ABB COMMANDER 310 Installation manual

ABB COMMANDER 310 Installation manual
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ABB COMMANDER 310 is a versatile process controller designed for accurate and reliable measurement and control of various industrial processes. It features universal inputs for thermocouples, RTDs, and DC voltage/current signals, allowing for flexible configuration to suit different applications. The isolated output provides either a 0-20mA analog signal or a 12V logic output for interfacing with external devices.

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ABB COMMANDER 310 Installation manual | Manualzz

COMMANDER 310

Universal

Process Controller

Installation Guide

COMMANDER 310

A1 A2

47.5

50.0

L R ST M

ABB Instrumentation

ABB INSTRUMENTATION

The Company

ABB Instrumentation is an established world force in the design and manufacture of instrumentation for industrial process control, flow measurement, gas and liquid analysis and environmental applications.

As a part of ABB, a world leader in process automation technology, we offer customers application expertise, service and support worldwide.

We are committed to teamwork, high quality manufacturing, advanced technology and unrivalled service and support.

The quality, accuracy and performance of the Company’s products result from over 100 years experience, combined with a continuous program of innovative design and development to incorporate the latest technology.

The NAMAS Calibration Laboratory No. 0255 is just one of the ten flow calibration plants operated by the Company, and is indicative of

ABB Instrumentation's dedication to quality and accuracy.

Use of Instructions

Warning.

An instruction that draws attention to the risk of injury or death.

BS EN ISO 9001

E

G

IS

T E R E D

F

IR

St Neots, U.K. – Cert. No. Q5907

Stonehouse, U.K. – Cert. No. FM 21106

EN 29001 (ISO 9001)

Lenno, Italy – Cert. No. 9/90A

0255

Stonehouse, U.K.

Note.

Clarification of an instruction or additional information.

Caution.

An instruction that draws attention to the risk of damage to the product, process or surroundings.

Information.

Further reference for more detailed information or technical details.

Although Warning hazards are related to personal injury, and Caution hazards are associated with equipment or property damage, it must be understood that operation of damaged equipment could, under certain operational conditions, result in degraded process system performance leading to personal injury or death. Therefore, comply fully with all Warning and Caution notices.

Information in this manual is intended only to assist our customers in the efficient operation of our equipment. Use of this manual for any other purpose is specifically prohibited and its contents are not to be reproduced in full or part without prior approval of Technical Communications Department, ABB Instrumentation.

Health and Safety

To ensure that our products are safe and without risk to health, the following points must be noted:

1. The relevant sections of these instructions must be read carefully before proceeding.

2. Warning labels on containers and packages must be observed.

3. Installation, operation, maintenance and servicing must only be carried out by suitably trained personnel and in accordance with the information given.

4. Normal safety precautions must be taken to avoid the possibility of an accident occurring when operating in conditions of high pressure and/or temperature.

5. Chemicals must be stored away from heat, protected from temperature extremes and powders kept dry.

Normal safe handling procedures must be used.

6. When disposing of chemicals ensure that no two chemicals are mixed.

Safety advice concerning the use of the equipment described in this manual or any relevant hazard data sheets

(where applicable) may be obtained from the Company address on the back cover, together with servicing and spares information.

CONTENTS

1 INTRODUCTION .................................. 2

2 PREPARATION .................................... 3

2.1

Checking the Code Number ......... 3

3 MECHANICAL INSTALLATION .......... 4

3.1

Siting .......................................... 4

3.2

Mounting ...................................... 5

4 ELECTRICAL INSTALLATION ............ 6

4.1

Access to Terminals ..................... 6

4.2

Setting the Input Selector Links ... 6

4.3

Setting the Isolated Output Link ... 6

4.4

Cable Glands and

Conduit Fixings ............................ 8

4.4.1

Cable Glands

(IEC – 20mm) ................... 8

4.4.2

Conduit Adaptors

(N. American – 0.5in) ........ 8

4.4.3

Cable Glands

(N. American – 0.5in) ........ 9

4.5

Connections Summary ............... 10

4.6

Input Connections ...................... 12

4.6.1

Thermocouple

(THC) Inputs ................... 12

4.6.2

3-lead Resistance

Thermometer (RTD)

Inputs .............................. 12

4.6.3

2-lead Resistance

Thermometer (RTD)

Inputs .............................. 12

4.6.4

Links for Unused Inputs .. 12

4.7

Output Connections ................... 14

4.8

Relay Connections ..................... 14

4.9

Motorized Valve Connections .... 14

4.10 Logic Input Connections ............ 15

4.11 Power Supply Selection and

AC Connections ......................... 16

5 INSTALLATION RECORD ................. 17

1

1 INTRODUCTION

The COMMANDER 310 Series documentation is shown in Fig. 1.1. The

Standard Manuals

, including the specification sheet, are supplied with all instruments. The

Modbus Supplement

is supplied with instruments configured for Modbus Serial Communication.

This manual includes an

Installation Record

which should be completed as a log of the electrical installation. The record is useful when carrying out initial instrument programming and can be retained for future reference.

INSTALLATION

Product Identification

Siting

Mounting

Electrical Connections

Installation Record

Part No.

IM/C310–INS

SPECIFICATION SHT.

Full Specification

Part No.

SS C310

OPERATION

Setting Up

Displays & Controls

Operating Level

Simple Fault Finding

Part No.

IM/C300–OG

PROGRAMMING

Basic Config. Level

Advanced Config. Level

Part No.

IM/C300–PG

MODBUS (RTU)

Serial Adaptors

Serial Connections

Programming Page

Modbus Registers

Part No.

IM/C310–MOD

Standard Manuals

Fig. 1.1 Commander 310 Documentation

Modbus Supplement

2

2 PREPARATION

2.1

Checking the Code Number – Fig. 2.1

C310 / X X X X X X X X

Code Number Label – see Table 2.1

Fig. 2.1 Location of Code Number Label

COMMANDER 310 Universal Process Controller

Option

Board

None

RS485 Modbus Serial Comms.

Power

Supply

115V AC *

230V AC

24V AC

C310 /

XX

00

01

X

1

2

3

X XXXX

Build

Standard

CSA Approved

CL1, DIV 2; CSA/FM

Configuration

Special Features

Configured to Factory Standards

Configured to Customers Details

Agreed Special Feature

* 115V AC versions are fitted with 0.5in NPT gland entry fixings – see Section 4.4.2

0

1

3

STD

CUS

SPXX

Table 2.1 Identification of Instrument Code Number

3

4

3 MECHANICAL INSTALLATION

EC Directive 89/336/EEC

In order to meet the requirements of the

EC Directive 89/336/EEC for EMC regulations, this product must not be used in a non-industrial environment.

3.1

Siting – Figs. 3.1 and 3.2

Minimum

Sensor

A – Close to Sensor

B – At Eye-level Location

55

°

C

Max.

0

°

C

Min.

A – Within Temperature Limits

0 to 90% RH

B – Within Humidity Limits

IP66/

NEMA4X

C – Within Protection Rating Limits

+

C – Avoid Vibration

Fig. 3.1 General Requirements

Caution. Select a location away from strong electrical and magnetic fields. If these cannot be avoided, particularly in applications where ‘walkie talkies’ are used, connect using screened cables within earthed metal conduit.

D – Use Screened Cables

Fig. 3.2 Environmental Requirements

3 MECHANICAL INSTALLATION…

3.2

Mounting – Figs. 3.3 and 3.4

The instrument is designed for wall-/pipe-mounting – see Fig. 3.4. Overall dimensions are shown in Fig. 3.3.

Dimensions in inches (mm)

6.3 (160)

2.68 (68)

1.65

(42)

9.84

(250)

8.43

(214)

9.13

(232)

2.72 (69)

Fixing Centres

Fixing Holes

(x3) 0.25 (6.5) Dia

7.9 (200)

Allowance for

Cable Bends

Fig. 3.3 Overall Dimensions

2

3

/

8

(61) O.D. Vertical or

Horizontal Post

2

Drill suitable holes

Position ‘U’ bolts on pipe

Position plates over ‘U’ bolts

2

1

(Pipe Mounting Kit – part no. 4600/0138)

3

Fix instrument to wall using suitable fixing

1

Mark fixing centres

(see Fig. 3.3)

3

Secure plates

4 Secure transmitter to mounting plate

Fig. 3.4 Wall-/Pipe-mounting Details

5

4 ELECTRICAL INSTALLATION

Warning. Before making any connections, ensure that the power supply, any high voltage-operated control circuits and high common mode voltages are switched off.

Note.

• Always route signal leads and power cables separately, preferably in earthed metal conduit.

• It is strongly recommended that screened cable is used for signal inputs and relay connections. Connect the screen to the ground stud.

Information. Use cable appropriate for the load currents. The terminals accept cables up 12AWG (2.5mm

2

).

4.1

Access to Terminals – Fig. 4.1

For access to terminals – refer to Fig. 4.1, steps

1

to

3.

4.2

Setting the Input

Selector Links – Fig. 4.2A

Plug-in links on the microprocessor p.c.b. are positioned according to the type of Process

Variable Input, Remote Set Point Input and

Valve Position Feedback Inputs used.

Remove the instrument front panel – see

Fig. 4.1, steps

1

to

6.

Referring to Fig. 4.2A, set the link positions for the input type required.

4.3

Setting the Isolated

Output Link – Fig. 4.2B

A plug-in link (PL7) on the microprocessor p.c.b. is positioned according to the isolated output required, either a current proportioning control output (programmable in range 0 to 20mA) or a 12V logic output

(minimum load 400

). Referring to Fig. 4.2B

– steps

1

and

2,

set the link for the output type required.

To use a 12V logic output, the control type must be set to Time Proportioning Control – see Fig. 3.1 of the Programming Guide.

6

Remove front panel

5

Remove cap and screw

6

1 slide down

2

Pull out slightly…

4

Remove front panel screws

2

…and slide off

3

Slacken captive screws and remove protection cover

Fig. 4.1 Access to Terminals and Processor Board

4 ELECTRICAL INSTALLATION…

1

2

Identify Link PL7

Set links for output type required

1

PL7

1

PL7

Logic Output or

Analog Output

B – Isolated Output Types

PL1

Process

Variable

Input

PL2

Remote

Set Point

Input

PL3

Position

Feedback

Input

mA

R, mV,

THC & RTD

V

2-wire

Transmitter

Input

A – Input Types

Fig. 4.2 Setting the Selector Links

7

…4 ELECTRICAL INSTALLATION

4.4

Cable Glands and Conduit Fixings

4.4.1

Cable Glands

(IEC – 20mm) – Fig. 4.3

4.4.2

Conduit Adaptors

(N. American – 0.5in) – Fig. 4.4

Warning.

• Rigid conduit must NOT be fitted to the controller.

• Controller adaptors must incorporate a face seal.

• Torque settings for the hubs and outer nuts on the specified adaptors is 20ft.

lbs minimum, 25ft. lbs. maximum.

'O'-Ring

Information.

• Suitable adaptors for controller

(mandatory for FM installations):

APPLETON

ST-50 PLUS STG-50 or STB-50

PLUS STG-50.

Reusable ONLY with replacement ferrule STF-50.

O.Z. GEDNEY

4Q-50, 4Q50T or 4Q-50TG.

Fig. 4.3 Cable Gland

(Supplied as standard)

Alternative

Face Seal

Face

Seal

Seal

(Present in O.Z.

Gedney

Fittings)

Outer Nut

Fig. 4.4 Conduit Adaptors

Hub

Ferrule

8

4 ELECTRICAL INSTALLATION…

4.4.3

Cable Glands

(N. American – 0.5in) – Fig. 4.5

Warning.

• Controller glands must be fitted with a face seal.

• Torque settings (hubs only) – 20ft. lbs minimum, 25ft. lbs. maximum.

• Outer nuts – hand tight plus a half turn only.

Alternative

Face Seal

Information.

• Suitable Cable Glands: (mandatory for

FM installations):

O.Z. GEDNEY

SR-50-375 or SR-504

APPLETON

CG 3150 or CG-3150S (and STG-

50 sealing ring).

THOMAS & BETTS

2521.

• When fitting cable glands to the controller, start with an outer gland and also temporarily fit a gland at the opposite end, to aid location of the transmitter gland plate. Fit and tighten glands consecutively from initial gland.

Face

Seal

Fittings vary slightly for different makes

Hub

Illustration typical for

O.Z.Gedney

Outer Nut

Fig. 4.5 Cable Glands

9

…4 ELECTRICAL INSTALLATION

4.5

Connections Summary – Fig. 4.6

Information.

Input impedances:

Low voltage(mV) >10M

Voltage >10M

Current 10

.

Relay 1

Relay 2

Relay 3

Process Variable Input

Remote Set Point Input

Power

Supply

3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

1 2

18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

MODBUS (RTU)

(if option fitted)

Control Output

Logic Input

Position Feedback Input

Retransmission Output

Fig. 4.6 Terminal Block Identification

10

4 ELECTRICAL INSTALLATION…

Terminal Number

1

2

AC Supply

L

24V, 115V or 230V a.c.

N

3 N/O

4 C

5 N/C

– see Fig. 4.22

Relay 1 Output Motorized Valve Control Relay (open)

– see Fig. 4.17 – see Fig. 4.19A

6 N/O

7 C

8 N/C

9 N/O

10 C

11 N/C

Relay 2 Output Motorized Valve Control Relay (close)

– see Fig. 4.17 – see Fig. 4.19A

Relay 3 Output

– see Fig. 4.17

Alarm Relays

12

13

14

15

16

17

3rd lead/2-wire TX

Input 1+

Input 1–

3rd lead

Input 2+

Input 2–

18 Tx+

19 Tx–

20 Common

21 Rx+

22 Rx–

Process Variable Input or 2-wire Tx Power Supply

– see Figs. 4.7 to 4.9, – see Fig. 4.13

4.12 and 4.14

Remote Set Point Input – see Figs. 4.7 to 4.12 and 4.14

RS 485 Modbus Serial Communications Option 1 only – see

Modbus (RTU) Communications Supplement, IM/C310–MOD

23 +

24 –

25 +

26 –

Retransmission Output/Cool Output – see Fig. 4.15

Current Proportioning Control Output/Heat Output Fig. 4.15

or 12V Logic Control Output Fig. 4.16

27 3rd lead

28 Input 3+

29 Input 3–

30

31

32

Position Feedback Input – see Figs. 4.18 , 4.19A and 4.19B

Logic Input 1 – see Figs. 4.20 and 4.21

Logic Input 2 – see Figs. 4.20 and 4.21

Common

Table 4.1 Electrical Connections

11

…4 ELECTRICAL INSTALLATION

4.6

Input Connections

Make connections to each input, as shown in Figs 4.4 to 4.14, first removing any factory-fitted wire links not required.

4.6.1

Thermocouple (THC) Inputs – Fig. 4.7

Note. Automatic Cold Junction Compensation (ACJC) is active when an input is programmed for use with thermocouples. Use the correct compensating cable between the

THC and the terminals – see Table 4.2.

If an external fixed cold junction is used, the connections to the instrument must be made with copper cable. The input must be programmed for mV input signals and the appropriate

THC linearizer selected – see Sections 4.5 and 4.6 of the Programming Guide.

T

T

N

N i i

y p h e

c r i

e r m

C r / N s

P t / P t -

F e li

o f o c o u

i A l

/ N i s

R h

C u / C u -

/ C o n

N i

(

(

J )

R li

( T

(

)

(

p l e

K a

)

N n d

)

S )

F e / C o n ( D I N 4 3 7 1 0 )

B S 1 8 4 3

+

B r o w n

B l u e

C a s e R e d

+

O r a n g e

B l u e

C a s e O r a n g e

+

W h i t e

B l u e

C a s e G r e e n

+

W h i t e

B l u e

C a s e B l u e

+

Y e

B l ll o u e w

C a s e B l a c k

C o m p e n s a t i n g C a b l e

A N S I

M C 9 6 .

1

+

Y e

R ll o e d w

C a s e Y e ll o w

+ O r a n g e

C a s e

R e d

O r a n g e

+

B l a c k

R e d

C a s e G r e e n

+

C a s e

B l u e

R e d

B l u e

+

W h i t e

R e d

C a s e B l a c k

4

+

C a s

D

3

I

7

R

N

1

e

4

d

G r e e n e G r e e n

+ R e d

W h i t e

C a s e W h i t e

+ R e d

B r o w n

C a s e B r o w n

+

R e d

B l u e

C a s e B l u e

B S 4 9 3 7

P a r t N o .

3 0

+

C a s e

G r e e n

W h i t e

G r e e n *

+ P i n k

W h i t e

C a s e P i n k *

+

O r a n g e

W h i t e

C a s e O r a n g e *

+

C a s e

B r o w n

W h i t e

B r o w n *

+

C a s e

B l a c k

W h i t e

B l a c k *

* C a s e B l u e f o r i n t r i n s i c a ll y s a f e c i r c u i t s

D I N

+ B l

4 3 7 1 0 u e / r e d

– B

C a s e l u e

B l u e

Table 4.2 Thermocouple Compensating Cables

4.6.2

3-lead Resistance Thermometer (RTD) Inputs – Fig. 4.8

The three leads must have equal resistance, not exceeding 50

each.

4.6.3

2-lead Resistance Thermometer (RTD) Inputs – Fig. 4.9

If long leads are necessary it is preferable to use a 3-lead RTD. If the RTD is to be used in a hazardous area a 3-lead RTD must be used.

4.6.4

Links for Unused Inputs

To reduce susceptibility to electro-magnetic interference, ensure that the three terminals on each unused input are shorted together with sleeved wire links.

12

Remote Set Point

Process Variable

%

@

^

£

&

$

Sleeved

Link

+

Fig. 4.7 Thermocouple Input Connections

Remote Set Point

Process Variable

%

@

^

£

&

$

Red

White

Red

Fig. 4.8 3-lead Resistance

Thermometer Input Connections

Remote Set Point

Process Variable

%

@

^

£

&

$

Sleeved

Link

White

Fig. 4.9 2-lead Resistance

Thermometer Input Connections

Red

Remote Set Point

% ^ &

Fig. 4.10 3-lead Resistance

Remote Set Point Input Connections

Remote Set Point

% ^ &

4 ELECTRICAL INSTALLATION…

Remote Set Point

Process Variable

%

@

^

£

&

$

Sleeved

Link

Fig. 4.12 Current Input Connections

@ £

$

Tx

Fig. 4.13 2-wire Transmitter

Power Supply Input Connections

Remote Set Point

Process Variable

%

@

^

£

&

$

Sleeved

Link

Fig. 4.14 Voltage Input Connections

Retransmission O/P or 'Cool' Analogue O/P in Heat/Cool

Current Proportioning

Control Output

23

25

24

26

Fig. 4.15 Current Proportioning Control and Retransmission Output Connections

12V Logic Output for ON/OFF or Time-proportioning Control

25 26

Sleeved Link

Fig. 4.11 2-lead Resistance

Remote Set Point Input Connections

Fig. 4.16 Logic Control Output Connections

13

…4 ELECTRICAL INSTALLATION

4.7

Output Connections

Make connections as shown in Figs 4.15 and

4.16.

4.8

Relay Connections – Fig. 4.17

For relay functions refer to the following table.

O n / O f f C o n t r o l

T i m e P r o p .

( H e a t )

T i m e P r o p .

( C o o l )

M o t o r i z e d V a l v e

A l a r m

R e l a y 1

O p e n

R e l a y 2

C l o s e

R e l a y 3

Valve

Positioner

Power

Supply

(L) L

N

(N)

3 4 5 6 7 8

100% 0%

Link

Motorized

Valve Drive

100% 0%

Relay 3

Relay 2

Relay 1

9

6

3

0

7

4

!

8

5

27 28 29

A – Standard Feedback Slidewire

Configuration

Normally Open

Common

Normally Closed

Fig. 4.17 Relay Connections

4.9

Motorized Valve

Connections – Figs. 4.18 and 4.19

Sleeved Link

27 28 29

Motorized Valve

Drive

Fig. 4.18 Motorized Valve Feedback

Connections (using V, I or mV feedback)

27 28 29

Link

0%

100%

Motorized Valve Drive

B – Alternative Feedback Slidewire

Configuration

Note. Link must be connected at the motorized valve drive terminals and not the Controller terminals.

Fig. 4.19 Motorized Valve Connections

(using feedback slidewire)

14

4 ELECTRICAL INSTALLATION…

4.10

Logic Input Connections – Figs. 4.20 and 4.21

Each logic input can be programmed to perform one of a number of functions – see Section

3.10 of the Programming Guide.

Auto/

Manual

Selection

5V

Logic switching

0V

Automatic

Manual

Local/Remote

Set Point

Selection

Dual Set Point

Selection

Local

Fixed Dual

Set Point 2

Remote or Dual

Fixed Dual

Set Point 1

30 31 32

Alarm

Acknowledgement

* Alarm

Acknowledge

* Leading 'edge-triggered'

(minimum duration 200ms)

30

31

Logic Input 1

Logic Input 2

32

Common

Automatic

Manual

Local

Fixed Dual Set Point 2

Remote (Dual)

Fixed Dual Set Point 1 Alarm Ack.

Note. Only one function may be performed by each input at any one time.

Fig. 4.20 Standard Logic Input Functions

5V

Logic switching

0V

30 31 32

Hold

(Soak)

Start

Profile

* Profile

Reset

* Skip

Segment

* Leading 'edge-triggered'

(minimum duration 200ms)

P–Strt P–rSEt

Hold/ (Soak)

Start Profile

P–SKIP

Profile Reset Skip Current Segment

30 Logic Input 1

31

Logic Input 2

32 Common

Note. Only one function may be performed by each input at any one time.

Fig. 4.21 Additional Logic Input Functions for Profile Selection

15

…4 ELECTRICAL INSTALLATION

4.11

Power Supply Selection and AC Connections – Fig. 4.22

115V

115

1

Digit 7

Code Label

C31 x x x x x x x x x

230

230V

2

3

Selector not Fitted (24V AC)

A – Selecting the Supply Voltage

115

16

Information.

Fuse Rating - 5A Type T

Remove plug to make connection

Fuse

Neutral

Line

Ground

B – Power Supply Connections

Fig. 4.22 Power Supply Selection and AC Connections

5 INSTALLATION RECORD

Connection/Terminal Number

1

L

Power Supply

2

N

3

NO

Relay 1 Output

4

C

5

NC

6

NO

Relay 2 Output

Relay 3 Output

Process Variable

Input

Remote Set Point

Input

Modbus Serial

Communications

Option 1 only

Retransmission

Output

7

C

8

NC

9

NO

10

C

11

NC

Power Supply

(Tick Box)

230V AC

115V AC

24V AC

Output Type:

Output Function:

Output Type:

Output Function:

Output Type:

Output Function:

12

3rd

13

+

14

15

3rd

Link Positions

(Tick Box) mA mV/THC/RTD V 2-wire Tx

Link Positions

(Tick Box)

16

+

17

– mA mV/THC/RTD V

18

Tx+

19

20

Tx–

Common

Linked-out

Termination Resistors

(Tick Box)

21

Rx+

22

Rx–

23

+

24

Linked-in

Output Type:

Output Function:

17

…5 INSTALLATION RECORD

Connection/Termina Number

25 +

Control Output

26 –

Position Feedback

Input

27 3rd

28 +

Logic Input 1

Logic Input 2

Common

29 –

30

31

32 mA mV

R

V

Link Positions

(Tick Box)

Analog Output Logic Output

Link Positions

(Tick Box)

18

NOTES

19

…NOTES

20

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Pneumatic Instrumentation

• Transmitters

• Indicating Controllers

• Recording Controllers

Customer Support

ABB Instrumentation provides a comprehensive after sales service via a Worldwide Service Organization.

Contact one of the following offices for details on your nearest Service and Repair Centre.

United Kingdom

ABB Instrumentation Limited

Tel: +44 (0)1480 475321

Fax: +44 (0)1480 470787

United States of America

ABB Automation Inc.

Instrumentation Division

Tel: +1 215-674-6000

Fax: +1 215-674-7183

Italy

ABB Instrumentation SpA

Tel: +39 (0) 344 58111

Fax: +39 (0) 344 58278

Client Warranty

Prior to installation, the equipment referred to in this manual must be stored in a clean, dry environment, in accordance with the Company's published specification. Periodic checks must be made on the equipment's condition.

In the event of a failure under warranty, the following documentation must be provided as substantiation:

1. A listing evidencing process operation and alarm logs at time of failure.

2. Copies of operating and maintenance records relating to the alleged faulty unit.

The Company's policy is one of continuous product improvement and the right is reserved to modify the information contained herein without notice.

© ABB 2000 Printed in UK (01.00)

ABB Instrumentation Ltd

St. Neots

Cambs.

England, PE19 3EU

Tel: +44 (0) 1480 475321

Fax: +44 (0) 1480 217948

ABB Automation Inc.

Instrumentation Division

125 E. County Line Road

Warminster, PA 18974 USA

Tel: +1 215-674-6000

Fax: +1 215-674-7183

ABB Instrumentation SpA

22016 Lenno

Como

Italy

Tel: +39 (0) 344 58111

Fax: +39 (0) 344 58278

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