate boxes mounted on opposite sides of walls so they are not in the same vertical channel.

Y. Support boxes of three gangs or more from more than one side by spanning two framing members or mounting on brackets specifically designed for the purpose.

Z. Fasten junction and pull boxes to or support from building structure. Do not support boxes by conduits.

AA. Set metal floor boxes level and flush with finished floor surface.

3.3 SLEEVE AND SLEEVE-SEAL INSTALLATION FOR ELECTRONIC SAFETY AND SECURITY PENETRATIONS

A. Install sleeves and sleeve seals at penetrations of exterior floor and wall assemblies. Comply with requirements in Division 28 Section "Sleeves and Sleeve Seals for Electronic Safety and Security Pathways and Cabling."

3.4 FIRESTOPPING

A. Install firestopping at penetrations of fire-rated floor and wall assemblies. Comply with requirements in Division 07 Section "Penetration Firestopping."

3.5 PROTECTION

A. Protect coatings, finishes, and cabinets from damage and deterioration.1. Repair damage to galvanized finishes with zinc-rich paint recommended by

manufacturer.2. Repair damage to PVC coatings or paint finishes with matching touchup coating

recommended by manufacturer.



Sleeves And Sleeve Seals For Electronic Safety And Security © 2009 Spectrum Engineers, Inc.

280544 - 1

SECTION 280544 - SLEEVES AND SLEEVE SEALS FOR ELECTRONIC SAFETY AND SECURITY PATHWAYS AND CABLING

PART 1 - GENERAL



1.2 SUMMARY

A. Section Includes:1. Sleeves for pathway and cable penetration of non-fire-rated construction walls and floors.2. Grout.3. Silicone sealants.

B. Related Requirements:1. Division 07 Section "Penetration Firestopping" for penetration firestopping installed in fire-

resistance-rated walls, horizontal assemblies, and smoke barriers, with and without penetrating items.


A. Product Data: For each type of product.

PART 2 - PRODUCTS

2.1 SLEEVES

A. Wall Sleeves:1. Steel Pipe Sleeves: ASTM A 53/A 53M, Type E, Grade B, Schedule 40, zinc coated,

plain ends.2. Cast-Iron Pipe Sleeves: Cast or fabricated "wall pipe," equivalent to ductile-iron pressure

pipe, with plain ends and integral waterstop unless otherwise indicated.

B. Sleeves for Conduits Penetrating Non-Fire-Rated Gypsum Board Assemblies: Galvanized-steel sheet; 0.0239-inch (0.6-mm) minimum thickness; round tube closed with welded longitudinal joint, with tabs for screw-fastening the sleeve to the board.

C. Sleeves for Rectangular Openings:1. Material: Galvanized-steel sheet.2. Minimum Metal Thickness:

a. For sleeve cross-section rectangle perimeter less than 50 inches (1270 mm) and with no side larger than 16 inches (400 mm), thickness shall be 0.052 inch (1.3 mm).

b. For sleeve cross-section rectangle perimeter 50 inches (1270 mm) or more and one or more sides larger than 16 inches (400 mm), thickness shall be 0.138 inch(3.5 mm).

2.2 GROUT

A. Description: Nonshrink; recommended for interior and exterior sealing openings in non-fire-rated walls or floors..



280544 - 2

B. Standard: ASTM C 1107/C 1107M, Grade B, post-hardening and volume-adjusting, dry, hydraulic-cement grout.

C. Design Mix: 5000-psi (34.5-MPa), 28-day compressive strength.

D. Packaging: Premixed and factory packaged.

2.3 SILICONE SEALANTS

A. Silicone Sealants: Single-component, silicone-based, neutral-curing elastomeric sealants of grade indicated below.1. Grade: Pourable (self-leveling) formulation for openings in floors and other horizontal

surfaces that are not fire rated.2. Sealant shall have VOC content of 250 g/L or less when calculated according to

40 CFR 59, Subpart D (EPA Method 24).3. Sealant shall comply with the testing and product requirements of the California

Department of Health Services' "Standard Practice for the Testing of Volatile Organic Emissions from Various Sources Using Small-Scale Environmental Chambers."

B. Silicone Foams: Multicomponent, silicone-based, liquid elastomers that, when mixed, expand and cure in place to produce a flexible, nonshrinking foam.

PART 3 - EXECUTION

3.1 SLEEVE INSTALLATION FOR NON-FIRE-RATED ELECTRICAL PENETRATIONS

A. Comply with NECA 1.

B. Comply with NEMA VE 2 for cable tray and cable penetrations.

C. Sleeves for Conduits Penetrating Above-Grade Non-Fire-Rated Concrete and Masonry-Unit Floors and Walls:1. Interior Penetrations of Non-Fire-Rated Walls and Floors:

a. Seal annular space between sleeve and pathway or cable, using joint sealant appropriate for size, depth, and location of joint. Comply with requirements in Division 07 Section "Joint Sealants.".

b. Seal space outside of sleeves with mortar or grout. Pack sealing material solidly between sleeve and wall so no voids remain. Tool exposed surfaces smooth; protect material while curing.

2. Use pipe sleeves unless penetration arrangement requires rectangular sleeved opening.3. Size pipe sleeves to provide 1/4-inch (6.4-mm) annular clear space between sleeve and

pathway or cable unless sleeve seal is to be installed or unless seismic criteria require different clearance.

4. Install sleeves for wall penetrations unless core-drilled holes or formed openings are used. Install sleeves during erection of walls. Cut sleeves to length for mounting flush with both surfaces of walls. Deburr after cutting.

D. Sleeves for Conduits Penetrating Non-Fire-Rated Gypsum Board Assemblies:1. Use circular metal sleeves unless penetration arrangement requires rectangular sleeved

opening.2. Seal space outside of sleeves with approved joint compound for gypsum board

assemblies.

E. Roof-Penetration Sleeves: Seal penetration of individual pathways and cables with flexible boot-type flashing units applied in coordination with roofing work.



280544 - 3

F. Aboveground, Exterior-Wall Penetrations: Seal penetrations using [steel] [cast-iron] pipe sleeves and mechanical sleeve seals. Select sleeve size to allow for 1-inch (25-mm) annular clear space between pipe and sleeve for installing mechanical sleeve seals.

G. Underground, Exterior-Wall and Floor Penetrations: Install cast-iron pipe sleeves. Size sleeves to allow for 1-inch (25-mm) annular clear space between pathway or cable and sleeve for installing sleeve-seal system.



Access Control © 2009 Spectrum Engineers, Inc.

281300 - 1

SECTION 281300 - ACCESS CONTROL

PART 1 - GENERAL



1.2 SUMMARY

A. Section Includes:1. Security access central-control station.2. One or more security access networked workstations.3. Security access operating system and application software.4. Security access controllers connected to high-speed electronic-data transmission

network.

1.3 DEFINITIONS

A. CCTV: Closed-circuit television.

B. CPU: Central processing unit.

C. Credential: Data assigned to an entity and used to identify that entity.

D. dpi: Dots per inch.

E. DTS: Digital Termination Service. A microwave-based, line-of-sight communication provided directly to the end user.

F. GFI: Ground fault interrupter.

G. Identifier: A credential card; keypad personal identification number; or code, biometric characteristic, or other unique identification entered as data into the entry-control database for the purpose of identifying an individual. Where this term is presented with an initial capital letter, this definition applies.

H. I/O: Input/Output.

I. LAN: Local area network.

J. Location: A Location on the network having a PC-to-controller communications link, with additional controllers at the Location connected to the PC-to-controller link with a TIA 485-A communications loop. Where this term is presented with an initial capital letter, this definition applies.

K. PC: Personal computer. Applies to the central station, workstations, and file servers.

L. PCI Bus: Peripheral Component Interconnect. A peripheral bus providing a high-speed data path between the CPU and the peripheral devices such as a monitor, disk drive, or network.

M. PDF: Portable Document Format. The file format used by the Acrobat document-exchange-system software from Adobe.



281300 - 2

N. RAS: Remote access services.

O. RF: Radio frequency.

P. ROM: Read-only memory. ROM data are maintained through losses of power.

Q. TCP/IP: Transport control protocol/Internet protocol incorporated into Microsoft Windows.

R. TWAIN: Technology without an Interesting Name. A programming interface that lets a graphics application, such as an image editing program or desktop publishing program, activate a scanner, frame grabber, or other image-capturing device.

S. UPS: Uninterruptible power supply.

T. USB: Universal serial bus.

U. WAN: Wide area network.

V. WAV: The digital audio format used in Microsoft Windows.

W. WMP: Windows media player.

X. Wiegand: Patented magnetic principle that uses specially treated wires embedded in the credential card.

Y. Windows: Operating system by Microsoft Corporation.

Z. Workstation: A PC with software that is configured for specific, limited security-system functions.

AA. WYSIWYG: What You See Is What You Get. Text and graphics appear on the screen the same as they will in print.


A. Product Data: For each type of product indicated. Include rated capacities, operating characteristics, and furnished specialties and accessories. Reference each product to a location on Drawings. Test and evaluation data presented in Product Data shall comply with SIA BIO-01.

B. Shop Drawings: Include plans, elevations, sections, details, and attachments to other work for raceway infrastructure for Access Control System contracted separately by ASU showing approval by Henry Brothers.

C. Other Action Submittals:1. Project planning documents as specified in Part 3.

PART 2 - PRODUCTS

2.1 DESCRIPTION

A. Security Access System: All equipment and signal cabling provided in separate contract to Henry Brothers.



281300 - 3

PART 3 - EXECUTION

3.1 EXAMINATION

A. Examine pathway elements intended for cables. Check raceways, and other elements for compliance with space allocations, installation tolerances, hazards to cable installation, and other conditions affecting installation.

B. Proceed with installation only after unsatisfactory conditions have been corrected.

3.2 PREPARATION

A. Comply with recommendations in SIA CP-01.

B. Comply with TIA/EIA 606-A, "Administration Standard for Commercial Telecommunications Infrastructure."

C. Obtain detailed Project planning forms from Henry Brothersfor access-control system; develop custom forms to suit Project. Fill in all data available from Project plans and specifications and publish as Project planning documents for review and approval.

D. In meetings with Architect and Owner, present Project planning documents and review, adjust, and prepare final setup documents. Use final documents to set up system software.

3.3 GROUNDING

A. Comply with Division 26 Section "Grounding and Bonding for Electrical Systems."



Video Surveillance © 2009 Spectrum Engineers, Inc.

282300 - 1

SECTION 282300 - VIDEO SURVEILLANCE

PART 1 - GENERAL



1.2 SUMMARY

A. Section includes a video surveillance system consisting of cameras, digital video recorder, data transmission wiring, and a control station with its associated equipment.

1.3 DEFINITIONS

A. AGC: Automatic gain control.

B. BNC: Bayonet Neill-Concelman - type of connector.

C. B/W: Black and white.

D. CCD: Charge-coupled device.

E. FTP: File transfer protocol.

F. IP: Internet protocol.

G. LAN: Local area network.

H. MPEG: Moving picture experts group.

I. NTSC: National Television System Committee.

J. PC: Personal computer.

K. PTZ: Pan-tilt-zoom.

L. RAID: Redundant array of independent disks.

M. TCP: Transmission control protocol - connects hosts on the Internet.

N. UPS: Uninterruptible power supply.

O. WAN: Wide area network.


A. Seismic Performance: Video surveillance system shall withstand the effects of earthquake motions determined according to ASCE/SEI 7.1. The term "withstand" means "the unit will remain in place without separation of any parts

from the device when subjected to the seismic forces specified."



282300 - 2


A. Product Data: For each type of product indicated. Include dimensions and data on features, performance, electrical characteristics, ratings, and finishes.

B. Shop Drawings: For video surveillance. Include plans, elevations, sections, details, and attachments to other work.1. Detail equipment assemblies and indicate dimensions, weights, loads, required

clearances, method of field assembly, components, and location and size of each field connection.

2. Functional Block Diagram: Show single-line interconnections between components for signal transmission and control. Show cable types and sizes.

3. Dimensioned plan and elevations of equipment racks, control panels, and consoles. Show access and workspace requirements.

4. UPS: Sizing calculations.5. Wiring Diagrams: For power, signal, and control wiring.

C. Equipment List: Include every piece of equipment by model number, manufacturer, serial number, location, and date of original installation. Add pretesting record of each piece of equipment, listing name of person testing, date of test, set points of adjustments, name and description of the view of preset positions, description of alarms, and description of unit output responses to an alarm.


A. Seismic Qualification Certificates: For video surveillance, cameras, camera-supporting equipment, accessories, and components, from manufacturer.1. Basis for Certification: Indicate whether withstand certification is based on actual test of




B. Field quality-control reports.

C. Warranty: Sample of special warranty.


A. Operation and Maintenance Data: For cameras, power supplies, infrared illuminators, monitors, videotape recorders, digital video recorders, video switches, and control-station components to include in emergency, operation, and maintenance manuals. In addition to items specified in Division 01 Section "Operation and Maintenance Data," include the following:1. Lists of spare parts and replacement components recommended to be stored at the site

for ready access.


A. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.

B. Comply with NECA 1.

C. Comply with NFPA 70.



282300 - 3

D. Electronic data exchange between video surveillance system with an access-control system shall comply with SIA TVAC.


A. Environmental Conditions: Capable of withstanding the following environmental conditions without mechanical or electrical damage or degradation of operating capability:1. Control Station: Rated for continuous operation in ambient temperatures of 60 to 85

deg F (16 to 29 deg C) and a relative humidity of 20 to 80 percent, noncondensing.2. Interior, Controlled Environment: System components, except central-station control unit,

installed in air-conditioned interior environments shall be rated for continuous operation in ambient temperatures of 36 to 122 deg F (2 to 50 deg C) dry bulb and 20 to 90 percent relative humidity, noncondensing. Use NEMA 250, Type 1 enclosures.

1.10 WARRANTY

A. Special Warranty: Manufacturer's standard form in which manufacturer agrees to repair or replace components of cameras, equipment related to camera operation, and control-station equipment that fail in materials or workmanship within specified warranty period.1. Warranty Period: Three years from date of Substantial Completion.

PART 2 - PRODUCTS

2.1 SYSTEM REQUIREMENTS

A. Video-signal format shall comply with NTSC standard, composite interlaced video. Composite video-signal termination shall be 75 ohms.

B. Surge Protection: Protect components from voltage surges originating external to equipment housing and entering through power, communication, signal, control, or sensing leads. Include surge protection for external wiring of each conductor's entry connection to components.1. Minimum Protection for Power Connections 120 V and More: Auxiliary panel

suppressors complying with requirements in Division 26 Section "Transient-Voltage Suppression for Low-Voltage Electrical Power Circuits."

2. Minimum Protection for Communication, Signal, Control, and Low-Voltage Power Connections: Comply with requirements in Division 26 Section "Transient-Voltage Suppression for Low-Voltage Electrical Power Circuits." as recommended by manufacturer for type of line being protected.

C. Tamper Protection: Tamper switches on enclosures, control units, pull boxes, junction boxes, cabinets, and other system components shall initiate a tamper-alarm signal when unit is opened or partially disassembled. Control-station, control-unit alarm display shall identify tamper alarms and indicate locations.

2.2 STANDARD CAMERAS

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following :1. Pelco.

B. Automatic Color Dome Camera: Assembled and tested as a manufactured unit, containing dome assembly, color camera, motorized pan and tilt, zoom lens, and receiver/driver.1. Comply with UL 639.2. Pickup Device: CCD interline transfer, 380,000 768(H) by 494(V) pixels.3. Horizontal Resolution: 480 lines.



282300 - 4

4. Signal-to-Noise Ratio: Not less than 50 dB, with camera AGC off.5. With AGC, manually selectable on or off.6. Sensitivity: Camera shall provide usable images in low-light conditions, delivering an

image at a scene illumination of 20 lux.7. Sensitivity: Camera shall deliver 1-V peak-to-peak video signal at the minimum specified

light level. Illumination for the test shall be with lamps rated at approximately 2200-K color temperature, and with camera AGC off.

8. Manually selectable modes for backlight compensation or normal lighting.9. Pan and Tilt: Direct-drive motor, 360-degree rotation angle, and 180-degree tilt angle.

Pan-and-tilt speed shall be controlled by operator. Movement from preset positions shall be not less than 300 degrees per second.

10. Preset Positioning: Eight user-definable scenes, each allowing 16-character titles. Controls shall include the following:a. In "sequence mode," camera shall continuously sequence through preset

positions, with dwell time and sequencing under operator control.b. Motion detection shall be available at each camera position.c. Up to four preset positions may be selected to be activated by an alarm. Each of

the alarm positions may be programmed to output a response signal.11. Scanning Synchronization: Determined by external synch over the coaxial cable.

Camera shall revert to internally generated synchronization on loss of external synch signal.

12. White Balance: Auto-tracing white balance, with manually settable fixed balance option.13. Motion Detector: Built-in digital.14. Dome shall support multiplexed control communications using coaxial cable

recommended by manufacturer.

2.3 LENSES

A. Manufacturers: Subject to compliance with requirements, [provide products by one of the following] [available manufacturers offering products that may be incorporated into the Work include, but are not limited to, the following]:1. Pelco.

B. Description: Optical-quality coated lens, designed specifically for video-surveillance applications and matched to specified camera. Provide color-corrected lenses with color cameras.1. Zoom Lens: Motorized, remote-controlled unit, rated as "quiet operating." Features

include the following:a. Electrical Leads: Filtered to minimize video signal interference.b. Motor Speed: Variable.c. Lens shall be available with preset positioning capability to recall the position of

specific scenes.

2.4 POWER SUPPLIES

A. Low-voltage power supplies matched for voltage and current requirements of cameras and accessories, and of type as recommended by manufacturer of camera and lens.1. Enclosure: NEMA 250, Type 1 .

2.5 CAMERA-SUPPORTING EQUIPMENT




282300 - 5

B. Minimum Load Rating: Rated for load in excess of the total weight supported times a minimum safety factor of two.

C. Pan Units: Motorized automatic-scanning units arranged to provide remote-controlled manual and automatic camera panning action, and equipped with matching mounting brackets.1. Scanning Operation: Silent, smooth, and positive.2. Stops: Adjustable without disassembly, to limit the scanning arc.

D. Pan-and-Tilt Units: Motorized units arranged to provide remote-controlled aiming of cameras with smooth and silent operation, and equipped with matching mounting brackets.1. Panning Rotation: 0 to 355 degrees, with adjustable stops.2. Tilt Movement: 90 degrees, plus or minus 5 degrees, with adjustable stops.3. Speed: 12 degrees per second in both horizontal and vertical planes.4. Wiring: Factory prewired for camera and zoom lens functions and pan-and-tilt power and

control.5. Built-in encoders or potentiometers for position feedback.6. Pan-and-tilt unit shall be available with preset positioning capability to recall the position

of a specific scene.

2.6 MONITORS


B. Color:1. Flat screen designed for continuous operation.2. Screen Size (Diagonal Dimension): minimum 24”.3. Horizontal Resolution: 300 lines.4. Minimum Front Panel Devices and Controls: Power switch; power-on indicator; and

brightness, contrast, color, and tint controls.5. Degaussing: Automatic.6. Mounting: Single, 14-inch (356-mm) , vertical, EIA 19-inch (483-mm) electronic

equipment rack or cabinet complying with CEA 310-E.7. Electrical: 120-V ac, 60 Hz.

2.7 DIGITAL VIDEO RECORDERS


B. Description: Digital, time-lapse type, full-frame and motion recorder, with removable hard drive.1. Recording Time: 400 hours minimum.2. Resolution: 720 by 480 lines, minimum.3. Programming shall be from trackball and push buttons on face of the recorder, settings

shall be displayed on any video monitor connected to the recorder. Programming shall include the following:a. Motion analysis graph.b. Password protection.c. Alarm and timer controls.d. Continuous recording option.e. Time-lapse operating modes.f. Search video by time, event, or motion.

4. Programming: SmartMedia card for software updating, image archiving, and image transfer to a PC.



282300 - 6

5. Storage: 80-GB , removable hard drive. Software shall permit hot-swapping drives.6. Compression: MPEG-2 .7. Time and Date Generator: Records time (hr:min:sec) and date legend of each frame.8. Mounting: Standard 19-inch (483-mm) rack complying with CEA 310-E, or freestanding

desktop.

2.8 SIGNAL TRANSMISSION COMPONENTS

A. Cable: Coaxial cable elements have 75-ohm nominal impedance. Comply with requirements in Division 28 Section "Conductors and Cables for Electronic Safety and Security."

B. Video Surveillance Coaxial Cable Connectors: BNC type, 75 ohms. Comply with requirements in Division 28 Section "Conductors and Cables for Electronic Safety and Security."

PART 3 - EXECUTION

3.1 EXAMINATION

A. Examine pathway elements intended for cables. Check raceways and other elements for compliance with space allocations, installation tolerance, hazards to camera installation, and other conditions affecting installation.

B. Examine roughing-in for LAN, WAN, and IP network before device installation.

C. Proceed with installation only after unsatisfactory conditions have been corrected.

3.2 WIRING

A. Comply with requirements in Division 26 Section "Raceway and Boxes for Electrical Systems."

B. Wiring Method: Install cables in raceways unless otherwise indicated.1. Conceal raceways and wiring except in unfinished spaces.

C. Wiring within Enclosures: Bundle, lace, and train conductors to terminal points with no excess and without exceeding manufacturer's limitations on bending radii. Provide and use lacing bars and distribution spools.

D. Splices, Taps, and Terminations: For power and control wiring, use numbered terminal strips in junction, pull, and outlet boxes; terminal cabinets; and equipment enclosures. Tighten electrical connectors and terminals according to manufacturer's published torque-tightening values. If manufacturer's torque values are not indicated, use those specified in UL 486A-486B.

E. For LAN connection and fiber-optic and copper communication wiring, comply with Division 27 Sections "Communications Backbone Cabling" and "Communications Horizontal Cabling."

F. Grounding: Provide independent-signal circuit grounding recommended in writing by manufacturer.

3.3 VIDEO SURVEILLANCE SYSTEM INSTALLATION

A. Install cameras level and plumb.

B. Install cameras with 84-inch- (2134-mm-) minimum clear space below cameras and their mountings. Change type of mounting to achieve required clearance.



282300 - 7

C. Set pan unit and pan-and-tilt unit stops to suit final camera position and to obtain the field of view required for camera. Connect all controls and alarms, and adjust.

D. Install power supplies and other auxiliary components at control stations unless otherwise indicated.

E. Install tamper switches on components indicated to receive tamper switches, arranged to detect unauthorized entry into system-component enclosures and mounted in self-protected, inconspicuous positions.

F. Avoid ground loops by making ground connections only at the control station.1. For 12- and 24-V dc cameras, connect the coaxial cable shields only at the monitor end.

G. Identify system components, wiring, cabling, and terminals according to Division 26 Section "Identification for Electrical Systems."


A. Manufacturer's Field Service: Engage a factory-authorized service representative to inspect, test, and adjust components, assemblies, and equipment installations, including connections.

B. Perform tests and inspections.1. Manufacturer's Field Service: Engage a factory-authorized service representative to


C. Tests and Inspections:1. Inspection: Verify that units and controls are properly installed, connected, and labeled,

and that interconnecting wires and terminals are identified.2. Pretesting: Align and adjust system and pretest components, wiring, and functions to

verify that they comply with specified requirements. Conduct tests at varying lighting levels, including day and night scenes as applicable. Prepare video-surveillance equipment for acceptance and operational testing as follows:a. Prepare equipment list described in "Informational Submittals" Article.b. Verify operation of auto-iris lenses.c. Set back-focus of fixed focal length lenses. At focus set to infinity, simulate

nighttime lighting conditions by using a dark glass filter of a density that produces a clear image. Adjust until image is in focus with and without the filter.

d. Set back-focus of zoom lenses. At focus set to infinity, simulate nighttime lighting conditions by using a dark glass filter of a density that produces a clear image. Additionally, set zoom to full wide angle and aim camera at an object 50 to 75 feet(17 to 23 m) away. Adjust until image is in focus from full wide angle to full telephoto, with the filter in place.

e. Set and name all preset positions; consult Owner's personnel.f. Set sensitivity of motion detection.g. Connect and verify responses to alarms.h. Verify operation of control-station equipment.

3. Test Schedule: Schedule tests after pretesting has been successfully completed and system has been in normal functional operation for at least 14 days. Provide a minimum of 10 days' notice of test schedule.

4. Operational Tests: Perform operational system tests to verify that system complies with Specifications. Include all modes of system operation. Test equipment for proper operation in all functional modes.

D. Video surveillance system will be considered defective if it does not pass tests and inspections.



282300 - 8

E. Prepare test and inspection reports.

3.5 ADJUSTING

A. Occupancy Adjustments: When requested within 12 months of date of Substantial Completion, provide on-site assistance in adjusting system to suit actual occupied conditions. Provide up to two visits to Project during other-than-normal occupancy hours for this purpose. Tasks shall include, but are not limited to, the following:1. Check cable connections.2. Check proper operation of cameras and lenses. Verify operation of auto-iris lenses and

adjust back-focus as needed.3. Adjust all preset positions; consult Owner's personnel.4. Recommend changes to cameras, lenses, and associated equipment to improve Owner's

use of video surveillance system.5. Provide a written report of adjustments and recommendations.

3.6 CLEANING

A. Clean installed items using methods and materials recommended in writing by manufacturer.

B. Clean video-surveillance-system components, including camera-housing windows, lenses, and monitor screens.

3.7 DEMONSTRATION

A. Engage a factory-authorized service representative to train Owner's maintenance personnel to adjust, operate, and maintain video-surveillance equipment.



Digital, Addressable Fire-alarm System © 2009 Spectrum Engineers, Inc.

283111 - 1

SECTION 283111 - DIGITAL, ADDRESSABLE FIRE-ALARM SYSTEM

PART 1 - GENERAL



1.2 SUMMARY

A. Section Includes:1. Fire-alarm control unit.2. Manual fire-alarm boxes.3. System smoke detectors.4. Notification appliances.5. Addressable interface device.

1.3 DEFINITIONS

A. LED: Light-emitting diode.

B. NICET: National Institute for Certification in Engineering Technologies.

1.4 SYSTEM DESCRIPTION

A. Noncoded addressable system, with automatic sensitivity control of certain smoke detectors and multiplexed signal transmission, dedicated to fire-alarm service only.


A. Seismic Performance: Fire-alarm control unit and raceways shall withstand the effects of earthquake motions determined according to SEI/ASCE 7 .1. The term "withstand" means "the unit will remain in place without separation of any parts

from the device when subjected to the seismic forces specified and the unit will be fully operational after the seismic event."


A. Product Data: For each type of product indicated.

B. Shop Drawings: For fire-alarm system. Include plans, elevations, sections, details, and attachments to other work.1. Comply with recommendations in the "Documentation" Section of the "Fundamentals of

Fire Alarm Systems" Chapter in NFPA 72.2. Include voltage drop calculations for notification appliance circuits.3. Include battery-size calculations.4. Include performance parameters and installation details for each detector, verifying that

each detector is listed for complete range of air velocity, temperature, and humidity possible when air-handling system is operating.

5. Include plans, sections, and elevations of heating, ventilating, and air-conditioning ducts, drawn to scale and coordinating installation of duct smoke detectors and access to them. Show critical dimensions that relate to placement and support of sampling tubes, detector



283111 - 2

housing, and remote status and alarm indicators. Locate detectors according to manufacturer's written recommendations.

6. Include floor plans to indicate final outlet locations showing address of each addressable device. Show size and route of cable and conduits.

C. General Submittal Requirements:1. Submittals shall be approved by authorities having jurisdiction prior to submitting them to

Architect.2. Shop Drawings shall be prepared by persons with the following qualifications:

a. Trained and certified by manufacturer in fire-alarm system design.b. NICET-certified fire-alarm technician, Level III minimum.c. Licensed or certified by authorities having jurisdiction.

D. Delegated-Design Submittal: For smoke and heat detectors indicated to comply with performance requirements and design criteria, including analysis data signed and sealed by the qualified professional engineer responsible for their preparation.1. Drawings showing the location of each smoke and heat detector, ratings of each, and

installation details as needed to comply with listing conditions of the detector.2. Design Calculations: Calculate requirements for selecting the spacing and sensitivity of

detection, complying with NFPA 72.


A. Qualification Data: For qualified Installer.

B. Seismic Qualification Certificates: For fire-alarm control unit, accessories, and components, from manufacturer.1. Basis for Certification: Indicate whether withstand certification is based on actual test of




C. Field quality-control reports.


A. Operation and Maintenance Data: For fire-alarm systems and components to include in emergency, operation, and maintenance manuals. In addition to items specified in Division 01 Section "Operation and Maintenance Data," include the following:1. Comply with the "Records" Section of the "Inspection, Testing and Maintenance" Chapter

in NFPA 72.2. Provide "Record of Completion Documents" according to NFPA 72 article "Permanent

Records" in the "Records" Section of the "Inspection, Testing and Maintenance" Chapter.3. Record copy of site-specific software.4. Provide "Maintenance, Inspection and Testing Records" according to NFPA 72 article of

the same name and include the following:a. Frequency of testing of installed components.b. Frequency of inspection of installed components.c. Requirements and recommendations related to results of maintenance.d. Manufacturer's user training manuals.

5. Manufacturer's required maintenance related to system warranty requirements.6. Abbreviated operating instructions for mounting at fire-alarm control unit.



283111 - 3

B. Software and Firmware Operational Documentation:1. Software operating and upgrade manuals.2. Program Software Backup: On magnetic media or compact disk, complete with data

files.3. Device address list.4. Printout of software application and graphic screens.


A. Installer Qualifications: Personnel shall be trained and certified by manufacturer for installation of units required for this Project.

B. Installer Qualifications: Installation shall be by personnel certified by NICET as fire-alarm Level II technician.

C. Source Limitations for Fire-Alarm System and Components: Obtain fire-alarm system from single source from single manufacturer. Components shall be compatible with, and operate as, an extension of existing system.

D. Electrical Components, Devices, and Accessories: Listed and labeled as defined in NFPA 70, by a qualified testing agency, and marked for intended location and application.

E. NFPA Certification: Obtain certification according to NFPA 72 by a UL-listed alarm company.


A. Interruption of Existing Fire-Alarm Service: Do not interrupt fire-alarm service to facilities occupied by Owner or others unless permitted under the following conditions and then only after arranging to provide temporary guard service according to requirements indicated:1. Notify Owner no fewer than two days in advance of proposed interruption of fire-alarm

service.2. Do not proceed with interruption of fire-alarm service without Owner's written

permission.

1.11 SEQUENCING AND SCHEDULING

A. Existing Fire-Alarm Equipment: Maintain existing equipment fully operational until new equipment has been tested and accepted. As new equipment is installed, label it "NOT IN SERVICE" until it is accepted. Remove labels from new equipment when put into service and label existing fire-alarm equipment "NOT IN SERVICE" until removed from the building.

B. Equipment Removal: After acceptance of new fire-alarm system, remove existing disconnected fire-alarm equipment and wiring.

1.12 SOFTWARE SERVICE AGREEMENT

A. Comply with UL 864.

B. Technical Support: Beginning with Substantial Completion, provide software support for twoyears.

C. Upgrade Service: Update software to latest version at Project completion. Install and program software upgrades that become available within two years from date of Substantial Completion. Upgrading software shall include operating system. Upgrade shall include new or revised licenses for use of software.



283111 - 4

1. Provide 30 days' notice to Owner to allow scheduling and access to system and to allow Owner to upgrade computer equipment if necessary.

PART 2 - PRODUCTS

2.1 MANUFACTURERS

A. Manufacturers: Subject to compliance with requirements, provide products by one of the following as installed by Climatech :1. GE Infrastructure; a unit of General Electric Company.

2.2 SYSTEMS OPERATIONAL DESCRIPTION

A. Fire-alarm signal initiation shall be by one or more of the following devices and systems:1. Manual stations.2. Heat detectors.3. Smoke detectors.4. Duct smoke detectors.5. Verified automatic alarm operation of smoke detectors.6. Automatic sprinkler system water flow.

B. Fire-alarm signal shall initiate the following actions:1. Continuously operate alarm notification appliances.2. Identify alarm at fire-alarm control unit and remote annunciators.3. Transmit an alarm signal to the remote alarm receiving station.4. Unlock electric door locks in designated egress paths.5. Release fire and smoke doors held open by magnetic door holders.6. Switch heating, ventilating, and air-conditioning equipment controls to fire-alarm mode.7. Close smoke dampers in air ducts of designated air-conditioning duct systems.

C. Supervisory signal initiation shall be by one or more of the following devices and actions:1. Valve supervisory switch.2. Low-air-pressure switch of a dry-pipe sprinkler system.3. Elevator shunt-trip supervision.

D. System trouble signal initiation shall be by one or more of the following devices and actions:1. Open circuits, shorts, and grounds in designated circuits.2. Opening, tampering with, or removing alarm-initiating and supervisory signal-initiating

devices.3. Loss of primary power at fire-alarm control unit.4. Ground or a single break in fire-alarm control unit internal circuits.5. Abnormal ac voltage at fire-alarm control unit.6. Break in standby battery circuitry.7. Failure of battery charging.8. Abnormal position of any switch at fire-alarm control unit or annunciator.9. Low-air-pressure switch operation on a dry-pipe or preaction sprinkler system.

E. System Trouble and Supervisory Signal Actions: Initiate notification appliance and annunciate at fire-alarm control unit and remote annunciators. Record the event on system printer.

2.3 FIRE-ALARM CONTROL UNIT: Existing

A. Circuits:1. Initiating Device, Notification Appliance, and Signaling Line Circuits: NFPA 72, Class A.



283111 - 5

B. Smoke-Alarm Verification:1. Initiate audible and visible indication of an "alarm-verification" signal at fire-alarm control

unit.2. Activate an NRTL-listed and -approved "alarm-verification" sequence at fire-alarm control

unit and detector.3. Record events by the system printer.4. Sound general alarm if the alarm is verified.5. Cancel fire-alarm control unit indication and system reset if the alarm is not verified.

C. Notification Appliance Circuit: Operation shall sound in a temporal code.

D. Primary Power: 24-V dc obtained from 120-V ac service and a power-supply module. Initiating devices, notification appliances, signaling lines, trouble signals, supervisory signals supervisory and digital alarm communicator transmitters shall be powered by 24-V dc source.1. Alarm current draw of entire fire-alarm system shall not exceed 80 percent of the power-

supply module rating.

E. Secondary Power: 24-V dc supply system with batteries, automatic battery charger, and automatic transfer switch.1. Batteries: Sealed lead calcium .

F. Instructions: Computer printout or typewritten instruction card mounted behind a plastic or glass cover in a stainless-steel or aluminum frame. Include interpretation and describe appropriate response for displays and signals. Briefly describe the functional operation of the system under normal, alarm, and trouble conditions.

2.4 MANUAL FIRE-ALARM BOXES

A. General Requirements for Manual Fire-Alarm Boxes: Comply with UL 38. Boxes shall be finished in red with molded, raised-letter operating instructions in contrasting color; shall show visible indication of operation; and shall be mounted on recessed outlet box. If indicated as surface mounted, provide manufacturer's surface back box.1. Double-action mechanism requiring two actions to initiate an alarm, pull-lever type; with

integral addressable module arranged to communicate manual-station status (normal, alarm, or trouble) to fire-alarm control unit.

2. Station Reset: Key- or wrench-operated switch.3. Indoor Protective Shield: Factory-fabricated clear plastic enclosure hinged at the top to

permit lifting for access to initiate an alarm. Lifting the cover actuates an integral battery-powered audible horn intended to discourage false-alarm operation.

2.5 SYSTEM SMOKE DETECTORS

A. General Requirements for System Smoke Detectors:1. Comply with UL 268; operating at 24-V dc, nominal.2. Detectors shall be two-wire type.3. Integral Addressable Module: Arranged to communicate detector status (normal, alarm,

or trouble) to fire-alarm control unit.4. Base Mounting: Detector and associated electronic components shall be mounted in a

twist-lock module that connects to a fixed base. Provide terminals in the fixed base for connection to building wiring.

5. Self-Restoring: Detectors do not require resetting or readjustment after actuation to restore them to normal operation.

6. Integral Visual-Indicating Light: LED type indicating detector has operated and power-on status.



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7. Remote Control: Unless otherwise indicated, detectors shall be analog-addressable type, individually monitored at fire-alarm control unit for calibration, sensitivity, and alarm condition and individually adjustable for sensitivity by fire-alarm control unit.a. Rate-of-rise temperature characteristic shall be selectable at fire-alarm control unit

for 15 or 20 deg F (8 or 11 deg C) per minute.b. Fixed-temperature sensing shall be independent of rate-of-rise sensing and shall

be settable at fire-alarm control unit to operate at 135 or 155 deg F (57 or 68 deg C).

c. Provide multiple levels of detection sensitivity for each sensor.

B. Photoelectric Smoke Detectors:1. Detector address shall be accessible from fire-alarm control unit and shall be able to

identify the detector's location within the system and its sensitivity setting.2. An operator at fire-alarm control unit, having the designated access level, shall be able to

manually access the following for each detector:a. Primary status.b. Device type.c. Present average value.d. Present sensitivity selected.e. Sensor range (normal, dirty, etc.).

C. Duct Smoke Detectors: Photoelectric type complying with UL 268A.1. Detector address shall be accessible from fire-alarm control unit and shall be able to

identify the detector's location within the system and its sensitivity setting.2. An operator at fire-alarm control unit, having the designated access level, shall be able to

manually access the following for each detector:a. Primary status.b. Device type.c. Present average value.d. Present sensitivity selected.e. Sensor range (normal, dirty, etc.).

3. Weatherproof Duct Housing Enclosure: NEMA 250, Type 4X; NRTL listed for use with the supplied detector.

4. Each sensor shall have multiple levels of detection sensitivity.5. Sampling Tubes: Design and dimensions as recommended by manufacturer for specific

duct size, air velocity, and installation conditions where applied.6. Relay Fan Shutdown: Rated to interrupt fan motor-control circuit.

2.6 NOTIFICATION APPLIANCES

A. General Requirements for Notification Appliances: Connected to notification appliance signal circuits, zoned as indicated, equipped for mounting as indicated and with screw terminals for system connections.1. Combination Devices: Factory-integrated audible and visible devices in a single-

mounting assembly, equipped for mounting as indicated and with screw terminals for system connections.

B. Horns: Electric-vibrating-polarized type, 24-V dc; with provision for housing the operating mechanism behind a grille. Comply with UL 464. Horns shall produce a sound-pressure level of 90 dBA, measured 10 feet (3 m) from the horn, using the coded signal prescribed in UL 464 test protocol.

C. Visible Notification Appliances: Xenon strobe lights comply with UL 1971, with clear or nominal white polycarbonate lens mounted on an aluminum faceplate. The word "FIRE" is engraved in minimum 1-inch- (25-mm-) high letters on the lens.1. Rated Light Output:



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a. 15/30/75/110 cd, selectable in the field.2. Mounting: Wall mounted unless otherwise indicated.3. For units with guards to prevent physical damage, light output ratings shall be determined

with guards in place.4. Flashing shall be in a temporal pattern, synchronized with other units.5. Strobe Leads: Factory connected to screw terminals.6. Mounting Faceplate: Factory finished, red [white].

D. Voice/Tone Notification Appliances:1. Appliances shall comply with UL 1480 and shall be listed and labeled by an NRTL.2. High-Range Units: Rated 2 to 15 W.3. Low-Range Units: Rated 1 to 2 W.4. Mounting: Flush .5. Matching Transformers: Tap range matched to acoustical environment of speaker

location.

2.7 ADDRESSABLE INTERFACE DEVICE

A. Description: Microelectronic monitor module, NRTL listed for use in providing a system address for alarm-initiating devices for wired applications with normally open contacts.

B. Integral Relay: Capable of providing a direct signal to circuit-breaker shunt trip for power shutdown .

PART 3 - EXECUTION

3.1 EQUIPMENT INSTALLATION

A. Comply with NFPA 72 for installation of fire-alarm equipment.

B. Equipment Mounting: Install fire-alarm control unit on finished floor with tops of cabinets not more than 72 inches (1830 mm) above the finished floor.1. Comply with requirements for seismic-restraint devices specified in Division 26 Section

"Vibration and Seismic Controls for Electrical Systems."

C. Connecting to Existing Equipment: Verify that existing fire-alarm system is operational before making changes or connections.1. Connect new equipment to existing control panel in existing part of the building.2. Connect new equipment to existing monitoring equipment at the supervising station.3. Expand, modify, and supplement existing control and monitoring equipment as necessary

to extend existing control and monitoring functions to the new points. New components shall be capable of merging with existing configuration without degrading the performance of either system.

D. Smoke- or Heat-Detector Spacing:1. Comply with NFPA 72, "Smoke-Sensing Fire Detectors" Section in the "Initiating Devices"

Chapter, for smoke-detector spacing.2. Smooth ceiling spacing shall not exceed 30 feet (9 m) .3. Spacing of detectors for irregular areas, for irregular ceiling construction, and for high

ceiling areas shall be determined according to Appendix A or Appendix B in NFPA 72.4. HVAC: Locate detectors not closer than 3 feet (1 m) from air-supply diffuser or return-air

opening.5. Lighting Fixtures: Locate detectors not closer than 12 inches (300 mm) from any part of

a lighting fixture.



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E. Duct Smoke Detectors: Comply with NFPA 72 and NFPA 90A. Install sampling tubes so they extend the full width of duct.

F. Audible Alarm-Indicating Devices: Install not less than 6 inches (150 mm) below the ceiling. Install bells and horns on flush-mounted back boxes with the device-operating mechanism concealed behind a grille.

G. Visible Alarm-Indicating Devices: Install adjacent to each alarm bell or alarm horn and at least 6 inches (150 mm) below the ceiling.

H. Device Location-Indicating Lights: Locate in public space near the device they monitor.

3.2 CONNECTIONS

A. For fire-protection systems related to doors in fire-rated walls and partitions and to doors in smoke partitions, comply with requirements in Division 08 Section "Door Hardware." Connect hardware and devices to fire-alarm system.1. Verify that hardware and devices are NRTL listed for use with fire-alarm system in this

Section before making connections.

B. Make addressable connections with a supervised interface device to the following devices and systems. Install the interface device less than 3 feet (1 m) from the device controlled. Make an addressable confirmation connection when such feedback is available at the device or system being controlled.1. Smoke dampers in air ducts of designated air-conditioning duct systems.2. Supervisory connections at valve supervisory switches.3. Supervisory connections at low-air-pressure switch of each dry-pipe sprinkler system.

3.3 IDENTIFICATION

A. Identify system components, wiring, cabling, and terminals. Comply with requirements for identification specified in Division 26 Section "Identification for Electrical Systems."

B. Install framed instructions in a location visible from fire-alarm control unit.

3.4 GROUNDING

A. Ground fire-alarm control unit and associated circuits; comply with IEEE 1100. Install a ground wire from main service ground to fire-alarm control unit.


A. Field tests shall be witnessed by authorities having jurisdiction .

B. Manufacturer's Field Service: Engage a factory-authorized service representative to inspect, test, and adjust components, assemblies, and equipment installations, including connections.

C. Perform tests and inspections.1. Manufacturer's Field Service: Engage a factory-authorized service representative to


D. Tests and Inspections:1. Visual Inspection: Conduct visual inspection prior to testing.



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a. Inspection shall be based on completed Record Drawings and system documentation that is required by NFPA 72 in its "Completion Documents, Preparation" Table in the "Documentation" Section of the "Fundamentals of Fire Alarm Systems" Chapter.

b. Comply with "Visual Inspection Frequencies" Table in the "Inspection" Section of the "Inspection, Testing and Maintenance" Chapter in NFPA 72; retain the "Initial/Reacceptance" column and list only the installed components.

2. System Testing: Comply with "Test Methods" Table in the "Testing" Section of the "Inspection, Testing and Maintenance" Chapter in NFPA 72.

3. Test audible appliances for the public operating mode according to manufacturer's written instructions. Perform the test using a portable sound-level meter complying with Type 2 requirements in ANSI S1.4.

4. Test audible appliances for the private operating mode according to manufacturer's written instructions.

5. Test visible appliances for the public operating mode according to manufacturer's written instructions.

6. Factory-authorized service representative shall prepare the "Fire Alarm System Record of Completion" in the "Documentation" Section of the "Fundamentals of Fire Alarm Systems" Chapter in NFPA 72 and the "Inspection and Testing Form" in the "Records" Section of the "Inspection, Testing and Maintenance" Chapter in NFPA 72.

E. Reacceptance Testing: Perform reacceptance testing to verify the proper operation of added or replaced devices and appliances.

F. Fire-alarm system will be considered defective if it does not pass tests and inspections.

G. Prepare test and inspection reports.

H. Maintenance Test and Inspection: Perform tests and inspections listed for weekly, monthly, quarterly, and semiannual periods. Use forms developed for initial tests and inspections.

I. Annual Test and Inspection: One year after date of Substantial Completion, test fire-alarm system complying with visual and testing inspection requirements in NFPA 72. Use forms developed for initial tests and inspections.


ARIZONA STATE 1 A R C H I T E C T U R A L UNIVERSITY Δ ...€¦ · lab n115 add / alt. #1 n113a....

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Transcript of ARIZONA STATE 1 A R C H I T E C T U R A L UNIVERSITY Δ ...€¦ · lab n115 add / alt. #1 n113a....