BML-S1G0-_7_ _-M5E_-_0-_ _
Absolute Magnetically Coded Position Measuring System
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Type code
S = Sensor head
Style/housing geometry (W x H x L):
G = 16 × 18.5 × 80 mm
Interface:
B = BiSS C (bi-directional serial synchronous), absolute
S = SSI (serial synchronous), absolute
Q = absolute Quadrature
Supply voltage:
7 = 5 VDC, 10...28 VDC
Data format:
Interface B
E = Rising binary code
(40 data bits incl. error, warning, and CRC bits)
S interface
(Bits incl. error and null bit)
24 bits
25 bits
0 = Binary, rising
6 = Binary, rising
1 = Gray, rising
7 = Gray, rising
2 = Binary, falling
8 = Binary, falling
3 = Gray, falling
9 = Gray, falling
Resolution:
C = 0.9765625 µm
(1000/1024 µm) per LSB
Pole width:
5 = 2 mm
Magnetic tape coding
Incremental real-time signal:
Z = No real-time signal
A = Analog real-time signal (SIN/COS)
G = Safety, analog real-time signal (sin/cos)
Q = Digital real-time signal (incremental A/B)
Min. edge separation/period:
No real-time signal
9 = Not relevant
Analog real-time signal
D = SIN/COS, period 2 mm
Digital real-time signal / absolute quadrature
D = 0.11 µs min. edge separation
E = 0.26 µs min. edge separation
F = 0.42 µs min. edge separation
Connection technology/special versions:
S284 = Axial plug with pin contacts, M12A-12-pin
KA05 = PU cable, standard, 5 m cable, possible cable lengths 0.5; 2; 5 m
Ordering example for special version (also suitable for rotative applications):
BML-S1G0-S71D-M5EA-D0-SA26-S284
www.balluff.com
BML - S1G0 - S71D - M5EA - D0 - S284
26 bits
A = Binary, rising
B = Gray, rising
C = Binary, falling
D = Gray, falling
D = 1 µm per LSB
F = 5 µm per LSB
E = 2 µm per LSB
G = 10 µm per LSB
G = 0.94 µs min. edge separation
H = 1.8 µs min. edge separation
K = 3.5 µs min. edge separation
32 bits
E = Binary, rising
F = Gray, rising
G = Binary, falling
H = Gray, falling
L = 7 µs min. edge separation
N = 14 µs min. edge separation
P = 21 µs min. edge separation
english
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