12
ANALOG OUTPUT TYPE
OPTICAL FIBER
PHOTOELECTRIC
SENSOR UZF36
NEW ANALOG OUTPUT TYPE FOR DIVERSE APPLICATIONS
Analog V oltage Output
Incorporated with the analog voltage
output (1 to 5V).
Various Uses
The analog process with various kinds
of fiber heads offers unique application
solutions such as a height evaluation,
or a gap detection.
Automatic Crosstalk
Prevention Function
Two sets of fibers can be mounted
close together or face to face.
Saturation Indicator
Saturation indicator lights up when the
output reaches 5V, thereby its sensitivi-
ty is easily adjusted without using a
tester.
The incident beam indicator brightens
up in proportion to the amount of inci-
dent beam (output voltage).
Slim
Space-effective as it is only 10mm
.394inch thick.
10mm
.394inch
Only
10mm
.394inch
thick
Incident beam indicator
Saturation indicator
UZF36 0.6.8 15:55 Page 12
13
APPLICATIONS
Comparing traveling objects in
height
With the array fiber, columns are classi-
fied in height.
Detecting gap to boards
No sensitivity setting is required even
as products are changed over because
of the differential sensing.
Detecting irrelevant products
Extraneous products are sorted out that
differ from normal products in reflection
ratio.
Ascertaining the number of translu-
cent films
The number of translucent films over-
laid is inspected by beam penetration.
Sensing turbidity of liquid
The turbidness of liquid inside a clear-
wall tank is analogically observed.
Measuring inner diameter of rings
Rings are classified according to inner
diameter.
UZF36 0.6.8 15:55 Page 13
14
ORDER GUIDE
Amplifier
Fibers
(*1) : The sensing range is defined as the range until the saturation indicator lights up. With the reflective fibers, it is specified with using white non-glossy paper
(50250mm 1.96921.969inch). (UZFR8B : 1002100mm 3.93723.937inch)
Appearance Model No. Supply voltage Analog output
Analog voltage
Voltage output: 1 to 5V
12 to 24V DC510%
UZF36
M
M15
.591
M4
M4
M4
1.48 .058
φφ
2.5 .098
φφ
M3
M3
0.88 .035
M3
φφ
1.5 .059
φφ
2.5 .098
φφ
M.591
M15
M6
M6
2.5 .098
φφ
M4
M3
3 .118
φφ
M4
M4
1.48 .058
φφ
2.5 .098
φφ
M4
M3
M20 .787
M
M20
.787
M6
Sensing range is about double of that of
conventional modle UZFTB8
UZFTF8
UZFTS8
UZFTT8
UZFTF4
UZFTS4
UZFTL8
UZFTA8
UZFTA8E
UZFR8B
UZFRF8
UZFRT8
UZFRT4
UZFRS8
UZFRF4
UZFRS4
UZFRG4
UZFREG1
UZFRA8
UZFRA8E
Free cuttable type
Same sensing range as the standard with a
smaller sensing probe
Suitable for sensing in the intricate apparatus
A long sensing range is achieved with a very
small sensing probe 2.5mm .098inch
Free cuttable type
Arrayed beam does mot miss by detecting
object regardless of its position
Long sensing range
Free cuttable type
Same sensing range as the standard with
small sensing probe
Suitable for sensing in the intricate apparatus
Free cuttable type
A highly precise positioning is possible with
coaxial reflective mode
Approx. 0.3mm .012inch is achieved by
means of combining with ultra-small spot lens
UZFXMR3
Arrayed beams meet various sensing demand
Type Shape of sensing probe
(mm inch)Sensing range (*1) Features Model No.
cable
Fiber optic
length
Small
sensing
probe
Long
sensing
range with
lenses
Array
Thru-beamReflective
Long
sensing
range
StandardSmall diameter
Long
sensing
range
Standard
Small sensing
probe
Small diameter
High precision
Array
UZFRF49
With sleeve 90mm 3.543inch
UZFRF44
With sleeve 40mm 1.575inch
UZFRF89
With sleeve 90mm 3.543inch
UZFRF84
With sleeve 40mm 1.575inch
UZFTF49
With sleeve 90mm 3.543inch
UZFTF44
With sleeve 40mm 1.575inch
UZFTF89
With sleeve 90mm 3.543inch
UZFTF84
With sleeve 40mm 1.575inch
500mm
19.685inch
160mm
6.299
inch
85mm
3.346inch
85mm
3.346inch
23mm
.906inch
125mm
4.921inch
65mm
2.559inch
31mm
1.220inch
22mm
.866inch
22mm
.866inch
7mm
.276inch
22mm
.866inch
7mm
.276inch
10mm
.394inch
3mm
.118inch
13mm
.512inch
Small diameter
Coaxial
With sleeve
With sleeve
Small diameter
With sleeve
With sleeve
Top sensing
Side sensing
Top sensing
Side sensing
Coaxial
Coaxial ·
Small diameter
Lens applicable
Lens applicable
Lens applicable
Lens applicable
Lens applicable
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
2m 6.562ft
Free Cut
φφ
φφ
UZF36 0.6.8 15:55 Page 14
15
OPTION
SPECIFICATIONS
Fibers
(*1) : The sensing range is defined as the range until the saturation indicator lights up.
Long sensing
range lens Ultra-long sensing
range lens
Side-view lens Pinpoint spot lens
Zoom lens Ultra-small pin-
point lens
Fiber
optic cable
insertion
depth
Center of the
sensing range
Center of the
sensing range
Spot diameter
Designation Model No. Description
Long sensing
range lens
Ultra-long
sensing
range lens
Side-view lens
Pinpoint spot
lens
Zoom lens
Ultra-small
pinpoint lens
Six times longer or more
Sensing range (Two lenses on both sides)(*1) :
900mm 35.433inch (UZFTB8),
750mm 29.528inch (UZFTF8, UZFTT8)
The farthest expansion with large aperture lenses
Sensing range (Two lenses on both sides)(*1) :
3,000mm 118.11inch (UZFTB8), 2,500mm 98.425inch (UZFTF8)
Beam axis is bent by 90°.
Sensing range (Two lenses on both sides)(*1) :
220mm 8.661inch (UZFTB8),
200mm 7.874inch (UZFTF8, UZFTT8)
Pinpoint spot of 0.5mm .020inch
Applicable fiber : UZFRG4
Distance to focal point : 651mm .2365.039mm
The spot diameter is adjustable from 0.7 to 2mm
.028 to .079inch according to how much it is screwed in.
Applicable fiber : UZFRG4
Distance to focal point : Approx. 18.5 to 43mm .728 to 1.693inch
(Screw-in depth : 7 to 14mm .276 to .551inch)
Spot diameter : 0.7 to 2mm .028 to .079inch
(Screw-in depth : 7 to 14mm .276 to .551inch)
Finest spot of 0.3mm .012inch
Applicable fiber : UZFREG1, UZFRG4
Distance to focal point : 7.550.5mm .2955.020inch
Spot diameter : 0.3mm .012inch (UZFREG1),
0.5mm .020inch (UZFRG4)
For thru-beam fiberFor reflective fiber
UZFXLE1
UZFXLE2
UZFXSV1
UZFXMR1
UZFXMR2
UZFXMR3
φφ
φφφ
φφ
φφ
φφ
φφ
φ
φφ
UZF36 0.6.8 15:55 Page 15
16
SPECIFICATIONS
Amplifier
(*1) : The voltage withstandability and the insulation resistivity described in the above table are inherent in the UZF36 amplifier only.
(*2) : Pay attention that the voltage drops when the cable is extended.
I/O CIRCUIT AND WIRING DIAGRAMS
Symbol . . . D1: Reverse polarity protection diode
D2, D3: Surge absorption diode
I/O circuit diagram Wiring diagram
D1
D2
D312 to 24V DC
510%
47
Sensor circuit
Color code
(Brown)`V
(Black) Analog voltage output
(Blue)0V
(Orange/Violet)
Crosstalk
prevention wire (*1)
`7V
Load Load
resistance
2k or more
Internal circuit Users’ circuit
`
1
`
1
Load
Blue
Black
Brown
Orange/Violet
To another amplifier
`
1
12 to 24V DC
510%
12 to 24V DC510% Ripple P-P 10% or less
35mA or less
Analog voltage
Output voltage : 1 to 5V (proportional to incident beam)
Output current : 5mA or less
Output impedance : 47
Load resistance : 2k or more
Temperature characteristic : 0.3% F.S. /°C or less
Switchable either 1ms or less or 10ms or less
Red LED (brightens up in proportion to analog output voltage)
Green LED (lights up when the analog output voltage reaches 5V)
8-turn adjuster with the pointer
Incorporated
110 to`55°C `14 to`131°F (No dew condensation nor icing allowed)
35 to 85%RH, Storage : 35 to 85%RH
Sun light : 1,000 x at the light-receiving face, Incandescent light : 1,000 x at the light-receiving face
Power line : 240Vp, 10ms cycle, and 0.5µs pulse duration, Radiation : 300Vp, 10ms cycle, and 0.5µs pulse duration (with noise simulator)
1,000V AC for one min. between all terminals connected and enclosure (*1)
20M or more at 250V DC Megger between all terminals connected and enclosure (*1)
10 to 150Hz frequency, 0.75mm amplitude, and X, Y, and Z directions each for two hours (unenergized)
100m/s2 acceleration {approx. 10G}, and X, Y, and Z directions each for five times (unenergized)
Red LED (modulated)
Enclosure : Heat-resistant ABS, Case cover : Polycarbonate, Fiber lock lever : PPS
Cabtyre cable 2m 6.562ft long with four 0.2mm2 conductors
Maximum extension is 100m 328.084ft overall with an equivalent cable with conductors 0.3mm2 or more (*2)
Approx. 60g 2.12oz
UZF811 (Mounting bracket) : 1pc., Adjusting screw-driver : 1pc.
Item
Model No. UZF36
Supply voltage
Current consumption
Analog output
Response time (*1)
Incident beam indicator
Saturation indicator
Sensitivity adjuster
Automatic crosstalk prevention
function
Ambient temperature
Ambient humidity
Ambient illuminance
(Extraneous light immunity)
Noise immunity
Voltage withstandability
Insulation resistivity
Vibration-proof
Shock-proof
Emitting element
Material
Cable
Cable extension
Weight
Accessories
Euvironmental resistance
UZF36 0.6.8 15:55 Page 16
17
SENSING FIELDS (TYPICAL)
Correlation between setting distance and output voltage
Correlation between setting distance and output voltage
with UZFXLE1 applied on both sides Correlation between setting distance and output voltage
with UZFXLE2 applied on both sides
UZFTB8
500
19.685 2,000
78.74
1,000
39.37 1,500
59.055
0
2
4
6
8
L
Setting distance L (mm inch)
Fiber head
Fiber head
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Thru-beam
200
7.874 400
15.748 1,000
39.37
600
23.622 800
31.496
0
2
4
6
8
Setting distance L (mm inch)
L
Fiber head
Fiber head
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Thru-beam
100
3.937 400
15.748
200
7.874 300
11.811
0
2
4
6
8
Setting distance L (mm inch)
L
Fiber head
Fiber head
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Thru-beam
UZFTL8
500
19.685 2,000
78.74
1,000
39.37 1,500
59.055
0
2
4
6
8
Setting distance L (mm inch)
L
Fiber head
Fiber head
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Thru-beam
200
7.874 800
31.496
400
15.748 600
23.622
0
2
4
6
8
Setting distance L (mm inch)
L
Fiber head
Fiber head
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Thru-beam
UZFR8B
100
3.937 400
15.748
200
7.874 300
11.811
0
2
4
6
8
Setting distance L (mm inch)
Fiber head
1002100mm
3.93723.937mm
White non-glossy paper
Output voltage (V)
Half sensitivity
Maximum
sensitivity
L
Reflective
100
3.937 400
15.748
200
7.874 300
11.811
0
2
4
6
8
Setting distance L (mm inch)
Fiber head
50250mm
1.96921.969mm
White non-glossy paper
L
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Reflective
50
1.969 200
7.874
100
3.937 150
5.906
0
2
4
6
8
Setting distance L (mm inch)
Fiber head
50250mm
1.96921.969mm
White non-glossy paper
L
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Reflective
UZFRG4
50
1.969 200
7.874
100
3.937 150
5.906
0
2
4
6
8
Setting distance L (mm inch)
Fiber head
50250mm
1.96921.969mm
White non-glossy paper
L
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Reflective UZFREG1
10
.394 40
1.575
20
.787 30
1.181
0
2
4
6
8
Setting distance L (mm inch)
Fiber head
50250mm
1.96921.969mm
White non-glossy paper
L
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Reflective
100
3.937 400
15.748
200
7.874 300
11.811
0
2
4
6
8
Setting distance L (mm inch)
Fiber head
50250mm
1.96921.969mm
White non-glossy paper
L
Output voltage (V)
Half sensitivity
Maximum
sensitivity
Reflective
UZFTB8
02
6.562 4
13.123 6
19.685 8
26.247
2
4
8
6
Half sensitivity
Maximum
sensitivity
Setting distance L (m ft.)
L
Lens top part
Lens top part
Output voltage (V)
Thru-beam
02
6.562 4
13.123 6
19.685 8
26.247
2
4
8
6
Maximum
sensitivity
Half sensitivity
Setting distance L (m ft.)
L
Lens top part
Lens top part
Output voltage (V)
Thru-beam
UZFTB8
5
16.404 10
32.808 15
49.213 20
65.617
Half sensitivity
Maximum
sensitivity
Setting distance L (m ft.)
0
2
4
8
6L
Lens top part
Lens top part
Output voltage (V)
Thru-beam
05
16.404 10
32.808 15
49.213 20
65.617
2
4
8
6
Half sensitivity
Maximum
sensitivity
Setting distance L (m ft.)
L
Lens top part
Lens top part
Output voltage (V)
Thru-beam
UZFTF8, UZFTF89, UZFTF84
UZFTS8, UZFTT8
UZFTF4, UZFTF49
UZFTF44, UZFTS4
UZFRF8, UZFRF89
UZFRF84, UZFRT8, UZFRS8
UZFRF4, UZFRF49, UZFRF44
UZFRT4, UZFRS4
UZFTA8
UZFTA8E
UZFRA8
UZFRA8E
UZFTF8
UZFTT8 UZFTF8
UZFTT8
UZF36 0.6.8 15:55 Page 17
18
SENSING FIELDS (TYPICAL)
Correlation between setting distance and output voltage with UZFXSV1 applied on both sides
UZFTB8
0500
19.685 1,000
39.37 1,500
59.055 2,000
78.74
2
4
8
6
Half sensitivity
Maximum
sensitivity
Setting distance L (mm inch)
Output voltage (V)
Lens top
part
Lens top
part L
Thru-beam
0500
19.685 1,000
39.37 1,500
59.055 2,000
78.74
2
4
8
6
Half sensitivity
Maximum
sensitivity
Setting distance L (mm inch)
Output voltage (V)
Lens top
part
Lens top
part L
Thru-beam
UZFTF8
UZFTT8
These products are not safety sensors
and are not designed or intended to be
used to protect life and prevent bodily
injury or property damage.
PRECAUTIONS FOR PROPER USE
Amplifier
Mounting
1Hook the rear part to the
attached mounting bracket
(UZF811) or DIN rail.
2Press the amplifier down on
the bracket or DIN rail.
How to mount the amplifier
1Push the amplifier frontward.
2With keeping on it, lift up the
front part of the amplifier.
How to remove the amplifier
1Unlock the fiber lock
lever upright.
2Insert fiber cables
into the inlets slowly
until fully deepened.
3Lock the fiber lock
lever on the original
position.
How to connect fiber cables
(*1) : With the coaxial diffuse fiber such as the UZFRG4 or the UZFRF8, insert
the mono-core fiber cable into the beam-emitting inlet and the multi-core
fiber cable into the beam-receiving inlet. If they are inserted in opposition,
the repeatability will deteriorate.
Crosstalk prevention function
• Two sets of fibers can be mounted close together that con-
nected to the UZF36 amplifiers because of the crosstalk
prevention function.
Two sets of the UZF36 amplifiers should be set the wiring
and switches on them as follows.
1) Wiring
• Connect both crosstalk prevention wires together under
both 0V wires in common.
2) Crosstalk prevention selection switch
• Set the crosstalk prevention selection switch on “MAIN” for
the first amplifier and on “SUB” for the second amplifier.
To neglect crosstalk prevention function
• If the amplifier is used singly, set the crosstalk prevention
selection switch on “MAIN”, otherwise it is not operable.
• Insulate the crosstalk prevention wire.
DIN rail or the attached
mounting bracket
21
21
Fiber lock lever
Fiber cables
1
2
3
Beam-
emitting part
Beam-
receiving part
Coaxial fiber
Beam-
receiving
inlet
(Multi-
cores)
Beam-
emitting
inlet (Mono-core)
Mountable close
together
Color code
(Brown)`V
(Brown)`V
(Orange/Violet) Crosstalk prevention wire
(Orange/Violet)
Crosstalk prevention wire
(Black) Analog voltage output
(Black) Analog voltage output
(Blue) 0V
`V
0V
(Blue) 0V
UZF36 0.6.8 15:55 Page 18
19
PRECAUTIONS FOR PROPER USE
Amplifier
Response time selection
• The response time of the UZF36 can be selected either
“1ms” or “10ms”. If your detecting application does not need
the quick response, “10ms” is recommended as it makes the
detection secure against inductive noises and ambient
lights.
If you choose “1ms”, pay attention to inductive noises and
ambient lights.
• The response time stands for the processing time that the
output follows to an input change, either from the complete
Dark level (1V) up to 90% extent of a certain Light level or
from the Light level down to the complete Dark level 10%
extent beforehand. The response time of the UZF36 is con-
stant regardless of the amplitude of the output voltage. The
usage with “10ms” is recommended to gain the output relia-
bility if you do not require quick response. When you select
“1ms”, carefully consider the influence of extraneous lights
or inductive noises.
Sensitivity adjustment
Others
• The transient time duration is 50ms after power-up.
UZF36
DIMENSIONS (Unit: mm inch)
Designation
Amplifier
Assembled dimensions with attached mounting bracket
UZF811
Amplifier mounting bracket (Accessory for UZF36)
3.7V
1.3V
2.8V
1.2V
t1t1t2t2
4V(Light state) 3V
(Light state)
1V(Dark state) 1V
(Dark state)
t1=t2 : Response time
(e.g.)
MAX
SENS.
1ms
10ms
MAIN
RESP.
SYNC.
SUB.
OVER
OUT
Sensitivity adjuster
(8-turn)
Pointer
Crosstalk prevention
selection switch
Response time
selection switch
Saturation indicator (Green)
Incident beam
indicator (Red)
• As it is turned clockwise,
the sensitivity increases.
• Even the adjuster is fully
turned, it runs at idle to
protect itself.
• It lights up when the
analog output voltage
reaches 5V.
• It brightens in proportion
to analog output voltage.
• It shows the sensitivity
level you set.
3
.118 9
.354
21.1
.831 16
.630
3.2
.126 2
.079
60 2.362
2
.079
11.6
.457 36.5
1.437
8
.315
31.5
1.240
3
.118
2.4
.094
7.5
.295
21.9
.862
22
.866 59 2.323
10
.394
10
.394
4.5
.177
Crosstalk prevention selection switch
Response time selection switch
Sensitivity adjuster (8-turn)
Fiber lock lever
Saturation indicator
Incident beam indicator
Beam-
receiving
part
Beam-
emitting
part
4.2 .165 cable
2m 6.562ft. long
Attached mounting
bracket (UZF811)
2- 3.2 .126
φφ
φφ
8.6
φ
.339
φ
35
1.378
27
1.063
2
.079
t1 .039
0.7
.028
7.5
.295 4.2 .165
2
.079
3.2
.126 5.2
.205
8.5
.335 5.2
.205
21.6
.850
16
.630
3.2
.126
5 .197 10
.394
1.8
φ
.071
φ
2- 3.2 .126 holes
φφ
Material : SPCC (Uni-chrome plated)
Thru-beam
fibers
Perfect beam-alignment
Diffuse-reflective
fibers
The largest amount
of reflected beam
Adjust the relative positions between fiber heads or
between the fiber head and an object so as to
receive as much the incident beam as possible.
(1)
(3)
(2)
Adjusting
Sensitivity
adjuster
Turn the sensitivity adjuster counterclockwise fully
up to the minimum sensitivity.
Turn the sensitivity adjuster clockwise until the
saturation indicator lights up. Once it lights up, turn
the sensitivity adjuster counterclockwise until the
saturation indicator lights off. This is the point most
sensitive before the saturation.
Proce-
dure
MAX.
SENS.
MAX.
SENS.
UZF36 0.6.8 15:55 Page 19