DFS60A-T4 / DFS60 Page 1 from SICK ⍾ Last modified
dfs60a-t4 / DFS60 ⍾ Page 1
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DFS60A-SZCK0-S02
Features: Special device: ✔; Specialty: Solid shaft face mount flange 3/8" x 19 mm; Standard reference device: DFS60A-S4CK16384, 1037600; Performance: Pulses per revolution: 16,384 …
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DFS60A-TEPZ0-S03
Features: Special device: ✔; Specialty: Cable, 8-wire, with male connector, M23, 12-pin, universal, 1.5 m; Standard reference device: DFS60A-TEPK65536, 1036964; Performance: Pulses …
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DFS60A-BAMA65536
Performance: Pulses per revolution: 65,536 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.0015°; Error limits: ± 0.03°; Interfa …
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DFS60A-BAPB65536
Performance: Pulses per revolution: 65,536 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.0015°; Error limits: ± 0.03°; Interfa …
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DFS60A-BAPD65536
Performance: Pulses per revolution: 65,536 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.0015°; Error limits: ± 0.03°; Interfa …
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DFS60A-BAUB02048
Performance: Pulses per revolution: 2,048 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.008°; Error limits: ± 0.03°; Interface …
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DFS60A-BAUB04096
Performance: Pulses per revolution: 4,096 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.008°; Error limits: ± 0.03°; Interface …
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DFS60A-BAVA03500
Performance: Pulses per revolution: 3,500 1); Measuring step: 90° electronically/ppr; Measuring step deviation at non binary number of lines: ± 0.008°; Error limits: ± 0.03°; Inter …
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DFS60A-BAVB02048
Performance: Pulses per revolution: 2,048 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.008°; Error limits: ± 0.03°; Interface …
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DFS60A-BAWB01024
Performance: Pulses per revolution: 1,024 1); Measuring step: 90° electronically/ppr; Measuring step deviation at binary number of lines: ± 0.008°; Error limits: ± 0.03°; Interface …
