ITS Telecom PA 4 Series Operating Manual
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ITS Telecom PA 4 Series Operating Manual

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Operating manual PA 4x, 5x, 6x
Pyrometer CellaTemp
PA 4x, 5x, 6x
Mat. No.: 101 3032 01/2023

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  • Page 1 Operating manual PA 4x, 5x, 6x Pyrometer CellaTemp PA 4x, 5x, 6x Mat. No.: 101 3032 01/2023...
  • Page 2 Operating manual PA 4x, 5x, 6x Copyright prohibits the reproduction or distribution of this instruction manual, including text, photographs or images contained herein, in whole or in part, for any purpose whatsoever, without prior consent of the author. This applies to any form of mechanical or electronic repro- duction as well as to electronic transmission in any form through any medium.

  • Page 3: Table Of Contents

    Operating manual PA 4x, 5x, 6x Contents Miscellaneous ..................1 Information about this manual ..................1 Explanation of symbols ....................1 Liability and Warranty ....................1 Copyright ........................2 Safety ....................2 Intended use ....................... 2 User’s responsibility ....................3 Safety requirements ....................
  • Page 4 Operating manual PA 4x, 5x, 6x 7.4.1 Green Status LED ....................34 7.4.2 Activate Laser ......................34 7.4.3 Video camera settings ....................35 Simulate current signals for analogue output Ao1 and Ao2 (configuration layer: C100) ..........................35 Setting Parameters at the device ............. 36 Configuration level ....................
  • Page 5 Operating manual PA 4x, 5x, 6x Field of View Diagram (MR 650 – 1700 °C) ............80 24.1 Technical Data PA 43 (MR 750 – 3000 °C) ........86 Field of View Diagram PA 43 (MR 750 – 3000 °C) ..........87 25.1 Technical Data PA 43 AF 17/ 18 ............
  • Page 6 Operating manual PA 4x, 5x, 6x...

  • Page 7: Miscellaneous

    Operating manual PA 4x, 5x, 6x Miscellaneous Information about this manual The purpose of the Operating Manual is to provide the user with all nec- essary information to be able to install the pyrometer and any necessary accessories. Before starting installation, be sure to read and understand this entire manual, in particular the chapter on safety! The instructions contained in this manual, especially those concerning safety, as well as site-specific regulations governing UV radiation must be complied with at all times!

  • Page 8: Copyright

    Operating manual PA 4x, 5x, 6x Copyright This Operating Manual should be treated as confidential. It is solely in- tended for use by persons involved with the instrument. This manual may not be made available to a third party without prior Manufacturer’s consent.

  • Page 9: User's Responsibility

    Operating manual PA 4x, 5x, 6x User’s responsibility The pyrometer may only be used when it is in perfect working condition. Safety requirements The instrument works with an operating voltage of 24 VDC. The voltage re- quired for operation must be supplied by a separate power supply. This power supply unit must conform to directive DIN IEC 61010.

  • Page 10: General Description

    Operating manual PA 4x, 5x, 6x General Description The two-colour pyrometer CellaTemp PA measures the intensity of infra- red radiation at two different wavelengths. The ratio of these two intensi- ties is proportional to the temperature. Thus a two-colour pyrometer supplies a constant measurement signal even with weakened signals, caused, for example, by vapour and dirt in the sighting path, condensed optical lenses or changing surface properties of the target.
  • Page 11 Operating manual PA 4x, 5x, 6x When ambient temperatures are higher than the admissible working temperature, the output current is > 20.5 mA. CellaTemp PA also features an analogue voltage input which can be used as an alternative to current output 2. The emissivity factor or a cor- rection for reflected ambient temperature can be controlled using this voltage input.

  • Page 12: Operating Controls And Display

    Operating manual PA 4x, 5x, 6x Operating Controls and Display The rear panel of the CellaTemp PA has a 4-digit display and 3 push- buttons. The display shows the current temperature or, during configura- tion using the push-buttons, the display will show the corresponding pa- rameter.

  • Page 13: Quick Reference Guide

    Operating manual PA 4x, 5x, 6x Quick Reference Guide PA Connector Pin Assignment Shielding 1 = white + 24 V DC 2 = brown Digital in- / output 1 3 = green Analogue output 2/ analogue input 4 = yellow Analogue output 1 5 = grey Serial interface RS485 (A) (Tx-/D-)

  • Page 14: Power Requirement 24 V Dc

    Operating manual PA 4x, 5x, 6x Power Requirement 24 V DC The instrument works with an operating voltage of 24 V DC. The voltage required for operation must be supplied by a separate power supply. This power supply unit must conform to directive DIN IEC 61010. The supply voltage is ...

  • Page 15: Switching Output

    Operating manual PA 4x, 5x, 6x yellow green VK 02/A Load maximal 500 Ω For all pyrometers of the PA Series the current outputs are short-circuit- proof and share one ground connection via pin 8 of the connector. Each current output can be individually scaled and can be set either at the display or via interface.

  • Page 16: Getting Started

    Operating manual PA 4x, 5x, 6x white +24 V + 24 V = 30 mA 24 V DC brown 51 KΩ relay bulb brown Digital input 1 blue Digital input 2 Ground VK 02/A See Chapter 7.2.2 for more information on configuration. Getting Started General installation tips Install the pyrometer in a location where it will not be unnecessarily ex-...

  • Page 17: Pyrometers With Laser Sighting

    Operating manual PA 4x, 5x, 6x When aiming the pyrometer with through-the-lens sighting to a target, both the targeted object and the target marker (distinctly marked circled spot in the viewfinder) must appear in sharp focus simultaneously. The measured object must completely fill the target circle in the viewfinder. A variable polarising filter is available to provide eye protection.

  • Page 18: 5.4.2 Laser Power

    Operating manual PA 4x, 5x, 6x  Only use the laser to align and focus the pyrometer. Deactive the laser immediately afterwards. Alternatively, the laser will automat- ically switch off after 1 - 15 minutes.  Never look directly into the laser beam path. ...

  • Page 19: 5.4.4 Laser Warning Label Must Be Visible

    Operating manual PA 4x, 5x, 6x 5.4.4 Laser warning label must be visible! If the pyrometer is installed within a machine or equipment in such a way that the instrument’s warning label is visibly blocked, additional laser warning labels (not included in scope of delivery) must be affixed to the equipment or accessory in immediate vicinity to the laser beam emission path opening.

  • Page 20: Setting Emissivity (Spectral Mode)

    Operating manual PA 4x, 5x, 6x ] . After that, the display panel will resume showing the temperature reading. Parameter configuration Explanation layer EPS.Q C001 Ratio correction (see chapter 5.8) Lower limit of temperature span AO1._ C010 analogue output Ao1(see chapter 5.11).

  • Page 21: Setting The Emissivity Ratio (Two-Colour/Ratio Mode)

    Operating manual PA 4x, 5x, 6x Setting the Emissivity Ratio (two-colour/ratio mode) When the radiation properties of the target object’s surface (emissivity) differ at two different wavelengths, or when interferences in the field of view—such as dust or steam—do not weaken the signal to the same degree at each wavelength, the pyrometer can be adjusted by setting the ratio of these two emissivity coefficients.

  • Page 22: Parameterisation Pa 69 With Eerc Algorithm

    Operating manual PA 4x, 5x, 6x CAUTION! It is strongly recommended to use only approved protective windows specified by the manufacturer, which remain neu- tral regarding the wavelengths. If you use commercial glass there is a risk of a faulty measurement due to selective influ- ences.
  • Page 23 Operating manual PA 4x, 5x, 6x Display the measured values on the pyrometer. Switch to configuration level C020. Note the following temperatures: - Ratio temperature before EERC algorithm Q.PR. - Lambda 2 temperature L2. Displaying the measured values via CellaView Start CellaView and create a new measurement series with the following temperatures: Measurement temperature (ʎ2) and Measurement temperature Premem...

  • Page 24: Output Current Range

    Operating manual PA 4x, 5x, 6x Set the premem (ratio) temperature via parameter C001 EPS.Q and the temperature (ʎ2) via parameter C003 EPS.2 to the de- termined object temperature. Then adjust the EERC parameter so that the measured temperature of the contact measurement is displayed and the fluctuation range is as small as possible.

  • Page 25: Functioning Of The Pyrometer

    Operating manual PA 4x, 5x, 6x Functioning of the pyrometer Internal signal processing Lambda 1 peak value Sensor Calculate temp. of Segmented Filter Lambda 1 (λ target object Linearsation Lambda 2 (λ Lambda 2 PreMax (λ PreMax PreMax (λ PreMax Quotient Calculate temp.

  • Page 26: Configuration And Setup

    Operating manual PA 4x, 5x, 6x Configuration and Setup Signal Conditioning 7.1.1 Emissivity and Transmittance (Spectral mode) Besides the emissivity correction (mentioned in Chapter 5.6), a pyrome- ter must be adjusted for the transmission properties of any supplemen- tary lens and/or protective window screwed onto the pyrometer. Set the pyrometer for the specific transmission factor (a percentage value) which is indicated either in the products’s data sheet or on the lens itself.

  • Page 27: Dirt Alert (Two-Colour/Ratio Mode)

    Operating manual PA 4x, 5x, 6x Target object = 900 °C Emissivity  < 1 Reflection  > 0 Furnace radiation T = 950 °C Back Source of extraneous radiation. Example: furnace 950 °C 7.1.3 Dirt Alert (two-colour/ratio mode) CellaTemp two colour pyrometers feature an integrated contamination detection function.

  • Page 28: 7.1.4 Temperature Offset Using Linear Interpolation

    Operating manual PA 4x, 5x, 6x dirty quartz window dirt 7.1.4 Temperature offset using linear interpolation Temperature before offset When necessary, CellaTemp PA allows you to program an offset for the temperature reading reported. The offset correction can be configured individually with a minimum of 2 and a maximum of 10 interpolating points (X/Y nodes).

  • Page 29: 7.1.5 Signal Smoothing Filter

    Operating manual PA 4x, 5x, 6x 7.1.5 Signal Smoothing Filter When the target object’s temperature is erratic, it makes sense to smooth these temperature fluctuations in order to stabilize the signal. The greater the time constant t (user definable), the lower the effect of these fluctuations on the yielded temperature reading.
  • Page 30 Operating manual PA 4x, 5x, 6x value can be shown on the rear panel display and/or transmitted to the current output for further processing. Min/Max Memory In this mode—also called peak picker—the pyrometer determines the highest or lowest temperature reading and keep the temperature read- ing.
  • Page 31 Operating manual PA 4x, 5x, 6x target object in the pyrometer’s field of view temp. reading with double max. buffer holdtime temp. measurement without double max. buffer time Automatic temperature detection (ATD) function** This function serves to automatically detect the temperature during manufacturing processes with discontinuous or intermittent material flow, for example molten metal casting at foundries.
  • Page 32 Operating manual PA 4x, 5x, 6x T.ACT When the conditions are fulfilled, the sampling time will begin ( T.ACT Sampling time ( ) During the sampling time the temperature is detected and stored as a temperature val-  NOTE ! If the parameter T.ACT= 0 the algorithm of the ATD function will detect automatically the end of the discontinuous process.
  • Page 33 Operating manual PA 4x, 5x, 6x When sampling is completed, the average temperature value or „0“ will be output. At the same time, an impulse is generated which can be used ATR.Q for the digital outputs. Enter as the source and set the hold time to 0.5 s.

  • Page 34: I/O Configuration

    Operating manual PA 4x, 5x, 6x Peak Picker for Discontinuous Processes 1700 1500 1300 Sampling Time Cut-off interval time delay Limit 2 1100 Limit 1 12:00 12:07 12:14 12:21 12:28 12:36 Time [min] Peak Picker for Discontinuous Processes I/O Configuration 7.2.1 Selectable current output range You will need to define the current loop scale and define a source for an analogue output signal.

  • Page 35: 7.2.2 Digital Outputs

    Operating manual PA 4x, 5x, 6x The desired current output range of either 0 – 20 mA or 4 – 20 mA can be configured as an absolute setting. Alternatively, the current range can be coupled to the specific voltages of Switching Output 1 or 2 . 0 V ->...
  • Page 36 Operating manual PA 4x, 5x, 6x Internal device temperature  Status Signal ATD function. Triggered by ATD function Lambda 1 at the end of the measuring time Triggered by ATD function Lambda 2 at the end of the measuring time Triggered by ATD function ratio mode at the end of the measuring time ATD function Lambda 1 indicate the measuring time...

  • Page 37: 7.2.3 Function „Level

    Operating manual PA 4x, 5x, 6x 7.2.3 Function „Level“ Temperature [°] Switching thresh- old = “level” Hysteresis Digital output [V] 24 V Switch signal with hold time = 0 and delay time = 0 s Delay time Delay time Digital output [V] Hold time Hold time 24 V...

  • Page 38: 7.2.4 "Range" Function

    Operating manual PA 4x, 5x, 6x 7.2.4 “Range” Function Temp. [°C] Switching threshold = „Range“ Digital output [V] 24 V Switch signal with hold time = 0 and delay time = 0 s Delay time Delay time Digital output [V] Hold time Hold time 24 V...

  • Page 39: Digital Inputs

    Operating manual PA 4x, 5x, 6x Digital inputs If you want to use the digital output as an input, you must first manually deactivate the digital output and configure the following parameters:  Select a current output range (either 0 – 20 mA or 4 – 20 mA) for Ao1/Ao2 ...

  • Page 40: Analogue Input To Control Emissivity Ratio (Two-Colour/Ratio Mode)

    Operating manual PA 4x, 5x, 6x 7.3.2 Analogue input to control emissivity ratio (two-colour/ratio mode) Sometimes particular process conditions will require that the ratio of the two emissivies be changed from a remote source such as by external control. This can be achieved using the analogue input. First, manually deactivate the current output 2.

  • Page 41: 7.4.3 Video Camera Settings

    Operating manual PA 4x, 5x, 6x 7.4.3 Video camera settings Pyrometer models with an integrated video camera feature the following operating modes. Target Brightness Control (TBC) settings  Exposure control only applies to the measurement area. ( C.TBC  Exposure control applies to the entire field of view. ( C.TBC = off) As a standard, the target brightness control feature works in the target...

  • Page 42: Setting Parameters At The Device

    Operating manual PA 4x, 5x, 6x rometer rear panel to simulate a temperature reading, which is applied as an output current signal scaled to the selected current range. The ap- C100 propriate parameter can be accessed via configuration layer . If the pyrometer is set up correctly, the downstream controller should indi- cate the values you have entered (only within the scaled range).
  • Page 43 Operating manual PA 4x, 5x, 6x Absolute minimum Absolute lower limit [%], two-colour temp. read- CH.A.% ing invalid Emissivity Temperature offset using linear interpo- LIN.Q 2-10: number of nodes used lation (user configu- rable table) L. X1 Node x 1 - 10 Signal input (initial value) node n L.

  • Page 44: Temperature Measurement One-Colour/Spectral Channel

    Operating manual PA 4x, 5x, 6x Only available with ATD function **** Parameter or setting range only available with PA 69 8.1.2 Temperature measurement one-colour/spectral channel (con- C002/C003 figuration layer: Parameter Function Explanation EPS.1 Emissivity factor L1 See Chap. 7.1.1 Transmission factor TAU.1 See Chap.

  • Page 45: Configuration I/O (Configuration Layer: C010)

    Operating manual PA 4x, 5x, 6x ty** Threshold plausibili- TSP~ For ATD function, see Chap. 7.1.6 ty** show lower limit of temp. range during running measurement Mode of display** T.HLD Hold previous temp. reading during run- ning measurement A.RST Autoreset** For ATD function, see Chap 7.1.6 CH.L.2 Set Li2 check on...
  • Page 46 Operating manual PA 4x, 5x, 6x limit of temp. span 0-20 0-20mA 4-20 4-20mA AO2.4 Ao2 0 / 4 - 20mA Switch. input 1: 0V=0-20mA 24V=4-20mA EXT.1 Switch. input 2: 0V=0-20mA 24V=4- EXT.2 20mA DO1. Switching output 1 Status LED indicates ‘ready’ Lambda 1 L1.PR Lambda 1 without peak picker...
  • Page 47 Operating manual PA 4x, 5x, 6x DIRT Dirt Alert A.AC.1 Measuring time ATD Lamda 1* A.AC.2 Measuring time ATD Lamda 2 * A.AC.Q Measuring time ATD two colour/ratio mode Swich direction “Level” (output activ if limit LVL. excess) Switch direction “Level” / output inverted LU.- DO2.F Do2 function...

  • Page 48: General Functions (Configuration Layer: C011)

    Operating manual PA 4x, 5x, 6x C011 8.1.4 General Functions (configuration layer: Parameter Function Explanation LED indicates 24V LED indicates digital output 1 LED indicates digital output 2 LED indicates running measurement in TAC1 LED.G Green status LED ATD function L1** TAC2 LED indicates running measurement in ATD function L2**...

  • Page 49: Displayed Temperature Readings

    Operating manual PA 4x, 5x, 6x 8.1.5 Displayed temperature readings C020 (Configuration layer: Parameter Function Explanation two-colour/ratio Shows current temperature reading in two-colour mode temp. reading Temp. reading Shows current temperature reading for L1 Lambda1 Temp. reading Shows current temperature reading L2 Lambda2 Reading two-colour Shows current temperature reading in two-...

  • Page 50: Cellaview Software

    Operating manual PA 4x, 5x, 6x CellaView software The CellaView software displays, evaluates and stores the temperature readings of your pyrometer. Download the CellaView software here: www.keller.de/its/ Installation of the USB driver The PA pyrometer can be addressed via a special driver. On systems with Windows 7, 8 or 10 the driver installs a virtual COM interface which allows access to the serial port of the pyrometer.

  • Page 51: How To Operate The Pyrometer With The Cellaview Software

    Operating manual PA 4x, 5x, 6x and click OK to open the Device Manager. Then click Ports (COM and LPT). You will see a listing of ports and should now be able to see which COM Port the PA USB connection assigned to. The PA USB connection will be indicated as a USB-to-Serial Comm Port.
  • Page 52 Operating manual PA 4x, 5x, 6x ed RS485 Interface board. The distance between pyrometer and PC can be up to 1200 m. In order to prevent reflections on the RS485 connection, it is absolutely necessary to terminate the connection at the pyrometer and at the con- verter.

  • Page 53: Cellaview Via Rs485 Bus Connection

    Operating manual PA 4x, 5x, 6x For more information on how to work with CellaView read the separate CellaView manual. 11.3 CellaView via RS485 bus connection The RS485 two-wire bus consists of the bus cable itself with a maximum length of 1200 m. The participants are connected to this cable via a branch line with a length of 5 m max.
  • Page 54 Operating manual PA 4x, 5x, 6x Caution ! All pyrometers must be connected to the same voltage supply. The maximum length of the branch lines to the pyrometer is 5 m.

  • Page 55: Termination Of Rs485 Bus

    Operating manual PA 4x, 5x, 6x  Disconnect the pyrometer from any voltage source  Activate or deactivate the termination of the respective partici- pant (see termination of RS485 bus)  Install all required electric connections  Connect the converter with the PC ...

  • Page 56: Operation Of The Pyrometer Via Terminal Program

    Operating manual PA 4x, 5x, 6x Operation of the pyrometer via terminal program By default, the pyrometer has fully integrated communications software to the point-to-point connection with a PC. As an alternative to the CellaView software, all parameters that are required for a measurement data acquisition or a general configuration of the pyrometer can be con- figured via a simple terminal connection using the terminal program.
  • Page 57 Operating manual PA 4x, 5x, 6x two-colour/ratio Lambda 1 – Lambda 2 (one cycle): Byte Negative Temperature Positive Temperature Temperature exceeds Temperature falls below measuring range measuring range Space Space Space Space Minus symbol - Space Minus symbol - Minus symbol - Digit 1000 Digit 1000 Digit 100...

  • Page 58: Terminal Connection Via Usb

    Operating manual PA 4x, 5x, 6x The cycle time in which the temperature reading is transmitted can be set at the PC terminal (minimum cycle duration is 0.1 second). 12.2 Terminal connection via USB For communication through a terminal connection via USB set the pa- TERM rameter on the pyrometer to USB (default setting).
  • Page 59 Operating manual PA 4x, 5x, 6x Moreover, use a converter with galvanic isolation (e.g. W&T 38211) to avoid problems with ground loops. Caution ! If the supply voltage or current output are conducted via this ca- ble, then make sure to consider the voltage drop if the cable length is greater than 100 m.

  • Page 60: User-Defined Calibration / Scaling Of The Current Output

    Operating manual PA 4x, 5x, 6x User-defined calibration / scaling of the current out- If necessary, the pyrometer can be adjusted with a user-defined calibra- tion function. The following drawing explains the effects for offset and factor. shall Current state Influence - offset Influence - factor Pyrometer...

  • Page 61: Calibration/Scaling Via Cellaview

    Operating manual PA 4x, 5x, 6x 13.1 Calibration/scaling via CellaView To use the user-defined calibration function, activate it first in expert mode.  Start CellaView  Open the menu Settings Extras -> Settings  Select expert mode and activate editable calibration ...
  • Page 62 Operating manual PA 4x, 5x, 6x If you make a mistake while making the adjustments, simply enter off- set=0.0 und factor=1.0, or set User Cal. to „off“. Command "A" redefines the pyrometer’s entire measuring range. This new temperature span may be smaller or larger than the range originally programmed by the manufacturer.

  • Page 63: Shielding And Grounding

    Operating manual PA 4x, 5x, 6x Shielding and Grounding 14.1 Potential equalisation Caution: All applicable laws and codes must be complied with at all times. The pyrometer housing is connected to the shielding via the cable connector! Differences in ground potentials might cause an equal- ising current to flow between devices through a cable shielded at both ends.
  • Page 64 Operating manual PA 4x, 5x, 6x Pyrometer PA Shielded cable Shield clamp Interference voltage To avoid an equalising current, the pyrometer can be mounted elec- trically insulated. The shielding must be connected to the plant’s earthing system. Caution: If the pyrometer is installed without an insulator and without potential equalisation, the interference voltage may not ex- ceed 48V.

  • Page 65: Connectivity Examples

    Operating manual PA 4x, 5x, 6x Connectivity Examples 15.1 Connection to VK 02/A Cable Voltage supply 24 V white yellow Load 0 ... 500 Ω Current output 1 0/4 - 20 mA Flange plug (View pin side 15.2 Connection to DA 230 digital display unit white +24 V yellow...

  • Page 66: Theory Of Non-Contact Temperature Measurements

    Operating manual PA 4x, 5x, 6x Theory of Non-Contact Temperature Measurements All materials radiate thermal energy in all states of aggregation above absolute zero. This radiation is mainly caused by atomic or molecular oscillations. This temperature radiation is only a limited sector within the total electromagnetic radiation spectrum.

  • Page 67: Measurements Of Real Radiators

    Operating manual PA 4x, 5x, 6x   ( )    ): Emissivity coefficient of the object’s surface (targeted spot) at wavelengh  radiant energy actually emitted by a real object radiant energy emitted by a black body (perfect radiator) Most burning, annealing and hardening furnaces emit a radiation of nearly '1' which corresponds to the conditions of a black body if the aper- ture through which the measurement is made is relatively small.

  • Page 68: Emissivity Coefficient Table Pa (Spectral Mode)

    Operating manual PA 4x, 5x, 6x 16.4 Emissivity Coefficient Table PA (Spectral mode) List of emissivity coefficients of different materials in % PA 50 2 CellaTemp PA 40 PA 50 1 Wavelength  0.8...1,1 m 1,1...1,7 µm "Black Body" Aluminium, polished Aluminium, blackened Asbestos cement Bronce, polished...

  • Page 69: Maintenance

    Operating manual PA 4x, 5x, 6x Maintenance 17.1 Cleaning the pyrometer lens A false temperature reading will be given when the lens is dirty. There- fore check the lens periodically and clean it, if necessary. Dust can be removed by simply blowing it away or by using a soft brush. A special lens cleaning cloth is ideal, but any soft, clean, lint-free cloth will be suitable.

  • Page 70: Technical Data Pa 40 Af 20

    Operating manual PA 4x, 5x, 6x Technical Data PA 40 AF 20 Measuring range : Excess temperature signal: Protection: (adjustable in partial range): When internal temperature ex- IP 65 according to 500 ... 1400 °C ceeds > 80 °C, the analogue DIN 40050 output value will be >...

  • Page 71: Field Of View Diagram Pa 40 Af 20

    Operating manual PA 4x, 5x, 6x 18.1 Field of View Diagram PA 40 AF 20 ∞) Target diameter [mm] PZ 20.08 (0.3 m - D = 55 :1 Target Distance [m]...

  • Page 72: Technical Data Pa 40 (650 - 1700 °C)

    Operating manual PA 4x, 5x, 6x Technical Data PA 40 (650 – 1700 °C) Measuring range : Repeatability: Mounting: (adjustable in partial range): External thread M 65 x 2 650 ... 1700 °C length 40 mm Sighting device: Sensor: through-the-lens sighting with Connection: Fotodiode target marking, laser spot light or...

  • Page 73: Field Of View Diagrams Pa 40

    Operating manual PA 4x, 5x, 6x 19.1 Field of View Diagrams PA 40 PZ 20.01 (0.4 m - ∞) Target diameter [mm] D = 80 :1 Target distance [m] PZ 20.03 (0.2 – 0.4 m) Target diameter [mm] D = 75 :1 Target distance [mm]...
  • Page 74 Operating manual PA 4x, 5x, 6x Target diameter [mm] PZ 20.06 (1.2 m - ∞) D = 120 :1 Target distance [m] Target diameter [mm] PZ 20.05 (0.2 m - ∞) D = 20 :1 Target distance [m] PA 20.06 (0.6 m - ∞) Target diameter [mm] 10.5 21.1...

  • Page 75: Technical Data Pa 40 (750 - 2400 °C)

    Operating manual PA 4x, 5x, 6x Technical Data PA 40 (750 – 2400 °C) Measuring range : Repeatability: Mounting: (adjustable in partial External thread M 65 x 2 range): length 40 mm Sighting device: 750 ... 2400 °C through-the-lens sighting with Connection: Sensor: target marking, laser spot light or...

  • Page 76: Field Of View Diagrams Pa 40 (750 - 2400 °C)

    Operating manual PA 4x, 5x, 6x Field of View Diagrams PA 40 (750 – 2400 °C) 20.1 PZ 20.01 (0.4 m - ∞) Target diameter [mm] 13.3 D = 150 :1 4.,7 Target distance [m] PZ 20.03 (0.2 – 0.4 m) Target diameter [mm] D = 140:1 Target distance [mm]...
  • Page 77 Operating manual PA 4x, 5x, 6x Target diameter [mm] PZ 20.06 (1.2 m - ∞) 12.5 D = 240 :1 Target distance [m] Target diameter [mm] PZ 20.05 (0.2 m - ∞) D = 35 :1 Target distance [m] PA 20.06 (0.6 m - ∞) Target diameter [mm] 10.8 D = 370 :1...

  • Page 78: Technical Data Pa 40 (850 -3000 °C)

    Operating manual PA 4x, 5x, 6x Technical Data PA 40 (850 –3000 °C) Measuring range : Repeatability: Mounting: (adjustable in partial External thread M 65 x 2 range): length 40 mm 850 ... 3000 °C Sighting device: Connection: through-the-lens sighting with Sensor: with 8-pin connector target marking, laser spot light or...

  • Page 79: Field Of View Diagrams Pa 40 (850 -3000 °C)

    Operating manual PA 4x, 5x, 6x Field of View Diagrams PA 40 (850 –3000 °C) 21.1 PZ 20.01 (0.4 m - ∞) Target diameter [mm] 13.3 D = 150 :1 Target distance [m] PZ 20.03 (0.2 – 0.4 m) Target diameter [mm] D = 140:1 Target distance [mm]...
  • Page 80 Operating manual PA 4x, 5x, 6x Target diameter [mm] PZ 20.06 (1.2 m - ∞) 12.5 D = 240 :1 Target distance [m] Target diameter [mm] ∞) PZ 20.05 (0.2 m - D = 35 :1 Target distance [m] PA 20.06 (0.6 m - ∞) Target diameter [mm] 10.8 D = 370 :1...

  • Page 81: Technical Data Pa 40 Af 18

    Operating manual PA 4x, 5x, 6x Technical Data PA 40 AF 18 Measuring range : Ambient operating Connection: (adjustable in partial temperature: with 8-pin connector range): 0 ... 65 °C 850 ... 3000 °C Protection: Excess temperature signal: IP 65 according to Sensor: When internal temperature ex- DIN 40050...

  • Page 82: Field Of View Diagram Pa 40 Af 18

    Operating manual PA 4x, 5x, 6x 22.1 Field of View Diagram PA 40 AF 18 PA 40.01 (86 – 115 mm) Target diameter [mm] 0,32 0,48 Target distance [mm]...

  • Page 83: Technical Data Pa 43 Af 20 (Mr 600 -1400 °C)

    Operating manual PA 4x, 5x, 6x Technical Data PA 43 AF 20 (MR 600 -1400 °C) Measuring range : Ambient operating Connection: (adjustable in partial temperature: with 8-pin connector range): 0 ... 65 °C 600 ... 1400 °C Protection: Excess temperature signal: IP 65 according to When internal temperature ex- Sensor:...

  • Page 84: Field Of View Diagram Pa 43 Af 20

    Operating manual PA 4x, 5x, 6x 23.1 Field of View Diagram PA 43 AF 20 PZ 20.08 (0.3 m - ∞) Target size [mm] Target distance [m]...

  • Page 85: Technical Data Pa 43 (Mr 650 - 1700 °C)

    Operating manual PA 4x, 5x, 6x Technical Data PA 43 (MR 650 – 1700 °C) Measuring range : Resolution USB / RS 485: Weight: (adjustable in partial 0.1 K at terminal operation Approx. 0.9 kg range): Measuring uncertainty: Mounting: 650 ... 1700 °C 1.5 % of reading External thread M 65 x 2 (at ...

  • Page 86: Field Of View Diagram (Mr 650 - 1700 °C)

    Operating manual PA 4x, 5x, 6x Field of View Diagram (MR 650 – 1700 °C) 24.1 PZ 20.01 (0.4 m - ∞) Target size [mm] Target distance [m]...
  • Page 87 Operating manual PA 4x, 5x, 6x PZ 20.03 (200 – 400 mm) Target distance [m] Target size mm]...
  • Page 88 Operating manual PA 4x, 5x, 6x PZ 20.06 1.2 m - ∞ Target size [mm] Target distance [m]...
  • Page 89 Operating manual PA 4x, 5x, 6x ∞) PA 20.06 (0.6 m - Target size [mm] Target distance [m] 105.2 94.7 84.2 73.7 63.2 52.2 42.1 31.6 21.1 10.5...
  • Page 90 Operating manual PA 4x, 5x, 6x PZ 20.05 (0.2 m - ∞) Target size [mm] Target distance [m] 1000...
  • Page 91 Operating manual PA 4x, 5x, 6x PZ 20.08 (0.3 m - ∞) Target size [mm] Target distance [m]...

  • Page 92: Technical Data Pa 43 (Mr 750 - 3000 °C)

    Operating manual PA 4x, 5x, 6x Technical Data PA 43 (MR 750 – 3000 °C) Measuring range (MR): Measuring uncertainty: Housing material: 750 ... 2400 °C 1.5 % Stainless steel 850 … 3000 °C (at  =1.0 and T A = 23 °C) Weight: Sensor: Approx.

  • Page 93: Field Of View Diagram Pa 43 (Mr 750 - 3000 °C)

    Operating manual PA 4x, 5x, 6x Field of View Diagram PA 43 (MR 750 – 3000 °C) 25.1 PZ 20.01 (0.4 m - ∞) Target size [mm] Target distance [m]...
  • Page 94 Operating manual PA 4x, 5x, 6x PZ 20.03 (200 – 400mm) Target distance [m] Target size [mm]...
  • Page 95 Operating manual PA 4x, 5x, 6x PZ 20.06 (1,2 m - ∞) Target size [mm] Target distance [m]...
  • Page 96 Operating manual PA 4x, 5x, 6x ∞) PA 20.06 (0.6 m - Target size [mm] Target distance [m] 13.7 92.3 12.3 85.7 84.2 76.2 57.1 47.6 38.1 28.6...
  • Page 97 Operating manual PA 4x, 5x, 6x PZ 20.05 (0.2 m - ∞) Target size [mm] Target distance [m]...
  • Page 98 Operating manual PA 4x, 5x, 6x PZ 20.08 (0.3 m - ∞) Target size [mm] Target distance [m]...

  • Page 99: Technical Data Pa 43 Af 17/ 18

    Operating manual PA 4x, 5x, 6x Technical Data PA 43 AF 17/ 18 Measuring range (MR): Connection: Ambient operating PA 43 AF 17 with 8-pin connector temperature: 750 ... 2400 °C 0 ... 65 °C Protection: PA 43 AF 8 850 …...

  • Page 100: Field Of View Diagram Pa 43 Af 17/ 18

    Operating manual PA 4x, 5x, 6x 26.1 Field of View Diagram PA 43 AF 17/ 18 PA 40.01 (86 – 115 mm) [mm] Target size [mm] Target distance 0.29 1.57 0.,89 0.22...

  • Page 101: Technical Data Pa 44

    Operating manual PA 4x, 5x, 6x Technical Data PA 44 Measuring range : Sighting device: Mounting: 750 ... 2400 °C through-the-lens sighting with External thread M 65 x 2 850 ... 3000 °C target marking, laser spot light or length 40 mm integrated camera Sensor: Connection:...

  • Page 102: Field Of View Diagram Pa 44

    Operating manual PA 4x, 5x, 6x 27.1 Field of View Diagram PA 44 PZ 20.01 (0.4 m - ∞) Target diameter [mm] 13.3 D = 150 :1 4.,7 Target distance [m]...

  • Page 103: Technical Data Pa 45

    Operating manual PA 4x, 5x, 6x Technical Data PA 45 Measuring range : Excess temperature signal: Protection: (adjustable in partial range): When internal temperature ex- IP 65 according to 900 ... 3200 °C ceeds > 80 °C, the analogue DIN 40050 output value will be >...

  • Page 104: Field Of View Diagrams Pa 45

    Operating manual PA 4x, 5x, 6x Field of View Diagrams PA 45 PZ 20.01 (0,4 m - ∞) Target diameter [mm] D = 210 :1 14.3 23.8 28.6 33.3 38.1 47.6 42.8 Target distance [m]...

  • Page 105: Technical Data Pa 47

    Operating manual PA 4x, 5x, 6x Technical Data PA 47 Measuring range : Excess temperature signal: Protection: (adjustable in partial range): When internal temperature ex- IP 65 according to 700 ... 1700 °C ceeds > 80 °C, the analogue DIN 40050 output value will be >...

  • Page 106: Field Of View Diagrams Pa 47

    Operating manual PA 4x, 5x, 6x 30.1 Field of View Diagrams PA 47 PZ 20.01 (0.4 m - ∞) Target diameter [mm] D = 80 :1 Target distance [m]...

  • Page 107: Technical Data Pa 50

    Operating manual PA 4x, 5x, 6x Technical Data PA 50 Measuring range : Sighting device: Mounting: (adjustable in partial range): through-the-lens sighting with External thread M 65 x 2 500 ... 1400 °C target marking, laser spot light or length 40 mm integrated camera Sensor: Connection:...

  • Page 108: Field Of View Diagram Pa 50

    Operating manual PA 4x, 5x, 6x 31.1 Field of View Diagram PA 50 PZ 20.01 (0.4 m - ∞) Target diameter [mm] D = 80 :1 Target distance [m] PZ 20.03 (0.2 – 0.4 m) Target diameter [mm] D = 75 :1 Target distance [mm]...
  • Page 109 Operating manual PA 4x, 5x, 6x Target diameter [mm] PZ 20.06 (1.2 m - ∞) D = 120 :1 Target distance [m] Target diameter [mm] PZ 20.05 (0.2 m - ∞) D = 20 :1 Target distance [m]...

  • Page 110: Technical Data Pa 60

    Operating manual PA 4x, 5x, 6x Technical Data PA 60 Measuring range : Ambient operating Connection: (adjustable in partial range): temperature: with 8-pin connector 300 ... 800 °C 0 ... 65 °C 400 … 1000 °C Protection: Excess temperature signal: IP 65 according to Sensor: When internal temperature ex-...

  • Page 111: Field Of View Diagrams Pa 60

    Operating manual PA 4x, 5x, 6x 32.1 Field of View Diagrams PA 60 Target diameter [mm] PZ 20.08 (0.3 m - ∞) D = 39 :1 Target distance [m] PZ 20.01 (0.4 m - ∞) Target diameter [mm] D = 80 :1 Target distance [m]...

  • Page 112: Technical Data Pa 64

    Operating manual PA 4x, 5x, 6x Technical Data PA 64 Measuring range : Sighting device: Mounting: (adjustable in partial range): through-the-lens sighting with External thread M 65 x 2 500 ... 1400 °C target marking, laser spot light or length 40 mm integrated camera Sensor: Connection:...

  • Page 113: Field Of View Diagram Pa 64

    Operating manual PA 4x, 5x, 6x 33.1 Field of View Diagram PA 64 PZ 20.01 (0.4 m - ∞) Target diameter [mm] D = 80 :1 Target distance [m] PZ 20.03 (0.2 – 0.4 m) Target diameter [mm] D = 75 :1 Target distance [mm]...
  • Page 114 Operating manual PA 4x, 5x, 6x Target diameter [mm] PZ 20.06 (1.2 m - ∞) D = 120 :1 Target distance [m] Target diameter [mm] PZ 20.05 (0.2 m - ∞) D = 20 :1 Target distance [m]...

  • Page 115: Technical Data Pa 69

    Operating manual PA 4x, 5x, 6x Technical Data PA 69 Measuring range : Excess temperature signal: Protection: (adjustable in partial range): When internal temperature ex- IP 65 according to 300 ... 800 °C ceeds > 80 °C, the analogue DIN 40050 output value will be >...

  • Page 116: Field Of View Diagrams Pa 69

    Operating manual PA 4x, 5x, 6x 34.1 Field of View Diagrams PA 69 Target diameter [mm] PZ 20.08 (0.3 m - ∞) D = 39 :1 Target distance [m]...

  • Page 117: Dimensions

    Operating manual PA 4x, 5x, 6x Dimensions Messabstand...

  • Page 118: Technical Data Camera

    Operating manual PA 4x, 5x, 6x Technical data camera  Video-System: Composite Video PAL, 1 Vpp, 75 Ohm  Connection: Pyrometer -> TNC plug, monitor-> chinch or BNC (video cable VK 02/F), electrically isolated from the power supply of the pyrometer ...
  • Page 119 Operating manual PA 4x, 5x, 6x Optic Arera target size [m] HFOV 16.2 44.9 54.4 92.7 [mm] Standard 20.01 VFOV 12.1 33.7 40.8 69.5 [mm] HFOV 14.1 19.8 [mm] Close-up 20.03 VFOV 10.6 14.8 [mm] HFOV 32.5 56.4 86.3 [mm] Tele lens 20.06 VFOV...

  • Page 120: Transmission Values Of Protective Glasses

    Operating manual PA 4x, 5x, 6x Transmission values of protective glasses In the table you find the transmission values of the used protective glasses. In the column types you find the mechanical accessories in which the glasses are used. Article number Description Transmission (reflexion) [%] Used in followings...

  • Page 121: Accessories

    Operating manual PA 4x, 5x, 6x Accessories Description Product Name Article No. Cable VK 02/A 101 3909 length 5 m, 8 x 0.25 mm², shielded Video cable VK 02/F 103 1446 Polarising filter PA 20/P 100 9974 Mounting bracket PA 11/U 100 9679 Quarz window PA 20/I...

  • Page 122: Polarising Filter

    Operating manual PA 4x, 5x, 6x 38.2 Polarising filter Pyrometer PA Polarising filter PA 20/P...

  • Page 123: Mounting Bracket Pa 11/U

    Operating manual PA 4x, 5x, 6x 38.3 Mounting bracket PA 11/U Pyrometer PA Mounting bracket PA 11/U...

  • Page 124: Quarz-Window Pa 20/I

    Operating manual PA 4x, 5x, 6x 38.4 Quarz-window PA 20/I CAUTION ! The replacement of the protection glass can be performed only by authorized person. When removing the protective screen, always wear protective glasses and -gloves...

  • Page 125: Cable Vk 02/A

    Operating manual PA 4x, 5x, 6x 38.5 Cable VK 02/A Ident. - Nr. 101 3909...

  • Page 126: Cable Vk 02/F

    Operating manual PA 4x, 5x, 6x 38.6 Cable VK 02/F Ident. - Nr. 103 1446...

  • Page 127: Mounting Combinations

    Operating manual PA 4x, 5x, 6x Mounting combinations 39.1 Mounting combination PA 20-007...

  • Page 128: Mounting Combination Pa 20-010

    Operating manual PA 4x, 5x, 6x 39.2 Mounting combination PA 20-010...

  • Page 129: Glossary

    Operating manual PA 4x, 5x, 6x Glossary Autoprint After connecting the power supply, the pyrometer automatically begins transmitting measurement data via the serial interface. The cycle time for the temperature Print cycle time data output via the serial interface. Describes the ratio between the Distance to target size ratio pyrometer-to-object distance and the target spot diameter.

  • Page 130: Shipping, Packaging And Disposal

    Operating manual PA 4x, 5x, 6x Shipping, Packaging and Disposal 41.1 Inspecting your shipment Unpack and inspect the entire shipment immediately upon receipt to make sure it is complete and undamaged. If the container/package shows visible signs of damage, please refuse the shipment.

  • Page 131: Copyright

    Operating manual PA 4x, 5x, 6x Copyright Portions of avr-libc are Copyright (c) 1999-2007 Keith Gudger, Bjoern Haase, Steinar Haugen, Peter Jansen, Reinhard Jessich, Magnus Johansson, Artur Lipowski, Marek Michalkiewicz, Colin O'Flynn, Bob Paddock, Reiner Patommel, Michael Rickman, Theodore A. Roth, Juergen Schilling, Philip Soeberg, Anatoly Sokolov,...

  • Page 132: Default Settings

    Operating manual PA 4x, 5x, 6x Default settings 43.1 Temperature measurement using two-colour/ratio mode C001 (Configuration layer: Parameter Function Default User settings EPS.Q Ratio correction 100 % Plausibility check ratio CH.R.Q mode DRC.N Soot factor n* CH.R._ Relative limit min. 10 % CH.R.~ Relative limit max.

  • Page 133: Temperature Measurement Using Spectral Mode (Configuration Layer: C002, C003)

    Operating manual PA 4x, 5x, 6x 43.2 Temperature measurement using spectral mode (Configura- C002, C003 tion layer: Parameter Function Default User settings EPS.1 Emissivity factor L1 99.6% TAU.1 Transmission factor L1 100 % Ambient temperature BAC.1 compensation Temperature of BAC.T ambient source of radia- tion Influence of ambient IR...

  • Page 134: Configuration I/O (Configuration Layer: C010)

    Operating manual PA 4x, 5x, 6x C010 43.3 Configuration I/O (configuration layer: Parameter Function Default User settings AO1.S Ao1 select source Quotient Ao1 define lower limit of Measuring range AO1._ temp. span begin Ao1 define upper limit Measuring range AO1.~ of temp.

  • Page 135: General Functions (Configuration Layer: C011)

    Operating manual PA 4x, 5x, 6x C011 43.4 General Functions (configuration layer: Parameter Function Default User settings LED.G Green status LED PILO. Activate laser* PIL.T Laser ON-time 2 min TERM. Assign Interface Automatic temperature A.STR. data output Cycle for automatic 0.1 s temp.

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