Remote Systems Introduction & Contents Systems · Remote Systems Introduction & Contents Contents Selection Guide Applications Remote Sensor Systems Remote Coupler Systems Remote

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Remote SystemsIntroduction & ContentsRemote Systems

Contents

SelectionGuide

Applications

RemoteSensorSystems

RemoteCouplerSystems

RemoteTerminalBlocks

TechnicalData

Remote Systems

In machines and equipment, there is a need forflexible I/O interfaces for applications involvingrotating tables, moving pallets, punches, andforming dies. Interfaces of this type require that thesensors follow the movements of the machine. Theoperation cannot be obstructed by the wiring of thecables. Applications such as this are not possiblewith fixed or hardwired connections.

The use of the Balluff Remote Systems is a proventechnology to solve the problems and demands offlexible automation.

Remote systems allow the transfer of signals to acontroller through an air gap without the need forphysical contact or hardwiring.

A remote system consists of three components: theoutput sensor, transmitter, and the detector sensors.The output sensor connects to the power sourceand inputs of a controller. When power is applied tothe output sensor, the coil is energized. When thetransmitter is placed within the sensing range, thetransmitter is inductively coupled and powered,allowing the transfer of power to the detectorsensors. When the detector sensor sees a target,the output produced is transmitted through thetransmitter across the air gap to the controller.

5.2 Selection Guide5.4 Applications

Remote Sensor Systems5.6 Power Remotes5.10 G-Power Remotes5.12 Analog Remotes5.13 Thermal Remotes5.14 Radial Remotes

Remote Coupler Systems5.16 High Power Remotes

5.18 Remote Terminal Blocks5.21 Technical Data

Non-Contact Transmission

RemoteSystems

5.2 1-800-543-8390 • WWW.BALLUFF.COM

SelectionGuide Selection Guide

Power RemotesTransmits 12 Vdc power and signals to/from any input device.

– Can interface to any 12 Vdc input sensor– Connects to inductive, capacitive, optical, magnetic or mechanical sensors– Up to 15 signal transmission– M18, M30, 80x40x22, and 90x90 housings

Signals

Power Remote30 mA

Remote Sensor System

X1

X4 Power Remote40 mA

50 mA

X8 Power Remote100 mA

Power Remote6.5 mA/Signal

X15

X8 G-Power Remote150 mA

200 mA

300 mA 24 Vdc

Remote Coupler System

4x4 High Power Remote300 mA 24 Vdc

1A 24 Vdc8x8

G-Power RemotesTransmits power and signals to/from input and output sensors.12 Vdc & 24 Vdc models are available.

– Interfaces to any 12 Vdc or 24 Vdc input or output sensor– Provides up to 300mA of drive current– Transmits 8 signals– M30, 40x40 and 90x90 housings

Analog RemotesTransmits operating power and 0-10 Vdc analog signalfrom a single BAW analog sensor.

Thermal RemotesInterfaces to standard PT100 resistance sensors and K thermo-couples. All signals are transmitted through the air gapand converted to a 4-20mA output signal.

– Common 18mm tubula housing– Transmission of 0-10 Vdc analog signal between remote units– Compatible with most Balluff BAW series isensors in M8 to M30 housings

– Connects to standard PT100 resistance sensors or K thermocouples– Outputs 4-20mA signal to external controller– M18 housings

High Power RemoteTransmits power and signals to/from 24 Vdc input and outputsensors. Load capacity is up to 1A.

– Utilizes any 24 Vdc input or output sensor– Provides up to 1A of drive current– 4 in/4 out & 8 in/8 out models available– 8 in/8 out model provides up to 1 amp of drive current

Radial RemotesDesigned specifically for rotating shafts or indexing tables.Contains stationary base unit and rotating sensor unit, transmittingup to 8 signals between the two devices. Ideal for turntables orindexing tables.

– Eliminates slip rings or "cable twist" problems– Can turn in same direction continuously or in back and forth motion– Ideal for rotating shafts or indexing tables– Transmits up to 8 independent discrete signals X8 Radial Remote

160 mA 24 Vdc

X1 Analog Remote

X1 Thermal Remote

Series & Drive Current

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Selection Guide SelectionGuide

Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

Any DC 3-wire sensor




RPT-1804P/N-PU-01

RPT-1804D-PU-01

RPT-3008P/N-PU-01

RPT-3008D-PU-01

RPE-1804P/N-PU-02

RPE-1804P/N-PU-02

RPE-3008P/N-PU-02

RPE-3008P/N-PU-02

5.6

5.6

5.6

5.6

4 mm

4 mm

8 mm

8 mm

TransmissionDistance

CompatibleSensors

Transmitter Output Sensor PageNumber




3 mm

5 mm

10 mm

RPTA-1803-PU-01

RPTA-3005-PU-01

RPTA-FX406-PU-01

RPEA-1803P/N-PU-02

RPEA-3005P/N-PU-02

RPEA-FX406P/N-PU-02

15 mm Any DC 3-wire sensor RPTA-8010-PU-01 RPEA-8010P/N-PU-02

5 mm Any DC 2-wire sensor RPT15-3005D-PU-01 RPE15-3000P/N-PU-02

5 mm

8 mm

12 mm




RGPT-3005-V1215-PU-01

RGPT-4008-V1220A/B-PU-01

RGPT-9012-V2430-PU-01

RGPE-3005-V1215N/P-PU-02

RGPE-4008-V1220P/NA/B-PU-02

RGPE-9012-V2430P/N-PU-02

10 mm

6 mm

Any DC 3-wire sensorand actuators

Any DC 2- and 3-wiresensor and actuators

RHPT8-8010P/N-C3-PU01

RHPT-8010-V2410-PU-01RHP16TN-RS01

RHPE8-8010N/P-C3-PU-02

RHPE-8010-V2410-PU-02RHP16EN-RS01

2 mm Any DC 3-wire sensor RPTM-4502P/N-S49 RPEM-4502P/N-ST

2.5 mm BAW sensors RNT-1803-VS10-PU-01 RNE-1803A-PU-02

4 mm PT-100 RTT-1804-PT1B__PU-01 RTE-1804E-PU-02

5.7

5.7

5.8

5.8

5.9

5.10

5.10

5.11

5.12

5.13

5.15

5.16

5.17

RemoteSystems

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Applications

Workpiece positionsensing in a machiningcenterTo manage the varietyof parts, autonomoussensing of the workpieceson the existing palletwas implemented usinga remote system.

Up to 16 sensors detectthe positions andrecognize the part to bemachined based on certainfeatures. After loading, thepallet is brought into themachining area. Theinformation gathered isused to define themachining program in themachining center.

Monitoring clampingjaws in the work area ofa 2-spindle machining centerMonitoring of the clamping jaws is possibleeven during machining with the G-Power-Remote systems. Eight sensors transmitinformation without contact on the swingingtable with two rotary indexing tables. Powerfor the sensor functionality is also inductivelycoupled. The separable inductive couplingof power and signals allows a high degreeof flexibility in machining centers.

Monitoring slide settings on an inter-changeable drill headThe G-Power-Remote System supplies theinductive sensors with power and handlessending back of the sensor information.

When the drill head is automaticallychanged, no connection points need to bedisconnected. The inductive "G-PowerRemote" provides for quick separation.

Secure connection –application at BöhringerIngelheim Pharma KGThe distribution of liquidproducts in chemical plantsis often associated with risk,since different materials haveto be filled into tanks usinghose terminals and couplingstations.

A valveless circuit without theproper connection of thehose can lead to disastrousresults. By using a remotesystem for automaticprocess monitoring,assurance can be providedthat the hose is in factconnected.

Signal transmission is madewithout contact between themoving drum and the associatedstand in two latchable positions.The connection is verified by aninductive sensor.

Applications

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Applications

RemoteSensorSystems



TechnicalData

Indexing tableThe sensor determineswhether the workpiece isin the correct position andsends the signals withoutcontact.

Robot gripperThe sensor determinesweather the workpiecewas captured by thegripper. The switchingstate of the sensors istransmitted withoutcontact.

Material flowThe sensor detects thepresence of parts onmoving objects.

PressesThe sensor detects thepresence of the material,sends the signals backwithout contact andtogether with the controllerpositions the sheet in theproper location.

Tool changersVerifying presence of atool in a tool changer.If the tool is not present,mechanical damagemay be the result.

Temperature sensingTemperature sensing ina stirring tank.

Material detectionMaterial detection andmonitoring of theejected part in a mold.

Inductive couplingInductive sensors can be used toidentify the workpiece anddetermine its position by itsshape aned size.The RemoteSystem transmits this informationto the stationary size by means ofinductive coupling. The separablemechanical interface is thusbridged.

Monitoring clamping jawfunctionThe function of the clampingjaws is monitored from thefirst moment the sheet isclamped.

If the position is correct, thehandling system moves thecomplete table into theworking area of the machine.The sensors mounted onthe table are powered by theG-Power-Remote system.The information is inductivelycoupled to the outputsensor, which passes thesignals to the controller.

Robots are indispensiblefor precise loading andunloading of parts on amachining center.

The high rate of motion of thegripper often leads toproblems with the sensorcabling. Federal MogulFriedberg GmbH has takenon the problem and installeda Radial Power RemoteSystem at the gripper-robotarm interface. The energy forpowering the sensors as wellas the position information isinductively coupled.

This concept ensures reliabletransmission whether stoppedor in motion.

Applications

RemoteSystems

5.6 1-800-543-8390 • WWW.BALLUFF.COM

1 SignalM18 X 1non-flush

0...4.0 mm

M18 X 1non-flush

1 SignalM30 X 1.5non-flush

1.0...8.0 mm

M30 X 1.5non-flush

Number of SignalsHousing SizeMountingTransmission Distance

TransmitterFor 3 wire PNP sensorsFor 3 wire NPN sensorsFor 2 wire sensorsOutput SensorPNP OutputNPN Output

RPT-1804-P-PU-01RPT-1804-N-PU-01RPT-1804-D-PU-01

1 Signal PowerRemotes M18 - M30

RPE-1804-P-PU-02RPE-1804-N-PU-02

RPT-3008-P-PU-01RPT-3008-N-PU-01RPT-3008-D-PU-01

RPE-3008-P-PU-02RPE-3008-N-PU-02

Remote Sensor SystemsTransmitter Output Sensor!••••• Transmitter Output Sensor!•••••

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temp. rangeFuntion indicationCE approval (max 10M)Environmental protection(per IEC529)Housing materialSensing face materialCable materialCable length/diameter/AWG

≤ 30mA12 Vdc ± 5%

≤ ± 2 mm

yesIP 67

nickel plated brassABS + PBT

PU1M, 5 mm, 3X22 AWG

24 Vdc ± 5%

yes≤ 150mA

max. 50mA25 Hz

0..+50° Cyesyes

IP 67



≤ 30mA12 Vdc ± 5%

≤ ± 3 mm

yesIP 67



24 Vdc ± 5%

yes≤ 150mA

max. 50mA25 Hz

0..+50° Cyesyes

IP 67



M18x1

40

10

45

24

M18x1

10

59

64

24

LED

M30x1.5

49

13.5

36

M30x1.5

64

13

.5

36

LED

Notes:Detector should have the following rating:(1) Operating voltage: 12 Vdc ± 1.5 V(2) Current consumption: less than the available drive current.

The type of transmitter depends on the detector type.

Drive current varies depending on the transmission distanceand center off-set. (see page 5.21 for transmitting diagram)

This diagram shows the Power Remote System with eight detector sensors. Thedetector sensors can be any type of standard DC sensor. Available for 1, 4, 8 and 15detector systems. Optional junction box for quick and easy wiring is available.

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Remote Sensor Systems4 SignalsM18 X 1non-flush

0.5...3.0 mm

M18 X 1non-flush

4 SignalsM30 x 1.5non-flush

1.0...5.0 mm

M30 X 1.5non-flush

TransmitterFor any standard sensorOutput SensorPNP OutputNPN Output

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temp.rangeFuntion indicationCE approvalEnvironmental protectionHousing materialSensing face materialCable materialCable length/diameter/AWG

RPEA-1803-P-PU-02RPEA-1803-N-PU-02

RPTA-1803-PU-01



4 Signal PowerRemotes M18 - M30

Transmitter Output Sensor!•••••

24

M18x1

45

10

61

24

M18x1

73

10

94

LED

LED

≤ 30mA12 Vdc ± 1.5V

≤ ± 2 mm

yesIP 67



24 Vdc ± 5%

yes≤ 170mA

max. 50mA (per output)30 Hz

0..+50° Cyesyes

IP 67nickel plated brass

ABS + PBTPU

2M, 7 mm, 7X22 AWG

≤ 40mA12 Vdc ± 1.5V

≤ ± 3 mm

yesIP 67



24 Vdc ± 5%

yes≤ 150mA


0..+50° Cyesyes


ABS + PBTPU

2M, 7 mm, 7X22 AWG

RPTA-3005-PU-01

Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

A DC 2 wire transmitter is available upon request if using a DC 2 wire sensor.


Drive current varies depending on the transmission distanceaxis tolerance. (see page 5.21 for transmitting diagram)

Terminal blocks for detectors/transmitters are available asoptions. (see pages 5.18-5.20 for terminal blocks)


RemoteSystems

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transmitteroutput sensor

to controller

to the sensors

8 SignalsL80 X W80 X H40

non-flush 2.0...15.0 mm

L80 X W80 X H40non-flush


4 & 8 Signal PowerRemotes Block &Pancake Style

TransmitterFor any DC 3-wire sensorOutput SensorPNP OutputNPN Output

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temperature rangeFuntion indicationCE approval (max 10M)Environmental protectionHousing materialSensing face materialCable materialCable length/diameter/AWG

≤ 100mA12 Vdc ± 1.5V≤ ± 6 mm

yesIP 67NylonNylonPU

1M, 7mm, 12X26 AWG

24 Vdc ± 5%

yes≤ 300mA


0..+50° Cyesyes

IP 67NylonNylonPU

2M, 12mm, 12x22 AWG

RPTA-8010-PU-01


Transmitter Output Sensor•••••

40 80

LED 2 LED 1

80

65

65

5.3

10

Remote Sensor Systems


Drive current varies depending on the transmission distanceaxis tolerance. (see page 5.21 for transmitting diagram)


A DC 2 wire transmitter is available upon request if using a DC 2 wire sensor.

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15 SignalsM30 X 1.5non-flush

1.0...5.0 mm

M30 x 1.5non-flush

RPT15-3005D-PU-01

RPE15-3000P-PU-02RPE15-3000N-PU-02

15 Signal PowerRemotes M30

Transmitter Output Sensor!••••••••••


Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData


TransmitterFor 2-wire detector sensorsOutput SensorPNP OutputNPN Output

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temperature rangeCE approval (max 10M)Environmental protectionHousing materialSensing face materialCable materialCable length/diameter/AWG

5.0...6.5mA (per switch)12 Vdc ± 1.5V

≤ ± 2.5 mm

0..+50° Cyes


ABS + PBTPU

1m, 8.6mm, 2x0.5, 16x0.18/PUR

24 Vdc ± 10%

yes≤ 500mA


0..+50° Cyes


ABS + PBTPU

2m, 8.6mm, 2x0.5, 16x0.18/PUR

36

M30x1.5

13

.55

0.5

74

36

LED

M30x1.5

13

.56

5

83

95

Notes:Detectors should have the following rating for DC 2-wire sensors:(1) Operating voltage: 12 Vdc ± 1.5 V(2) Load capacity (current): 5.0mA

Mechanical limit switches with LED are connectable.(Provided the switches are designed such that LED lights withoperating voltage 12 Vdc/5mA and leakage current is less than0.5mA).

Both DC 2-wire proximity switch and mechanical limit switchcan be connected with the same transmitter.

Drive current varies depending on the transmission distance andcenter off-set. (see page 5.21 for transmitting diagram)

RemoteSystems

5.10 1-800-543-8390 • WWW.BALLUFF.COM

G-Power Remote SensorsM30 - 40x40for max. 8 sensors

20

75

65

6

40

10

5.2

29.44

20

LED 1LED 1

75

65

6

40

10

5.2

29.44


*For model RGPT4008/RGPE 4008select from A or BVersion A: active surface frontVersion B: active surface sideOrdering example: RGPE 4008-V1220P-A-PU-05

RGPE-4008-V1220P-B-RGPT-4008-V1220-B-

-V1220-A-

Notes:Standard cable length 5m.

Detector should have the following rating:(1) Operating voltage: 12 Vdc ± 1.5 V (RGPT-3005, RGPT-4008)

24 Vdc ± 1.5 V (RGPT-9012)(2) Current consumption: the total current consumption ofswitches are less than the available drive current.

Drive current varies depending on the transmission distanceand center off-set. (see page 5.21 for transmitting diagram)


Number of SignalsHousing SizeMountingTransmission distance

TransmitterFor any DC 3-wire sensorOutputSensorPNP OutputNPN Output

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temp. rangeFunction indicationCE approvalEnvironmental protectionHousing materialSensing face materialCable materialCable length/diameter/AWG

8 SignalsM30x1.5non-flush2…5 mm

RGPT-3005-V1215-PU-05

150 mA12 V ± 1.5 Vdc

± 3mm

M30x1.5 non-flush

RGPE-3005-V1215P-PU-05RGPE-3005-V1215N-PU-05

24 Vdc +10%

yes<400 mA

max. 50 mA (Per output)60Hz

0…+50° Cyesyes

IP 67Nickel plated brass

ABS + PBTPU

8.3 mm, 2x0.5 9x0.18/PUR

8 Signals40x40x75non-flush3…8 mm

RGPT-4008-V1220-A*-PU-05

200 mA12 V± 1.5 Vdc

± 3 mm

40x40x75non-flush

RGPE-4008-V1220P-A*-PU-05RGPE-4008-V1220N-A*-PU-05

24 Vdc + 10%

yes<500 mA


0…+50° Cyesyes

IP 67Nickel plated brass

ABS + PBTPU

8.3 mm, 2x0.5 9x0.18/PUR

Transmitter Output Sensor!•••••••••• Transmitter Output Sensor!••••••••••

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G-Power Remote SensorsPancake Stylefor max. 8 sensors

45

3030

75

O5.3

75

90

90

45

LED 1LED LED 2

30

30

75

O5.3

75

90

90


Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

8 Signals90x90x45non-flush

4…12 mm

RGPT-9012-V2430-PU-05

300 mA24 V + 1.5 Vdc

± 7mm

90x90x45non-flush

RGPE-9012-V2430P-PU-05RGPE-9012-V2430N-PU-05

24 Vdc + 10%

yes< 1.5 mA


0…+50° Cyesyes

IP 67Aluminum

ABS + PBTPU

8.3 mm, 2x0.5 16x0.18/PUR

Transmitter Output Sensor!••••••••••

RemoteSystems

5.12 1-800-543-8390 • WWW.BALLUFF.COM

Single Analog-Remote-Sensors for 1Analog Sensor

Linear range sI

0.5 ... 1.5 mm0.5 ... 2.0 mm1.0 ... 4.0 mm1.0 ... 5.0 mm1.0 ... 5.0 mm2.0 ... 8.0 mm2.0 ...10.0 mm

Housing sizeM8×1M12×1M12×1M18×1M18×1M18×1M30×1.5

Output signal0...10 V0...10 V0...10 V0...10 V0...10 V0...10 V0...10 V

Compatible analog sensors

Ordering codeBAW M08EI-UAD15B-BAW M12MG2-UAC20B-BAW M12MF2-UAC40F-BAW M18MI-UAC50B-S04GBAW M18ME-UAC50B-BAW M18MG-UAC80F-S04GBAW M30ME-UAC10B-S04G

Single Analog-Remote Sensor

Not only digital switchpointscan be detected with aRemote System. Now youcan also process analogsignals.

The necessary energy forthe analog sensor SeriesBAW with a voltage output of0...10 V is providedinductively and the sensor'sanalog signal is sent backover the same air gap.

The use of BAW sensors formoving components is nowpossible, for example inmonitoring the clampingdistance during processing.The transmitter and outputsensor built into the axistransmit the energy andinformation regardless of therotational speed.

Housing sizeMountingTransmission distance

TransmitterOutput sensor

Supply voltage UB incl. rippleOutput signalNo-load supply current I0 max.Short circuit protectedContamination classTightening torque

Radial offsetOperating current (for sensor)Output voltage (for sensor)Rated insulation voltage Ui

Voltage inputLoad resistance RL

Max. non-linearityResolutionTemperature driftResponse time

Ambient temperature range Ta

Function indicationDegree of protection per IEC 60529Housing materialMaterial of sensing faceConnectionNo. of wires × gauge

Please request the user's manual for your electronic design and layout.

24

M18x1

61.5

10

76

24

M18x1

10

73

94

LED

5.12


Note:Use the analog sensors whichfulfill the specifications below:(1) Output voltage: 0...10V(2) Operating voltage: 16...24 Vdc(3) Current consumption: ≤ 10mA

M18×1non-flush

0...2.5 mm

RNT 1803-VS10-PU-05

340 Nm

±2 mm≤ 10 mA

18 ±1.5 Vdc75 Vdc

0...10 Vdc

≤ ±0.05 Vdc

0...+60 °C

IP 67CuZn nickel plated

ABS/PBT5 m, PUR

3 × 0.34 mm²

M18×1non-flush

RNE 1803A-PU-05

24 Vdc ±5 %voltage 0...10 Vdc

≤ 150 mAyes3

40 Nm

≥ 10 kΩ≤ ±0.8 % of Ua max.

≤ 0.1 %≤ ±0.05 %/°C

≤ 0.2 s

0...+60 °Cyes

IP 67CuZn nickel plated

ABS/PBT5 m, PUR

3 × 0.34 mm²


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5Rated operational voltage incl. rippleOutput SignalCurrent consumptionShort circuit protectedContamination classTightening torqueRadial offsetResolutionResponse delayLoad resistanceStandard accuracyTemperature driftCE approval (max.10m)Operating temperature rangeOperating humidity rangeStorage temperature rangeProtection classFunction indicationHousing materialSensing face materialConnectionNo. of wires x gauge

340 Nm

≤ ± 2.5 mm≤ 0.5 C0.5 sec.

Yes0… +60° C

35…95%RH-25…+70° C

IP 67

nickel plated brassABS+PBTPUR 5 m

3 x 0.3 mm2

24

M18x1

45

10

61

24

M18x1

73

10

94

LED

RTT-1804-PT1B10-PU01RTT-1804-PT1B20-PU01RTT-1804-PT1B30-PU01

Temperature measurement range0… 100° C0… 200° C0… 300° C

RTE-1804E-PU02

1M18 x 1

flush/non-flush1.0…4.0 mm

M18 x 1flush/non-flush


Single Thermal RemoteTransmission Sensor

These sensors are for use withPt 100 resistance thermometersensors.



Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

Notes:As a detector, use the resistance thermometer sensors Pt 100 (3 wire type) according to JIS standard.

The temperature range of measurement is allowed;RTT-1804-PT1B10-PU: 0...100°CRTT-1804-PT1B20-PU: 0...200°CRTT-1804-PT1B30-PU: 0...300°C

Current output is current source, therefore connect the load between output and negative.

A K thermocouple transmitter is available upon request.

24 Vdc ± 5%4…20mA≤ 150mA

yes3

40 Nm

≤ 400 Ω≤ ± 0.8%

≤ ± 0.04% /°CYes

IP 67Inzone indication

nickel plated brassABS+PBTPUR 5 m

3 x 0.3 mm2

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5.14 1-800-543-8390 • WWW.BALLUFF.COM

Power Remote SensorType Radial Systemfor max. 8 sensors PNP

Non-contact energy anddata transmission

This system features modularconstruction for non-contacttransmission of energy for supplyingup to 8 PNP sensors on rotatingshafts, axles, or tables.

The switching states of the sensorsare transmitted over the air gap tothe stationary component. Thesystem works independent ofrotation speed, and transmission isassured even under the harshestambient conditions.

Since no mechanically contactingcomponents are used, this technol-ogy significantly reduces service andmaintenance work.

SizeTypeTransmission distanceInstallation

TransmitterOutput sensor PNP (without connectors)Output sensor PNP in Package* (with connectors)

Supply voltage UB incl. rippleVoltage dropLoad current per outputCurrent consumptionLeakage currentRadial offsetOperating currentOutput voltageNominal isolation voltage Ui

Switching frequency fAmbient temperature Ta

Function/power indicatorEnclosure ratingProtection classContamination classCE approvalHousing materialActive surface materialConnection type*Included: Output sensorwith 3-pole connector BKS-S 96-PU-05and 12-pole connector BKS-S 97-PU-05

Benefits

– Eliminates slip rings

– Intelligent, compact, and noise-immune system; inductive, non-contact, no wear

– For connecting up to 8 sensors

– Integrated energy supply for the detectors

– Just plug in, turn on, and process data


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Power Remote SensorType Radial Systemfor max. 8 sensors PNP

93 × 83 × 45Output sensor

stationary

∅∅∅∅∅ 93Transmitter0...2 mm

on shaft ∅ = 45 mm

RPTM-4502P-S 49

±1 mm≤ 160 mA

24 Vdc75 Vdc1 kHz

0...+70 °C

IP 67II3

yesPOMPOM

8 connectors type M8-C49 ANC

RPEM-4502P-ST__RPEM-4502P-ST05

!•••••••••••••••

O45

O70

O9353

45

93

45

90.75

70

8.5 23.2

13.5

6

24 Vdc ± 5 %≤ 1.5 V30 mA0.7 mA

0.05 mA±1 mm

1 kHz0...+70 °C

yes/yesIP 67

II3

yesPOMPOM

2 connectors (1 × 3-pole, 1 × 12-pole)

Plugs M08/S49for unused inputs(please order separately)


Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

BKS-S 97-PU-05 (data) 12×0.14 mm2

BKS-S 96-PU-05 (voltage) 3×0.25 mm2

RemoteSystems

5.16 1-800-543-8390 • WWW.BALLUFF.COM

Remote Coupler Systems

H-Power Remote 4 + 4

This system is the bi-directionalcoupling system for 4 sensor signalsand 4 actuator control signals. Thissystem inductively transmits signals inboth directions. Previously only thesensors could be supplied. TheRemote Unit RHPT8 can now also beused with clamping units. From thestationary side up to four signals canbe transmitted, and four channelscan be independently controlled.

Bi-directionalL90 x W90 x H45

non-flush3.0...10.0 mm

L90 x W90 x H45non-flush

Transmitter Output Sensor!••••••••••"Number of SignalsHousing SizeMountingTransmission Distance

Notes:

Maximum 4 detectors and 4 drive signals forsmall motors, solenoid valves or magnets can beconnected to the Remote. (4 in/4 out)

Detectors and drive unit should have 24 Vdc ±1.5V rating.

Total current consumption of detectors and driveunit should not exceed the rated drive current.

Drive current varies depending on thetransmission distance and center off-set.(see page 5.22 for transmitting diagram)

45

30

30

75

75

90

90

INZONE (Yellow)

Power (Green)

Spot facing O 10depth 6

4 - O 5.5

O80

4 Sensor Signals,4 Control Signalsand Power Supply

RHPE8-8010P-C3-PU-05RHPE8-8010N-C3-PU-05

24 Vdc ± 10%

yes≤ 1.5 A

max. 50 mA40 Hz

0..+50° Cyes

IP 67aluminum

ABS + PBTPU

5 m, 7.7 mm, 2x0.5, 9x0.18/PUR

RHPT8-8010P-C3-PU-05RHPT8-8010N-C3-PU-05

≤ 300 mA24 Vdc ± 1.5V

≤ ± 7 mm

0..+50° Cyes

IP 67aluminum

ABS + PBTPU

5 m, 7.7 mm, 2x0.5, 9x0.18/PUR

TransmitterPNPNPNOutput SensorPNPNPN

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temperature rangeCE approvalEnvironmental protectionHousing materialSensing face materialCable materialCable length/diameter/AWG

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Remote Coupler Systems

Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

8 Sensor Signals, 8Control Signals and PowerSupply, & Amplifier

45

30

30

75

O5.3

75

90

90

Notes:

Drive current is dependent on gap distance.

Maximum 8 detectors and 8 drive signals for small motors,solenoid valves or magnets can be connected to the RemoteAmplifier. (8 in/8 out)

Detector and drive unit should have 24 Vdc ± 1.5V rating.

Total current consumption of detectors and drive unit should notexceed the rated drive current.

Drive current varies depending on the transmission distance andaxis tolerance. (see page 5.22 for transmitting diagram)

Double transmission system is also possible.(Consult factory for details)

110 40

40

70

Output Sensor HeadTransmitter Head!••••••••••"

Remote SensorsAmplifier input / Output typePNPNPN

Rated operational voltageDrive currentDrive voltageCenter off-setShort circuit protectionCurrent consumptionLoad capacityOperation frequencyAmbient temperature rangeFuntion indicationCE approvalEnvironmental protectionHousing materialSensing face materialCable materialCable length/diameter/AWG


RHPT-8010-V2410

≤ 1A24Vdc ± 1.5V

± 5 mm

yesIP 67

AluminumABS + PBT

PU1M, 7mm, 4X18 AWG

Bi-directional 8 I/O’sL90 X W90 X H45

non-flush3.0...10.0 mm

RHPE-8010-V2410

24Vdc ± 10%

yes≤ 3A


0..+50° Cyesyes

IP 67Aluminum

ABS + PBTPU

1M, 7mm, 4X18 AWG

L90 X W90 X H45non-flush

L110 X W70 X H40DIN Rail Mountable

RHP16P-RS01 (Works on both Transmitter & Output Sensor)RHP16TN-RS01 (Transmitter Amplifier)

RHP16EN-RS01 (Output Sensor Amplifier)

24 Vdc ± 10%

≤ 150 mAmax. 200 mA (per output)

20 Hz0..+50° C

yesyes IP 0

Transmitter & Output Amplifier

RemoteSystems

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4 & 8 PortTerminal Blocks

4 PortL125 x W80 x H57

Number of SignalsHousing Size

PNP/NPN (Change over switch)PNPNPN

Housing materialGasketTerminals for transmitterTerminals for detectorsCable glandChangeover switchEnvironmental protectionMountingLED indicators

RPK-2102

AluminumNeoprene6 poles x 28 poles x 3

PG 9x1, PG 7x4PNP/NPN

IP652-M4 Allen Screws

no

RPK-2101


PG 9x1, M8x8PNP/NPN


no


7019

17

57

30

44

80

7019

17

57

30

15

35

44

80

Remote Terminal Blocks

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4 & 8 Port M12-MIBswith Wiring Chamber

RPK-2103


PG 9x1, PG 9x8PNP/NPN


no

RPK-4C01-PRPK-4C01-N

Machined AluminumViton

7 Pole Terminal4 M12x2

PG 9

IP 673 M5 Allen Screws

no

RPK-8C01-L-PRPK-8C01-L-N

Machined AluminumViton 11

12 Pole Terminal8 M12x1

PG 9

IP 673 M5 Allen Screws

yes


7019

17

57

30

44

80

11

8



Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

Remote Terminal Blocks

RemoteSystems

5.20 1-800-543-8390 • WWW.BALLUFF.COM

Remote Terminal BlocksNumber of SignalsHousing Size

PNP/NPN (change over switch)PNPNPN

Housing materialGasketTerminals for transmitterTerminals for detectorsCable glandChangeover switchEnvironmental protectionMountingLED indicators

C04-T4R-PG16

PBTNeoprene

11 Pole Screw Terminal4 M12x1

PG16

IP68

yes

C04-T8R-PG16

PBTNeoprene

19 Pole Screw Terminal8 M12x1

PG16

IP68

yes



1

3

2

4

P4P2

P4P2

P4P2

P4P2

34

54

73

12

8

5.5

10

1.5

O4

.5m

m

27

22

18

41

37

33

39

3

5

7

4

6

8

P4P2

P4P2

P4P2

P4P2

P4P2

P4P2

27

22

18 34

54

10

7

16

1

5.57

3

1 2

P4P2

P4P2

33

39

41

37

4 & 8 PortM12-MIBs withWiring Chamber

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4 & 8 PortM12-MIBs withWiring ChamberTechnical Data

RPT-1804/RPE-1804Driving current≤ 5mA

X

Y

RPT-3008/RPE-3008

X

Y

Driving current≤ 20mA


2

6

8

4

0 4 8 12 16481216

X

Y

18 18

10

12

14

1

3

4

2

0 2 4 6 82468

5

X

Y

10 10

6

7

X: Center off-setY: Transmitting distance

RPTA-1803/RPEA-1803 RPTA-3005/RPEA-3005




3

9

12

15

6

0 6 12 18 246121824

18

21

3030

X

Y

RPT15-3005D/RPE15-3000

X

Y Rated operatingdistance


RPTA-8010/RPEA-8010Driving current≤ 50mA



RGPT-3005-V1215/RGPE-3005-V1215

RGPT-4008-V1220/RGPE-4008-V1220


X

Y

X

Y

X

Y

RGPT-9012-V2430/RGPE-9012-V2430

Transmitting Diagrams

Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

RemoteSystems

5.22 1-800-543-8390 • WWW.BALLUFF.COM

Sensing Distance &Current Draw Data Technical Data

RNT-1803-VS10RTE-1803A

Rated operatingdistance

X: Center off-setY: Transmitting distanceX

Y

RTT-1804-PT1BRTE-1804E

Rated operatingdistance

X: Center off-setY: Transmitting distanceX

Y

X

Y

RHPT8-8010N/P-C3RHPE8-8010N/P-C3


3

9

12

15

6

0 6 12 18 246121824

X

Y

30 30

18

21


RHPT-8010-V2410RHPE-8010-V2410



Driving current≤ 1A

Transmitting Diagrams

Mutual Interference & Influence of Surrounding Metal

In order to avoid mutual interference between parallel-mountedsensors, or to avoid influence of surrounding metal, when sensor ismounted in metal, keep the minimum space as described below.

Type NumberRPT-1804N, RPT-1804P, RPT-1804DRPE-1804N, RPE-1804PRPT-3008N, RPT-3008P, RPT-3008DRPE-3008N, RPE-3008PRPTA-1803RPEA-1803N, RPEA-1803PRPTA-3005RPEA-3005N, RPEA-3005PRPT15-3005DRPE15-3000N, RPE15-3000PRNT-1803-VS10RNE-1803ARTT-1804-PT1B__RTE-1804E

A (mm) B (mm) C (mm)

110 20 15

300 30 20

110 18 18

300 40 32

200 30 20

110 20 20

110 20 20

Type NumberRPTA-8010RPEA-8010N, RPEA-8010PRHPT8-8010N-C3/RHPT8-8010P-C3RHPE8-8010N-C3/RHPE8-8010P-C3RHPT-8010-V2410RHPE-8010-V2410

A (mm) B (mm) C (mm)

200 20 40

300 50 45

300 50 45


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Sensing Distance &Current Draw Data

Contents

SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

Technical DataMutual Interference & Influence of Surrounding Metal

A (mm) B (mm) C (mm) D (mm) E (mm)Type NumberRGPT-3005-V1215RGPE-3005-V1215N/RGPE-3005-V1215PRGPT-4008-V1220*RGPE-4008-V1220N/RGPE-4008-V1220P*RGPT-9012-V2430RGPE-9012-V2430N/RGPE-9012-V2430P

200 30 20 -- --

300 40 40 40 40

300 -- -- 50 45

*Active surface A (front): BC Active surface B (top): DE

Connections for Remote Sensor Systems

Power Remote Sensor SystemRP series, 1 signal transmission type

Connecting NPN type switch

Connecting PNP type switch

Connecting DC2W type switch

Power Remote Sensor SystemRP series, 15 signal transmission type


RemoteSystems

5.24 1-800-543-8390 • WWW.BALLUFF.COM

Power Remote Sensor SystemRP/A series, 4 signal transmission type

Connecting NPN type switch

Technical DataConnections for Remote Sensor Systems

Connecting output sensor



Terminal blocks for connecting detectors andtransmitter are available as an option.(refer to pages 5.18-5.20)

Note:(-) line of transmitter and (-)line of detectors should beconnected together with aresistor of 1-2k ohm.

Power Remote Sensor SystemRP/A series, 8 signal transmission type

Connecting NPN type switch Connecting output sensor



Note:(-) line of transmitter and (-)line of detectors should beconnected together with aresistor of 1-2k ohm.

Sensing Distance &Current Draw Data

RemoteSystems

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SelectionGuide

Applications

RemoteSensorSystems



TechnicalData

Sensing Distance &Current Draw DataTechnical Data

Connections for Remote Sensor Systems & Remote Coupler Systems

Power Remote Sensor SystemRGP series, 8 signal transmission type

Connecting NPN type switch Connecting output sensor


Analog Remote Sensor SystemRN/VS series, 1 signal transmission type

Thermal Remote Sensor SystemRT/PT series, 1 signal transmission type

RemoteSystems

5.26 1-800-543-8390 • WWW.BALLUFF.COM

ConnectionsConnections for Remote Coupler Systems

Power Supply and Signal TransmissionRemote Coupler SystemRHP series, Bi-directional (4+4) transmission type

NPN type

Power Supply and Signal TransmissionRemote Coupler SystemRHP series, Bi-directional (8+8) transmission type

NPN type

PNP type

Technical Data

Note 1: When connecting a DC 2-wire switch to the remoteamplifier, connect + side to (SI_) and - side to (-).

Note 2: When control outputs are connected to the base amplifier,connect + side to (SI_) and - side to (-).

Note 1: The same unit is designed to be used for remote amplifier.Note 2: When connecting a DC 2-wire switch to the remote

amplifier, connect + side to (+) and - side to (SI_).Note 3: When control outputs are connected to the base amplifier,

connect + side to (+) and - side to (SI_).

PNP type

Documents

Remote Systems Introduction & Contents Systems · Remote Systems Introduction & Contents Contents Selection Guide Applications Remote Sensor Systems Remote Coupler Systems Remote