1.96
M12×1
flush
0...10 V
0.5...2 mm
BAW M12MI-UAC20B-S04G
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
1.50 mm
1.25 ± 0.125 mm
0.01 V per 0.0015 mm
-
± 0.045 mm
± 0.045 mm
0.000375 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 kW
250 V AC
IP 67
nickel plated brass
PA 12
M12 DC Micro
yes
yes
yes
Analog Sensors
M8, M12, M18, M30
PG 36, 80×80×40
Inductive
Sensors
Technical Description
Inductive sensing technology
is widely recognized for its
ruggedness and stability
under extreme industrial
conditions. Balluff
ULTRALINEARTM analog
sensors take advantage of
inductive technology's
strengths to bring you
precision non-contact
position measurement in an
affordable family of compact
housings. For applications
involving relatively short
travel of metal targets, there
is no better solution.
ULTRALINEARTM analog
sensors are simple three-
wire devices that operate on
24 V DC. They provide an
electrical signal that varies in
proportion to the position of
a metal target within the
working range. The linear
analog signal is available in
either voltage or current.
The ULTRALINEARTM family:
precision measurements in
hostile environments.
Features
Linear analog output
provides exact position
measurement
0...10 VDC or 0...20 mA
analog outputs available
Reliable measurements in
the harshest environments
(just like our rugged
inductive sensors)
No setup required, apply
power and it's ready
Totally self-contained
units, no separate
amplifier
Full range of housing sizes
provide a fit for any
application
Status LED warns if target
is outside the
measurement zone
Fully protected against
short circuit, overload and
polarity reversal.
0016A003
Analog
Output
Measurement
Range
10V
20mA
5V
10mA
0V
0mA
Min.
Active
Range
Mid.
Active
Range
Max.
Active
Range
Status LED Off Status LED On
Output Signals
Housing size
Mounting
Output signal
Linear range sl
Ordering code
Voltage output, 0 - 10V
Current output, 0 - 20mA
Current output, 4 - 20mA
Rated operational voltage Ue
Supply voltage UB
Supply voltage ripple, max. 15% of Ue
No-load supply current I0 @ U e
Linear span sL 1
Midpoint of linear range se 2
Resolution 3, voltage output
Resolution 3, current output
Non-linearity 4
Repeatability 5
Temperature drift 6 (+15…55 °C )
Ambient temperature range Ta
Cutoff frequency (-3 dB output amplitude)
Time delay before availability tv
Load resistance RL
Rated insulation voltage Ui
Degree of protection per IEC 529
Housing material
Sensing face material
Conductors (cable versions)
Connector (connector versions)
Linear range display (LED ON when out of range)
Short circuit/overload protected
Protected against polarity reversal
Notes:
1. Size of the linear sensing window
2. Midpoint with tolerance, sensor to sensor
3. Change in output per change in target movement
4. Deviation over the linear span, 3% of full scale
5. Ability to repeat output level for a given target
distance, 3% of full scale
6. Deviation relative to 25 °C ambient temperature
As a percent of full scale:
+15…55 °C = 1%
+10…60 °C = 2.5%
-10…+70 °C = 5%
7. For pigtail connector, replace -BP05 with -BP0.2-
GS04
M8×1
flush
0...10 V
0.5...1.5 mm
BAW M08EI-UAD15B-BP05
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
8.0 mA
1.00 mm
1.00 ± 0.1 mm
0.01 V per 0.001 mm
± 0.03 mm
± 0.03 mm
0.00025 mm/°K
-10…+70 °C
1000 Hz
£
1.0 ms
³
2 kW
250 V AC
IP 67
stainless steel
PBTP
5 m unshielded PUR cable (3 x 26 AWG)
M12 DC Micro 7
yes
yes
yes
1.97
1
M18×1
flush
0...10 V
1...5 mm
BAW M18ME-UAC50B-BP05
0016A002
4
+
-
3
BK Analog Out
BU
1BN
Quick Disconnect
+
-
BK
BU
BN
Cable Out
Analog Out
M12×1
flush
0...10 V, 0-20 mA
0.5...2 mm
BAW M12MG2-UAC20B-BP05
BAW M12MG2-IAC20B-BP05
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
1.50 mm
1.25 ± 0.125 mm
0.01 V per 0.0015 mm
0.02 mA per 0.0015 mm
± 0.045 mm
± 0.045 mm
0.000375 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 k
W
250 V AC
IP 67
nickel plated brass
PA 12
5 m unshielded PUR cable (3 x 22 AWG)
M12 DC Micro 7
yes
yes
yes
Wiring Diagram
M12×1
non flush
0...10 V
1...4 mm
BAW M12MF2-UAC40F-BP05
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
3.00 mm
1.25 ± 0.125 mm
0.01 V per 0.003 mm
-
± 0.09 mm
± 0.09 mm
0.00075 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 k
W
250 V AC
IP 67
nickel plated brass
PBTP
5 m unshielded PUR cable (3 x 22 AWG)
M12 DC Micro 7
yes
yes
yes
M18×1
flush
0...10 V, 0-20 mA, 4-20 mA
1...5 mm
BAW M18MI-UAC50B-S04G
BAW M18MI-IAC50B-S04G
BAW M18MI-ICC50B-S04G
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
4.00 mm
3.00 ± 0.3 mm
0.01 V per 0.004 mm
0.02 (0.016) mA per 0.004 mm
± 0.12 mm
± 0.12 mm
0.001 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 kW
75 V DC
IP 67
nickel plated brass
PBTP
M12 DC Micro
yes
yes
yes
M18×1
flush
0...10 V
1...5 mm
BAW M18ME-UAC50B-S04G
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
4.00 mm
3.00 ± 0.3 mm
0.01 V per 0.004 mm
-
± 0.12 mm
± 0.12 mm
0.001 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 kW
75 V DC
IP 67
nickel plated brass
PBTP
M12 DC Micro
yes
yes
yes
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
4.00 mm
3.00 ± 0.3 mm
0.01 V per 0.004 mm
-
± 0.12 mm
± 0.12 mm
0.001 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 k
W
75 V DC
IP 67
nickel plated brass
PBTP
5 m unshielded PUR cable (3 x 22 AWG)
M12 DC Micro7
yes
yes
yes
Analog Sensors
M8, M12, M18, M30
PG 36, 80×80×40
Inductive
Sensors
Depending on ambient electrical noise and cable routing,
electrically shielded cabling may be required to preserve
resolution. If so, choose a housing with an integral connector and
select a shielded cordset, or contact Balluff for special shielded
cable versions of pre-wired sensors.
1.98
80×80×40
non flush
0...10 V
0...50 mm (adj.)
BAW MKK-050_19-S4
24 V DC
19…29 V DC
£
3.60 V DC @ 24 V DC
£
12.0 mA
50.0 mm
25.0 ± 1.0 mm
0.01 V per 0.05 mm
-
± 1.0 mm
± 1.0 mm
0.0125 mm/°K
-10…+70 °C
75 Hz
£
1.0 s
³
10 k
W
250 V AC
IP 67
polymeric PBT
M12 DC Micro
no
yes
yes
M18×1
non flush
0...10 V
2...8 mm
BAW M18MG-UAC80F-S04G
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
6.00 mm
5.00 ± 0.5 mm
0.01 V per 0.006 mm
-
± 0.18 mm
± 0.18 mm
0.0015 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 k
W
75 V DC
IP 67
nickel plated brass
PBTP
M12 DC Micro
yes
yes
yes
Analog Sensors
M8, M12, M18, M30
PG 36, 80×80×40
Inductive
Sensors
M30x1.5
flush
0...10 V
2...10 mm
BAW M30ME-UAC10B-S04G
24 V DC
15…30 V DC
£
3.60 V DC @ 24 V DC
£
10.0 mA
8.00 mm
6.00 ± 0.6 mm
0.01 V per 0.008 mm
-
± 0.24 mm
± 0.24 mm
0.002 mm/°K
-10…+70 °C
500 Hz
£
1.0 ms
³
2 k
W
75 V DC
IP 67
nickel plated brass
PBTP
M12 DC Micro
yes
yes
yes
PG 36
flush
0...10 V
0...20 mm (adj.)
BAW MKZ-471_19-S4
24 V DC
19…29 V DC
£
3.60 V DC @ 24 V DC
£
12.0 mA
20.0 mm
10.0 ± 0.1 mm
0.01 V per 0.02 mm
-
± 0.2 mm
± 0.2 mm
0.005 mm/°K
-10…+70 °C
75 Hz
£
1.0 s
³
10 k
W
250 V AC
IP 67
nickel plated brass
polymeric PBT
M12 DC Micro
no
yes
yes
M30x1.5
30
44.5
36
LED
M12x1
P0326
Approvals
IEC 60947-5-2
UL 508
CSA C22.2 No. 14-M91
NEMA ICS 5-1996
1.99
1
Inductive
Sensors Analog Sensors
Set Point Output
Technical Description
For the ultimate in flexibility, Balluff
offers an ULTRALINEARTM analog
sensor with three independently
programmable, discrete setpoint
outputs, along with an analog voltage
output for reference. By holding a metal
target in position and momentarily
connecting the control line to the
supply, the output is preset to change
states whenever it reaches the
programmed analog signal level.
Setpoint programming can be
accomplished using your PLC or with
an available hand-held programmer
(order separately BES-516-4).
Features
All the exceptional features from our
standard ULTRALINEARTM family plus...
Remotely programmable setpoints
Process can be reconfigured on the
fly by altering controller's
programmed response
No need to physically adjust sensor
position for a particular setpoint
Status LED for each setpoint output
0016A001
+
BN
Control Input
RD
Analog Output
BK
Digital Output 1
YE
Digital Output 2
GN
Digital Output 3
WH
-
BU
Analog
Output
Measurement
Range
10V
0V
1.0 mm 5.0 mm
Output 1 OffOutput 1 On
Analog Output
Output 2 OffOutput 2 On
Output 3 OffOutput 3 On
Programmable
Digital Outputs
Set point 1
Set point 2
Set point 3
0016A003
Output Signals
Wiring Diagram
Housing size
Mounting
Output signal
Linear range sl
Ordering code
Voltage 0…10 V
Rated operational voltage Ue
Supply voltage UB
Ripple
Linear span sL 1
Midpoint of linear range se 2
Resolution 3
Repeatability 5
Non-linearity, max. 4
Temperature drift, max. 6 (+15…55 °C)
Ambient temperature range Ta
Cutoff frequency (-3 dB analog output amplitude)
Maximum switching frequency, discrete outputs
Load resistance RL
No-load supply current I0 @ Ue
Ambient temperature range Ta
Current rating Ie per setpoint output
Switchpoint hysteresis
Switchpoint repeatability
Rated insulation voltage Ui
Degree of protection per IEC 529
Housing material
Sensing face material
Connection
LED display for each setpoint output - active ON
Short circuit/overload protected
Protected against polarity reversal
M18×1
flush
0...10 V
1...5 mm
BAW M18MI2-UAC50B-BP05-002
24 V DC
15…30 V DC
£
3.6V DC
4.00 mm
3.00 mm ± 0.3 mm
0.01 V per 0.004 mm
± 0.12 mm
± 0.12 mm
0.001 mm/°K
-10…+70 °C
500 Hz
1000 Hz
³
2 k
W
£
20.0 mA
-10…+70 °C
20.0 mA
£
0.3 mm
£
0.1 mm
75 V DC
IP 67
nickel plated brass
PBTP
5 m unshielded PUR cable (7 x 24 AWG)
yes
yes
yes
Cable Out
Optional BES-516-4 hand-
held programming unit
1.100
Inductive
Sensors
Position feedback using
ramped target.
Measuring deflection of a
saw blade.
The saw blade position is
detected by the sensor and
the blade guide mechanism
accordingly adjusted.
Detecting large linear motion
on machines using econo-
mical analog sensors.
Detecting a defined center
position of a sliding, rotating
machine part.
A controller processes both
sensor signals.
Nuts are checked for correct
orientation (automated
assembly).
Measuring the deflection of a
spring steel band to maintain
pressure on sheet material.
Sorting metal objects. Paper thickness
measurement using
leverage. This arrangement
can be used to distinguish
between 1 or 2 sheets.
Applications include
document readers, mass
printers, etc. Resolution
varies with leverage.
Eccentricity sensing or
angle positioning.
distance measurement
thickness measurement using opposed sensors
thickness measurement using leverage
concentricity measurement
circularity measurement
wobble measurement
deflection measurement
wear measurement
Applications
metal homogenity measurement
sorting metal objects by size, shape, material
metal object orientation sensing
absolute linear position feedback using direct metal
target approach
absolute linear travel feedback using angled metal
surface to increase effective range
absolute rotary position feedback using eccentric
metal cam
Analog Sensors
Applications