PRODUCTS & CUSTOMER SUPPORT
Products
Automation Systems
•
for the following industries:
– Chemical & Pharmaceutical
– Food & Beverage
– Manufacturing
– Metals and Minerals
– Oil, Gas & Petrochemical
– Pulp and Paper
Drives and Motors
•
AC and DC Drives, AC and DC Machines,
AC motors to 1kV
•
Drive systems
•
Force Measurement
•
Servo Drives
Controllers & Recorders
•
Single and Multi-loop Controllers
•
Circular Chart , Strip Chart and
Paperless Recorders
•
Paperless Recorders
•
Process Indicators
Flexible Automation
•
Industrial Robots and Robot Systems
Flow Measurement
•
Electromagnetic Magnetic Flowmeters
•
Mass Flow Meters
•
Turbine Flowmeters
•
Wedge Flow Elements
Marine Systems & Turbochargers
•
Electrical Systems
•
Marine Equipment
•
Offshore Retrofit and Referbishment
Process Analytics
•
Process Gas Analysis
•
Systems Integration
Transmitters
•
Pressure
•
Temperature
•
Level
•
Interface Modules
Valves, Actuators and Positioners
•
Control Valves
•
Actuators
•
Positioners
Water, Gas & Industrial Analytics
Instrumentation
•
pH, conductivity, and dissolved oxygen
transmitters and sensors
•
ammonia, nitrate, phosphate, silica,
sodium, chloride, fluoride, dissolved
oxygen and hydrazine analyzers.
•
Zirconia oxygen analyzers,
katharometers, hydrogen purity and
purge-gas monitors, thermal
conductivity.
Customer Support
We provide a comprehensive after sales service via
our Worldwide Service Organization. Contact one of
the following offices for details on your nearest Service
and Repair Centre.
United Kingdom
ABB Limited
Tel: +44 (0)1480 475321
Fax: +44 (0)1480 217948
United States of America
ABB Inc.
Tel: +1 215 674 6000
Fax: +1 215 674 7183
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.
Table A – Template Applications
C
o
n
i f
. g
T
e
m
p
a l
e t
T
t i
e l
D
s i
p
a l
y
. 1 L
S
S
n i
g
e l
o l
o
p
P
. 2 L
S
S
n i
g
e l
o l
o
p
+
R
e
m
o
e t
s
t e
p
i o
t n
P
. 3 M
A
A
t u
/ o
M
a
n
u
l a
t s
t a
o i
n
(
o l
w
s
g i
n
a
s l
e
e l
c
) t
P
. 4 M
A
A
t u
/ o
M
a
n
u
l a
t s
t a
o i
n
d (
i g i
a t
s l
e
e l
c
) t
P
. 5 b
A
A
n
a
o l
g
b
a
k c
u
p
(
o l
w
s
g i
n
a
s l
e
e l
c
) t
P
. 6 b
A
A
n
a
o l
g
b
a
k c
u
p
d (
i g i
a t
s l
e
e l
c
) t
P
. 7 N
I
S
n i
g
e l
n i
d
c i
a
o t
/ r
m
a
n
u
l a
o l
a
d
r e
P
. . 8 N
I
D
o
u
b
e l
n i
d
c i
a
o t
/ r
m
a
n
u
l a
o l
a
d
r e
P
†
M
t o
r o
z i
e
d
V
a
v l
e
o
u
p t
t u
y t
p
e
s
o
n
y l
Table B – Output Sources
Note. Settings shown in bold are fixed and cannot be adjusted. Other settings are
changed in Level C/ Output Assignment.
S
e
t t
n i
g
O
u
p t
t u
T
y
p
e
R
y l
1
N
O
N
E
N
o
n
e
–
A
N
L
G
A
n
a
o l
g
O
u
p t
t u
l A
m
1
#
r
L
Y
R
e
a l
y
O
u
p t
t u
O
P
1
l A
d
I
G
D
g i
t i
l a
O
u
p t
t u
l A
m
1
P
F
b
M
t o
r o
z i
e
d
v
a
v l
e
i w
h t
F
B
O
P
E
N
C
b
n
d
M
t o
r o
z i
e
d
v
a
v l
e
i w
h t
o
t u
F
B
O
P
E
N
C
O
P
1
H
C
r .
r
H
e
t a
C /
o
l o
(
H
e
a
) t
H
C
r .
d
H
e
t a
C /
o
l o
O
P
1
H
C
d .
r
H
e
t a
C /
o
l o
O
P
2
H
C
A .
r
H
e
t a
C /
o
l o
O
P
2
H
C
A .
A
H
e
t a
C /
o
l o
l A
m
1
#
R
e
a l
y
1
s i
a
s s
g i
n
e
d
o t
e
n
e
g r
z i
e
w
h
e
n
n i
l A
m
a
n
u
l a
m
o
d
e
a
n
d
e t
m
p
a l
e t
s
, 3
, 4
5
r o
6
R
a
e r
s
e
e l
c
e t
d
a
o
a
o
REFERENCE TABLES
A
n
a
o l
g
n I
p
t u
1
A
n
a
o l
g
n I
p
t u
2
A
n
a
o l
g
n I
p
I (
P /
) 1
I (
P /
) 2
I (
P /
) 3
o r
c
e
s s
V
r a
a i
b
e l
F
e
e
d
b
a
k c
o r
c
e
s s
V
r a
a i
b
e l
R
e
m
o
e t
S
t e
P
i o
t n
F
e
e
d
b
a
k c
o r
c
e
s s
V
r a
a i
b
e l
M
a
t s
r e
O
u
p t
t u
–
o r
c
e
s s
V
r a
a i
b
e l
M
a
t s
r e
O
u
p t
t u
–
o r
c
e
s s
V
r a
a i
b
e l
M
a
t s
r e
O
u
p t
t u
–
o r
c
e
s s
V
r a
a i
b
e l
M
a
t s
r e
O
u
p t
t u
–
o r
c
e
s s
V
r a
a i
b
e l
–
–
o r
c
e
s s
V
r a
a i
b
e l
1
P
o r
e c
s s
V
r a
a i
b
e l
2
–
D
R
e
a l
y
s
A
n
a
o l
g
O
u
p t
u
s t
O
R
y l
2
R
y l
3
R
y l
4
a
o
1
a
o
2
d
–
–
–
–
–
l A
m
2
l A
m
3
l A
m
4
O
P
1
P
V
m
1
#
l A
m
2
l A
m
3
P
V
C
S
P
T
l A
m
2
l A
m
3
l A
m
4
O
P
1
P
V
O
L
O
S
E
l A
m
1
l A
m
2
P
V
C
S
P
T
L
O
S
E
l A
m
1
l A
m
2
P
V
C
S
P
T
O
P
2
l A
m
1
l A
m
2
P
V
C
S
P
T
(
C
o
o
) l
l A
m
1
l A
m
2
l A
m
3
–
P
V
O
l A
m
1
l A
m
2
l A
m
3
–
P
V
O
l A
m
1
l A
m
2
l A
m
3
O
P
1
P
V
l A
m
2
l A
m
3
l A
m
4
O
P
1
O
P
2
m
=
l A
r a
m
d
o
1
=
D
g i
t i
l a
O
u
p t
t u
1
y l
=
R
e
a l
y
O
P
, 1
2
=
O
u
p t
t u
, 1
2
1
=
A
n
a
o l
g
O
u
p t
u
1 t
P
V
=
P
o r
c
e
s s
V
r a
a i
b
e l
2
=
A
n
a
o l
g
O
u
p t
u
2 t
C
S
P
T
=
S
t e
P
i o
t n
R
T
X
t u
3
†
†
g i
t i
l a
u
p t
t u
o
1
–
–
–
P
1
–
–
–
P
2
P
1
–
–
R
T
X