Proximity

Sensors for Automation

Inductive Proximity SwitchesALIAe 9.01

The Dr. Klaschka Group of CompaniesKEA • EAN • ETB • DKU

© by Klaschka GmbH & Co • Elektronik + Automation • Steinegger Str. • 75 233 Tiefenbronn - Lehningen • Tel. ++ 49(0)7234 940-0 • Fax ++49(0)7234 940-444Inductive Proximity Switches • Selection ALIA • Edition 9.01

1

Hausen plant

Lehningen plant

Neuhausen plant

Bod

ense

e

Hei

lbro

nn -

Wür

zbur

g

Karlsruhe

München

Leonberg

Heimsheim

Stuttgart

Bad Liebenzell

Calw

Pforzheim

Sindelfingen

Weil der Stadt

Böblingen

Tiefenbronn

Weissach

MühlackerBretten

KEA administration

Lehningen

Neuhausen

KEA Production

Neuhausen

ETB

Hausen

EuroAvionics

EMC lab

KEA: Klaschka GmbH & Co, Elektronik und AutomationThe company Industrieelektronik Dr.- Ing. Walter Klaschka (INEL) was founded July 1, 1964 in Neckarrems near Stuttgart.The company´s aim is to develop, manufacture, and sell components, units, and systems, forautomation in industry and environmental technology.The main customers were the automobile manufacturers and their suppliers. On January 1,1966, the company was moved to Tiefenbronn-Lehningen. The range of customers continuedto expand. Among others, automation partners in environmental technology were added. Forthis reason, the company adopted the new name on January 1, 1993.The product range comprises about 1,500 different items in six product families:1. Sensors 4. Computers, fieldbusses, LANs, and busses, 2. Electronic modules 5. Automation units,3. Programmable controllers, 6. Automation systems.

At the present time, the company employs about 185 people in the Lehningen andNeuhausen plants. These plants are located on the northern edge of the Black Forest. A totalof about 10,000 sq. meters is available for laboratories, communications, manufacturing, andwarehousing.The Lehningen plant houses the management and administration. A casino forms thecultural center of the company.The Neuhausen plant houses the following:

• Logistics, • Marketing and sales,• Development of systems, • Technical office for Baden-Württemberg,• Development of components, • Manufacturing of components, • Development of units, • Manufacturing of units, • Shipping and receiving • Construction of switching cabinets, • Warehouse for finished products and raw materials.

Since 1994, the company has the DIN ISO 9001 certification. The products carry the CElabel since January 1, 1996. This label certifies the electromagnetic compatibility of theproducts, providing the user with the requirements for enabling his machines to satisfy ECguidelines.Our EMC testing lab in Neuhausen can perform EMC measurements on units, devices,motor-generator sets, and smaller machines for customers.At present, our development program is concentrating on the following:

• Customer specific sensors and controllers,• Automation units for printing machines, • Automation units and systems for presses and press lines,• Automation units and systems for production facilities in the automotive industry,• Automation units and systems for power plants, • Automation systems for environmental technology.

More than 33 years of experience in the field of automation make us a sought-after partnerfor economical customer specific complete solutions.

EAN: EuroAvionics Navigationssysteme GmbH & CoThe EuroAvionics Navigationssysteme (EAN), located in our Weil der Stadt - Hausenplant, was founded by Rüdiger Klaschka on January 1, 1993 as a limited liability company(GmbH). It was changed to a limited partnership (GmbH & Co) on July 1, 1995.The aim of the EAN is to develop, manufacture, and sell guidance systems for navigation ofspace, air, ground, and sea vehicles.The EuroNav, for aircraft, and the EuroLocator, for land and sea vehicles, have successfullymade paths into new territory in the fields of guidance and navigation technology.

ETB: Education for Technology and Business GmbHThe ETB was founded in 1993 and is also located in our Hausen plant.Its aim is to perform educational measures which satisfy the exacting requirements ofexecutive and specialist personnel in the fields of technology and business.

DKU: Dr. Klaschka GmbH Elektronik und AutomationThe sister company, Dr. Klaschka GmbH in Donezk / Ukraine (DKU), founded in 1994, with40 employees at present, produces sensors for automation.Its aim is to manufacture series produced devices, supply the CIS with our products andperform customer service.

CharacteristicsSwitching behaviour

Output circuits

Protective measures

Versions satisfying requirements A and B always have protection against• reversal of any connections and interruption of L+ und L- connections,• short circuit overload (DC)• transient at switch-on• interference voltages and influences of radio transmitters and receivers

Regulations and testing procedures

The sensors in this selection list are manufactured in accordance with thefollowing IEC- und VDE standards:

DIN VDE 0660 part 208, part 100, part 100 A3, part 200,DIN EN 50 008, 50 010, 50 035, 50 026, 50 032, 50 036, 50 037, 50 038, 50 040,IEC 801 1 ... 4, IEC 255 - 4, IEC 947.

Certification and CE label

Since 1994, our devices are certified in accordance with ISO 9001 and carry theCE label for electromagnetic and low voltage compatibility (EMC) since January1, 1996. The EMC testing is performed in our own EMC laboratory, which is alsoavailable to our customers for testing their products.

Sensors for AutomationInductive Proximity Switches

Inductive proximity switches for machines and plantsare switches which require no mechanical contact, and hence are not subject tomechanical wear. They are used for registering motions of drives and machineelements, usually as limit switches. Because of their ruggedness (completelyencapsuled) and high permitted switching frequency, they can be used for manyother tasks, such as pulse generators for registering rotation speed.

Inductive proximity switches are normally used in applications demanding highswitching frequency, high actuation speed, switching point accuracy, andreliability.

The company “Industrielektronik Dr. Klaschka“, predecessor to the KlaschkaGmbH & Co, was the first on the market with an inductive proximity switch in1964. Today, the product range of the sensor family comprises more than 1,500types. The overview “Selected examples“ provided here illustrates some of thetypes normally available, even in large quantities, directly from stock.

In addition to the selection in this catalog, we carry a large number of standardand customer specific versions, for which we can send you technical data onrequest.

Method of function of inductive proximity switchesAn inductive proximity switch consists of an oscillator O with resonant circuit S,rectifier G, and output amplifier V.

The coil of the resonant circuit S is normally provided with a ferrite core which isopen at one end. The open end serves as the “active surface“ of the proximityswitch. Oscillator O produces a high frequency electromagnetic field, whichemanates from the open end of the ferrite core. A piece of metal B inserted intothis field, because of the induced eddy currents and alternating magnetisation,absorbs energy from it. This means that a piece of metal coming close enough tothe active surface of the sensor will stop the oscillations. The switch is said to be“damped“. As a result, the voltage after the rectifier G drops to zero and theswitching amplifier V alters the switching condition of the output A. Internalfeedback results in hysteresis and a „flip-flop“ characteristic of the switchingoperation.

The dimensions of the alternating field and thus the dimensions of the switchdetermine the switching distance of the sensor.

Requirement profile for inductive proximity switchesA. for PLC optimized applications

• Supply voltage range: 8 ... 30 VDC• Short circuit and reverse connection protected outputs with LED indicator,

2 conductors 1NO, 5 ... 60 mA or 3 conductors 1NO pnp ≤200 or ≤400 mA or4 conductors 1NO + 1 NC pnp, each ≤200 mA

• Switching frequency up to 3 kHz• Normal switching distance for standard flush mounting or augmented for

standard non-flush mounting, or maximized for flush mounting

B. for relay or contactor optimized applications• Supply voltage range: 90 ... 280 VAC• Short circuit and reverse connection protected outputs with LED indicator,

2 conductors 1 NO, 10 ... 240 mA• Switching frequency up to 10 Hz• Normal switching distance for standard flush mounting• in housings ≥18 mm Ø or ≥34 mm edge length

C. for NAMUR and DIN 19 234 applications• in explosion endangered areas, except in Zone 0• Voltage range: 7.7 ... 30 VDC• Output 2 conductor current loop connected to ZSN auxilliary device• Switching frequency up to 5 kHz (4 mm Ø)• Switching distances same as A.

D. for special applicationsadapted to the special requirements of automobile manufacturing, e.g.non-ferrous metal switches, double switches,magnetic field resistent or welding current immune versions,pressure resistent versions up to 300 bar,extended surface up to 2000 mm edge length and switching distances up to 500 mm, supply voltage ranges: 8 ... 65 VDC, 20 ... 320 VDC, relay isolated versions, etc.

B S

Inductive proximity switch

O G VA

Z

© by Klaschka GmbH & Co • Elektronik + Automation • Steinegger Str. • 75 233 Tiefenbronn - Lehningen • Tel. ++49(0)7234 940-0 • Fax ++49(0)7234 940 - 444Inductive Proximity Switches • Selection ALIA • Edition 9.01

2

2 pole proximity switchfor AC, 2 connections

Load E in either L1 or N line

L 1

N

P

S E

2 pole proximity switchfor DC, 2 connections

Load E in either L+ or L- line

L +

L -

P

S E

Permitted conductor resistance ≤ 100 Ω

Proximity switchconform with NAMUR

Switchingamplifier

+

-

P

O

3 pole proximity switchfor DC, 3 or 4 connections

Load E2, only for versions with 3 or 4 connections

L +

L -

P

S

O

M

E2

E1E1

Spannungsfall

Restspannung

P

M0 V

Betriebsspannung

Abstand s der Schaltfahne

Span

nung

u a

n de

r Las

t Schalterbedämpft

Schalterunbedämpft

Schaltverhalten eines plusschaltenden Schließers

HystereseVoltage drop

Residual voltage

P

M0 V

Operating voltage

Distance s of switching nose

Volta

ge u

acro

ss l

oad Switch

dampedSwitch

undamped

Switching behaviour of a positive switching NO sensor

Hysteresis

Inductive Proximity SwitchesType code

PrincipleA acousticD rotation speed Type dependent A proximity switchI inductive B non-ferrous metalK capacitive switchM magnetic field D double switch dependent F extended surface switchO optical G analog sensorP press. dependent M magn. field resistent PST temperature P pressure resistent PS dependent Q throw-through PSV speed S safety oriented PS

dependent T heat resistent PS

Supply voltageA analog output, 10 ... 30 VDCB DC two-pole, 8 / 10 ... 30 / 60 VDCD DC three-pole, four-pole, 8 / 10 ... 30 / 60 VDCF Frequency output (safety sensor)N NAMURP passive output (feeler)U AC/DC two-pole, 20...320 VDC a. 20...265 VACV AC two-pole, 20 .... 70 VACW AC two-pole, 20 / 90 ... 265 / 280 VAC

Housing Ø (cylinder), edge length (rectangular) in mm

Housing materiala aluminium g mica z pressure e stainless steel m brass moulded zincf moulded plastic s zinc coated steel

Housing formf flat r cylinder, smooth v rectangular,g cylindrical, q rectangular turnable surface threaded s special form

Total length, excluding cable box or spout

Mounting typeb flush n non flushm flush, maximized switching e not flush mountable, distance augmented switching dist.

Nominal switching distance in mm

Output positive switching Output negative switching1 NO, short circuit protected 6 NO, short circuit protected2 NC, short circuit protected 7 NC, short circuit protected3 NO, not short circuit protected 8 NO, not short circuit protected4 NC, not short circuit protected 9 NC, not short circuit protected5 push-pull output, NO, positive 0 push-pull output, NO, negative switching, NC, neg. switching switching, NC pos. switching

Combinations (examples) Analog output12 NO and NC 1 voltage 2 current 0 ... a1o2 NO or NC 3 current a ... b 4 passive

Connection type, plug or terminals - identified with one letterF flat plug (plug blade, AMP or other manufacturer)K clamp terminals, 3 poleL clamp terminals, 4 poleM clamp terminals, 5 poleN clamp terminals, 6 poleS plug, 4 - pole, size M 12, manufacturer A, B, H, LT plug, 5 - pole, size Ø 28 mm, manufacturer AU plug, 7 - pole, size Ø 30 mm, manufacturer A, H,V plug, 4 - pole, size M 18, manufacturer B, H, LW plug, 3 - pole, size M 8, manufacturer B, H, LX plug, 3 - pole, size M 6, manufacturer H, L, ToY special plug, see brief description, KBZ special plug, see brief description, KB

Manufacturers: A = Amphenol - Tuchel, B = Binder, H = Hirschmann, L = Lumberg, To = TorsonFor diagrams and connector assignments, see Accessories, chapter M..

Type of connectionconductor lead-out

Identification with 2letters

directvia kink protectionvia hose spoutvia threaded conduit

Cable material

PVCnormal

NDNKNTNV

PVCvery

flexible

HDHKHTHV

PURvery

flexible

PDPKPTPV

Siliconerubber

GDGKKTGV

Teflonor

special

TDTKTTTV

Indicator no character no indicator A 1 LED indicator B 2 LED indicator

Version numbers, begin with 1

Arrangement of type code

The type code consists of 3 blocks separated bydashes.

1. block:

- physical principle of operation,- type of sensor, for example: proximity switch

analog sensor, heat resistent switch,- type and range of supply voltage.

2. block:

- diameter of housing (cylindrical form) edge length (rectangular form) in mm,

- housing material,- housing form,- total length excluding connector parts,- type of mounting,- nominal switching distance.

The exact dimensions of the housings andaccessories can be found in the appropriatechapters.

3. block:

- type of output,- type of connection,- consecutive version number,- information about the LED indicator.

The type code used here is so conceived as toprovide an easily followed clear sequence of theproducts under the usual sorting critera (alphabet,increasing integers)

Length of connecting cable in m

I A D - 12 m g 55 b 5 - 1 M 2 A 2

© by Klaschka GmbH & Co • Elektronik + Automation • Steinegger Str. • 75 233 Tiefenbronn - Lehningen • Tel. ++49(0)7234 940-0 • Fax ++49(0)7234 940-444Inductive Proximity Switches • Selection ALIA • Edition 9.01

3

Inductive Proximity SwitchesDefinitions

Switching characteristic definitionssee also IEC 947 or VDE 660 part 208.

Switching distance, s is the distance at which a reference plate approaching theactive surface causes a signal change. Active surface is the surface from whichthe high frequency electromagnetic field emanates. Reference plate is an objectused for comparative measurement of the switching distances. The surface of thereference plate is kept parallel to the active zone.

The switching distance depends on the size of the active surface and the size,form, and material of the actuating element. The VDE standard 660 part 208defines, in addition to the usefull switching distance s, the nominal switchingdistance sn, the real switching distance sr, and the operating distance sa, asmeasured using a standard reference plate.

The standard reference plate is a square piece of St 37 steel of 1 mm thicknessand edge length = Ø of the active surface or 3 x nominal switching distance (thelarger of the two values).

1.21 sn1.10 sn1.00 sn0.90 sn0.81 sn

1 2

Actuating element:standard meas. plate

The real switching distance sr is mea-sured at nominal voltage and room tem-perature: 0.9 sn ≤ sr ≤ 1.1 sn.

Its tolerance zone accounts for the per-mitted manufacturer´s tolerance.

The useful switching distance s ac-counts for external influences such assupply voltage, temperature, and moun-ting: 0.81 sn ≤ s ≤ 1.21 sn.

sn = Nominal switching distance

1

The operating distance sa = 0 ... 0.81 sn represents thedependable operating range.

Proximity switch

Active surface

3

Free zone is the space around the switch which must be kept free of metalobjects, which would degrade the switching distance.

A proximity switch is flush mountable if mounting surrounded by metal up to thelevel of the active surface is permissible. The distance to neighbouring proximityswitches must be e ≥ 2 Ø.

A proximity switch is non-flush mountable if a free zone is necessary topreserve its operating characteristics. This is the case with proximity switcheswith augmented switching distance where lateral emanation of the alternatingfield can be tolerated. The following rules must be observed in designing the freezone:

Mounting requirements

Switches with normal switching distance bMounting flushDistance between centers of switches e ≥ 2 Ø

Switches with augmented switching distance nMounting non-flushDistance between centers of switches e ≥ 6 switching distance

Switches with maximized switching distance mMounting flushDistance between centers of switches e ≥ 4 Ø


4

Reproducibility is the repetition accuracy of at least 2 measurements of the swit-ching distance within a time interval of 8 hours at a housing temperature between+15° and +30° and a voltage between 95 and 105% of the nominal voltage. Withswitches of Ø ≤ 12 mm, the difference between two measurements must be lessthan ±10%. With larger switches, this difference must be less than ±5 %.

Switching hysteresis H is the difference between the switch-on and switch-offpoints with an approaching and a receding reference plate. For all proximityswitches, 0.03 sn ≤ H ≤ 0,2 sn.

Switching radius is the distance of the switching point from the central axis ofthe active surface when the measuring plate approaches radially (from the side)at an axial distance of 0.

The characteristic response curves depend on the size and type of the coil ofthe resonant circuit and of the ferrite core material. In the case of cylindrical coils,the field is cylindrically symmetrical and can be illustrated two dimensionally by across sectional diagram through the Z axis:

X = X axis, Z = Z axis, s = switching distance, r = switching radius,A = approach switching point, B = recede switching point,

sA, sB = characteristic response curve,Hx, Hz = switching hysteresis in X direction, in Z direction,

Ø = diameter of proximity switch and of measuring plate

Standard reference plate

Hz

- r + r

X

Z

As

sA

sB

HxsA sB

active surface of proximity switch

B

Ø

Flush mounted (b)normal switching

distance

Non-flush mounted (n)augmented

switching distance (e)

Flush mountedmaximized

switching distance (m)

Zs

r

Z

sr

Zs

r

h ≥ 3 se ≥ 2 Ø

Metal

Ø Ø

Actuating element

Sensor 1 Sensor 2

f ≥ 3 s e ≥ 6 s

g ≥ 2 s

h ≥ 3 s

Metal

Ø Ø

Operating element

Sensor 2Sensor 1

-25 0 +25 +50 +75 °C Switc

hing

dis

tanc

e

1,2

1,0

0

Ambient temperature T

Deviation among specimens

The temperature dependence of the switching distance s in the indicatedpermissible ambient temperature range is given by an empirically determinedfunction, s = f(T):

Inductive Proximity SwitchesDefinitions

4

Technical data for NAMUR - IAN proximity switches

Supply voltage range: 7.7 ... 8.2 ... 30 VDCOutput functions of standard versions: 1 NC, without hysteresisOutput functions of versions with LED indicator: 1 NO, without hysteresisNominal load resistance: 1 kΩ, ±10 Current consumption at 8.2 V, 1 kΩ

switch damped: ≤ 1 mAswitch undamped: ≥ 2.5 mA maximum value: 10 mA

Permissible cable resistance: ≤ 100 ΩNAMUR operating data

conform with DIN 19 234 and EN 50 014 / 020measured switching distance at 1.8 mA 8.2 VDC, 1 kΩ, 20 °C

General technical data for inductive proximity switches

Maximum permissible residual ripple of supply voltage for DC proximity switches: 10 %Protection against reverse voltage built inProtection against interference voltages built inSwitch-on transient suppression: built inAmbient temperature range:

in operation - 25 ... + 75 °Cstorage - 40 ... + 85 °C

Switching point s:Hysteresis H ≈0.03 s ≤ H ≤ 0.2 sRepetition accuracy: ≤ 10 %

with stable supply voltageand ambient temperature ≤ 0.5 %

Degradation factors:with V2A steel 0.7 / 0.8with Al 0,4 / 0,5with Cu 0.3 / 0.4with brass 0.4 / 0.5

Maximum cable length: 300 mLED indicator: built inShort circuit protection: built inShock resistance / duration: 30 g / 18 msVibration resistance / amplitude: 55 Hz / 1 mm

© by Klaschka GmbH & Co • Elektronik + AutomationInductive Proximity Switches • Selection ALIA • Edition 9.01

Switching frequencyThe maximum switching frequency given in the technical data is the maximumpossible number of switching cycles per second. The diagram illustrates the mea-surement arrangement for determining the switching frequency according to IEC947:

Changes in the conditions indicated in the diagram with respect to, for example, theactive surfaces, spaces between the surfaces, adjusted distance, etc., will result indegradation of the values indicated in the catalog. The upper limit of the switchingfrequency is caused mainly by the time required for starting the high frequencyoscillator and the rest of the associated circuitry. This results in an inverserelationship between the speed and the switching distance. The graph shows theswitching distance s as a function of the speed of the actuating element in the Xdirection and as a function of the switching frequency.

Curve a: using IEC prescribed arrangement as illustrated above. Curve b: with singleactuating element.

n Proximityswitch

Referencewheel

of St 37

2 x m

m = dt ≥ sn

d

t

s

m

n

Switc

hing

dis

tanc

e

sn

Speed v in X directionor rotation speed n, switching frequency f

v max, n max, f max00

a

bs = f (v)s = f (n)s = f (f)

Inductive Proximity SwitchesSelected Types

IAN-6,5mr45n2-4ND1/2Ref. No. 11.29-08-020 AB 2

Ø 6.5 mm, brass2 mm, non-flush

IP 67, 40 g

Ø 6.5

4645

IAN-6,5mr45b1-4ND1/2Ref. No. 11.29-07-020 AB 2

Ø 6.5 mm, brass1 mm, flushIP 67, 40 g

Ø 6.5

45

Ø 6.5 mm, stainless steel1.5 mm, flush

IP 67, 36 g

IAD-6,5er45b1,5-1ND1A2Ref. No. 11.32-52-020 AB 7

5 ... 24 ... 36 V DC≤ 200 mA< 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

Ø 6.5

45

LED

Ø 4 mm, stainless steel0.8 mm, flush

IP 67, 25 g

CableStandard length: 2.0 m

other lengths on requestext. Ø = 3 mm

conductors: 3 x 0.15

IAD-4er25b0,8-1ND1A2Ref. No. 11.32-51-020 AB 7

5 ... 24 ... 36 V DC≤ 200 mA< 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

Ø 4.0

LED

2518


5










Inductive Proximity switchesSelected types

OAS/L/A - m12rg - II/1kkSach-Nr. 11.20-01 (AB 7)

OAS/L/A - m12rg - II+IV/3kk*)Sach-Nr. 11.22-11 (AB 8)

8 ... 24 ... 30 V DC≤ 400 mA, *) ≤ 200 mA

≤ 10 mA≤ 2,5 V, *) ≤1,5V

≤ 3 kHz≥ 0,1 ms

(5)

Type DC, NAMUR, 2-pole, 1 NC or 1 NORef. No. Connection diagram (AB x), see page 2

Type DC, 2-pole, 1 NORef. No. Connection diagram (AB x), see page 2

Supply voltage rangeLoad current range

Idle currentVoltage drop

Switching frequencyMinimum damping time

Size, housing material (see page 1)Switching distance, mounting requirements (see page 2)

Type of protection, weight

Dimension diagram

all dimensions in mm

For type designations, see type code, page 1

Dimensions

Plug diagram Connecting cable

Type DC, 3-pole, 1 NO or 1 NCRef. No. Connection diagram (AB x), see page 2

Type DC, 3-pole, 1 NO or 1 NC, (variant)Ref. No. Connection diagram (AB x), see page 2

Supply voltage rangeLoad currentIdle current

Voltage dropSwitching frequency

Minimum damping time

Type DC, 4-pole, 1 NO + 1 NCRef. No. Connection diagram (AB x), see page 2

Type DC, 4-pole, 1 NO + 1 NC (variant)Ref. No. Connection diagram (AB x), see page 2




Type AC or universal voltage, 2-pole, 1 NORef. No. Connection diagram (AB x), see page 2

Type AC or universal voltage, 2-pole, 1 NO and / or 1 NORef. No. Connection diagram (AB x), see page 2




© by Klaschka GmbH & Co • Elektronik + AutomationInductive Proximity Switches • Selection ALIA • Edition 9.01


IAD-8eg60b1,5-1W1ARef. No. 11.32-56 AB 5

5 ... 24 ... 36 V DC≤ 200 mA≤ 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

M 8 x 1

40

60LED

M 8

M 8 x 1, stainless steel1.5 mm, flush

IP 67, 15 g

IAD-8eg60n2,5-1W1ARef. No. 11.32-57 AB 5

5 ... 24 ... 36 V DC≤ 200 mA≤ 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

M 8 x 1, stainless steel2.5 mm, non-flush

IP 67, 15 g

M 8 x 1

4

3660

LED

M 8

Ref. No. s A L

11.14-50-020 1.5 40 4211.32-54-020 2.5 41 45

M 8 x 1, stainless steels =... mm, non-flush

IP 67, 40 g

M 8 x 1

A

LED

L

IAN-8eg42n1,5-4ND1/2Ref No. 11.14-50-020 AB 2

IAD-8eg45n2,5-1ND1A2Ref. No. 11.32-54-020 AB 7

5 ... 24 ... 36 V DC≤ 200 mA≤ 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms




IAD-8eg45b1,5-1ND1A2Ref. No. 11.32-53-020 AB 7

5 ... 24 ... 36 V DC≤ 200 mA≤ 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

L

M 8 x 1

LED

M 8 x 1, stainless steels =... mm, flush

IP 67, 40 g

IAN-8eg40b1-4ND1/2Ref. No. 11.02-61-020 AB 2

Ref. No. s L

11.02-61-020 1 4011.32-53-020 1.5 45




M 8 x 1, brass1 mm, flushIP 67, 40 g




M 8 x 1

40

IAD-8mg40b1-3PD1/2 Ref. No. 11.22-08-020 AB 7

10 ... 24 ... 30 V DC≤ 200 mA≤ 15 mA

≤ 2 V≤ 3 kHz≥ 0.1 ms

M 8 x 1, stainless steel1 mm, flushIP 67, 20 g

IAD-8eg70b1-1S1A Ref. No. 11.22-50 AB 5

10 ... 24 ... 30 V DC≤ 200 mA≤ 10 mA

≤ 2 V≤ 3 kHz≥ 0.1 ms

1

4

3

2

LEDPlug 3

A (bk)

M(bl)

P(bn)

Plug 9

A (bk)

M(bl)

P(bn)

Plug 9

70

M 8 x 1

40

LED

M 12 8


6




conductors: 3 x 0,15

IAD-8mq40b1,5-1ND1A2Ref. No. 11.32-55-020 AB 7

5 ... 24 ... 36 V DC≤ 200 mA≤ 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

LED

20

2.58

5

40

M 3 x 0.5

8 x 8 mm, brass1.5 mm, flush

IP 67, 38 g

IAD-8mq60b1,5-1W1Ref. No. 11.32-58 AB 5

5 ... 24 ... 36 V DC≤ 200 mA≤ 10 mA

≤ 1 V≤ 2 kHz≥ 0.1 ms

8

5

5060

20

2.5

10

M 3 x 0.5

8 x 8 mm, brass1.5 mm, flush

IP 67, 19 g

A (bk)

M(bl)

P(bn)

Plug 9

88

M 8


7


M 12 x 1, brass5 mm, non-flush

IP 67, 25 g

IAD-12mg60n5-12S1ARef. No. 11.22-23 AB 6

8 ... 24 ... 30 V DC≤ 200 mA≤ 10 mA ≤ 1.5 V≤ 1 kHz≥ 0.3 ms


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

1

4

3

2

LEDPlug 3

30

10

60

M 12 x 1

SW 17

8

LED

IAD-12mg60m4-1S1ARef. No. 11.25-03 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms


1

4

3

2

LEDPlug 3

LED

SW 17

M 12 x 1

40

60

8

IAN-12fg40b2-4NK1/2Ref. No. 11.02-62-020 AB 2


other lengths on requestext. Ø = 4.8 mm


M 12 x 1, plastic2 mm, flushIP 67, 80 g

SW 17

M 12 x 1

40

55

IAN-12fg40n5- 4NK1/2Ref. No. 11.02-47-020 AB 2

M 12 x 1, plastic5 mm, non-flush

IP 67, 80 g

SW 17

M 12 x 1

40

55

IAD-12eg60b2-12S2ARef. No. 11.24-89 AB 6

8 ... 24 ... 30 V DC≤ 200 mA≤ 10 mA≤ 1.5 V≤ 3 kHz≥ 0.1 ms

M 12 x 1, stainless steel2 mm, flushIP 67, 30 g

LED

SW 17

M 12 x 1

40

60

8

1

4

3

2

LEDPlug 3

IMD-12mg60b2-1S1ARef. No. 11.24-13 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms

Ref. No. 11.24-13Magnetic field proof version

in brass housing


IAD-12mg50b2-1S1ARef. No. 11.20-73 AB 5


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms


8 ... 24 ... 30 V DC≤ 200 mA≤ 10 mA≤ 1.5 V≤ 3 kHz≥ 0.1 ms

1

4

3

2

LEDPlug 3

SW 17

M 12 x 1

A

L

8

LED

Ref. No. A L

11.20-73 30 5011.22-12 39 6011.25-85 40 60


8









SW 17

M 12 x 1

40

65

LED

50

IAD-12fg50b2-1NK1A2Ref. No. 11.32-61-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms


IAN-12mg30b2-4NK1/2Ref. No. 11.02-41-020 AB 2

SW 17

M 12 x 1

AL

LED

IAD-12mg40b2-1NK1A2Ref. No. 11.20-67-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms





SW 17

M 12 x 1

40

65

LED

50

IAD-12mg50b2-1PK1A2Ref. No. 11.22-42-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms



conductors: 3 x 0.34PUR cable


IAD-12mg45b2-1NK1A2Sach-Nr 11.32-17-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms

SW 17

4045

LED 60

Starwasher

M 12 x 1M 12 x 1




IAD-12fg50n5-1NK1A2Ref. No. 11.32-62-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms


IP 67, 70 g

SW 17

M 12 x 1

40

LED

5065

IAN-12mg40n5- 4NK1/2Ref. No. 11.14-09-020 AB 2


IP 67, 80 g

SW 1730

55

10

M 12 x 1

Ref. No. A L

11.02-41 30 4511.20-67 40 55


9











conductors 3 x 0.34PUR cable

IAD-12mg60m4-1PD1A2Ref. No. 11.25-81-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 12 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

SW 17 40

LED

60

M 12 x 1



conductors 3 x 0.3411.22-11: kink protection spout


75

SW 17

M 12 x 1

4060

LED

IAD-12mg60b2-1NT1A2Ref. No.11.20-01-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 3 kHz≥ 0.1 ms


8 ... 24 ... 30 V DC≤ 200 mA≤ 10 mA≤ 1.5 V≤ 3 kHz≥ 0.1 ms



conductors 3 x 0.34


IP 67, 90 g

IAD-12mg60n5-1NK1A2Ref. No. 11.20-15-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

6075

30

10

SW 17

M 12 x 1

LED

© by Klaschka GmbH & Co • Elektronik + Automation • Steinegger Str. • 75 233 Tiefenbronn - Lehningen • Tel. ++49(0)7234 940-0 • Fax ++49(0)7234 940 - 444Inductive Proximity Switch • Selection ALIA • Edition 9.01

10


Ref. No. A B L

11.22-03 39.5 51 6011.22-06 29.5 41 5011.25-86 50 57 70

Ref. No. A B L

11.22-16 19.5 41 5011.22-17 29.5 51 6011.22-91 50 70 80



8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

M 18 x 1, brass (steel)5 mm, flushIP 67, 35 g

L

SW 24A

B

LED

M 18 x 1

M 12 x 1

IAD-18sg60b5-12S1ARef. No. 11.22-03 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

1

4

3

2

LEDPlug 3



8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 200 Hz≥ 1 ms


IP 67, 30 g

L

SW 24 AB

LED

M 12 x 1

M 18 x 1

10


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 200 Hz≥ 1 ms

1

4

3

2

LEDPlug 3

IAD-18mg100b5-1T1ARef. No. 11.17-89 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms


11.21-02: also availablewith plug assignment

conformwith DIN EN 50044

SW 24

M 18 x 1

60

100

LED ø28

IAD-18mg100b5-12T1ARef. No. 11.18-33 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

14

23

5

Plug 1

ISW-18mg100b5-3T1ARef. No. 11.15-93 AB 9

90 ... 230 ... 280 V AC10 ... 240 mA

≤ 4 mA≤ 10 V≤ 10 Hz≥ 30 ms


SW 24A

L

M 18 x 1

LED4 sided

M 12 x 1



8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

1

4

3

2

LEDPlug 3

Ref. No. A L

11.25-97 50 7011.32-59 30 45


other lengths available onrequest

ext. Ø = 3 mmconductors: 3 x 0.15

IAD-18fg80b5-1NK1A2 Ref. No. 11.17-12-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms


IAN-18fg50b5-1NK1/2 Ref. No. 11.14-24-020 AB 2

SW 24

M 18 x 1

LED

L

AB

Ref. No. A B L

11.14-24-020 50 50 6511.17-12-020 60 80 95


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 200 Hz≥ 1 ms


IP 67, 90 g

IAN-18fg50n10-1NK1/2 Ref. No. 11.14-27-020 AB 2

SW 24

M 18 x 1

L

AB

Ref. No. A B L

11.14-27-020 50 50 6511.20-95-020 60 80 95

LED

11.22-03: steel housing


11



SW 24

M 18 x 1

LED

5070

IAD-18mg70m8-1PD1A2Ref. No.11.25-82-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

CableStandard length : 2.0 mother lengths on request

ext. Ø = 3 mmconductors: 3 x 0,15

PUR cable

IAD-18mg85n10-1NT1A2Ref. No. 11.20-75-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 200 Hz≥ 1 ms


IP 67, 130 g

SW 24

M 18 x 1

L

AB

10

IAN-18mg55n10-1NT1/2Ref. No. 11.14-23-020 AB 2

CableStandard length : 2.0 mother lengths on request

ext. Ø = 3 mmconductors: 3 x 0.15

ISW-18mg85b5-3NT1A3Ref. No. 11.19-10-030 AB 11

90 ... 230 ... 280 V AC10 ... 240 mA

≤ 4 mA≤ 10 V≤ 10 Hz≥ 30 ms

Standard cable lengthsDC : 2.0 m, AC : 3.0 m


conductors: 3 x 0.1511.19-10 : metal spout

IAD-18mg85b5-1NT1A2Ref. No. 11.20-02-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V≤ 1 kHz≥ 0.3 ms

M 18 x 1, brass (steel)5 mm, flushIP 67, 150 g

IAN-18mg50b5-1NT1/2 Ref. No. 11.02-56-020 AB 2

SW 24

M 18 x 1

L

AB


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2´.5 V≤ 1 kHz≥ 0.3 ms

Ref. No. A B L

11.02-56-020 35 50 6511.20-02-020 60 85 10011.18-32-020 60 85 10011.19-10-030 60 85 100

Ref. No. A B L

11.14-23-020 35 55 7011.20-75-020 50 85 100

LEDonly with11.19-10

LED


12


IAD- 30sg80b10-12S1ARef. No. 11.22-04 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

M 30 x 1.5, steel10 mm, flushIP 67, 100 g

SW 36

M 30 x 1.5

A

LB


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

IAD-30sg95b10-1T2ARef. No. 11.18-19 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

M 30 x 1.5, steel10 mm, flushIP 67, 150 g

IAD-30sg95b10-12T2ARef. No. 11.18-45 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

14

23

5

Plug 1

SW 36

M 30 x 1.5

60

95

LEDø28

ISW-30sg95b10-3T1ARef. No. 11.19-11 AB 6

90 ... 230 ... 280 V AC10 ... 240 mA

≤ 4 mA≤ 10 V≤ 10 Hz≥ 30 ms

M 30 x 1.5, brass (steel)10 mm, flushIP 67, 150 g

M 12 x 1

LED

SW 36

M 30 x 1.5

A

LB



8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

M 30 x 1.5, brass15 mm, flushIP 67, 150 g

M 12 x 1

LED

SW 36

M 30 x 1.5

50

7057


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 150 Hz≥ 2 ms

IAD-30sg80n20-12S1ARef. No. 11.22-05 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 150 Hz≥ 2 ms

M 30 x 1.5, brass (steel)20 mm, non-flush

IP 67, 100 g

M 30 x 1.5

BL

15

SW 36 A

M 12 x 1

LED

Ref. No. A B L

11.22-05 34 66 8011.32-36 30 50 65

1

4

3

2

LEDPlug 3

1

4

3

2

LEDPlug 3

1

4

3

2

LEDPlug 3

1

4

3

2

LEDPlug 3

Ref. No. A B L

11.25-88 50 57 7011.22-19 30 36 50


Ref. No. A B L

11.22-86 60 82 9511.22-04 49 66 80



13

M 12 x 1

LED


M 30 x 1.5, brass (steel)20 mm, non-flush

IP 67, 265 g

SW 36

LED

45

9980

M 30 x 1.5

15

IAD-30sg80n20-1NT1A2Ref. No. 11.22-10 -020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 150 Hz≥ 2 ms

M 30 x 1.5, brass (steel)10 mm, flushIP 67, 280 g

Standard cable lengthsDC : 2.0 m, AC : 3.0 m


conductors: 3 x 0.7511.18-71: ext. Ø = 6.3 mm


IAD-30sg80b10-12NT1A2Ref. No. 11.18-71-020 AB 8

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

IAD-30sg80b10-1NT1A2Ref. No. 11.20-03-020 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

SW 36

M 30 x 1.5

LED

60

99

80

ISW-30sg80b10-3NT1A3Ref. No. 11.19-12-030 AB 11

90 ... 230 ... 280 V AC10 ... 240 mA

≤ 4 mA≤ 10 V≤ 10 Hz≥ 30 ms

IAN-30fg80n15-4NK1/2Ref. No. 11.29-10-020 AB 2

SW 36

M 30 x 1.5

60

LED

95

80

M 30 x 1.5, plastics =... mm, non-flush

IP 67, 180 g


8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 150 Hz≥ 2 ms

M 30 x 1.5, plastic10 mm, flushIP 67, 180 g

IAN-30fg80b10-4NK1/2Ref. No. 11.29-09-020 AB 2

SW 36

M 30 x 1.5

60

95

LED

80



conductors: 4 x 0.5

IAD-30fg80b10-12NK1A2Ref. No. 11.16-50-020 AB 8

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

M 30 x 1.5, brass10 mm, flushIP 67, 185 g

IAN-30mg30b10-4NK1/2Ref. No. 11.29-11-020 AB 2

M 30 x 1.5

47SW 36 30

M 30 x 1.5, brass15 mm, non-flush

IP 67, 180 g

62SW 36 30

M 30 x 1.5

15

IAN-30mg45n15-4NK1/2Ref. No. 11.29-12-020 AB 2

Ref. No. s

11.29-10-020 1511.17-62-020 20


14



conductors: 4 x 0.5



conductors: 2 x 0.5



conductors: 2 x 0.5





IAD-40fq75b15-1T1ARef. No. 11.16-12 AB 5

IAD-40fq75b15-1T2ARef. No. 11.17-32 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 200 Hz≥ 1.5 ms

11.17-32: Active surface,front view

14

23

5

Plug 1

40 x 40 x 75 mm, plastic15 mm, flushIP 67, 180 g

IAD-40fv114b15-12L1B2Ref. No. 11.25-52-020 AB 8

10 ... 24 ... 45 V DC≤ 400 mA≤ 20 mA≤ 2.5 V

≤ 200 Hz≥ 1.5 ms

40 x 40 x 114 mm, plas.15 mm, flushIP 67, 220 g

IAD-40fv114n25-12L1BRef. No. 11.25-53-020 AB 8

8 ... 24 ... 30 V DC≤ 400 mA≤ 15 mA≤ 2.5 V

≤ 100 Hz≥ 3 ms

40 x 40 x 114 mm, plas.25 mm, non-flush

IP 67, 220 g

IAD-40fv114b15-12S1BRef. No. 11.25-66 AB 8

10 ... 24 ... 45 V DC≤ 400 mA≤ 20 mA≤ 2.5 V

≤ 200 Hz≥ 1.5 ms

40 x 40 x 114 mm, plas.15 mm, flushIP 67, 220 g

x = Cable feed-outwith angled box

14

23

5

Plug 1

40 x 40 x 114 mm, plas.25 mm, non-flush

IP 67, 220 g

IAD-40fv114n25-12T1BRef. No. 11.24-08 AB 6

8 ... 24 ... 30 V DC≤ 400 mA≤ 15 mA≤ 2.5 V

≤ 100 Hz≥ 3 ms

3

Cable feed-in: armoured conduit ,13.5 mm

LED

30

40 40

5.3

45

60

7.3

7.3

114

31

Active surface

8 13

LED

75

40 40

20 2064

45

30 30

3

LED

30

40 40

5.3

45

60

7.3

17

114

31

x

3

LED

40 40

5.3

45

60

7.3

114

31

30 30


15

1

4

3

2

LEDPlug 3


IAD-80fr70n50-1T1A Ref. No.11.03-98 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 100 Hz≥ 4 ms

14

23

5

Plug 1

ISW-80fr70n50-1T1A Ref. No. 11.15-31 AB 5

90 ... 230 ... 280 V AC10 ... 240 mA

≤ 4 mA≤ 10 V≤ 10 Hz≥ 30 ms

ø 80 mm, plastic50 mm, non-flush

IP 67, 600 g

IAD-80fr70e80-1T3A Ref. No. 11.03-21 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 100 Hz≥ 4 ms

Adjustable switching distance

14

23

5

Plug 1


IP 67, 600 g

IAD- 80fr70n50-1NT1A5Ref. No. 11.03-94-050 AB 7

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 100 Hz≥ 4 ms




LED

M8

Ø80

94

70 32

22


IP 67, 950 g

LED

22

M8

Ø80

98

70 3270

LED

22

M8

Ø80

98

32Potentiometer

IAD-80fr70n50-1S1A Ref. No. 11.25-92 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 100 Hz≥ 3 ms


IP 67, 600 g

M8

Ø80

7032LED

LED5.3

Activesurface

10

40

6580 40

120

14

23

5

Plug 1

IAD-80fq40n40-1T1ARef. No. 11.16-30 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 100 Hz≥ 4 ms


IP 67, 450 g

M 12 x 1


16

1

4

3

2

LEDPlug 3


Plug 1

IAD-34zq65b12-1T3A Ref. No. 11.03-15 AB 5

8 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

ISW-34zq65b12-3T1A Ref. No. 11.15-30 AB 9

90 ... 230 ... 280 V AC10 ... 240 mA

≤ 4 mA≤ 10 V≤ 10 Hz≥ 30 ms

14

23

5

34 x 50 x 65 mm, Zn12 mm, flushIP 67, 300 g

6,6

36

Active surface M6 thread

8

Rotatable pluginsert

18

x

50

39

65LED

34

ø 28

IAD-34zq65b12-1S1ARef. No. 11.25-90 AB 5

10 ... 24 ... 30 V DC≤ 400 mA≤ 10 mA≤ 2.5 V

≤ 300 Hz≥ 1 ms

34 x 50 x 65 mm, Zn12 mm, flushIP 67, 300 g

x = cable length with angled box

M12x1

6,6

36

10

Active surface M6 thread

8

x

50

39

65LED

34

1

4

3

2

LEDPlug 3

IDD-17fq50b7-11NK1B2Ref. No. 11.24-29-020 AB 17

8 ... 24 ... 30 V DC≤ 400 mA≤ 20 mA≤ 2.5 V

≤ 300 Hz≥ 0.5 ms

40 x 17 x 50 mm, plastic7 mm, flushIP 67, 150 g

20Ø4.3Ø7 17

LED

Actuation zonesa b

a b

40

3025

50





17

Inductive Proximity Switches Connection Diagrams (AB x)

Connection diagram AB 2NAMUR standard version as NC: - DC 2-pole,1 NCNAMUR special version as NO:- DC 2-pole,1 NO, 1 LED

L +

L –4 blue

3 black

Nor E

Connection diagram AB 5DC 3-pole, 1 NO

Numbers without brackets: 5-pole Tuchel plugNumbers in brackets: 4-pole miniature plug

*) only with metal housings with Tuchel plug

E

3 (1)

4 (4)

1 (3)

5

L +

L -

PE

Connection diagram B 8DC 4-pole, 1 NO and 1 NC (complementary)

L –

L +1 brown

3 blue

2 black 2

4 black 1

E

E


L +

L –

1

4 E

Connection diagram AB 4 (VDE 0660 conform) DC 2-pole1 NO

L +

L –4 black

1 brown

E

Connection diagram AB 1NAMUR - standard version as NC: - DC 2-pole,1 NCNAMUR - special version as NO:- DC, 2-pole,1 NO, 1 LED

L +1

4Nor L –E


L –

4 black

L +1 brown

3 blue

E

Connection diagram AB 9AC 2-pole, 1 NO

*) Only with metal housingPE

4

L 13

5 *)

E N

~

Connection diagram AB 12AC 2-pole, programmable 1 NO or 1 NC

PE

4 blue

L 13 brown

5 *) yellow / green

E N

*) only with metal housing

or

~

Connection diagram AB 15Universal voltage, 2-pole 1 NO

PE

4 blue

L 13 brown

5 *) yellow / green

E N


Connection diagram AB 14universal voltage, 2-poleprogrammable 1 NO or 1 NC

*) only with metal housingPE

4

L 13

5 *)

E N

or

_~


*) only with metal housingPE

4

L 13

5 *)

E N

~

Connection diagram AB 16universal voltage 2-pole, programmable, 1 NO or 1 NC

PE

4 blue

L 13 brown

5 *) yellow / green

E N


or

_~

Connection diagram AB 10AC 2-pole, programmable: 1 NO or 1 NC

*) only with metal housing PE

4

L 13

5 *)

E N

or

~


PE

4 blue

L 13 brown

5 *) yellow / green

E N


~

Connection diagram AB 6DC 4-pole, 1 NO and 1 NC (complementary)

Numbers without brackets: 5-pole Tuchel plugNumbers in brackets: 4-pole miniature plug

*) only with metal housing with Tuchel plug

2 (2)

1 (3)

3 (1) L +

L -5 *) PE

E4 (4)

E

_~


18


L –

L +brown

blue

white

black

E 2

E 1

b

a

Inductive Proximity SwitchesCover Caps Plug Connectors

Size M 12 x 1 upwardsPlug 15 poles

5 pole cable box Lateral cable feed-out

Amphenol, Binder

SPF5-178.02-13

Crimp connection

SPF5-278.02-15

Screw connection

TypeRef. No.

Cable (No. of strandsl, material, cable length)connection

number of LEDssuitable for switch output

TypeRef. No.

Cableconnection


TypeRef. No.

Cableconnection


TypeRef. No.

Cableconnection


TypeRef. No.

Cableconnection


TypeRef. No.

Cableconnection


TypeRef. Nor.

Cableconnection


14

23

5

Ø 28

15

29.5

±0.2

76.5 ± 0.2

≈ 30

M4Pg 11

14

27.5

± 0.

3

Plug connectors applicable withPlug number

Number of polesDesignation

Cable feed-outManufacturer

Dimension diagram


Plug diagram

Type GZK-t1894.08-59

IAX-18rg ... b and ... mg = M 18 x 1d = 22 mmh = 9 mm

Type GZK-t18e94.08-64

IAX-18rg ... n and ... eg = M 18 x 1d = 22 mmh = 15 mm

Type GZK-t3094.08-60

IAX-30rg ... b and ... mg = M 30 x 1.5

d = 34 mmh = 9 mm

Type GZK-t30e94.08-65

IAX-30rg ... n and ... eg = M 30 x 1.5

d = 34 mmh = 23 mm

h

g

d

1

Tefloncover caps

for protecting active surface

Dimension diagram



19

Inductive Proximity SwitchesPlug Connectors

Size M 8 x 1 upwardPlug 9

No. of poles: 3Cable box: 3-pole

Cable feed-out: lateralBinder, Lumberg

Size M 8 x 1 upwardPlug 9


Cable feed-out: axialBinder, Lumberg

SPF3-4/278.52-45

3 cond., PUR, 2 m

SPF3-6/278.52-56

3 cond., PUR, 2 m

SPF3-5/278.52-51

3 cond., PUR, 2 m

1 LED gn, 1 LED yelpnp

Size M 8 x 1 upwardsPlug 3


Cable feed-out: axialBinder, Lumberg

SPF4-20/578.53-02

3 cond., PUR, 5 m

SPF4-29/578.52-30

3 cond., steel re-inforced PVC, 5 m

SPF4-17/278.02-95

4 cond., 2 m

SPF4-18/578.02-98

3 cond., 5 m

Size M 8 x 1 upwardsPlug 3


Cable feed-out: lateralBinder, Lumberg

SPF4-19/278.53-06

4 cond., PUR, 2 m

SPF4-21/578.52-10

3 cond., PUR, 5 m

SPF4-25/578.52-17

3 cond., PUR, 5 m


SPF4-27/378.52-22

3 cond., 3 m


SPF4-27/578.52-23

3 cond., 5 m


SPF4-28/678.52-27

3 cond., PVC, radiation shielded, 6 m


SPF4-28/878.52-28

3 cond., PVC, radiation shielded, 8 m


14.5

Insertion depth inpin part: 9 mm Internal thread:

M12x1

25.5

1.5

1227

42

ø 10.5

ø 8.8

Insertion depth in pin part: 9 mm

LED

26.5

12

12

1.5

Internal thread:M12x1

ø8.8

ø 10

.5

3145°

14.5 7

21


21

7

21



21


M 12x1

1

4

3

2

LED

M 12x1

1

4

3

2

LED

M 8x1

A (bk)

M(bl)

P(bn)

M 8x1

A (bk)

M(bl)

P(bn)


20

Inductive Proximity SwitchesAuxilliary Devices

Dimension diagramall dimensions in mm

ZSN Universal Auxilliary Device

The ZSN 1/dc - 1.60 universal auxilliary device is used for providing electricalisolation and for increasing the switching power. It can be used universally as a

- three-pole switch with either NO or NC behaviour and either positive or negative switching,

- two-pole switch with either NO or NC behaviour,- switch conforming to NAMUR specifications and operating conditions

according to DIN 19 234 or EN 50014/020.

The switching function of the relay outputs is reversible by changing a jumper.

NAMUR switches are connected to input terminals E2 - M. In order to improvereliability, this input is provided with a line break monitor. Whenever a break isdetected, the output relay K drops out.

Technical dataDevice conception according to VDE 0435Input E1 for 3- and 4-pole switches

- Input resistance approx. 4.7 kΩ- Input frequency max. 1 Hz- Minimum damping time of PS 25 ms- Voltage level without switch + 12 V DC, relay dropped out

Input E2 for NAMUR switch- Input resistance approx. 1 kΩ- Input frequency max. 1 Hz- Minimum damping time of PS 25 ms- Voltage level without switch + 8.2 V DC, relay dropped out- Line break detection I ≤ 0.2 mA

Ausgang- Relay output 1 reversing switch- Switching voltage 24 ... 250 V AC or DC- Switching current 0.05 ... 6 A- Switching power with AC max. 1,250 VA- Switching power with DC max. 50 W- Switching frequency max. 5,000 / h- Mechanical lifespan 30,000,000 switching cycles

Supply voltage 230/115 or 42 or 24 V AC, - Tolerance - 15 ± 10 % - Frequency 50 ... 60 Hz or

DC supply voltage 24 V DC - Tolerance ± 15 %- Residual ripple ≤ 10 %

Power consumption approx. 3 VAPermissible orientation arbitraryConnection min. 0.5 mm Ø solid or stranded

max. 2 x 2.5 mm Ø solid or2 x 1.5 mm Ø stranded

Protection type DIN EN 60 529 IP 40, terminals: IP 20Shock resistance 15 / 11 g / ms

with half sine wave, IEC 68 Permissible ambient temperature

- in operation 0 ... + 55 °C- in storage - 40 ... + 85 °C

Type of mounting snap mounting on standard railsconform with DIN 46 277 / EN 50 022

Size of housing .60, see dimension diagram

Weight approx. 300 g

Ordering instructionsZSN 1 / dc - 1.60 - (Vs) Ref. No. 20.02-69Indicate also Supply voltage Vs.

3-pole- NC or NO,- positive or negative switching

2-pole- NC or NO,- negative switching

2-pole- NC or NO,- positive switching

NAMUR switch- NC or NO,

Connecting jumper B1 or B2 reverses the polarity of the input E1 or E2 respectively to the output relay.

Netz 24 V DC

L 9 10 N 12 13 14230 V AC K

Power Relay K

ZSN 1 / dc - 1.60Ref. No. 20.02-69

P E1 M C1 E2 M C2

NB B

B BB1 Jumper B2

N

Power Output

Connection diagram

5

105

4575

5,9

24

Housing size .60

Proximity Type p = pos. at input without jumper with jumperswitch PS n = neg. if PS damped, if PS damped

switching relay K is relay K is

3-pole NO p P, E1, M pulled on dropped out3-pole NO n P, E1, M pulled on dropped out3-pole NC p P, E1, M dropped out pulled on3-pole NC n P, E1, M dropped out pulled on

2-pole NO p P, E1 pulled on dropped out2-pole NC p P, E1 dropped out pulled on2-pole NO n E1, M pulled on dropped out2-pole NC n E1, M dropped out pulled on

NAMUR NC - E2, M pulled on dropped outNAMUR NO - E2, M dropped out pulled on

© by Klaschka GmbH & Co • Elektronik + Automation • Steinegger Str. • 75 233 Tiefenbronn - Lehningen • Tel. ++ 49(0)7234 940-0 • Fax ++49(0)7234 940-444Induktive Proximity Switches • Selection ALIA • Edition 9.01

21

Inductive Proximity SwitchesAuxilliary Devices

Dimension diagramall dimensions in mm

ZSN 2-unit Auxilliary Device

The ZSN 2 / cc - 1.60 2-unit Auxilliary Device can be universally used forelectrically isolating and for increasing the switching power of NAMUR proximityswitches. The switching function of the output relay can be reversed by connectingjumpers.

NAMUR switches are connected to input terminals E2 - M. In order to improvereliability, these inputs are each provided with a line break monitor. Whenever abreak is detected, the output relay K drops out.

Technical dataDevice conception conform with VDE 0435Inputs E1 and E2 adapted to NAMUR switches

- Input resistance approx. 1 kΩ- Input frequency max. 1 Hz- Minimum damping time of PS 25 ms- Voltage level without switch + 8.2 V DC, relay dropped out- Line break detection I ≤ 0.2 mA

Outputs- Relay outputs 1 reversing switch each- Switching voltage 24 ... 250 V AC or DC- Switching current 0.05 ... 6 A- Switching power with AC max. 250 VA- Switching power with DC max. 50 W- Switching frequency max. 5,000 / h- Mechanical lifespan 30,000,000 switching cycles

Supply voltage 230/115 oder 42 oder 24 V AC, - Tolerance ± 10 % - Frequency 50 ... 60 Hz or

Supply voltage 24 V DC - Tolerance ± 15 %- Residual ripple ≤ 10 %

Power consumption approx. 3 VAPermissible orientation in operation arbitraryConnection min. 0.5 mm Ø solid or stranded

max. 2 x 2.5 mm Ø solid or 2 x 1.5 mm Ø stranded

Protection type DIN EN 60 529 IP 40, terminals: IP 20Shock resistance 15 / 11 g / ms

with half sine wave IEC 68 Permissible ambient temperature

- in operation 0 ... + 55 °C- in storage - 40 ... + 85 °C

Type of mounting snap mounting on standard railconform with DIN 46 277 / EN 50 022

Housing size .60, see dimension diagram

Weight approx. 320 g

Ordering instructionsZSN 2 / cc - 1.60 - (Vs) Ref. No. 20.04-67indicate also Supply voltage Vs.

Connection diagram

5

105

4575

5,9

24

Housing size .60

Proximity switch Type at input without jumper with jumperPS if PS damped, if PS damped,

relay K is relay K is

NAMUR NC E1, M K1 pulled on K1 dropped outNAMUR NO E1, M K1 dropped out K1 pulled on

NAMUR NC E2, M K2 pulled on K2 dropped outNAMUR NO E2, M K2 dropped out K2 pulled on

2 NAMUR switches- NC or NO

Connecting jumper B1 or B2 reverses the polarity of the input E1 or E2 respectively to the output relay.

Netz 24 V DC

L N 12 11 14 22 21

230 V AC K1

Relay K1 Relay K2

ZSN 2 / cc - 1.60Ref. No. 20.04-67

E1 M C1 E2 M C2 24

NB

B B

N

Power

N

B1 Jumper B2

NB

K2

Outputs


22

Documents

Proximity