Electrical Connection; Shielding And Cable Routing - Balluff BTL6-V5V-M-PF-S115 Serie Mode D'emploi

BTL6-V5 _ V-M _ _ _ _ -PF-S115
Micropulse Transducer in a Flat Profile Housing
4
Installation and connection (continued)
4.5

Electrical connection

The transducer is connected via an connector (see
Accessories on page 13).
PIN Color
1 — —
2 OG/WH Orange/white
3 OG Orange
4 — —
5 GN/WH Green/white
6 BU Blue
7 BN Brown
8 GN Green
Unassigned leads that are not used can be connected to the GND on the
1)
controller side but not to the shield.
Reference potential for supply voltage and EMC-GND.
2)
Tab. 4-2: Pin assignment of S115 connector
Fig. 4-9: Pin assignment of S115 connector (view from above on
transducer)
www.balluff.com
BTL6-V5 _ V-...
interface
Not used
1)
TX+
TX−
Not used
1)
RX+
GND
2)
10...30 V
RX−
4.6

Shielding and cable routing

Defined ground!
The transducer and the control cabinet must be
at the same ground potential.
Shielding
To ensure electromagnetic compatibility (EMC), observe
the following:
– Connect transducer and controller using a shielded
cable.
Shielding: Braided copper shield with minimum 85%.
– Shield is internally connected to connector housing.
Magnetic fields
The position measuring system is a magnetostrictive
system. It is important to maintain adequate distance
between the transducer and strong, external magnetic
fields.
Cable routing
Do not route the cable between the transducer, controller,
and power supply near high voltage cables (inductive stray
noise is possible).
Cable length
The maximum cable length when using CAT5e cables is
100 m.
Noise elimination
To avoid equipotential bonding - a current flow - through
the cable shield, please note the following:
– Use insulating bushes
– Put the control cabinet and the system in which the
BTL6 is located to the same ground potential.
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