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Capacitive Proximity Sensors

R4–1

General Information Quick Selection Guide page R4–2. . . . . . . . . . . . . . . . . . . . . . Technical Definitions and Terminology page R4–3. . . . . . . .

Introduction page R4–5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Products 875C and 875CP Nickel-Plated and Plastic Barrel page R4–9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Accessories Mounting Brackets, Sight Glass Style page R4–21. . . . . . . . Sensor Wells page R4–22. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Indexes Catalog Number Index page R10–1. . . . . . . . . . . . . . . . . . . . . Comprehensive Product Index page R11–1. . . . . . . . . . . . . .

Contents


R4–2

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Quick Selection Guide


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Axial Approach: The approach of thetarget with its center maintained on thereference axis.Complementary Outputs: (N.O. &N.C.) A proximity sensor that featuresboth normally open and normally closedoutputs, which can be usedsimultaneously.Correction Factors: Suggestedmultiplication factors taking into accountvariations in the target materialcomposition. When figuring actualsensing distance this factor should bemultiplied with the nominal sensingdistance.Current Consumption: The currentconsumed by the proximity switch whenthe output device is in the off condition.Differential Travel: See Hysteresis.Dual Output: Sensor which has twooutputs which may be complementaryor may be of a single type (i.e. twonormally open or two normally closed).Effective Operating Distance: (Sr)The operating distance of an individualproximity switch measured at statedtemperature, voltage, and mountingcondition.False Pulse: An undesired change inthe state of the output of the proximityswitch that lasts for more than twomilliseconds.Flush Mounting: A shielded proximitysensor which can be flush mounted inmetal up to the plane of the activesensing face.Free Zone: The area around theproximity switch which must be keptfree from any damping material.Hysteresis: The difference, inpercentage (%), of the nominal sensingdistance between the operate (switchon) and release point (switch off) whenthe target is moving away from thesensors active face. Without sufficienthysteresis a proximity sensor will“chatter” (continuously switch on andoff) when there is significant vibrationapplied to the target or sensor.Isolation Voltage: Maximum ratedvoltage between isolated outputs orinput and output.

Lateral Approach: The approach ofthe target perpendicular to thereference axis.Leakage Current: Current which flowsthrough the output when the output is inan “off” condition or de-energized. Thiscurrent is necessary to supply power tothe electronics of the sensor.LED: Light Emitting Diode used toindicate sensor status.Maximum Load Current: Themaximum current level at which theproximity sensor can be continuouslyoperated.Maximum Inrush Current: Themaximum current level at which theproximity sensor can be operated for ashort period of time.Minimum Load Current: The minimumamount of current required by thesensor to maintain reliable operation.Sensing Distance: The distance atwhich an approaching target activates(changes state of) the proximity output.Normally Closed: Output opens whenan object is detected in the activeswitching area.Normally Open: Output closes whenan object is detected in the activeswitching area.NPN: The sensor switches the load tothe negative terminal. The load shouldbe connected between the sensoroutput and positive terminal.Operating Distance, Rated: Theoperating distance specified by themanufacturer and used as a referencevalue. Also known as nominal sensingdistance.PNP: The sensor switches the load tothe positive terminal. The load shouldbe connected between the sensoroutput and negative terminal.Programmable Output: (N.O. or N.C.)Output which can be changed fromN.O. to N.C. or N.C. to N.O. by way of aswitch or jumper wire. Also known asselectable output.Repeatability: The variation of theeffective operating distance measuredat room temperature and constantsupply voltage. It is expressed as apercentage of the sensing distance.

Residual Voltage: The voltage acrossthe sensor output while energized andcarrying maximum load current.Response Time: See SwitchingFrequency.Reverse Polarity Protection: Proximitysensors which are protected against areversal in voltage polarity.Ripple: The variance betweenpeak-to-peak values in DC voltage. It isexpressed in percentage of ratedvoltage.Sensing Range: The rated operatingdistance.Shielded: Sensor which can be flushmounted in metal up to the plane of theactive sensing face.Short Circuit Protection: (SCP)Sensor protected from damage when ashorted condition exists for an indefiniteor defined period of time.Sinking: See NPN.Sourcing: See PNP.Switching Frequency: The maximumnumber of times per second the sensorcan change state (ON and OFF) usuallyexpressed in Hertz (Hz). As measuredin DIN EN 50010.Target: Object which activates thesensor.Three-Wire Proximity Switch: An ACor DC proximity sensor with three leads,two of which supply power and a thirdthat switches the load.Two-Wire Proximity Switch: Aproximity sensor which switches a loadconnected in series to the power supply.Power for the proximity switch is obtainedthrough the load at all times.Voltage Drop: The maximum voltagedrop across a conducting sensor.

Technical Definitions and Terminology


R4–4

Notes


R4–5

Principles of Operation forCapacitive Proximity Sensors

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Capacitive proximity sensors aredesigned to operate by generating anelectrostatic field and detectingchanges in this field caused when atarget approaches the sensing face.The sensor’s internal workings consistof a capacitive probe, an oscillator, asignal rectifier, a filter circuit and anoutput circuit.

In the absence of a target, the oscillatoris inactive. As a target approaches, itraises the capacitance of the probesystem. When the capacitance reachesa specified threshold, the oscillator isactivated which triggers the outputcircuit to change between “on” and “off.”

The capacitance of the probe system isdetermined by the target’s size,dielectric constant and distance fromthe probe. The larger the size anddielectric constant of a target, the moreit increases capacitance. The shorterthe distance between target and probe,the more the target increasescapacitance.

Standard Target and Groundingfor Capacitive Proximity SensorsThe standard target for capacitivesensors is the same as for inductiveproximity sensors. The target isgrounded per IEC test standards.However, a target in a typicalapplication does not need to begrounded to achieve reliable sensing.

Shielded vs. UnshieldedCapacitive SensorsShielded capacitive proximity sensorsare best suited for sensing low dielectricconstant (difficult to sense) materialsdue to their highly concentratedelectrostatic fields. This allows them todetect targets which unshieldedsensors cannot. However, this alsomakes them more susceptible to falsetriggers due to the accumulation of dirtor moisture on the sensor face.

The electrostatic field of an unshieldedsensor is less concentrated than that ofa shielded model. This makes them wellsuited for detecting high dielectricconstant (easy to sense) materials orfor differentiating between materialswith high and low constants. For theright target materials, unshieldedcapacitive proximity sensors havelonger sensing distances than shieldedversions.

Unshielded capacitive sensors are alsomore suitable than shielded types foruse with plastic sensor wells, anaccessory designed for liquid levelapplications. The well is mountedthrough a hole in a tank and the sensoris slipped into the well’s receptacle. Thesensor detects the liquid in the tankthrough the wall of the sensor well. Thisallows the well to serve both as a plugfor the hole and a mount for the sensor.

Target Correction Factors forCapacitive Proximity SensorsFor a given target size, correctionfactors for capacitive sensors aredetermined by a property of the targetmaterial called the dielectric constant.Materials with higher dielectric constantvalues are easier to sense than thosewith lower values. A partial listing ofdielectric constants for some typicalindustrial materials follows. For moreinformation, refer to the CRC Handbookof Chemistry and Physics (CRC Press),the CRC Handbook of Tables forApplied Engineering Science (CRCPress), or other applicable sources.

Dielectric Constants of Common Industrial MaterialsAcetone 19.5Acrylic Resin 2.7–4.5Air 1.000264Alcohol 25.8Ammonia 15–25Aniline 6.9Aqueous Solutions 50–80Bakelite 3.6Benzene 2.3Carbon Dioxide 1.000985Carbon Tetrachloride 2.2Celluloid 3.0Cement Powder 4.0Cereal 3–5Chlorine Liquid 2.0Ebonite 2.7–2.9Epoxy Resin 2.5–6Ethanol 24Ethylene Glycol 38.7Fired Ash 1.5–1.7Flour 1.5–1.7Freon R22 & 502 (liquid) 6.11Gasoline 2.2Glass 3.7–10Glycerine 47Marble 8.0–8.5Melamine Resin 4.7–10.2Mica 5.7–6.7Nitrobenzine 36Nylon 4–5Oil Saturated Paper 4.0Paraffin 1.9–2.5Paper 1.6–2.6Perspex 3.2–3.5Petroleum 2.0–2.2Phenol Resin 4–12Polyacetal 3.6–3.7Polyamide 5.0Polyester Resin 2.8–8.1Polyethylene 2.3Polypropylene 2.0–2.3Polystyrene 3.0Polyvinyl Chloride Resin 2.8–3.1Porcelain 4.4–7Powdered Milk 3.5–4Press Board 2–5Quartz Glass 3.7Rubber 2.5–35Salt 6.0Sand 3–5Shellac 2.5–4.7Shell Lime 1.2Silicon Varnish 2.8–3.3Soybean Oil 2.9–3.5Styrene Resin 2.3–3.4Sugar 3.0Sulphur 3.4Teflon 2.0Toluene 2.3Transformer Oil 2.2Turpentine Oil 2.2Urea Resin 5–8Vaseline 2.2–2.9Water 80Wood, Dry 2–7Wood, Wet 10–30

Introduction


R4–6

Shielded vs. Unshielded Construction

Each capacitive sensor can beclassified as having either a shielded orunshielded construction.

Shielded Probe

Shielded sensors are constructed with ametal band surrounding the probe. Thishelps to direct the electrostatic field tothe front of the sensor and results in amore concentrated field.

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Shielded capacitive proximity sensorsare best suited for sensing materialswith low dielectric constants (difficult tosense) as a result of their highlyconcentrated electrostatic fields. Thisallows them to detect targets thatunshielded sensors cannot.

Unshielded Probe

Unshielded sensors do not have ametal band surrounding the probe andhence have a less concentratedelectrostatic field. Many unshieldedmodels are equipped withcompensation probes, which provideincreased stability for the sensor.Compensation probes are discussedlater in this section.

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Unshielded capacitive sensors are alsomore suitable than shielded types foruse with plastic sensor wells, anaccessory designed for liquid level

applications. The well is mountedthrough a hole in a tank and the sensoris slipped into the well’s receptacle. Thesensor detects the liquid in the tankthrough the wall of the sensor well.

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The electrostatic field of an unshieldedsensor is less concentrated than that ofa shielded model. This makes them wellsuited for detecting high dielectricconstant (easy to sense) materials orfor differentiating between materialswith high and low constants. For certaintarget materials, unshielded capacitiveproximity sensors have longer sensingdistances than shielded versions.

Introduction


R4–7

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Applications


R4–8

Notes


R4–9

Description

Bulletin 875C and 875CP capacitiveproximity sensors are self-containedsolid-state devices designed fornoncontact sensing of a wide range ofmaterials.

Unlike inductive proximity sensors, the875C and 875CP can detect nonmetalsolids and liquids in addition to standardmetal targets. They can even sense thepresence of some targets throughcertain other materials, making them anideal choice in some applications whereinductive proximity and photoelectricsensors cannot be used.

Each unit has an adjustable sensingdistance and is equipped with two LEDsto indicate power and output. They arehoused in either a nickel-plated brassbarrel (shielded models) or a plasticbarrel (unshielded models) which meetsNEMA 12 and IP67 (IEC 529) enclosurestandards. Connection options includePVC cable as well as micro and picoquick-disconnect.

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Features� Metal, nonmetal solid and liquid

sensing capability

� Adjustable sensing distance

� Cable or quick-disconnect styles

� Short circuit�, overload�, reversepolarity�, and transient noiseprotection

� Plastic models have glass filled nylonhousings

� Meets NEMA 12 and IP67 (IEC 529)enclosure standards

� CE marked for all applicabledirectives

Styles

DC 3-Wire Nickel-PlatedBrass Barrel page R4–10. . . . . . . . . . . .

DC 3-Wire Plastic Barrel page R4–13. .

AC 2-Wire Nickel-PlatedBrass Barrel page R4–16. . . . . . . . . . . .

AC 2-Wire Plastic Barrel page R4–18. .

Accessories

Quick-Disconnect Cables page R8–1. .

Mounting BracketsSight Glass Style page R4–21. . . . . . . .

Sensor Wells page R4–22. . . . . . . . . . . .

Bulletin 875C and 875CPPlastic Face/Plastic Barrel or Nickel-Plated Brass Barrel


R4–10

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sensing capability� Adjustable sensing distance for

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sensing capability� Adjustable sensing distance� 3-wire operation� 3-conductor, 3-pin or 4-pin

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R4–21

DescriptionSight glass style sensor mounts providesimple and convenient mounting ofcapacitive sensors to sight tubes forhigh/low level sensing. Sight glass stylesensor mounts are available to fit 3/8�through 1�� diameter plastic or glasstubing. These mounts are designed foruse with 12mm, 18mm and 30mmdiameter capacitive sensors. All sightglass style sensor mounts are made ofDelrin� plastic with stainless steelfasteners and band clamp included.

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AccessoriesSensor Wells for Capacitive Proximities

caprox ca500 en p

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