houle electric limited ·TRANSMITTAL

houle electric limited ·TRANSMITTAL

h o u l e e l e c t r i c l i m i t e d

#19-831 Devonshire Road, Victoria V9A 4T5

TEL: (250) 388-5665 · FAX (250) 388-5811

w w w . h o u l e . c a

To:

Attn:

Address:

·

TRANSMITTAL

·

Windly Contracting Ltd.

Cliff Thompson

Date: March 29, 2006

Page(s):

1

3711 Shenton Road

Project

:

SCHOOL OF MGT CENTRE, MALASPINA

We transmit:

Via Courier

Drawings

Job No.:

Action Required:

For Your Information

3004-0004

Via Mail

Via Fax

Shop Drawings

Correspondence

Other

Via Hand

Copies: Description:

1 Control shop drawings in hard and soft format

Joe LeRoy, P.Eng.

Controls Project Manager/Estimator

HOULE ELECTRIC LIMITED

Review & Comment

Returned As Requested

As Noted

T H E P O W E R I N E L E C T R I C A L C O N T R A C T I N G –

Building Strength Through Successful Partnerships

O P E R A T I N G T H R O U G H O U T W E S T E R N C A N A D A S I N C E 1 9 4 4

C O R P O R A T E H E A D O F F I C E · V A N C O U V E R

B R A N C H O F F I C E S I N · N A N A I M O · P R I N C E G E O R G E · V I C T O R I A

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.7&2.8

Model:

Supplier info:

Name:

Address:

Manufacturer info:

Name:

Address:

Website

Level 1

8

9

6

7

3

4

1

2

5

VAV

VAV-101

VAV-102

VAV-103

VAV-104

VAV-105

VAV-106

VAV-107

VAV-108

VAV-109

Valve

Level 2

10

11

12

13

14

15

16

17

18

VAV

VAV-201

VAV-202

VAV-203

VAV-204

VAV-205

VAV-206

VAV-207

VAV-208

VAV-209

Valve

Level 3

25

26

27

28

29

30

19

20

21

22

23

24

VAV

VAV-301

VAV-302

VAV-303

VAV-304

VAV-305

VAV-306

VAV-307

VAV-308

VAV-309

VAV-310

VAV-311

VAV-312

Valve

Level 4

37

38

39

40

41

42

43

44

31

32

33

34

35

36

VAV

VAV-401

VAV-402

VAV-403

VAV-404

VAV-405

VAV-406

VAV-407

VAV-408

VAV-409

VAV-410

VAV-411

VAV-412

VAV-413

VAV-414

Valve

L/s GPM

0.12

0.16

1.902

2.536

0.12

1.902

0.85 13.4725

0.14

2.219

0.06

0.13

0.13

0.06

0.951

2.0605

2.0605

0.951

PD

3

3

3

3

3

3

3

3

3

Type

2m

2m

2m

2m

3m

2m

3m

2m

2m

Return

non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring

Fail

Design

CV

1.1

1.5

1.1

7.8

1.3

0.5

1.2

1.2

0.5

Actual

CV

1.2

1.9

1.2

10.0

1.9

0.8

1.2

1.2

0.8

Size

12

12

12

12

12

12

12

12

12

L/s

0.11

0.13

0.19

0.1

0.11

0.08

0.1

0.1

0.2

GPM

1.7435

2.0605

3.0115

1.585

1.7435

1.268

1.585

1.585

3.17

PD

3

3

3

3

3

3

3

3

3

Type

2m

2m

2m

3m

3m

2m

2m

2m

2m

Return

non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring

Fail

L/s

0.06

0.07

0.08

0.03

0.03

0.04

0.15

0.08

0.07

0.09

0.09

0.01

GPM

2.3775

1.268

1.1095

1.4265

1.4265

0.1585

0.951

1.1095

1.268

0.4755

0.4755

0.634

PD

3

3

3

3

3

3

3

3

3

3

3

3

Type

2m

2m

3m

2m

2m

2m

3m

2m

2m

2m

2m

2m

Return

non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring

Fail

Design

CV

1.0

1.2

1.7

0.9

1.0

0.7

0.9

0.9

1.8

Actual

CV

1.2

1.2

1.9

1.2

1.2

0.8

1.2

1.2

1.9

Size

12

12

12

12

12

12

12

12

12

Design

CV

0.5

0.6

0.7

0.3

0.3

0.4

1.4

0.7

0.6

0.8

0.8

0.1

Actual

CV

0.8

0.8

0.8

0.3

0.3

0.5

1.9

0.8

0.8

0.8

0.8

0.3

Size

12

12

12

12

12

12

12

12

12

12

12

12

L/s

0.06

0.08

0.13

0.03

0.05

1.08

0.07

0.05

0.04

0.05

0.05

0.11

0.03

0.09

GPM

0.634

0.7925

0.7925

1.7435

0.4755

1.4265

0.951

1.268

2.0605

0.4755

0.7925

17.118

1.1095

0.7925

PD

3

3

3

3

3

3

3

3

3

3

3

3

3

3

Type

2m

3m

3m

2m

2m

2m

2m

2m

2m

2m

2m

2m

2m

2m

Return

non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring non-spring

Fail

Design

CV

0.5

0.7

1.2

0.3

0.5

9.9

0.6

0.5

0.4

0.5

0.5

1.0

0.3

0.8

Actual

CV

0.8

0.8

1.2

0.3

0.8

10.0

0.8

0.8

0.5

0.8

0.8

1.2

0.3

0.8

Size

12

12

12

12

12

12

12

12

12

12

12

12

12

12

Model

b210 b211 b210 b215 b311 b209 b310 b210 b209

3/29/2006

Actuator

tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us

Model

b210 b210 b211 b310 b310 b209 b210 b210 b211

Actuator

tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us

Model

b311 b209 b209 b209 b209 b207 b209 b209 b309 b207 b207 b208

Model

b208 b209 b209 b210 b207 b209 b209 b309 b310 b207 b209 b215 b209 b209

Actuator

tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us

Actuator

tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us

Convectors

45 CNVT-1

46 CNVT-2

47 CNVT-3

48 CNVT-4

49 CNVT-7

50 CNVT-8

51 CNVT-9

52 CUH-1

MISC

Valve

53 2ndry mix

54 trap 1

55 trap 2

56

57

58 trap 3 trap 4 trap 5

Valve

L/s

0.03

0.03

0.03

0.03

0.03

0.03

0.03

0.11

GPM

0.4755

0.4755

0.4755

0.4755

0.4755

0.4755

0.4755

1.7435

L/s

6.14

GPM

97.319

0

0

0

0

0

PD

3

3

3

3

3

3

3

3

PD

3

3

3

4

3

3

Type

3m

2p

2p

2p

2p

2p

Type

2m

2m

2m

2m

2m

2m

2m

2m

Return

non-spring non-spring non-spring non-spring non-spring non-spring non-spring spring

Fail

open

Return

spring spring spring spring spring spring

Fail

atoab close close close close close

Design

CV

0.3

0.3

0.3

0.3

0.3

0.3

0.3

1.0

Design

CV

48.7

0.0

0.0

0.0

0.0

0.0

Actual

CV

0.3

0.3

0.3

0.3

0.3

0.3

0.3

1.2

Actual

CV

65.0

Size

12

12

12

12

12

12

12

12

Model

b207 b207 b207 b207 b207 b207 b207 b210

Actuator

tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us tr24-sr-t us

Size

65

12

12

12

12

12

Model Actuator

g765 af24-mft us

ZONE215N-35 ZONE24NC

ZONE215N-36 ZONE24NC

ZONE215N-37 ZONE24NC

ZONE215N-38 ZONE24NC

ZONE215N-39 ZONE24NC

Malaspina School of Mgt Pts List 29Mar06.xls

Control Valve Schedule

1 of 1

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.7&2.8

Description: 65mm 3-way mod spring return characterized control valve

Model: G765 c/w AF24-MFT US

Supplier info:

Name:

Address:

Belimo Aircontrols (CAN), Inc.

20893 Yeomans Cres., Langley, BC V1M 2P8

Manufacturer info:

Name: Belimo Aircontrols (CAN), Inc.

Address: 20893 Yeomans Cres., Langley, BC V1M 2P8

Website www.belimo.com

®

G7 Series Flanged Globe Valve, Spring Return Actuator

Three-way Valve with Bronze Trim – ANSI 125 Flanged, Mixing and Diverting

AF…

G7 Three-way Mixing Flanged Globe Valve with Spring Return Actuator

Model

#

Valve

G765

G780

G7100

G765

G780

G7100

G7125

G7150

Cv

68

91

190

68

91

190

280

340

Valve

Valve

Nominal Size

Inches

Flanged

Type

2-1/2”

3”

4”

2-1/2”

ANSI 125

ANSI 125

ANSI 125

ANSI 125

3”

4”

5”

6”

ANSI 125

ANSI 125

ANSI 125

ANSI 125

Close-

Off psi

41

28

9

82

57

16

10

7

AF24 US

2x AF24 US

❑ Pg 68

❑ Pg 68

❑ Pg 68

❑ Pg 68

On/Off

Pg 68

Pg 68

Pg 68

Pg 68

Spring Return Actuator

Proportional / MFT

AF24-MFT US†

2x AF24-MFT US†

❑ Pg 68

❑ Pg 68

❑ Pg 68

❑ Pg 68

❑ Pg 68

❑ Pg 68

❑ Pg 68

❑ Pg 68

† Specify when ordering proportional (P-10001) 2-10 VDC, floating point (P-30001), on/off (P-40002) for AF actuators.

G7… D Three-way Diverting Flanged Globe Valve with Spring Return Actuator

Model

#

Valve

G765D

G780D

G7100D

G7125D

G7150D

Cv

68

85

154

195

248

Valve

Valve

Nominal Size

Inches

Flanged

Type

2-1/2”

3”

4”

5”

6”

ANSI 125

ANSI 125

ANSI 125

ANSI 125

ANSI 125

Close-

Off psi

100

100

100

100

100

Spring Return Actuator

On/Off

AF24 US

2x AF24 US

❑ Pg 80

❑ Pg 80

❑ Pg 80

❑ Pg 80

❑ Pg 80

Proportional / MFT

AF24-MFT US†

2x AF24-MFT US†

❑ Pg 80

❑ Pg 80

❑ Pg 80

❑ Pg 80

❑ Pg 80

For fail safe operation where AF actuator is not available or close-off is too low, use GM actuator with NSV battery backup.

† Specify when ordering proportional (P-10001) 2-10 VDC, floating point (P-30001), on/off (P-40002) for AF actuators.

2x AF…

Options (add to list price)

built-in aux. switch* AF…-S US

120 VAC power supply

0-135

Ω control

AF120…

AF24-MFT95 US

AF24 US

* For tandem actuators – only one of the two actuators is provided with switch.

‡ Add to …-MFT price.

AF24-MFT US

2x AF24 US

2x AF24-MFT US

19

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.7&2.8

Description: 12mm 2-way mod non-spring return characterized control valve

Model:

Supplier info:

Name:

Address:

B207 to B215 c/w TR24-SR-T US

Belimo Aircontrols (CAN), Inc.

20894 Yeomans Cres., Langley, BC V1M 2P8

Manufacturer info:

Name:

Address:

Belimo Aircontrols (CAN), Inc.

20894 Yeomans Cres., Langley, BC V1M 2P8

Website www.belimo.com

B2 Series Characterized Control Valve,

Non-Spring Return Actuator

Two-way Valve with Stainless Steel Ball and Stem, NPT female ends

®

TR… LR…

NM… AM…

B2 Two-way Characterized Control Valve, Stainless Steel Ball and Stem

Valve

On/Off, Floating On/Off, Floating

Non-Spring Return Actuator

Proportional Proportional

B229

B230*

B231

B232*

B238

B239

B240*

B248

B249

B217

B218

B219

B220*

B222

B223

B224

B225*

Model

#

CCV

Valve

B207

B208

B209

B210

B211

B212

B213

B214

B215*

B250*

B251

B252

B253

B254*

B261

B262

B263

B264

B265*

B277

B278

B280*

210

70

130

170

Electrical

Connection

57

65

85

120

240

60

75

110

150

10

19

25

37

19

29

37

29

46

4.7

7.4

10

24

7.4

10

19

30

Cv Valve

Rating Nominal Size

DN

0.3

Inches mm

1/2” 15

Close-

Off psi

0.46

0.8

1.2

1.9

3.0

4.7

7.4

10

1/2”

1/2”

1/2”

1/2”

1/2”

1/2”

1/2”

1/2”

15

15

15

15

15

15

15

15

200

200

200

200

200

200

1”

1”

1”

1”

3/4”

3/4”

3/4”

3/4”

20

20

20

20

25

25

25

25

200

200

200

200

200

200

200

1-1/4”

1-1/4”

1-1/4”

1-1/4”

1-1/2”

1-1/2”

1-1/2”

2”

2”

32

32

32

32

40

40

40

50

50

200

200

200

200

200

200

200

200

200

200

200

200

200

2”

2”

2”

2”

2”

2.5”

2.5”

2.5”

2.5”

2.5”

3”

3”

3”

50

50

50

50

50

65

65

65

65

65

80

80

80

200

100

100

100

100

100

100

100

100

100

100

100

100

* Models without characterizing discs.

TR24-3-T US

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Pg 40

Covered

Terminal Strip

Pg 50

Pg 50

Pg 50

Pg 50

Pg 50

Pg 50

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 56

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 50

Pg 50

LR24-3 US

NM24 US

AM24 US

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

Pg 44

3 ft cable,

1/2” conduit fitting

TR24-SR-T US

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Pg 42

Covered Terminal

Strip

LR24-SR US

NM24-SR US

3 ft cable,

1/2” conduit fitting

See

pg 11

for corrected Cvs with piping reduction factor. See

pg 132

for MFT Configuration.

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 46

Pg 52

Pg 52

Pg 52

Pg 52

Pg 52

Pg 52

Pg 52

Pg 52

TR24-3-T US

TR24-SR-T US

Proportional / MFT

LR24-3 US

Pg 44

Pg 54

Pg 54

Pg 54

Pg 54

Pg 54

Pg 54

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

Pg 58

LR24-MFT US

NM24-MFT US

AM24-MFT US

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 48

Pg 54

Pg 54

3 ft cable,

1/2” conduit fitting

Options (add to list price)

built-in aux. switch

3-foot cable

6-foot cable

10-foot cable

LR…-S US

TR24-3 US, TR24-SR US

TR…/200 US, LR…/200 US

TR…/300 US, LR…/300 US

14

Pg 40/42

Pg 40/42

Pg 40/42

Pg 44

Pg 44

B2 Two-way Characterized Control Valve, Stainless Steel Ball and Stem

TR Actuators, Proportional

Technical Data/Submittal

Application

This valve is typically used in air handling units on heating or cooling coils, and fan coil unit heating or cooling coils. Some other common applications include Unit Ventilators, VAV Box reheat coils and bypass loops. This valve is suitable for use in a hydronic system with variable flow. This valve is designed for modulating control using 2...10VDC or 4...20mA. (for

4...20mA control input a 500 ohm resistor is required).

The valve is designed to fit in compact areas where proportional control is required using 24 VAC/VDC.

®

Valve Specifications

Service

Flow characteristic

Action

Sizes

Type of end fitting

Materials:

Body

Ball

Stem

Seats

Characterizing disc

Packing

Pressure rating

Media temp. range

Close off pressure

Maximum differential: pressure (

P) chilled or hot water, 60% glycol

A port equal percentage

Max 95° rotation

1/2”, 3/4” female, NPT forged brass, nickel plated stainless steel stainless steel fiberglass reinforced teflon

®

PTFE

TEFZEL ®

2 EPDM O-rings, lubricated

600 psi

0°F to 212°F [-18°C to 100°C]

200 psi

For Characterized A-port

20 psi for typical applications

30 psi max for quiet service

Leakage

Cv rating

For full flow versions only (no A-disc)

On/Off control 150 psi

0%

A port: see product chart for values

Tefzel ® is a registered trademark of DuPont

Actuator Specifications

TR24-SR-T US

Control

Input Impedance

Nominal voltage

Nominal voltage range

Power Consumption

Transformer Sizing

Electrical Connection

Angle of Rotation

Torque

Position Indication

Manual override:

Running Time

Humidity

Ambient Temperature

Storage Temperature

Housing

Housing Rating

Agency Listing

EMC

Mode of Operation

Noise Level

Quality Standard

Reversing switch under cover

Proportional

100 k

24 VAC 50/60 Hz, 24VDC

19.2…28.8 VAC, 21.6…28.8 VDC

0.5 W

1VA (Class 2 power source)

Screw Terminals accessible after removal of small cover

(3 ft, 6 ft, 10 ft cables optional)

90°

18 in-lbs (2Nm)

Integrated into handle

Push down handle

90 seconds

5 to 95% non-condensing

19°F to 122°F (-7°C to +50°C)

-40°F to 176°F (-40°C to +80°C)

NEMA 1

UL94-5V(B)

CE, UL 60730-1

CE according to 89/336/EEC

Type 1 to UL 60730-1 max. 35 db (A)

ISO 9001

©

Additional Models

TR24-SR US TR24-SR-T US with 3 ft plenum rated cable

TR24-SR/200 US

TR24-SR/300 US

TR24-SR-T US with 6 ft plenum rated cable

TR24-SR-T US with 10 ft plenum rated cable

42

See Selection Chart Pg 14 for Control Valve No., Cv and Close-off

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.7&2.8

Description: 12mm 3-way mod non-spring return characterized control valve

Model:

Supplier info:

Name:

Address:

B309 to B311 c/w TR24-SR-T US

Belimo Aircontrols (CAN), Inc.

20895 Yeomans Cres., Langley, BC V1M 2P8

Manufacturer info:

Name:

Address:

Belimo Aircontrols (CAN), Inc.

20895 Yeomans Cres., Langley, BC V1M 2P8

Website www.belimo.com

®

B3 Series Characterized Control Valve,

Non-Spring Return Actuator

Three-way Valve with Stainless Steel Ball and Stem, NPT female ends

TR… LR… NM…

B3 Three-way Characterized Control Valve, Stainless Steel Ball and Stem

Valve

Model Cv Valve On/Off, Floating On/Off, Floating

#

CCV

Valve

B307

B308

B309

B310

B311

B312

B313

B315*

B317

B318

B320*

B322

B323

B325*

B329

B330*

B331

B332*

B338

B339

B340*

19

29

37

B348

B349

29

46

B350* 57

Electrical

Connection

7.4

10

30

10

19

25

37

Rating Nominal Size Close-

0.3

0.46

0.8

DN

Inches mm

1/2”

1/2”

1/2”

15

15

15

Off psi

200

200

200

1.2

1.9

3.0

4.7

10

4.7

7.4

24

1/2”

1/2”

1/2”

1/2”

1/2”

3/4”

3/4”

3/4”

15

15

15

15

15

20

20

20

200

200

200

200

200

200

200

200

1”

1”

1”

1-1/4”

1-1/4”

1-1/4”

1-1/4”

1-1/2”

1-1/2”

1-1/2”

2”

2”

2”

25

25

25

32

32

32

32

40

40

40

50

50

50

200

200

200

200

200

200

200

200

200

200

200

200

200

TR24-3-T US

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Pg 60

Covered

Terminal Strip

LR24-3 US

NM24 US

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 64

Pg 70

Pg 70

Pg 70

Pg 70

Pg 70

Pg 70

Pg 70

Pg 70

3 ft cable,

1/2” conduit fitting

* Models without characterizing discs.

See

pg 132

for MFT Configuration.

Non-Spring Return Actuator

Proportional Proportional

TR24-SR-T US

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Pg 62

Covered Terminal

Strip

LR24-SR US

NM24-SR US

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 66

Pg 72

Pg 72

Pg 72

Pg 72

Pg 72

Pg 72

Pg 72

Pg 72

3 ft cable,

1/2” conduit fitting

Proportional / MFT

LR24-MFT US

NM24-MFT US

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 68

Pg 74

Pg 74

Pg 74

Pg 74

Pg 74

Pg 74

Pg 74

Pg 74

3 ft cable,

1/2” conduit fitting

Options (add to list price)

built-in aux. switch

3-foot cable

6-foot cable

10-foot cable

LR…-S US

TR24-3 US, TR24-SR US

TR…/200 US, LR…/200 US

TR…/300 US, LR…/300 US

TR24-3-T US

TR24-SR-T US

Pg 60/62

Pg 60/62

Pg 60/62

LR24-3 US

Pg 64

Pg 64

Pg 64

15

B3 Three-way Characterized Control Valve, Stainless Steel Ball and Stem

TR Actuators, Proportional

Technical Data/Submittal

Application

This valve is typically used in air handling units on heating or cooling coils, and fan coil unit heating or cooling coils. Some other common applications include Unit Ventilators, VAV Box reheat coils and bypass loops. This valve is suitable for use in a hydronic system with variable or constant flow. This valve is designed for modulating control using 2...10VDC or 4...20mA.

(for 4...20mA control input a 500 ohm resistor is required).

The valve is designed to fit in compact areas where proportional control is required using 24 VAC/VDC.

®

Valve Specifications

Service

Flow characteristic

Action

Sizes

Type of end fitting

Materials:

Body

Ball

Stem

Seats

Characterizing disc

Packing

Pressure rating

Media temp. range

Close off pressure

Maximum differential: pressure (

P) chilled or hot water, 60% glycol

A port equal percentage

B port modified linear for constant AB flow

Max 95° rotation

1/2”, 3/4” female, NPT forged brass, nickel plated stainless steel stainless steel fiberglass reinforced teflon

®

PTFE

TEFZEL ®

2 EPDM O-rings, lubricated

600 psi

0°F to 212°F [-18°C to 100°C]

200 psi

For Characterized A-port

20 psi for typical applications

30 psi max for quiet service

Leakage

Cv rating

For full flow versions only (no A-disc)

On/Off control 150 psi

A port: 0%

B port: 0.5% - 2% of full rated CV

AB port: 0%

A port: see product chart for values

B port: 70% of A port flow

Tefzel ® is a registered trademark of DuPont

Actuator Specifications

TR24-SR-T US

Control

Input Impedance

Nominal voltage

Nominal voltage range

Power Consumption

Transformer Sizing

Electrical Connection

Angle of Rotation

Torque

Position Indication

Manual override:

Running Time

Humidity

Ambient Temperature

Storage Temperature

Housing

Housing Rating

Agency Listing

EMC

Mode of Operation

Noise Level

Quality Standard

Reversing switch under cover

Proportional

100 k

24 VAC 50/60 Hz, 24VDC

19.2…28.8 VAC, 21.6…28.8 VDC

0.5 W

1VA (Class 2 power source)

Screw Terminals accessible after removal of small cover

(3 ft, 6 ft, 10 ft cables optional)

90°

18 in-lbs (2Nm)

Integrated into Handle

Push down handle

90 seconds

5 to 95% non-condensing

19°F to 122°F (-7°C to +50°C)

-40°F to 176°F (-40°C to +80°C)

NEMA 1

UL94-5V(B)

CE, UL 60730-1

CE according to 89/336/EEC

Type 1 to UL 60730-1 max. 35 db (A)

ISO 9001

©

Additional Models

TR24-SR US TR24-SR-T US with 3 ft plenum rated cable

TR24-SR/200 US

TR24-SR/300 US

TR24-SR-T US with 6 ft plenum rated cable

TR24-SR-T US with 10 ft plenum rated cable

62

See Selection Chart Pg 15 for Control Valve No., Cv and Close-off

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.7&2.8

Description: 12mm 2-way 2 pos'n spring return zone valve

Model: ZONE215N-35

Supplier info:

Name:

Address:

Belimo Aircontrols (CAN), Inc.

20896 Yeomans Cres., Langley, BC V1M 2P8

Manufacturer info:

Name: Belimo Aircontrols (CAN), Inc.

Address: 20896 Yeomans Cres., Langley, BC V1M 2P8

Website www.belimo.com

Electronic Zone Valves, Spring Return Actuator

Two-way and Three-way valves with NPT or sweat ends

Valve

Model #

Valve

Cv

Rating

Nominal

Size

Inches mm

Two-way with NPT Female Connection

ZONE215N-10

ZONE215N-25

ZONE215N-35

ZONE220N-35

ZONE220N-50

ZONE225N-80

1.0

2.5

3.5

3.5

5.0

8.0

1/2”

1/2”

1/2”

3/4”

3/4”

1”

20

35

15

15

15

20

Closeoff

(psi)

75

50

30

30

25

20

24 V

Normally Closed

ZONE24NC

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

Actuator

24 V

Normally Open

ZONE24NO

120 V

Normally Closed

ZONE120NC

Pg 10

Pg 10

Pg 10

Pg 10

Pg 10

Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

Three-way with NPT Female Connection

ZONE315N-10 1.0

1/2” 15 75

ZONE315N-25

ZONE315N-35

2.5

3.5

1/2”

1/2”

15

15

50

30

ZONE320N-35

ZONE320N-50

ZONE325N-80

3.5

5.0

8.0

3/4”

3/4”

1”

20

20

35

30

25

20

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

Two-way with Sweat Connection

ZONE215S-10 1.0

1/2” 15

ZONE215S-25

ZONE215S-35

2.5

3.5

1/2”

1/2”

15

15

ZONE220S-35

ZONE220S-50

ZONE225S-80

3.5

5.0

8.0

3/4”

3/4”

1”

20

20

35

Three-way with Sweat Connection

ZONE315S-10 1.0

1/2” 15

ZONE315S-25

ZONE315S-35

2.5

3.5

1/2”

1/2”

15

15

ZONE320S-35

ZONE320S-50

ZONE325S-80

3.5

5.0

8.0

3/4”

3/4”

1”

20

20

35

30

25

20

75

50

30

75

50

30

30

25

20

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

Pg 10

Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

Built-in auxiliary switch ZONE215N-10+ZONE24NC-S

(add -S to model number)

❑ Pg 10 ❑ Pg 10 ❑ Pg 10

†Three-way valve can be NC or NO depending on installation always using the NC actuator. See technical literature for details.

120 V

Normally Open

ZONE120NO

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

❑ Pg 10

Pg 10

Pg 10

Pg 10

8

®

Electronic Zone Valves

ZONE… Series

Technical Data/Submittal

Application

This valve is typically used on fan coil units, baseboards or other hydronic applications where fail safe operation or 2-wire control is required. This valve is suitable for use in a hydronic system with variable or constant flow.

This valve is designed to fit in compact areas where on/off or control is required using 24 VAC or 120 VAC.

®

Valve Specifications

Service

Flow characteristic

Two-way

Three-way

Sizes

Type of end fitting

Materials:

Body

Stem

Seals

Pressure rating

Media temp. range

Close off pressure

Leakage

Cv rating chilled or hot water, 50% glycol on/off on/off, diverting

1/2”, 3/4” and 1” female, NPT or Sweat forged brass stainless steel

EPDM

300 psi

32°F to 212°F [0°C to 100°C]

20 – 75 psi

Class III 0.1%

1.0 – 8.0

U.S. & Foreign Patent Pending

Actuator Specifications

Control

Nominal voltage

Power Consumption

Transformer Sizing

Electrical Connection

Position Indication

Running Time

Humidity

Noise Level

Quality Standard

Built-in Auxiliary Switch

(optional)

Motor:

Spring:

Ambient Temperature

Storage Temperature

Housing Rating

Agency Listing

On/off

24 VAC 50/60 Hz ± 10% or 120 VAC 50/60 Hz ± 10%

6.5 W

7VA (Class 2 power source)

Wire lead length, 120V 6”

24V 18”

Integrated into lever (NC only)

20-40 seconds

5 seconds

5 to 95% non-condensing

32°F to 104°F (0°C to + 40°C)

-40°F to 176°F (-40°C to +80°C)

UL94-5V(B)

CE, cULus max. 35 db (A)

ISO 9001

1 x SPDT, 5A resistive (5A inductive)

@ 24 VAC

1 x SPDT, 5A resistive (5A inductive)

@ 120 VAC

10

®

Installation

The valve can be installed vertically or horizontally, but not turned upside down.

360

°

Electronic Zone Valves

Installation

– A 3-way valve cannot be transformed into a 2-way valve and visa versa.

– The flow is from A to B (see diagram below) and must be installed so the paddle closes against the direction of flow as indicated in the following diagrams.

– The 2-way valves can be installed on the supply or on the return; for correct installation it is necessary to respect the direction of flow indicated from the arrow on the body valve.

A B

2-way valve normally closed actuator

(NO)

B A

(NC)

AB

3-way valve normally closed actuator

(Note: 3-way uses only normally closed actuator)

B

AB

A

3-way installed on the supply in diverting configuration

A B

2-way installed on the supply

B A

2-way installed on the return

B

AB

A

3-way installed on the return

N.C. without power

N.C. open with power

2-way

Port”A” closed

Port”A” open

N.C. manually open Port”A” open

3-way

Port “A” closed

Port “B” open

Port “AB” open

Port “A” open

Port “B” closed

Port “AB” open

Port “A” open

Port “B” open

Port “AB” open

9

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.2.1

Description: Room temperature sensor

Model: TE200AD7

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

SPACE/WALL MOUNT

FEATURES:

The TE Series Space Temperature sensors are available in four different enclosure styles. They are available with a choice of precision RTD’s, IC’s, or thermistors.

A number of options, such as momentary override and setpoint adjustment are also available for various configurations.

A transmitter option is also available to be used with the 1000 ohm

platinum sensor which provides either

4 -20mA, 0 – 5 VDC or 0 – 10 VDC output proportional

to a selected temperature span. A 100 ohm

platinum sensor transmitter is optional.

The transmitters provide high accuracy, long-term

TRANSMITTER:

stability, low hysteresis, fast response and a wide operating temperature range.

Every transmitter offers accuracy of 0.1% of span or better and are highly stable due to excellent RFI rejection and are also virtually immune to power supply noise and input voltage fluctuations.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4 – 20mA, 0–5 VDC or 0-10 VDC

Accuracy: ±0.1% of span

Operating temp: 0°C – 70°C (32°F – 158°F)

Calibration In compliance with ANSI/NCSL

2540-11994

Display Type

Power Supply

Display Units

Display Range

Display Resolution

Display Size

Available Options

LCD Display

12 – 30 VAC/DC at 2mA max

°C or °F (factory set)

LED Display

12 – 30 VAC/DC at 30mA max

°C or °F (jumper selectable)

0.0 – 35.0°C (32.0 – 95.0°F)

0.1°C (0.1°F)

23 mm W x 11 mm H (0.9” W x 0.45” H)

10.0 – 35.5°C (50.0 – 96.0°F)

0.5°C (1.0°F)

3 digit x 30 mm W x 7.6 mm H (1.18” W x 0.3” H)

Various sensors, set points, push buttons, external jacks, and logos.

A) Micro – Includes a compact snap-mounted cover for ease of installation, available with various temperature sensors.

AD) Designer – Features include a three-piece enclosure that mounts directly to a wall box or on any wall. Available with various options. Including set point adjustments, push button overrides, etc.

AS) Surface - A stainless steel plate which can be mounted to a wall box used where tamper-proof or protection is required. Available with various options, including push button overrides, etc.

GREYSTONE ENERGY SYSTEMS INC.

ISO 9002

Q M I

SPACE TEMPERATURE SENSORS/TRANSMITTERS:

PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Enclosure

A

AD

AS

Micro (not available with transmitter or options)

Designer

S/S plate

9

11

12

13

14

20

2

5

6

7

8

21

24

CODE Sensor

PT100-100 ohm Platinum, IEC 751, 385 Alpha, thin film

1801 ohm, NTC Thermistor, ±0.2°C

3,000 ohm, NTC Thermistor, ±0.2°C

10,000 ohm, type 3, NTC Thermistor, ±0.2°C

2.252 K ohm NTC Thermistor, ±0.2°C

100,000 ohm, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000-1000 ohm Platinum, IEC 751, 0.385 Alpha, thin film

1000 ohm nickel

10,000 ohm type 3, NTC Thermistor, ±0.2°C c/w 11k shunt resistor

20,000 ohm, NTC Thermistor, ±0.2°C

LM335 IC, 10mv/°C

10,000 ohm, type 2, NTC Thermistor, ±0.2°C

CODE Options (TE200AD assembly only)

LY

LR

LG

CJ

AE

AI

AP

AS

BS

AM

BC

BF

AC

AF

20-30K linear slide pot for set point control

Concealed push button momentary switch (NO)

Exposed push button momentary switch (NO)

Alcohol thermometer °C & °F

Bi-metal thermometer °C

Bi-metal thermometer °F

3-digit LCD temperature indicator °C

3-digit LCD temperature indicator °F

Yellow LED

Red LED

Green LED

External jack for remote system access (phono jack)

External jack for remote system access (4-pin header)

Internal jack (RJ-45)

CODE TE500 Transmitter Power Supply

1

24 VAC/DC

CODE TE500 Transmitter Output Option

A

D

E

Current 4 – 20mA

Voltage 0 – 5 VDC

Voltage 0 – 10 VDC

CODE TE500 Transmitter Range Option

1

2

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

TE500 AD 12 - 1 A 2

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

NOTE:

Due to the many possible configurations, special part numbers may be required, please contact Greystone for more information.

EXAMPLE:

Designer space, c/w PT1000

RTD, 4–20mA transmitter with a 0°C – 50°C

(32°F – 122°F) range.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.3

Model: RT

Supplier info:

Name: Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R11 Address:

Manufacturer info:

Name: Reliable Controls Corporation

Address: 207-3375 Whittier Avenue, Victoria, BC V8Z 3R11

Website www.reliable-controls.com

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.2.2

Model: TE200AS7

Supplier info:

Name: Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9 Address:

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

SPACE/WALL MOUNT

FEATURES:

The TE Series Space Temperature sensors are available in four different enclosure styles. They are available with a choice of precision RTD’s, IC’s, or thermistors.

A number of options, such as momentary override and setpoint adjustment are also available for various configurations.

A transmitter option is also available to be used with the 1000 ohm

platinum sensor which provides either

4 -20mA, 0 – 5 VDC or 0 – 10 VDC output proportional

to a selected temperature span. A 100 ohm

platinum sensor transmitter is optional.

The transmitters provide high accuracy, long-term

TRANSMITTER:

stability, low hysteresis, fast response and a wide operating temperature range.

Every transmitter offers accuracy of 0.1% of span or better and are highly stable due to excellent RFI rejection and are also virtually immune to power supply noise and input voltage fluctuations.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4 – 20mA, 0–5 VDC or 0-10 VDC

Accuracy: ±0.1% of span

Operating temp: 0°C – 70°C (32°F – 158°F)

Calibration In compliance with ANSI/NCSL

2540-11994

Display Type

Power Supply

Display Units

Display Range

Display Resolution

Display Size

Available Options

LCD Display

12 – 30 VAC/DC at 2mA max

°C or °F (factory set)

LED Display

12 – 30 VAC/DC at 30mA max

°C or °F (jumper selectable)

0.0 – 35.0°C (32.0 – 95.0°F)

0.1°C (0.1°F)

23 mm W x 11 mm H (0.9” W x 0.45” H)

10.0 – 35.5°C (50.0 – 96.0°F)

0.5°C (1.0°F)

3 digit x 30 mm W x 7.6 mm H (1.18” W x 0.3” H)

Various sensors, set points, push buttons, external jacks, and logos.

A) Micro – Includes a compact snap-mounted cover for ease of installation, available with various temperature sensors.

AD) Designer – Features include a three-piece enclosure that mounts directly to a wall box or on any wall. Available with various options. Including set point adjustments, push button overrides, etc.

AS) Surface - A stainless steel plate which can be mounted to a wall box used where tamper-proof or protection is required. Available with various options, including push button overrides, etc.

GREYSTONE ENERGY SYSTEMS INC.

ISO 9002

Q M I

SPACE TEMPERATURE SENSORS/TRANSMITTERS:

PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Enclosure

A

AD

AS

Micro (not available with transmitter or options)

Designer

S/S plate

9

11

12

13

14

20

2

5

6

7

8

21

24

CODE Sensor

PT100-100 ohm Platinum, IEC 751, 385 Alpha, thin film

1801 ohm, NTC Thermistor, ±0.2°C

3,000 ohm, NTC Thermistor, ±0.2°C

10,000 ohm, type 3, NTC Thermistor, ±0.2°C

2.252 K ohm NTC Thermistor, ±0.2°C

100,000 ohm, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000-1000 ohm Platinum, IEC 751, 0.385 Alpha, thin film

1000 ohm nickel

10,000 ohm type 3, NTC Thermistor, ±0.2°C c/w 11k shunt resistor

20,000 ohm, NTC Thermistor, ±0.2°C

LM335 IC, 10mv/°C

10,000 ohm, type 2, NTC Thermistor, ±0.2°C

CODE Options (TE200AD assembly only)

LY

LR

LG

CJ

AE

AI

AP

AS

BS

AM

BC

BF

AC

AF

20-30K linear slide pot for set point control

Concealed push button momentary switch (NO)

Exposed push button momentary switch (NO)

Alcohol thermometer °C & °F

Bi-metal thermometer °C

Bi-metal thermometer °F

3-digit LCD temperature indicator °C

3-digit LCD temperature indicator °F

Yellow LED

Red LED

Green LED

External jack for remote system access (phono jack)

External jack for remote system access (4-pin header)

Internal jack (RJ-45)

CODE TE500 Transmitter Power Supply

1

24 VAC/DC

CODE TE500 Transmitter Output Option

A

D

E

Current 4 – 20mA

Voltage 0 – 5 VDC

Voltage 0 – 10 VDC

CODE TE500 Transmitter Range Option

1

2

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

TE500 AD 12 - 1 A 2

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

NOTE:

Due to the many possible configurations, special part numbers may be required, please contact Greystone for more information.

EXAMPLE:

Designer space, c/w PT1000

RTD, 4–20mA transmitter with a 0°C – 50°C

(32°F – 122°F) range.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.2.1

Model: TE200AD7BS

Supplier info:

Name: Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9 Address:

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

SPACE/WALL MOUNT

FEATURES:

The TE Series Space Temperature sensors are available in four different enclosure styles. They are available with a choice of precision RTD’s, IC’s, or thermistors.

A number of options, such as momentary override and setpoint adjustment are also available for various configurations.

A transmitter option is also available to be used with the 1000 ohm

platinum sensor which provides either

4 -20mA, 0 – 5 VDC or 0 – 10 VDC output proportional

to a selected temperature span. A 100 ohm

platinum sensor transmitter is optional.

The transmitters provide high accuracy, long-term

TRANSMITTER:

stability, low hysteresis, fast response and a wide operating temperature range.

Every transmitter offers accuracy of 0.1% of span or better and are highly stable due to excellent RFI rejection and are also virtually immune to power supply noise and input voltage fluctuations.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4 – 20mA, 0–5 VDC or 0-10 VDC

Accuracy: ±0.1% of span

Operating temp: 0°C – 70°C (32°F – 158°F)

Calibration In compliance with ANSI/NCSL

2540-11994

Display Type

Power Supply

Display Units

Display Range

Display Resolution

Display Size

Available Options

LCD Display

12 – 30 VAC/DC at 2mA max

°C or °F (factory set)

LED Display

12 – 30 VAC/DC at 30mA max

°C or °F (jumper selectable)

0.0 – 35.0°C (32.0 – 95.0°F)

0.1°C (0.1°F)

23 mm W x 11 mm H (0.9” W x 0.45” H)

10.0 – 35.5°C (50.0 – 96.0°F)

0.5°C (1.0°F)

3 digit x 30 mm W x 7.6 mm H (1.18” W x 0.3” H)

Various sensors, set points, push buttons, external jacks, and logos.

A) Micro – Includes a compact snap-mounted cover for ease of installation, available with various temperature sensors.

AD) Designer – Features include a three-piece enclosure that mounts directly to a wall box or on any wall. Available with various options. Including set point adjustments, push button overrides, etc.

AS) Surface - A stainless steel plate which can be mounted to a wall box used where tamper-proof or protection is required. Available with various options, including push button overrides, etc.

GREYSTONE ENERGY SYSTEMS INC.

ISO 9002

Q M I

SPACE TEMPERATURE SENSORS/TRANSMITTERS:

PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Enclosure

A

AD

AS

Micro (not available with transmitter or options)

Designer

S/S plate

9

11

12

13

14

20

2

5

6

7

8

21

24

CODE Sensor

PT100-100 ohm Platinum, IEC 751, 385 Alpha, thin film

1801 ohm, NTC Thermistor, ±0.2°C

3,000 ohm, NTC Thermistor, ±0.2°C

10,000 ohm, type 3, NTC Thermistor, ±0.2°C

2.252 K ohm NTC Thermistor, ±0.2°C

100,000 ohm, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000-1000 ohm Platinum, IEC 751, 0.385 Alpha, thin film

1000 ohm nickel

10,000 ohm type 3, NTC Thermistor, ±0.2°C c/w 11k shunt resistor

20,000 ohm, NTC Thermistor, ±0.2°C

LM335 IC, 10mv/°C

10,000 ohm, type 2, NTC Thermistor, ±0.2°C

CODE Options (TE200AD assembly only)

LY

LR

LG

CJ

AE

AI

AP

AS

BS

AM

BC

BF

AC

AF

20-30K linear slide pot for set point control

Concealed push button momentary switch (NO)

Exposed push button momentary switch (NO)

Alcohol thermometer °C & °F

Bi-metal thermometer °C

Bi-metal thermometer °F

3-digit LCD temperature indicator °C

3-digit LCD temperature indicator °F

Yellow LED

Red LED

Green LED

External jack for remote system access (phono jack)

External jack for remote system access (4-pin header)

Internal jack (RJ-45)

CODE TE500 Transmitter Power Supply

1

24 VAC/DC

CODE TE500 Transmitter Output Option

A

D

E

Current 4 – 20mA

Voltage 0 – 5 VDC

Voltage 0 – 10 VDC

CODE TE500 Transmitter Range Option

1

2

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

TE500 AD 12 - 1 A 2

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

NOTE:

Due to the many possible configurations, special part numbers may be required, please contact Greystone for more information.

EXAMPLE:

Designer space, c/w PT1000

RTD, 4–20mA transmitter with a 0°C – 50°C

(32°F – 122°F) range.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.4.3

Description: Duct temperature sensor

Model: TE200B7D2

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

PROBE SENSORS

FEATURES: TRANSMITTER:

The TE Series Temperature sensors offer a choice of precision platinum RTD’s, IC, or NTC thermistor sensors which can be interfaced with a computerized monitoring or control system.

The sensors are available in different housings, with various configurations and options for duct, immersion, duct averaging, remote strap-on and outside air applications.

The single point sensors are encapsulated in a 6.35 mm

(0.25”) OD 304 stainless steel probe. All probes are constructed to provide good heat transfer and fast response. The averaging sensors are available in both plenum rated cable or with a copper probe.

The TE500 transmitter option is standard with the

1000

platinum sensor and provides either 4 – 20mA,

0 – 5 VDC or 0 – 10 VDC output over a selected range.

It is powered by either 24 VAC or VDC. A 100

Ω platinum sensor transmitter is optional.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4–20mA, 0–5 VDC or 0-10

VDC

Accuracy: ±0.1% of span

Operating temp: 0ºC – 70ºC (32ºF – 158ºF)

OSA operating temp: -40°C – 85°C (-40°F – 185°F)

Calibration: In compliance with ANSI/NCSL

2540-11994

B) Duct Sensor – For single point monitoring. It is available with various probe lengths and enclosures to fit any application.

C) Immersion Sensor – Comes in two configurations.

It has either spring loaded or non-spring loaded probes and has a ½” NPT fitting to be mounted into a thermowell. It is available in various lengths and enclosures styles.

E) Strap-on Sensor – Is a stainless steel probe and is used in remote applications where an immersion sensor can not be installed.

F) OSA Sensor – Comes in an aluminum LB c/w

½” NPT fitting for connection to conduit.

It incorporates a sun/wind shield to protect the sensor

FD) Flex-Duct Sensor – Is made of flexible plenum rated cable which incorporates numerous sensors along the assembly. It acts as a single sensor averaging any temperature change across the sensors.

D) Duct Average Sensor – Incorporates numerous sensors inside a copper tube. It acts as a single sensor, averaging any temperature change across the sensors.

NOTE:

Standard probe assemblies are rated at -40°C – 105°C (-40°F - 221°F).

For higher or lower temperature applications, please contact Greystone.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

PROBE TEMPERATURE SENSORS/TRANSDUCERS: PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Style

AP

B

BB

C

D

E

F

FD

G

H

HC

All purpose

Duct mount

Duct probe w/ mounting bracket only

Immersion

Duct average (copper)

Strap-on

Outside Air

Duct average (flexible plenum rated cable)

Glass

Stack

Clip

-

M

R

W

(GES ABS enclosure is standard)

ABS enclosure, standard (no code required, leave blank)

Metal utility box

No box

Aluminum weatherproof box

CODE Flex Duct Only

A

B

C

D

Lead only, no box

ABS enclosure

Aluminum weatherpoof box

Metal utility box

7

8

9

11

2

4

5

6

12

13

20

21

24

CODE Sensor

PT100-100

Platinum,IEC 751, 385 Alpha, thin film

PT100–100

Platinum, IEC 751, 385 Alpha, wire wound-ceramic* (see below)

1801

, NTC Thermistor, ±0.2°C

3000

, NTC Thermistor, ±0.2°C

10,000

, type 3, NTC Thermistor, ±0.2°C

2.252K

Ω,

NTC Thermistor, ±0.2°C

100,000

, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000

Platinum, IEC 751, 385 Alpha, thin film

1000

Nickel

20,000

, NTC Thermsitor, ±0.2°C

LM335 IC, 10mv/°C

10,000

, type 2, NTC Thermistor, ±0.2°C

*must use for high temp. applications over 400°C (752°F)

CODE Probe

A

B

C

D

E

F

50 mm (2”)

100 mm (4”)

150 mm (6”)

200 mm (8”)

300 mm (12”)

450 mm (18”)

CODE Copper Avg. (D)

G

H

I

J

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

CODE

Probe Material (not required for F, FD, G, HC)

2

3

Stainless steel

Copper (rigid duct average only)

CODE

Fitting (only required for immersion)

CODE Flex Avg. (FD)

A

B

C

D

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

A

E

Spring loaded 1/2” NPT

Non-spring loaded 1/2” NPT

CODE TE500 Transmitter Power Supply

1

24 VAC/VDC

CODE TE500 Transmitter Output Option

A

D

E

4 – 20mA

0 – 5 VDC

0 – 10 VDC

CODE TE500 Transmitter Range Option

TE200 D - 7 I 3 -

1

2

3

4

5

6

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

0°C – 100°C (32°F – 212°F)

50°C – 150°C (122°F – 302°F)

50°C – 250°C (122°F – 482°F)

-50°C – +50°C (-58°F – 122°F)

Custom ranges available upon request.

- - -

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.4.5

Description: 4" immersion temperature sensor

Model: TE200C7B2E

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

PROBE SENSORS

FEATURES: TRANSMITTER:

The TE Series Temperature sensors offer a choice of precision platinum RTD’s, IC, or NTC thermistor sensors which can be interfaced with a computerized monitoring or control system.

The sensors are available in different housings, with various configurations and options for duct, immersion, duct averaging, remote strap-on and outside air applications.

The single point sensors are encapsulated in a 6.35 mm

(0.25”) OD 304 stainless steel probe. All probes are constructed to provide good heat transfer and fast response. The averaging sensors are available in both plenum rated cable or with a copper probe.

The TE500 transmitter option is standard with the

1000

platinum sensor and provides either 4 – 20mA,

0 – 5 VDC or 0 – 10 VDC output over a selected range.

It is powered by either 24 VAC or VDC. A 100

Ω platinum sensor transmitter is optional.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4–20mA, 0–5 VDC or 0-10

VDC

Accuracy: ±0.1% of span

Operating temp: 0ºC – 70ºC (32ºF – 158ºF)

OSA operating temp: -40°C – 85°C (-40°F – 185°F)

Calibration: In compliance with ANSI/NCSL

2540-11994

B) Duct Sensor – For single point monitoring. It is available with various probe lengths and enclosures to fit any application.

C) Immersion Sensor – Comes in two configurations.

It has either spring loaded or non-spring loaded probes and has a ½” NPT fitting to be mounted into a thermowell. It is available in various lengths and enclosures styles.

E) Strap-on Sensor – Is a stainless steel probe and is used in remote applications where an immersion sensor can not be installed.

F) OSA Sensor – Comes in an aluminum LB c/w

½” NPT fitting for connection to conduit.

It incorporates a sun/wind shield to protect the sensor

FD) Flex-Duct Sensor – Is made of flexible plenum rated cable which incorporates numerous sensors along the assembly. It acts as a single sensor averaging any temperature change across the sensors.

D) Duct Average Sensor – Incorporates numerous sensors inside a copper tube. It acts as a single sensor, averaging any temperature change across the sensors.

NOTE:

Standard probe assemblies are rated at -40°C – 105°C (-40°F - 221°F).

For higher or lower temperature applications, please contact Greystone.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

PROBE TEMPERATURE SENSORS/TRANSDUCERS: PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Style

AP

B

BB

C

D

E

F

FD

G

H

HC

All purpose

Duct mount

Duct probe w/ mounting bracket only

Immersion

Duct average (copper)

Strap-on

Outside Air

Duct average (flexible plenum rated cable)

Glass

Stack

Clip

-

M

R

W

(GES ABS enclosure is standard)

ABS enclosure, standard (no code required, leave blank)

Metal utility box

No box

Aluminum weatherproof box

CODE Flex Duct Only

A

B

C

D

Lead only, no box

ABS enclosure

Aluminum weatherpoof box

Metal utility box

7

8

9

11

2

4

5

6

12

13

20

21

24

CODE Sensor

PT100-100

Platinum,IEC 751, 385 Alpha, thin film

PT100–100

Platinum, IEC 751, 385 Alpha, wire wound-ceramic* (see below)

1801

, NTC Thermistor, ±0.2°C

3000

, NTC Thermistor, ±0.2°C

10,000

, type 3, NTC Thermistor, ±0.2°C

2.252K

Ω,

NTC Thermistor, ±0.2°C

100,000

, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000

Platinum, IEC 751, 385 Alpha, thin film

1000

Nickel

20,000

, NTC Thermsitor, ±0.2°C

LM335 IC, 10mv/°C

10,000

, type 2, NTC Thermistor, ±0.2°C

*must use for high temp. applications over 400°C (752°F)

CODE Probe

A

B

C

D

E

F

50 mm (2”)

100 mm (4”)

150 mm (6”)

200 mm (8”)

300 mm (12”)

450 mm (18”)

CODE Copper Avg. (D)

G

H

I

J

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

CODE

Probe Material (not required for F, FD, G, HC)

2

3

Stainless steel

Copper (rigid duct average only)

CODE

Fitting (only required for immersion)

CODE Flex Avg. (FD)

A

B

C

D

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

A

E

Spring loaded 1/2” NPT

Non-spring loaded 1/2” NPT

CODE TE500 Transmitter Power Supply

1

24 VAC/VDC

CODE TE500 Transmitter Output Option

A

D

E

4 – 20mA

0 – 5 VDC

0 – 10 VDC

CODE TE500 Transmitter Range Option

TE200 D - 7 I 3 -

1

2

3

4

5

6

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

0°C – 100°C (32°F – 212°F)

50°C – 150°C (122°F – 302°F)

50°C – 250°C (122°F – 482°F)

-50°C – +50°C (-58°F – 122°F)

Custom ranges available upon request.

- - -

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.4.5

Description: 4" Brass thermowell

Model: T1-1/2BR4

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

OPTIONS:

Immersion Wells

ASSEMBLIES: ENCLOSURES:

BB) Duct probe c/w mounting bracket GES ABS Enclosure

H) Stack

M) Stamped Metal Utility Box

G) Glass W) Aluminum Weatherproof Box

AP) All Purpose

ISO 9002

Q M I

Greystone Energy Systems Inc.

150 English Drive, Moncton, NB

Canada E1E 4G7

(506) 853-3057 Fax: (506) 853-6014 e-mail: [email protected] www.greystoneenergy.com

Greystone Energy Systems Inc., established in 1983, is

Canada’s largest manufacturer of HVAC sensors and transducers for Building Automation Management Systems.

We have conscientiously established a worldwide reputation as an industry leader by maintaining leading-edge design technology, prompt technical support, and a commitment to on-time deliveries. We take pride in our Quality

Management System which is ISO 9002 certified, assuring our customers of consistent product reliability.

GREYSTONE IS AN ISO 9002 REGISTERED COMPANY

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.4.2

Description: Outdoor air temperature sensor

Model: TE200F7

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

PROBE SENSORS

FEATURES: TRANSMITTER:

The TE Series Temperature sensors offer a choice of precision platinum RTD’s, IC, or NTC thermistor sensors which can be interfaced with a computerized monitoring or control system.

The sensors are available in different housings, with various configurations and options for duct, immersion, duct averaging, remote strap-on and outside air applications.

The single point sensors are encapsulated in a 6.35 mm

(0.25”) OD 304 stainless steel probe. All probes are constructed to provide good heat transfer and fast response. The averaging sensors are available in both plenum rated cable or with a copper probe.

The TE500 transmitter option is standard with the

1000

platinum sensor and provides either 4 – 20mA,

0 – 5 VDC or 0 – 10 VDC output over a selected range.

It is powered by either 24 VAC or VDC. A 100

Ω platinum sensor transmitter is optional.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4–20mA, 0–5 VDC or 0-10

VDC

Accuracy: ±0.1% of span

Operating temp: 0ºC – 70ºC (32ºF – 158ºF)

OSA operating temp: -40°C – 85°C (-40°F – 185°F)

Calibration: In compliance with ANSI/NCSL

2540-11994

B) Duct Sensor – For single point monitoring. It is available with various probe lengths and enclosures to fit any application.

C) Immersion Sensor – Comes in two configurations.

It has either spring loaded or non-spring loaded probes and has a ½” NPT fitting to be mounted into a thermowell. It is available in various lengths and enclosures styles.

E) Strap-on Sensor – Is a stainless steel probe and is used in remote applications where an immersion sensor can not be installed.

F) OSA Sensor – Comes in an aluminum LB c/w

½” NPT fitting for connection to conduit.

It incorporates a sun/wind shield to protect the sensor

FD) Flex-Duct Sensor – Is made of flexible plenum rated cable which incorporates numerous sensors along the assembly. It acts as a single sensor averaging any temperature change across the sensors.

D) Duct Average Sensor – Incorporates numerous sensors inside a copper tube. It acts as a single sensor, averaging any temperature change across the sensors.

NOTE:

Standard probe assemblies are rated at -40°C – 105°C (-40°F - 221°F).

For higher or lower temperature applications, please contact Greystone.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

PROBE TEMPERATURE SENSORS/TRANSDUCERS: PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Style

AP

B

BB

C

D

E

F

FD

G

H

HC

All purpose

Duct mount

Duct probe w/ mounting bracket only

Immersion

Duct average (copper)

Strap-on

Outside Air

Duct average (flexible plenum rated cable)

Glass

Stack

Clip

-

M

R

W

(GES ABS enclosure is standard)

ABS enclosure, standard (no code required, leave blank)

Metal utility box

No box

Aluminum weatherproof box

CODE Flex Duct Only

A

B

C

D

Lead only, no box

ABS enclosure

Aluminum weatherpoof box

Metal utility box

7

8

9

11

2

4

5

6

12

13

20

21

24

CODE Sensor

PT100-100

Platinum,IEC 751, 385 Alpha, thin film

PT100–100

Platinum, IEC 751, 385 Alpha, wire wound-ceramic* (see below)

1801

, NTC Thermistor, ±0.2°C

3000

, NTC Thermistor, ±0.2°C

10,000

, type 3, NTC Thermistor, ±0.2°C

2.252K

Ω,

NTC Thermistor, ±0.2°C

100,000

, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000

Platinum, IEC 751, 385 Alpha, thin film

1000

Nickel

20,000

, NTC Thermsitor, ±0.2°C

LM335 IC, 10mv/°C

10,000

, type 2, NTC Thermistor, ±0.2°C

*must use for high temp. applications over 400°C (752°F)

CODE Probe

A

B

C

D

E

F

50 mm (2”)

100 mm (4”)

150 mm (6”)

200 mm (8”)

300 mm (12”)

450 mm (18”)

CODE Copper Avg. (D)

G

H

I

J

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

CODE

Probe Material (not required for F, FD, G, HC)

2

3

Stainless steel

Copper (rigid duct average only)

CODE

Fitting (only required for immersion)

CODE Flex Avg. (FD)

A

B

C

D

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

A

E

Spring loaded 1/2” NPT

Non-spring loaded 1/2” NPT

CODE TE500 Transmitter Power Supply

1

24 VAC/VDC

CODE TE500 Transmitter Output Option

A

D

E

4 – 20mA

0 – 5 VDC

0 – 10 VDC

CODE TE500 Transmitter Range Option

TE200 D - 7 I 3 -

1

2

3

4

5

6

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

0°C – 100°C (32°F – 212°F)

50°C – 150°C (122°F – 302°F)

50°C – 250°C (122°F – 482°F)

-50°C – +50°C (-58°F – 122°F)

Custom ranges available upon request.

- - -

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.4.4

Description: Average duct temperature sensor 20'

Model: TE200FDB7C

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

PROBE SENSORS

FEATURES: TRANSMITTER:

The TE Series Temperature sensors offer a choice of precision platinum RTD’s, IC, or NTC thermistor sensors which can be interfaced with a computerized monitoring or control system.

The sensors are available in different housings, with various configurations and options for duct, immersion, duct averaging, remote strap-on and outside air applications.

The single point sensors are encapsulated in a 6.35 mm

(0.25”) OD 304 stainless steel probe. All probes are constructed to provide good heat transfer and fast response. The averaging sensors are available in both plenum rated cable or with a copper probe.

The TE500 transmitter option is standard with the

1000

platinum sensor and provides either 4 – 20mA,

0 – 5 VDC or 0 – 10 VDC output over a selected range.

It is powered by either 24 VAC or VDC. A 100

Ω platinum sensor transmitter is optional.

Transmitter General Specifications:

Supply Voltage: 24 VDC/VAC

Output: 4–20mA, 0–5 VDC or 0-10

VDC

Accuracy: ±0.1% of span

Operating temp: 0ºC – 70ºC (32ºF – 158ºF)

OSA operating temp: -40°C – 85°C (-40°F – 185°F)

Calibration: In compliance with ANSI/NCSL

2540-11994

B) Duct Sensor – For single point monitoring. It is available with various probe lengths and enclosures to fit any application.

C) Immersion Sensor – Comes in two configurations.

It has either spring loaded or non-spring loaded probes and has a ½” NPT fitting to be mounted into a thermowell. It is available in various lengths and enclosures styles.

E) Strap-on Sensor – Is a stainless steel probe and is used in remote applications where an immersion sensor can not be installed.

F) OSA Sensor – Comes in an aluminum LB c/w

½” NPT fitting for connection to conduit.

It incorporates a sun/wind shield to protect the sensor

FD) Flex-Duct Sensor – Is made of flexible plenum rated cable which incorporates numerous sensors along the assembly. It acts as a single sensor averaging any temperature change across the sensors.

D) Duct Average Sensor – Incorporates numerous sensors inside a copper tube. It acts as a single sensor, averaging any temperature change across the sensors.

NOTE:

Standard probe assemblies are rated at -40°C – 105°C (-40°F - 221°F).

For higher or lower temperature applications, please contact Greystone.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

PROBE TEMPERATURE SENSORS/TRANSDUCERS: PRODUCT ORDERING INFORMATION

TE200

TE500

Sensor assembly

Sensor assembly c/w transmitter (sensor type 12 is standard)

CODE Style

AP

B

BB

C

D

E

F

FD

G

H

HC

All purpose

Duct mount

Duct probe w/ mounting bracket only

Immersion

Duct average (copper)

Strap-on

Outside Air

Duct average (flexible plenum rated cable)

Glass

Stack

Clip

-

M

R

W

(GES ABS enclosure is standard)

ABS enclosure, standard (no code required, leave blank)

Metal utility box

No box

Aluminum weatherproof box

CODE Flex Duct Only

A

B

C

D

Lead only, no box

ABS enclosure

Aluminum weatherpoof box

Metal utility box

7

8

9

11

2

4

5

6

12

13

20

21

24

CODE Sensor

PT100-100

Platinum,IEC 751, 385 Alpha, thin film

PT100–100

Platinum, IEC 751, 385 Alpha, wire wound-ceramic* (see below)

1801

, NTC Thermistor, ±0.2°C

3000

, NTC Thermistor, ±0.2°C

10,000

, type 3, NTC Thermistor, ±0.2°C

2.252K

Ω,

NTC Thermistor, ±0.2°C

100,000

, NTC Thermistor, ±0.2°C

LM334 IC, 1.0uA/°C

PT1000

Platinum, IEC 751, 385 Alpha, thin film

1000

Nickel

20,000

, NTC Thermsitor, ±0.2°C

LM335 IC, 10mv/°C

10,000

, type 2, NTC Thermistor, ±0.2°C

*must use for high temp. applications over 400°C (752°F)

CODE Probe

A

B

C

D

E

F

50 mm (2”)

100 mm (4”)

150 mm (6”)

200 mm (8”)

300 mm (12”)

450 mm (18”)

CODE Copper Avg. (D)

G

H

I

J

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

CODE

Probe Material (not required for F, FD, G, HC)

2

3

Stainless steel

Copper (rigid duct average only)

CODE

Fitting (only required for immersion)

CODE Flex Avg. (FD)

A

B

C

D

1800 mm (6’)

3600 mm (12’)

6100 mm (20’)

7300 mm (24’)

A

E

Spring loaded 1/2” NPT

Non-spring loaded 1/2” NPT

CODE TE500 Transmitter Power Supply

1

24 VAC/VDC

CODE TE500 Transmitter Output Option

A

D

E

4 – 20mA

0 – 5 VDC

0 – 10 VDC

CODE TE500 Transmitter Range Option

TE200 D - 7 I 3 -

1

2

3

4

5

6

0°C – 35°C (32°F – 95°F)

0°C – 50°C (32°F – 122°F)

0°C – 100°C (32°F – 212°F)

50°C – 150°C (122°F – 302°F)

50°C – 250°C (122°F – 482°F)

-50°C – +50°C (-58°F – 122°F)

Custom ranges available upon request.

- - -

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.9

Description: CO2 detector Duct Mounted

Model: CCD1A6000

Supplier info:

Name:

Address:

Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

CO

2

DETECTOR

Environmental, industrial and commercial indoor Carbon

Dioxide (CO

2

) gas detector. Available in both a space and duct mount version.

APPLICATION:

To sense and transmit to any compatible electronic analog control, DDC/PLC controller or automation system for the control of ventilation equipment. Designed to meet ventilation requirements specified in ASHRAE

Standard 62-1989.

FEATURES:

Setup/calibration fully menu driven (requires

LCD option)

Monitors CO2 over range 0-2000 PPM (factory default)

Field adjustable range from 0-1500 PPM up to

10,000 PPM without re-calibration!

NDIR single beam with patented ACLP self- calibration algorithm

Guaranteed 5 year calibration interval

Optional on board relay with field adjustable trip point

Optional LCD for displaying PPM level and menu options

Powered by either AC or DC source with no change to circuit required

Choice of two field adjustable analog output signals, linearized over full range

Easy to calibrate in the field

Duct Mount ABS Enclosure with Sampling Tube

SPECIFICATIONS

Gas Detected

Range

Standard Accuracy

Extended Accuracy

Sensing Element

Operation Conditions

Repeatability

Stability

Manufacturing Process

Output Signal

Output Drive Capability

Output Resolution

LCD Display (optional)

Field Calibration

External Dimensions

CO

2

DETECTOR – Product # CDD

Carbon Dioxide (CO

2

)

0 – 2000 ppm standard, programmable from 1500 up to 10,000 ppm in 500 ppm increments

±75 PPM or3% of reading (whichever is greater) 15-32 C (59-90 F) for 0-2000 ppm range

±5% of reading for 2000-10,000 ppm

±150 ppm or 5% of reading (whichever is greater) 0-50 C (32-122 F) for 0-2000 ppm range

±7% of reading for 2000-10,000 ppm

Non-Dispersive Infrared (NDIR)

0-50C(32-122F), 0-95% RH non-condensing

±20 PPM

±20 PPM typical, 5 year calibration interval

ISO 9002 certified

4-20 mA active (sourcing), 0-5Vdc and 0-10Vdc, jumper selectable (Note correct part number)

550 ohm max for current output, 10 Kohm min for voltage output

10 bit PWM

LCD for displaying PPM level (required for field programming)

1 ppm resolution, 1.1” w x 0.5” h (28 x 13 mm) alpha-numeric 2 line x 8 characters

Calibration, applying calibration gas standards (Contact Greystone for Calibration kit)

Corporate Space – 91mm W x 127mm H x 43 mm D (3.6” x 5” x 1.7”)

Duct ABS – 124 mm W x 183 mm H x 43 mm D (4.9” x 7.22” x 1.69”)

ISO 9002

Q M I

GREYSTONE ENERGY SYSTEMS INC.

SPECIFICATIONS (Con’t) CO

2

DETECTOR – Product # CDD

Pressure Dependence

0.13% of reading per mm Hg

Programmable from 0-5000 ft in 500 ft increments

Altitude Correction

Response Time

< 60 seconds for 90% step change

Warm-up Time

Power Supply

Consumption

Input Voltage Effect

Protection Circuitry

< two (2) minutes

20-30 Vac/dc (non-isolated half-wave rectified)

80 mA max @ 24 Vdc, 36 mA avg @24 Vdc

Negligible over specified operating range

Reverse voltage protected and output limited

Optional Relay Output

One Form C contact (N.O. and N.C.), status LED, 5 amps @ 250 Vac, 5 amps @ 30Vdc, p.f. = 1

Relay Trip Point – Programmable 500-1500 ppm in 50 ppm increments

Relay Hysteresis – Programmable 25-200 ppm in 25 ppm increments

Programming and Selection

Via internal push-buttons and jumper

Wiring Connections

Screw terminal block (14 to 22 AWG)

CARBON DIOXIDE (CO2): PRODUCT ORDERING INFORMATION

MODEL Description

CDD

Carbon Dioxide Detector (CO

2

)

CODE Sensing Element

1

Non-Dispersive Infrared (NDIR)

CODE Gas Type

A

CO

2

– Carbon Dioxide Detector (CDD)

CODE Enclosure and Outputs

1

2

6

Range

0-2000 PPM Standard

Corporate Space c/w 4-20 mA and 0-5 Vdc outputs

Corporate Space c/w 4-20 mA and 0-10 Vdc outputs

Duct ABS c/w Sampling Tube, 4-20 mA, 0-5 Vdc and 0-10 Vdc outputs

User programmable up to

10,000 PPM

CODE Circuit Board Relay

00

10

No Relay

One Relay (DPDT, N.O. or N.C., 5A @ 24 VDC)

CODE Options

0

1

2

No options

LCD

RS-485 Communication (Please contact Greystone)

Example: NDIR CO2 Corporate No Relay No Options

Greystone Energy Systems, Inc. reserves the right to make design modifications without prior notice.

GREYSTONE ENERGY SYSTEMS INC.

ISO 9002

Q M I

DIMENSIONS nts

43.8 mm

(1.69”)

124.5 mm

(4.90”)

183.4 mm

(7.22”)

127 mm

(5.00”)

92.7 mm

(3.65”)

42.9 mm

(1.69”)

ACLP SOFTWARE AND 5 YEAR CALIBRATION GUARANTEE

ACLP SOFTWARE

ACLP (Automatic Calibration Logic Program) software utilizes the computing power in the sensor’s on-board microprocessor to remember the lowest CO2 concentration that takes place every 24 hours. The sensor assumes this low point is at outside levels. The sensor is also smart enough to discount periodic elevated readings that might occur if for example a space was used 24 hours per day over a few days. Once the sensor has collected 14 days worth of low concentration points it performs a statistical analysis to see if there has been any small changes in the sensor reading over background levels that could be attributable to sensor drift. If the analysis concludes there is drift, a small correction factor is made to the sensor calibration to adjust for this change.

5 YEAR CALIBRATION GUARANTEE

Based on the results of years of testing of

ACLP software

, Greystone now offers a 5 year calibration guarantee on all its CDD series wall and duct mount sensors used for CO

2

based ventilation control when operated in an environment that can utilize ACLP software. If the sensor is found to be out of calibration more than 150 ppm as compared to a calibration gas or recently calibrated reference, Greystone will provide a free factory calibration of the sensor if returned to Greystone. This guarantee only applies if the sensor is operated in an environment where inside levels periodically drop to outside concentrations (i.e. during evenings or weekends when there is no occupancy) as is required by ACLP software. If a space does not experience a periodic drop to outside levels (e.g. where occupancy is 24 hours, 7 days/week), ACLP software should be deactivated off. With ACLP deactivated (via menu buttons) calibration may be required every 2 to 3 years.

ISO 9002

Q M I

Greystone Energy Systems Inc.

150 English Drive, Moncton, NB

Canada E1E 4G7

(506) 853-3057 Fax: (506) 853-6014 e-mail: [email protected] www.greystoneenergy.com

Greystone Energy Systems Inc., established in 1983, is Canada’s largest manufacturer of HVAC sensors and transducers for Building Automation Management Systems.

We have conscientiously established a worldwide reputation as an industry leader by maintaining leading- edge design technology, prompt technical support, and a commitment to on-time deliveries. We take pride in our

Quality Management System which is ISO 9002 certified, assuring our customers of consistent product reliability.

GREYSTONE IS AN

ISO 9002

REGISTERED COMPANY

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.9

Description: CO2 detector Wall Mounted

Supplier info:

Address:

Manufacturer info:

Name: Telaire

Address: 6860 Cortona Drive - Suite B, Golete, CA 93117

Website www.telaire.com

How The Commercial Grade Sensor Works

Telaire’s CO

2

sensor can detect gases based on the fact that gases will absorb light at very specific wavelengths in the infrared spectrum.

In the Telaire

®

sensor, gas diffuses through a gas permeable membrane and into the sample chamber. The gas permeable membrane allows gas molecules to pass freely but prevents the entry of particulates. A light source at one end of the chamber generates a broad band of infrared energy that is directed through the sample chamber. Because much of the light bounces off the gold plated walls of the sensor, a longer effective sample path

Gas Permeable

Membrane

CO

2

can be achieved in a small distance.

At the other end of the sensor is a special optical filter installed on top of a light detector.

The optical filter is designed to only admit light at the wavelength where CO

2

is known to absorb light. The small change in light intensity caused by a change in CO

2

concentrations is then measured by the detector and converted into a CO

2

measurement by a microprocessor. The microprocessor also automatically calibrates and corrects the sensor for long term drift using Telaire’s patented ABC

Logic™ self calibration software.

Microprocessor

Corrects Drift

Using ABC Logic™

Signal to

Microprocessor

-XE

87L88GGV

COP

Light Source Single Channel

Detector

Sends CO Signal to Equipment

Specifications

Method

Single Beam Absorption Infrared

Diffusion sample method

Performance

Measurement Range

0-2000 ppm factory default

Adjustable to 10,000 ppm.

Accuracy

±75ppm or 7% whichever is greater

Elevation (Pressure) Correction

Add 0.13% of reading per mm Hg decrease from 760 mm Hg (On-board correction, user set with UIP software), preset at sea level

Response Time 0-90%

<1 minute

Warm-Up Time @ 25 o

<2 minutes

C

Operating Conditions

15-32 o C (60-90 o F)

0 – 95% RH, non-condensing

Storage Temperature

-40 – 70 o

C

Agency Certification

FCC Part 15 Class B / CE

Black Case - UL94-5V Rated

Input/Output

Power

18-30 VAC RMS, 50/60 Hz -half-wave rectified

18-42 VDC polarity protected

1.75 VA maximum average power

2.75 VA peak power

Analog Output (Simultaneous)

0-10 VDC (100 Ohms output impedance)

4-20 mA (RLmax = 500 Ohms)

Relay Output

Normally Open and Normally Closed (wire either way), gold bifurcated, 2A max. @

24VAC. Adjustable setpoint (with UIP software kit), factory set at 1000 ppm, 50 ppm hysteresis

Wiring

18-28 AWG stranded copper wire only. 2 wires each for power, analog output, relay

Digital I/O

RS-232 interface for use with optional PC software and cable in UIP kit 2072

Warranty/Other

Warranty

18 months parts and labor

Calibration

5-year calibration guarantee

6489 Calle Real Goleta, CA 93117

805.964.1699

FAX

805.964.2129

800-472-6075 - www.telaire.com

It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice.

For more information or questions relative to this

Specification Sheet, contact Telaire.

©

Copyright 1998-2000 Telaire

Covered by United States Patents:

5,060,508 and 5,163,332

F0135-1

F0124-1

Ventostat

®

8001/8002

Single Beam CO

2

Ventilation Controllers

The Ventostat

®

8001 and 8002 carbon dioxide (CO2) sensors and controllers are designed for Demand Controlled

Ventilation DCV in buildings. This approach, using CO

2

as an indicator of occupancy, allows ventilation based on actual occupancy while still maintaining

ASHRAE recommended per-person ventilation rates. Over-ventilation of buildings can be reduced, energy can be saved and air quality can be optimized. The optional black case (8001B

Commercial Grade

and 8002B) is UL94-V5 rated making these models suitable for mounting directly inside the ductwork. Typical applications for the 8001 and 8002 include office buildings, conference rooms, schools, retail stores, restaurants, gymnasiums, and movie theaters.

8 0 0 1

8 0 0 1 B

8 0 0 2 8 0 0 2 B

Features/Benefits

§

Telaire’s Patented Absorption Infrared

TM

gas sensing engine provides high accuracy in a compact low cost package.

§

Patented ABC Logic™ self-calibration system eliminates the need for manual calibration in most applications (see ABC

Logic section).

§

10 years of Telaire ® experience and reliability built in.

§

Gold-plated optical sensor increases sensor life and durability.

§

Attractive low profile case in either white or black to suit you building décor.

§

Mounting plate with terminal block provides quick, easy wiring. Compatible with standard US and European junction boxes.

§

Gas permeable, water resistant diffusion filter prevents particulate and water contamination of the sensor.

§

Locking screw secures cover and sensor to the mounting plate for tamper resistance.

§

Dual simultaneous analog output (V & mA).

§

On-board relay (normally open or closed) with adjustable setpoint and dead-band.

§

Choice of 9 pre-programmed “standard settings”.

§

Adjustable settings allow for simple configuration with economizers to deliver specific target cfm/person ventilation rates.

§

Simple plug-in PC based user interface program allows for configuring and calibrating the sensor.

§

On-board push-button interface and 2 line by 8 character display allows for quick, easy customizing (8002 models only).

§

Optional enclosures available for wet and cold temperature environments.

§

One-step calibration process (if necessary) can be completed in 5 minutes.

§

The 8001B/8002B (Black Case) includes conformal coated PCB with a UL94-5V rated enclosure for direct in duct mounting or increased environmental durability.

ABC Logic™ Provides Automatic Calibration

Telaire’s 8001 and 8002 commercial CO

2 controllers use the patented

ABC Logic™

(Automatic Background Calibration) self-

Calibration system that virtually eliminates the need for manual calibration in applications where the indoor CO

2

level drops to outside levels during unoccupied periods

(e.g. during evening hours).

ABC Logic™

is a special software routine in the sensor that

1200

remembers the background readings for 14 consecutive evenings and calculates if there is sensor drift and then corrects for it.

ABC

Logic™

will not work properly in applications where the space is unoccupied for less than four hours a day or where there are industrial sources of CO

2

in the building such as breweries or wineries.

1100

1000

900

800

700

600

600 200 400

Fast One Step Calibration

All 8000 Series CO

2

Sensors feature a fast one step calibration process should it ever be required. A zero calibration can be performed in 5 minutes by flowing gas to the calibration port and activating the calibration routine. If drift occurs in the sensor it usually affects the zero setting of the sensor only. If a two point calibration is desired, it can be performed using the UIP

Program.

User Interface Program (UIP)

All Ventostat

®

8000 series controllers can be connected to a PC using the UIP 2072 easyto-use Windows

®

program. Simply connect to the sensor using the on-board RJ45 jack and you can adjust the output scaling, elevation adjustment, relay setpoint, relay

Days

600 800 1000 1200

5-Year Calibration Guarantee

Telaire

®

is serious about calibration stability and backs Ventostat ® 8001 and 8002 models with a 5 year calibration guarantee. If a

Telaire ® 8000 sensor drifts out of calibration range in the first five years of use it can be sent back to Telaire

®

for a free factory calibration. Further information on the guarantee is provided with every product.

dead-band, select linear or proportional or exponential output, perform single-point or two-point calibration, and check ppm levels.

Display units can also be adjusted using the keypad.

ABC Logic™

CO

2

Engineering Specification

The CO

2

sensor for demand control ventilation shall be the 8001 or 8002 nondispersive infrared sensor made by Telaire

®

(805-964-1699). The diffusion gas chamber in the sensor should incorporate a reflective, gold plated light pipe or waveguide surrounded by a gas permeable teflon based hydrophobic diffusion filter that prevents particulate and water contamination of the sensor. The sensor shall provide simultaneous analog outputs in volts and miliamps and shall have a gold bifurcated relay that can be operated as normally open or closed. The sensor shall incorporate elevation correction adjustment and ABC

Logic™ (Automatic Background Calibration) software for self-correction of drift to better than ±10ppm per year. The sensor shall have an accuracy of ±75 ppm or 7% of the reading (whichever is greater). All adjustments to the sensor including output scaling, elevation adjustment, relay setpoint, relay dead-band, proportional or exponential output, and single-point calibration shall be made via computer connection to an onboard RJ45 jack. The 8002 product shall also be adjusted using the on-board push buttons and display. For ease of installation, the sensor shall have a detachable base with all field wiring terminals on the base. This product meets or exceeds specifications for the Ventostat

®

Model 2001V.

Accessories

1505 Water Resistant

Enclosure for Harsh

Environments

UIP

2072 UIP

For Customizing Settings and Calibration

Models / Features

§

§

§

1551 Outside Air

Enclosure for Temperatures to -20°F (-29°C)

2075 Calibration Kit

For Performing Zero and Span Calibration.

Replacement Bottles

For Replacing 2075

Gas Bottles

Factory calibration available - Call for details.

Ventostat

®

8001

§

No Display

Wall Mount

§

0-10,000 PPM

Ventostat

®

8001B

§

No Display

Wall or In-Duct

Mount

§

0-10,000 PPM

1508 Aspiration Box

For In Duct Mounting

Ventostat

®

8002

§

Display

Wall Mount

§

0-10,000 PPM

Ventostat

®

8002B

§

Display

Wall or In-Duct

Mount

§

0-10,000 PPM

All units are compatible with Accessory Enclosures, 2072 UIP and Calibration Kit.

All units can be zero calibrated using a zero gas and on-board keypad.

Black enclosures are UL94-5V Rated and electronics are conformally coated for direct in-duct mounting.

Display units are provided with locking covers for hidden or visible display.

Cross-Reference

The Ventostat ® 8001 and 8002 controllers meets or exceeds the performance specifications and functionality for the Model

Ventostat ® 2001V and may be used as a direct substitute.

Dimensions

3 1/4" 1 1/8"

2 7/8"

2 3/8"

5 5/8"

2 3/8"

3 1/4"

4 1/4"

5 1/16"

Front View of Sensor

Side View with

Mounting Bracket

Mounting Bracket

Features/Benefits

§

Telaire’s Patented Absorption Infrared

TM

gas sensing engine provides high accuracy in a compact low cost package.

§

Patented ABC Logic™ self-calibration system eliminates the need for manual calibration in most applications (see ABC

Logic section).

§

10 years of Telaire ® experience and reliability built in.

§

Gold-plated optical sensor increases sensor life and durability.

§

Attractive low profile case in either white or black to suit you building décor.

§

Mounting plate with terminal block provides quick, easy wiring. Compatible with standard US and European junction boxes.

§

Gas permeable, water resistant diffusion filter prevents particulate and water contamination of the sensor.

§

Locking screw secures cover and sensor to the mounting plate for tamper resistance.

§

Dual simultaneous analog output (V & mA).

§

On-board relay (normally open or closed) with adjustable setpoint and dead-band.

§

Choice of 9 pre-programmed “standard settings”.

§

Adjustable settings allow for simple configuration with economizers to deliver specific target cfm/person ventilation rates.

§

Simple plug-in PC based user interface program allows for configuring and calibrating the sensor.

§

On-board push-button interface and 2 line by 8 character display allows for quick, easy customizing (8002 models only).

§

Optional enclosures available for wet and cold temperature environments.

§

One-step calibration process (if necessary) can be completed in 5 minutes.

§

The 8001B/8002B (Black Case) includes conformal coated PCB with a UL94-5V rated enclosure for direct in duct mounting or increased environmental durability.

ABC Logic™ Provides Automatic Calibration

Telaire’s 8001 and 8002 commercial CO

2 controllers use the patented

ABC Logic™

(Automatic Background Calibration) self-

Calibration system that virtually eliminates the need for manual calibration in applications where the indoor CO

2

level drops to outside levels during unoccupied periods

(e.g. during evening hours).

ABC Logic™

is a special software routine in the sensor that

1200

remembers the background readings for 14 consecutive evenings and calculates if there is sensor drift and then corrects for it.

ABC

Logic™

will not work properly in applications where the space is unoccupied for less than four hours a day or where there are industrial sources of CO

2

in the building such as breweries or wineries.

1100

1000

900

800

700

600

600 200 400

Fast One Step Calibration

All 8000 Series CO

2

Sensors feature a fast one step calibration process should it ever be required. A zero calibration can be performed in 5 minutes by flowing gas to the calibration port and activating the calibration routine. If drift occurs in the sensor it usually affects the zero setting of the sensor only. If a two point calibration is desired, it can be performed using the UIP

Program.

User Interface Program (UIP)

All Ventostat

®

8000 series controllers can be connected to a PC using the UIP 2072 easyto-use Windows

®

program. Simply connect to the sensor using the on-board RJ45 jack and you can adjust the output scaling, elevation adjustment, relay setpoint, relay

Days

600 800 1000 1200

5-Year Calibration Guarantee

Telaire

®

is serious about calibration stability and backs Ventostat ® 8001 and 8002 models with a 5 year calibration guarantee. If a

Telaire ® 8000 sensor drifts out of calibration range in the first five years of use it can be sent back to Telaire

®

for a free factory calibration. Further information on the guarantee is provided with every product.

dead-band, select linear or proportional or exponential output, perform single-point or two-point calibration, and check ppm levels.

Display units can also be adjusted using the keypad.

ABC Logic™

CO

2

Engineering Specification

The CO

2

sensor for demand control ventilation shall be the 8001 or 8002 nondispersive infrared sensor made by Telaire

®

(805-964-1699). The diffusion gas chamber in the sensor should incorporate a reflective, gold plated light pipe or waveguide surrounded by a gas permeable teflon based hydrophobic diffusion filter that prevents particulate and water contamination of the sensor. The sensor shall provide simultaneous analog outputs in volts and miliamps and shall have a gold bifurcated relay that can be operated as normally open or closed. The sensor shall incorporate elevation correction adjustment and ABC

Logic™ (Automatic Background Calibration) software for self-correction of drift to better than ±10ppm per year. The sensor shall have an accuracy of ±75 ppm or 7% of the reading (whichever is greater). All adjustments to the sensor including output scaling, elevation adjustment, relay setpoint, relay dead-band, proportional or exponential output, and single-point calibration shall be made via computer connection to an onboard RJ45 jack. The 8002 product shall also be adjusted using the on-board push buttons and display. For ease of installation, the sensor shall have a detachable base with all field wiring terminals on the base. This product meets or exceeds specifications for the Ventostat

®

Model 2001V.

Accessories

1505 Water Resistant

Enclosure for Harsh

Environments

UIP

2072 UIP

For Customizing Settings and Calibration

Models / Features

§

§

§

1551 Outside Air

Enclosure for Temperatures to -20°F (-29°C)

2075 Calibration Kit

For Performing Zero and Span Calibration.

Replacement Bottles

For Replacing 2075

Gas Bottles

Factory calibration available - Call for details.

Ventostat

®

8001

§

No Display

Wall Mount

§

0-10,000 PPM

Ventostat

®

8001B

§

No Display

Wall or In-Duct

Mount

§

0-10,000 PPM

1508 Aspiration Box

For In Duct Mounting

Ventostat

®

8002

§

Display

Wall Mount

§

0-10,000 PPM

Ventostat

®

8002B

§

Display

Wall or In-Duct

Mount

§

0-10,000 PPM

All units are compatible with Accessory Enclosures, 2072 UIP and Calibration Kit.

All units can be zero calibrated using a zero gas and on-board keypad.

Black enclosures are UL94-5V Rated and electronics are conformally coated for direct in-duct mounting.

Display units are provided with locking covers for hidden or visible display.

Cross-Reference

The Ventostat ® 8001 and 8002 controllers meets or exceeds the performance specifications and functionality for the Model

Ventostat ® 2001V and may be used as a direct substitute.

Dimensions

3 1/4" 1 1/8"

2 7/8"

2 3/8"

5 5/8"

2 3/8"

3 1/4"

4 1/4"

5 1/16"

Front View of Sensor

Side View with

Mounting Bracket

Mounting Bracket

How The Commercial Grade Sensor Works

Telaire’s CO

2

sensor can detect gases based on the fact that gases will absorb light at very specific wavelengths in the infrared spectrum.

In the Telaire

®

sensor, gas diffuses through a gas permeable membrane and into the sample chamber. The gas permeable membrane allows gas molecules to pass freely but prevents the entry of particulates. A light source at one end of the chamber generates a broad band of infrared energy that is directed through the sample chamber. Because much of the light bounces off the gold plated walls of the sensor, a longer effective sample path

Gas Permeable

Membrane

CO

2

can be achieved in a small distance.

At the other end of the sensor is a special optical filter installed on top of a light detector.

The optical filter is designed to only admit light at the wavelength where CO

2

is known to absorb light. The small change in light intensity caused by a change in CO

2

concentrations is then measured by the detector and converted into a CO

2

measurement by a microprocessor. The microprocessor also automatically calibrates and corrects the sensor for long term drift using Telaire’s patented ABC

Logic™ self calibration software.

Microprocessor

Corrects Drift

Using ABC Logic™

Signal to

Microprocessor

-XE

87L88GGV

COP

Light Source Single Channel

Detector

Sends CO Signal to Equipment

Specifications

Method

Single Beam Absorption Infrared

Diffusion sample method

Performance

Measurement Range

0-2000 ppm factory default

Adjustable to 10,000 ppm.

Accuracy

±75ppm or 7% whichever is greater

Elevation (Pressure) Correction

Add 0.13% of reading per mm Hg decrease from 760 mm Hg (On-board correction, user set with UIP software), preset at sea level

Response Time 0-90%

<1 minute

Warm-Up Time @ 25 o

<2 minutes

C

Operating Conditions

15-32 o C (60-90 o F)

0 – 95% RH, non-condensing

Storage Temperature

-40 – 70 o

C

Agency Certification

FCC Part 15 Class B / CE

Black Case - UL94-5V Rated

Input/Output

Power

18-30 VAC RMS, 50/60 Hz -half-wave rectified

18-42 VDC polarity protected

1.75 VA maximum average power

2.75 VA peak power

Analog Output (Simultaneous)

0-10 VDC (100 Ohms output impedance)

4-20 mA (RLmax = 500 Ohms)

Relay Output

Normally Open and Normally Closed (wire either way), gold bifurcated, 2A max. @

24VAC. Adjustable setpoint (with UIP software kit), factory set at 1000 ppm, 50 ppm hysteresis

Wiring

18-28 AWG stranded copper wire only. 2 wires each for power, analog output, relay

Digital I/O

RS-232 interface for use with optional PC software and cable in UIP kit 2072

Warranty/Other

Warranty

18 months parts and labor

Calibration

5-year calibration guarantee

6489 Calle Real Goleta, CA 93117

805.964.1699

FAX

805.964.2129

800-472-6075 - www.telaire.com

It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice.

For more information or questions relative to this

Specification Sheet, contact Telaire.

©

Copyright 1998-2000 Telaire

Covered by United States Patents:

5,060,508 and 5,163,332

F0135-1

F0124-1

Ventostat

®

8001/8002

Single Beam CO

2

Ventilation Controllers

The Ventostat

®

8001 and 8002 carbon dioxide (CO2) sensors and controllers are designed for Demand Controlled

Ventilation DCV in buildings. This approach, using CO

2

as an indicator of occupancy, allows ventilation based on actual occupancy while still maintaining

ASHRAE recommended per-person ventilation rates. Over-ventilation of buildings can be reduced, energy can be saved and air quality can be optimized. The optional black case (8001B

Commercial Grade

and 8002B) is UL94-V5 rated making these models suitable for mounting directly inside the ductwork. Typical applications for the 8001 and 8002 include office buildings, conference rooms, schools, retail stores, restaurants, gymnasiums, and movie theaters.

8 0 0 1

8 0 0 1 B

8 0 0 2 8 0 0 2 B

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.1.1.4

Description: Web Access Software

Supplier info:

Name:

Address:

Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R6

Manufacturer info:

Name: Reliable Controls Corporation

Address: 207-3375 Whittier Avenue, Victoria, BC V8Z 3R6

Website www.reliable-controls.com

R

eliable Controls® MACH-System server based Web access

D

istributed system access and manipulation through IE 5.5 or higher

R

eal-time, dynamic display of System Group screens

C

onfiguration utility for ease-of-setup

U

nlimited number of simultaneous user connections

P

assword protection for system integrity

The Reliable Controls®

RC-WebView™ Web based system access software gives building operators yet another simple, flexible, and economical solution to access, monitor, and control building environments

The Reliable Controls® RC-WebView™ Web server software is part of the software suite for the Reliable Controls®

MACH-System.

© 2003 Reliable Controls Corporation

Reliable Controls® Corporation, 207-3375 Whittier Ave., Victoria BC, V8Z 3R1

Toll Free: 1 (877) 475-9301 Tel: (250) 475-2036 Fax: (250) 475-2096

RC-WebView™ Software

R

c-WebView™ enhances the Reliable Controls® suite of building automation software by providing a Web-based access solution that uses Microsoft Internet Explorer 5.5 in place of client side software. RC-WebView™ resides on a dedicated server connected anywhere in the World Wide Web.

The software configuration is easy and the number of users connected to RC-WebView™ is only limited by the capability of the server hosting the application.

RC-WebView™ is designed to user the same file structure as

RC-Studio®, enabling the two applications to present system group data in the same manner. A common file structure allows the two applications to dynamically synchronize data so that the display is the same in either application.

RC-WebView™ allows the operator to user a browser to view and manually override points, adjust weekly schedules and annual schedules, view graph and print trend and runtime logs, and view and print current alarms.

F E A T U R E S

Easy Setup

• Configuration utility provides easy setup

• Password security protection

• Tree view feature provides intuitive navigation

• Mulltiple systems supported

Easy Operator Use

• Dynamic system data displayed in intuitive graphical screens

• Right click access to edit and manually override points

• Single click access to view and adjust weekly schedules, annual schedules, trend and runtime logs, and current system alarms

• Custom functionality achieved through the inclusion of system keywords

Dynamic Data

• Data synchronization between

RC-WebView™ and the systems connected to RC-Studio®

• Automatic translation of graphics. No need to perform custom exports

Easy Connectivity

• Use any copy of Microsoft

Internet Explorer 5.5 or higher to display Web sites created in

RC-WebView™

• Unlimited number of users can access site simultaneously

O R D E R I N G

RC -WEB-SRV

• RC-WebView™ Server configured with single system license of RC-WebView™

Software

RC -WEB-A

• RC-WebView™ Software - additional system license

PC Requirements

• Intel Pentium IV 1.8 Ghz

Processor

• Gigabyte GA-8INXP Server

Motherboard

• 2 x Maxtor 40.0 GB, 7,200 RPM

ATA/133 Hard Drive

• 1.44 MB Floppy Drive, LG 52x

CDROM Drive

• 2 x 256 MB DDR RAM

• Nvidia GeForce Video Card

• Windows 2000 Server License,

IIS Service

• 19” 4U Rackmount Chassis,

300W Power Supply

• Keyboard

• Logitech Wheel Mouse

Configuration Utility

Current Alarms

Operator Workstation Off-Site

School

INTERNET

Hospital

Router/Firewall

RC-WebView

SERVER

Administration

Web Site

RC-WebView ™

Web Site # 01

RC-WebView ™

Web Site # xx

WAN Network Architecture

RCW-09/03

Office Tower

Router/Firewall Ethernet Hub

Operator Workstation

Trend Log in Browser

© 2003 Reliable Controls® Corporation

System In Browser

Designed and Manufactured in Canada

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.13

Model:

Supplier info:

Name:

Address:

Mach Global (MG)

Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R10

Manufacturer info:

Name: Reliable Controls Corporation

Address: 207-3375 Whittier Avenue, Victoria, BC V8Z 3R10

Website www.reliable-controls.com

U

ltimate, intelligent, networkable complete building controller

C

ompletely programmable DDC controller

M

odular Input, Output cards provide up to 128 points of measurement

T

rend logs with historical tracking

I

deal for high-point applications requiring unrestricted programming

S

upport provided for two subnetworks

M

ultiple, simultaneous communication channels

The Reliable Controls ®

MACH-Global

building controller gives operators yet another simple, flexible, and economical solution to access, monitor, and control building environments

The Reliable Controls® MACH-Global™ building controller is a super solution to any new or replacement equipment application, and ships with the Reliable Controls® industry best

5 year warranty.

© 2003 Reliable Controls Corporation

Dimensions:

31.4 cm L x 19.9 cm W x 3.8 cm H

(12.4” L x 7.9” W x 1.25” H)

Reliable Controls® Corporation, 207-3375 Whittier Ave., Victoria BC, V8Z 3R1

Toll Free: 1 (877) 475-9301 Tel: (250) 475-2036 Fax: (250) 475-2096

T

he Reliable Controls

®

MACH-Global

building controller is a powerful, central-point DDC controller designed to support multiple BACnet

®

LAN communication technologies simultaneously through nine ports; 1-IEEE802.3 (Ethernet), 3-

EIA-232 (PC/Modem), 2-EIA-485 (token passing), 2-EIA-422/

485 and 1-MSP (SMART-Net

). This flexible and powerful controller also supports up to 128 universal input/output hard points directly onboard using a combination of eight modular

16-point expansion cards. The MACH-Global

controller is a dual-protocol device, supporting BACnet

®

and Reliable

Controls

®

protocols. A fully configured Reliable-Controls

®

MACH-System supports over 2,000,000 points of measurement.

Processor

• 16-bit embedded microcontroller

Memory

• 2 MB of NV RAM user database

• 1 MB Flash EEPROM for operating system firmware

Supply Voltages

• 24 VAC Class 2, 75 VA

• 3.15 A slow blow fuse

Communications

• 1-IEEE 802.3 Ethernet 10BaseT

• 3-EIA-232 @ 115 kbps

• 2-EIA-422/485 @ 115 kbps

• 2-EIA-485 @ 115 kbps

• 1 -SMART-Net™

(16 SMART-Sensors™ max)

Inputs/Outputs

• 8 ports, each addressing 16

Input points or Output points

Converters

• 12 bit A-D for inputs

• 12 bit D-A for outputs

Real-Time Clock

• +/-1 second per day

Memory/RTC Backup

• 48 hours by zero maintenance capacitor

Dimensions

• 31.4 cm L x 19.9 cm W x

3.8 cm H

(12.4” L x 7.9” W x 1.25” H)

Mounting

• #6 clearance holes on

30.0 cm L x 18.5 cm W

(11.8” L x 7.25” W) centers

Weight

• 1.0 kg (2.5 lb.)

Ambient Limits

• Operating: 0 °C to 40 °C

(32 °F to 104 °F)

• Shipping: -40 °C to 60 °C

(-40 °F to 140 °F)

• Humidity: 10% to 90%

RH non-condensing

MACH-Global™ Controller

F E A T U R E S

Protocol

• BACnet®

- PTP (EIA-232)

- MS/TP (EIA-485)

- B/IP (Ethernet)

- ISO 8802-3

• Reliable Controls®

- Ethernet (IP)

- PC & Modem (EIA-232)

- Network (EIA-485/Token Bus)

128 Control-BASIC™

Programs

• User programmable control strategy in a readable,

BASIC-like language

• 2500 bytes per program

128 Inputs/Outputs

• Universal ranges

256 Variables

• Selectable standard and custom ranges, as well as fixed or program-driven values

64 PID Loops

• Standard P, PI, or PID controllers for closed loop control

96 Trend Logs

• Each trend log stores 512 samples of 6 points at programmable time intervals

128 Runtime Logs

• Totals the on time and records the on/off times of a digital point

64 System Groups

• Allows related points to be grouped on one display

• 160 points per group

32 Weekly Schedules

• 4 on/off times for each weekday and 2 override days

8 Annual Schedules

• Days of the year designated as holidays

48 Variable Arrays

• Up to 128 elements in a one-dimensional array

128 User Passwords

• Protects access to system

• Each user is assigned a user name and an access level

20 Custom Tables

• For creating custom input ranges

16 Custom Units

• 8 analogue engineering units

• 8 digital engineering units

SMART-Net™ Port

• Networks up to 16

SMART-Sensors™

127 Network In Points

127 Network Out Points

Warranty

• 5 years

O R D E R I N G

MG

• MACH-Global™ controller

MACH1

MACH2

Sub network A

Sub network B

MACH-Air

MACH-Zone

MACH-Air

MACH2 ™

Main network to other controllers

Ethernet

24 VAC/VDC

Power switch

Modem

Operator Work

Station

MACH-Global

MACH-Global ™ Input

Expansion Cards

MACH-Global

Output

Expansion Cards

SMART-Sensor

Printer

© 2003 Reliable Controls® Corporation Designed and Manufactured in Canada

MG-11/04-RAR

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.13

Description: Input Card for Building Controller

Model: Mach Global Input Card (MGX-I)

Supplier info:

Name:

Address:

Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R11

Manufacturer info:

Name: Reliable Controls Corporation

Address: 207-3375 Whittier Avenue, Victoria, BC V8Z 3R11

Website www.reliable-controls.com

U

ltimate modularity for MACH-Global™ building controller

U

niversal inputs, 16 per card

E

xpansion cards provide up to 128 Inputs

P

ulse counting @ 40 HZ provides support for flow meters

S

tatus LEDs glow proportionally

P

owered by MACH-Global™ building controller

The Reliable Controls ®

MACH-Global

Input expansion cards give operators yet another simple, flexible, and economical solution to access, monitor, and control building environments

The Reliable Controls® MACH-Global™ Input expansion cards offer a super solution to any new or expanding equipment application, and ship with the Reliable Controls® industry best

5 year warranty.

© 2003 Reliable Controls Corporation

Dimensions:

22.3 cm L x 11.4 cm W x 4.5 cm H

(8.75” L x 4.5” W x 1.75” H)

Reliable Controls® Corporation, 207-3375 Whittier Ave., Victoria BC, V8Z 3R1

Toll Free: 1 (877) 475-9301 Tel: (250) 475-2036 Fax: (250) 475-2096

T

he Reliable Controls

®

MACH-Global

input card is a general purpose universal input expansion card that is designed for use with the MACH-Global

controller. The expansion card accepts analogue, digital or pulsed signals at each of its 16 inputs. Each input has two dip switch poles for configuring the input to be a 0-5 Volt, 4-

20 mA, or themistor/dry contact. A maximum of eight input cards can be connected to one MACH-Global

controller. Each input has an LED that glows proportionally to the input value.

MACH-Global™ Input Expansion Card

F E A T U R E S

16 Universal Inputs

• 0-5 VDC pulse, thermistor/dry contact, or 4-20 mA

• Software configured as analogue or digital

Folded Metal Enclosure

• Strong powder coated steel metal enclosure protects circuitry and adds to the ease of installation

Removable Connectors

• Two 16-pole removable connectors for easy change out

Warranty

• 5 years

O R D E R I N G

MGX-I

• MACH-Global™ input expansion card

MGX-RC -B

• MACH-Global™ expansion card ribbon cable - base

MGX-RC -C

• MACH-Global™ expansion card ribbon cable - cable per 30 cm/1 ft. up to a max. of 120 cm/4 ft.

Supply Voltage

• Supplied by MACH-Global™ controller

Inputs

• 16 universal inputs

• 12 bit A-D converter

• Analogue: 0-5 VDC, 4-20 mA, thermistor

• Digital: dry contact

• Impedance:

15k Ω on 0-5 VDC range,

250 Ω on 4-20 mA range,

10k

Ω on thermistor range

• 40 Hz pulse counting

(supports flow meters)

• 24 VAC over voltage protection

Connectors

• Two 16-pole removable connectors for inputs

• One 20-pole ribbon cable header

Status LEDs

• One LED per input, intensity proportional to input value

Dimensions

• 22.3 cm L x 11.4 cm W x

4.5 cm H

(8.75” L x 4.5” W x 1.75” H)

Mounting

• #6 clearance holes on

20.5 cm L x 10.0 cm W

(8.12” L x 4” W)

Weight

• 0.7 kg (1.2 lb.)

Ambient Limits

• Operating: 0 °C to 40 °C

(32 °F to 104 °F)

• Shipping: -20 °C to 60 °C

(-40 °F to 140 °F)

• Humidity: 10% to 90%

RH non-condensing

Ribbon Cable to Expansion Cards

MACH-Global ™ Input Expansion Cards

MACH-Global ™ Controller

Expansion Ports

MGI-11/04-RAR

© 2003 Reliable Controls® Corporation

Designed and Manufactured in Canada

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.13

Model:

Supplier info:

Name:

Address:

Mach Global Output Card (MGX-O)

Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R12

Manufacturer info:

Name: Reliable Controls Corporation

Address: 207-3375 Whittier Avenue, Victoria, BC V8Z 3R12

Website www.reliable-controls.com

U

ltimate modularity for MACH-Global™ building controller

U

niversal outputs, 16 per card, HOA switches standard

E

xpansion cards provide up to 128 outputs

O

utput signal configured in RC-Studio® software

S

tatus LEDs glow proportionally

S

eparate power supply for maximum efficiency

The Reliable Controls ®

MACH-Global™ Output expansion cards give operators yet another simple, flexible, and economical solution to access, monitor, and control building environments

The Reliable Controls® MACH-Global™ Output expansion cards offer a super solution to any new or expanding equipment application, and ship with the Reliable Controls® industry best

5 year warranty.

© 2003 Reliable Controls Corporation

Dimensions:

22.3 cm L x 11.4 cm W x 4.5 cm H

(8.75” L x 4.5” W x 1.75” H)

Reliable Controls® Corporation, 207-3375 Whittier Ave., Victoria BC, V8Z 3R1

Toll Free: 1 (877) 475-9301 Tel: (250) 475-2036 Fax: (250) 475-2096

MACH-Global™ Output Expansion Card

T

he Reliable Controls

®

MACH-Global

output card is a general purpose universal output expansion card that is designed for use with the MACH-Global

controller. Each of the expansion cards 16 outputs can be independently configured to deliver an analogue or digital signal. Every output comes standard with a Hand/Off/Auto switch for convenient override in the field, and position feedback to

RC-Studio

®

software. A maximum of eight output cards can be connected to one

MACH-Global

controller. Each MACH-Global

output card requires its own 24 VAC power source.

F E A T U R E S

16 Universal Outputs

• 0-12 VDC, analogue

• 0-12 VDC, digital

• Software configured as analogue or digital

HOA Switches

• Standard for each output

• Convenient override in the field

• Switch position feedback to

RC-Studio® software

Proportional LEDs

• LED brilliance is proportional to output signal

Metal Enclosure

• Strong powder coated steel metal enclosure protects circuitry and adds to the ease of installation

Removable Connectors

• Two 16-pole and one 2-pole removable connectors for easy change out

Warranty

• 5 years

Supply Voltage

• 24 VAC 50 VA Class 2

Outputs

• 16 universal outputs

• 12 bit D-A converter

• Analogue: 0-12 VDC

• Digital: 0-12 VDC

• Manual ON provides 15 VDC

• LED indicator

• Output power: 75 mA @ 12 VDC

• 24 VAC over voltage and short protection

Switches

• HOA toggle switch

• Switch position feedback to

RC-Studio® software

Connectors

• Two 16-pole removable connectors for output

• One 20-pole ribbon cable header

• One 2-pole power connector

Status LEDs

• One LED per output, intensity proportional to output value

Dimensions

• 22.3 cm L x 11.4 cm W x

4.5 cm H

(8.75” L x 4.5” W x 1.75” H)

Mounting

• #6 clearance holes on

20.5 cm L x 10.0 cm W

(8.12” L x 4” W)

Weight

• 0.7 kg (1.2 lb.)

Ambient Limits

• Operating: 0 °C to 40 °C

(32 °F to 104 °F)

• Shipping: -20 °C to 60 °C

(-40 °F to 140 °F)

• Humidity: 10% to 90%

RH non-condensing

Fuse

• 3.15 A slow blow

• 5 A ground protection fuse

MACH-Global

Controller

Expansion Ports

O R D E R I N G

MGX-O

• MACH-Global™ output expansion card

MGX-RC -B

• MACH-Global™ expansion card ribbon cable - base

MGX-RC -C

• MACH-Global™ expansion card ribbon cable - cable per 30 cm/

1 ft. up to a max. of 120 cm/4 ft.

Ribbon Cable to Expansion Cards

MACH-Global

Output Expansion Cards

MGO-11/04-RAR

© 2003 Reliable Controls® Corporation

Designed and Manufactured in Canada

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.14

Model:

Supplier info:

Name:

Address:

Mach Air (MAH-T)

Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R13

Manufacturer info:

Name: Reliable Controls Corporation

Address: 207-3375 Whittier Avenue, Victoria, BC V8Z 3R13

Website www.reliable-controls.com

U

ltimate, intelligent, networkable VAV box controller

C

ompletely programmable DDC controller

R

elocatable Belimo damper actuator

M

ounted directly to your VAV equipment

T

rend logs with historical tracking

A

ccessible environmental building controls

O

nboard velocity sensors for flow measurement

B

ACnet® MS/TP communications (BTL Listed)

The Reliable Controls ®

MACH-Air

VAV controller gives operators yet another simple, flexible, and economical solution to access, monitor, and control building environments

The Reliable Controls® MACH-Air™ VAV controller is a super solution to any new or replacement air handling application, and ships with the Reliable Controls® industry best

5 year warranty.

© 2003 Reliable Controls Corporation

Dimensions:

22.9 cm L x 13.4 cm W x 6.3 cm H

(9.0” L x 4.8” W x 2.5” H)

Reliable Controls® Corporation, 207-3375 Whittier Ave., Victoria BC, V8Z 3R1

Toll Free: 1 (877) 475-9301 Tel: (250) 475-2036 Fax: (250) 475-2096

T

he Reliable Controls

®

MACH-Air

controller is a programmable, 6 input, 5 output, DDC controller and shaft-mount damper actuator, combined together into one device to meet the needs of variable air volume

(VAV) control. The MACH-Air

controller features onboard velocity measurement, a 35 in-lb Belimo actuator, three user specified universal inputs/outputs, and optional triac outputs. Removable connectors are standard on the MACH-Air

controller.

Processor

• 25 MHz, high-performance

16-bit embedded microcontroller

Memory

• 32k RAM

• 128k Flash EEPROM operating system firmware and controller configurations

Supply Voltages

• 24 VAC/VDC, 25 VA max.

Communications

• EIA-485 @ 76.8 kbps max.

• SMART-Net™

(4 SMART-Sensors™ max.)

SETUP-Tool™

• SETUP-Tool™ used for configuration

Inputs

• 3 universal inputs

• 10 bit A-D converter

• Analogue: 0-5 VDC, 4-20 mA, thermistor

• Digital: dry contact

• Impedance: 15k Ω on 0-5 VDC range

• 40 Hz pulse counting

(supports flow meters)

• 24 VAC over voltage protection

Outputs

• 3 universal outputs

• 8 bit D-A converter

• Analogue: 0-12 VDC

• Digital: 0-12 VDC

• Output power: 75 mA @ 12 VDC

• 24 VAC over voltage and short protection

Single Stage Triac

Outputs

• 24 VAC @ 1 A

Dual Stage Triac Outputs

• 24 VAC @ 1 A

• Common return

Velocity Sensors

• Flow-through thermistor

• 0-1” W.C.

Actuator

• Torque: 35 in-lb.

Enclosure

• NEMA type 1

• UL94-5V

Dimensions

• 22.9 cm L x 13.4 cm W x 6.3 cm

H

(9” L x 4.8” W x 2.5” H)

Weight

• 0.7 kg (1.8 lb.)

Ambient Limits

• Operating: 0 °C to 40 °C

(32 °F to 104 °F)

• Shipping: -20 °C to 60 °C)

(-40 °F to 140 °F)

• Humidity: 10% to 90%

RH non-condensing

MACH-Air™ VAV Controller

F E A T U R E S

Protocols

• BACnet®

- MS/TP (EIA-485)

• Reliable

- Network (EIA-485/Token Bus)

8 Control-BASIC™

Programs

• User programmable control strategy in a readable,

BASIC-like language

• 2000 bytes per program

6 Inputs

• 3 Inputs with universal ranges

• Jumper selectable 0-5 VDC,

4-20 mA, thermistor/dry contact

• Input #4 dedicated to the flow sensor

• Input #5 dedicated to the damper position feedkback

• Input #6 dedicated to indicate damper at end of position

5 Outputs

• 3 Outputs with universal ranges

• Scalable 0-12 VDC

• Output #4 dedicated to damper motor

• Output #5 dedicated to control direction of rotation to close

• Single stage triac (T model only)

• Dual stage triac (T model only)

48 Variables

• Selectable standard and custom ranges, as well as fixed or program-driven values

• Variable #1 dedicated to flow calibration

4 Controllers

• Standard P, PI, or PID controllers for closed loop control

2 Trend Logs

• Each trend log stores 150 samples of 6 points at programmable time intervals

4 Runtime Logs

• Totals the on time and records the on/off times of a digital point

2 System Groups

• Allows related points to be grouped on to one display

• 50 points/group

1 Weekly Schedule

• 4 on/off times for each weekday and 2 override days

1 Annual schedule

• Days of the year designated as holidays

5 Custom Tables

• For creating custom input ranges and Control-BASIC™ lookup tables

SMART-Net™ Port

• Networks up to 4 SMART-Sensors™

• SMART-Sensor™ #5 is dedicated to SETUP-Tool™

32 Network In Points

32 Network Out Points

Warranty

• 5 years

Certification

• UL listed 916

OPEN ENERGY MANAGEMENT

EQUIPMENT

O R D E R I N G

MA

• MACH-Air™ controller with 3 universal inputs and 3 universal outputs

MA-T

• MACH-Air™ controller with 3 universal inputs and 1 universal output, 1 single stage triac output,

1 dual stage triac output.

MA-P

• MACH-Air™ controller with potentiometer position feedback

MA-TP

• MACH-Air-T™ controller with potentiometer position feedback

MA-WA

• MACH-Air™ without actuator

MA-WF

• MACH-Air™ without flow sensor

MA-C

• MACH-Air™ connector cover

MAZ-ST

• SETUP-Tool (required for configuration)

24 VAC 60Hz Power

EIA-485 Network

Output-1

Output-2

Output-3

Input-1

Input-2

Input-3

MA-11/04-RAR

BACnet is a registered trademark of ASHRAE. ASHRAE does not endorse, approve or test products for compliance with ASHRAE standards. Compliance of listed products to requirements of ASHRAE

Standard 135 is the responsibility of the BACnet Manufactures Association (BMA). BTL is a registered trademark of the BMA

© 2003 Reliable Controls® Corporation

24VAC

GND

A-

B+

OUT

1+

OUT

1-

OUT

2+

OUT 2-

OUT

3+

OUT

3-

IN

1+

IN

1-

IN

2+

IN

2-

IN

3+

IN

3-

MACH-Air

Connector Wiring

SMART-Sensor

24VAC

GND

A-

B+

A

OUT

+

A

OUT

-

TRIAC 1

RTN-T

1

DS

1

-T

1

DS 1 -T 2

RTN-DS

1

IN

1+

GND

IN 2+

IN

3+

GND

MACH-Air

-T

Connector Wiring

Designed and Manufactured in Canada

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section:

Description: Line Filter/Surge Suppressor

Model: PLF-2

Supplier info:

Name:

Address:

Reliable Controls Corporation

207-3375 Whittier Avenue, Victoria, BC V8Z 3R3

Manufacturer info:

Name: Corcom

Address: 844 E. Rockland Road Libertyville, IL 60048-3375

Website www.cor.com

EP/VP Series

CORCOM Product Guide

RFI Power Line Filters for Switching Power Supply Noise Suppression

EP7/VP7

UL Recognized

CSA Certified

VDE Approved

EP1/VP1

EP/VP Series

The EP/VP series of RFI filters has been developed to reduce conducted noise to acceptable limits for equipment that must comply with the requirements of CISPR in Europe and the FCC specifications in the USA.

These filters provide high insertion loss for both lineto-ground and line-to-line emissions throughout the frequency range. They are particularly well suited for equipment to better meet both stringent emissions specifications (such as CISPR 22, A-level and FCC

Part 15J, Class B) and the EP models meet very low leakage current requirements.

Electrical Schematic

LINE

Resistor location for reference only.

Line Cord

Line Cord No. GA400:

7

1/2 foot, 3-conductor line cord.

LOAD

Specifications

Maximum leakage current,each line-to-ground

VP Models

@ 120 VAC 60 Hz:

@ 250 VAC 50 Hz:

Hipot rating (one minute):

line-to-ground line-to-line

.73mA

1.27mA

Operating frequency:

EP Models

.21mA

.36mA

2250 VDC

1450 VDC

50/60 Hz

Rated voltage (max.):

Rated current:

0 3EP

0 6EP

10EP

20EP/VP

Minimum insertion loss in dB:

Line-to-ground in 50 ohm circuit

Current

Rating

EP

3A

6A,10A

20A

VP

20A

.01

1

1

3

3

.04 .05

Frequency–MHz

.15

.5

1 5

1

1

6

2

10

10

6

2

58

58

28

42

65

65

50

60

65

65

55

65

66

66

60

65

250 VAC

10

60

60

55

55

0

0

3A

6A

10A

20A

30

25

25

55

55

Line-to-line in 50 ohm circuit

Current

Rating

EP1, EP3

3A

6A,10A

20A

VP

20A

.01

1

1

8

8

.09 .15

5

5

17

17

36

30

25

25

Frequency–MHz

.5

1 5 10

65

65

60

60

65

65

65

65

65

65

65

65

65

65

58

58

20 30

58

35

58

58

58

35

58

58

50

Catalog 1654001

Revised 03-04

Dimensions are in inches and millimeters unless otherwise specified. Values in italics are metric equivalents.

Dimensions are shown for reference purposes only.

Specifications subject to change.

USA Cust. Svc.: 1-800-468-2023

CORCOM Prods: 1-847-680-7400

1-508-992-4495

Germany: 49-89-6089-0 www.cor.com

www.tycoelectronics.com

CORCOM Product Guide

RFI Power Line Filters for Switching Power Supply Noise Suppression

(Continued )

EP/VP Series

Case Styles

EP1/VP1

20EP/VP6

B

B

D

E

A

Typical dimensions:

Terminals: .250 [

6.35

] (5)

Mounting Holes: .188 [

4.78

] Dia. (2)

C

Holes: .07 [

1.8

] Dia.(4)

Slot: .07 x .16 [

1.8 x 4.1

]

EP3

Brown Brown

Blue Blue

A

Typical dimensions:

Terminals: .250 [

6.35

] (3)

Slot: .07 x .16 [

1.8 x 4.1

]

D

B

B

A

D

E

Typical dimensions:

Wire leads: 4.0 [

101.6

] Min.

Green/

Yellow

C

Mounting Holes: .188 [

4.78

] Dia.(2)

EP7 & EP7M (with metric insert)

Tapped insert:

No. 6-32 x 1/4 (2)-EP7

No. M-3 x .5 (2)-EP7M

C

E

.235

5.96

R

1.295

32.89

1.575

40.01

Panel Cutout (back mount)

Tolerance ±.005 [

0.13

]

.157

3.98

Dia. (2)

.910

23.11

Holes: .07 [

1.8

] Dia.(2)

D

E

A

Terminals: No. 8-32 (5)

C

Torque: 18 ± 2 in.lb

Case Dimensions

Part No.

A

(max)

3EP1

3EP3

3EP7

3EP7M

6EP1

6EP3

10EP1

10EP3

3.85

97.8

2.56

65.0

3.21

81.5

3.21

81.5

6.62

168.1

5.33

135.4

6.62

168.1

5.35

135.9

20EP1, 20VP1 4.95

125.7

20EP6, 20VP6 5.09

127.3

B

(max)

2.07

52.6

2.07

52.6

2.25

57.2

2.25

57.2

2.07

52.6

2.07

52.6

2.07

52.6

2.07

52.6

2.27

57.7

2.25

57.2

C

(max)

1.78

45.2

1.78

45.2

1.78

45.2

1.78

45.2

2.28

57.9

2.28

57.9

2.78

70.6

2.78

70.6

1.8

45.7

1.78

45.2

D

± .015

± .38

2.938

74.63

2.938

74.63

1.575

40.01

1.575

40.01

5.625

142.88

5.625

142.88

5.625

142.88

5.625

142.88

4.063

103.2

4.063

103.2

E

(max)

±.02 [

±.5

]

6.03

153.2

6.03

153.2

4.47

113.5

4.46

129.3

3.35

85.1

3.35

85.1

0.63

12.1

0.63

12.1

6.03

153.2

6.03

153.2

Part Numbers

3EP1

3EP3

3EP7

3EP7M

6EP1

6EP3

Line Cord No.

10EP1

10EP3

20EP1

20EP6

20VP1

20VP6

GA400

Catalog 1654001

Revised 03-04

Dimensions are in inches and millimeters unless otherwise specified. Values in italics are metric equivalents.

Dimensions are shown for reference purposes only.

Specifications subject to change.

USA Cust. Svc.: 1-800-468-2023

CORCOM Prods: 1-847-680-7400

1-508-992-4495

Germany: 49-89-6089-0 www.cor.com

www.tycoelectronics.com

51

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section:

Description: Low voltage relay

Model: M15MAH001812VDC c/w ZD35 base

Supplier info:

Name:

Address:

Carlo Gavazzi (Canada) Inc

2660 Meadowvale Boulevard, Mississauga, ON L5N 6M6

Manufacturer info:

Name: Carlo Gavazzi (Canada) Inc

Address: 2660 Meadowvale Boulevard, Mississauga, ON L5N 6M6

Website www.GavazziOnline.com

Types

MZ

(1 Pole)

Miniature Relays

MZ

(2 Poles)

M15 - M15 R1/R2

(1 Pole)

M25

(1or 2 Poles)

Dimensions

(mm) H x W x D

Terminal types

No. of Contacts

Contact rating

25.2/26.5 x 29.4 x 12.5

PCB

1 Normally open

1 Change-over

5 A - 10 A - 16 A

25.2/26.5 x 29.4 x 12.5

PCB

2 Normally open

2 Change-over

5 A - 10 A

15 x 29 x 10

PCB

1 Normally open

1 Change-over

8 A

15.7 x 29 x 12.7

PCB

1 Change-over (1 pole)

2 Change-over (2 poles)

12 A - 16 A (1 pole)

8 A (2 poles)

Output Specifications

Max. load AC1

Min. load

Electrical life

6 A - 12 A - 20 A

100 mA at 24 mVDC

3.5 x 10 5 cycles (5/10A)

1.5 x 10 5 cycles (16A)

1250/2500/4000 VA Switching power

General Specifications

Voltage ranges VDC

Voltage ranges VAC

Insulation Coil/Contact

Consumption

Approvals/Conformity

3 - 5 - 6 - 9 - 12

24 - 36 - 48 - 60

80 - 100 - 110

6 - 12 - 24 - 48 - 60

110 - 230

4000 VAC

See PCB General Cat.

UL - CSA - VDE - IMQ

S - N - D - F - SEV

References

Consult your Carlo Gavazzi

Partner or Distributor

From 1.8 to 160 VDC

From 6 to 264 VAC

6 A - 12 A

100 mA at 24 mVDC

2.5 x 10 5 cycles (5 A)

8 x 10 4 cycles (10 A)

1250/2500 VA

3 - 5 - 6 - 9 - 12

24 - 36 - 48 - 60

80 - 100 - 110

6 - 12 - 24 - 48 - 60

110 - 230

4000 VAC

See PCB General Cat.

UL - CSA - VDE - IMQ

S - N - D - F - SEV

From 2.5 to 260 VDC

From 6 to 260 VAC

10 A

100 mA at 24 mVDC

100.000 cycles

2000 VA

9 A - 13 A - 18 A

100 mA at 24 mVDC

1x10 5 cycles

4000/3000/2000 VA

3-5-6-8-12-18-24-48

110 (M15) 3-5-6-8-

12-18-24-48 (M15R)

5 - 6 - 12 - 24 - 48

60 - 110

4000 VAC

220 mW

UL - CSA - VDE - IMQ

S - N - D - F - SEV

4000 VAC

5 00 mW cUL - VDE

3 to 110 VDC (M15)

3 to 48 VDC (M15R)

From 5 to 110 VDC

Types ZD 25 - ZD 32 - ZD 35 - ZD 50 ES 50/3

General Specifications

Rated volt. / Rated curr.

Insulation voltage

Socket material

Mounting

Protection degree

Approvals

300 VAC / 12 A

> 5 kV

5 / 8 pole socket.

Screw terminal

Self-ext. PA 6 + GF (V1) connection.

DIN-rail Standardized markings.

IP 20

UL, CSA (12 A 300 VCA)

300 VAC / 12 A

> 5 kV

5 / 8 pole socket.

Screw terminal

Self-ext. PA 6 + GF (V1) connection.

DIN-rail Standardized markings.

IP 20

UL, CSA (12 A 300 VCA)

References

For detailed informations consult your Carlo Gavazzi

Partner or Distributor

ZD 25

ZD 32

ZD 35

ZD 50

For relay:

For relay:

For relay:

For relay:

M15 F 8 A

M15 E 8 A

MZ 1P 5/10 A

M15 M 8A

M25 1P 12 A

MZ B 1P 5/10 A

MZ 2P 5/10 A

MZ 1P 16 A

M15 M 8 A

M25 1P 16 A

M25 2P 8 A

ES 50/3

For relay:

CARLO GAVAZZI Automation Components Specifications are subject to change without notice.

MZ B 1P 5/10 A

MZ 2P 5/10 A

MZ 1P 16 A

M15 B 8 A

65

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.11

Model: CS-450-1

Supplier info:

Name: Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9 Address:

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

CURRENT SENSORS

Detect current fluctuation remotely and reliably

Solid Core CS-450 & CS-475 Series Current Sensors

Split Core SC-550 & SC-575 Series Current Sensors

CT/PT Input transducer

Peace of mind through reliable current sensors

GREYSTONE IS AN ISO 9002 REGISTERED COMPANY

AC CURRENT SENSORS

CS-450 / 475 and SC-550 / 575

SOLID-STATE SENSORS FOR

MONITORING AC CIRCUITS.

FEATURES:

Three ranges per unit reduces inventory

No field adjustment necessary, factory calibrated

Average measurement is equivalent to True RMS for pure sine waves for the CS-450 / SC-550 series

True RMS measurement for sine waves or variable frequency drives for the CS-475 / SC-575 series

Input / Output isolation via current transformer

Solid-state reliability

Small compact size

DESCRIPTION:

The CS-450 / 475 and SC-550 / 575 series of AC current sensors are solid-state transducers that convert a primary circuit current to a proportional output signal. The sensors can monitor up to 200 Amps continuous and feature three jumper selectable current ranges for the highest accuracy. All sensors are factory calibrated to ensure better than

SPECIFICATIONS:

1% accuracy. The CS-450 and the SC-550 are available with 0-5, 0-10

Vdc or 4-20 mA output signal types. The CS-475 and the SC-575 feature a true RMS 4-20 mA loop-powered output signal. All models are CSA certified, UL Approved and CE compliant.

CS-45X / SC-55X

Power Supply

0-5/0-10 Vdc models are self-powered, 4-20 mA model requires 15-42 Vdc at sensor

CS-475 / SC-575

15-42 Vdc at sensor (loop powered)

Input Current Ranges

Three field selectable ranges (see below)

Maximum Input

10/20/50 Amp ranges-80/120/180 Amps continuous

Current

50/100/200 Amp ranges-120/200/325 Amps continuous

Response Time

100 mS (0-90%)

Three field selectable ranges (see below)

2/5/10 Amp ranges – 35/60/90 Amps continuous

10/20/50 Amp ranges – 80/120/200 Amps continuous

50/100/200 Amp ranges – 175/300/400 Amps continuous

250 mS (0-90%)

AC Conductor

Solid Core – 20mm (0.8”) diameter

Hole

Split Core – 24 x 19 mm (0.95 x 0.75”)

Solid Core – 20mm (0.8”) diameter

Split Core – 24 x 19 mm (0.95 x 0.75”)

Output Loading Error (0-5/0-10)

Calibrated with 1 M ohm load, add 1.2% error with 100k ohm load

Enclosure Size

(H x W x D)

Solid Core – 49 x 87 x 25 mm (1.95 x 3.45 x 1.0”)

Split Core – 70 x 87 x 30 mm (2.75 x 3.45 x 1.2”)

N/A

Solid Core – 49 x 87 x 25 mm (1.95 x 3.45 x 1.0”)

Split Core – 70 x 87 x 30 mm (2.75 x 3.45 x 1.2”)

Operating Temperature

-30 to 70°C (-22 to 158°F)

Operating Humidity

0 to 95% RH, non-condensing

Protection Circuitry

Reverse voltage protected and output limited

Wiring

Solid Core – Barrier strip

Connections

Split Core – Screw terminals (14 to 22 AWG)

0 to 70°C (32 to 158°F)

0 to 95% RH, non-condensing

Reverse voltage protected and output limited

Solid Core – Barrier strip

Split Core – Screw terminals (14 to 22 AWG)

Enclosure Material

UL 94 V-0 flammability rated ABS, Insulation class 600V

Manufacturing

ISO 9002 Certified

UL 94 V-0 flammability rated ABS, Insulation class 600V

ISO 9002 Certified

Output Signal & Accuracy

0-5 Vdc, 0-10 Vdc or 4-20 mA

Better than ±1% FS on all three ranges

4 to 20 mA represents 0 to 100% of current span

Better than ±1% FS on all three ranges

CURRENT SENSOR: PRODUCT ORDERING INFORMATION

Solid Core (CS)

Model Output Accuracy Frequency Amp Ranges

Split Core (SC)

Model Output Accuracy Frequency Amp Ranges

CS-450-1 0-5 Vdc

CS-450-2 0-5 Vdc

CS-451-1 0-10 Vdc

CS-451-2 0-10 Vdc

CS-452-1 4-20 mA

CS-452-2 4-20 mA

CS-475-0 4-20 mA

CS-475-1 4-20 mA

CS-475-2 4-20 mA

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

10 – 400 Hz

10 – 400 Hz

10 – 400 Hz

0-10/0-20/0-50

0-50/0-100/0-200

SC-550-1 0-5 Vdc

SC-550-2 0-5 Vdc

0-10/0-20/0-50 SC-551-1 0-10 Vdc

0-50/0-100/0-200 SC-551-2 0-10 Vdc

0-10/0-20/0-50

SC-552-1 4-20 mA

0-50/0-100/0-200

SC-552-2 4-20 mA

0-2/0-5/0-10

SC-575-0 4-20 mA

0-10/0-20/0-50

SC-575-1 4-20 mA

0-50/0-100/0-200 SC-575-2 4-20 mA

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

±1% FSO

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

40 – 100 Hz

10 – 400 Hz

10 – 400 Hz

10 – 400 Hz

0-10/0-20/0-50

0-50/0-100/0-200

0-10/0-20/0-50

0-50/0-100/0-200

0-10/0-20/0-50

0-50/0-100/0-200

0-2/0-5/0-10

0-10/0-20/0-50

0-50/0-100/0-200

GREYSTONE ENERGY SYSTEMS INC.

Solid Core CS-450 & CS-475

Series Current Sensor

Split Core SC-550 & SC-575

Series Current Sensor

87 mm

(3.45”)

20 mm

(0.8”) diam.

70 mm

(2.75”)

49 mm

(1.95”)

19 mm

(0.75”)

24 mm

(0.95”)

87 mm

(3.45”)

25 mm

(1.0”)

30 mm

(1.2”)

Options

Relay Mounting Base

CR-112 / CR-124

FEATURES:

DESCRIPTION:

The CR-112 and CR-124 Command Relays are line voltage relays for use with the CS and SC current sensors and switches or as

Can be easily mounted to any CS or SC product for easier installation

Can be used as a stand-alone relay

Convenient Relay Status LED

Can be factory assembled with any CS or SC product

Push-rivets supplied for fast and reliable field assembly

SPDT Form C relay contacts

Environmentally-friendly cadmium-free contacts

Ideal for switching contactors, solenoids and motors

Small compact size stand-alone devices. All models are CSA certified, UL approved and

CE compliant.

SPECIFICATIONS: (NOTE: COMMAND RELAY DOES NOT ACCEPT A VARIABLE ANALOG SIGNAL

Relay Coil

CR-112 12 Vac/dc ± 20% @ 18 mA

CR-124 24 Vac/dc ± 20% @ 10 mA

Enclosure Size

102 x 44 x 25 mm (4 x 1.75 x 1”)

(L x W x D)

125 mm (4.9”) length with mounting tabs

Relay

SPDT Form C (normally open,

Contacts

common, normally closed)

10 Amp resistive @ 250 Vac (UL508)

8 Amp inductive @ 250 Vac

5 Amp @ 30 Vdc

Contact Resistance

Ω

maximum

Mounting Holes

114 mm (4.5”) spacing,

Dimension

4.8 mm (0.19”) diameter

Enclosure Material

UL 94V-0 flammability rated ABS

Oper. Temperature

Wiring Connections

Screw terminal block (12 to 28 AWG)

Operating Humidity

20 to 85% RH, non-condensing

ISO 9002 Certified

Process

Greystone Energy Systems Inc.

150 English Drive, Moncton, NB

Canada E1E 4G7

(506) 853-3057 Fax: (506) 853-6014 e-mail: [email protected] www.greystoneenergy.com

Greystone Energy Systems Inc. is one of North America’s largest ISO registered manufacturers of HVAC sensors and transducers for Building Automation Management Systems.

We have conscientiously established a worldwide reputation as an industry leader by maintaining leading-edge design technology, prompt technical support, and a commitment to on-time deliveries. We take pride in our Quality

Management System which is ISO 9002 certified, assuring our customers of consistent product reliability.

GREYSTONE IS AN ISO 9002 REGISTERED COMPANY

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.10.2

Model: LP1B00

Supplier info:

Name: Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9 Address:

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

LOW PRESSURE

TRANSDUCERS

LP1 Series

Shown above c/w LCD and mounted static probe options

Each series of Greystone low pressure transducers comes standard with an ABS enclosure. These transducers feature high level outputs, environmental protection, and temperature compensation.

FEATURES:

Jumper selectable 2 wire current and

3 wire voltage outputs standard

24 Vac/dc power supply standard

Eight variable jumper selectable pressure range’s, WC and PA

Functional weather resistant ABS Enclosure

Available options include LCD display and mounted static probe

Two available accuracy's

Peace of mind

through reliable pressure transducers

GREYSTONE HAS AN

ISO 9001

REGISTERED QUALITY SYSTEM

APPLICATIONS:

HVAC/VAV

Process Control

Air Flow Monitoring

Drop Across Air Filters

Hydraulic Pressures

Pneumatic Pressures

SPECIFICATIONS: LP1 Series

Pressure Ranges

See ordering information

Calibration Accuracy

Measurement Type

Response Time

Stability

Thermal Effects

Compensated Range

Over Pressure

Operating Conditions

Media Compatibility

Power Supply (at transmitter)

Supply Current

Input Voltage Effect

Protection Circuitry

Output Signal

Current Output Drive Capability

Voltage Output Drive Capability

Zero Adjustment

Wiring Connections

Pressure Connections

Conduit Connection

Optional LCD

Enclosure

± 1% F.S.O. (LP1A/B Series)

Differential (two port)

1 mS maximum

<±1% F.S.O. per year

<±3% over compensated range

10 – 50°C (50 – 122°F)

± 1.25% F.S.O. (LP1C Series)

20 psi or 2 x range (whichever is greater)

0 – 60°C (32 – 140°F), 10 – 90% RH non-condensing

Limited only to those that will not attack polyetherimide, silicon, fluorosilicone, silicone, EPDM, and neoprene seals. Typically dry air or inert gas but liquid is allowed.

12 – 28 Vac, 16.5 – 35 Vdc (non-isolated half-wave rectified)

<4 mA

Negligible over specified operating range

Reverse voltage protected and output limited

4 – 20 mA (2-wire), 0 – 5 Vdc or 0 – 10 Vdc (3-wire)

400 ohms maximum @ 24 Vdc

2 Kohms minimum for 0-5 Vdc signal

10 Kohms minimum for 0-10 Vdc signal

Pushbutton auto-zero

Screw terminal block (14 to 22 AWG)

Barbed ports for 0.170” ID flexible tubing

Access hole for 1/2” NPT conduit or cable gland

3½ digit, 0.4” digit height

High Impact Black ABS, plenum rated with optional gasket

116 mm W x 84 mm H x 53 mm D (4.55” x 3.3” x 2.1” )

LP1 c/w LCD

GREYSTONE ENERGY SYSTEMS INC.

LP1 c/w LCD

& Mounted static probe

DESCRIPTION:

The LP1 Low Pressure Transmitter can be used to measure positive, negative or differential pressure in the ranges of 0.25”wc to 12”wc (50 TO 2000Pa). The piezoresistive sensor is ideal for monitoring the pressure for air or other clean inert gas and is limited only to those media which will not attack polyetherimide, silicon, fluorosilicone, silicone, EPDM and neoprene seals.

The LP1 features field selectable pressure ranges and output signal types for the most flexible application. Typical HVAC applications include monitoring of filter differential pressure or clean room pressure. The output signal is factory calibrated and temperature compensated for highest startup accuracy and trouble-free operation. Available options include accuracy’s, LCD, mounted static pressure probes and access options for room pressure monitoring.

Please read the installation instructions carefully before commissioning the pressure transmitter.

Failure to follow the instructions may result in product damage. A qualified technician must install this device.

The LP1 Pressure Transmitter mounts on any surface using the two holes provided on the base of the unit. Make sure there is enough space around the unit to connect the pressure tubing without kinking and avoid locations where severe vibrations or excessive moisture are present. Mount the enclosure with two user-supplied screws but do not over-tighten.

The unit may be mounted in any position but typically is installed on a vertical surface with the pressure ports on the right and the cable entrance on the left. The enclosure has a standard ½” conduit opening and may be installed with either conduit and a conduit coupler or a cable gland type fitting.

Do not use in an explosive or hazardous environment, with combustible or flammable gasses, as safety or emergency stop devices or in any other application where failure of the product could result in personal injury. Use electrostatic discharge precautions during installation and do not exceed the device ratings.

JUMPER SELECTABLE LP1 SERIES: PRODUCT ORDERING INFORMATION

Model Description

LP1

Jumper Selectable Low Pressure Transducer

A

B

C

± 1% F.S.O.

LCD Display (Only available in ± 1% configuration)

± 1.25 % F.S.O.

CODE

00

01

02

03

Jumper Selectable Pressure Ranges

±0.25”, ±0.5“, ±1”, ±2”, 0-0.5”, 0-1”, 0-2”, 0-4” wc

±0.75”, ±1.5”, ±3”, ±6”, 0-1.5”, 0-3”, 0-6”, 0-12” wc

±50, ±100, ±200, ±400, 100, 200, 400, 800 Pa

±125, ±250, ±500, ±1000, 250, 500, 1000, 2000 Pa

S

R

Mounted Static Pressure Probe (N/A with LP1C series)

Room Pressure Model, all electrical and pressure connections on back

Typical Model Number

Example: LCD, ±0.25” to 0-4” wc, Static Pressure Probe

GREYSTONE ENERGY SYSTEMS INC.

DIMENSIONS:

116 mm (4.55")

53 mm (2.1")

84 mm (3.3")

ABS enclosure dimensions

OPTIONS:

Pitot Tube

HFO & HSO Series

The HFO and HSO series are used to sense velocity pressure or static pressure respectively. Available in

6” length. Kits are available for differential and static

that are complete with pneumatic tubing.

Static Probe Option

The S option is a high accuracy static tube.

It is available as an option on the LP1A / B

Series low pressure transducer.

150 English Drive,

Moncton, NB, Canada E1E 4G7 e-mail: [email protected]

Tel.: (506) 853-3057 Fax: (506) 853-6014 web site: www.greystoneenergy.com

Differential Pressure Probe

SSS Series

The SS series DP probe is used for sensing velocity pressure in the duct. Available in 4”, 6”, 8” & 10” lengths.

Kits are available that come complete with pneumatic tubing.

Greystone Energy Systems Inc. is one of North America’s

largest ISO registered manufacturers of HVAC sensors and transducers for Building Automation Management Systems.

We have conscientiously established a worldwide reputation as an industry leader by maintaining leading- edge design technology, prompt technical support, and a commitment to on-time deliveries. We take pride in our

Quality Management System which is ISO 9001 certified, assuring our customers of consistent product reliability.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.4.10.2

Model: PSR-1

Supplier info:

Name: Pacific Controls Ltd.

440 Garbally Road, Victoria, BC V8T 2S9 Address:

Manufacturer info:

Name: Greystone Energy Systems Inc.

Address: 150 English Drive, Moncton, NB E1E 4G7

Website www.greystoneenergy.com

LIGHT SENSOR – PSR SERIES

DESCRIPTION:

The PSR-1 is a Light Sensitive Resistor that may be used as an input to indicate the presence of light at the sensor location. The PSR-1-T is a PSR-1 coupled with a B420-P transmitter. The PSR-1-T produces a 4 – 20mA ouput signal. The sensor is designed to be mounted in the end of a weatherproof conduit box.

SPECIFICATIONS:

PSR-1

Output (non-linear)

>1 M Ω in dark

<1.5 k Ω in bright light

Temperature

-25°C to 75°C

(-13°F to 167°F)

PSR-1-T

Power

12 – 35 VDC

Max current draw

22 mA

Output (linear)

4–20mA (current

limited to 22 mA)

Temperature

-25°C to 75°C

(-13°F to 167°F)

APPLICATION:

The PSR-1 has a resistance in darkness in excess of 1 M Ω and resistance in bright light of less than 1.5 k Ω .

The PSR-1 and PSR-1-T indicate the presence of absence of light. They should not be used for footcandle control of occupied spaces. The PSR-1-T is calibrated for 4mA in bright light > 100 foot-candles and 20mA in darkness < 0.1 foot-candles.

MODEL

PSR

PRODUCT DESCRIPTION

RESISTIVE LIGHT SENSOR

CODE OPTIONS

1

T

E

Sensor only

4 – 20mA Transmitter

Weatherproof Enclosure

PSR: PRODUCT ORDERING INFORMATION

EXAMPLE:

Light sensor c/w 4 – 20mA output in weatherproof enclosure

PSR-1-T-E

WATER DETECTOR – WD100 SERIES

DESCRIPTION:

The WD100 is a microchip-based device that uses gold-plated sensing probes to detect the presence of water or other conductive liquid. The WD100 is powered by an AC or DC source, 14 – 30 volts. It features normally open and normally closed (form C) relay contacts rated at

[email protected]/30DC for connection to a monitoring system, or direct control of another device. The mounting legs will allow a sensing height adjustment from 0” to 1/2”. The

WD100 is designed to signal an alarm if one or more of three conditions are met: water is detected, power is lost to the unit, or if there is an internal failure. The WD100 provides the highest level of water detection confidence.

The WD-102 operates on the same principle as the WD-100 but comes with a 5 ft. remote probe. For custom lead lengths please contact Greystone.

The WD-100-xx Series c/w the specified length of conductivity cable. See ordering information for available lengths.

SPECIFICATIONS:

Power supply: 14 – 30 VAC/DC

Supply current 60mA @ 24 VDC,

(no water)

Operating temperature: -40° to 85°C(-40° to 185°F)

Enclosure dimension 127 x 127 x 102 mm

(L x W x H) 5-3/8“ x 5-3/8“ x 4” (max)

(mounting [email protected] 127 x 127 x 102mm max/min height): 5-3/8“ x 5-3/8“ x 3½”(min)

Alarm output: Form C relay, rated @

5 amps @ 120VAC / 30VDC

(resisitive load)

APPLICATIONS:

The following chart gives examples of what types of fluids the WD100 can and can not be used to detect.

Fluids than can be detected

City water

Sea water

Copper sulfate solution

Weak acid

Weak base

Household ammonia

Water & glycol mixture

Wet soil

Coffee

Fluids that can’t be detected

Pure water

Gasoline

Oil

Brake fluid

Alcohol

Ethylene glycol

Paraffin

Dry soil

Whiskey

OTHER FEATURES:

Fail-safe circuitry

Reverse acting contacts

Reverse voltage protection

RFI/EMI noise immunity

ORDERING INFORMATION:

WD-100 – Stand Alone

WD-102 – Remote Probe (5‘)

WD-100-5 – c/w 5’ conductivity cable

WD-100-10 – c/w 10’ conductivity cable

WD-100-25 – c/w 25’ conductivity cable

WD-100-50 – c/w 50’ conductivity cable

WD-100-100 – c/w 100’ conductivity cable

GREYSTONE ENERGY SYSTEMS INC.

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.16

Description: Water flow meter

Model: TX81B Insertion Turbine Meter with FT420 Flow Computer

Supplier info:

Name:

Address:

Van Isle Water

461 Dupplin Rd., Victoria BC V8Z 1B8

Manufacturer info:

Name: Seametrics

Address: 20419 80th Ave. So., Kent WA 98032

Website www.seametrics.com

TX80 Series Flow

Sensor Instructions

General Information

The TX80 Series are turbine-type insertion meters designed for use in pipe sizes 1" to 8". High-quality jewel bearings and nickel-bound tungsten carbide shaft are used for maximum life and extreme low friction. Bodies are machined from solid rod for maximum precision. Lowflow performance is superior. The rotation of the rotor is detected by a non-drag Hall-effect sensor. Output is a pulse-type square wave, which can be sent long distances (up to 2,000 feet) without a transmitter. This signal can be connected directly to SeaMetrics controls, as well as PLC's, counters, and computer cards.

SeaMetrics TX80 meters are ideal for chemical proportioning applications. If no display is required, a simple divider such as the PD10 provides adjustable pump pacing. For rate and total display, as well as pump pacing, the FT420 flow indicator can be mounted directly on the

TX80 Series, or remotely on a wall or panel.

The TX80 Series require special fittings, since they are not depth-adjustable, installation in the fitting ensures correct depth placement in the pipe. Fittings are available in PVC, brass, and stainless steel. Sensors are available in brass, 316 stainless steel, and polypropylene. In plastic pipe 3"-8", use an IP82 sensor, which is 1.00" longer than the IP81 to accommodate the larger fittings.

Specifications

Sensor

Hall Effect Sensor

Nominal K-factor

Cable

Maximum Cable Run

Flow Range (GPM)

12 VDC current sinking pulse

Materials

Sensor Body

Rotor

Shaft

Polypro, Brass, 316 SS

Polypro, PVDF optional

Nickel-bound tungsten carbide,zirconia ceramic

Range

Acuracy

Bearings optional

Ruby

0.2 - 30 FPS (0.06-9.14M/s)

±

1

% FS

Maximum Pressure

Polypro

Brass

316 SS

175 psi @ 75

200 (14 bar)

°

F (12 bar)

250 psi (17 bar)

Maximum Temperature

Polypro 130

°

F (55

°

C) at 0 psi

Brass, SS 200

°

F (93

°

C)

Power

6-24VDC, 8 mA

11 Hz/FPS (3.6 HzM/s)

#22 AWG 3-con 18' (6m)

2,000' (650m)

1" 1-1/2" 2" 3" 4" 6" 8"

Min.

Max.

0.8

80

1.9

190

3.1

314

6.9

691

12 27

1200 2700

47

4700

Features

High level (12 VDC) signal can be sent up to 2000+ feet without transmitter

Fitting automatically sets probe at correct depth and orientation

Pipe stubs provided for ease of installation.

Solvent weld or male NPT

Each fitting individually calibrated and marked with K-factor

(Pulses per Gallon)

Meter mount option for electronics:

Rate/Total

4- 20 mA blind transmitter

Pulse Divider

Battery Rate/Total

Jewel bearings for superior low-flow performance.

Threaded housings allow for field repair

LT-10614A

Page 1 of 4

Installation

!

These water meters are not recommended for installation downstream of the boiler feedwater pump where installation fault may expose the meter to boiler pressure and temperature. Maximum recommended temperature is 130ºF (Plastic),

200ºF (Metal).

Okay, if no air in pipe

BEST

Okay, if no sediment in pipe.

10

Diameters

5

Diameters

Meter Installation. After the meter fitting is installed in the pipeline, the meter can be installed in the fitting. Press the meter into the fitting as far as it will go. Then retain the meter in place by inserting the u-pin. This pin can be installed from either side. It is sometimes necessary to rotate the probe back and forth slightly to start the pin into the slots on the probe. Slide the pin in as far as it will go.

Fitting Installation. TX80 Series meters require special fittings. The meter fitting must first be installed in the pipeline. Straight pipe of at least ten times the diameter upstream of the meter and five diameters downstream are strongly recommended. Inadequate straight pipe, especially downstream of an elbow, change in pipe diameter, or partially-opened valves, can result in signifi-

Meter Connection. See the “TX80 Series Connections” diagram for meter connections. Unless the meter is supplied pre-connected to a meter-mounted FT420 flow indicator, three leads must be connected. These three leads are color coded. The red wire is positive, the black is negative, and the white wire is the signal lead.

TX80 Series Connections

!

Caution: Never remove the uclip retainer when the pipe is under pressure. Always remove pressure from the pipe before attempting to remove the meter.

Removal under pressure may result in damage or serious injury.

Re d (+)

White (SIG)

Bla c k (-) cant inaccuracy. Typically this inaccuracy is in the form of the meter reading "high". TX80 Series meter fittings are supplied with some upstream straight pipe. In the larger sizes, the length provided is less than ten diameters upstream and five downstream. It is not advisable to connect directly to the end of these fittings with a flowdisturbing device such as a valve or elbow. If possible, straight pipe should be added to these fittings.

A PVC fitting is usually installed by solvent welding. The stainless steel and brass meter fittings have female pipe threads, requiring the appropriate male threaded fittings.

Saddle fittings (size 3" and above) require a hole to be cut in the pipe. The recommended hole size is 1-3/4".

K-factor. If the TX80 Series meter is ordered with its fitting, the meter is factory calibrated in the fitting. A Kfactor (meter factor) is indicated on the side of the fitting.

This represents the actual number of pulses per gallon the meter produced during the factory flow test. This number can entered into an FT420 or FT520 flow indicator to make it read properly. If a pulse divider is being used, the K-factor is the starting point for calculating the divider number.

2 of 4

Maintenance and Repair

Rotor Replacement. It is unusual for a rotor to require replacement due to damage sustained in normal service. More commonly, the meter is dropped while it is out of the pipe. Another reason for rotor replacement is shaft wear after long service. Rotors are easily fieldreplaced. Shaft and rotor are not a single unit, if they are using Kynar/ceramic. If replacement is due only to normal shaft wear, bearing replacement is probably not necessary. If the rotor has been damaged by impact, the bearings should also be replaced. Rotor and bearings can be ordered as a kit, Part No.25930.

To install a rotor, follow these steps:

Sensor Replacement. It is very unusual for a sensor to require replacement in normal use. The primary cause of sensor failure is overvoltage (inadvertent connection of line voltage, for example) or incorrect polarity on hookup. The sensor is replaced by removing the strain relief, then threading out the sensor retainer plug. Remove the entire sensor capsule by pulling on the cable.

The new sensor capsule can then be installed. It is important to orient the sensor capsule properly. Replace the retainer plug, and then replace and tighten the strain relief.

Spare Parts List

1. Unscrew the threaded bearing housings to expose the shaft ends. If bearings are being replaced, back them completely out.

2. Remove the rotor. Put the new rotor in its place.

3. Thread in one bearing housing part way, then the other. Take care to start the end of the shaft into the bearing hole before tightening further.

4. Screw in bearing housings until they bottom. Note:

Do not use excessive force.

Part No.

25930

25945

25946

Description

Rotor repair kit(tungsten carbide)

Rotor repair kit (ceramic)

Rotor & shaft assy. (tungsten carbide)

Rotor & shaft assy. (ceramic)

Sensor assy.

O-Ring, Viton

O-Ring, Viton

O-Ring, EPDM

5. Check for free spin. Blowing lightly on the rotor should result in it spinning rapidly and coasting to a smooth stop.

25947

11015

16439

16455

25081

P r o b l e m

N o s i g n a l a f t e r i n s t a ll a t i o n

I n a c c u r a t e m e t e r i n g

T r o u b l e s h o o t i n g G u i d e

P r o b a b l e C a u s e T o C h e c k T o R e p a i r

B

D a d a

I n c o m c a

I n s u o n g m p a t e n f l e l e c t r o n i c s d e f f i c i e n t c o t r i o i b n l e m s i s c o w t o c o n t r o l s i o n n g t r o l r o t o r

S e e M i n .

G P M f o r s i z e

C

C h e h e c k c k p c o n n e c o l a r i t y : t r i o e d n s a t

( + ) , c o n t r o l .

b l a c k ( ) , w h i t e ( s i g n a l )

D o p o e s w e c o n t r o l : r ; 2 ) a c

1 c e

) p t p r o v i d e c u r r e n t

6 2 4 V D C s i n k i n g i n p u t s

R e m o v e f m e t e r a n d c h e c k o r f r e e s p i n n i n g v i s u a ll y

N o t e n o u g h m e t e r s a n d t f r a l o i g h t w d i p i p e s t u r b e t b a n c w e e e n

S e e r e c o m m e n d a t i o n s , m e a s u r e

R e

C o

c

C o n t o n n t a c n e a c t t c t

S

S i e e f a a

M n e

M e c e t t e r r i c s s i c s s a r y

O b t a i n n e w r o t o r a n d r e p l a c e

M d i s o v e t u r b m e t e r a n c e o a w r f a y i e l f r o m d c a f l o w il b r a t e

KYNAR is a registered trademark of Elf Atochem North America Inc.

3 of 4

4 of 4

7

8

9

4

5

6

1

2

3

7

13

14

10

11

(Standard)

12

(Optional)

9

1 0

1 1

7

8

5

6

1

2

3

4

1 2

1 3

1 3

1 4

T X 8 1 , 8 2 P a r t s L i s t i n g

U p p e r h o u s i n g

G a s k e t

L o w e r h o u s i n g

H o u s i n g s c r e w

P l u g , s t e e l

P l u g , p l a s t i c

S t r a i n r e il e f

S e n s o r r e t a i n i n g s c r e w

S e n s o r

O r i n g

B e a r i n g a s s e m b l y ( s t a n d a r d )

S h a f t s c r e w ( o p t i o n a l c e r a m i c s h a f t )

T u r b i n e r o t o r ( s t a n d a r d )

T u r b i n e r o t o r ( o p t i o n a l u s e w i t h # 1 2 )

U c il p

M a t e r i a l

B r o n z e

P V C

P o l y p r o

S t a i n l e s s s t e e l

C a r b o n s t e e l

F i t t i n g s C o m p a t i b i il t y C h a r t

T X 8 1

1 " 4 " T e e

T X 8 2

3 " 8 " B r a z e f ti it n g

1 / 2 " 2 " T e e

N / A

1 / 2 " 2 " T e e

1 / 2 " 2 " T e e

3 " 8 " S a d d l e

3 " 8 " T e e

3 " 8 " W e l d f ti it n g

3 " 8 " W e l d f ti it n g

2 6 1 8 1

2 6 2 1 1

2 9 9 3 0

2 6 2 2 9

2 6 0 7 3

2 6 0 7 9

7 6 5 5

2 5 3 2 1

2 6 3 1 0

2 5 0 8 1

2 5 9 0 1

1 6 7 1 0

2 5 9 4 6

2 5 9 4 7

1 5 5 2 7

20419 80th Ave. So., Kent WA. 98032 USA

Phone: 253-872-0284 Fax: 253-872-0285

www.seametrics.com 1-800-975-8153

FT420 Flow Computer

Instructions

General Information Specifications

The FT420 is a loop-powered microcontroller-based transmitter/indicator. It displays rate and total, and provides a 4-20 mA analog signal proportional to flow. A programmable pulse output, high flow or low flow alarm are also standard for metering pump control or data logging.

Power

Display

Rate

Total

4 mA DC (4-20 mA loop),

12-32 VDC

6-digit autorange, 1/2" character height

8-digit, 5/16" character height

The rugged cast-aluminum housing is gasketed for maximum environmental protection, and the electronics are potted into a solid block of urethane. A membrane keypad allows settings to be changed without removing the cover. The wall mount version comes with brackets for mounting. An adapter kit (part No. MK20) allows field mounting on 80-series flow sensors. The FT420 can also be factory installed on a TX100/200 series sensor or WT meter.

Pulse Output

• 0.1 second open collector pulse (scaled)

• high alarm or low alarm

• sensor pulse (unscaled)

Input

K factor Range

Pulse frequency + 5 VDC

0.050 - 999999.9

Pulse Output Range

0.1 - 200,000 units/pulse

Flow Alarm Output Range

Temperature

Environmental

0.1 - 999999.99

0 C - 70 C

NEMA 4X

Features

Sturdy gasketed cover with electronics potted in

Large rate numerals

Removeable foot brackets for wall mounting

10.5

2341678.9

RESET

SET K

SET

Easy set-up prompts

Triple bosses for watertight input/output connections

Two wire

4-20 mA output standard

LT-10605A

Page 1 of 4

Installation

To mount the FT420 on a wall, hold the unit in the desired position, mark the holes in the mounting feet, drill, and mount with screws.

This unit can also be mounted directly on a flow sensor for local reading. If the unit was ordered as an FT420, factory mounted to the top of a 100 or 200 Series flow sensor, no further installation is required.

To mount the unit on a flow sensor, remove the housing cover. Place the lower half of the housing in the groove on the top of the flow sensor. An adapter is included in the packaging of the FT420 which threads into the top of any 80-Series flow sensor. Pull the sensor wires through the hole in the center of this adapter, then thread the adapter into place. Tighten the adapter using a screwdriver. (See diagram). Connect the wires, then replace the housing cover, orienting it any direction as desired for viewing convenience.

Connection

To connect to the FT420 to a flow sensor, follow the diagram marked “Connections”. This diagram also shows the connections for an external device, such as a chemical metering pump.

If the 4-20 mA current signal is not required, connect the power terminals to any 12-30 VDC current source.

Typical Chemical Metering Pump

Applications

Flow

Programming

!

FT420 on TX81

Chemical power supply

Control Pulses

Proportional

Chemical

Caution: If output is being used to control an external device, such as a metering pump, do not connect the device until programming is completed. If malfunction or incorrect programming of the output could cause personal injury or property damage, separate safeguards must be installed to prevent such injury or damage.

Typical 4-20 mA Application

OUTPUT RELAY

A B

OUTPUT 24VDC

0

1

2

3

4

5

6

7

INPUT 4-20mA

A B

CPU

RUN

BATT

CPU

POWER

Loop power supply

(if not provided on PLC)

At a minimum, every FT420 must be programmed with the “K-factor”. This is simply the number of pulses per gallon which the meter or flow sensor produces. (If you wish the FT420 to read in another unit, enter the number of pulses per that unit. For example, if the desired units are liters, the K-factor is the number of pulses per liter that the flow sensor produces.)

To find the K-factor on any SeaMetrics flow sensor fitting or in-line meter, look on the model-serial label. The line reading K = xxxx is the desired number. For adjustable sensors (101,201,115,215) look in the instruction manual under your pipe size.

Set K. Begin by pressing the key SET once. The prompt

SET K should appear on the display. The digit to the far right will be blinking. Use the up arrow key to reach your desired digit. Then press the left arrow key to move to the next digit. Repeat the process until the entire number is entered. (Note that the decimal is fixed at three places. If you only have two decimal places for your K-factor, enter a zero for the third digit.)

2 of 4

Sensor Mount: Step 1

Sensor Wires

Sensor Mount: Step 2

Sensor Wires

Standard Connections

TX81

Flow Sensor

-

Optional Chart

Recorder or Other

4-20 mA Device

+

+ -

12-30 VDC

Loop Power,

4-20 mA Output

Red

White

Black

Pulse Responsive

Metering Pump

To Other

Control

3 of 4

Set P. The second time the SET key is pressed, SET P will appear. Follow the same process as above to enter the desired pulse rate. This is the number of gallons (or other units, if you are using them) between pulses. Note:

If the pulse output feature is not being used, this step can be skipped. The P (pulse output) setting does not affect anything if it is not being used.

Set Time Unit. The fifth time the SET key is pressed, a blinking time unit appears. Press the up arrow key to select SEC (seconds), MIN (minutes), HR (hours) or

DAY (days).

Special Function: Flow Alarm. If a flow alarm is needed, pressing all three buttons at once will bring up the appropriate settings while Set P is showing. Pressing the up arrow key changes from

P (pulse output) to AL HI (high flow alarm). Press the up arrow key again changes to AL LO (low flow alarm). Press the SET key to set the alarm rate. Use the up arrow and left arrow as above to reach the desired digits. Note: Using flow rate

alarms eliminates the pulse output function.

Operation

SEC

MIN

HR

DAY

SET

10.5

2341678.9

RESET

Set 20 mA. Press the SET key the third time, to set the flow rate, in units per time unit, at which 20 mA is desired. The processor will automatically scale the 4-20 mA loop accordingly, with 4 mA at zero flow.

To return to normal operation after entering settings, press SET for a sixth time. The rate and total indicator numbers should appear in the display. If the unit is connected to an operating flow sensor, the larger-sized digits indicate flow rate and the smaller-sized digits indicate total.

Set Decimal Point. The fourth time the SET key is pressed, a D prompt appears. Pressing the up arrow key switches between no decimal place, one decimal place or two decimal places.

Unless the unit has been ordered with the non-reset option, a RESET prompt is constantly visible in the lower right corner, above the up arrow key. Press this key at any time to reset the totalizer to zero.

Dimensions

FT420 with Wall Mount Brackets

FT420

Sensor-Mount

SET

10.5

2341678.9

2.06"

3.93"

2.57"

2.78"

3.93"

4.52"

4 of 4

20419 80th Ave. So., Kent, WA 98032 USA

Phone: 253-872-0284 Fax: 253-872-0285

www.seametrics.com 1-800-975-8153

Malaspina University-College

School of Management Centre

900 Fifth Street, Nanaimo BC

DDC Controls

Shop Drawing Submittal

Submitted To:

Windley Contracting Ltd.

3711 Shenton Road

Nanaimo, British Columbia V9T 2H1

Submitted By: houle controls

(a div. of houle electric ltd.)

Joe LeRoy, P.Eng

19-831 Devonshire Rd.

Victoria, BC V9A 4T5

250 388-5665

Submittal Details:

Date Submitted:

Date Resubmitted:

3/30/2006

Specification Section: 15900.2.15

Description: Variable Frequency Drives

Model: VLT-6000

Supplier info:

Name:

Address:

Olympic International Agencies Ltd.

344 Harbour Ave, North Vancouver, BC V7J 2E9

Manufacturer info:

Name: Danfoss

Address: 8800 W. Bradley Road Milwaukee, WI 53224-9541

Website www.grahamdrives.com

Project:

Contractor:

Customer P.O.

Malaspina College

Houle Electric Limited

TBA Olympic Ref.

HP

2- Danfoss Model VLT6000 -575/3/60

- NEMA 3R Enclosure

- 5% input line reactor

- Input DC Link Reactors

- 3 Contactor Manual Bypass

- Disconnect

- Fuses on drive and bypass - Drive fuses are Semi-conductor rated

- 3 year drive warranty

[email protected] 20 HP 575/3/60

[email protected] 40 HP 575/3/60

600 Volt

Type

Nominal

Voltage

1 20 HP

1 40 HP

Drive Input Power

Input voltage, 3 phase ............................................. 600 VAC

Input voltage range for full output ............................Nominal ±10%

Max. Amps Output

SIDE-BY-SIDE BYPASS and FUSED/DISCONNECT

VLT6000J22 6022

600

22

VLT6000J41 6042

600

41

Undervoltage trip point ............................................394 VAC

Overvoltage trip point ..............................................690 VAC

Input frequency ........................................................60 Hz, ± 2 Hz

Motor(s)

Horsepower/kW

20

40

Displacement Power factor......................................0.98 or greater at full load and nominal motor speed

Drive Output Power

Output frequency .....................................................Selectable 0 to 120 Hz

Motor voltages .........................................................575 VAC

Continuous output current .......................................100% rated current

Output current limit setting.......................................Adjustable to 110% of drive rating

Current limit timer ....................................................0 to 60 seconds or infinite

Adjustable maximum speed ....................................From minimum speed setting to 120 Hz

Adjustable minimum speed .....................................From maximum speed setting to 0 Hz

Acceleration time .....................................................To 3,600 seconds to base speed

Deceleration time.....................................................To 3,600 seconds from base speed

Breakaway torque time............................................0.0 to 0.5 seconds (1.6 times motor nameplate current)

Start voltage.............................................................0 to 10%

DC braking time .......................................................0 to 60 seconds

DC braking start.......................................................0 to maximum frequency

DC braking current ..................................................0 to 50% of rated motor current

Control Connections

Follower signal.........................................................0 to 5 V DC, 1 to 5 V DC, 0 to 10 V DC, 2 to 10 V DC, 0 to 20 mA,

4 to 20 mA, direct and inverse acting

Number of programmable digital inputs ..................8

Number of programmable analog inputs .................3; 2 voltage, 1 current

Analog input voltage, current ratings .......................0 to 5 V DC, 1 to 5 V DC, 0 to 10 V DC, 2 to 10 V DC, 0 to 20 mA,

4 to 20 mA, direct and inverse acting

Number of programmable analog outputs...............2

Number of programmable relay outputs..................(1) standard Form A 30 V AC, 1 A, (1) standard Form

240 V AC, 2 A, (1) or (4) additional optional

Auxiliary voltage.......................................................+24 V DC, maximum 200 mA

Software

Lost speed reference action ....................................Selectable to go to a preset speed, go to maximum speed, stay at last speed, stop, turn off, or stop and trip

Time delay for lost speed reference action .............1 to 99 seconds

Adjustable auto restart time delay ...........................0 to 600 seconds

Automatic restart attempts.......................................0 to 20 or infinite

Automatic restart time delay ....................................0 to 600 seconds between each attempt

Relay ON delay and relay OFF delay......................0 to 600 seconds

Maximum number of preset speeds ........................16

Maximum number of frequency stepovers ..............4

Maximum stepover width.........................................100 Hz

Maximum number of accel rates .............................4

Maximum number of decel rates .............................4

Delayed Start ...........................................................0 to 120 seconds

Environmental limits:

Efficiency .................................................................97% or greater at full load and nominal motor speed

Ambient operating temperature ...............................14

°

F to 104

°

F (-10

°

C to 40

°

C)

Humidity .................................................................< 95%, non-condensing

Altitude: maximum without derating.........................3,300 ft. (1,000 m)

Drive and options enclosure(s)................................NEMA Types 3R

Protections:

Low frequency and high frequency warnings ..........0 to 120 Hz

Low current and high current warnings ...................0 to maximum current

Low reference and high reference warnings ...........-999,999 to 999,999

Low feedback and high feedback warnings ............-999,999 to 999,999

Ground fault .............................................................Protected

Motor stall ................................................................Protected

Motor overtemperature ............................................Protected (Predictive motor temperature)

Motor Condensation ................................................Protected (Motor pre-heat circuit)

Agency listing:

All drives and option packages are factory-built and carry UL and C-UL listings.

All drives and option packages are built in ISO 9000 and 14001 certified facilities.

DRIVE FEATURES - OPERATOR INTERFACE

THE VLT

®

6000 DRIVE

The VLT 6000 Series microprocessor-based, high frequency IGBT-based, PWM AC drive has control functions and software designed solely for the unique needs of HVAC systems. The VLT 6000 drive uses state-of-the-art Voltage

Vector Control to supply full-rated motor voltage at rated load and frequency, full motor performance without derating, high efficiency for both drive and motor, and a nearly perfect output sine wave. The diode-bridge rectifier and DC link reactor provide a high displacement power factor at all speeds and loads and minimize power line harmonics. The

VLT 6000 drive utilizes a common user interface with a four-line alphanumeric display and a quick setup feature to allow fast, easy installation.

4-Line, 68-Character, Multilingual Alphanumeric Display

The VLT 6000 drive uses a large, bright, back-lit liquid crystal display (LCD) to provide complete drive information at a glance. The logical arrangement of all elements simplifies the setup, operation and monitoring of the drive. Choose from 25 different items to display, including input reference, motor current, hours run, output frequency, horsepower, kW or kWh. Or select from custom units, such as GPM or HP and calibrate the maximum value to the maximum frequency of the unit. After programming one drive, the keypad can be used to transfer the same settings to all other drives. Drive can run without the keypad in place to assure tamper-proof operation. Drive status is shown even with the keypad removed.

First Line - 20 Characters

Displays up to three measurements (volts, amps, kW, etc.) continuously in normal operating status or the title of the meter shown on the second display line.

Second Line - 8 Characters

Continuously shows a measurement (volts, amps, kW, etc.) with relation to the unit, regardless of status (except in the case of alarm/warning).

Third Line - 20 Characters

For use in the menu mode to show the selected parameter group, parameter number and name.

Fourth Line - 20 Characters

Displays the status (Local, Remote, Run OK, etc.) when in operation or the mode or value of the selected parameter when in the change mode.

LED Indication

Three LEDs are provided on the VLT 6000 drive for indication of power applied, warning and fault. Upon power up, all

LEDs will briefly light as a lamp test.

Alarm - Will flash red when the drive has registered a fault condition which has caused the drive to shut down.

Warning - Will flash yellow to indicate a situation exists that exceeds the normal drive/system parameters, and if that condition continues, a trip may be imminent.

On - Will glow green to indicate that the VFD is connected to AC power (line voltage is present).

Operating Keys

Hand/Start - Starts the drive regardless of remote start/stop contact (assuming safety interlock is closed). The speed of the drive will generally be controlled manually via the keypad "+" and "-" buttons.

Off/Stop - Shuts drive down regardless of other commands.

Auto/Start - Drive will start and stop via the external contact closure (building automation time clock). The speed is generally controlled via the building automation signal (4 to 20 mA, 0 to 10 V DC, etc.).

Reset - Will reset any trip level fault (not trip lock) if the drive is not set for infinite automatic fault resets.

Directional Keys

“+/-” - Used as the electronic potentiometer to manually control the speed in the Hand/Start mode.

All four keys are active during operation as well as programming. They provide the ability to move the cursor around the LCD display, or sequence through display values.

Programming Keys

Change Data - Used to change the data value of a parameter when programming the drive.

Cancel - Used to cancel the last programming command so the change is not carried out.

OK - Used to confirm that the last programming change should be saved to memory.

Display Mode - Used to select the mode of display and to change from any programming mode back to the display mode.

Quick Menu - Used for programming the VLT 6000 drive using the 12 parameters in the quick setup menu. Can switch directly between extended menu mode and quick menu mode.

Extended Menu - Used to access all parameters for programming. It can switch directly from this mode to quick menu.

PROGRAM OPTIONS

Setup - Application specific

The VLT 6000 drive was designed specifically for the HVAC market. This specialization has allowed Danfoss Graham to factory program and configure the VLT 6000 drive to make it ready to use out of the box. This eliminates the time consuming and often confusing job of selecting the right parameters in the field. For the advanced user, the parameters are logically grouped making modifications simple. Customized text (2 lines, 20 characters-first line, 8 characters-second line) can be programmed into the drive using the EIA-485 port.

Quick Menu -

Contains the 12 required setup parameters to easily start the application.

Extended Menu

– Used to access all parameters for programming. It can switch directly form this mode to quick menu.

Programmable Analog and Digital Inputs and Outputs

Three analog (2 voltage, 1 current) and eight digital inputs along with two analog and two relay (1 Form A 30 V AC,

1 A ; 1 Form C 240 V AC, 2 A) outputs, all programmable, are standard on the VLT 6000 drive.

DRIVE FEATURES - MOTOR AND DRIVE INTERACTION

Constant Torque Start

The VLT 6000 drive provides a constant-torque start mode to provide full torque to accelerate different loads until the drive reaches the set point. Breakaway current can be set up to 160% for up to 0.5 seconds for starting high friction loads

Current limit circuit

Adjustable from 0 to 110% of the VLT 6000 drive's rated current (factory set at 110%). If during acceleration the current required to accelerate the load exceeds the current limit, the VLT 6000 drive will stop accelerating until the motor current is reduced to normal levels, at which time the load will continue to accelerate at the rate set by the acceleration time.

Three phase output current measurement

The VLT 6000 drive’s sophisticated software measures output current on all three phases. Phase grounding is instantly detected. Output contactors may be repeatedly used with no damage to the drive. Multiple motors may be run from one drive.

Advanced motor protection

The VLT 6000 drive features integrated electronic, thermal motor protection. The VFD calculates the motor temperature based on current, frequency, and time. This system allows for changing cooling conditions as speed and load vary. The drive can predict motor over-heating and reports a % of thermal load.

Motor Pre-heat circuit

This pre-heat function can be activated to avoid condensation on the motor windings when it is stopped.

Stall Protection

The VLT 6000 drive provides protection against a stalled motor. When activated, this function can provide a warning or a fault condition caused by excessive motor current at low speeds.

DRIVE FEATURES

DC Link Reactor

A dual, 5% DC link reactor on the positive and negative rails of the DC bus is standard equipment on the VLT 6000 drive. This reactor reduces the level of harmonics reflected back into the building power system without causing a voltage loss at the drives input and reducing efficiency as an external AC line reactor would. This reactor also improves input power factor. The reactor is non-saturating (linear) to provide full harmonic filtering throughout the entire load range. In performance, the DC link reactor is equivalent to a 5% AC line reactor

Power Line Protection

Power line voltage surge protection is provided by means of input Metal Oxide Varistors (MOVs). This protects the diodes in the VLT 6000 drive’s 3-phase full wave diode bridge. The DC link reactor also acts to reduce input current caused by power line disturbances.

Sleep Mode

Automatically stops the drive when speed drops below set "sleep" level for specified time. Automatically restarts when speed command exceeds set "wake" level. Saves energy and reduces wear on driven equipment.

Run Permissive Circuit

Ability to accept a "system ready" signal assures that dampers or other auxiliary equipment are in the proper state for drive operation. This feature also provides the ability for the drive to send a “start signal applied” signal to the system to notify the auxiliary equipment of the drive’s request to start.

Firefighter’s Override Mode

Overrides all other commands to provide desired operation. Ignores most alarms including over load, over current, over temperature, phase loss. When used with bypass, selectable to run from drive, from bypass, or switch from drive to bypass in the event of a drive failure.

Acceleration / Deceleration Rates

The VLT 6000 drive can provide four individually controlled sets of acceleration/deceleration rates each from 1 to

3600 seconds. The shape of these curves may be automatically contoured to prevent tripping.

Plenum Rated

The VLT 6000 NEMA 1 or NEMA 12 drive is recognized by UL for installation in air handling compartments.

Auto Restarts

The VLT 6000 drive can be automatically restarted up to 20 times or infinitely at 0 to 600 second intervals. If the application causes the drive to trip more than the number of trials set, the drive will stop operating and display the fault on the display screen. A manual reset will be required by means of the reset key, a digital input, or EIA-485 command. In cases of severe trips, as a safety feature, the drive's input power may have to be cycled to restart a fault.

Carrier Frequency

By using IGBTs, the VLT 6000 drive can employ high switching frequencies, so the motor current is practically sinusoidal. Audible motor noise can also be minimized by adjusting the switching frequency. These frequencies can be set or adjust themselves automatically to fit the application.

Input Power

The VLT 6000 drive is equipped with an automatic sustained power or phase loss circuit. The VLT 6000 drive will provide a full rated output with an input voltage as low as 90% of the nominal. The drive will continue to operate with reduced output with an input voltage as low as 164 volts for 208/230 volt units, 313 volts for 460 volt units, and 394 volts for 600 volt units.

Automatic Motor Adaptation (AMA)

Knowing motor stator resistance, the drive automatically optimizes performance and efficiency. The motor does not have to be run or decoupled from the load for the AMA setup to be performed.

Critical Frequency Lockouts

For applications where it may be necessary to avoid specific frequencies due to mechanical resonance problems in the driven equipment, the VLT 6000 drive, with its Critical Frequency Lockout Function, makes it possible to set up to four different frequency ranges which will be avoided during operation of the drive.

Each critical frequency setting can avoid a frequency band which is from 1 to 100 Hz wide. If the reference signal defines that the VLT 6000 drive is to operate within this critical frequency range, the critical frequency lockout function will keep the drive operating continuously within this range.

When the frequency reference signal rises above the critical frequency maximum limit, the VLT 6000 drive will allow the motor to accelerate through the critical frequency at the rate set by the acceleration rate.

Automatic Energy Optimization Circuitry

The Automatic Energy Optimization (AEO) function adapts the output of the drive to the specific motor and load connected. This circuit optimizes the system efficiency as system loads change. The AEO function regulates the output voltage on the basis of the reactive current and the effective current. A savings of 3 to 10% in power consumption can be obtained with this function.

Preset Speeds

The VLT 6000 drive allows for a maximum of sixteen programmable preset speeds to be selected from the digital inputs.

Proportional Integral Derivative (PID) Setpoint Controller

The VLT 6000 drive is equipped with an internal PID Controller. This controller can be used to control pumping, or ventilation applications. The drive uses four inputs. Two set point signals which indicate the desired value of a process variable and two feedbacks of the actual value of the process variable. This could be pressure, flow, temperature, CO

2

level, or anything that can be metered in the HVAC environment.

Proportional: The proportional gain dictates the rate at which the deviation between actual and desired feedback signal is corrected. The higher the gain, the faster the response, but too high a gain can cause hunting and a large overshoot.

Integral Time: The integral time continually compares the feedback value with the desired set point over time

to make sure the setpoint is reached. The greater the integral time, the longer it takes to actually achieve the set point, but improves the system stability.

Derivative: The derivative function monitors the rate at which the feedback is closing on the desired setpoint and slows the rate of approach to prevent overshooting. This function allows rapid accurate system control.

Built-in Communications

The VLT 6000 drive is fully equipped for serial communication (EIA-485). Up to 31 drives can be connected to one serial bus up to 5,000 feet long.

Communicates directly with Johnson Controls Metasys (N2), Landis & Staefa System 600 (FLN), and Modbus RTU systems with no hardware changes or additional costs.

Broken Belt, Loss of load

A minimum motor current value can be set to indicate the motor is not using any more current than to run at idle. This can be used to indicate a broken belt or coupler. This feature can also be used to detect when a motor is disconnected from the drive.

WARRANTY

The VLT 6000 drive carries a 36-month on-site warranty from the date of shipment. This warranty includes parts, labor, travel, and expenses.

VLT

®

6000 DRIVE OPTIONAL FEATURES

Bypass Enclosure

.

Drive options:

Interlocked Three-contactor Bypass

Input Disconnect Switch

Common Run/Stop

This bypass consists of a bypass contactor interlocked with a drive output contactor, a drive input contactor, an overload relay and the associated logic circuitry mounted and wired in the auxiliary enclosure. An enclosure mounted drive/off/line/test switch is used to electrically select whether the motor is driven by the drive, the line, or disconnected from both. The input contactor disconnects power automatically when in the "off" and "line" modes.

Includes drive fuses. Requires input fuses.

Common run/stop will allow remote run/stop in either drive or bypass mode if specified.

Fusing Input Drive

Input fusing fuses the entire panel from the line; drive fusing fuses the drive from the line.

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