STOBER 8 | Connection
12/2018 | ID 442537.05
111
Use the binary inputs BE3 to BE5 to evaluate incremental or pulse/direction signals. For the
simulation, use the binary outputs BA1 and BA2.
Hall sensors with single-ended HTL signal levels can be connected to binary inputs BE1
through BE3 directly.
Single-ended HTL and single-ended TTL incremental encoders
Terminal Pin Designation Function
9|10|11| ... |17|18|19
9 DGND Reference ground, internally bridged
10
11 BE1 —
12 BE2 —
13 BE3 Evaluation: N channel
14 BE4 Evaluation: A channel
15 BE5 Evaluation: B channel
16 BA1 Simulation: A channel
17 BA2 Simulation: B channel
18 +24V
DC
24V
DC
supply, internally bridged;
recommended fuse protection: max. 1AT
17
19
Tab. 122: X101 connection description for single-ended HTL and single-ended TTL incremental signals
Single-ended HTL and single-ended TTL pulse train
Terminal Pin Designation Function
9|10|11| ... |17|18|19
9 DGND Reference ground, internally bridged
10
11 BE1 —
12 BE2 —
13 BE3 —
14 BE4 Evaluation: Pulse
15 BE5 Evaluation: Direction
16 BA1 Simulation: Pulse
17 BA2 Simulation: Direction
18 +24V
DC
24V
DC
supply, internally bridged;
recommended fuse protection: max. 1AT
18
19
Tab. 123: X101 connection description for single-ended HTL and single-ended TTL pulse train signals
17
For the fuse protection, use a 1A fuse (time delay). For UL-compliant use, be sure that the fuse meets
certification requirements in accordance with UL 248.
18
For the fuse protection, use a 1A fuse (time delay). For UL-compliant use, be sure that the fuse meets
certification requirements in accordance with UL 248.
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