BMS Submittal Sample

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Project Nr: 001122

ABC BUILDING

SAMPLE: Submittal Documentation

Subject: SAMPLE SUBMITTAL Subject: SAMPLE SUBMITTAL

Date: 2010-Jan-01 Date: 2010-Jan-01 This is a full-sized sample. This is a full-sized sample.

Customer: Customer: Owner: Owner: Electrical Consultant: Electrical Consultant: TTT MECHANICAL TTT MECHANICAL ABC OWNER ABC OWNER

XYZ ELEC CONSULTANTS INC XYZ ELEC CONSULTANTS INC

ICS Inc ICS Inc 123 Main Street 123 Main Street Capital City Capital City ANY STATE ANY STATE 11111 11111 USA USA

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Index

Main Index Main Index Notes Notes Submittal Description Submittal Description Systems Systems

System: A-001 - EXHAUST FAN ON OFF System: A-001 - EXHAUST FAN ON OFF

Exhaust Fan - Visio Drawing Exhaust Fan - Visio Drawing

Exhaust Fan - Sequence of Operation Exhaust Fan - Sequence of Operation Exhaust Fan - Points List

Exhaust Fan - Points List 11X17 - 11X17 Document 11X17 - 11X17 Document

System: A-002 - SINGLE BOILER SYSTEM System: A-002 - SINGLE BOILER SYSTEM

Single Boiler - Visio Drawing Single Boiler - Visio Drawing

Single Boiler - Sequence of Operation Single Boiler - Sequence of Operation Single Boiler - Points List

Single Boiler - Points List System: B-003 - FAN COIL UNIT System: B-003 - FAN COIL UNIT

Fan Coil Unit - Visio

Fan Coil Unit - Visio DrawingDrawing Fan Coil Unit - Sequence of

Fan Coil Unit - Sequence of OperationOperation Fan Coil Unit - Points List

Fan Coil Unit - Points List

System: A-004 - VAV BOX TERMINAL UNIT System: A-004 - VAV BOX TERMINAL UNIT

VAV Box - Visio Drawing VAV Box - Visio Drawing

VAV Box - Sequence of Operation VAV Box - Sequence of Operation VAV Box - Points List

VAV Box - Points List System: D-005 - UNIT HEATER System: D-005 - UNIT HEATER Unit Heater - Visio Drawing Unit Heater - Visio Drawing

Unit Heater - Sequence of Operation Unit Heater - Sequence of Operation Unit Heater - Points List

Unit Heater - Points List

PDF Datasheets PDF Datasheets PDF Index PDF Index Bill of Materials Bill of Materials

custom bom file.doc custom bom file.doc

Schedules Schedules schedules.doc schedules.doc Custom Files Custom Files custom files.doc custom files.doc Schematic Drawings Schematic Drawings ...2 ...2 ...3 ...3 ...4 ...4 ... ... ...5...5 ...6 ...6 ... ... ...7...7 ...8 ...8 ...9 ...9 ... ... ...10...10 ...11 ...11 ... ... ...12...12 ...14 ...14 ... ... ....15....15 ...16 ...16 ... ... ...17...17 ...19 ...19 ... ... ...20...20 ...21 ...21 ... ... ...22...22 ...24 ...24 ... ... ..25..25 ...26 ...26 ... ... ...27...27 ...29 ...29 ...30 ...30 ...63 ...63 ...64 ...64 ...65 ...65 ...66 ...66

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Index

Main Index Main Index Notes Notes Submittal Description Submittal Description Systems Systems

System: A-001 - EXHAUST FAN ON OFF System: A-001 - EXHAUST FAN ON OFF

Exhaust Fan - Visio Drawing Exhaust Fan - Visio Drawing

Exhaust Fan - Sequence of Operation Exhaust Fan - Sequence of Operation Exhaust Fan - Points List

Exhaust Fan - Points List 11X17 - 11X17 Document 11X17 - 11X17 Document

System: A-002 - SINGLE BOILER SYSTEM System: A-002 - SINGLE BOILER SYSTEM

Single Boiler - Visio Drawing Single Boiler - Visio Drawing

Single Boiler - Sequence of Operation Single Boiler - Sequence of Operation Single Boiler - Points List

Single Boiler - Points List System: B-003 - FAN COIL UNIT System: B-003 - FAN COIL UNIT

Fan Coil Unit - Visio

Fan Coil Unit - Visio DrawingDrawing Fan Coil Unit - Sequence of

Fan Coil Unit - Sequence of OperationOperation Fan Coil Unit - Points List

Fan Coil Unit - Points List

System: A-004 - VAV BOX TERMINAL UNIT System: A-004 - VAV BOX TERMINAL UNIT

VAV Box - Visio Drawing VAV Box - Visio Drawing

VAV Box - Sequence of Operation VAV Box - Sequence of Operation VAV Box - Points List

VAV Box - Points List System: D-005 - UNIT HEATER System: D-005 - UNIT HEATER Unit Heater - Visio Drawing Unit Heater - Visio Drawing

Unit Heater - Sequence of Operation Unit Heater - Sequence of Operation Unit Heater - Points List

Unit Heater - Points List

PDF Datasheets PDF Datasheets PDF Index PDF Index Bill of Materials Bill of Materials

custom bom file.doc custom bom file.doc

Schedules Schedules schedules.doc schedules.doc Custom Files Custom Files custom files.doc custom files.doc Schematic Drawings Schematic Drawings ...2 ...2 ...3 ...3 ...4 ...4 ... ... ...5...5 ...6 ...6 ... ... ...7...7 ...8 ...8 ...9 ...9 ... ... ...10...10 ...11 ...11 ... ... ...12...12 ...14 ...14 ... ... ....15....15 ...16 ...16 ... ... ...17...17 ...19 ...19 ... ... ...20...20 ...21 ...21 ... ... ...22...22 ...24 ...24 ... ... ..25..25 ...26 ...26 ... ... ...27...27 ...29 ...29 ...30 ...30 ...63 ...63 ...64 ...64 ...65 ...65 ...66 ...66

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Notes

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Data Submittal

ABC Building

We hereby provide submittal information for the above project.

This is where you can enter your own custom Terms and Conditions, Project Details, etc.

Notes:

  

Yours Truly,

ABC Contracting

S-4 of 66

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S A M

P L E

O N

L Y

EA DO – Fan Start/Stop M DI – Fan Status A r c h i t e c t : E n g i n e e r : C o n t r a c t o r : D e s i g n e d b y : S o f t w a r e b y : C h e c k e d b y : J O B N U M B E R D a t e : D a t e : D a t e :

Sys te m : 1 - EXHAUST FAN ON OFF

Field Mounted Application Qty Part Nr Manufacturer Description NN 1 #2002 DWYER MAGNEHELIC0-2INW.C.

CSR-4 FAN STATUS 1 A/SCS-L ACI SPLIT CORE, N/O, "GO/NO GO" CURRENT SWITCH C-4 CONTROLLER 0.2 CTRL-GENERAL-10 SOURCE LARGE CTRLR 10 AI, 10 AO, 10 DO, 10 DI

BLDG STATIC 1 DPL-13-1 SETRA DIFFERENTIAL PRESSURE XMTR 0-±1,10V DM DAMPER ACTUATOR 1 NF24-S BELIMO SR ACT 24V, 60 IN-LB (7NM), ON-OFF, 1 AUX SW.,

R-4 FAN START 1 RE-LED-SPDT-ENCL HONEYWELL SPDT RELAY 10A@115V, LED, 24 VAC/DC, 115VAC, IN ENCL

S-6 of 66

Exhaust Fan - On/Off (typical of 1)

Run Conditions - Interlocked:

The exhaust fan shall be interlocked to run whenever Air Handling Unit runs unless

shutdown on safeties.

Fan:

The fan has a user adjustable minimum runtime.

Fan Status:

The controller monitors the fan status.

Alarms are provided as follows:



Fan Failure: Commanded on, but the status is off.



Fan in Hand: Commanded off, but the status is on.

(8)

Exhaust Fan - On/Off (typical of 1)

Run Conditions - Interlocked:

The exhaust fan shall be interlocked to run whenever Air Handling Unit runs unless

shutdown on safeties.

Fan:

The fan has a user adjustable minimum runtime.

Fan Status:

The controller monitors the fan status.

Alarms are provided as follows:



Fan Failure: Commanded on, but the status is off.



Fan in Hand: Commanded off, but the status is on.

(9)

Exhaust Fan Points

P o i n t

N a m

e

A I

A O

D I

D O

Fan

Status

×

an

Start/S

top

×

T o t a l

0

1

1 H a r d w a r e P o i n t s

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S A M

P L E

O N

L Y

A r c h i t e c t : E n g i n e e r : C o n t r a c t o r : D e s i g n e d b y : S o f t w a r e b y : C h e c k e d b y : J O B N U M B E R D a t e : D a t e : D a t e :

Syste m: 1 - EXHAUST FAN ON OFF

Field Mounted Application Qty Part Nr Manufacturer Description NN 1 #2002 DWYER MAGNEHELIC0-2INW.C.

CSR-4 FAN STATUS 1 A/SCS-L ACI SPLIT CORE, N/O, "GO/NO GO" CURRENT SWITCH C-4 CONTROLLER 0.2 CTRL-GENERAL-10 SOURCE LARGE CTRLR 10 AI, 10 AO, 10 DO, 10 DI

BLDG STATIC 1 DPL-13-1 SETRA DIFFERENTIAL PRESSURE XMTR 0-±1,10V DM DA MPER ACTUATOR 1 NF24-S BELIMO SR ACT 24V, 60 IN-LB (7NM), ON-OFF, 1 AUX SW., R-4 FA N STA RT 1 RE-LED-SPDT-ENCL HONEY WELL SPDT RELA Y 10A @115V , LED, 24 VA C/DC, 115V AC, IN ENCL

EA

DO – Fan Start/Stop M DI – Fan Status

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SYSTEM: A-002 - SINGLE BOILER SYSTEM

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S A M

P L E

O N

L Y

HWS Boile r DI – Boiler Enable DI – Boiler Status T

AI - Primary Hot Water Return Temp AI - Primary Hot Water Supply Temp

M Start

er

DO – Circulation Pump Start/Stop DI – Circulation Pump Status

M Start

er

DI – Hot Water Pump Status DO – Hot Water Pump Start/Stop

DI – Boiler Alarm Status DI – Low Water Level

T HW R A r c h i t e c t : E n g i n e e r : C o n t r a c t o r : D e s i g n e d b y : S o f t w a r e b y : C h e c k e d b y : J O B N U M B E R D a t e : D a t e : D a t e :

Syste m : 2 - SINGLE BOILER SYSTEM Field Mounted

CS-1 PUMP STATUS 2 CS-8-PROP VERIS ANA. CURR SNSR SPLIT CORE SELF-PWRD 3-60 A; 0-5 VDC OUT C-1 CONTROLLER 1 CTRL-GENERAL-10 SOURCE LARGE CTRLR 10 AI, 10 AO, 10 DO, 10 DI

DP-1 PRESSURE 1 M230-050PD-C SETRA DIFFERENTIAL PRESSURE TRANSMITTER 0-50PSI 4-20 MA

R-2 STATUS 6 RE-ENCL-120-3PDT HONEYWELL ENCLOSED PLUG-IN 3 PDT RELA Y - 120 COIL WITH INDICATOR LIGHT R-1 START 3 RE-LED-SPDT-ENCL HONEYWELL SPDT RELAY 10A@115V, LED, 24 VAC/DC, 115VAC, IN ENCL TS-1 OUTSIDE TEMP 1 TSR-OAT SOURCE RTD OUTSIDE SENSOR (-40~212F)

TS-2 HW TEMP 2 TT809PW055P1BI1 MINCO IMMERSION T-XMITR 4/20MA,30/130F V-1 VALVE 1 VEM-GL080-2-SR SOURCE 3-W 3" GLOBE 250# 24V SR 2POS CV=91.0

XFMR-1 1 XFR-050 120/24 SOURCE TRANSFORMER 50 VA, 120V/24V, UL & CSA, CLASS 2

S-11 of 66

Single Boiler System

Boiler System Run Conditions:

The boiler system is enabled to run whenever:



A definable number of hot water coils need heating.



AND outside air temperature is less than 65°F (adj.).

To prevent short cycling, the boiler system runs for and be off for minimum adjustable

times (both user definable), unless shutdown on safeties or outside air conditions.

(13)

Single Boiler System

Boiler System Run Conditions:

The boiler system is enabled to run whenever:



A definable number of hot water coils need heating.



AND outside air temperature is less than 65°F (adj.).

To prevent short cycling, the boiler system runs for and be off for minimum adjustable

times (both user definable), unless shutdown on safeties or outside air conditions.

The boiler runs subject to its own internal safeties and controls.

The boiler system also runs for freeze protection whenever outside air temperature is less

than 38°F (adj.).

Boiler Safeties:

The following safeties are monitored:



Boiler alarm.



Low Water Level.

Alarms are provided as follows:



Boiler alarm.



Low Water Level alarm.

Hot Water Pump:

The hot water pump runs anytime the boiler is called to run and has a user adjustable

delay on stop.

Alarms are provided as follows:



Hot Water Pump Failure: Commanded on, but the status is off.



Hot Water Pump Running in Hand: Commanded off, but the status is on.



Hot Water Pump Runtime Exceeded: Status runtime exceeds a user definable

limit.

Circulation Pump:

The circulation pump runs anytime the boiler is called to run and has a user definable

(adj.) delay on stop.

Alarms are provided as follows:



Circulation Pump Failure: Commanded on, but the status is off.



Circulation Pump Running in Hand: Commanded off, but the status is on.

(14)



Circulation Pump Runtime Exceeded: Status runtime exceeds a user definable

limit.

Boiler Enable:

The boiler is enabled when the boiler system is commanded on. The boiler is

enabled after pump status is proven on and runs subject to its own internal safeties and

controls.

Alarms are provided as follows:



Boiler Failure: Commanded on, but the status is off.



Boiler Running in Hand: Commanded off, but the status is on.



Boiler Runtime Exceeded: Status runtime exceeds a user definable limit.

Hot Water Supply Temperature Setpoint:

The boiler maintains a hot water supply temperature setpoint as determined by its own

internal controls (provided by others).

Primary Hot Water Temperature Monitoring:

The following temperatures are monitored:



Primary hot water supply.



Primary hot water return.

Alarms are provided as follows:



High Primary Hot Water Supply Temp: If greater than 200°F (adj.).



Low Primary Hot Water Supply Temp: If less than 100°F (adj.).

(15)

Single Boiler System Points

P o i n t N a m e A I A O D I D O

r mary o

Water

Return

Temp

×

r mary o

Water

Supply

Temp

×

o er

Alarm

Status

×

Low Water

Level

×

o

a er

Pump

Status

×

Circu ation

Pump

Status

×

Boi er

Status

×

o

a er

Pump

Start/Stop

×

Circu ation

Pump

Start/Stop

×

Boi er

Enable

×

To t a l 2 0 5 3 H a r d w a r e P o i n t s

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S A M

P L E

O N

L Y

T AI - Zone Temp

AI - Zone Setpoint Adjust DI – Zone Override RA DA DO – Fan Start/Stop DO – Fan Status M AO - Heating Valve AO - Cooling Valve DI – Smoke Detect HWS HWR M CHWR CHWS M H W CH W A r c h i t e c t : E n g i n e e r : C o n t r a c t o r : D e s i g n e d b y : S o f t w a r e b y : C h e c k e d b y : J O B N U M B E R D a t e : D a t e : D a t e :

System: 3 - FAN COIL UNIT Typical: 5 Systems Field Mounted

CSR-3 FAN STATUS 5 A /SCS-L ACI SPLIT CORE, N/O, "GO/NO GO" CURRENT SWITCH PTE-3 FILTER PD 5 DPL-16-5 SETRA DIFFERENTIAL PRESSURE XMTR 0-±10,5V TS-3 ROOM SENSOR FOR RH 5 LON-TS-RM-OV R SOURCE LON ROOM TEMP W/OVRD

FCU V A LV E 5 Z ONE3 25 N- 80+Z ONE1 2 BEL IMO US Z ONE V A LV E A SS' Y , 3- WA Y DIV , 1 IN. , CV = 8. 0 + A CT, 12 0 V A C, ON/ OFF, 6 .5 V A

Panel Mounted

C-3 FCU CONTROLLER 5 CTRL-APS-FCU SOURCE APPLIC CTRLR, FAN COIL MODEL

XFR-3 FCU TRANSFORMER 5 XFR-050 120/24 SOURCE TRANSFORMER 50 V A, 120V/24V, UL & CSA, CLASS 2

S-16 of 66

Fan Coil Unit

Run Conditions - Scheduled:

The unit runs according to a user definable time schedule in the following modes:



Occupied Mode: The unit maintains

o

A 74°F (adj.) cooling setpoint

o

A 70°F (adj.) heating setpoint.



Unoccupied Mode (night setback): The unit maintains

o

A 85°F (adj.) cooling setpoint.

o

A 55°F (adj.) heating setpoint.

Alarms are provided as follows:



High Zone Temp: If the zone temperature is greater than the cooling setpoint by a

user definable amount (adj.).

(18)

Fan Coil Unit

Run Conditions - Scheduled:

The unit runs according to a user definable time schedule in the following modes:



Occupied Mode: The unit maintains

o

A 74°F (adj.) cooling setpoint

o

A 70°F (adj.) heating setpoint.



Unoccupied Mode (night setback): The unit maintains

o

A 85°F (adj.) cooling setpoint.

o

A 55°F (adj.) heating setpoint.

Alarms are provided as follows:



High Zone Temp: If the zone temperature is greater than the cooling setpoint by a

user definable amount (adj.).



Low Zone Temp: If the zone temperature is less than the heating setpoint by a

user definable amount (adj.).

Demand Limiting - Zone Setpoint Optimization:

To lower power consumption, the zone setpoints automatically relax when the facility

power consumption exceeds user definable thresholds. The amount of relaxation is

individually configurable for each zone. The zone setpoints automatically return to their

previous settings when the facility power consumption drops below the thresholds.

Zone Setpoint Adjust:

The occupant is able to adjust the zone temperature heating and cooling setpoints at the

zone sensor.

Zone Optimal Start:

The unit uses an optimal start algorithm for morning start-up. This algorithm minimizes

the unoccupied warm-up or cool-down period while still achieving comfort conditions by

the start of scheduled occupied period.

Zone Unoccupied Override:

A timed local override control allows an occupant to override the schedule and place the

unit into an occupied mode for an adjustable period of time. At the expiration of this

time, control of the unit automatically returns to the schedule.

Smoke Detection:

The unit shuts down and generates an alarm upon receiving a smoke detector status.

Fan:

(19)

Cooling Coil Valve:

The controller measures the zone temperature and modulates the cooling coil valve to

maintain its cooling setpoint.

The cooling is enabled whenever:



Outside air temperature is greater than 60°F (adj.).



AND the zone temperature is above cooling setpoint.



AND the fan is on.

The cooling coil valve opens whenever the freezestat senses a low temp condition.

Heating Coil Valve:

The controller measures the zone temperature and modulates the heating coil valve to

maintain its heating setpoint.

The heating is enabled whenever:



Outside air temperature is less than 65°F (adj.).



AND the zone temperature is below heating setpoint.



AND the fan is on.

The heating coil valve opens whenever the freezestat senses a low temp condition.

Fan Status:

The controller monitors the fan status.

Alarms are provided as follows:



Fan Failure: Commanded on, but the status is off.



Fan in Hand: Commanded off, but the status is on.



Fan Runtime Exceeded: Fan status runtime exceeds a user definable limit (adj.).

(20)

Fan Coil Unit Points P o i n t N a m e A I A O D I D O

Zone Temp

×

one

Setpoint

Adjust

×

Coo ing

Valve

×

Heating

Valve

×

one

Override

×

Smo e

Detector

×

Fan

Status

×

Fan

Start/Stop

×

(21)

SYSTEM: A-004 - VAV BOX TERMINAL UNIT

(22)

T AI - Zone Temp AI - Zone Setpoint Adjust

DI – Zone Override DA SA AO - Zone Damper M AI - Airflow A r c h i t e c t : E n g i n e e r : C o n t r a c t o r : D e s i g n e d b y : S o f t w a r e b y : C h e c k e d b y : J O B N U M B E R D a t e : D a t e : D a t e :

S A M

P L E

O N

L Y

System : 4 - VAV BOX TERMINAL UNIT Typical: 15 Systems Field Mounted

C-2 V AV BOX CONTROLLER 15 CTRL-A PS- VA V SOURCE A PPLICA TION SPECIFIC CTRLR. CLG ONLY W/ A CT., V AV MODEL TS-2 ROOM TEMP 15 LON-TS-RM SOURCE LON ROOM TEMP SENSOR

PRS-2 PICKUP 15 PSS-01 SOURCE STATIC PRESSURE SENSOR, 4" ALUM. PROBE, 1/4 BARB XFR-2 TRANSFORMER 15 XFR-050 120/24 SOURCE TRANSFORMER 50 VA, 120V/24V, UL & CSA, CLASS 2

S-21 of 66

Variable Air Volume - Terminal Unit

Run Conditions - Scheduled:

The unit runs according to a user definable time schedule in the following modes:



Occupied Mode: The unit maintains

o

A 74°F (adj.) cooling setpoint

o

A 70°F (adj.) heating setpoint.



Unoccupied Mode (night setback): The unit maintains

(23)

Variable Air Volume - Terminal Unit

Run Conditions - Scheduled:

The unit runs according to a user definable time schedule in the following modes:



Occupied Mode: The unit maintains

o

A 74°F (adj.) cooling setpoint

o

A 70°F (adj.) heating setpoint.



Unoccupied Mode (night setback): The unit maintains

o

A 85°F (adj.) cooling setpoint.

o

A 55°F (adj.) heating setpoint.

Alarms are provided as follows:



High Zone Temp: If the zone temperature is greater than the cooling setpoint by a

user definable amount (adj.).



Low Zone Temp: If the zone temperature is less than the heating setpoint by a

user definable amount (adj.).

Demand Limiting - Zone Setpoint Optimization:

To lower power consumption, the zone setpoints automatically relaxes when the facility

power consumption exceeds definable thresholds. The amount of relaxation is

individually configurable for each zone. The zone setpoints automatically return to their

previous settings when the facility power consumption drops below the thresholds.

Zone Setpoint Adjust:

The occupant is able to adjust the zone temperature heating and cooling setpoints at the

zone sensor.

Zone Optimal Start:

The unit uses an optimal start algorithm for morning start-up. This algorithm minimizes

the unoccupied warm-up or cool-down period while still achieving comfort conditions by

the start of scheduled occupied period.

Zone Unoccupied Override:

A timed local override control allows an occupant to override the schedule and places the

unit into an occupied mode for an adjustable period of time. At the expiration of this

time, control of the unit automatically returns to the schedule.

Reversing Variable Volume Terminal Unit - Flow Control:

The unit maintains zone setpoints by controlling the airflow through one of the following:

Occupied:

(24)



When zone temperature is greater than its cooling setpoint, the zone damper

modulates between the minimum occupied airflow (adj.) and the maximum

cooling airflow (adj.) until the zone is satisfied.



When the zone temperature is between the cooling setpoint and the heating

setpoint, the zone damper maintains the minimum required zone ventilation (adj.).



When zone temperature is less than its heating setpoint, the controller enables

heating to maintain the zone temperature at its heating setpoint. Additionally, if

warm air is available from the AHU, the zone damper modulates between the

minimum occupied airflow (adj.) and the maximum heating airflow (adj.) until

the zone is satisfied.

Unoccupied:



When the zone is unoccupied the zone damper controls to its minimum

unoccupied airflow (adj.).



When the zone temperature is greater than its cooling setpoint, the zone damper

modulates between the minimum unoccupied airflow (adj.) and the maximum

cooling airflow (adj.) until the zone is satisfied.



When zone temperature is less than its unoccupied heating setpoint, the controller

enables heating to maintain the zone temperature at the setpoint. Additionally, if

warm air is available from the AHU, the zone damper modulates between the

minimum unoccupied airflow (adj.) and the auxiliary heating airflow (adj.) until

the zone is satisfied.

(25)

VAV Terminal Box VAV Terminal Box

P o i n t P o i n t N N aa m m e e AA I I AA O O DD I I DD OO

Zone

T

Te

em

mp

p

×

one

Setpoint

A

Ad

djju

us

stt

×

A

Aiirrffllo

ow

w

×

Zone

D

Da

am

mp

pe

err

×

Zone

O

Ov

ve

errrriid

de

e

×

T Too tt aa ll 33 11 11 00 H a r d w H a r d w a r e P o i n ta r e P o i n t ss

S-24 of 66

(26)

SYSTEM: D-005 - UNIT HEATER

(27)

S

A

M

P

L

E

O

N

L

Y

A A r r c c h h i i t t e e c c t t : : E E n n g g i i n n e e e e

r r : : C C o o n n t t r r a a c c t t o o r r : : D D e e s s i i g g n n e e d d b b y y : : S S o o f f t t w w a a r r e e b b y y : : C C h h e e c c k k e e d d b b y y : : J J O O B B N N U U M M B B E E R R D D a a t t e e : : D D a a t t e e : : D D a a t t e e : : T

T AI -AI - Zone TeZone Tempmp AI

-AI - Zone SetpZone Setpoint Adjustoint Adjust DI – Zone Override DI – Zone Override M M DI – Fan Status DI – Fan Status DO – Fan Low Speed DO – Fan Low Speed DO – Fan High Speed DO – Fan High Speed

T T AI

-AI - DischaDischarge Air Temprge Air Temp

AO

-AO - Heating VaHeating Valvelve

H HWWRR HHWWSS M M DA DA HW HW Syste

Syste m: 5 - UNIT HEATEm: 5 - UNIT HEATERR Fi

Field Mounteeld Mounte dd

V

V--55 HHTTG G VVAALLVVEE 11 BB221122BB//TTRR2244--33--TT BEBELLIIMMOO 22WW, , 11//22, , CCVV==33..00, , NNSSRR, , FFLLOOAATT.. R

R- 5- 5 FFA N A N SSTTAATTUUSS 11 RREE--EENNCCLL--112200--33PPDDTT HHOONNEEY WY WEELLLL EENNCCLLOOSSEED D PPLLUUGG- I- IN N 3 3 PPDDT T RREELLA Y A Y - - 11220 0 CCOOIIL L WWIITTH H IINNDDIICCA TA TOOR R LLIIGGHHTT R

R--66 FFAAN N SSTTAARRTT 11 RREE--LLEEDD--SSPPDDTT--EENNCCLL HHOONNEEYYWWEELLLL SSPPDDT T RREELLAAY Y 1100AA@@111155VV, , LLEEDD, , 224 4 VVAACC//DDCC, , 111155VVAACC, , IIN N EENNCCLL X

XFFRR--55 TTRRAANNSSFFOORRMMEERR 11 XXFFRR--00220 0 112200//2244 SSOOUURRCCEE TTRRAANNSSFFOORRMMEER R 220 0 VVAA, , 112200VV//2244VV, , CCLLAASSS S 22, , UULL

S-26 of 66 S-26 of 66

Unit Heater

Run Conditions - Scheduled:

The unit runs according to a user definable time schedule in the following modes:



Occupied Mode: The unit maintains a heating setpoint of 70°F (adj.).



Unoccupied Mode (night setback): The unit maintains a heating setpoint of 65°F

(adj.).

Alarms are provided as follows:



Low Zone Temp: If the zone temperature is less than the heating setpoint by a

user definable amount (adj.).

Demand Limiting - Zone Setpoint Optimization:

To lower power consumption, the zone setpoints automatically relaxes when the facility

power consumption exceeds definable thresholds. The amount of relaxation can be

(28)

Unit Heater

Run Conditions - Scheduled:

The unit runs according to a user definable time schedule in the following modes:



Occupied Mode: The unit maintains a heating setpoint of 70°F (adj.).



Unoccupied Mode (night setback): The unit maintains a heating setpoint of 65°F

(adj.).

Alarms are provided as follows:



Low Zone Temp: If the zone temperature is less than the heating setpoint by a

user definable amount (adj.).

Demand Limiting - Zone Setpoint Optimization:

To lower power consumption, the zone setpoints automatically relaxes when the facility

power consumption exceeds definable thresholds. The amount of relaxation can be

individually configurable for each zone. The zone setpoints automatically return to their

previous settings when the facility power consumption drops below the thresholds.

Zone Setpoint Adjust:

The occupant is able to adjust the zone temperature heating and cooling setpoints at the

zone sensor.

Zone Optimal Start:

The unit uses an optimal start algorithm for morning start-up. This algorithm minimizes

the unoccupied warm-up or cool-down period while still achieving comfort conditions by

the start of scheduled occupied period.

Zone Unoccupied Override:

A timed local override control allows an occupant to override the schedule and places the

unit into an occupied mode for an adjustable period of time. At the expiration of this

time, control of the unit automatically returns to the schedule.

Fan:

The fan runs anytime the zone temperature is below heating setpoint, unless shutdown on

safeties. The fan speeds are be indexed as follows:



Low speed shall run anytime the zone temperature drops below setpoint.



High speed shall run anytime the zone temperature drops further below setpoint

by a user definable amount (adj.).

Heating Coil Valve:

(29)

The heating is enabled whenever:



Outside air temperature is less than 65°F (adj.).



AND the zone temperature is below heating setpoint.



AND the fan is on.

Discharge Air Temperature:

The controller monitors the discharge air temperature.

Alarms are provided as follows:



High Discharge Air Temp: If the discharge air temperature is greater than 120°F

(adj.).



Low Discharge Air Temp: If the discharge air temperature is less than 40°F (adj.).

Fan Status:

The controller monitors the fan status.

Alarms are provided as follows:



Fan Failure: Commanded on, but the status is off.



Fan in Hand: Commanded off, but the status is on.



Fan Runtime Exceeded: Fan status runtime exceeds a user definable limit (adj.).

(30)

Unit Heater Points P o i n t N a m e A I A O D I D O

Zone

Temp

×

one

Setpoint

Adjust

×

Disc arge

Air Temp

×

Heating

Valve

×

Zone

Override

×

Fan

Status

×

Fan Low

Speed

×

Fan Hig

Speed

×

(31)

PDF Index

Manufacturer PartNumber Description Page

ACI a/scs-l SPLITCORE,N/O,"GO/NOGO"CURRENTSWITCH ....1

BELIMO b212b/tr24-3-t 2W,1/2,CV=3.0,NSR,FLOAT. ....4

BELIMO nf24-s SRACT24V,60IN-LB(7NM),ON-OFF,1AUXSW., ....7

B EL IM O U S z on e3 25 n-8 0+z on e1 20 nc -s Z ON E V AL VE A SS 'Y , 3 -WA Y D IV, 1 I N. , C V= 8 .0 + A CT , 1 20 V AC , . .. .9

SETRA m230-050pd-c DIFFERENTIAL PRESSURE TRANSMITTER 0-50PSI 4-20 MA ....29

VERIS cs-8-prop ANA. CURR SNSR SPLIT CORE SELF-PWRD 3-60 A; 0-5 VDC OUT ....31

(32)

Installation and Operation Instructions

Part # A/SCS, A/SCS-L, A/SCSX

ACI

_{Automation Components, Inc.}

Please Read Instructions Carefully Before Installation!



Safety

This product is not intended to be used for Life or Safety applications.

This product is not intended for use in any hazardous or classified locations.

Disconnect and lock out all power sources before installation as severe injury or death may result from electrical

shock due to contact with high voltage wires.



Installation

Make sure that all installations are in compliance with all national and local electrical codes. Only qualified individuals that are

familiar with codes, standards, and proper safety procedures for high-voltage installations should attempt installation. The current

switches will not require external power, since the power for the current switch is induced from the conductor being monitored.

Warning: Never rely on the Red LED to determine whether power is present at the current switch. The Red LED will

indicate whether the current is above (LED On) or below (LED OFF) the fixed trip point.

The A/SCS Series Current Switches should be used on Insulated Conductors Only! The current switch may be mounted in any

position using the (2) #8 x 3/4” Tek screws and the mounting holes in the base or snapped directly on to the 35mm DIN rail (See

Figures 1 & 2 below). Leave a minimum distance of 1” (3 cm) between the current

switch and any other magnetic devices such as contactors and transformers.

3X

A u t o m a t i o n C o m p o n e n t s , I n c . U S C L I S T E D I N D . C O N T . E Q . 3 J H X A / S C S A C I M i d d l e t o n , W I

3X

M i d d l e t o n , W I A / S C S A C I

A u t o m i o a t n C o m p o n e n t s , I n c . 3 J H X I N D . C O N T . E Q . U S C I S TL E D

Figure 1: Sensor Placed on Rail

Figure 2: Sensor Removed from Rail



Latch Operation:

Pressing down on the two (2) side tabs and swinging the cover open opens the split core current switch as shown in Figure 3 below.

Lifting up on the latch with a flat-tip screwdriver as shown in Figure 4 below can also open the unit. Press down firmly on the

cover to close the current switch. An audible “click” will be heard as the tab slides over the tongue on the base.

Caution: Mating surfaces of the magnetic core are exposed when the sensor is open. Silicone grease, present on the cores to

prevent rust, can capture grit and dirt if care is not exercised. Operation can be impaired if anything prevents good

contact between pole pieces. Visually check the mating parts of the core b efore closing the current sensor.

3 J H X U S L I S T E D I N D . C O N T . E Q .

C c . n I s , t n e n o m p C o n o i t a t A m o u

A C I M i d d l e t o n , W I A / S C S U S C A / S C S M i d d l e t o n , W I A C I A u t o m a t i o n C o m p o n e n t s , I n c . 3 J H X I N D . C O N T . E Q . L I S T E D C U S L I S T E D I N D . C O N T . E Q . 3 J H X

!

(33)

2305 Pleasant View Rd.



Middleton Industrial Park



Middleton, WI 53562

PH: (608) 831-2585

FAX (608) 831-7407

File Name: I0000137 Rev 6.Doc Page 2 of 3

For applications in which the normal operating current is below the 2.5A trip point (See Figure 5 below ), the conductor being

monitored may be looped through the sensor 10 times giving you a total operating current of 10X the original current.

Example: A small fan operating at 0 .2A should be wrapped through the sensor 15 times to give you a total operating current of

3.0 Amps flowing through the A/SCS or another option is to use the A/SCS-L.

ACI A/SCS

Automation Components, Inc. Middleton, WI LISTED 3JHX IND.CONT.EQ. C US Middleton, WI IND.C ONT.EQ. LISTED C 3JHX US ACI

Automation Components, Inc. A/SCS

Figure 5: Wire Through Sensors

For applications in which the normal operating current is greater than 0 to 200 or 0 to 250 ( see operating specifications below.)

Amps or for conductor diameters larger than 0.750”(1.90 cm) in diameter, an external 5 Amp Current Transformer must be used

as shown in Figure 6 below.

Remember that the secondary of the 5A CT must be shorted together before the power m ay be turned onto the monitored device.

Example: For currents up to 600 Amps (and not below 70 Amps, where Current Transformer (C.T.) secondary falls down to 1 Amp) use a 600:5 ratio C.T. as shown:

600:5 Ratio 5A C.T. Nut Wire I _n s u l a t e _d C o n _d u c _t o r

Figure 6: Current Transformer

Wiring

ACI recommends the use of a 2 conductor 16 to 22 AWG shielded cable or twisted pair copper wire only for all current switch

applications. A maximum wire length of less than 30 meters (98.4 feet) should be used between the A/CS Series current switches

and the Building Management System or controller. Note: When using a shielded cable, be sure to connect only (1) end of the

shield to ground at the controller. Connecting both ends of the shield to ground may cause a ground loop.

When removing the

shield from the sensor end, make sure to properly trim the shield so as to prevent any chance of shorting. The current switch output

terminals represent a solid-state switch for controlling both AC and DC loads and is not polarity sensitive. The recommended

torque to be used on the terminal block connections is 0.67 Nm or 5.93 in-lbs. The aperture (hole) size of the current switch is

0.75” (1.90 cm) and will accept a maximum cable diameter of 350 MCM’s.

Operating Specifications

ACI Model # Fixed Trip

Point

Output Switch Rating Max. Sensing

Current Voltage

Max. Continuous Current

Max. Current for 6 seconds

Max. Current for 1 second

A/SCS 2.50 Amps 0.30Amps @ 200VAC/VDC 600 VAC 200 Amps 400 Amps 800 Amps

A/SCS-L 1.50 Amps 0.30Amps @ 200VAC/VDC 600 VAC 200 Amps 400 Amps 800 Amps

A/SCSX 2.50 Amps 0.15Amps @ 300VAC/VDC 600 VAC 250 Amps 400 Amps 800 Amps

pdf 2 of 32

(34)

See Figure 7 and Figure 8 for two different current switch applications using your Building Management System (DDC/PLC

Controller). Figure 7 is showing the use of the Go/No Go Current Switch as a Digital Input to your DDC Controller, whereas

Figure 8

is showing you how to use the Go/No/Go Current Switch in conjunction with your building management system to

control a fan or pump for example.

.

(Status) System Digital Input #1 Building Management 24 VAC 120 VAC Line Transformer

(Relay Coil or Contactor) DO DI DDC Controller 24 VAC Coil Relay / Contactor

Figure 7: Digital Circuit

Figure 8: Analog Circuit

Troubleshooting

Problem

Solution

LED is on but the current switch didn’t activate

Disconnect the wires from the current switch output. Measure the resistance

across the contacts with an Ohmmeter. See Figure 9 below for the actual

resistance readings for an open or closed switch reading.

LED didn’t turn on and the current switch didn’t

activate

Verify that the current flowing in the conductor being monitored is above the

fixed trip point as listed in the operating specifications. If the sensor is

monitoring less than the fixed trip point See Figure 5 on Page 2.

LED not on but the Current Switch is Activated

LED not indicating correctly, may have been damaged

ACI Model # Resistance if switch open Resistance if switch closed

A/SCS

Greater than 1 Meg ohms

Approximately 2 ohms

A/SCS-L

Greater than 1 Meg ohms

Approximately 2 ohms

A/SCSX

Greater than 1 Meg ohms

Approximately 12 ohms

A/SCSX-L

Greater than 1 Meg ohms

Approximately 12 ohms

Figure 9



WEEE Directive

At the end of their useful life the packaging and product should be disposed of via a suitable recycling centre. Do not dispose of

with household waste. Do not burn.

LISTED

C US

IND.CONT.EQ. 3JHX

(35)

800-543-9038 USA 866-805-7089 CAnAdA 203-791-8396 LAtin AmeriCA

8 B2 Series, 2-Way, Characterized Control Valve

Chrome Plated Brass Ball and Brass Stem

tehl D

Svc chll o ho wa, 60% glycol

Flow chaacsc A-po qual pcag

Aco 90° oao

Szs ½”,¾”

typ o  g nPt al s

maals: Boy Ball S Sas Chaaczg sc Packg

og bass, ckl pla cho pla bass ckl pla bass PtFe

tzl®

2 ePdm O-gs, lubca

Pssu ag 600 ps

ma p. ag 0°F o 212°F [-18°C o 100°C]

Clos o pssu 200 ps

maxu al pssu (∆P)

30 ps o ypcal applcaos

Lakag 0% o A o AB

Cvag A-po: s pouc cha o valus

tzl®_{s a gs aak o duPo}

Dmeo 2 W a y V a l v e - B 2 0 7 - B 2 2 0

Vlve noml sze Dmeo (ihe [mm])

Vlve Body ihe Dn [mm] a B

B207B-B211B ½” 15 2.41” [61.1] 1.39” [35.2]

B212B-B215B ½” 15 2.38” [60.4] 1.72” [43.7]

B217B-B220B ¾” 20 2.73” [69.3] 1.81” [45.9]

Flow Pe

applo

ths valv s ypcally us  a halg us o hag o coolg cols, a a col u hag o coolg cols. So oh coo applcaos clu U Vlaos, VAV box -ha cols a bypass loops. ths valv s suabl o us  a hyoc sys wh vaabl fow.

Vlve noml sze type suble reu auo

cv ihe Dn [mm] 2-wy nPt no-spg spg

0.3 ½ 15 B207B t r s e  i e  l r s e  i e  t F s e  i e  l F s e  i e  0.46 ½ 15 B208B 0.8 ½ 15 B209B 1.2 ½ 15 B210B 1.9 ½ 15 B211B 3 ½ 15 B212B 4.7 ½ 15 B213B 7.4 ½ 15 B214B 10 ½ 15 B215B* 4.7 ¾ 20 B217B 7.4 ¾ 20 B218B 10 ¾ 20 B219B 24 ¾ 20 B220B*

*mols whou chaaczg sc

pdf 4 of 32

S-34 of 66

(36)

TR24-3 Actuators, On-Off, Floating Point

model

tr24-3-t us

tr24-3 US tr24-3-t US wh 3 f plu a cabl

tr24-3/300 US tr24-3-t US wh 10 f plu a cabl

tr24-3/500 US tr24-3-t US wh 16 f plu a cabl

tehl D

Cool O/Off, Floag Po

noal volag 24 VAC 50/60 Hz

noal volag ag 19.2…28.8 VAC

Pow cosupo 1 W

tasfo szg 1VA (class 2 pow souc)

elccal coco scw als accssbl af oval of

sall cov (3 f, 10 f, 16 f cabls opoal)

ipu pac .36 kΩ

Agl of oao 90°

Poso cao ga o hal

maual ov push ow hal

rug  90 scos @ 60 hz, 108 scos @ 50 hz

Huy 5 o 95% o-cosg

Ab pau -22°F o 122°F (-30°C o 50°C)

Soag pa u -40°F o 176°F (-40°C o 80°C)

Housg nemA 1/iP40

Housg ag UL94-5V(B)

Agcy lsg† cULus acc. o UL60730-1A/-2-14,

CAn/CSA e60730-1, CSA C22.2 no. 24-93, Ce acc. o 89/336/eeC

nos lvl max. 35 b (A)

Qualy saa iSO 9001

† ra puls volag 330V, Cool polluo g 2, typ of aco 1

Deo wh 2-Wy Vlve

A 2.50 [63.5] 3.25 [82.6] B 2.82 [71.6] D 0 6 9

Vlve nol sze Deo (ihe [])

Vlve Body ihe Dn [] a B

B207(B)-B211(B) ½” 15 2.41” [61.1] 1.39” [35.2]

B212(B)-B215(B) ½” 15 2.38” [60.4] 1.72” [43.7]

B217(B)-B220(B) ¾” 20 2.73” [69.3] 1.81” [45.9]

Deo wh 3-Wy Vlve

A 2.50 [63.5] 3.25 [82.6] B 2.82 [71.6] C D 0 7 2

Vlve nol sze Deo (ihe [])

Vlve Body ihe Dn [] a B c

B307(B)-B311(B) ½” 15 2.41” [61.1] 1.39” [35.2] 1.20” [30.6] B312(B)-B315(B) ½” 15 2.38” [60.4] 1.72” [43.7] 1.26” [32.1] B317(B)-B320(B) ¾” 20 2.73” [69.3] 1.81” [45.9] 1.45” [36.8] K 2 0 9 0 3 - 0 4 / 0 8 - S u b j e c t t o c h a n g e . © B e l  m o A  r c o n t r o l s ( U S A ) , i n c .

(37)

800-543-9038 USA 866-805-7089 CAnAdA 203-791-8396 LAtin AmeriCA

15

Wiring Diagram

2

th coo coco o h acuao us b_{coc o h H o coco o h cooll.}

3

Acuaos wh plu a cabl o o hav ubs o ws;_{us colo cos sa.}

4

th acuao Ho us b coc o h cool boa Ho.

WARNING

Live Electrical Components!

dug sallao, sg, svcg a oublshoog o hs pouc,  ay b cssay o wok wh lv lccal copos. Hav a qualf lcs lcca o oh vual who has b poply a  halg lv lccal copos po hs asks. Falu o ollow all lccal say pcauos wh xpos o lv lccal copos coul sul  ah o sous juy.

TR24-3 Actuators, On-Off, Floating Point

NOTe: TR24-3(-T) US cannot b wird in paralll with

thmslvs or any othr actuator.

W 1 8 7 Flaing cnrl W 1 8 6 on/off cnrl

yu ma n ue ne wire nrl.

W 2 5 0 tria sink W 2 5 1 tria sure K 2 0 9 0 3 - 0 4 / 0 8 - S u b j e c t t o c h a n g e . © B e l  m o A  r c o n t r o l s ( U S A ) , i n c .

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Torque min. 60 in-lb, for control of air dampers

Application

For On/Off, fail-safe control of dampers in HVAC systems. Actuator sizing should be done in accordance with the damper manufacturer’s specifications. Control is On/Off from an auxiliary contact, or a manual switch.

The actuator is mounted directly to a damper shaft up to 1.05” in diameter by means of its universal clamp. A crank arm and several mounting brackets are available for applications where the actuator cannot be direct coupled to the damper shaft.

Operation

The NF series actuators provide true spring return operation for reliable fail-safe application and positive close off on air tight dampers. The spring return system provides constant torque to the damper with, and without, power applied to the actuator.

The NF series provides 95° of rotation and is provided with a graduated position indicator showing 0° to 95°.

The actuator may be stalled anywhere in its normal rotation without the need of mechanical end switches.

The NF24-S US version is provided with 1 built in auxiliary switch. This SPDT switch is provided for safety interfacing or signaling, for example, for fan start-up. The switching function is adjustable between 5° and 85°.

The NF24-S2 US version is provided with 2 built-in auxiliary switches. These SPDT switches are provided for safety interfacing or signaling, for example, for fan start-up. The switching function at the fail-safe position is fixed at +5°, the other switch function is adjustable between +25° to +85°.

Dimensions (Inches [mm])

1.97" 3 . 1 5 " [ 8 0 ] 3 . 8 6 " [ 9 8 ] 2 . 2 4 " [ 5 7 ] [50] 1 . 9 3 " [ 4 9 ] 2.64" [67] 0.26" [6.5] 5.85" [148.5] 10.47" [266] 0.35" [9] 0.39" [10] 0.65" [16.5] 0.19" [5] K4-2 US(supplied) 1/2" Centered (Default) 3/4" Centered (Field Selectable) 1.05" Centered (Field Selectable) K4-1 US(optional) 3/4" to 1.05" Adjustable K4 US(optional) 3/8" to 3/4" Adjustable 3 . 2 5 " [ 8 2 . 7 ] D 0 1 1

NF24(-S,-S2) US

On/Off, Spring Return Fail-Safe, 24 V

Technical Data

NF24(-S,-S2) US

Power supply 24 VAC ± 20% 50/60 Hz

24 VDC ± 10%

Power consumption running 5 W

holding 2.6 W

Transformer sizing 8 VA (class 2 power source)

Electrical connection 3 ft, 18 GA appliance cable 1/2” conduit connector

Overloa d protec tion Elec troni c throughout 0 to 95° rotat ion Ele ctrical prote ction Auxiliary swit ches are double insulated

Angle of rotation 95°, adjustable 30 to 95° w/ accessories

Torque 60 in-lb [7 Nm] constant torque

Direction of rotat ion rev ers ible with CW/CCW mounting

Position indication visual indicator, 0° to 95°

(0° is spring return position)

Running time motor < 75 sec

spring < 60 sec

Humidity 5 to 95% RH non-condensing

Ambient t emperat ure -22°F t o 122°F [-30°C t o 50°C]

Storage temperature -40°F to 176°F [-40°C to 80°C]

Housing NEMA type 2 / IP54

Housing material zinc coated steel

Agency listings cULus acc. to UL 873 and

CAN/CSA C22.2 No. 24-93

Noise level max. 45 dB (A)

Servicing maintenance free

Quality standard ISO 9001

Weight 6.6 lbs (3.0 kg)

Technical Data NF24 -S2 US

NF24-S US

Auxiliary switch 1 x SPDT 7A (2.5A) @ 250 VAC, UL Approved

adjustable 5° to 85° NF24-S2 US K 2 0 9 0 1 - 0 1 / 0 9 - S u b j e c t t o c h a n g e . © B e l i m o A i r c o n t r o l s ( U S A ) , I n c .

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800-543-9038 USA 866-805-7089 CANADA 203-791-8396 LATIN AMERICA

47 NF24(-S,-S2) US

On/Off, Spring Return Fail-Safe, 24 V

Accessories

AV 10-18 Shaft extension

IND-AF2 Damper position indicator

K4-1 US Univ ers al clamp for up to 1.05” dia jac ksha fts

K4-H Universal clamp for hexshafts 3/8” to 5/8”

KH-AF Crankarm for up to 3/4” round shaft

KH-AF-1 Crankarm for up to 1.05” jackshaft

KH-AFV V-bolt kit for KH-AF and KH-AF-1

Tool-06 8mm and 10 mm wrench

ZG-HTR Thermostat/Heater Kit

ZDB-AF2 US Angle of rot ation li mi ter

ZG-100 Universal mounting bracket

ZG-101 Universal mounting bracket

ZG-102 Multiple actuator mounting bracket

ZG-106 Mounting bracket for Honeywell®_{Mod IV replacement or}

new crankarm type installations

ZG-107 Mounting bracket for Honeywell®_{Mod III or Johnson}®

Series 100 replacement or new crankarm type installations

ZG-108 Mounting bracket for Barber Colman®_{MA 3../4..,}

Honeywell®_{Mod III or IV or Johnson}®_{Series 100}

replacement or new crankarm type installations

ZG-AF US Crankarm adaptor kit for AF/NF

ZG-AF108 Crankarm adaptor kit for AF/NF

ZS-100 Weather shield (metal)

ZS-150 Weather shield (polycarbonate)

ZS-260 Explosion-proof housing

ZS-300 NEMA 4X housing

Note: When using NF24 (-S, -S2) US actuators, only use accessories listed on this page. For Actuator Wiring Information and Diagrams, Please See Belimo Wiring Guide (pg 349).

Typical Specification

On/Off spring return damper actuators shall be direct coupled type which require no crankarm and linkage and be capable of direct mounting to a jackshaft up to a 1.05” diameter. The actuators must be designed so that they may be used for either clockwise or counterclockwise fail-safe operation. Actuators shall be protected from overload at all angles of rotation. If required, 1 or 2 SPDT auxiliary switch shall be provided having the capability of being adjustable. Actuators with auxiliary switches must be constructed to meet the requirements for Double Insulation so an electrical ground is not required to meet agency listings. Actuators shall be UL Approved and CSA certiﬁed, have a 5 year warranty, and be manufactured under ISO 9001 International Quality Control Standards. Actuators shall be as manufactured by Belimo.

Wiring Diagrams

1

Provide overload protection and disconnect as required.

2

CAUTION

Equipment damage!

Actuators may be connected in parallel.

Power consumption and input impedance must be observed.

3

Actuators may also be powered by 24 VDC.

4

For end position indication, interlock control, fan startup, etc., NF24-S_{US incorporates a built-in auxiliary switch: 1 x SPDT, 7A (1.5A) @250} VAC, UL Approved, adjustable 5° to 85°. NF24-S2 US incorporates two built-in auxiliary switches: 2 x SPDT, 7A (2.5A) @250 VAC, UL Approved, one switch is ﬁxed at +5°, one is adjustable 25° to 85°.

Meets cULus requirements without the need of an electrical ground connection.

WARNING

_{Live Electrical Components!}

During installation, testing, servicing and troubleshooting of this product, it maybe necessary to work with live electrical components. Have a qualiﬁed licensed electrician or other individual who has been properly trained in handling live electrical components perform these tasks. Failure to follow all electrical safety precautions when exposed to live electrical components could result in death or serious injury.

1 Common 2 + Hot 1 2 24 VAC Transform er NF24 (-S,-S2) US Line Volts 3 W 0 6 3

On/Off wiring for NF24 US

W 0 6 4_ 0 8

On/Off wiring for NF24-S US

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®

Technical Documentation

Electronic Zone Valves

Effective April 2007

C o r p o r a t i o n , F a r m i n g t o n , M a s s a c h u s e t t s

Control Valve Product Range ...2

Valve/ Actuators

Selection At A Glance ...4

Feature and Benefits ...7

Brass body (1/2” to 1”)

Two-way/Three-way ...8

Installation ...9

Technical Data ...10

Specifications...12

Terms and Conditions ...14

Valve Quotation Form ...18

Platinum Distributors...19

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2

Control Valve Product Range

®

Typical Application

Fan Coil Units: – Heating Coils

– Cooling Coils

Baseboard Radiation

ZONE2…N Series Two-way NPT

ZONE2…S Series Two-way Sweat

ZONE3…N Series Three-way

Diverting NPT

ZONE3…S Series Three-way

Diverting Sweat

Service: Chilled/Hot Water,

50% glycol

Cv Range: 1.0 - 8.0

Material: Brass Body

Control: On/Off

Spring Return 1/2” to 1” Electronic Zone Valves

Typical Application

Air Handling Units: – Heating Coils

– Cooling Coils

Unit Ventilators

VAV Box Re-heat Coils Bypass Loops

For detailed information and submittal data, see Technical Documentation at www.belimo.com or on CD-ROM.

Typical Application

– Cooling Coils

Unit Ventilators

VAV Box Re-heat Coils

Electronic

Characterized Control Valves™

U.S. Patent

B2… Series Two-way

B3… Series Three-way

Mixing/Diverting

B6… Series Two-way Flanged

1/2” to 3”

60% glycol

Cv Range: 0.3-240

Material: Stainless Trim or

Brass Trim

Control: On/Off, Floating, 2-10 VDC

Multi-Function Technology®

Spring Return or Non-Spring Return Electronic Pressure Independent

Characterized Control Valves™

U.S. Patent

PICCV Two-way

1/2” to 2”

60% glycol

Flow Rate: 0.5-80 GPM

Material: Brass Body

Brass/Stainless Trim Control: Floating Multi-Function Technology® Spring Return or Non-Spring Return CCV PICCV

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Control Valve Product Range

Typical Application

Chiller and Cooling Tower Isolation Change-over Systems

Large Air Handler Coil Control Bypass Control Applications

Electronic Butterfly Valves

F6… Series Two-way (HS,HSU) F7… Series Three-way (HS,HSU) Mixing/Diverting F6… SHP Two-way ANSI 150/300 Series F7… SHP Three-way ANSI 150/300 Series Mixing/Diverting B2… Two-way Screwed

VS Series Stainless Steel Trim

B3… Three-way Mixing/

VS Series Diverting Screwed

Stainless Steel Trim

B2… Two-way Screwed

VSS Series Stainless Steel Body

and Trim

B6… Two-way Flanged

VS Series Stainless Steel Trim

2”to30” 1/2”to10”

50% Glycol

Cv Range: 115-73,426

Material: Stainless Shaft

Stainless Disc

Cast Iron, Full Lug Body EPDM Liner

Control: On/Off, Floating,

2-10 VDC On/Off, Floating 2-10 VDC, 1-5 VDC, 4-20mA (NEMA 4 Actuator) Multi-Function Technology® Spring Return or Non-Spring Return

50% Glycol, Steam

Cv Range: 1 to 12,400

Material: Bronze or Stainless Body

Stainless Steel Trim RPTFE Seats

Control: On/Off, Floating,

2-10 VDC On/Off, Floating 2-10 VDC, 1-5 VDC, 4-20mA (NEMA 4 Actuator) Multi-Function Technology® Spring Return or Non-Spring Return Typical Application

– Cooling Coils

Unit Ventilators

VAV Box Re-heat Coils Bypass Loops

G2…(S) Two-way Screwed

Series Bronze or Stainless Trim

G6…C (S) Two-way Flanged ANSI 125

G6…(S) Two-way Flanged ANSI 125

G6…(S)-250 Two-way Flanged ANSI 250

G3…(D) Three-way Screwed

Series Bronze Trim

G7…D (S) Three-way Flanged

Series ANSI 125 Bronze or

Stainless Trim

G7…D (S)-250Three-way Flanged

Series ANSI 250 Bronze or

Stainless Trim

Three-way Valves available in Mixing or Diverting

60% Glycol, Steam

Cv Range: 0.4-344 (Two-way)

2.2-340 (Three-way Mix.) 4.4-248 (Three-way Div.)

Material: Stainless Steel Stem,

Bronze Trim or Stainless Trim

Control: On/Off, Floating, 2-10 VDC

Multi-Function Technology®

Spring Return or Non-Spring Return

1/2” to 6” Electronic Globe Valves

Typical Application Unit Ventilators Humidifiers

Heating and Cooling Coils

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