Omron GX-F8A-P Rectangular-shaped inductive proximity sensor Datasheet

761
FIBER
SENSORS
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
Related Information
■■General terms and conditions............ F-17
■■Glossary of terms........................ P.1386~
Amplifier Built-in
■■Sensor selection guide.................. P.757~
■■General precautions...................... P.1405
LASER
SENSORS
PHOTOELECTRIC
SENSORS
Conforming to
EMC Directive
MICRO
PHOTOELECTRIC
SENSORS
AREA
SENSORS
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
PARTICULAR
USE SENSORS
SENSOR
OPTIONS
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
panasonic-electric-works.net/sunx
SUNX website http://www.sunx.com
MEASUREMENT
SENSORS
PNP output
Oil resistant
type available
Different freq.
type available
STATIC CONTROL
DEVICES
LASER
MARKERS
PLC /
TERMINALS
HUMAN MACHINE
INTERFACES
ENERGY CONSUMPTION
VISUALIZATION
COMPONENTS
FA COMPONENTS
Industry No. 1* in stable sensing
This sensor has the longest stable sensing range among the same level of rectangular inductive proximity sensors in
the industry. It is easy to install the sensor.
Maximum operation distance
Type
Stable sensing range
MACHINE VISION
SYSTEMS
GX-F/H
series
UV CURING
SYSTEMS
Previous
model
Selection
Guide
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
* Based on research conducted by Panasonic Electric Works SUNX
as of August 2010 among equivalent rectangular inductive sensors.
Can be installed with ample space
Stable sensing range
Maximum
operation
distance
GX-F/H
series
Previous model
GX-□6
1.6 mm 0.063 in
0 to 1.3 mm 0.051 in
0 to 1.2 mm 0.047 in
GX-□8
2.5 mm 0.098 in
0 to 2.1 mm 0.083 in
0 to 1.8 mm 0.709 in
GX-□12
4.0 mm 0.157 in
0 to 3.3 mm 0.130 in
0 to 3.0 mm 0.118 in
GX-□15
5.0 mm 0.197 in
0 to 4.2 mm 0.165 in
0 to 4.0 mm 0.157 in
8.0 mm 0.315 in
0 to 6.7 mm 0.264 in
0 to 6.4 mm 0.252 in
Long sensing
range
* With standard sensing object
Variation at the maximum operation distance is within ±8 %
Temperature characteristics vary within ±8 %
Thorough adjustment and control of sensing sensitivity
greatly reduces individual sensor differences and
variations.
The work of adjusting sensor positions when using
multiple sensors and when sensors have been replaced
is much easier.
Components such as the sensor coil and core and
product design have been totally revised to provide
excellent temperature characteristics.
Stable sensing can be obtained regardless of the time of
day or the yearly season.
Example: GX-□8
0.4 mm 0.016 in or less
Standard
sensing object
60%
less
1.0 mm 0.039 in or less
Operation distance variation: 0.4 mm 0.016 in or less*
For the
GX-□8
Maximum operation distance: 2.5 mm 0.098 in ± 8 %
(2.3 to 2.7 mm 0.091 to 0.106 in)
Operation distance variation: 1.0 mm 0.039 in or less
Standard
sensing
object
Maximum operation distance: 2.5 mm 0.098 in ± 20 %
(2.0 to 3.0 mm 0.079 to 0.118 in)
* Not including temperature characteristics.
Image
Previous
model
Rate of variation in sensing range [%]
ENDOSCOPE
16.0
14.0
12.0
10.0
8.0
6.0
4.0
2.0
0.0
–2.0
GX-F/H series
Previous models
Sensing range within temperatures
of –25 to +70 °C
(–13 to +158 °F) are within
±8 % of the range at +23 °C (+73 °F)
Previous models:
within +15
–10 %
(
23 °C
73 °F
–20 –10
–4 14
0
32
10
50
20
68
30
86
40 50 60 70
104 122 140 158
Ambient temperature [°C °F]
* Typical
)
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
APPLICATIONS
762
FIBER
SENSORS
Muting control of light curtains
Positioning processing equipment
Positioning metal pallets
LASER
SENSORS
PHOTOELECTRIC
SENSORS
MICRO
PHOTOELECTRIC
SENSORS
AREA
SENSORS
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
PARTICULAR
USE SENSORS
ENVIRONMENTAL RESISTANCE
SENSOR
OPTIONS
10 times the durability! (Compared to previous models)
The new integrated construction method used provides shock resistance of 10,000 m/s2 (approx. 1,000 G in X, Y and Z directions
for three times each), and vibration resistance clears durability tests of between 10 and 500 Hz (3 mm 0.118 in amplitude in X, Y
and Z directions for 2 hours each). In addition, resistance to impulse noise is approx. three times greater than for previous models.
Checking up / down
operation of
compact molding
equipment
Sensing presence of metallic
objects on a part feeder
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
MEASUREMENT
SENSORS
STATIC CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
Shock resistance:
1,000 G
Highly resistant to water or oil!
IP68g* protective construction
The new integrated construction method used improves
environmental resistance performance.
The IP68g prevents damage to the sensor by stopping
water and oil getting inside.
Vibration resistance: 500 Hz
PLC /
TERMINALS
FUNCTIONS
HUMAN MACHINE
INTERFACES
Indicators are easy to see over a wide field of view
ENERGY CONSUMPTION
VISUALIZATION
COMPONENTS
A prism with a wide field of view has been developed. This
has greatly improved the visibility of the operation indicators.
GX-H□
FA COMPONENTS
MACHINE VISION
SYSTEMS
* For details, refer to the “SPECIFICATIONS”.
UV CURING
SYSTEMS
GX-F□
Selection
Guide
Amplifier
Built-in
Amplifierseparated
GX-F/H
MOUNTING
GXL
Tightening strength increased with no damage! (excluding GX-□6)
Conductor thickness doubled to make wiring much easier! (GX-□6/□8 only)
A metal sleeve has been inserted.
It prevents the sensor from being damaged by tightening
too much.
The conductor’s thickness was doubled for the GX-□6/□8.
This makes it easier to handle and perform crimping
work on the cables. In addition, the tensile strength of the
crimping area has become higher.
GX-□8, GX-□12
GX-□15
Metal sleeve
0.08 mm2
Previous model
0.15 mm2
GX-□8
Metal sleeve
Approx. 1.4 times
greater than before
M3 screw
Tightening torque: 0.7 N ∙ m or less
M3 screw
Tightening torque: 1 N ∙ m or less
Conductor thickness approx.
2 times greater
GL
GX-U/GX-FU/
GX-N
GX
763
Rectangular-shaped Inductive Proximity Sensor
ORDER GUIDE
FIBER
SENSORS
GX-6 type
Type
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
PARTICULAR
USE
SENSORS
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
MEASUREMENT
SENSORS
PNP output
SENSOR
OPTIONS
STATIC
CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
Appearance (mm in)
Sensing range (Note 1)
Model No.
(Note 2)
Output
GX-F6A
Front sensing
LIGHT
CURTAINS
NPN output
AREA
SENSORS
Top sensing
MICRO
PHOTOELECTRIC
SENSORS
Front sensing
PHOTOELECTRIC
SENSORS
Top sensing
LASER
SENSORS
GX-F/H SERIES
6 0.236
6 0.236
GX-F6B
GX-F6BI
GX-H6A
6 0.236
6 0.236
25
0.984
Maximum
operation distance
1.6 mm 0.063 in
(0 to 1.3 mm 0 to 0.051 in)
6 0.236
6 0.236
6 0.236
Normally closed
NPN open-collector
transistor
Normally open
GX-H6AI
GX-H6B
Normally closed
GX-H6BI
GX-F6A-P
Normally open
GX-F6AI-P
24.5
0.965
Stable sensing range
GX-F6B-P
GX-F6BI-P
GX-H6A-P
6 0.236
Normally open
GX-F6AI
24.5
0.965
Normally closed
PNP open-collector
transistor
Normally open
GX-H6AI-P
GX-H6B-P
25
0.984
Output operation
Normally closed
GX-H6BI-P
Notes: 1) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
2) “ I ” in the model No. indicates a different frequency type.
PLC /
TERMINALS
UV
CURING
SYSTEMS
Selection
Guide
Amplifier
Built-in
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
PNP output
Amplifierseparated
Top sensing
MACHINE
VISION
SYSTEMS
NPN output
FA
COMPONENTS
Front sensing
Type
Front sensing
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
GX-8 type
Top sensing
HUMAN
MACHINE
INTERFACES
Appearance (mm in)
Sensing range (Note 1)
Model No.
(Note 2)
Output
GX-F8A
8 0.315
GX-F8B
23
0.906
GX-F8BI
GX-H8A
8.2 0.323
8 0.315
25
0.984
Maximum
operation distance
2.5 mm 0.098 in
(0 to 2.1 mm 0 to 0.083 in)
8 0.315
Normally open
GX-H8AI
GX-H8B
Normally closed
GX-H8BI
GX-F8A-P
23
0.906
Stable sensing range
Normally open
GX-F8B-P
GX-F8BI-P
GX-H8A-P
8.2 0.323
Normally closed
NPN open-collector
transistor
GX-F8AI-P
7.4 0.291
8 0.315
Normally open
GX-F8AI
7.4 0.291
GX-H8AI-P
25
0.984
GX-H8B-P
GX-H8BI-P
Output operation
Normally closed
PNP open-collector
transistor
Normally open
Normally closed
Notes: 1) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
2) “ I ” in the model No. indicates a different frequency type.
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
ORDER GUIDE
FIBER
SENSORS
LASER
SENSORS
GX-12 type
Front sensing
Top sensing
Front sensing
PNP output
Top sensing
NPN output
Type
Appearance (mm in)
Sensing range (Note 1)
Model No.
(Note 2)
Output
GX-F12A
12
0.472
GX-F12B
27.8
1.094
GX-F12BI
GX-H12A
12 0.472
12 0.472
27.4
1.079
Maximum
operation distance
4.0 mm 0.157 in
(0 to 3.3 mm 0 to 0.130 in)
GX-H12AI
GX-H12B
GX-F12A-P
27.8
1.094
Stable sensing range
GX-F12B-P
GX-F12BI-P
GX-H12A-P
12 0.472
PRESSURE /
FLOW
SENSORS
Normally closed
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
Front sensing
NPN output
Top sensing
Front sensing
PNP output
MEASUREMENT
SENSORS
STATIC
CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
PLC /
TERMINALS
GX-15 type
Top sensing
PARTICULAR
USE
SENSORS
SENSOR
OPTIONS
Normally closed
GX-H12BI-P
INDUCTIVE
PROXIMITY
SENSORS
Normally open
Normally open
GX-H12B-P
27.4
1.079
AREA
SENSORS
Normally open
PNP open-collector
transistor
GX-H12AI-P
12 0.472
MICRO
PHOTOELECTRIC
SENSORS
LIGHT
CURTAINS
Normally closed
GX-H12BI
PHOTOELECTRIC
SENSORS
Normally closed
NPN open-collector
transistor
GX-F12AI-P
7.1 0.280
12
0.472
Normally open
GX-F12AI
7.1 0.280
Output operation
Notes: 1) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
2) “ I ” in the model No. indicates a different frequency type.
Type
764
Appearance (mm in)
Sensing range (Note 1)
Model No.
(Note 2)
HUMAN
MACHINE
INTERFACES
Output
GX-F15A
15 0.591
GX-F15B
31.5
1.240
GX-F15BI
GX-H15A
16.5 0.650
15 0.591
29.5
1.161
Maximum
operation distance
5.0 mm 0.197 in
(0 to 4.2 mm 0 to 0.165 in)
31.5
1.240
Stable sensing range
Normally closed
GX-H15BI
29.5
1.161
GX-F15B-P
GX-H15B-P
GX-H15BI-P
MACHINE
VISION
SYSTEMS
Selection
Guide
Amplifier
Built-in
GX-F15A-P
GX-H15AI-P
16.5 0.650
FA
COMPONENTS
Normally open
GX-H15B
GX-F15BI-P
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
UV
CURING
SYSTEMS
NPN open-collector
transistor
GX-H15AI
GX-H15A-P
15 0.591
Normally closed
GX-F15AI-P
8 0.315
15 0.591
Normally open
GX-F15AI
8 0.315
Output operation
Normally open
Amplifierseparated
Normally closed
GX-F/H
PNP open-collector
transistor
GXL
Normally open
GL
Normally closed
GX
Notes: 1) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an
ambient temperature drift and/or supply voltage fluctuation.
2) “ I ” in the model No. indicates a different frequency type.
GX-U/GX-FU/
GX-N
765
Rectangular-shaped Inductive Proximity Sensor
ORDER GUIDE
FIBER
SENSORS
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
NPN output
AREA
SENSORS
PARTICULAR
USE
SENSORS
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
MEASUREMENT
SENSORS
STATIC
CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
PLC /
TERMINALS
HUMAN
MACHINE
INTERFACES
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
Selection
Guide
Amplifier
Built-in
Amplifierseparated
PNP output
SENSOR
OPTIONS
Front sensing
Type
Top sensing
MICRO
PHOTOELECTRIC
SENSORS
GX-15 (Long sensing range) type
Front sensing
PHOTOELECTRIC
SENSORS
Top sensing
LASER
SENSORS
Appearance (mm in)
GL
GX-U/GX-FU/
GX-N
GX
Sensing range (Note 1)
Model No.
(Note 2)
Output
GX-FL15A
GX-FL15B
31.5
1.240
15 0.591
GX-FL15BI
GX-HL15A
16.5 0.650
15 0.591
Maximum
operation distance
29.5
1.161
8.0 mm 0.315 in
Normally closed
NPN open-collector
transistor
Normally open
GX-HL15AI
GX-HL15B
Normally closed
GX-HL15BI
GX-FL15A-P
(0 to 6.7 mm 0 to 0.264 in)
Normally open
GX-FL15AI-P
8 0.315
Stable sensing range
31.5
1.240
15 0.591
GX-FL15B-P
GX-FL15BI-P
GX-HL15A-P
Normally closed
PNP open-collector
transistor
Normally open
GX-HL15AI-P
16.5 0.650
15 0.591
GX-HL15B-P
29.5
1.161
Output operation
Normally open
GX-FL15AI
8 0.315
Normally closed
GX-HL15BI-P
Notes: 1) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an
ambient temperature drift and/or supply voltage fluctuation.
2) “ I ” in the model No. indicates a different frequency type.
5 m 16.404 ft cable length type, flexible cable type
5 m 16.404 ft cable length type (standard: 1 m 3.281 ft) and flexible cable (excluding 5 m 16.404 ft cable length type) are available.
However, long sensing range type is not available. When ordering 5 m 16.404 ft cable length type, suffix “-C5” to the model No. When
ordering flexible cable type, suffix “-R” to the model No.
(e.g.) 5 m 16.404 ft cable length type of GX-F15AI-P is “GX-F15AI-P-C5”. Flexible cable type of GX-F15AI-P is “GX-F15AI-P-R”.
OPTIONS
Designation
Sensor
mounting
bracket
GX-F/H
GXL
GX-F/H SERIES
Aluminum
sheet
Model No.
Description
MS-GX6-1
Mounting bracket for GX-6 type (recommended).
Sensors can be mounted closely together for space-saving.
MS-GL6-1
MS-GL6-2
Mounting brackets for GX-6 type
Sensor mounting brackets for GL-6 can be used. Interchange is
possible.
MS-GXL8-4
Mounting bracket for GX-8 type
MS-GXL15
Mounting bracket for GX-15 type
MS-A15F
For GX-FL15□(-P)
MS-A15H
For GX-HL15□(-P)
Mounting example when
mounted onto a steel or
stainless steel plate
Aluminum sheet
Sensor mounting bracket
· MS-GX6-1
· MS-GXL8-4
Nut is not
attached.
· MS-GL6-1
· MS-GL6-2
Nut is not
attached.
Nut is not
attached.
1pc. each of M3
(length: 12 mm 0.472 in)
truss head screw, nut,
spring washer and plain
washer is attached.
· MS-GXL15
· MS-A15F
· MS-A15H
Nut is not
attached.
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
SPECIFICATIONS
FIBER
SENSORS
LASER
SENSORS
GX-6 type
Model No.
(Note 2)
Type
Item
NPN output
PHOTOELECTRIC
SENSORS
PNP output
Front sensing
GX-F6A(I)
GX-F6B(I)
GX-F6A(I)-P
GX-F6B(I)-P
Top sensing
GX-H6A(I)
GX-H6B(I)
GX-H6A(I)-P
GX-H6B(I)-P
Max. operation distance (Note 3)
1.6 mm 0.063 in ± 8 %
Stable sensing range (Note 3)
0 to 1.3 mm 0 to 0.051 in
Hysteresis
Along sensing axis, perpendicular to sensing axis: 0.04 mm 0.0016 in or less
Supply voltage
Output
Max. response frequency
Operation indicator
Pollution degree
Protection
Ambient temperature
Ambient humidity
EMC
PARTICULAR
USE
SENSORS
15 mA or less
NPN open-collector transistor
PNP open-collector transistor
• Maximum sink current: 100 mA
• Maximum source current: 100 mA
• Applied voltage: 30 V DC or less (between output and 0 V)
• Applied voltage: 30 V DC or less (between output and +V)
• Residual voltage: 2 V or less (at 100 mA sink current)
• Residual voltage: 2 V or less (at 100 mA source current)
SENSOR
OPTIONS
DC-12 or DC-13
WIRE-SAVING
SYSTEMS
Utilization category
Output operation
INDUCTIVE
PROXIMITY
SENSORS
+10
12 to 24 V DC –15 % Ripple P-P 10 % or less
Current consumption
Normally closed
Normally closed
Normally closed
Normally closed
400 Hz
Orange LED (lights up when the output is ON)
3 (Industrial environment)
IP68 (IEC), IP68g (JEM) (Note 4, 5)
–25 to +70 °C –13 to +158 °F, Storage: – 40 to +85 °C – 40 to +185 °F
35 to 85 % RH, Storage: 35 to 95 % RH
EN 60947-5-2
Voltage withstandability
AREA
SENSORS
PRESSURE /
FLOW
SENSORS
20 % or less of operation distance (with standard sensing object)
Repeatability
MICRO
PHOTOELECTRIC
SENSORS
LIGHT
CURTAINS
Iron sheet 12 × 12 × t 1 mm 0.472 × 0.472 × t 0.039 in
Standard sensing object
Environmental resistance
766
1,000 V AC for one min. between all supply terminals connected together and enclosure
SIMPLE
WIRE-SAVING
UNITS
MEASUREMENT
SENSORS
STATIC
CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
PLC /
TERMINALS
HUMAN
MACHINE
INTERFACES
Insulation resistance
50 MΩ, or more, with 500 V DC megger between all supply terminals connected together and enclosure
Vibration resistance
10 to 500 Hz frequency, 3 mm 0.118 in amplitude (Max. 20 G) in X, Y and Z directions for two hours each
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
10,000 m/s2 acceleration (1,000 G approx.) in X, Y and Z directions for three times each
FA
COMPONENTS
Temperature characteristics
Over ambient temperature range –25 to +70 °C –13 to +158 °F: Within ± 8 % of sensing range at +23 °C +73 °F
Voltage characteristics
+10
Within ±2 % for –15 % fluctuation of the supply voltage
MACHINE
VISION
SYSTEMS
Shock resistance
Sensing
range
variation
Material
Cable
Cable extension
Net weight
Enclosure: PBT, Indicator part: Polyester
UV
CURING
SYSTEMS
0.15 mm2 3-core oil, heat and cold resistant cabtyre cable, 1 m 3.281 ft long
Extension up to total 100 m 328.084 ft is possible with 0.3 mm2, or more, cable.
15 g approx.
Notes: 1) Where measurement conditions have not been specified precisely, the conditions used were an ambient temperature of +23 °C +73 °F.
2) “ I ” in the model No. indicates a different frequency type.
3) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
4) Panasonic Electric Works SUNX’s IP68 test method
1 Immerse at 0 m below 0 °C +32 °F water surface and leave for 30 min. Then, immerse at 0 m below +70 °C +158 °F water surface and leave for 30 min.
2 Regard the heat shock test in 1 as one cycle and perform 20 cycles.
3 Leave in water at a depth of 1 m 3.281 ft in water for 500 hours.
4 After tests 1 to 3 , insulation resistance, voltage withstandability, current consumption, and sensing range must meet the standard values.
5) If using the sensor in an environment where cutting oil droplets splatter, the sensor may be deteriorated due to added substances in the oil.
Selection
Guide
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
767
Rectangular-shaped Inductive Proximity Sensor
SPECIFICATIONS
FIBER
SENSORS
LASER
SENSORS
GX-8 type
PHOTOELECTRIC
SENSORS
AREA
SENSORS
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
PARTICULAR
USE
SENSORS
Type
Model No.
(Note 2)
MICRO
PHOTOELECTRIC
SENSORS
Item
STATIC
CONTROL
DEVICES
GX-F8B(I)
GX-F8A(I)-P
GX-F8B(I)-P
Top sensing
GX-H8A(I)
GX-H8B(I)
GX-H8A(I)-P
GX-H8B(I)-P
HUMAN
MACHINE
INTERFACES
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
20 % or less of operation distance (with standard sensing object)
Repeatability
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
Along sensing axis, perpendicular to sensing axis: 0.04 mm 0.0016 in or less
+10
Supply voltage
12 to 24 V DC –15 % Ripple P-P 10 % or less
Current consumption
15 mA or less
NPN open-collector transistor
PNP open-collector transistor
• Maximum sink current: 100 mA
• Maximum source current: 100 mA
• Applied voltage: 30 V DC or less (between output and 0 V)
• Applied voltage: 30 V DC or less (between output and +V)
• Residual voltage: 2 V or less (at 100 mA sink current)
• Residual voltage: 2 V or less (at 100 mA source current)
Output
Utilization category
Output operation
DC-12 or DC-13
Normally open
Normally closed
Max. response frequency
Normally closed
Orange LED (lights up when the output is ON)
Pollution degree
3 (Industrial environment)
Protection
Ambient temperature
Normally open
500 Hz
Operation indicator
IP68 (IEC), IP68g (JEM) (Note 4, 5)
–25 to +70 °C –13 to +158 °F, Storage: – 40 to +85 °C – 40 to +185 °F
Ambient humidity
35 to 85 % RH, Storage: 35 to 95 % RH
EMC
EN 60947-5-2
Voltage withstandability
1,000 V AC for one min. between all supply terminals connected together and enclosure
Insulation resistance
50 MΩ, or more, with 500 V DC megger between all supply terminals connected together and enclosure
Vibration resistance
10 to 500 Hz frequency, 3 mm 0.118 in amplitude (Max. 20 G) in X, Y and Z directions for two hours each
Shock resistance
Sensing
range
variation
10,000 m/s2 acceleration (1,000 G approx.) in X, Y and Z directions for three times each
Temperature characteristics
Over ambient temperature range –25 to +70 °C –13 to +158 °F: Within ± 8 % of sensing range at +23 °C +73 °F
Voltage characteristics
Within ±2 % for –15 % fluctuation of the supply voltage
+10
Material
Cable
Amplifier
Built-in
Iron sheet 15 × 15 × t 1 mm 0.591 × 0.591 × t 0.039 in
Hysteresis
Cable extension
Selection
Guide
0 to 2.1 mm 0 to 0.083 in
Standard sensing object
Environmental resistance
PLC /
TERMINALS
2.5 mm 0.098 in ± 8 %
Stable sensing range (Note 3)
ENDOSCOPE
LASER
MARKERS
PNP output
GX-F8A(I)
Max. operation distance (Note 3)
WIRE-SAVING
SYSTEMS
MEASUREMENT
SENSORS
NPN output
Front sensing
SENSOR
OPTIONS
SIMPLE
WIRE-SAVING
UNITS
GX-F/H SERIES
Net weight
Enclosure: PBT, Indicator part: Polyester
0.15 mm 3-core oil, heat and cold resistant cabtyre cable, 1 m 3.281 ft long
2
Extension up to total 100 m 328.084 ft is possible with 0.3 mm2, or more, cable.
Front sensing type: 15 g approx., Top sensing type: 20 g approx..
Notes: 1) Where measurement conditions have not been specified precisely, the conditions used were an ambient temperature of +23 °C +73 °F.
2) “ I ” in the model No. indicates a different frequency type.
3) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
4) Panasonic Electric Works SUNX’s IP68 test method
1 Immerse at 0 m below 0 °C +32 °F water surface and leave for 30 min. Then, immerse at 0 m below +70 °C +158 °F water surface and leave for 30 min.
2 Regard the heat shock test in 1 as one cycle and perform 20 cycles.
3 Leave in water at a depth of 1 m 3.281 ft in water for 500 hours.
4 After tests 1 to 3 , insulation resistance, voltage withstandability, current consumption, and sensing ranges must meet the standard values.
5) If using the sensor in an environment where cutting oil droplets splatter, the sensor may deteriorate due to added substances in the oil.
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
768
SPECIFICATIONS
FIBER
SENSORS
LASER
SENSORS
GX-12 type
Item
Model No.
(Note 2)
Type
NPN output
Front sensing
GX-F12A(I)
GX-F12B(I)
GX-F12A(I)-P
GX-F12B(I)-P
Top sensing
GX-H12A(I)
GX-H12B(I)
GX-H12A(I)-P
GX-H12B(I)-P
Max. operation distance (Note 3)
4.0 mm 0.157 in ± 8 %
Stable sensing range (Note 3)
0 to 3.3 mm 0 to 0.130 in
Standard sensing object
INDUCTIVE
PROXIMITY
SENSORS
Along sensing axis, perpendicular to sensing axis: 0.04 mm 0.0016 in or less
+10
12 to 24 V DC –15 % Ripple P-P 10 % or less
Supply voltage
Current consumption
PARTICULAR
USE
SENSORS
15 mA or less
NPN open-collector transistor
PNP open-collector transistor
• Maximum sink current: 100 mA
• Maximum source current: 100 mA
• Applied voltage: 30 V DC or less (between output and 0 V)
• Applied voltage: 30 V DC or less (between output and +V)
• Residual voltage: 2 V or less (at 100 mA sink current)
• Residual voltage: 2 V or less (at 100 mA source current)
Output
Utilization category
Output operation
Max. response frequency
Operation indicator
Pollution degree
Protection
Ambient temperature
Ambient humidity
EMC
Normally closed
Normally open
Normally closed
500 Hz
Orange LED (lights up when the output is ON)
3 (Industrial environment)
SIMPLE
WIRE-SAVING
UNITS
MEASUREMENT
SENSORS
STATIC
CONTROL
DEVICES
ENDOSCOPE
IP68 (IEC), IP68g (JEM) (Note 4, 5)
–25 to +70 °C –13 to +158 °F, Storage: – 40 to +85 °C – 40 to +185 °F
35 to 85 % RH, Storage: 35 to 95 % RH
EN 60947-5-2
Voltage withstandability
SENSOR
OPTIONS
WIRE-SAVING
SYSTEMS
DC-12 or DC-13
Normally open
AREA
SENSORS
PRESSURE /
FLOW
SENSORS
20 % or less of operation distance (with standard sensing object)
Repeatability
MICRO
PHOTOELECTRIC
SENSORS
LIGHT
CURTAINS
Iron sheet 20 × 20 × t 1 mm 0.787 × 0.787 × t 0.039 in
Hysteresis
Environmental resistance
PHOTOELECTRIC
SENSORS
PNP output
1,000 V AC for one min. between all supply terminals connected together and enclosure
LASER
MARKERS
PLC /
TERMINALS
HUMAN
MACHINE
INTERFACES
Insulation resistance
50 MΩ, or more, with 500 V DC megger between all supply terminals connected together and enclosure
Vibration resistance
10 to 500 Hz frequency, 3 mm 0.118 in amplitude (Max. 20 G) in X, Y and Z directions for two hours each
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
10,000 m/s2 acceleration (1,000 G approx.) in X, Y and Z directions for three times each
FA
COMPONENTS
Shock resistance
Sensing
range
variation
Temperature characteristics
Over ambient temperature range –25 to +70 °C –13 to +158 °F: Within ±8 % of sensing range at +23 °C +73 °F
Voltage characteristics
Within ±2 % for +10
–15 % fluctuation of the supply voltage
Material
Cable
Cable extension
Net weight
Enclosure: PBT, Indicator part: Polyester
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
0.15 mm2 3-core oil, heat and cold resistant cabtyre cable, 1 m 3.281 ft long
Extension up to total 100 m 328.084 ft is possible with 0.3 mm2, or more, cable.
Front sensing type: 20 g approx., Top sensing type: 20 g approx..
Notes: 1) Where measurement conditions have not been specified precisely, the conditions used were an ambient temperature of +23 °C +73 °F.
2) “ I ” in the model No. indicates a different frequency type.
3) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
4) Panasonic Electric Works SUNX’s IP68 test method
1 Immerse at 0 m below 0 °C +32 °F water surface and leave for 30 min. Then, immerse at 0 m below +70 °C +158 °F water surface and leave for 30 min.
2 Regard the heat shock test in 1 as one cycle and perform 20 cycles.
3 Leave in water at a depth of 1 m 3.281 ft in water for 500 hours.
4 After tests 1 to 3 , insulation resistance, voltage withstandability, current consumption, and sensing ranges must meet the standard values.
5) If using the sensor in an environment where cutting oil droplets splatter, the sensor may deteriorate due to added substances in the oil.
Selection
Guide
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
769
Rectangular-shaped Inductive Proximity Sensor
SPECIFICATIONS
FIBER
SENSORS
LASER
SENSORS
GX-15 type
PHOTOELECTRIC
SENSORS
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
PARTICULAR
USE
SENSORS
SENSOR
OPTIONS
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
8.0 mm 0.315 in ± 8 % (Note 4)
Stable sensing range (Note 3)
0 to 4.2 mm 0 to 0.165 in
0 to 6.7 mm 0 to 0.264 in (Note 4)
0 to 4.2 mm 0 to 0.165 in
0 to 6.7 mm 0 to 0.264 in (Note 4)
Standard sensing object
Iron sheet 20 × 20 × t 1 mm
0.7874 × 0.7874 × t 0.039 in
Iron sheet 30 × 30 × t 1 mm
1.181 × 1.181 × t 0.039 in
Iron sheet 20 × 20 × t 1 mm
0.7874 × 0.7874 × t 0.039 in
Iron sheet 30 × 30 × t 1 mm
1.181 × 1.181 × t 0.039 in
Hysteresis
20 % or less of operation distance (with standard sensing object)
Repeatability
Output
Utilization category
Output operation
Max. response frequency
Operation indicator
Pollution degree
Protection
Ambient temperature
Ambient humidity
DC-12 or DC-13
Normally open Normally closed Normally open Normally closed Normally open Normally closed Normally open Normally closed
250 Hz
150 Hz (Note 5)
250 Hz
150 Hz (Note 5)
Orange LED (lights up when the output is ON)
3 (Industrial environment)
IP68 (IEC), IP68g (JEM) (Note 6, 7)
–25 to +70 °C –13 to +158 °F, Storage: – 40 to +85 °C – 40 to +185 °F
35 to 85 % RH, Storage: 35 to 95 % RH
EMC
EN 60947-5-2
Voltage withstandability
1,000 V AC for one min. between all supply terminals connected together and enclosure
Insulation resistance
50 MΩ, or more, with 500 V DC megger between all supply terminals connected together and enclosure
Vibration resistance
10 to 500 Hz frequency, 3 mm 0.118 in amplitude (Max. 20 G) in X, Y and Z directions for two hours each
Shock resistance
Sensing
range
variation
10,000 m/s2 acceleration (1,000 G approx.) in X, Y and Z directions for three times each
Temperature characteristics
Over ambient temperature range –25 to +70 °C –13 to +158 °F: Within ± 8 % of sensing range at +23 °C +73 °F
Voltage characteristics
Within ±2 % for –15 % fluctuation of the supply voltage
Cable extension
Amplifierseparated
Net weight
GX
15 mA or less
NPN open-collector transistor
PNP open-collector transistor
• Maximum sink current: 100 mA
• Maximum source current: 100 mA
• Applied voltage: 30 V DC or less (between output and 0 V)
• Applied voltage: 30 V DC or less (between output and +V)
• Residual voltage: 2 V or less (at 100 mA sink current)
• Residual voltage: 2 V or less (at 100 mA source current)
Amplifier
Built-in
GL
+10
12 to 24 V DC –15 % Ripple P-P 10 % or less
Current consumption
Cable
GX-U/GX-FU/
GX-N
Along sensing axis, perpendicular to sensing axis: 0.04 mm 0.0016 in or less
Supply voltage
Material
GXL
GX-H15A(I) GX-H15B(I) GX-HL15A(I) GX-HL15B(I) GX-H15A(I)-P GX-H15B(I)-P GX-HL15A(I)-P GX-HL15B(I)-P
5.0 mm 0.197 in ± 8 %
Selection
Guide
GX-F/H
Long sensing range
GX-FL15A(I) GX-FL15B(I) GX-F15A(I)-P GX-F15B(I)-P GX-FL15A(I)-P GX-FL15B(I)-P
8.0 mm 0.315 in ± 8 % (Note 4)
Environmental resistance
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
GX-F15B(I)
5.0 mm 0.197 in ± 8 %
LASER
MARKERS
HUMAN
MACHINE
INTERFACES
Long sensing range
Front sensing GX-F15A(I)
Top sensing
PNP output
Max. operation distance (Note 3)
STATIC
CONTROL
DEVICES
PLC /
TERMINALS
Model No.
(Note 2)
Item
MEASUREMENT
SENSORS
ENDOSCOPE
NPN output
Type
MICRO
PHOTOELECTRIC
SENSORS
AREA
SENSORS
GX-F/H SERIES
+10
Enclosure: PBT, Indicator part: Polyester
0.15 mm2 3-core oil, heat and cold resistant cabtyre cable, 1 m 3.281 ft long
Extension up to total 100 m 328.084 ft is possible with 0.3 mm2, or more, cable.
20 g approx.
Notes: 1) Where measurement conditions have not been specified precisely, the conditions used were an ambient temperature of +23 °C +73 °F.
2) “ I ” in the model No. indicates a different frequency type.
3) The maximum operation distance stands for the maximum distance for which the sensor can detect the standard sensing object.
The stable sensing range stands for the sensing range for which the sensor can stably detect the standard sensing object even if there is an ambient
temperature drift and/or supply voltage fluctuation.
4) This is the numerical value which the sensor mount onto an insulant plate. When mounted onto a steel or stainless steel plate, insert the optional
aluminum sheet between the sensor and the plate.
5) This is the numerical value which the sensor mount onto an insulant plate. When mounted onto a metallic plate, max. response frequency will decrease.
6) Panasonic Electric Works SUNX’s IP68 test method
1 Immerse at 0 m below 0 °C +32 °F water surface and leave for 30 min. Then, immerse at 0 m below +70 °C +158 °F water surface and leave for 30 min.
2 Regard the heat shock test in 1 as one cycle and perform 20 cycles.
3 Leave in water at a depth of 1 m 3.281 ft in water for 500 hours.
4 After tests 1 to 3 , insulation resistance, voltage withstandability, current consumption, and sensing range must meet the standard values.
7) If using the sensor in an environment where cutting oil droplets splatter, the sensor may be deteriorated due to added substances in the oil.
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
I/O CIRCUIT DIAGRAMS
FIBER
SENSORS
LASER
SENSORS
NPN output type
I /O circuit diagram
PHOTOELECTRIC
SENSORS
Wiring diagram
MICRO
PHOTOELECTRIC
SENSORS
Color code
Sensor circuit
D1
Brown
(Brown) +V
Load
(Black) Output
(Note)
D2
Tr
+
–
100 mA max.
ZD
Black
12 to 24V DC
+10
–15 %
Load
+
–
12 to 24V DC
+10
–15 %
Blue
PARTICULAR
USE
SENSORS
SENSOR
OPTIONS
Note: The output does not incorporate a short-circuit protection circuit.
Do not connect it directly to a power supply or a capacitive load.
SIMPLE
WIRE-SAVING
UNITS
PNP output type
WIRE-SAVING
SYSTEMS
I/O circuit diagram
Wiring diagram
MEASUREMENT
SENSORS
Color code
Sensor circuit
100 mA max.
D2
(Black) Output
(Note)
D1
(Blue) 0 V
STATIC
CONTROL
DEVICES
Brown
(Brown) +V
Internal circuit
LIGHT
CURTAINS
INDUCTIVE
PROXIMITY
SENSORS
Users’ circuit
Symbols … D1: Reverse supply polarity protection diode
D2: Reverse output polarity protection diode
ZD: Surge absorption zener diode
Tr : NPN output transistor
ZD
AREA
SENSORS
PRESSURE /
FLOW
SENSORS
(Blue) 0 V
Internal circuit
Tr
770
Load
+
–
12 to 24V DC
+10
–15 %
+
Black
Blue
Load
12 to 24V DC
+10
–15 %
ENDOSCOPE
LASER
MARKERS
PLC /
TERMINALS
Users’ circuit
Symbols … D1: Reverse supply polarity protection diode
D2: Reverse output polarity protection diode
ZD: Surge absorption zener diode
Tr : PNP output transistor
–
HUMAN
MACHINE
INTERFACES
Note: The output does not incorporate a short-circuit protection circuit. Do not connect it directly to a power supply or a capacitive load.
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
Selection
Guide
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
771
Rectangular-shaped Inductive Proximity Sensor
SENSING CHARACTERISTICS (TYPICAL)
FIBER
SENSORS
MICRO
PHOTOELECTRIC
SENSORS
AREA
SENSORS
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
GX-6 type
Sensing field
INDUCTIVE
PROXIMITY
SENSORS
4
0.157 Standard sensing object
Iron sheet 12 × 12 × t 1 mm
0.472 × 0.472 × t 0.039 in
ℓ
3
0.118
Front sensing
Standard sensing object
Iron sheet 12 × 12 × t 1 mm
0.472 × 0.472 × t 0.039 in
ℓ
L
L
Top sensing
2
0.079
1
0.039
0
4
0.157
PARTICULAR
USE
SENSORS
Correlation between sensing object size and sensing range
4
0.157
Sensing range L (mm in)
PHOTOELECTRIC
SENSORS
Setting distance L (mm in)
LASER
SENSORS
Sensing object Sensing object
a × a mm a × a in a × a mm a × a in
t 1mm L
L
t 1mm
t 0.039 in
t 0.039 in
Top sensing
3
0.118
Front sensing
Stainless steel
(SUS304)
2
0.079
0
5
10
15
0.197
0.394
0.591
Sensing object side
length a (mm in)
LASER
MARKERS
PLC /
TERMINALS
2
0.079
1
0.039
0
4
0.157
HUMAN
MACHINE
INTERFACES
Sensing field
Selection
Guide
Amplifier
Built-in
Setting distance L (mm in)
GX-12 type
FA
COMPONENTS
UV
CURING
SYSTEMS
8
0.315 Standard sensing object Standard sensing object
Iron sheet 20 × 20 × t 1 mm Iron sheet 20 × 20 × t 1 mm
0.787 × 0.787 × t 0.039 in 0.787 × 0.787 × t 0.039 in
ℓ
ℓ
6
L
L
0.236
Top sensing
Front sensing
4
0.157
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
0
5
10
15
0.197
0.394
0.591
Sensing object side
length a (mm in)
As the sensing object size becomes smaller than
the standard size (iron sheet 15 × 15 × t 1 mm
0.591 × 0.591 × t 0.039 in), the sensing range
shortens as shown in the left figure.
20
0.787
Correlation between sensing object size and sensing range
8
Sensing
0.315 Sensing object a × a mm a × a in object
a × a mm
t 1 mm
L
t 0.039 in a × a in
6 Front sensing
L
t 1 mm
0.236
t 0.039 in
Top sensing
Iron
4
Stainless steel
0.157
(SUS304)
Aluminum
0
5
0
5
10
0.197
0.197
0.394
Left
Center
Right
Operating point ℓ (mm in)
As the sensing object size becomes smaller than
the standard size (iron sheet 20 × 20 × t 1 mm
0.787 × 0.787 × t 0.039 in), the sensing range
shortens as shown in the left figure.
Brass
2
0.079
2
0.079
0
10
0.394
Amplifierseparated
Sensing object
Sensing object
a × a mm a × a in
a × a mm a × a in
t 1 mm
t 1 mm
L
t 0.039 in L
t 0.039 in
3
Top sensing
0.118
Front sensing
Iron
2
Stainless steel
0.079
(SUS304)
Brass
1
Aluminum
0.039
2
0
2
4
0.079
0.079
0.157
Left
Center
Right
Operating point ℓ (mm in)
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
MACHINE
VISION
SYSTEMS
4
0.157
Sensing range L (mm in)
ENDOSCOPE
4
0.157 Standard sensing object Standard sensing object
Iron sheet 15 × 15 × t 1 mm Iron sheet 15 × 15 × t 1 mm
0.591 × 0.591 × t 0.039 in 0.591 × 0.591 × t 0.039 in
ℓ
ℓ
L
3
L
0.118 Front sensing
Top sensing
Correlation between sensing object size and sensing range
Sensing range L (mm in)
STATIC
CONTROL
DEVICES
Sensing field
10
20
30
0.394
0.787
1.181
Sensing object side
length a (mm in)
40
1.575
GX-15 type
Sensing field
Setting distance L (mm in)
GX
8
0.315 Standard sensing object Standard sensing object
Iron sheet 20 × 20 × t 1 mm Iron sheet 20 × 20 × t 1 mm
0.787 × 0.787 × t 0.039 in
0.787 × 0.787 × t 0.039 in
ℓ
ℓ
Front
6
L
L
sensing
Top
sensing
0.236
4
0.157
8
0.315
6
0.236
4
0.157
2
0.079
0
10
0.394
Correlation between sensing object size and sensing range
Sensing range L (mm in)
MEASUREMENT
SENSORS
20
0.787
GX-8 type
Setting distance L (mm in)
WIRE-SAVING
SYSTEMS
Aluminum
Brass
2
0
2
4
0.079
0.079
0.157
Left
Center
Right
Operating point ℓ (mm in)
As the sensing object size becomes smaller than
the standard size (iron sheet 12 × 12 × t 1 mm
0.472 × 0.472 × t 0.039 in), the sensing range
shortens as shown in the left figure.
Iron
1
0.039
SENSOR
OPTIONS
SIMPLE
WIRE-SAVING
UNITS
GX-F/H SERIES
2
0.079
5
0
5
10
0.197
0.197
0.394
Left
Center
Right
Operating point ℓ (mm in)
0
L
Sensing object Sensing object a × a mm a × a in
a × a mm a × a in
L
t 1mm t 0.039 in
t 1mm
Top sensing
t 0.039 in
Front
Iron
sensing
Stainless steel
(SUS304)
Brass
Aluminum
10
20
30
0.394
0.787
1.181
Sensing object side
length a (mm in)
40
1.575
As the sensing object size becomes smaller than
the standard size (iron sheet 20 × 20 × t 1 mm
0.787 × 0.787 × t 0.039 in), the sensing range
shortens as shown in the left figure.
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
772
SENSING CHARACTERISTICS (TYPICAL)
FIBER
SENSORS
LASER
SENSORS
GX-15 (Long sensing range) type
10
0.394
Standard sensing object Standard sensing object
Iron sheet 30 × 30 × t 1 mm Iron sheet 30 × 30 × t 1 mm
1.181 × 1.181 × t 0.039 in 1.181 × 1.181 × t 0.039 in
ℓ
Top
sensing
L
Sensing object
a × a mm a × a in
ℓ
Front
sensing
L
5
0.197
0
10
0.394
PHOTOELECTRIC
SENSORS
Correlation between sensing object size and sensing range
Sensing range L (mm in)
Setting distance L (mm in)
Sensing field
10
L
0.394
Sensing object
a × a mm a × a in
t 1mm
t 0.039 in
Front sensing
L
t 1mm t 0.039 in
Top sensing Iron
5
0.197
LIGHT
CURTAINS
Brass
PRESSURE /
FLOW
SENSORS
Aluminum
0
10
20
30
0.394
0.787
1.181
Sensing object side
length a (mm in)
INDUCTIVE
PROXIMITY
SENSORS
40
1.575
PARTICULAR
USE
SENSORS
PRECAUTIONS FOR PROPER USE
• Never use this product as a sensing device
for personnel protection.
• In case of using sensing devices for
personnel protection, use products which
meet laws and standards, such as OSHA,
ANSI or IEC etc., for personnel protection
applicable in each region or country.
Mounting
GX-6 type
<When using MS-GX6-1 (recommended)>
M3 pan head screw
(Purchase separately.)
Cable
Hook
Groove
MS-GX6-1
M3 x 0.5 mm 0.020 in
tapped hole or
ø3.4 mm ø0.134 in hole
22 mm 0.866 in
ø3.4 mm
ø0.134 in hole
Refer to General precautions.
GX-8 type
If mounting using nut
and washers
(Purchase separately.)
<When using MS-GL6-1 / MS-GL6-2>
• To mount the sensor with a nut, the mounting hole
diameter should be ø3.4 mm ø0.134 in.
• The tightening torque
should be 0.7 N·m or less.
• To mount the sensor with
a nut, the mounting hole
diameter should be ø3.4
mm ø0.134 in. Further, the
hole in which the boss is
inserted should be ø2.5
mm ø0.098 in and 3 mm
0.118 in, or more, deep.
ø2.4 mm
0.098 in hole
M3 x 0.5 mm 0.020 in
tapped hole or
ø3.4 mm ø0.134 in hole
10 mm
0.394 in
13.6 mm
0.535 in
If mounting using nuts
and washers
(Purchase separately.)
If mounting using nut
and washers
(Purchase separately.)
MS-GXL8-4 (Accessory)
M3 × 0.5 mm 0.020 in tapped hole
(Depth: 8 mm 0.315 in or more)
or ø3.4 mm ø0.134 in thru-hole
11.5 mm 0.453 in
If mounting using nut
and washers
(Accessories for MS-GXL8-4)
ø2.4 mm ø0.098 in hole
(Depth: 3 mm 0.315 in or more)
MEASUREMENT
SENSORS
STATIC
CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
PLC /
TERMINALS
HUMAN
CONSUMPTION
VISUALIZATION
M3 × 0.5 mm 0.020 in tapped hole COMPONENTS
(Depth: 10 mm 0.394 in or more)
FA
or ø3.4 mm ø0.134 in thru-hole
COMPONENTS
16 mm 0.630 in
If mounting using nut
and washers
(Purchase separately.)
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
ø2.5 mm ø0.098 in hole
(Depth: 3 mm 0.118 in or more)
Selection
Guide
M3 pan head screws or
truss head screws
Do not use flat head
screws.
M3 x 0.5 mm 0.020 in
tapped holes or
ø3.4 mm ø0.134 in holes
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
9 mm
0.354 in
If mounting using nuts
and washers
(Purchase separately.)
MS-GXL15
(Sensor mounting bracket)
• When installing the long
sensing range type on iron
or stainless steel plate, put
the optional aluminum sheet
in between the sensor and
the plate.
SIMPLE
WIRE-SAVING
UNITS
M3 (length 12 mm 0.472 in or more) MACHINE
INTERFACES
pan head screw
(Purchase separately.)
ENERGY
• The tightening torque
should be 1 N·m or less.
• To mount the sensor with
a nut, the mounting hole
diameter should be ø3.4
mm ø0.134 in.
MS-GL6-2
MS-GL6-1
M3 (length 12 mm 0.472 in) truss head
screw (Accessory for MS-GXL8-4)
GX-15 type
M3 pan head screw
(Purchase separately.)
M3 pan head screws
(Purchase separately.)
SENSOR
OPTIONS
WIRE-SAVING
SYSTEMS
• Make sure to use a M3
(length: 12 mm 0.472 in or
more) truss head screw.
The tightening torque
should be 0.7 N·m or less.
Do not use a flat head
screw or a pan head
screw.
GX-12 type
• Use the optional sensor mounting bracket when
installing.
M3 x 0.5 mm 0.020 in
tapped holes or
ø3.4 mm ø0.134 in holes
AREA
SENSORS
Stainless steel
(SUS304)
0
5
5
10
0.197
0.197
0.394
Left
Center
Right
Operating point ℓ (mm in)
• To mount the sensor with
a nut, the mounting hole
diameter should be
ø3.4 mm ø0.134 in.
1 Insert the sensor into the
bracket as shown on the
right.
2 Push the sensor until the
bracket hook is lodged in
the groove on the upper
portion of the sensor.
3 Fix the bracket in place
with M3 pan head screw.
MICRO
PHOTOELECTRIC
SENSORS
As the sensing object size becomes smaller than
the standard size (iron sheet 30 × 30 × t 1 mm
1.181 × 1.181 × t 0.039 in), the sensing range
shortens as shown in the left figure.
Aluminum sheet (Optional)
• MS-A15F
• MS-A15H
GX-U/GX-FU/
GX-N
GX
773
PRECAUTIONS FOR PROPER USE
FIBER
SENSORS
LASER
SENSORS
PHOTOELECTRIC
SENSORS
MICRO
PHOTOELECTRIC
SENSORS
PARTICULAR
USE
SENSORS
SENSOR
OPTIONS
SIMPLE
WIRE-SAVING
UNITS
WIRE-SAVING
SYSTEMS
Front sensing type
Metal
B
Metal
A
6 mm 0.236 in
7.4 mm 0.291 in 7.1 mm 0.280 in
(Note 1)
B
8 mm 0.315 in
8 mm 0.315 in 20 mm 0.787 in 20 mm 0.787 in 30 mm 1.181 in
C
3 mm 0.118 in
3 mm 0.118 in
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
Metal
Metal
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
Metal
3 mm 0.118 in
4 mm 0.157 in
7 mm 0.276 in
6 mm 0.236 in 12 mm 0.472 in
10 mm 0.394 in 10 mm 0.394 in 20 mm 0.787 in 20 mm 0.787 in 30 mm 1.181 in
10 mm 0.394 in
(Note)
F
2 mm 0.079 in
3 mm 0.118 in
3 mm 0.118 in
0 mm
G
2 mm 0.079 in
3 mm 0.118 in
3 mm 0.118 in
3 mm 0.118 in 10 mm 0.394 in
0 in
Note: When GX-HL15 type is mounted on an insulator or seated on the
enclosed aluminum sheet, the distance “F” can be zero.
Mutual interference prevention
• When two or more sensors are installed in parallel or face
to face, keep the minimum separation distance specified
below to avoid mutual interference.
J
GX-F6
GX-H6
Between “I” type
0 mm
(Note 2)
and non “I” type
Between two “I” types 13 mm
or two non “I” types
0.512 in
GX-F8
GX-H8
Between “I” type
and non “I” type
type
Between two “I” types 20 mm 35 mm
or two non “I” types
0.787 in 1.378 in
GX-F12
GX-H12
Between “I” type
and non “I” type
0 mm 25 mm
(Note 2) 0.984 in
Between two “I” types
or two non “I” types
Between “I” type
and non “I” type
Between two “I” types
or two non “I” types
Between “I” type
and non “I” type
Between two “I” types
or two non “I” types
25 mm 50 mm
0.984 in 1.969 in
type
type
GX-F15
GX-H15
type
GX-FL15
GX-HL15
type
Iron
1
1
1
1
1
1
Stainless steel
0.76 approx. 0.76 approx. 0.79 approx. 0.68 approx. 0.70 approx. 0.76 approx.
(SUS304)
Brass
0.50 approx. 0.50 approx. 0.56 approx. 0.47 approx. 0.45 approx. 0.50 approx.
Aluminum
0.48 approx. 0.48 approx. 0.53 approx. 0.45 approx. 0.43 approx. 0.48 approx.
Wiring
• The output does not incorporate a short-circuit protection
circuit. Do not connect it directly to a power supply or a
capacitive load.
• Do not use during the initial transient time (50 ms) after
the power supply is switched on.
G
F
GX-H6 type GX-H8 type GX-H12 type GX-H15 type GX-HL15 type
E
Correction coefficient
Model GX-F6 GX-F8 GX-F12 GX-F15
No. GX-H6 GX-H8 GX-H12 GX-H15 GX-FL15 GX-HL15
type
type
type
type
type
type
Metal
Others
G
Metal
D
• The sensing range is specified for the standard sensing
object. With a non-ferrous metal, the sensing range is
obtained by multiplying with the correction coefficient
specified below. Further, the sensing range also changes
if the sensing object is smaller than the standard sensing
object or if the sensing object is plated.
D
H
Selection
Guide
7 mm 0.276 in 10 mm 0.394 in
Top sensing type
LASER
MARKERS
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
7 mm 0.276 in
8 mm 0.315 in
(Note 2)
8 mm 0.315 in
Notes: 1) When using MS-GX6-1 (recommended mounting bracket), the
distance “A” including the thickness of mounting bracket will be
6.4 mm 0.252 in.
2) The GXL-FL15 type should be mounted on an insulator. To mount
it on an iron or stainless steel, use the enclosed aluminum sheet.
E
HUMAN
MACHINE
INTERFACES
C
C
A
ENDOSCOPE
PLC /
TERMINALS
Metal
GX-F6 type GX-F8 type GX-F12 type GX-F15 type GX-FL15 type
MEASUREMENT
SENSORS
STATIC
CONTROL
DEVICES
Sensing range
• When there is a metal near the sensor, keep the minimum
separation distance specified below.
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
Refer to General precautions.
Influence of surrounding metal
AREA
SENSORS
LIGHT
CURTAINS
GX-F/H SERIES
Rectangular-shaped Inductive Proximity Sensor
Front sensing
15 mm
0.591 in
25 mm
0.984 in
0 mm 15 mm
(Note 2) 0.591 in
0 mm 25 mm
(Note 2) 0.984 in
H
H
J
Top sensing
45 mm 70 mm
1.772 in 2.756 in
0 mm 25 mm
(Note 2) 0.984 in
H
J
110 mm 170 mm
3.059 in 6.693 in
Notes: 1) “I” in the model No. specifies
the different frequency type.
2) Close mounting is possible for up to two sensors.
When mounting three sensors or more at an equal spacing, align
the model with “I” and the model without “I” alternately. The minimum
value of dimension “H” should be as given below.
GX-F6 / H6 type: 3.5mm 0.138 in
GX-F8 / H8 type: 6mm 0.236 in
GX-F12 / H12 type: 6.5mm 0.256 in
GX-F15 / H15 type: 15mm 0.591 in
GX-FL15 / HL15 type: 47.5mm 1.870 in
Rectangular-shaped Inductive Proximity Sensor
DIMENSIONS (Unit: mm in)
The CAD data in the dimensions can be downloaded from our website.
GX-F6□
GX-H6□
Sensor
Sensor
Sensing direction
11
0.433
6
0.236
24.5
0.965
0.5
0.020
ø3 ø0.118 cable,
1 m 3.281 ft long
Sensing direction 0.5
0.020
2.6
0.102
6
0.236
Operation indicator
(Orange)
AREA
SENSORS
6
0.236
25
0.984
0.5
2.5 0.020
0.098
11.5
0.453
0.5
6 0.020
3
0.118 0.236
6
0.236
LIGHT
CURTAINS
PRESSURE /
FLOW
SENSORS
INDUCTIVE
PROXIMITY
SENSORS
GX-F8□
GX-H8□
Sensor
Sensor
Operation indicator (Orange)
23
22.5 11.5
0.906 0.886 0.453
6.5
0.256
5.4
0.213
1
0.039
Operation indicator
(Orange)
7.4
0.291
Sensing
direction
LASER
SENSORS
MICRO
PHOTOELECTRIC
SENSORS
ø3 ø0.118 cable,
1 m 3.281 ft long
Operation indicator (Orange)
8
0.315
FIBER
SENSORS
PHOTOELECTRIC
SENSORS
3
0.118
6
0.236
774
GX-F/H SERIES
8.55
0.337
ø9 ø0.354
7.7
0.303
3.7
0.146
ø3.1 ø0.12
mounting hole
9.75
0.384
8.2 0.323
ø3 ø0.118 cable,
1 m 3.281 ft long
5
0.197
6.3
0.248
ø3.1 ø0.122 mounting hole
SENSOR
OPTIONS
5.4 0.213 6.3 0.248
SIMPLE
WIRE-SAVING
UNITS
Sensing
direction
2.95
0.116
2.65
0.104
8.6
0.339
3.85
R4.25
R0.167 0.152
8
0.315
5.3
0.209
ø3 ø0.118 cable,
18.5
1 m 3.281 ft long
0.728
6.8
2 0.079
0.268
4.6
0.181
WIRE-SAVING
SYSTEMS
MEASUREMENT
SENSORS
2.4
0.095
9.1 0.358
4.8 0.189 5.3 0.209
2.5
0.098
25
0.984
PARTICULAR
USE
SENSORS
1
0.039
STATIC
CONTROL
DEVICES
ENDOSCOPE
LASER
MARKERS
GX-F12□
GX-H12□
Sensor
Sensor
Operation indicator
(Orange)
Sensing
direction
7.1
0.280
3.3 0.130
1.5 0.059
12
0.472
Sensing
direction
27.8 27 16
1.095 1.063 0.630
12
0.472
11.05
0.435
ø12.5 ø0.492
ø3.1 ø0.12
mounting hole
5 0.197
6.8
0.268
ø3 ø0.118 cable,
1 m 3.281 ft long
5.2
0.205
7.8
0.307
Operation indicator
(Orange)
12
0.472
5.5
0.217
ø2.3
ø0.091
16
0.630
ø2.3
ø0.091
ø3.1 ø0.122 mounting hole
22.2
0.874
ø6 ø0.236 screw seat,
1.4 0.055 deep
6.2
0.244
6.5 0.256
1.5
0.059
HUMAN
MACHINE
INTERFACES
6.8 0.268 7.8 0.307
8.65 0.341
4.8 0.189
3 0.118
R6.25 R0.246
13 12.5 12
0.512 0.492 0.472
12.4
0.488
ø6 ø0.236 screw seat,
0.8 0.032 deep
4.4 0.173
ø3 ø0.118 cable,
1 m 3.281 ft long
16
0.630
27.4
1.079
2.5
0.098
2.8
0.110
4.4
0.173
PLC /
TERMINALS
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
3.1 5.8
0.12 0.228
Selection
Guide
Amplifier
Built-in
Amplifierseparated
5.6
0.221
GX-F/H
GX-F(L)15□
Sensor
7.5
0.295
31.5
1.240
20.5
0.807
ø3 ø0.118 cable,
1 m 3.281 ft long
Sensing
direction
14.15
0.557
Sensor
Operation indicator (Orange)
2-ø3.1 ø0.122 holes
ø15.5 ø0.610
7.8
0.307
ø15.5
ø0.610
5.3
0.209
8
0.315
Operation indicator (Orange)
2.8
0.110
2-ø3.1 ø0.122 holes
ø3 ø0.118 cable, 1 m 3.281 ft long
9
0.354
Sensing direction
9
0.354
15
0.591
3.7
0.146
GX-H(L)15□
5.7
0.224
16.5 15.65 14.15
0.650 0.616 0.557
15
0.591
3
0.118
8.5
0.335
2.3
0.091
26
1.024
21.5
0.846
11.95
0.470
5.3
0.209
29.5
1.161
2.8
0.110
7.2
0.283
GXL
GL
GX-U/GX-FU/
GX-N
GX
775
FIBER
SENSORS
LASER
SENSORS
PHOTOELECTRIC
SENSORS
MICRO
PHOTOELECTRIC
SENSORS
AREA
SENSORS
Rectangular-shaped Inductive Proximity Sensor
GX-F/H SERIES
DIMENSIONS (Unit: mm in)
MS-GX6-1
Sensor mounting bracket for GX-6 type (Optional)
25.75
1.014
25.35
0.998
ø3.1
ø0.122
22
0.866
6.8
0.268
2.3
0.091
6.4
0.252
LIGHT
CURTAINS
t 0.4
t 0.016
PRESSURE /
FLOW
SENSORS
MS-GL6-1
Sensor mounting bracket for GX-6 type (Optional)
Mounting hole dimensions
22.2
(0.874
)
3.55
0.140
The CAD data in the dimensions can be downloaded from our website.
M3 × 0.5 0.020 tapped hole,
8 0.315 or more deep
Mounting hole dimensions
6
0.236
ø2.4 ø0.094 hole,
3 0.118 or more deep
3.2
0.126
6
0.236
13.6
0.535
2-3.2 × 3.8 0.126 × 0.150 oblong holes
5.5
0.217
5.6
0.220
19.6 0.772
(Note)
t 0.4
t 0.016
2-M3 × 0.5 0.020 tapped holes
(or 2-ø3.4 ø0.134 holes)
Note: 20 mm 0.787 in with the sensor fitted.
2
0.079
INDUCTIVE
PROXIMITY
SENSORS
PARTICULAR
USE
SENSORS
MS-GL6-2
Sensor mounting bracket for GX-6 type (Optional)
SENSOR
OPTIONS
WIRE-SAVING
SYSTEMS
MEASUREMENT
SENSORS
6
0.236
5.3
0.209
Mounting hole dimensions
Mounting hole dimensions
6
0.236
SIMPLE
WIRE-SAVING
UNITS
MS-GXL8-4 Sensor mounting bracket for GX-8 type (Optional)
3.2 × 3.8 0.126 × 0.150 oblong hole
3.2
0.126
5.5
0.217
5.6
t 0.4
1.5 0.220
13.2 0.520 t 0.016
0.059 (Note)
2.2
0.087
ø2.4
ø0.094
hole
10
0.394
M3 × 0.5 0.020 tapped hole
(or ø3.4 ø0.134 hole)
Note: 13.4 mm 0.528 in with the sensor fitted.
STATIC
CONTROL
DEVICES
2.3
0.091
9
0.354
(16.2) 15.8
(0.638) 0.622
Center of
2 sensing
0.079
2
0.079
0.3
0.012
(11.5)
3.3 (0.453)
0.130
t 0.4
t 0.016
ø2.4 ø0.094 hole,
3 0.118 or more deep
M3 × 0.5 0.020
tapped hole,
8 0.315 or more deep
11.5
0.453
4.5 0.177
ø3.1 ø0.122 hole
ENDOSCOPE
LASER
MARKERS
Material: Stainless steel (SUS304)
1 pc. each of M3 (length 12 mm 0.472 in) truss head screw,
nut, spring washer and plain washer is attached.
PLC /
TERMINALS
HUMAN
MACHINE
INTERFACES
ENERGY
CONSUMPTION
VISUALIZATION
COMPONENTS
MS-GXL15
Sensor mounting bracket for GX-15 type (Optional)
FA
COMPONENTS
MACHINE
VISION
SYSTEMS
UV
CURING
SYSTEMS
MS-A15F
MS-A15H
t2
t 0.079
14
0.551
9
0.354
2.5
0.098
7
0.276
Aluminum sheet (Optional)
30
1.181
2-ø3.2
ø0.126
2-3.2 × 5.1
0.126 × 0.201
oblong holes
4
0.157
2-M3 × 0.5 0.020 tapped holes
Selection
Guide
Amplifier
Built-in
Amplifierseparated
GX-F/H
GXL
GL
GX-U/GX-FU/
GX-N
GX
Material: SPCC
1.9
0.075
9
0.354
21
0.827
(
39.5
1.555
MS-A15H:
30 1.181
)
t = 0.3 0.012
1.9
0.075
776
MEMO
Similar pages