Bridge
–
R
ext
R
+
+
–
A and H
2wire connection
3wire connection
(4...20 mA)
(different mAsignals)
A = Measuring output...
... as 2wire connection (4...20 mA, signal in
output/powering circuit)
... as 3 or 4wire connection (different
mAsignals)
H = DC power supply H = 12...33 V
resp. H = 12...30 V with Ex version
R
= External resistance
ext
Fig. 7. Connection diagrams for 2, 3 or 4wire connection,
without electric isolation, DC power supply.
+
R
ext
–
A
4wire connection (different mAsignals)
A
= Measuring output
H
= DC/AC power supply
R
= External resistance
ext
Fig. 8. Connection diagram for 4wire connection,
with electric isolation, DC/AC power supply.
8. Setting the beginning and end of the measuring
range
The coarse adjustment of the beginning of the measuring
range consists in aligning the zero of the measured device
with the external zero mark on the transmitter. The proce
dure was described in Section 6 "Mounting". This Section
concerns the fine adjustment not only of the beginning of
the range (ZERO), but also of the end of the scale (SPAN).
Firstly, switch on the power supply to the transmitter.
For versions ...
... with plugin connector remove the ZERO/SPAN sealing
screws (2.2) (Fig. 9, left).
... with screw terminals and cable glands, remove the 3
screws (3.2) and the cover (3.1) (Fig. 6, left).
26
+
+
R
ext
ext
–
–
+
–
+
A
H
A
4wire connection
(different mAsignals)
+ ~
– ~
H
Caution! The screw terminals (4.1) are live.
The 230 V power supply is potentially
dangerous!
Place the measured device at its zero position, i.e. the
position at which the KINAX WT707 should produce 0 mA
(three or fourwire connection), respectively 4 mA (twowire
connection) at its output.
Should the output current differ by more than 2% from its initial
value, repeat the coarse zero setting procedure described in
Section 6 "Mounting".
–
H
Then adjust the "ZERO" potentiometer (Fig. 9, right or
Fig. 10) using a watchmaker's screwdriver (2.3 mm diam.)
so that the desired output current flows.
(2.2)
Fig. 9. Rear (2) of the transmitter with the adjustments
"ZERO", "SPAN" and "S1".
Left: Adjustments covered by the sealing screw (2.2).
Right: Adjustments exposed.
Fig. 10. Rear (3) of the transmitter with the adjustments
"ZERO", "SPAN" and "S1".
Now rotate the measured device to its opposite limit position,
i.e. the position at which the KINAX WT707 should produce
the prescribed fullscale output current (see rating plate).
Adjust the "SPAN" potentiometer with the screwdriver as
before until precisely the prescribed fullscale output current
is measured at the output.
Then recheck the zero point and correct on the ZERO po
tentiometer if necessary. Check the fullscale value again.
Repeat both adjustments until both zero point and fullscale
value are precise.
(2)
(3)
Zero
Span
S1