SICK WTV4F V-Optic Operating instructions

O P E R A T I N G I N S T R U C T I O N S

WTV4F

Miniature photoelectric sensors

O P E R A T I N G I N S T R U C T I O N S

WTV4F

Miniature photoelectric sensors

de

en

es

fr

it

ja

pt

ru

zh

Described product

W4F

WTV4F

Manufacturer

SICK AG

Erwin-Sick-Str. 1

79183 Waldkirch

Germany

Legal information

This work is protected by copyright. Any rights derived from the copyright shall be

reserved for SICK AG. Reproduction of this document or parts of this document is

only permissible within the limits of the legal determination of Copyright Law. Any modi‐

fication, abridgment or translation of this document is prohibited without the express

written permission of SICK AG.

The trademarks stated in this document are the property of their respective owner.

Original document

This document is an original document of SICK AG.

2006/42/EC

NO

SAFETY

8025302 / 2020-11-13 | SICK

Subject to change without notice

3

Contents

1 General safety notes......................................................................... 5

2 Notes on UL approval........................................................................ 5

3 Intended use...................................................................................... 5

4 Operating elements and status indicators.................................... 5

5 Mounting............................................................................................. 6

6 Electrical installation........................................................................ 6

7 Commissioning.................................................................................. 8

7.1 Alignment.................................................................................................. 8

7.2 Check the application conditions:........................................................... 8

7.3 Setting....................................................................................................... 10

7.4 Process data structure............................................................................. 12

8 Troubleshooting................................................................................. 12

9 Disassembly and disposal............................................................... 12

10 Maintenance...................................................................................... 13

11 Technical specifications................................................................... 13

11.1 Dimensional drawings.............................................................................. 14

CONTENTS

4

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Subject to change without notice

1 General safety notes

■

Read these operating instructions before commissioning the device.

■

Connection, mounting and configuration of the device must only be carried

out by qualified personnel.

■

2006/42/EC

NO

SAFETY

This device does not constitute a safety component as defined in the

Machinery Directive.

■

When commissioning the device, ensure adequate protection against mois‐

ture, contamination and UV radiation (sunlight).

■

These operating instructions contain information required during the life cycle of

the photoelectric sensor.

2 Notes on UL approval

The device shall be supplied from an isolating transformer having a secondary overcur‐

rent protective device that complies with UL 248 to be installed in the field rated either:

a) max 5 amps for voltages 0 ~ 20 V (0 ~ 28.3 V peak), or

b) 100 / Vp for voltages of 20 ~ 30 V (28.3 ~ 42.4 V peak).

Alternatively, they can be supplied from a Class 2 power supply.

UL Environmental Rating: Enclosure type 1

3 Intended use

The WTV4F is an opto-electronic photoelectric background suppression proximity sen‐

sor (referred to as “sensor” in the following) for the optical, non-contact detection of

objects, animals, and persons. If the product is used for any other purpose or modified

in any way, any warranty claim against SICK AG shall become void.

4 Operating elements and status indicators

Photoelectric proximity sensor with background suppression.

Table 1: Operating elements and status indicators

WTV4

F

-xxxxxx20Axx -xxxxxx30Zxx -xxxxxx10Zxx -xxxxxxA0Zxx

1

3

2

4

34

2

34

1

BluePilot blue: sensing range display

2

Press-turn element / Potentiometer / Teach-Button: adjusting the sensing range

3

LED indicator yellow: status of received light beam

4

LED indicator green: supply voltage active

GENERAL SAFETY NOTES 1

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5

5 Mounting

Mount the sensor using a suitable mounting bracket (see the SICK range of acces‐

sories).

Figure 1: Alignment of the sensor relative to the object direction

Note the sensor’s maximum permissible tightening torque of < 0,4 Nm.

Note the preferred direction of the object relative to the sensor, cf. see figure 1, page 6.

6 Electrical installation

The sensors must be connected in a voltage-free state. The following information must

be observed, depending on the connection type:

– Male connector connection: Pin assignment

– Cable: Wire color

Only apply voltage/switch on the voltage supply once all electrical connections have

been established.

Explanations on connection diagram.

BN = brown

WH = white

BU = blue

BK = black

MF (pin 2 configuration) = external input, teach-in, switching signal

Q

L1

/C = switching output, IO-Link communication

Test = Test input

U

B

: 10 ... 30 V DC

Table 2: Electrical connection

x4 x2 xH x1 xG

1 = BN

2 = WH

3 = BU

4 = BK

1

2

4 3

2

1

4

3

0.14 mm

2

AWG26

1

4

3

0.14 mm

2

AWG26

5 MOUNTING

6

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Table 3: DC

WTx4Fx- xx16xxxxA00 xx16xxxxA01-

A99

xx161 xx162 xx16A xx13N xx16x

1 = BN + (L+)

2 = WH MF

3 = BU - (M)

4 = BK Q

L1

/C

Default: MF

Q

Q no function no function www.sick.com

8022709

Default:

Q

L1

/C

Q

www.sick.com

8022709

Table 4: DC

WTx4Fx- xx11xxx0Zxx

xx112 xx111 xx312 xx311

1 = BN + (L+)

2 = WH

Q

Q no function

3 = BU - (M)

4 = BK Q

Q

Table 5: DC

WTx4Fx- xx31xxx0Zxx

xx311 xx312

1 = BN + (L+)

3 = BU - (M)

4 = BK Q

Q

Table 6: Push / Pull

Q

push-pull

(≤ 100 mA)

+ (L+)

Q

‒ (M)

+ (L+)

Q

‒ (M)

ELECTRICAL INSTALLATION 6

8025302 / 2020-11-13 | SICK

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7

Q

push-pull

(≤ 100 mA)

+ (L+)

Q

‒ (M)

+ (L+)

Q

‒ (M)

7 Commissioning

7.1 Alignment

Alignment

Align the sensor with the object. Select the position so that the red emitted light beam

hits the center of the object. You must ensure that the optical opening (front screen) of

the sensor is completely clear [see figure 2].

Figure 2: Alignment

Figure 3: Alignment

7.2

Check the application conditions:

Sensing range

WTV4F are photoelectric proximity sensors with background suppression. Depending

on the remission of the object to be detected, and perhaps the background behind it, a

minimum distance (y) between the set sensing range (x) and the background should be

maintained.

7 COMMISSIONING

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Check the application conditions:

Adjust the sensing range and distance to the object or background as well as the

radiance capability of the object according to the corresponding diagram (x = sensing

range, y = minimum distance between set sensing range and background [white, 90%])

Radiance factor: 6% = black 1, 18% = gray 2, 90% = white 3 (referring to standard

white as per DIN 5033). We recommend that the adjustment be performed with an

object of low remission.

The minimum distance (= y) for the background suppression can be determined from

the diagram as follows:

Example: x = 20 mm, y = 1,2 mm. That is, the background (white, 90%) is suppressed

at a distance of > 1,2 mm from the sensor.

0

2

(0.08)

1

(0.04)

3

(0.12)

5

(0.20)

4

(0.16)

6

(0.24)

7

(0.28)

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

y

x

y

x

Minimum distance in mm (y) between the set sensing

range and white background (90 % remission)

Example:

Safe suppression of the background

White background (90 %)

Black object (6 % remission)

Set sensing range x = 20 mm

Needed minimum distance to white

background y = 1.2 mm

Distance in mm (inch)

Recommended sensing range for

the best performance

3

18%/90%

2

6%/90%

1

34

1%/90%

90%/90%

Figure 4: Characteristic line

4

1

2

5

3015

2

5015

2

15

2

15

3

50

0 10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

Distance in mm (inch)

D

C

A B

BluePilot

E

F

Figure 5: bar graph

A Sensing range min. in mm

B Sensing range max. in mm

C Viewing range

D Adjustable switching threshold for fore‐

ground suppression

E Sensing range indicator

F Teach-Turn adjustment

–20

–15

15

0

–10

10

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

α

x

High-glossy object, angle of acceptance

Distance in mm (inch)

20

Recommended sensing range for

the best performance

x

–α +α

Example:

Set sensing range x = 30 mm

Angle of acceptance between –12° and +5°

Figure 6: Light spot size

–10

0

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

α

x

d

x

–α +α

Transparent pane of glass in front of background

(18 % remission), angle of acceptance

Distance in mm (inch)

d = 10 mm

d = 40 mm

d = 80 mm

d = 120 mm

d ≥ 200 mm

Example:

Set sensing range x = 30 mm

Distance object to background d ≥ 200 mm

Angle of acceptance between –4° and + 7°

Recommended sensing range for

the best performance

Figure 7: Light spot size

COMMISSIONING 7

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9

x

–β +β

Example:

Set sensing range x = 30 mm

Angle of acceptance between –7° and +7°

–20

–15

15

0

–10

10

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

β

x

High-glossy object, angle of acceptance

Distance in mm (inch)

20

Recommended sensing range for

the best performance

Figure 8: Light spot size

–10s

0

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

β

x

Transparent pane of glass in front of background

(18 % remission), angle of acceptance

Distance in mm (inch)

d

x

d = 10 mm

d = 40 mm

d = 80 mm

d = 120 mm

d ≥ 200 mm

–β +β

Example:

Set sensing range x = 30 mm

Distance object to background d ≥ 200 mm

Angle of acceptance between –6° and +6°

Recommended sensing range for

the best performance

Figure 9: Light spot size

0

1

(0.04)

2

(0.08)

3

(0.12)

–3

(–0.12)

–2

(–0.08)

–1

(–0.04)

0

Distance in mm (inch)

Dimensions in mm (inch)

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

5

(0.20)

50

(1.97)

40

(1.57)

Recommended sensing range for

the best performance

Figure 10: Light spot size

3.5

(0.14)

5.5

(0.22)

7.5

(0.30)

9.5

(0.37)

–0.5

(–0.02)

1.5

(0.06)

0

Distance in mm (inch)

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

5

(0.20)

50

(1.97)

30

(1.18)

Apex angle 8.1°

Dimensions in mm (inch)

Recommended sensing range for

the best performance

Figure 11: Light spot size

7.3 Setting

Sensing range adjustment

WTV4F-xxxxxx1xAxx

Adjustment via a potentiometer:

Clockwise rotation: Sensing range increased.

Counterclockwise rotation: Sensing range reduced.

WTV4F-xxxxxx2xAxx

The sensing range is adjusted by pressing the teach-in button (approx. 1-3 sec.).

Depending on the requirements, the potentiometer can be used for fine-tuning (without

pressing the teach-in button).

Clockwise rotation: Sensing range increased.

Counterclockwise rotation: Sensing range reduced.

The sensing range can also be adjusted using just the potentiometer.

7 COMMISSIONING

10

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1...3 sec.

1

2

3

Figure 12: WTB4F, adjustment of the sensing range using a teach-turn adjustment

WTV4F-xxxxxx3x

Adjustment via teach-in: The sensing range is adjusted by pressing the teach-in button

(approx. 1-3 sec.).

WTV4F-xxxxxxAx

Sensor with fixed sensing range and no adjustment.

COMMISSIONING

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11

7.4 Process data structure

Process data structure (Version 1.1)

WTV4Fx-xxxxxxxxAxx:

A00 A70 A71 A72 A73 A75

IO-Link V1.1

Process

data

2 bytes 4 bytes

Byte 0: bits 15... 8

Byte 1: bits 7... 0

Byte 0: bits 31...

24

Byte 1: bits 13...

16

Byte 2: bits 15...

8

Byte 3: bits 7... 0

Bit 0 / Data

type

Q

L1

/ Boolean

Bit 1 / Data

type

Q

L2

/ Boolean Qint.1 /

Boolean

Q

L2

/

Boolean

Qint.1 / Boolean

Bit... /

Descrip‐

tion / Data

type

2 ...15 /

[empty]

2 ...15 /

[time mea‐

surement

value] /

UInt 14

2 … 15 /

[counter

value] /

UInt 14

2 … 15 /

[length /

speed

measure‐

ment] /

SInt14

2 /

Qint.1 /

Boolean

2 … 7 / [empty]

Bit... /

Descrip‐

tion / Data

type

3 … 15 /

[time mea‐

surement

value] /

UInt13

8 … 31 / [carrier

load] / UInt 24

8 Troubleshooting

The Troubleshooting table indicates measures to be taken if the sensor stops working.

Table 7: Troubleshooting

LED indicator/fault pattern Cause Measures

Green LED flashes IO-Link communication None

Switching outputs do not

behave in accordance with

table 6

1. IO-Link communication

2. Change of the configuration

3. Short-circuit

1. None

2. Adjustment of the configura‐

tion

3. Check electrical connections

Yellow LED lights up, no object

in the path of the beam

The sensing range distance is

too large

Reduce the sensing range

Object is in the path of the

beam, yellow LED does not

light up

Distance between the sensor

and the object is too long or

sensing range is set too short

Increase the sensing range

9 Disassembly and disposal

The sensor must be disposed of according to the applicable country-specific regula‐

tions. Efforts should be made during the disposal process to recycle the constituent

materials (particularly precious metals).

7 COMMISSIONING

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NOTE

Disposal of batteries, electric and electronic devices

•

According to international directives, batteries, accumulators and electrical or

electronic devices must not be disposed of in general waste.

•

The owner is obliged by law to return this devices at the end of their life to the

respective public collection points.

•

WEEE: This symbol on the product, its package or in this document,

indicates that a product is subject to these regulations.

10 Maintenance

SICK sensors are maintenance-free.

We recommend doing the following regularly:

•

Clean the external lens surfaces

•

Check the screw connections and plug-in connections

No modifications may be made to devices.

Subject to change without notice. Specified product properties and technical data are

not written guarantees.

11 Technical specifications

WTV4F

Recommended sensing range for the best performance 15 mm … 30 mm

Sensing range max. 4 mm … 50 mm (Typ)

1)

Light spot diameter/distance 0,5 x 1,5 mm (30 mm) (Typ)

Supply voltage U

B

DC 10 ... 30 V

2)

Ripple ≤ 5 Vss

Output current I

max.

≤ 100 mA

Current consumption 25 mA

Switching frequency 1000 Hz

3)

Max. response time 500 µs

4)

Enclosure rating IP66, IP67

Protection class III

5)

Circuit protection A, B, D

6)

Ambient operating temperature –40 °C ... +60 °C

1)

Object with 90 % remission (based on standard white DIN 5033)

2)

Limit values. U

B

connections reverse-polarity protected. Residual ripple max 5 V

PP

3)

With light / dark ratio 1:1

4)

Signal transit time with resistive load

5)

Reference voltage DC 50 V

6)

A = U

B

-connections reverse polarity protected

B = inputs and output reverse-polarity protected

D = outputs overcurrent and short-circuit protected

MAINTENANCE 10

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13

11.1 Dimensional drawings

1

3

2

6

9

78

4

5

16 (0.63) 12.1 (0.48) 24.9 (0.98)

9 (0.35)

Ø 6.8

(0.27)

5.6 (0.22)

Ø 6.2 (0.24)

8 (0.32)

8.1 (0.32)

3.5 (0.14) 10.1 (0.4)

13.3 (0.52)

6.4 (0.25)

37.2 (1.46)

4.7 (0.18)

3.4 (0.13)

6.7 (0.26)

Figure 13: Dimensional drawing 1, cable

1

Preferred direction of the target

object

2

Center of optical axis, sender

3

Center of optical axis, receiver

4

Fixing hole, Ø4.1 mm

5

Connection

6

Focus

7

LED indicator green: Supply voltage

active

8

LED indicator yellow: Status of

received light beam

9

Teach-Turn adjustment: Adjusting

the sensing range

1

3

2

6

9

78

4

5

16 (0.63) 12.1 (0.48) 24.9 (0.98)

9 (0.35)

M8

(0.31)

5.6 (0.22)

Ø 6.2 (0.24)

8 (0.32)

11 (0.43)

3.5 (0.14) 10.1 (0.4)

13.3 (0.52)

6.4 (0.25)

40.1 (1.58)

7.6 (0.3)

3.4 (0.13)

6.7 (0.26)

Figure 14: Dimensional drawing 2, male

connector

11 TECHNICAL SPECIFICATIONS

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Tabelle 10: DC

WTx4Fx- xx16xxxxA00 xx16xxxxA01-

A99

xx161 xx162 xx16A xx13N xx16x

1 = BN + (L+)

2 = WH MF

3 = BU - (M)

4 = BK Q

L1

/C

Default: MF

Q

Q no function no function www.sick.com

8022709

Default:

Q

L1

/C

Q

www.sick.com

8022709

Tabelle 11: DC

WTx4Fx- xx11xxx0Zxx

xx112 xx111 xx312 xx311

1 = BN + (L+)

2 = WH

Q

Q no function

3 = BU - (M)

4 = BK Q

Q

Tabelle 12: DC

WTx4Fx- xx31xxx0Zxx

xx311 xx312

1 = BN + (L+)

3 = BU - (M)

4 = BK Q

Q

Tabelle 13: Push / Pull

Q

push-pull

(≤ 100 mA)

+ (L+)

Q

‒ (M)

+ (L+)

Q

‒ (M)

17 ELEKTRISCHE INSTALLATION

20

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Tableau 17: DC

WTx4Fx- xx16xxxxA00 xx16xxxxA01-

A99

xx161 xx162 xx16A xx13N xx16x

1 = BN + (L+)

2 = WH MF

3 = BU - (M)

4 = BK Q

L1

/C

Default: MF

Q

Q no function no function www.sick.com

8022709

Default:

Q

L1

/C

Q

www.sick.com

8022709

Tableau 18: DC

WTx4Fx- xx11xxx0Zxx

xx112 xx111 xx312 xx311

1 = BN + (L+)

2 = WH

Q

Q no function

3 = BU - (M)

4 = BK Q

Q

Tableau 19: DC

WTx4Fx- xx31xxx0Zxx

xx311 xx312

1 = BN + (L+)

3 = BU - (M)

4 = BK Q

Q

Tableau 20: Push / Pull

Q

push-pull

(≤ 100 mA)

+ (L+)

Q

‒ (M)

+ (L+)

Q

‒ (M)

INSTALLATION ÉLECTRIQUE 28

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33

Page is loading ...

Vérifier les conditions d’utilisation :

Comparer la distance de commutation et la distance par rapport à l’objet ou à l’arrière-

plan et les caractéristiques de rémission de l’objet avec le diagramme correspondant (x

= distance de commutation, y = distance minimale entre la distance de commutation

réglée et l’arrière-plan (blanc, 90 %)) rémission : 6 % = noir 1, 18 % = gris2, 90 %

= blanc 3 (par rapport au blanc standard selon DIN 5033). Nous recommandons de

procéder au réglage avec un objet de faible rémission.

La distance minimale (= y) pour l’élimination d’arrière-plan peut être déterminée à

partir du diagramme :

exemple : x = 20 mm, y = 1,2 mm. En effet, l’arrière-plan (blanc, 90 %) est masqué à

partir d’une distance du capteur > 1,2 mm.

0

2

(0.08)

1

(0.04)

3

(0.12)

5

(0.20)

4

(0.16)

6

(0.24)

7

(0.28)

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

y

x

y

x

Minimum distance in mm (y) between the set sensing

range and white background (90 % remission)

Example:

Safe suppression of the background

White background (90 %)

Black object (6 % remission)

Set sensing range x = 20 mm

Needed minimum distance to white

background y = 1.2 mm

Distance in mm (inch)

Recommended sensing range for

the best performance

3

18%/90%

2

6%/90%

1

34

1%/90%

90%/90%

Illustration 32: Caractéristique

4

1

2

5

3015

2

5015

2

15

2

15

3

50

0 10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

Distance in mm (inch)

D

C

A B

BluePilot

E

F

Illustration 33: graphique à barres

A Distance de commutation min. en mm

B Distance de commutation max. en mm

C Zone de visualisation

D Plage de réglage seuil de commutation

pour l’élimination de premier plan

E Indication de la distance de commuta‐

tion

F Bouton poussoir rotatif

–20

–15

15

0

–10

10

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

α

x

High-glossy object, angle of acceptance

Distance in mm (inch)

20

Recommended sensing range for

the best performance

x

–α +α

Example:

Set sensing range x = 30 mm

Angle of acceptance between –12° and +5°

Illustration 34: Taille du spot lumineux

–10

0

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

α

x

d

x

–α +α

Transparent pane of glass in front of background

(18 % remission), angle of acceptance

Distance in mm (inch)

d = 10 mm

d = 40 mm

d = 80 mm

d = 120 mm

d ≥ 200 mm

Example:

Set sensing range x = 30 mm

Distance object to background d ≥ 200 mm

Angle of acceptance between –4° and + 7°

Recommended sensing range for

the best performance

Illustration 35: Taille du spot lumineux

MISE EN SERVICE 29

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35

x

–β +β

Example:

Set sensing range x = 30 mm

Angle of acceptance between –7° and +7°

–20

–15

15

0

–10

10

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

β

x

High-glossy object, angle of acceptance

Distance in mm (inch)

20

Recommended sensing range for

the best performance

Illustration 36: Taille du spot lumineux

–10s

0

–5

5

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

0

β

x

Transparent pane of glass in front of background

(18 % remission), angle of acceptance

Distance in mm (inch)

d

x

d = 10 mm

d = 40 mm

d = 80 mm

d = 120 mm

d ≥ 200 mm

–β +β

Example:

Set sensing range x = 30 mm

Distance object to background d ≥ 200 mm

Angle of acceptance between –6° and +6°

Recommended sensing range for

the best performance

Illustration 37: Taille du spot lumineux

0

1

(0.04)

2

(0.08)

3

(0.12)

–3

(–0.12)

–2

(–0.08)

–1

(–0.04)

0

Distance in mm (inch)

Dimensions in mm (inch)

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

5

(0.20)

50

(1.97)

40

(1.57)

Recommended sensing range for

the best performance

Illustration 38: Taille du spot lumineux

3.5

(0.14)

5.5

(0.22)

7.5

(0.30)

9.5

(0.37)

–0.5

(–0.02)

1.5

(0.06)

0

Distance in mm (inch)

10

(0.39)

20

(0.79)

30

(1.18)

40

(1.57)

50

(1.97)

5

(0.20)

50

(1.97)

30

(1.18)

Apex angle 8.1°

Dimensions in mm (inch)

Recommended sensing range for

the best performance

Illustration 39: Taille du spot lumineux

29.3 Réglage

Réglage distance de commutation

WTV4F-xxxxxx1xAxx

Réglage via potentiomètre :

rotation vers la droite : augmentation de la distance de commutation.

Rotation vers la gauche : réduction de la distance de commutation.

WTV4F-xxxxxx2xAxx

Appuyer sur le bouton d’apprentissage (pendant environ 1 à 3 secondes) pour régler la

distance de commutation. Selon les exigences, il est possible de procéder à un réglage

fin avec le potentiomètre (sans appuyer sur le bouton d’apprentissage).

Rotation vers la droite : augmentation de la distance de commutation.

Rotation vers la gauche : réduction de la distance de commutation.

La distance de commutation peut aussi être sélectionnée uniquement au moyen du

potentiomètre.

29 MISE EN SERVICE

36

8025302 / 2020-11-13 | SICK

Subject to change without notice

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M A N U A L D E I N S T R U Ç Õ E S

WTV4F

Barreira de luz miniatura

de

en

es

fr

it

ja

pt

ru

zh

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Tabela 24: DC

WTx4Fx- xx16xxxxA00 xx16xxxxA01-

-A99

xx161 xx162 xx16A xx13N xx16x

1 = BN + (L+)

2 = WH MF

3 = BU - (M)

4 = BK Q

L1

/C

Default: MF

Q

Q no function no function www.sick.com

8022709

Default:

Q

L1

/C

Q

www.sick.com

8022709

Tabela 25: DC

WTx4Fx- xx11xxx0Zxx

xx112 xx111 xx312 xx311

1 = BN + (L+)

2 = WH

Q

Q no function

3 = BU - (M)

4 = BK Q

Q

Tabela 26: DC

WTx4Fx- xx31xxx0Zxx

xx311 xx312

1 = BN + (L+)

3 = BU - (M)

4 = BK Q

Q

Tabela 27: Push / Pull

Q

push-pull

(≤ 100 mA)

+ (L+)

Q

‒ (M)

+ (L+)

Q

‒ (M)

39 INSTALAÇÃO ELÉTRICA

46

8025302 / 2020-11-13 | SICK

Subject to change without notice

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SICK WTV4F V-Optic Operating instructions

SICK WTV4F V-Optic Operating instructions

in other languages

Related papers

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