Optris OPTCTLT20CB8, OPTCTLT20CB15, OPTCTLT20CB3, OPTCTLT20 User manual

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Operator’s Manual

optris

Infrared-thermometer

LT/ LTF/ LTH/ 1M/ 2M/ 3M/ 4M/ G5/ P3/ P7

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Table of Contents 3-

Table of Contents

Table of Contents ............................................................................................................................................. 3

1 General Information ................................................................................................................................. 8

1.1 Description ....................................................................................................................................... 8

1.2 Warranty ........................................................................................................................................... 9

1.3 Scope of Supply ............................................................................................................................... 9

1.4 Maintenance ................................................................................................................................... 10

1.5 Model Overview .............................................................................................................................. 11

1.6 Factory Default Settings ................................................................................................................. 13

2 Technical Data ........................................................................................................................................ 15

2.1 General Specifications ................................................................................................................... 15

2.2 Electrical Specifications .................................................................................................................. 17

2.3 Measurement Specifications [LT models] ...................................................................................... 18

2.4 Measurement Specifications [CTfast/ CThot]................................................................................. 20

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2.5 Measurement Specifications [1M/ 2M/ 3M/ 4M models] ................................................................ 22

2.6 Measurement Specifications [G5/ P7 models] ............................................................................... 25

2.7 Optical Charts ................................................................................................................................. 26

2.8 CF Lens and Protective Window .................................................................................................... 38

3 Mechanical Installation .......................................................................................................................... 42

3.1 Mounting Accessories .................................................................................................................... 46

3.2 Air Purge Collars ............................................................................................................................ 48

3.3 Further Accessories ....................................................................................................................... 50

4 Electrical Installation ............................................................................................................................. 57

4.1 Cable Connections ......................................................................................................................... 57

4.1.1 Designation [models LT/ G5/ P3/ P7] ........................................................................................ 57

4.1.2 Designation [models 1M/ 2M/ 3M] ............................................................................................. 58

4.1.3 Designation [models 4M] ........................................................................................................... 59

4.1.4 Power supply.............................................................................................................................. 60

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Table of Contents 5-

4.1.5 Cable Assembling ...................................................................................................................... 61

4.2 Ground Connection ........................................................................................................................ 62

4.2.1 1M, 2M, 3M models ................................................................................................................... 62

4.2.2 4M model ................................................................................................................................... 62

4.2.3 LT, LTF, LTH, G5, P3, P7 models ............................................................................................. 63

4.3 Exchange of the Sensing Head ...................................................................................................... 64

4.3.1 Entering of the Calibration Code ................................................................................................ 64

4.3.2 Sensing Head Cable .................................................................................................................. 65

5 Outputs and Inputs ................................................................................................................................ 66

5.1 Analog Outputs ............................................................................................................................... 66

5.1.1 Output channel 1 ........................................................................................................................ 66

5.1.2 Output channel 2 [LT/ G5/ P3/ P7 only] ..................................................................................... 66

5.2 Digital Interfaces ............................................................................................................................. 67

5.3 Relay Outputs ................................................................................................................................. 67

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5.4 Functional Inputs (not for CT 4M) .................................................................................................. 68

5.5 I/O pins (only for CT 4M) ................................................................................................................ 69

5.6 Alarms ............................................................................................................................................ 70

5.6.1 Output channel 1 and 2 [channel 2 on LT/ G5/ P3/ P7 only] ..................................................... 70

5.6.2 Open collector output / AL2: ...................................................................................................... 72

6 Operating ................................................................................................................................................ 73

6.1 Sensor Setup .................................................................................................................................. 73

6.2 Error messages .............................................................................................................................. 84

7 IRmobile app ........................................................................................................................................... 85

8 Software CompactConnect/ CompactPlus Connect .......................................................................... 87

8.1 Installation ...................................................................................................................................... 87

8.2 Communication Settings ................................................................................................................ 89

8.2.1 Serial Interface ........................................................................................................................... 89

8.2.2 Protocol ...................................................................................................................................... 89

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Table of Contents 7-

8.2.3 ASCII protocol ............................................................................................................................ 90

8.2.4 Saving of parameter settings ..................................................................................................... 91

9 Basics of Infrared Thermometry........................................................................................................... 92

10 Emissivity ............................................................................................................................................... 93

10.1 Definition......................................................................................................................................... 93

10.2 Determination of unknown Emissivity ............................................................................................ 93

10.3 Characteristic Emissivity ................................................................................................................ 94

Appendix A – Table of Emissivity for metals ............................................................................................... 95

Appendix B – Table of Emissivity for non-metals ....................................................................................... 97

Appendix C – Smart Averaging ..................................................................................................................... 98

Appendix D – Declaration of Conformity ..................................................................................................... 99

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-8 -

1 General Information

1.1 Description

Thank you for choosing the optris® CT infrared thermometer. The sensors of the optris CT series are noncontact infrared temperature sensors. They calculate the surface temperature based on the emitted infrared energy of objects [►9 Basics of Infrared Thermometry]. The sensor housing of the CT head is made of stainless steel (IP65/ NEMA-4 rating) – the sensor electronics is placed in a separate box made of die casting zinc.

The CT sensing head is a sensitive optical system. Please use only the thread for mechanical installation.

• Avoid abrupt changes of the ambient temperature.

• Avoid mechanical violence on the head – this may destroy the system (expiry of warranty).

• If you have any problems or questions, please contact our service department.

Read the manual carefully before the initial start-up. The producer reserves the right to change the herein described specifications in case of technical advance of the product.

► All accessories can be ordered according to the referred part numbers in brackets [ ].

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General Information 9-

1.2 Warranty

Each single product passes through a quality process. Nevertheless, if failures occur please contact the customer service at once. The warranty period covers 24 months starting on the delivery date. After the warranty is expired the manufacturer guarantees additional 6 months warranty for all repaired or substituted product components. Warranty does not apply to damages, which result from misuse or neglect. The warranty also expires if you open the product. The manufacturer is not liable for consequential damage or in case of a non-intended use of the product. If a failure occurs during the warranty period the product will be replaced, calibrated or repaired without further charges. The freight costs will be paid by the sender. The manufacturer reserves the right to exchange components of the product instead of repairing it. If the failure results from misuse or neglect the user has to pay for the repair. In that case you may ask for a cost estimate beforehand.

1.3 Scope of Supply

▪ CT sensing head with connection cable and electronic box ▪ Mounting nut ▪ Operators manual

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1.4 Maintenance

Lens cleaning: Blow off loose particles using clean compressed air. The lens surface can be cleaned with a soft, humid tissue (moistened with water) or a lens cleaner (e.g. Purosol or B+W Lens Cleaner).

Never use cleaning compounds which contain solvents (neither for the lens nor for the housing).

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General Information 11-

1.5 Model Overview

The sensors of the CT series are available in the following basic versions:

Model

Model codes

Measurement range

Spectral response

Typical applications

CT LT LT02

-50 to 600 °C

8-14 µm

non-metallic surfaces LT15

LT22

-50 to 975 °C

CT fast LT15F

-50 to 975 °C

8-14 µm

fast processes LT25F

CT hot LT02H

-40 to 975 °C

8-14 µm

high ambient temperatures (up to 250 °C) LT10H

CT1M 1ML

485 to 1050 °C

1,0 µm

metals and ceramic surfaces 1MH

650 to 1800 °C

1MH1

800 to 2200 °C

CT 2M 2ML

250 to 800 °C

1,6 µm

metals and ceramic surfaces 2MH

385 to 1600 °C

2MH1

490 to 2000 °C

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CT 3M

3ML

50 to 400 °C

2,3 µm

metals at low object temperatures (from 50 °C)

3MH

100 to 600 °C

3MH1

150 to 1000 °C

3MH2

200 to 1500 °C

3MH3

250 to 1800 °C

CT 4M

4ML

0 to 500 °C

2.2-6 µm

metals at low object temperatures (from 0 °C) and very fast processes

CT G5 G5L

100 to 1200 °C

5,0 µm

measurement of glass G5H

250 to 1650 °C

CT P3

50 to 400 °C

3,43 µm

temperatures of thin film plastics CT P7

0 to 710 °C

7,9 µm

In the following chapters of this manual you will find only the short model codes. On the 1M, 2M, 3M, 4M and G5 models the whole measurement range is split into several sub ranges (L, H, H1 etc.).

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General Information 13-

1.6 Factory Default Settings

The unit has the following presetting at time of delivery:

Signal output object temperature

0-5 V

Signal output channel 2 (only for CT 4M)

Internal head temperature: 0-5 V = 0-70 °C

Emissivity

0,970 [LT/ G5/ P3/ P7] 1,000 [1M/ 2M/ 3M/ 4M]

Transmissivity

1,000

Averaging (AVG)

0,2 s LT15F/ LT25F: 0,1 s 1M/ 2M/ 3M/ 4M: 0,001 s

Smart Averaging

inactive LT15F, LT25F: active

Peak hold

inactive

Valley hold

inactive

1ML

1MH

1MH1

2ML

2MH

2MH1

3ML

3MH

Lower limit temperature range [°C]

485

650

800

250

385

490

100

Upper limit temperature range [°C]

500

1050

1800

2200

800

1600

2000

400

600

Lower alarm limit [°C] (normally closed)

600

800

1200

350

500

800

100

250

Upper alarm limit [°C] (normally open)

100

900

1400

1600

600

1200

1400

300

500

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3MH1

3MH2

3MH3

4ML

G5L

G5H

P7 Lower limit temperature range [°C]

150

200

250 0 100

250

50 0

Upper limit temperature range [°C]

1000

1500

1800

500

1200

1650

400

710

Lower alarm limit [°C] (normally closed)

350

550

750

200

350

Upper alarm limit [°C] (normally open)

600

1000

1200

100

500

900

200

100 Lower limit signal output

0 V

Upper limit signal output

5 V

Temperature unit

°C

Ambient temperature compensation (Output at OUT-AMB as 0-5 V signal on LT, G5 and P7)

internal head temperature probe Baud rate [kBaud]

115 921,6 [4M]

Smart Averaging means a dynamic average adaptation at high signal edges. [Activation via software only]. ►Appendix C – Smart Averaging

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Technical Data 15-

2 Technical Data

2.1 General Specifications

Sensing head

Electronic box

Environmental rating

IP65 (NEMA-4)

Operating Temperature

see: Measurement Specifications

-20...85 °C 1)

Storage temperature

see: Measurement Specifications

-40...85 °C

Relative humidity

10...95 %, non-condensing

Material

stainless steel

die casting zinc

Dimensions

28 mm x 14 mm or 32 mm x 14 mm, M12x1

89 mm x 70 mm x 30 mm

Dimensions CThot/ CT P3/ P7

55 mm x 29,5 mm, M18x1 (with massive housing)

Weight

40 g

420 g

Weight CThot/ CT P3/ P7

205 g (with massive housing)

Cable length

1 m (only LT02, LT15, LT22, CTfast) 3 m (Standard at CThot, 1M, 2M, 3M, 4M, G5, P3 and P7)

8 m 15 m

Cable diameter

2,8 mm

Ambient temperature cable

max. 180 °C [High temperature cable for CThot: 250 °C]

Vibration

IEC 68-2-6: 3G, 11 – 200 Hz, any axis

Shock

IEC 68-2-27: 50G, 11 ms, any axis

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Pressure resistance (head)

8 bar

Software / App (optional)

CompactConnect / CompactPlus Connect / IRmobile

The functionality of the LCD display can be limited at ambient temperatures below 0 °C

The 3M models are only available with 3 m cable length

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Technical Data 17-

2.2 Electrical Specifications

Power Supply

8–36 VDC CT 4M: 8-30 VDC / 5 V USB / max. 1,2 W

Outputs/ analog Channel 1

Channel 2 [LT/ G5/ P3/ P7 only]

(For CT 4M output 1 and 2 are freely selectable: Analog mA/mV, Alarm mA/mV, TCK) selectable: 0/ 4–20 mA, 0–5/ 10 V, thermocouple (J or K) or alarm output (Signal source:

object temperature) Head temperature [-20...180 °C/ -20...250 °C on LT02H and LT10H] as 0–5 V or 0–10 V

output or alarm output (Signal source switchable to object temperature or electronic box temperature if used as alarm output)

Alarm output

Open collector output (NPN type) at Pin AL2 [24 V/ 50 mA]

Output impedances mA mV Thermocouple

max. loop resistance 500 Ω min. 100 kΩ load impedance 20 Ω

Digital interfaces

USB, RS232, RS485, Profibus DP, Ethernet, Modbus RTU (optional plug-in modules)

Relay outputs

2 x 60 VDC/ 42 VAC

RMS

, 0,4 A; optically isolated (optional plug-in module)

Functional inputs / I/O Pins

F1-F3; software programmable for the following functions:

• external emissivity adjustment

• ambient temperature compensation

• trigger (reset of hold functions)

Input impedance F2 and F3: 43 kΩ CT 4M: I/O1-3 pins freely selectable via software

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-18 -

2.3 Measurement Specifications [LT models]

LT02

LT15

LT22

Temperature range (scalable)

-50...600 °C

-50...975 °C

Ambient temperature (head)

-20...130 °C

-20...180 °C

Storage temperature (head)

-40...130 °C

-40...180 °C

Spectral range

8...14 µm

Optical resolution

2:1

15:1

22:1

System accuracy

1) 2) 3)

±1,0 °C or ±1,0 %

Repeatability

1) 3)

±0,5 °C or ±0,5 %

Temperature coefficient 4)

±0,05 K/ K or ±0,05 %/ K

NETD

3) 5)

100 mK

50 mK

Response time (95 % signal)

150 ms

Warm-up time

10 min

Emissivity/ Gain

0,100...1,100 (adjustable via programming keys or software)

Transmissivity

0,100...1,100 (adjustable via programming keys or software)

Interface (optional)

USB (programmable adapter)

Signal processing

Average, peak hold, valley hold (adjustable via programming keys or software)

at ambient temperature 235 °C; whichever is greater; at object temperatures >0 °C; response time=1s

Accuracy for thermocouple output: ±2,5°C or ±1%

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Technical Data 19-

ε = 1

for ambient temperatures (head) <18 °C and >28 °C; whichever is greater

at time constant 200 ms and an object temperature of 25 °C

On the LT02 models the head cable must not be moved during the measurement.

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2.4 Measurement Specifications [CTfast/ CThot]

LT15F

LT25F

LT02H

LT10H

Temperature range (scalable)

-50...975 °C

-40...975 °C

Ambient temperature (head)

-20...120 °C

-20...250 °C

Storage temperature (head)

-40...120 °C

-40...250 °C

Spectral range

8...14 µm

Optical resolution

15:1

25:1

2:1

10:1

System accuracy

1) 2) 3)

±2°C or ±1%

±1,5°C or ±1%

Repeatability

1) 3)

±0,75 °C or ±0,75 %

±0,5 °C or ±0,5 %

Temperature coefficient 4)

±0,05 K/ K or ±0,05 %/ K

NETD

3) 5)

200 mK

400 mK

250 mK

Response time (90 % signal)

9 ms

6 ms

100 ms

Warm-up time

10 min

Emissivity/ Gain

0,100...1,100 (adjustable via programming keys or software)

Transmissivity

0,100...1,100 (adjustable via programming keys or software)

Signal processing

Average, peak hold, valley hold (adjustable via programming keys or software)

at ambient temperature 235 °C; whichever is greater; at object temperatures ≥ 20 °C; response time=1s

Accuracy for thermocouple output: ±2,5°C or ±1%

ε = 1 4) for ambient temperatures (head) <18 °C and >28 °C; whichever is greater

at time constant 100 ms and an object temperature of 25 °C

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Technical Data 21-

On the CThot models [LT02H/ LT10H] the head cable must not be moved during the measurement.

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-22 -

2.5 Measurement Specifications [1M/ 2M/ 3M/ 4M models]

1ML

1MH

1MH1

2ML

Temperature range (scalable)

485...1050 °C

650...1800 °C

800...2200 °C

250...800 °C

Ambient temperature (head)

-20...100 °C

-20...125 °C

Storage temperature (head)

-40...100 °C

-40...125 °C

Spectral range

1,0 µm

1,6 µm

Optical resolution

40:1

75:1

40:1

System accuracy

1) 2) 3)

±(0,3 % of reading +2°C)

Repeatability

1) 3)

±(0,1 % of reading +1 °C)

Temperature coefficient 4)

±0,05 K/ K or ±0,05 %/ K

NETD

3) 5)

100 mK

140 mK

85 mK

90 mK

Response time (90 % signal)

1 ms 6)

Emissivity/ Gain

0,100...1,100 (adjustable via programming keys or software)

Transmissivity

0,100...1,000 (adjustable via programming keys or software)

Signal processing

Average, peak hold, valley hold (adjustable via programming keys or software)

at ambient temperature 235 °C; whichever is greater; response time=1s

Accuracy for thermocouple output: ±3,5°C or ±1%

 = 1

for ambient temperatures (head) <18 °C and >28 °C; whichever is greater

at time constant 1 ms and object temperature=start of measurement range + 50°C

with dynamic adaptation at low signal levels

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Technical Data 23-

2MH

2MH1

3ML

3MH

Temperature range (scalable)

385...1600 °C

490...2000 °C

50...400 °C 1)

100...600 °C 1)

Ambient temperature (head)

-20...125 °C

-20...85 °C

Storage temperature (head)

-40...125 °C

Spectral range

1,6 µm

2,3 µm

Optical resolution

75:1

22:1

33:1

System accuracy

2) 3) 4)

±(0,3 % of reading +2°C)

Repeatability

2) 4)

±(0,1 % of reading +1 °C)

Temperature coefficient 5)

±0,05 K/ K or ±0,05 %/ K

NETD

4) 6)

90 mK

160 mK

600 mK

60 mK

Response time (90 % signal) 7)

1 ms

Emissivity/ Gain

0,100...1,100 (adjustable via programming keys or software)

Transmissivity

0,100...1,000 (adjustable via programming keys or software)

Signal processing

Average, peak hold, valley hold (adjustable via programming keys or software)

Object

> T

Head

+25 °C

at ambient temperature 235 °C; whichever is greater; response time=1s

Accuracy for thermocouple output: ±2,5°C or ±1%

 = 1

for ambient temperatures (head) <18 °C and >28 °C¸ whichever is greater

at time constant 1 ms and object temperature=start of measurement range + 50°C

with dynamic adaptation at low signal levels

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-24 -

3MH1

3MH2

3MH3

4ML

Temperature range (scalable) 1)

150...1000 °C

200...1500 °C

250...1800 °C

0…500 °C

Ambient temperature (head)

-20...85 °C

0…70 °C

Storage temperature (head)

-40...125 °C

-40…85 °C

Spectral range

2,3 µm

2.2-6 µm

Optical resolution

75:1

10:1

System accuracy

2) 3) 4)

±(0,3 % of reading +2°C)

Repeatability

2) 4)

±(0,1 % of reading +1 °C)

Temperature coefficient 5)

±0,05 K/ K or ±0,05 %/ K

±0,05 K/ K or ±0,05 %/ K 6)

NETD 4)

110 mK 7)

120 mK 7)

100 mK 7)

120 mK 8)

Response time (90 % signal)

1 ms 9)

300 µs / 90 µs

10)

Emissivity/ Gain

0,100...1,100 (adjustable via programming keys or software)

Transmissivity

0,100...1,000 (adjustable via programming keys or software)

Signal processing

Average, peak hold, valley hold (adjustable via programming keys or software)

Specification valid at T

Object

≥ start of measurement range + 50°C

at ambient temperature 235 °C; whichever is greater; response time=1s

Accuracy for thermocouple output: ±2,5°C or ±1%

 = 1

for ambient temperatures (head) <18 °C and >28 °C; whichever is greater

for ambient temperatures > 10 °C; whichever is greater

at time constant 1 ms and object temperature=start of measurement range + 50°C

at time constant 1 ms and T

Obj

= 50 °C 9) with dynamic adaptation at low signal levels

10)

90 µs exposure time

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Technical Data 25-

2.6 Measurement Specifications [G5/ P7 models]

G5L

G5H

Temperature range (scalable)

100...1200 °C

250...1650 °C

50...400 °C

0...710 °C

Ambient temperature (head)

-20...85 °C

0...75 °C

-20...85 °C

Storage temperature (head)

-40...85 °C

Spectral range

5,0 µm

3,43 µm

7,9 µm

Optical resolution

10:1

20:1

15:1

10:1

System accuracy

1) 2) 3)

±2 °C or ±1 %

±3 °C or ±1 %

±1,5 °C or ±1 %

Repeatability

1) 3)

±0,5 °C or ±0,5 %

±1,5 °C

±0,5 °C or ±0,5 %

Temperature coefficient 5)

±0,05 K/ K or ±0,05 %/ K

NETD 3)

100 mK

200 mK

140 mK

50 mK

Response time (90 % signal)

120 ms

80 ms

100 ms

150 ms

Emissivity/ Gain

0,100...1,100 (adjustable via programming keys or software)

Transmissivity

0,100...1,000 (adjustable via programming keys or software)

Signal processing

Average, peak hold, valley hold (adjustable via programming keys or software)

at ambient temperature 235 °C; whichever is greater; response time=1s

Accuracy for thermocouple output: ±2,5°C or ±1%

 = 1

for ambient temperatures (head) <18 °C and >28 °C; whichever is greater

at time constant 200 ms and object temperature=start of measurement range + 50°C

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-26 -

2.7 Optical Charts

The following optical charts show the diameter of the measuring spot in dependence on the distance between measuring object and sensing head. The spot size refers to 90 % of the radiation energy. The distance is always measured from the front edge of the sensing head.

As an alternative to the optical diagrams, the spot size calculator can also be used on the Optris website or via the Optris calculator app. The app can be downloaded for free from the Google Play store (see QR code).

D = Distance from front of the sensing head to the object

S = Spot size

The size of the measuring object and the optical resolution of the infrared thermometer determine the maximum distance between sensing head and measuring object. In order to prevent measuring errors the object should fill out the field of view of the optics completely. Consequently, the spot should at all times have at least the same size like the object or should be smaller than that.

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Technical Data 27-

LT25F Optics: CF

D:S: 25:1 2,0mm@ 50mm

D:S (far field) = 6:1

LT25F Optics: SF

D:S: 25:1

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-28 -

LT22 Optics: CF

D:S: 22:1 2,3mm@ 50mm

D:S (far field) = 6:1

LT22 Optics: SF

D:S: 22:1

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Technical Data 29-

LT15 LT15F Optics: CF

D:S: 15:1 3,0mm@ 50mm

D:S (far field) = 5:1

LT15 LT15F Optics: SF

D:S: 15:1

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-30 -

LT10H Optics: CF1

D:S: 10:1 3,0mm@ 30mm

D:S (far field) = 3:1

LT10H 4ML G5L P7 Optics: SF

D:S: 10:1

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Technical Data 31-

LT02 LT02H Optics: SF

D:S: 2:1

4ML Optics: CF D:S: 10:1

5,0mm@ 50mm D:S (far field) = 4:1

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-32 -

1ML 2ML Optics: CF

D:S: 40:1 2,7mm@ 110mm

D:S (far field) = 12:1

G5H Optics: SF

D:S: 20:1

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Technical Data 33-

1MH 1MH1 2MH 2MH1 3MH1-H3 Optics: CF

D:S: 75:1 1,5mm@ 110mm

D:S (far field) = 14:1

1ML 2ML Optics: SF

D:S: 40:1

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-34 -

3ML Optics: SF

D:S: 22:1

1MH 1MH1 2MH 2MH1 3MH1-H3 Optics: SF

D:S: 75:1

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Technical Data 35-

3ML Optics: CF

D:S: 22:1 5mm@ 110mm

D:S (far field) = 9:1

3ML Optics: CF1

D:S: 22:1 1,5mm@ 30mm

D:S (far field) = 3,5:1

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-36 -

3MH Optics: CF1

D:S: 33:1 1,0mm@ 30mm

D:S (far field) = 4:1

3MH Optics: SF

D:S: 33:1

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Technical Data 37-

P3 Optics: SF

D:S: 15:1

3MH Optics: CF

D:S: 33:1 3,4mm@ 110mm

D:S (far field) = 11:1

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2.8 CF Lens and Protective Window

The optional CF lens allows the measurement of very small objects and can be used in combination with all LT, 1M, 2M, 3M and 4M models. The minimum spot size depends on the used sensing head. The distance is always measured from the front edge of the CF lens holder or laminar air purge collar.

The installation on the sensing head will be done by turning the CF lens until end stop. To combine it with the massive housing please use the version with external thread M12x1.

Versions Overview:

ACCTCF

CF lens for installation on sensing head [LT]

ACCTCFHT

CF lens for installation on sensing head [1M/ 2M/ 3M]

ACCTCFE

CF lens with external thread for installation in massive housing [LT]

ACCTCFHTE

CF lens with external thread for installation in massive housing [1M/ 2M/ 3M]

For protection of the sensing head optics a protective window is available. The mechanical dimensions are equal to the CF lens. It is available in the following versions:

ACCTPW

Protective window for installation on sensing head [LT]

ACCTPWHT

Protective window for installation on sensing head [1M/ 2M/ 3M]

ACCTPWE

Protective window with external thread for installation in the massive housing [LT]

ACCTPWHTE

Protective window with external thread for installation in the massive housing [1M/ 2M/ 3M]

Typical Transmission values* if the protective window is used (average values): LT 0,83 1M/ 2M/ 3M 0,93 4M 0,92 * deviations possible

Typical Transmission values* if the CF lens is used (average values):

LT 0,78 1M 0,80 2M 0,87 3M 0,92 4M 0,93 * deviations possible

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Technical Data 39-

CF lens: ACCTCF/ ACCTCFHT Protective window: ACCTPWHT

Laminar air purge with integrated CF lens: ACCTAPLCF/ ACCTAPLCFHT

CF lens with external thread: ACCTCFE/ ACCTCFHTE Protective window with external thread: ACCTPWE/ ACCTPWHTE

LT25F + CF lens

0,5 mm@ 8 mm 0,5 mm@ 6 mm [ACCTAPLCF]

D:S (far field) = 1,6:1

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LT15/ LT15F + CF lens

0,8 mm@ 10 mm 0,8 mm@ 8 mm [ACCTAPLCF]

D:S (far field) = 1,5:1

LT22/ 3ML + CF lens

0,6 mm@ 10 mm 0,6 mm@ 8 mm [ACCTAPLCF]

D:S (far field) = 1,5:1

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Technical Data 41-

LT02/ LT02H + CF lens

2,5 mm@ 23 mm 2,5 mm@ 21 mm [ACCTAPLCF]

D:S (far field) = 2,5:1

LT10H + CF lens

1,2 mm@ 10 mm 1,2 mm@ 8 mm [ACCTAPLCF]

D:S (far field) = 1,2:1

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3 Mechanical Installation

The CT sensing heads are equipped with a metrical M12x1-thread and can be installed either directly via the sensor thread or with help of the hex nut (included in scope of supply) to the mounting bracket available. Various mounting brackets, which make the adjustment of the sensing head easier, can be additionally ordered as accessories.

All accessories can be ordered using the according part numbers in brackets [ ].

Sensing head

Sensing head LT15CF/ LT22CF/ 3MCF/ CTP7CF

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Mechanical Installation 43-

The CThot- and CT P3/P7-sensors will be delivered with the massive housing and can be installed via the M18x1-thread.

Massive housing (Standard on CThot, P3 and P7)

Make sure to keep the optical path clear of any obstacles.

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-44 -

Electronic box

The electronic box is also available with closed cover (display and programming keys with no access from outside) [ACCTCOV].

On the CT models LT02, LT02H and LT10H the head cable must not be moved during the measurement.

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Mechanical Installation 45-

Electronic box CT 4M

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-46 -

3.1 Mounting Accessories

Mounting bracket, adjustable in one axis [ACCTFB]

Mounting bolt with M12x1 thread, adjustable in one axis [ACCTMB]

Mounting fork with M12x1 thread, adjustable in 2 axes [ACCTMG]

Mounting bracket, adjustable in two axes [ACCTAB] consisting of: ACCTFB and ACCTMB

The Mounting fork can be combined with the Mounting bracket [ACCTFB] using the M12x1 thread.

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Mechanical Installation 47-

K40 flange [ACCTKF40GE] for CTLT with Ge window or [ACCTKF40B270] for CT1M, 2M, 3M with B270 window

• When changing the windows, the screws must be tightened with a tightening torque of 1 Nm.

• Transmission: Ge ≈ 0,91 and B270 ≈ 0,92 (Deviations possible)

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3.2 Air Purge Collars

The lens must be kept clean at all times from dust, smoke, fumes and other contaminants in order to avoid reading errors. These effects can be reduced by using an air purge collar. Make sure to use oil-free, technically clean air, only.

Standard air purge collar [ACCTAP] for optics with a

D:S ≥ 10:1 (not for sensing heads with 32 mm length),

fits to the mounting bracket Hose connection: 3x5 mm Thread (fitting): M5

Standard air purge collar [ACCTAP2] for optics with a D:S ≤ 2:1 (not for sensing heads with 32 mm length), fits to the mounting bracket Hose connection: 3x5 mm Thread (fitting): M5

The needed amount of air (approx. 2...10 l/ min.) depends on the application and the installation conditions on-site.

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Mechanical Installation 49-

Laminar air purge collar [ACCTAPL] The sideward air outlet prevents a cooling down of the object in short distances. Hose connection: 3x5 mm Thread (fitting): M5

Laminar air purge collar with mounting fork [ACCTAPLMF], adjustable in 2 axes

The needed amount of air (approx. 2...10 l/ min.) depends on the application and the installation conditions on-site.

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3.3 Further Accessories

Right Angle Mirror [ACCTRAM]

for optics with a D:S ≥ 10:1; enables measurements with 90° angle to sensor axis.

Laser-Sighting tool [D08ACCTLST]

battery powered (2x Alcaline AA), for alignment of CT sensing heads. The laser head has the same mechanical dimensions as the CT sensing head.

WARNING: Do not point the laser directly at the eyes of persons or animals! Do not stare into the laser beam. Avoid indirect exposure via reflective surfaces!

The mirror has a reflexion of 96% in combination with a LT22 and LT15 head and 88% with a LT15F head. If the mirror is used this value has to be multiplied by the emissivity value of the measurement object.

Example: LT22 and object with emissivity = 0,85 0,85 x 0,96 = 0,816 Thus the emissivity in the CT has to be set to the resulting value of 0,816.

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Mechanical Installation 51-

OEM-Laser-Sightingtool The OEM-Laser-Sighting tool is available with 3,5 m [ACCTOEMLST] and 8 m connection cable [ACCTOEMLSTCB8]. The laser can be connected to the pins 3V SW or PINK (only for CT 4M) and GND

[►4 Electrical Installation] and switched on and off via the programming keys or via the software.

The special double-hole mounting bracket [ACCTFB2] allows a simultaneous mounting of the CT sensing head and the laser head.

OEM-Laser-Sighting tool [ACCTOEMLST or ACCTOEMLSTCB8]

Mounting bracket [ACCTFB2]

Massive Housing

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-52 -

Massive housing, stainless steel [D06ACCTMHS] – also available in aluminum (anodized) or brass

The Massive housing allows reproducible and stable measurements on applications with significant and short-term variation in ambient temperatures. It can be combined with the CF lens [ACCTCFE] or with the protective window [ACCTPWE].

►2.8 CF Lens and Protective Window]

Accessories for Massive Housing

IMPORTANT: For an optimum function of the massive housing 10 cm of the head cable must be installed in loops inside the housing.

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Mechanical Installation 53-

Air purge collar for massive housing (thread M18x1) [ACCTAPMH]

Mounting bracket for massive housing, adjustable in one axis [ACCTFBMH]

The needed amount of air (approx. 2...10 l/ min.) depends on the application and the installation conditions on-site.

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-54 -

Pipe Adapter and Sighting Tubes

The pipe adapter [ACCTPA] allows an assembling of sighting tubes directly on the CT head. The sighting tubes are available in 3 different lengths:

ACCTST20 20 mm ACCTST40 40 mm ACCTST88 88 mm

Pipe adapter [ACCTPA]

Sighting tube [ACCTST40]

The sighting tubes can only be used for sensing heads with a distance-to-spot ratio (D:S) of ≥ 15:1.

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Mechanical Installation 55-

Rail Mount Adapter for Electronic box

With the rail mount adapter the CT electronics can be mounted easily on a DIN rail (TS35) according EN50022.

Rail Mount Adapter [ACCTRAIL]

Tilt Assembly for CT heads

With this mounting accessory a fine adjustment of the CT head with an off-axis angle +/- 6,5° is possible.

Tilt assembly [ACCTTAS]

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Accessories for IRmobile app

The IR App Connector is used to connect the sensor to a smartphone or tablet (► 7 IRmobile app). The connector cable can be also used for the connection to your PC in combination with the software CompactConnect/ CompactPlus Connect (►8 Software CompactConnect/ CompactPlus Connect).

IR app Connector: USB programming adaptor [ACCTIAC (for CT 4M: ACCTMIAC)]

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Electrical Installation 57-

4 Electrical Installation

4.1 Cable Connections

For the electrical installation of the CT please open at first the cover of the electronic box (4 screws). Below the display are the screw terminals for the cable connection.

4.1.1 Designation [models LT/ G5/ P3/ P7]

+8…36 VDC

Power supply

Opened LT/ G5/ P3/ P7 electronic box with terminal connections

GND

Ground (0 V) of power supply

GND

Ground (0 V) of internal in- and outputs

OUT-AMB

Analog output head temperature (mV)

OUT-TC

Analog output thermocouple (J or K)

OUT-mV/mA

Analog output object temperature (mV or mA)

F1-F3

Functional inputs

AL2

Alarm 2 (Open collector output)

3V SW

3 VDC, switchable, for laser-sightingtool

GND

Ground (0 V) for laser-sightingtool

BROWN

Temperature probe head

WHITE

Temperature probe head

GREEN

Detector signal (–)

YELLOW

Detector signal (+)

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4.1.2 Designation [models 1M/ 2M/ 3M]

+8…36 VDC

Power supply

Opened 1M/ 2M/ 3M electronic box with terminal connections

GND

Ground (0 V) of power supply

GND

Ground (0 V) of internal in- and outputs

AL2

Alarm 2 (Open collector output)

OUT-TC

Analog output thermocouple (J or K)

OUT-mV/mA

Analog output object temperature (mV or mA)

F1-F3

Functional inputs

GND

Ground (0 V)

3V SW

3 VDC, switchable, for laser-sightingtool

BROWN

Temperature probe head (NTC)

WHITE

Head ground

GREEN

Head power

YELLOW

Detector signal

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Electrical Installation 59-

4.1.3 Designation [models 4M]

+8…30 VDC

Power supply

Opened 4M electronic box with terminal connections

GND

Ground (0 V) of power supply

GND

Ground (0 V) of internal in- and outputs

AL2

Alarm 2 (Open collector output)

OUT-1

Analog output mA, mV, TCK

OUT-2

Analog output mA, mV, TCK

I/O1-I/O3

In- and outputs

GND

Ground (0 V)

Pink

3 VDC, switchable, for laser-sighting tool

Gray

Ground of PIN pink

BROWN

Temperature probe head (NTC)

WHITE

Head ground

GREEN

Head power

YELLOW

Detector signal

The supplied USB cable can be connected to the side of the electronics box. The device can be operated directly via the CompactPlus Connect software or the IRmobile app.

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The USB socket on the side is only intended for setup and service and not for continuous use.

4.1.4 Power supply Please use a stabilized power supply unit with an output voltage in the range of 8–36 VDC (CT 4M:

8-30 VDC) which can supply 100 mA. The ripple should be max. 200 mV.

Please do never connect a supply voltage to the analog outputs as this will destroy the output! The CT is not a 2-wire sensor!

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Electrical Installation 61-

4.1.5 Cable Assembling

The cable gland M12x1,5 allows the use of cables with a diameter of 3 to 5 mm. Remove the isolation from the cable (40 mm power supply, 50 mm signal outputs, 60 mm functional inputs). Cut the shield down to approximately 5 mm and spread the strands out. Extract about 4 mm of the wire isolation and tin the wire ends. Place the pressing screw, the rubber washer and the metal washers of the cable gland one after the other onto the prepared cable end. Spread the strands and fix the shield between two of the metal washers. Insert the cable into the cable gland until the limit stop. Screw the cap tight. Every single wire may be connected to the according screw clamps according to their colors.

Use shielded cables only. The sensor shield has to be grounded.

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4.2 Ground Connection

4.2.1 1M, 2M, 3M models

At the bottom side of the mainboard PCB you will find a connector (jumper) which has been placed from factory side as shown in the picture [bottom and middle pin connected]. In this position the ground connections (GND power supply/ outputs) are connected with the ground of the electronics housing.

To avoid ground loops and related signal interferences in industrial environments it might be necessary to interrupt this connection. To do this put the jumper in the opposite position [middle and top pin connected].

If the thermocouple output is used the connection GND – housing should be interrupted generally.

4.2.2 4M model

On the left side of the mainboard PCB you will find a black switch which is connecting factory-default the ground connections (GND power supply/ outputs) with the ground of the electronics housing.

To avoid ground loops and related signal interferences in industrial environments it might be necessary to interrupt this connection. For this purpose, the switch must be changed.

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Electrical Installation 63-

4.2.3 LT, LTF, LTH, G5, P3, P7 models

At the bottom side of the mainboard PCB you will find a connector (jumper) which has been placed from factory side as shown in the picture [left and middle pin connected]. In this position the ground connections (GND power supply/ outputs) are connected with the ground of the electronics housing.

To avoid ground loops and related signal interferences in industrial environments it might be necessary to interrupt this connection. To do this please put the jumper in the other position [middle and right pin connected].

If the thermocouple output is used the connection GND – housing should be interrupted generally.

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4.3 Exchange of the Sensing Head

From factory side the sensing head has already been connected to the electronics and the calibration code has been entered. Inside a certain model group any exchange of sensing heads and electronics is possible. The sensing heads and electronics of the CTfast models (LT15F and LT25F) and

CT 4M cannot be exchanged.

4.3.1 Entering of the Calibration Code

Every head has a specific calibration code, which is printed on the head cable. For a correct temperature measurement and functionality of the sensor this calibration code must be stored into the electronic box. The calibration code consists of 3 blocks (1M, 2M, 3M = 5 blocks) with 4 characters each.

Example:

A6FG

22KB

0AS0

Block 1

Block 2

Block 3

For entering the code please press the Up and Down key (keep pressed) and then the Mode key. The display shows HCODE and then the 4 signs of the first block. With Up and Down each sign can be changed; Mode switches to the next sign or next block. The entering of a new calibration code can also be made via the CompactConnect software (optional).

After exchanging a head the calibration code of the new head must be entered into the electronics.

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Electrical Installation 65-

You will find the calibration code on a label fixed on the head cable (near the electronics). Please do not remove this label or make sure the code is noted anywhere. The code is needed if the electronics has to be exchanged or in case of a necessary recalibration of the sensor.

After you have modified the head code a reset is necessary to activate the change.

[►6 Operating]

4.3.2 Sensing Head Cable

On all CT models (exception 3M, P3, P7) the sensing head cable can be shortened if necessary. On the models 1M, 2M and CTfast the sensing head cable can be shortened by max. 3 m. A shortening of the cable will cause an additional measuring error of about 0,1 K/ m. The 3M models are only available with 3 m cable.

On the CT models LT02, LT02H and LT10H the head cable must not be moved during the measurement.

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5 Outputs and Inputs

5.1 Analog Outputs

The CT has two analog output channels. With the CT 4M the outputs are freely selectable.

5.1.1 Output channel 1

This output is used for the object temperature. The selection of the output signal can be done via the programming keys [►6 Operating]. The software allows the programming of output channel 1 as an alarm output.

Output signal

Range

Connection pin on CT board

Voltage

0 ... 5 V

OUT-mV/mA

Voltage

0 ... 10 V

OUT-mV/mA

Current

0 ... 20 mA

OUT-mV/mA

Current

4 ... 20 mA

OUT-mV/mA

Thermocouple

TC J

OUT-TC (not for CT 4M)

Thermocouple

TC K

OUT-TC

5.1.2 Output channel 2 [LT/ G5/ P3/ P7 only] The connection pin OUT-AMB is used for output of the head temperature [-20-180 °C or -20-250 °C (on

LT02H and LT10H) as 0–5 V or 0–10 V signal]. The software allows the programming of output channel 2 as an alarm output. Instead of the head temperature T

Head

also the object temperature T

Obj

or electronic box

temperature T

Box

can be selected as alarm source.

According to the chosen output signal different connection pins on the mainboard are used (OUT-mV/mA or OUT-TC).

CAUTION: Please do never connect a supply voltage to the analog outputs as this will destroy the output. The CT is not a 2-wire sensor!

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Outputs and Inputs 67-

5.2 Digital Interfaces

CT sensors can be optionally equipped with an USB-, RS232-, RS485-, Profibus DP-*, Modbus RTU-* or Ethernet-

interface. If you want to install an interface, plug the interface board into the place provided, which is located beside the display. In the correct position the holes of the interface match with the thread holes of the electronic box. Now press the board down to connect it and use both M3x5 screws for fixing it. Plug the preassembled interface cable with the terminal block into the male connector of the interface board.

* Not for CT 4M available

The Ethernet interface requires at minimum 12 V supply voltage. Please pay attention to the notes on the according interface manuals.

5.3 Relay Outputs

The CT can be optionally equipped with a relay output. The relay board will be installed the same way as the digital interfaces. A simultaneous installation of a digital interface and the relay outputs is not possible. The relay board provides two fully isolated switches, which have the capability to switch max. 60 VDC/ 42 VAC

RMS

, 0,4 A DC/AC. A red LED shows the closed switch.

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The switching thresholds are in accordance with the values for alarm 1 and 2 [►5.6 Alarms]. The alarm values are set according to the ►1.6 Factory Default Settings.

To make advanced settings (change of low- and high alarm) a digital interface (USB, RS232) and the software is needed.

5.4 Functional Inputs (not for CT 4M)

The three functional inputs F1 – F3 can be programmed with the software only.

F1 (digital):

trigger (a 0 V level on F1 resets the hold functions)

F2 (analog):

external emissivity adjustment [0–10 V: 0 V ► ε = 0,1; 9 V ► ε = 1; 10 V ► ε = 1,1]

F3 (analog):

external compensation of ambient temperature/ the range is scalable via software

[0–10 V ► -40–900 °C / preset range: -20–200 °C]

F1-F3 (digital):

emissivity (digital choice via table)

A non-connected input represents: F1 = High | F2, F3 = Low.

[High level: ≥ +3 V…+36 V | Low level: ≤ +0,4 V…–36 V]

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Outputs and Inputs 69-

5.5 I/O pins (only for CT 4M)

The CT 4M has three digital pins which can be programmed as outputs (digital) or as inputs (digital or analog) using the CompactPlus Connect software. The following functions are available:

Function

I/O pin acts as

Description

Alarm

Output digital

Open collector output/ definition as High- or Low alarm via norm. open/ norm. close options in software dialog.

Valid Low

Input digital

The output follows the object temperature as long as there is a Low level at the I/O pin. After discontinuation of the Low level the last value will be held.

Valid High

Input digital

The output follows the object temperature as long as there is a High level at the I/O pin. After discontinuation of the High level the last value will be held.

Hold Low-High

Input digital

The last value will be held if there is a signal with a rising edge on the I/O pin.

Hold High-Low

Input digital

The last value will be held if there is a signal with a falling edge on the I/O pin.

Hold Reset Low

Input digital

Reset of Peak or valley hold (High-Low signal)

Hold Reset High

Input digital

Reset of Peak or valley hold (Low-High signal)

Emissivity external

Input analog

The emissivity value can be adjusted via a 0-10 V signal on the I/O pin (scaling possible via software).

Uncommitted value

Input analog

Display of a uncommitted value

Laser on Low

Input digital

Turning on the laser (Low signal)

Laser on High

Input digital

Turning on the laser (High signal)

External Ambient Compensation

Input analog

The ambient temperature will be determined by a voltage on the I/O-pin [0–10 V; range scalable].

External Transmitted Radiation

Input analog

The transmitted ambient temperature will be determined by a voltage on the I/O-pin [0–10 V; range scalable].

Low/High-level:

Via software

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5.6 Alarms

The CT has the following Alarm features:

5.6.1 Output channel 1 and 2 [channel 2 on LT/ G5/ P3/ P7 only]

To activate the according output channel has to be switched into digital mode. For this purpose the software CompactConnect/ CompactPlus Connect is required.

On the CT model 4M both outputs are freely selectable. Analog mA/mV, Alarm mA/mV and TCK are available.

All alarms (alarm 1, alarm 2, output channel 1 and 2 if used as alarm output) have a fixed hysterese of 2 K (CThot: 1 K).

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Outputs and Inputs 71-

Visual Alarms

These alarms will cause a change of the color of the LCD display and will also change the status of the optional relays interface. In addition the Alarm 2 can be used as open collector output at pin AL2 on the mainboard [24 V/ 50 mA].

From factory side the alarms are defined as follows:

Alarm 1

Norm. closed/ Low-Alarm

Alarm 2

Norm. open/ High-Alarm

For extended setup like definition as low or high alarm [via change of normally open/ closed], selection of the signal source [T

Proc

, T

Head

, T

Box

] a digital interface (e.g. USB, RS232) including the software

CompactConnect is needed.

On the CT model 4M visual alarms are independent of the alarm settings. In the CompactPlus Connect software these can be defined as desired.

Both of these alarms will have effect on the LCD color:

BLUE: alarm 1 active

RED: alarm 2 active

GREEN: no alarm active

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5.6.2 Open collector output / AL2:

• The transistor acts as a switch. In case of alarm, the contact is closed.

• A load/consumer (Relay, LED or a resistor) must always be connected.

• The alarm voltage (here 24 V) must not be connected directly to the alarm output (short

circuit).

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Operating 73-

6 Operating

After power up the unit the sensor starts an initializing routine for some seconds. During this time the display will show INIT. After this procedure the object temperature is shown in the display. The display backlight color changes according to the alarm settings [►5.6 Alarms].

6.1 Sensor Setup

The programming keys Mode, Up and Down enable the user to set the sensor on-site. The current measuring value or the chosen feature is displayed. With Mode the operator obtains the chosen feature, with

Up and Down the functional parameters can be selected – a change of parameters will have immediate effect. If no key is pressed for more than 10 seconds the display automatically shows the calculated object

temperature (according to the signal processing).

Factory Default Setting

To set the CT back to the factory default settings, please press at first the Down-key and then the Mode-key and keep both pressed for approx. 3 seconds. The display will show RESET for confirmation.

Pressing the Mode button again recalls the last called function on the display. The signal processing features Peak hold and Valley hold cannot be selected simultaneously.

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Display

Mode [Sample]

Adjustment Range

142.3C

Object temperature (after signal processing) [142,3 °C]

fixed

127CH

Head temperature [127 °C]

fixed

25CB

Box temperature [25 °C]

fixed

142CA

Current object temperature [142 °C]

fixed

ð MV5

Signal output channel 1 [0-5 V]

ð 0-20 = 0–20 mA/ ð 4-20 = 4–20 mA/ ð MV5 = 0–5 V/ ð MV10 = 0-10 V/ ð TCJ = thermocouple type J/ ð TCK = thermocouple type K

E0.970

Emissivity [0,970]

0,100 ... 1,100

T1.000

Transmissivity [1,000]

0,100 ... 1,100

A 0.2

Signal output Average [0,2 s]

A---- = inactive/ 0,1 … 999,9 s

P----

Signal output Peak hold [inactive]

P---- = inactive/ 0,1 … 999,9 s/ P oo oo oo oo = infinite

V----

Signal output Valley hold [inactive]

V---- = inactive/ 0,1 … 999,9 s/ V oo oo oo oo = infinite

u 0.0

Lower limit temperature range [0 °C]

depending on model/ inactive at TCJ- and TCK-output

n 500.0

Upper limit temperature range [500 °C]

depending on model/ inactive at TCJ- and TCK-output

[ 0.00

Lower limit signal output [0 V]

according to the range of the selected output signal

] 5.00

Upper limit signal output [5 V]

according to the range of the selected output signal

U °C

Temperature unit [°C]

°C/ °F

| 30.0

Lower alarm limit [30 °C]

depending on model

|| 100.0

Upper alarm limit [100 °C] AL2

depending on model

XHEAD

Ambient temperature compensation [head temperature]

XHEAD = head temperature/ -40,0 … 900,0 °C (for LT) as fixed value for compensation/ returning to XHEAD (head temperature) by pressing Up and Down together

M 01

Multidrop adress [1] (only with RS485 interface) RS422 mode

01 … 32 RS422 (Press Down button on M01)

B 9.6

Baud rate in kBaud [9,6]

9,6/ 19,2/ 38,4/ 57,6/ 115,2 kBaud

S ON

Laser Sighting (3 VDC switch to connection pin 3V SW)

ON/ OFF This menu item appears on first position on 1M/ 2M/ 3M models.

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Operating 75-

ð MV5

Selection of the Output signal. By pressing Up or Down the different output signals can be selected (see table).

E0.970

Setup of Emissivity. Pressing Up increases the value, Down decreases the value (also valid for all further functions). The emissivity is a material constant factor to describe the ability of the body to emit infrared energy [►10 Emissivity].

T1.000

Setup of Transmissivity. This function is used if an optical component (protective window, additional optics e.g.) is mounted between sensor and object. The standard setting is 1.000 = 100 % (if no protective window etc. is used).

A 0.2

Setup of Average time. In this mode an arithmetic algorithm will be performed to smoothen the signal. The set time is the time constant. This function can be combined with all other post processing functions. On 1M/ 2M/ 3M models the shortest value is 0,001 s (other models: 0,1 s) and can be increased/ decreased only by values of the power series of 2 (0,002, 0,004, 0,008, 0,016, 0,032, ...). If the value is set to 0.0 the display will show --- (function deactivated).

P----

Setup of Peak hold. In this mode the sensor is waiting for descending signals. If the signal descends the algorithm maintains the previous signal peak for the specified time. After the hold time the signal will drop down to the second highest value or will descend by 1/8 of the difference between the previous peak and the minimum value during the hold time. This value will be held again for the specified time. After this the signal will drop down with slow time constant and will follow the current object temperature. If the value is set to 0.0 the display will show --- (function deactivated).

V----

Setup of Valley hold. In this mode the sensor waits for ascending signals. The definition of the algorithm is according to the peak hold algorithm (inverted). If the value is set to 0.0 the display will show --- (function deactivated).

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-76 -

Signal graph with P----

▬ TProcess with Peak Hold (Hold time = 1s)

▬ TActual without post processing

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Operating 77-

u 0.0

Setup of the Lower limit of temperature range. The minimum difference between lower and upper limit is 20 K. If you set the lower limit to a value ≥ upper limit the upper limit will be adjusted to [lower limit + 20 K] automatically.

n 500.0

Setup of the Upper limit of the temperature range. The minimum difference between upper and lower limit is 20 K. The upper limit can only be set to a value = lower limit + 20 K.

[ 0.00

Setup of the Lower limit of the signal output. This setting allows an assignment of a certain signal output level to the lower limit of the temperature range. The adjustment range corresponds to the selected output mode (e.g. 0-5 V).

] 5.00

Setup of the Upper limit of the signal output. This setting allows an assignment of a certain signal output level to the upper limit of the temperature range. The adjustment range corresponds to the selected output mode (e.g. 0-5 V).

U °C

Setup of the Temperature unit [°C or °F].

| 30.0

Setup of the Lower alarm limit. This value corresponds to Alarm 1 [►5.6 Alarms] and is also used as threshold value for relay 1 (if the optional relay board is used).

|| 100.0

Setup of the Upper alarm limit. This value corresponds to Alarm 2 [►5.6 Alarms] and is also used as threshold value for relay 2 (if the optional relay board is used).

XHEAD

Setup of the Ambient temperature compensation. In dependence on the emissivity value of the object a certain amount of ambient radiation will be reflected from the object surface. To compensate this impact, this function allows the setup of a fixed value which represents the ambient radiation.

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-78 -

Especially if there is a big difference between the ambient temperature at the object and the head temperature the use of Ambient temperature compensation is recommended.

M 01

Setup of the Multidrop address. In a RS485 network each sensor will need a specific address. This menu item will only be shown if a RS485 interface board is plugged in. For using the RS422 mode, press once the down button on M01.

B 9.6

Setup of the Baud rate for digital data transfer.

S ON

Activating (ON) and Deactivating (OFF) of an optional Sighting Laser [►3.3 Further Accessories]. By pressing Up or Down a voltage of 3 VDC will be switched to the 3V SW

connection pin on the mainboard.

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Operating 79-

CT 4M

Display

Mode [Sample]

Display

TPROC 320.9

Process temperature (after signal processing) [320,9 °C]

fixed

T INT 50.1

Detector Temperature [50,1 °C]

fixed

T BOX 38.6

Electronic box Temperature [38,6 °C]

fixed

EMISS 1.000

Emissivity [1,000]

0,100 ... 1,100

TRANS 1.000

Transmission [1,000]

0,100 ... 1,100

AVG 0.020

Signal output Average [0,020 s]

AVG 0.000 = inactive/ 0,1 … 65 s

HOLD

H TIM H TH H HY

OFF PEAK/ VALL

APEAK/ AVALL APEAK/ AVALL

OFF/ PEAK/ VALL/ APEAK/ AVALL

0…65 s (65 = infinity)

Starting temperature…end temperature Hysteresis setting in °C/°F

U °C

Temperature unit [°C]

°C/ °F

M 01

Multidrop address [1] (only with RS485 interface) RS422 mode

01 … 32

RS422 (Press Down button on M01)

BAUD 115.2K

Baud rate in kBaud [115]

115.2 / 921.6 kBaud

S ON

Laser Sighting

ON/ OFF

EMISS 1.000

TRANS 1.000

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-80 -

AVG 0.020

0.0 the function is deactivated.

HOLD

Setup of signal processing. By pressing Up or Down the mode can be selected. PEAK: Setup of Peak hold. In this mode the sensor is waiting for descending signals. If

the signal descends the algorithm maintains the previous signal peak for the specified time. After the hold time the signal will drop down to the second highest value or will descend by 1/8 of the difference between the previous peak and the minimum value during the hold time. This value will be held again for the specified time. After this the signal will drop down with slow time constant and will follow the current object temperature. If the value is set to 0.0 the display will show --- (function deactivated).

VALL: Setup of Valley hold. In this mode the sensor waits for ascending signals. The definition of the algorithm is according to the peak hold algorithm (inverted). If the value is set to 0.0 the function deactivated.

APEAK (Advanced Peak Hold): In this mode the sensor waits for local peak values. Peak values which are lower than their predecessors will only be taken over if the temperature has fallen below the Threshold value beforehand. If Hysteresis is activated a peak in addition must decrease by the value of the hysteresis before the algorithm takes it as a new peak value.

AVALL (Advanced Valley Hold): This mode is the inverted function of Advanced Peak hold. The sensor waits for local minima. Minimum values which are higher than their predecessors will only be taken over if the temperature has exceeded the Threshold value beforehand. If Hysteresis is activated a minima in addition must increase by the

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Operating 81-

value of the hysteresis before the algorithm takes it as a new minimum value.

U °C

Setup of the Temperature unit [°C or °F].

M 01

BAUD 115.2K

Setup of the Baud rate for digital data transfer.

S OFF

Activating (ON) and Deactivating (OFF) of an optional Sighting Laser [►3.3 Further Accessories]. By pressing Up or Down a voltage of 3 VDC will be switched to the PINK

connection pin on the mainboard.

Peak picking function

For a detection of fast hotspots (detection time 90 µs) the averaging time must be set to 0.0 s.

You can display the process temperature TProc (with post processing) and also the current average temperature TAvg (without any post processing) in the diagram. In this way the result and functionality of the selected post processing features can easily be traced and controlled.

Signal Graphs

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-82 -

▬ T

Proc

with Peak Hold (Hold time = 1s)

▬ T

Avg

without post processing

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Operating 83-

▬ T

Proc

with Advanced peak hold (Threshold = 80 °C/ Hysteresis = 20 °C)

▬ T

Avg

without post processing

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6.2 Error messages

The display of the sensor can show the following error messages:

LT/ G5/ P3/ P7 models:

OVER

Object temperature too high

UNDER

Object temperature too low

^^^CH

Head temperature too high

vvvCH

Head temperature too low

1M/ 2M/ 3M models:

1. Digit:

No error

Head temperature probe short circuit to GND

Box temperature too low

Box temperature too high

Box temperature probe disconnected

Box temperature probe short circuit to GND

2. Digit:

No error

Object temperature too high

Head temperature too low

Head temperature too high

Head temperature probe disconnected

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IRmobile app 85-

7 IRmobile app

The CT sensor has a direct connection to an Android smartphone or tablet. All you have to do is download the IRmobile app for free in the Google Play store. This can also be done via the QR code. An IR app connector is required for connection to the device (Part-No.: ACCTIAC). With the CT 4M, the supplied USB cable can be directly used.

With IRmobile you are able to monitor and analyse your infrared temperature measurement on a connected smartphone or tablet. This app works on most Android devices running 5.0 or higher with a micro USB or USB-C port supporting USB-OTG (On The Go). It is easy to operate: after you plug your CT device to your phone or tablet, the app will start automatically. The device is powered by your phone. Different digital temperature values can be displayed in the temperature time diagram. You can easily zoom-in the diagram to see more details and small signal changes.

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-86 -

IRmobile app features:

➢ Temperature time diagram with zoom function ➢ Digital temperature values ➢ Setup of emissivity, transmissivity and other parameters ➢ Scaling of the analog output and setting of the alarm output ➢ Change of temperature unit: Celsius or Fahrenheit ➢ Saving/loading of configurations and T/t diagrams ➢ Restore factory default sensor settings ➢ Integrated simulator

Supported for:

➢ Optris pyrometers: Compact series, high performance series and video thermometers ➢ Optris IR cameras: PI and Xi series ➢ For android devices running 5.0 or higher with a micro USB or USB-C port supporting USB-OTG (On

The Go)

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Software CompactConnect/ CompactPlus Connect 87-

8 Software CompactConnect/ CompactPlus Connect

8.1 Installation

Unzip and open the program and start the

The installation wizard will place a launch icon on the desktop and in the start menu: [Start]\Programs\CompactConnect or [Start]\Programs\CompactPlus Connect. If you want to uninstall the software from your system, please use the uninstall icon in the start menu.

• A detailed description is provided on the downloaded software package.

• Software CompactConnect for LT/ LTF/ LTH/ 1M/ 2M/ 3M/ G5/ P3/ P7

• Software CompactPlus Connect for 4M

Minimum system requirements:

▪ Windows 7, 8, 10 ▪ USB interface ▪ Hard disc with at least 30 MByte free space ▪ At least 128 MByte RAM

CDsetup.exe. Follow the instructions of the wizard until the installation is finished.

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-88 -

CompactConnect

Main Features:

▪ Graphic display for temperature trends and

automatic data logging for analysis and documentation

▪ Complete sensor setup and remote controlling ▪ Adjustment of signal processing functions ▪ Programming of outputs and functional inputs

CompactPlus Connect

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Software CompactConnect/ CompactPlus Connect 89-

8.2 Communication Settings

8.2.1 Serial Interface

Baudrate:

9,6...115,2 kBaud (adjustable on the unit or via software) CT 4M: 115,2 or 921,6 kBaud (adjustable on the unit or via software)

Data bits:

Parity:

none

Stop bits:

Flow controll:

off

8.2.2 Protocol

All sensors of the CT series are using a binary protocol. Alternatively, they can be switched to an ASCII protocol (only LT versions). To get a fast communication the protocol has no additional overhead with CR, LR or ACK bytes.

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-90 -

8.2.3 ASCII protocol

The models LT02, LT15, LT22, LT02H and LT10H can be switched to ASCII by changing the first figure of block 3 of the head calibration code. This figure has to be changed from 0 to 4 (old sensing head) or 8 to C (new sensing head). [►4.3 Exchange of the Sensing Head]

Old sensing head

CTex (+1)

ASCII (+4)

CTex + ASCII (+5)

0 1 4

New sensing head

8 9 C D

Example new sensing head:

Binary protocol:

A6FG – 22KB – 8AS0

ASCII protocol:

A6FG – 22KB – CAS0

Block1 Block2 Block3

After you have modified the head code a reset is necessary to activate the change.

[►6 Operating]

To switch to the ASCII protocol you can use also the following command:

Decimal:

131

HEX:

0x83

Data, Answer:

byte 1

Result:

0 – Binary protocol 1 – ASCII-protocol

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Software CompactConnect/ CompactPlus Connect 91-

8.2.4 Saving of parameter settings

After power on of the CT sensor the flash mode is active. It means, changed parameter settings will be saved in the CT-internal Flash-EEPROM and will be kept also after the sensor is switched off. In case settings should be changed quite often or continuously the flash mode can be switched off by using the following command:

Decimal:

112

HEX:

0x70

Data, Answer:

byte 1

Result:

0 – Data will be written into the flash memory 1 – Data will not be written into the flash memory

If the flash mode is deactivated, all settings will only be kept as long as the unit is powered. If the unit is switched off and powered on again all previous settings are lost. The command 0x71 will poll the current status.

You will find a detailed protocol and command description on the software package in the directory: \Commands.

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-92 -

9 Basics of Infrared Thermometry

Depending on the temperature each object emits a certain amount of infrared radiation. A change in the temperature of the object is accompanied by a change in the intensity of the radiation. For the measurement of “thermal radiation” infrared thermometry uses a wave-length ranging between 1 µm and 20 µm. The intensity of the emitted radiation depends on the material. This material contingent constant is described with the help of the emissivity which is a known value for most materials (►10 Emissivity).

Infrared thermometers are optoelectronic sensors. They calculate the surface temperature on the basis of the emitted infrared radiation from an object. The most important feature of infrared thermometers is that they enable the user to measure objects contactless. Consequently, these products help to measure the temperature of inaccessible or moving objects without difficulties. Infrared thermometers basically consist of the following components:

▪ lens ▪ spectral filter ▪ detector ▪ electronics (amplifier/ linearization/ signal processing)

The specifications of the lens decisively determine the optical path of the infrared thermometer, which is characterized by the ratio Distance to Spot size. The spectral filter selects the wavelength range, which is relevant for the temperature measurement. The detector in cooperation with the processing electronics transforms the emitted infrared radiation into electrical signals.

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Emissivity 93-

10 Emissivity

10.1 Definition

The intensity of infrared radiation, which is emitted by each body, depends on the temperature as well as on the radiation features of the surface material of the measuring object. The emissivity (ε – Epsilon) is used as a material constant factor to describe the ability of the body to emit infrared energy. It can range between 0 and 100 %. A “blackbody” is the ideal radiation source with an emissivity of 1,0 whereas a mirror shows an emissivity of 0,1. If the emissivity chosen is too high, the infrared thermometer may display a temperature value which is much lower than the real temperature – assuming the measuring object is warmer than its surroundings. A low emissivity (reflective surfaces) carries the risk of inaccurate measuring results by interfering infrared radiation emitted by background objects (flames, heating systems, chamottes). To minimize measuring errors in such cases, the handling should be performed very carefully and the unit should be protected against reflecting radiation sources.

10.2 Determination of unknown Emissivity

► First, determine the actual temperature of the measuring object with a thermocouple or contact sensor.

Second, measure the temperature with the infrared thermometer and modify the emissivity until the displayed result corresponds to the actual temperature.

► If you monitor temperatures of up to 380 °C you may place a special plastic sticker (emissivity dots – part

number: ACLSED) onto the measuring object, which covers it completely. Now set the emissivity to 0,95

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-94 - and take the temperature of the sticker. Afterwards, determine the temperature of the adjacent area on

the measuring object and adjust the emissivity according to the value of the temperature of the sticker.

► Cove a part of the surface of the measuring object with a black, flat paint with an emissivity of 0,98. Adjust

the emissivity of your infrared thermometer to 0,98 and take the temperature of the colored surface. Afterwards, determine the temperature of a directly adjacent area and modify the emissivity until the measured value corresponds to the temperature of the colored surface.

CAUTION: On all three methods the object temperature must be different from ambient temperature.

10.3 Characteristic Emissivity

In case none of the methods mentioned above help to determine the emissivity you may use the emissivity tables ►Appendix A – Table of Emissivity for metals and Appendix B – Table of Emissivity for non- metals. These are average values, only. The actual emissivity of a material depends on the following factors:

▪ temperature ▪ measuring angle ▪ geometry of the surface ▪ thickness of the material ▪ constitution of the surface (polished, oxidized, rough, sandblast) ▪ spectral range of the measurement ▪ transmissivity (e.g. with thin films)

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Appendix A – Table of Emissivity for metals 95-

Appendix A – Table of Emissivity for metals

1,0 µm 1,6 µm 5,1 µm 8-14 µm

Aluminium non oxidized 0,1-0,2 0,02-0,2 0,02-0,2 0,02-0,1

polished 0,1-0,2 0,02-0,1 0,02-0,1 0,02-0,1 roughened 0,2-0,8 0,2-0,6 0,1-0,4 0,1-0,3 oxidized 0,4 0,4 0,2-0,4 0,2-0,4

Brass polished 0,35 0,01-0,05 0,01-0,05 0,01-0,05

roughened 0,65 0,4 0,3 0,3 oxidized 0,6 0,6 0,5 0,5

Copper polished 0,05 0,03 0,03 0,03

roughened 0,05-0,2 0,05-0,2 0,05-0,15 0,05-0,1

oxidized 0,2-0,8 0,2-0,9 0,5-0,8 0,4-0,8 Chrome 0,4 0,4 0,03-0,3 0,02-0,2 Gold 0,3 0,01-0,1 0,01-0,1 0,01-0,1 Haynes alloy 0,5-0,9 0,6-0,9 0,3-0,8 0,3-0,8 Inconel electro polished 0,2-0,5 0,25 0,15 0,15

sandblast 0,3-0,4 0,3-0,6 0,3-0,6 0,3-0,6

oxidized 0,4-0,9 0,6-0,9 0,6-0,9 0,7-0,95 Iron non oxidized 0,35 0,1-0,3 0,05-0,25 0,05-0,2

rusted 0,6-0,9 0,5-0,8 0,5-0,7

oxidized 0,7-0,9 0,5-0,9 0,6-0,9 0,5-0,9

forged, blunt 0,9 0,9 0,9 0,9

molten 0,35 0,4-0,6 Iron, casted non oxidized 0,35 0,3 0,25 0,2

oxidized 0,9 0,7-0,9 0,65-0,95 0,6-0,95

Material

typical Emissivity

Spectral response

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-96 -

1,0 µm 1,6 µm 5,1 µm 8-14 µm

Lead polished 0,35 0,05-0,2 0,05-0,2 0,05-0,1

roughened 0,65 0,6 0,4 0,4

oxidized 0,3-0,7 0,2-0,7 0,2-0,6

Magnesium 0,3-0,8 0,05-0,3 0,03-0,15 0,02-0,1 Mercury 0,05-0,15 0,05-0,15 0,05-0,15 Molybdenum non oxidized 0,25-0,35 0,1-0,3 0,1-0,15 0,1

oxidized 0,5-0,9 0,4-0,9 0,3-0,7 0,2-0,6

Monel (Ni-Cu) 0,3 0,2-0,6 0,1-0,5 0,1-0,14 Nickel electrolytic 0,2-0,4 0,1-0,3 0,1-0,15 0,05-0,15

oxidized 0,8-0,9 0,4-0,7 0,3-0,6 0,2-0,5

Platinum black 0,95 0,9 0,9 Silver 0,04 0,02 0,02 0,02 Steel polished plate 0,35 0,25 0,1 0,1

rustless 0,35 0,2-0,9 0,15-0,8 0,1-0,8

heavy plate 0,5-0,7 0,4-0,6

cold-rolled 0,8-0,9 0,8-0,9 0,8-0,9 0,7-0,9

oxidized 0,8-0,9 0,8-0,9 0,7-0,9 0,7-0,9

Tin non oxidized 0,25 0,1-0,3 0,05 0,05 Titanium polished 0,5-0,75 0,3-0,5 0,1-0,3 0,05-0,2

oxidized 0,6-0,8 0,5-0,7 0,5-0,6

Wolfram polished 0,35-0,4 0,1-0,3 0,05-0,25 0,03-0,1 Zinc polished 0,5 0,05 0,03 0,02

oxidized 0,6 0,15 0,1 0,1

Spectral response

Material

typical Emissivity

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Appendix B – Table of Emissivity for non-metals 97-

Appendix B – Table of Emissivity for non-metals

1,0 µm 2,2 µm 5,1 µm 8-14 µm

Asbestos 0,9 0,8 0,9 0,95 Asphalt 0,95 0,95 Basalt 0,7 0,7 Carbon non oxidized 0,8-0,9 0,8-0,9 0,8-0,9

graphite 0,8-0,9 0,7-0,9 0,7-0,8 Carborundum 0,95 0,9 0,9 Ceramic 0,4 0,8-0,95 0,8-0,95 0,95 Concrete 0,65 0,9 0,9 0,95 Glass plate 0,2 0,98 0,85

melt 0,4-0,9 0,9 Grit 0,95 0,95 Gypsum 0,4-0,97 0,8-0,95 Ice 0,98 Limestone 0,4-0,98 0,98 Paint non alkaline 0,9-0,95 Paper any color 0,95 0,95 Plastic >50 µm non transparent 0,95 0,95 Rubber 0,9 0,95 Sand 0,9 0,9 Snow 0,9 Soil 0,9-0,98 Textiles 0,95 0,95 Water 0,93

Wood natural 0,9-0,95 0,9-0,95

Material

typical Emissivity

Spectral response

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-98 -

Appendix C – Smart Averaging

The average function is generally used to smoothen the output signal. With the adjustable parameter time this function can be optimal adjusted to the respective application. One disadvantage of the average function is that fast temperature peaks which are caused by dynamic events are subjected to the same averaging time. Therefore those peaks can only be seen with a delay on the signal output. The function Smart Averaging eliminates this disadvantage by passing those fast events without averaging directly through to the signal output.

Signal graph with Smart Averaging function

Signal graph without Smart Averaging function

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Appendix D – Declaration of Conformity 99-

Appendix D – Declaration of Conformity

optris CT-MA-E2021-04-A

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Optris OPTCTLT20CB8, OPTCTLT20CB15, OPTCTLT20CB3, OPTCTLT20 User manual

Specifications and Main Features

Frequently Asked Questions

User Manual