Instruction Manual INNOVA -1316A-3 Multi Gas Monitor BZ6014 – 1316A-3 PC Software BE6024-12
Index ____________________________________________________________________________________________ Index Index ................................................................................................................................... 2 1316A-3 Multi Gas Monitor ..................................................................................................... 4 About this Manual..................................................................................................................
Index ____________________________________________________________________________________________ 3.4.3 New O2 Sensor ................................................................................................... 3.4.4 IR signal lost ...................................................................................................... 3.4.5 Pump Out Flow ................................................................................................... 3.4.6 Ambient Temperature range..................
1316A-3 Multi Gas Monitor ____________________________________________________________________________________________ 1316A-3 Multi Gas Monitor BZ6014 – 1316A-3 PC Software November 2013 _____________________________________________________________________________ BE6024-12 1316A-3 Multi Gas Monitor LumaSense Technologies A/S Instruction Manual Page 4 of 96
Safety Considerations __________________________________________________________________________________________ Safety Considerations The 1316A-3 Multi Gas Monitor is designed and tested to comply with EN 61010-1.2nd (2001) Safety requirements for electrical equipment for measurement, control, and laboratory use. The protection provided by the instrument may be impaired if not used as specified by LumaSense Technologies A/S.
Safety Considerations __________________________________________________________________________________________ About this Manual This Reference Manual is for a monitoring system comprising a 1316A-3 Multi Gas Monitor and its associated PC software package BZ 6014. The software for 1316A-3 is available in a Windows® XP, Vista and Windows 7 version as: BZ6014 for 1316A-3 Multi Gas Monitor Trademarks MS-Windows are registered trademarks of Microsoft Corporation.
Chapter 1 _________________________________________________________________________________________ Chapter 1 Introduction and Specifications November 2013 _____________________________________________________________________________ BE6024-12 1316A-3 Multi Gas Monitor LumaSense Technologies A/S Instruction Manual Page 7 of 96
Chapter 1 _________________________________________________________________________________________ 1.1 Broad Overview The 1316A-3 Multi Gas Monitor simultaneously measures the concentration of up to 5 Gases. The concentration of each gas is expressed as ppm or as volume percentage referenced to dry gas condition. The measurement principles are based on Non Dispersive Infrared (NDIR) and Electrochemical Sensors. A full discussion of these principles is contained in section 1.4.
Chapter 1 _________________________________________________________________________________________ Figure 1.1 Flow diagram of the 1316A-3 Multi Gas Monitor 1.2.2 NDIR Module and UA1372 Module (Optional) Measuring System This block is the heart of the monitor. It contains the Infrared source the sample cell and the Detector with specialized optical filters and processing electronics necessary to do highly accurate measurement of gas concentrations.
Chapter 1 _________________________________________________________________________________________ 1.2.3 Power Supply The power supply included in the 1316A-3 can be directly connected to a wide range of single phase mains supplies and still be able to produce the stable voltages required to keep the monitor within calibration. 1.3 Software Description The BZ6014 software is menu driven specifically written to control the 1316A-3 monitor.
Chapter 1 _________________________________________________________________________________________ The Multi Gas Monitor INNOVA 1316A-3 is delivered as specified by the Customer. 1.4 NDIR Gas Measurement The Module VM0102A measures the following sample gas concentrations: Carbon Dioxide (CO2), Carbon Monoxide (CO), and Ethanol And the UA1372 is as an example given with an O2, and NO sensor installed. 1.4.
Chapter 1 _________________________________________________________________________________________ Figure 1.2 Simple NDIR Gas Monitor 1.4.2 The Infrared Transmission Spectra. The concentration of a subject gas in the sample is computed as a function of the light intensity measured by the detector. The figure below characterizes the absorption and band pass filter curves for Ethanol, CO, and CO2 gases. Figure 1.3 Infrared Transmission Spectra for Ethanol, Carbon Monoxide and Carbon Dioxide.
Chapter 1 _________________________________________________________________________________________ 1.4.3 The NDIR Module Building blocks Infrared Source A current-regulated infrared (IR) source provides a photon stream in the range of 2 to 5 microns. Light is collimated and directed through the sample cell to the optical block. The source is modulated at 1 Hz, with a duty cycle of 50%. IR SOURCE SAMPLE CELL BAND PASS FILTERS ELECTRONICS Figure 1.4 The Optics of the NDIR Module.
Chapter 1 _________________________________________________________________________________________ µm (2260 cm-1), and the filter associated with Carbon Monoxide is centred on 4.65 µm (2150 cm-1). In the measurement chamber the three beams, which differ in wavelength frequency, each excite their respective gas (if present). The absorption of the incident light will be registered by the Detector.
Chapter 1 _________________________________________________________________________________________ In the Module the IR Detector/Filter Temperature is monitored to set the zero request bit as follows: Zero Request if a ±5°C temperature change has occurred. Ambient Temperature Out Of Range is set when the IR Detector/Filter Temperature is not within its allowed range. Sample Cell Temperature: The Module sample cell temperature is monitored by a thermistor in contact with the sample cell.
Chapter 1 _________________________________________________________________________________________ During a Zero/O2 Span calibration, sample delivery pressure is compared to ambient pressure (see below). If the difference is too great, the Out Flow Fault status bit is set true and the pump is switched Off. 1.4.6 The O2 and NO Measurement O2 and NO gas concentration are measured using electrochemical (fuel cell) sensors.
Chapter 2 _________________________________________________________________________________________ Chapter 2 Installation and Getting Started November 2013 _____________________________________________________________________________ BE6024-12 1316A-3 Multi Gas Monitor LumaSense Technologies A/S Instruction Manual Page 17 of 96
Chapter 2 _________________________________________________________________________________________ 2.1 Installing the Monitor The rear panel has a serial-link and a USB socket for the PC interface. The mains input, sample gas inlet and outlet for expelled gas samples are located on the rear panel. 2.1.1 Operating Environment The following environmental conditions must be observed: • • Safe ambient operating temperatures range from 5°C to 40°C Humidity should not exceed 90% RH non-condensing.
Chapter 2 _________________________________________________________________________________________ 2.1.4 Checking and Changing the Fuses On delivery ensure that the correct fuses are used. See section 5.1.2. 2.
Chapter 2 _________________________________________________________________________________________ 2.2.2 Installing the BZ6014 Software on the PC Before the software can be installed and started, the PC must fulfil the necessary requirements (see section 2.2.1). It is recommended that the person who installs the BZ6014 application is familiar with installing programs i.e. your system administrator. 1. Switch on the computer and its peripherals. 2.
Chapter 2 _________________________________________________________________________________________ 7. Now you’re ready to install the BZ6014 software. Select ‘Install’ to begin the installation. 8. During installation the following window appears.
Chapter 2 _________________________________________________________________________________________ 9. When installation is completed you just select ‘Finish’ in order to finish the installation of the BZ6014. 10. It is now possible to start the BZ6014 Application by using BZ6014 shortcuts found a. on the desktop or b. in Start -> All Programs -> LumaSense Technologies -> BZ6014.
Chapter 2 _________________________________________________________________________________________ 2.2.3 Installing the USB driver for the 1316A-3 Before connecting the 1316A-3 monitor the USB driver for the 1316A-3 USB interface must be installed. 1. Insert the “USB driver for Multi Gas Monitor – INNOVA 1316A3” CD-ROM disk into the CD-ROM drive and wait for the autostart of the USB driver.
Chapter 2 _________________________________________________________________________________________ 3. In the “License Agreement” window accept the terms. Select ‘Next’ to continue installation. 4. In the “Choose Destination Location” window select ‘Next’ to continue installation.
Chapter 2 _________________________________________________________________________________________ 5. In the “Ready to Install the Program” window select ‘Next’ to continue the installation. 6. Wait for the “Setup Status” window to finish.
Chapter 2 _________________________________________________________________________________________ 7. In the “InstallShield Wizard Complete” window select ‘Finish’ to continue the installation. Please do not un-tick or change the “Launch the CP210x VCP Driver Installer” setting. 8. In the following pop-up window select ‘Install’ to install the USB driver for 1316A-3. 9. After installing the USB driver for 1316A-3 you are asked to restart your PC.
Chapter 2 _________________________________________________________________________________________ 10. This concludes the installation of the USB driver for the 1316A-3. 2.2.4 Verification of the Software BZ6014 Version. Pull down the Help Menu Select About. Following Window is shown Figure 2.3. About Window 2.3 Connecting the Monitor to the PC For the 1316A-3 monitor and PC to communicate, the two must be linked together.
Chapter 2 _________________________________________________________________________________________ The 1316A-3 monitor also has a standard USB socket on its rear panel. This is the digital interface used to communicate with the 1316A-3 monitor. This must be connected to a free USB port on your computer using a USB cable. Please make sure that the USB driver is installed before connecting the 1316A-3 with the PC.
Chapter 2 _________________________________________________________________________________________ 2.4 Starting the Monitor After connecting the PC to the monitor, you can turn on the PC and the monitor. There is a signal lamp (LED) on the front panel of the monitor, giving: • Power Signal (green) — lights constantly when power is applied to the power supply. 2.5 Starting the BZ6014 Software Once the software has been installed on the PC as described in section 2.2.
Chapter 2 _________________________________________________________________________________________ Figure 2.5 The BZ6014’s Main Menu Screen 2.6 Using the Software This section explains the various parts of the screen and tells you how to use the menu system to “drive” the software. Feel free to try the various movement commands as you read through this text. Note: If an incorrect COM port is set, not every screen will be available to you. 2.6.
Chapter 2 _________________________________________________________________________________________ 2.6.4 Workspace The workspace is the main area of a screen on which information and parameter values are printed. 2.6.5 Settings Located below the workspace area. Used to select the settings for the measurement task to perform. Soft Keys to Start and Stop a measurement task and to Start a Zero calibration are also located in the Settings area. 2.6.
Chapter 2 _________________________________________________________________________________________ 1. With the Main Menu screen displayed, Select the COM port in the bottom part of the screen. 2. The system should now be ready for use. 2.8 Starting a Measurement Press the Soft Key, START. A measurement task is started and with the Gas Conc ticked in the Settings Field on the Main Screen data is shown as numeric values in the Work Space part of the screen, see figure 2.5. 2.
Chapter 3 _________________________________________________________________________________________ Chapter 3 Configuration and displaying measurement results November 2013 _____________________________________________________________________________ BE6024-12 1316A-3 Multi Gas Monitor LumaSense Technologies A/S Instruction Manual Page 33 of 96
Chapter 3 _________________________________________________________________________________________ 3.1 General Information This chapter guides you through the configuration options available on the Main Menu. You should configure both the software (the BZ 6014 program) and the hardware (the 1316A-3 monitor(s) installed) to suit your local requirements before calibrations and measurements are made.
Chapter 3 _________________________________________________________________________________________ Figure 3.1. BZ6014 Main Window showing real time measurement results. Averaging None Averaging None, Mean or Mean+STDEV Using None the data will be displayed in real time without averaging see figure 3.1.
Chapter 3 _________________________________________________________________________________________ Figure 3.2. BZ6014 Main Window showing measurement results using averaging over 4 samples. Mean values are in the upper part and real time values in the bottom part. Mean+STDEV gives the mean value and the standard deviation value. The standard deviation value for the number of samples selected is given in the Middle part of the window. See figure 3.3.
Chapter 3 _________________________________________________________________________________________ Figure 3.3. BZ6014 Main Window showing measurement data. Upper part giving the mean value, Middle part the standard deviation value for the selected number of samples. Bottom part displays the real time measurement values. To change the settings select, none, mean or mean+STDEV and the number of samples to use during averaging. Press OK and then START the window is now updated according to the new settings.
Chapter 3 _________________________________________________________________________________________ The Status screen will be displayed, see figure 3.4. Please also see the section Zero Soft Key. Figure 3.4. The Status screen File Log. Selecting File Log on gives the opportunity to have the measured data stored in a log file on the PC’s Hard Disk.
Chapter 3 _________________________________________________________________________________________ Following picture will occur: Figure 3.5. Creating a log file. Change the file name and select the location where to save the file. To switch ON/Off the data log use the Window workspace. setting on the Main When you stop a measurement, the current data file can be closed.
Chapter 3 _________________________________________________________________________________________ Start Soft Key On pressing the Start Soft Key data is collected by the BZ6014 Application Software to be displayed on the screen. Start can also be activated by pulling down the Bench Command menu and select Data/Status The following window will appear: Figure 3.6. The Data Status window.
Chapter 3 _________________________________________________________________________________________ Stop Soft Key On pressing the Stop Soft Key data transmission is stopped. Stopping a measurement sequence can also be accomplished by pulling down the Bench Command menu and select Data/Status. Using Stop Continuous in the Data Status picture (See figure 3.6) data transmission is stopped.
Chapter 3 _________________________________________________________________________________________ Clear Soft Key Using the Clear Soft Key the data is removed from the screen. Comment Soft Key. Activating the Comment Soft Key gives the opportunity to have a text / comment stored in the log file on the PC’s Hard disk. Figure 3.7. The BZ 6014 Main menu screen showing Time, Relative time and Gas Concentrations for a 1316A-3 attached to COM port 4. 3.2.
Chapter 3 _________________________________________________________________________________________ Figure 3.8 The BZ 6014 Graphics1 screen showing Concentration measurement results on two axis. Primary axis used for gases reported in % the secondary axis for gases reported in ppm. Channels Field. The Channels field in the bottom part of the Graphics1 screen is used to: Select the gases for which the measurement data is to be presented in the graphical screen by setting a tick-mark.
Chapter 3 _________________________________________________________________________________________ Start, Stop, Freeze, Clear Soft Keys. START and STOP Soft Keys is used to start and stop a measurement display respectively. CLEAR Soft Key is used to refresh the screen display. FREEZE is used to freeze the displayed screen while the monitoring task is still running. Graphics2. In the Graphics2 mode the x-axis is a time axis. The y-axis is divided to present an individual axis for each gas. See figure 3.9.
Chapter 3 _________________________________________________________________________________________ 1316A-3 Field. This field is used to change the screen displayed between the up to four different 1316A-3 to display the measurement result. Start, Stop, Freeze, Clear Soft Keys. START and STOP Soft Keys is used to start and stop a measurement task respectively. CLEAR Soft Key is used to refresh the screen display. FREEZE is used to freeze the displayed screen while the monitoring task is still running. 3.
Chapter 3 _________________________________________________________________________________________ Figure 3.10. The BZ 6014’s status Screen The BZ 6014 and 1316A-3 have built-in test procedures that are able to monitor various electronic and mechanical parts – for example, the flow rate. If anything abnormal is detected with any of the parameters tested for, the error will be reported in the status screen see figure 3.10. The status screen in figure 3.10 shows that zero calibration is required.
Chapter 3 _________________________________________________________________________________________ 3.4.1 Pump in Flow This fault indicates that there is an occlusion in the sample inlet. A probable course for this could be occluded tubing’s, external filter or inlet filter. Corrective actions eliminate occlusion. 3.4.2 New NO Sensor This fault indicate that the Full-scale output of the NO sensor is ≤80% of full scale value when sensor was installed. The NO sensor must be replaced with a new NO sensor.
Chapter 3 _________________________________________________________________________________________ 3.4.6 Ambient Temperature range The detector temperature is out of range. Measurement accuracy might be affected. Verify that the monitor is operating within the specified operating temperature range 3.4.7 Pump Low Flow This fault is a pre warning for the Pump In Flow Fault. See section 3.4.1 for further information. 3.4.8 Leak Check Not included in the 1316A-3. 3.5 Reset.
Chapter 3 _________________________________________________________________________________________ Figure 3.11: The Soft Reset Window. Press the Send Button and the Instrument is Reset and ready for setup. 3.6 Operating Modes of the Multi Gas Monitor 1316A-3 The Multi Gas Monitor 1316A-3’s operations comprise four modes of operation. ♦ ♦ ♦ ♦ Start-up Normal Standby System Fault 3.6.
Chapter 3 _________________________________________________________________________________________ up time period is 20 seconds after completion of the first zero. The following actions are not allowed during the start-up mode: ♦ Zero calibration. ♦ Span calibration. 3.6.2 Normal Operating Mode When the Start-up time has elapsed, the Multi Gas Monitor 1316A-3 enters Normal Operating Mode. All actions are allowed, like measurement, calibration or any other bench command.
Chapter 3 _________________________________________________________________________________________ 3.6.4 System Fault Operating Mode System fault mode is entered if any of the following error conditions occur: ♦ ♦ ♦ ♦ Self-test error. ADC data acquisition error. IR source error. Flash memory error. Recovery from system fault mode requires a power-down/power-on reset, and may call for product service.
Chapter 4 _________________________________________________________________________________________ Chapter 4 Calibration November 2013 _____________________________________________________________________________ BE6024-12 1316A-3 Multi Gas Monitor LumaSense Technologies A/S Instruction Manual Page 52 of 96
Chapter 4 _________________________________________________________________________________________ 4.1 Introduction 4.1.1 Factory calibration Multi Gas Monitor –INNOVA 1316A-3 component tolerances result in small, but relevant differences in measurement of a given gas concentration. The IR source, pressure transducers, thermistors, band pass filters, and detectors are subject to these variances. During the Type 1316A-3 manufacturing process, each unit is individually characterized.
Chapter 4 _________________________________________________________________________________________ Figure 4.1. Status Window displaying “Zero required”. During a zero point calibration the sample gas is taken through the Zero inlet on the rear panel of the monitor with a flow rate of 700 ml/min. ambient air is used for the zero calibration. Zero Request The Zero Request (see figure 4.1) is set true under the following conditions: At POR (power on / reset).
Chapter 4 _________________________________________________________________________________________ Purpose Zero calibration compensates for conditions that affect gas concentration measurement. Examples of these conditions are as follows: Changes in ambient temperature. Short-term sample cell contamination caused by inadequate particle filtering. Long-term sample cell contamination caused by deposits on the sample cell wall or windows.
Chapter 4 _________________________________________________________________________________________ Figure 4.2. The Zero O2 span calibration window to select Purge time during a calibration. Using the Window above the BZ6014 can extend the Purge Time (PT) in 1-second increments. 2. Power on. The first Zero during a power on cycle takes 5 seconds longer than a subsequent Zero with the same PT value. 3.
Chapter 4 _________________________________________________________________________________________ 1. Ensure that the monitor has been switched on for at least 30 minutes. 2. When the Main Menu screen is displayed, select Zero / O2 Span from the Bench Command pull-down menu. When the Multi Gas Monitor – INNOVA 1316A-3 receives the Zero command, it checks the system status. When all conditions for zero calibration are met, the Process In Progress is activated (see figure 4.3).
Chapter 4 _________________________________________________________________________________________ Figure 4.3. The Status Window displaying Zero calibration in Progress. The Zero/O2 Span is started controlled by the BZ6014 going through the following steps: i) The pump is turned OFF and all solenoid valves are deactivated. ii) After a settling delay, the ambient pressure (Atm Press) is measured and stored. iii) The pump is turned ON.
Chapter 4 _________________________________________________________________________________________ Figure 4.4. The Status Window displaying the Pump Out Flow Check. The Multi Gas Monitor – INNOVA 1316A-3 is purged with sample gas by pumping room air from the zero inlet on the rear panel through the entire flow system. During the zero calibration purge period, the O2 sensor’s electrical zero offset is calculated and stored. The optimum gain is calculated for each IR channel.
Chapter 4 _________________________________________________________________________________________ The Proc In Progress in figure 4.3 is changed from a red In Progress to a green Not in Progress in the status screen, see figure 4.5. Figure 4.5. Status Window showing Zero not required. The 30-minute zero request interval timer is reset. 4.2.2 Error and Warnings Related to a Zero Calibration The following conditions cause the Multi Gas Monitor –INNOVA 1316A3 to refuse to execute the zero calibration. 1.
Chapter 4 _________________________________________________________________________________________ Figure 4.6. Status Window displaying Operation Mode “Start up”. 2. The Multi Gas Monitor – INNOVA is in Stand By mode. 3. A Flow Fault has been detected, see figure 4.4,”Pump Out Flow” caused by exceeded pressure limits. 4. If the CO2, CO, or Ethanol channel gain cannot be set (e.g., the IR signal is too strong), the following warnings occur, see figure 4.7. CO2 Zero Fail. CO Zero Fail.
Chapter 4 _________________________________________________________________________________________ Figure 4.7. The Status Window displaying Zero failed. 5. If the reference channel gain cannot be set, the following warnings occur (see figure 4.7). CO2 Zero Fail. CO Zero Fail. Ethanol Zero Fail 6. If the peak-to-peak value for any IR channel is less than a flash-memory-resident minimum value, the following warnings occur see figure 4.
Chapter 4 _________________________________________________________________________________________ Figure 4.8. The Status window showing Data Invalid and IR signal lost. 7. If the O2 sensor’s output is lower than a flash-memory-resident minimum value, the New O2 Sensor Required warning is shown see figure 4.9.
Chapter 4 _________________________________________________________________________________________ Figure 4.9 . The Status Window displaying “ New O2 Sensor Required”. Notice: In the Main screen see figure 4.10 it is possible to select that zero calibrations are performed automatically whenever requested. By using the AUTO mode.
Chapter 4 _________________________________________________________________________________________ Figure 4.10. The Main Menu Screen displaying Zero Auto mode. 4.3 Span Calibration 4.3.1 Introduction. The Multi Gas Monitor – INNOVA 1316A-3 is designed to be span-stable. Frequent span calibration is not required to maintain accurate gas concentration measurements. The Multi Gas Monitor may need to be routinely span calibrated with suitable mixtures of calibration gases.
Chapter 4 _________________________________________________________________________________________ Figure 4.11.The particle filter DS2306 The particle filter is attached to the rear panel of the monitor. Dismantle the filter from the luerlok fittings and replace it with a new DS2306. 4.3.3 Calibration Gases To perform a full calibration gases are required.
Chapter 4 _________________________________________________________________________________________ 4.3.4 Connecting the Calibration Gas Warning! Never make a direct connection from the pressure valve on a gas cylinder. Always use a side-stream connection like the one shown in figure 4.12. Surplus flow approx. 200 ml/min 800 ml/min Cal. Gas UD 5091 Gas Inlet Multi Gas Monitor - INNOVA 1316 20090630_1316 Figure 4.12 Typical side-stream connection set-up used during calibration 4.3.
Chapter 4 _________________________________________________________________________________________ Figure 4.
Chapter 4 _________________________________________________________________________________________ Figure 4.14 The Status window displaying that a new O2 sensor is required. Prior to any span calibration perform a Zero/O2 span calibration after completion of the warm up time. Initially set Zero Calibration to "Manual" in “Zero Group”, see figure 4.15. This will avoid the Zero calibration to interfere with the Span calibration. Figure 4.
Chapter 4 _________________________________________________________________________________________ Figure 4.16 Main window displaying measurement started.. Open the status window and press the “Zero”-button in the Main window, in order to perform a Zero calibration. The ambient air is taken from the Zero reference inlet on the rear panel during Zero calibration. In the Status window observe that the “Proc in prog”-status is “In Progress”, while Zero calibration. is done, see figure 4.17.
Chapter 4 _________________________________________________________________________________________ Figure 4.17 Status window during Zero calibration. Figure 4.18 Status window when Zero calibration has finished.
Chapter 4 _________________________________________________________________________________________ Pull Down the Bench Command menu and select the "Mode Select" bench command, see figure 4.19. Figure 4.19 The Bench Command Menu showing “Mode Select” In the “Mode Select”-window set the group “Action” to “Temporary Change” and the group “New Mode” to “3 – 6601, New”, see figure 4.20. Press the “Send” button to set mode 3 temporary. Figure 4.20 The Mode select window With Mode 3 selected.
Chapter 4 _________________________________________________________________________________________ Connect the SPAN gas to the INLET on the rear panel of the Multi Gas Monitor INNOVA-1316A-3. Pull down the Bench Command Menu And select Span Calibration see figure 4.21. Figure 4.21. The Bench Command Menu The following window will appear, see figure 4.22. Figure 4.22. The Span Calibration window. Tick the gas(ses) to be Span calibrated, and key in concentration value(s), see figure 4.23.
Chapter 4 _________________________________________________________________________________________ the “Process State” change to “In Progress” during the Span calibration, see figure 4.24. Figure 4.23 The Span Calibration Window to select the gasses and the concentrations for Span calibration The text box in the Span Calibration window now displays Span Calibration ACK. The Span Calibration is in progress. Figure 4.24 Span Calibration window showing Span calibration in progress.
Chapter 4 _________________________________________________________________________________________ Figure 4.
Chapter 4 _________________________________________________________________________________________ After a successful Span calibration the gasses calibrated will show the status "Valid" for each of the gasses which where Span calibrated, see figure 4.26. Figure 4.
Chapter 4 _________________________________________________________________________________________ If the Span calibration fails the Status window will show the “Span Fail” status for the gasses failing to be Span calibrated, see figure 4.27. Figure 4.
Chapter 4 _________________________________________________________________________________________ After SPAN calibration revert to default mode 5. In the “Mode Select”-window set the group “Action” to “Temporary Change” and the group “New Mode” to “5 – 6800, Single-SOL, New”, See figure 4.28. Press the “Send” button to set mode 5. Figure 4.28 Select Mode 5 in the Mode Select window Stop the measurement by pressing the “Stop”-button in the Main window.
Chapter 4 _________________________________________________________________________________________ 1. Use to tick which of the CO, CO2, Ethanol gasses that you want to be calibrated. 2. Type in the correct concentrations for the ticked CO, CO2, Ethanol gas. The gas concentration must be the same as that stated on the calibration gas bottle. 3. Connect the calibration-gas bottle as described in section 4.3.4. 4.
Chapter 4 _________________________________________________________________________________________ Figure 4.30. Span Calibration window showing Ethanol calibration in Progress. Figure 4.31. The Status window showing that Ethanol is Span Calibrated (Valid).
Chapter 4 _________________________________________________________________________________________ 4.3.7 To perform a span calibration with multi component gas mixture. If more than one gas is to be span calibrated at the same time this can be performed using multi component gas mixtures. In the Span calibration window (see figure 4.22) select the gases to be calibrated and key in the appropriate concentrations from the certificate from the gas cylinder.
Chapter 4 _________________________________________________________________________________________ Figure 4.34. Status window showing a CO2 span failed. If the NO channel is being span calibrated, the current full-scale NO output is calculated and saved. If the current full-scale NO output is less than or equal to a preset value (The Low NO Sensor Limit) the New NO Sensor Required is shown in the Status window, see figure 4.13.
Chapter 4 _________________________________________________________________________________________ Figure 4.35. Bench command menu select New NO sensor The following window appears. Figure 4.36 . The New NO sensor window. If a new sensor is installed Press SEND. Warning: never attempt to send the new NO sensor command after a NO span calibration unless a new NO sensor has been installed.
Chapter 4 _________________________________________________________________________________________ The Low NO Sensor Limit is calculated and saved. 4.4 Reset Span Calibration At any time it is possible to return to the factory saved calibration factors. Pull down the Bench Command Menu. Select Reset Span.
Chapter 4 _________________________________________________________________________________________ Figure 4.37. Reset Span Window Put in a tick mark for the gases to be set back to default calibration factors.
Chapter 5 _________________________________________________________________________________________ Chapter 5 Maintenance November 2013 _____________________________________________________________________________ BE6024-12 1316A-3 Multi Gas Monitor LumaSense Technologies A/S Instruction Manual Page 86 of 96
Chapter 5 _________________________________________________________________________________________ 5.1 Maintenance Items 5.1.1 Changing Zero Channel inlet filter It is recommended to change the zero gas inlet filter at least once a year. - Remove the top cover. - Remove the DS0790 filter by detaching the luerlok fittings. - Install a new DS0790 filter. Figure 5.1. Picture showing the DS0790 zero inlet dust filter. 5.1.2 Changing the fuses On delivery, two 20 mm T 1.
Chapter 5 _________________________________________________________________________________________ Figure 5.2 Opening the fuse holders Figure 5.
Chapter 5 _________________________________________________________________________________________ 3. Remove the fuses from the holders and check that they have the correct rating (T 1.6 A slow-blow), see figure 5.3. 4. If the installed fuses do not have the correct rating or are faulty, install the correct fuses. 5. Screw the fuse holders into the monitor. 6. Attach the mains cable. 5.1.3 Checking the Pump Pull down the Bench Commands menu. Select Pump On/Off Following window will appear.
Chapter 5 _________________________________________________________________________________________ Figure 5.4. The Pump Control Window. By selecting On and Send it can be verified that the Pump is working properly. 5.1.4 System ID Pull down the Bench Command Menu Select System ID.
Chapter 5 _________________________________________________________________________________________ Figure 5.5: The System ID Window. The System ID window displays the Serial Number, Model number and Revision level after pressing the Send soft-key button. 5.1.5 Valve Test To verify that the tree-way valve is working properly.
Chapter 5 _________________________________________________________________________________________ Figure 5.6. The Device Control Window. In the DCM 1 select DC to be Set the remaining DCM /DC are set as shown in Figure 5.6. Press the Send button. Now it is possible to hear the click from the Valve if the valve is functioning properly. Please remember to clear the DCM 1 by selecting Clear and pressing the Send button. 5.1.6 Miscellaneous Data. Pull down the Bench Command Menu.
Chapter 5 _________________________________________________________________________________________ Select Miscellaneous Data. Figure 5.7. The Miscellaneous Window. In the Miscellaneous window the Ambient Temperature is shown after pressing the Send button. The PEF value displayed is the Relation between the Calibration factor for Hexane and Propane. ADCA and ADCB are of use whenever Analogue output is to be used. Please Contact Your Local LumaSense Representative for further information.
Chapter 5 _________________________________________________________________________________________ 5.1.7 Pressure Data. Pull down the Bench Command Menu Select Pressure Data. Figure 5.8. The Pressure Data Window. The Ambient Pressure through the Zero Reference inlet and the Absolute pressure in the Sample cell are displayed after pressing the Send button. The Pressure Data can be used as an indication if occlusion through either of the inlets occurs.
Chapter 5 _________________________________________________________________________________________ 5.1.8 O2 and NO Sensor Replacement The optional O2 and NO sensors have an expected life of 18 months under normal operating conditions. Follow the procedure defined below to replace these sensors. a) Verify that main power turned OFF. b) Remove the cover. 2) Sensor Removal: a) Each sensor includes a pull tab. Be careful not to tear it.
Chapter 5 _________________________________________________________________________________________ 1316A-3 LumaSense Technologies A/S Energivej 30 DK-2750 Ballerup, Denmark Tel.:(+45) 44 20 01 00 Fax: (+45) 44 20 01 01 http://www.lumasenseinc.