BTE6000 / PTU6000 Series
Precision stainless steel pressure transmitters
4/8
December 2008 / 102
www.sensortechnics.com
LOAD LIMITATION
0...20 mA output version
4...20 mA output version
supply voltage
5
0
200
400
600
10
15
20
25
30
operating
range
800
1000
1200
Ohm
1400
35 V
Specification notes:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
IP 65 protection is given when the connector is locked with a rubber washer. For proper function the gage port is vented
to the atmosphere through the connector/cable assembly. Thus the cable end must have access to the ambient pressure.
The minimum supply voltage is directly proportional to the load resistance seen by the transmitter. For more details see the
load limitation diagram.
Proof pressure is the maximum pressure which may be applied without causing damage to the sensing element.
Thermal effects tested and guaranteed from 0 to 70°C relative to 25°C. All specifications shown are relative to 25°C.
Non-linearity refers to the Best Straight Line fit measured for offset, full scale span and 1/2 full scale span.
Long term stability is the change in output after one year or 1 million pressure cycles.
Span is the arithmetic difference in transmitter output signal measured at zero pressure and the maximum operating pressure.
Test are in accordance with EN61000-6-2, April 1999.
CE-labelling is in accordance with 89/336/EEC.
The pressure transmitters must not be used as safety accessories according to article 1, 2.1.3 of the directive 97/23/EC.
Available for pressure ranges from 1 bar (15 psi) absolute upwards only.
Other sealing materials are available on request.
ELECTROMAGNETIC CAPABILITY8
RECOMMENDED ACCESSORY
Plug DIN EN 175301-803 A and profile washer included
in delivery. For a complete connector/cable assembly
use order no. ZK000110-x (x=cable lenghts in m).
dimensions in mm
Note:
For proper function of all gage devices the
gage port must be vented to the atmosphere
through the connector/cable assembly.
34
50
M3
31
Profile washer
s
n
o
i
t
i
d
n
o
c
t
s
e
Tn
o
i
r
e
t
i
r
C
e
c
n
e
r
e
f
r
e
t
n
I
y
c
n
e
u
q
e
r
f
o
i
d
a
r
,
d
e
t
a
i
d
a
R
)
I
F
R
(
y
t
i
n
u
m
m
i
d
l
e
i
f
c
i
t
e
n
g
a
m
o
r
t
c
e
l
e
:
3
-
4
-
0
0
0
1
6
N
Ez
H
M
0
0
0
1
o
t
0
8
,
m
/
V
0
1
,
3
e
d
a
r
G
)
z
H
k
1
(
C
M
A
%
0
8
AO
S
F
%
1
<
/
t
n
e
i
s
n
a
r
t
t
s
a
f
l
a
c
i
r
t
c
e
l
E
)
T
F
E
(
y
t
i
n
u
m
m
i
t
s
r
u
b
:
4
-
4
-
0
0
0
1
6
N
EV
k
2
±
,
3
e
d
a
r
G
BO
S
F
%
1
<
y
t
i
n
u
m
m
i
e
g
r
a
h
c
s
i
d
c
i
t
a
t
s
o
r
t
c
e
l
E
)
D
S
E
(
t
s
e
t
:
2
-
4
-
0
0
0
1
6
N
Ee
g
r
a
h
c
s
i
d
t
c
a
t
n
o
c
,
V
k
8
±
,
4
e
d
a
r
G
BO
S
F
%
1
<
s
e
c
n
a
b
r
u
t
s
i
d
d
e
t
c
u
d
n
o
c
o
t
y
t
i
n
u
m
m
I
s
d
l
e
i
f
y
c
n
e
u
q
e
r
f
-
o
i
d
a
r
y
b
d
e
c
u
d
n
i
:
6
-
4
-
0
0
0
1
6
N
Ez
H
M
0
8
o
t
5
1
.
0
,
3
e
d
a
r
G
)
z
H
k
1
(
C
M
A
%
0
8
,
V
0
1
AO
S
F
%
1
<