Page 1 Warning: Limitation of Liability The ultimate responsibility of the consequences of use of toxic compounds rests with the user. PerkinElmer’s role is as a supplier of instrumentation to assist in the early detection of hazardous conditions involving such compounds. MicroFID represents a major advance in this field and, as with all complex instruments, it is vitally important to ensure that MicroFID is maintained in accordance with PerkinElmer’s instructions and that proper calibration is regularly performed. As with any complex device, MicroFID is subject to failure and, while PerkinElmer has taken, and continues to take, all possible precautions to (a) reduce the possibility of failure, and (b) warn the user in the event of failure, circumstances may occasionally occur in which there is a failure despite such precautions on PerkinElmer’s part. PerkinElmer regrets that it cannot accept liability for damages of any kind caused as a result of either failure of the user to follow instructions or of MicroFID to perform. ...
Page 3 Photovac MicroFID Portable Flame Ionization Detector Part 396003 Rev. G...
Page 4 Release History Part Number Release Publication Date 396003 February 2000 396003 August 1997 User Assistance PerkinElmer 761 Main Avenue Norwalk. CT 068590010 U.S.A. Printed in Singapore Notices The information contained in this document is subject to change without notice. PerkinElmer makes no warranty of any kind with regard to the material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. PerkinElmer shall not be liable for errors contained herein for incidental consequential damages in connection with furnishing, performance or use of this material. Copyright Information This document contains proprietary information that is protected by copyright. All rights are reserved. No part of this publication may be reproduced in any form whatsoever or translated into any language without the prior, written permission of PerkinElmer, Inc. Copyright 2000 by PerkinElmer Trademarks Registered names, trademarks, etc. used in this document, even when not specifically marked as such, are protected by law. MicroFID™ is a trademark of PerkinElmer, Inc. ...
Page 5 Reference No. 600757 Rev G...
Page 6: Table Of Contents
MicroFID Software Manual Contents Notices and Warnings............vii Introduction.................15 Tutorial Session..............38 Detailed Operation..............63 Accessories.................85 Routine Maintenance............107 Troubleshooting..............113 Technical Description............134 Appendices................142 Index...................156 Figures Figure 1 MicroFID Layout..........29 Figure 2 MicroFID Refill Adapter........34 Figure 3 Refill Adapter 3Way Valve.........34 Figure 4 Default Display............41 Figure 5 Keep MicroFID Level...........53 Figure 6 Printed Output for Interval Mode.......56 Figure 7 Printed Output for Method 21 Mode ....58 Figure 8 Graphed Output for Interval Mode.....61 Figure 9 Graphed Output for Method 21 Mode....62 Figure 10 Gas Bag Adapter..........67 Figure 11 Using the Gas Bag..........68 Figure 12 Connecting MicroFID to a Serial Printer..88 iv44...
Page 7 Contents Figure 13 Connection Description Dialog Box....91 Figure 14 Connect To Dialog Box........92 Figure 15 Properties Dialog Box........93 Figure 16 Properties Dialog Box........94 Figure 17 Connecting Charcoal Filter......96 Figure 18 Connecting the Coalescing Filter....97 Figure 19 Serial to Parallel Converter......99 Figure 20 Connecting MicroFID to the Serial to Parallel Converter................102 Figure 21 Bar Code Reader and Interface Module..103 Figure 22 Hydrogen Purge Outlet........111 Figure 23 Inlet Filter............112 Figure 24 Parallel Port Signals........130 Figure 25 Connecting MicroFID Using the Null Modem Cable...................132 Figure 26 Connecting MicroFID Using the Gender Changer Cable..............132 Figure 27 Flame Ionization Detector......136 Figure 28 Block Diagram..........137 Figure 29 Bar Code Reader Control Drawing 890047..154...
Page 8 MicroFID Software Manual Tables Table 1 Instrument Status..........41 Table 2 TUTOR Displays............44 Table 3 Check List for Field Operation......82 Table 4 Additional Field Items..........83 Table 5 DIP Switch Settings for Baud Rate....100 Table 6 DIP Switch Settings for Parity ......100 Table 7 DIP Switch Settings ...........101 Table 8 MicroFID I/O Port Pinouts .........125 Table 9 Parallel Port Signals...........129 Table 10 Serial Port Signals ...........130 Table 11 Pin Definitions...........133 Table 12 Contact Information..........147 Table 13 MicroFID Response Factors......152 vi66...
Page 9: Notices And Warnings
Notices and Warnings ...
Page 11 Notices and Warnings FCC Warning This equipment has been tested and found to comply with the limits for a Class B Digital Device, pursuant to Subpart B, Class B of Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. MicroFID I/S & I/SC Notice CONFORMS TO UL STANDARD 913 CERTIFIED TO CSA STANDARD CSA 22.2 No. 157 Intrinsically safe/Sécurité intrinsèque for use in Class I, Division 1, Groups A, B, C, D, Hazardous Locations, Temperature Code T4, Exia MICROFID I/S IS CLASSIFIED FOR USE IN CLASS I, DIVISION 1, GROUPS A, B, C, D HAZARDOUS LOCATIONS.
Page 12 MicroFID Software Manual MICROFID I/SC IS CLASSIFIED FOR USE IN CLASS I, DIVISION 1, GROUPS A, B, C, D HAZARDOUS LOCATIONS. T4 (135ºC) RATING. It has been listed by ETL to comply with CSA Standard 22.2 No. 15792 Intrinsically Safe and NonIncendive Equipment for Use in Hazardous Locations. MICROFID I/S AND I/SC ARE NOT INTENDED TO DETECT COMBUSTIBLE LEVELS OF GASES. MICROFID I/S AND I/SC ARE CLASSIFIED FOR USE IN ATMOSPHERES CONTAINING COMBUSTIBLE LEVELS OF GASES. These accessories are for use with MicroFID I/S and IS/C in a hazardous location: MX395002 Shoulder Strap MX396001 Short Sample Probe MX396007 Carrying Case MX396011 Calibration Kit MX396018 Long Sample Probe MX396021 Charcoal Filters (2 pieces) MX396022 Charcoal Filters (10 pieces) MX396053 Headset MX396054 Bar Code Reader and Interface Module (I/S) Do not use any other accessories with MicroFID I/S or I/SC in a hazardous location. Substitution of components may affect safety rating.
Page 13 Notices and Warnings To reduce the risk of fire or injury to persons, read and follow these instructions: 1. All calibration, maintenance and servicing of this device, CAUTION including battery charging, must be performed in a safe area away from hazardous locations. 2. For replacement battery pack use only Part No. MX396005 (I/S), MX396006 (I/SC). 3. Do not dispose of the battery pack in a fire. The cell may explode. Check with local codes for possible special disposal instructions. 4. Do not open or mutilate the battery pack. Released electrolyte is corrosive and may cause damage to the eyes or skin. It may be toxic if swallowed. 5. Exercise care in handling battery packs in order not to short the terminals with conducting materials such as rings, bracelets and keys. The battery or conductor may overheat and cause burns. 6. Do not defeat proper polarity orientation between the battery pack and battery charger. 7. Charge the battery pack using the charger provided with or identified for use with this product only in accordance with the instructions and limitations specified in this manual. For battery charger use only Part No. MX396014 (110 Volts AC), MX396013 (220 Volts AC).
Page 14 MicroFID Software Manual NOTICE MICROFID I/SC EST CLASSIFIÉ POUR USAGE DANS LES EMPLACEMENTS DANGEREUX DE CLASSE I, DIVISION 1, GROUPES A, B, C, D. ÉVALUATION T4 (135ºC). . Quatrième édition. MicroFID ISC est conforme à la norme des Underwriters Laboratories Inc. UL 1203 MicroFID I/SC est conforme à la norme de CSA Standard 22.2 No. 15792 Intrinsically Safe and NonIncendive Equipment for Use in Hazardous Locations. MICROFID I/SC C’EST NE PAS INTENDER POUR DÉTECTER DES NIVEAUX DE COMBUSTION DES GAZ. CET APPAREIL EST CLASSIFIÉ POUR USAGE DANS DES ATMOSPHÈRES CONTENANT DES NIVEAUX DE COMBUSTION DES GAZ. Les accessoires PerkinElmer suivants peuvent également être utilisés avec l’appareil dans un emplacement dangereux: MX395002 Bandoulière MX396001 Petite Gamme d’éc hantillons MX396007 Étui de Transport MX396011 Equipment de Calibration MX396018 Gamme d’échantillons MX396021 Filtres de Charbon (2 pièces) MX396022 Filtres de Charbon (10 pièces) MX396054 Lecteur de Codes à Barres et Module d’I nterface (I/S) MX396053 Casque telephonique Ne pas utiliser d’autres accessoires avec cet appareil dans un...
Page 15 Notices and Warnings La substitution des composantes peut nuire à la sécurité d’e mploi. Afin de r duire les risques d’ incendie et les blessures, lire et suivre ces instructions: 1. Tout talonnage, entretien et r paration de cet appareil, y MISE EN compris le chargement de la pile, doit être effectu dans un GARDE endroit sûr, à l’ cart des zones dangereuses. 2. N’ utiliser que la pièce PerkinElmer num ro MX396006 (I/SC) lorsqu’il faut remplacer le blocpile. 3. Ne pas jeter la pile dans un feu. La cellule pourrait exploser. V rifier les codes locaux, qui peuvent comporter des instructions de mise au rebut particulières. 4. Ne pas ouvrir et ne pas abîmer le blocpile. L’acid e sulfurique qui risque de s’ en chapper est corrosif et peut causer des l sions aux yeux et à la peau. Cet acide est toxique lorsqu’aval . 5. Manipuler le blocpile avec soin, afin de ne pas court...
Page 16 MicroFID Software Manual CE Directive CONFORMS TO COUNCIL DIRECTIVE 89/336/EEC COUNCIL DIRECTIVE 91/157/EEC Council Directive 89/336/EEC Electromagnetic Compatibility and the Applicable Standards. MicroFID complies with EN5008201 Generic Immunity Standard for Electromagnetic Compatibility Part 1: Light Industrial Environment. MicroFID has been tested and conforms to the guidelines specified in EN5008202 Generic Immunity Standard for Electromagnetic Compatibility Part 2: Industrial Environment Council Directive 91/157/EEC Recovery and Disposal of Spent Batteries You must use the 220 V battery charger (Part No. MX396013) in order to comply with the requirements of the applicable Council Directives.
Page 17: Introduction
Introduction...
Page 19 Introduction About this Manual This manual provides detailed instructions for the setup, operation and maintenance of the MicroFID™ Portable Flame Ionization Detector. Before unpacking the instrument, please read Warnings and Safety Practices on page 18. This section describes possible hazards that may injure the user, damage the instrument or compromise its operation. Some general safety information is also provided. To help you learn to use MicroFID quickly this manual is organized by tasks beginning with a tutorial in Chapter 2. More detailed operational instructions are provided in Chapter 3. Connecting accessories is covered in Chapter 4. Routine maintenance is covered in Chapter 5. Troubleshooting techniques are covered in Chapter 6. Chapter 7 provides a technical description of MicroFID. The MicroFID manual uses a few conventions for key names on the keypad and for text that is shown on the display. UPPERCASE Key names are denoted by uppercase text. ARROW keys is the collective name for the UP ARROW and DOWN ARROW keys. “ Display Text” Text that appears on the MicroFID display is in quotation marks. <Angle Brackets> Computer keyboard names are denoted by angle brackets, e.g. <Ctrl>. MD FID Text that must be typed in using the computer keyboard is shown in italics.
Page 20 MicroFID Software Manual In the text you will find various warnings and notes. A warning indicates an operation that could cause personal injury if precautions are not followed. WARNING A caution indicates an operation that could cause damage to the instrument if precautions are not followed. CAUTION NOTE: A note indicates significant information. Warnings and Safety Practices Please read this section before operating MicroFID. Approved Models of MicroFID This manual provides operational information for all models of MicroFID. The MicroFID I/S and the MicroFID I/SC are intrinsically safe and approved for use in hazardous locations. Refer to the manual introduction for details of each approval. Throughout the manual, notes are provided to inform you of the limitations of usage for the MicroFID I/S and MicroFID I/SC models.
Page 21 Introduction If the MicroFID you are using is not specifically identified as intrinsically safe, do not use it in a location were flammable concentrations of gases and vapors may exist. WARNING Compressed Gases Cylinders of compressed gas, such as hydrogen and calibration gas, must be handled with extreme care. When using the calibration gas bag adapter, take care not to kink or stress the tubing. For safety, the hydrogen and calibration gas cylinders must be secured before use. Please observe the following handling procedures: • Do not mutilate cylinders. • Do not expose the cylinders to direct sunlight. • Do not heat the cylinders. The cylinders may rupture at high temperatures. • Use only the specified regulator for the calibration gas. Confirm regulator type and material with your specialty gas supplier. Use only the MicroFID refill adapter for the hydrogen (Part No. MX396004). • Always secure cylinders before removing the cylinder valve protection cap • Do not drag or roll cylinders. Use a cylinder hand truck to move large cylinders. • Wear safety glasses when working with compressed gases. • Store cylinders in an upright position. • Do not store cylinders in a hazardous location.
Page 22 MicroFID Software Manual • Store cylinders away from possible sources of ignition. • Keep regulators and related equipment in the same gas service. Do not change service or adapt equipment without consulting your gas supplier.
Page 23 Introduction Regulators for Compressed Gases When connecting a regulator to a large cylinder: • Ensure cylinder valve and regulator connection match. • Ensure regulator construction materials are compatible with the gas, and that the cylinder pressure gauge will withstand the cylinder pressure. • Never use the regulator as a shutoff valve. Close the cylinder when it is not in use. • Do not subject the regulator to an inlet pressure greater than recommended. • Do not move or detach the regulator when it is pressurized or when it is in use. • Before connection, ensure the gas cylinder valve and the regulator CGA connection are clean. • Turn the pressure control valve on the cylinder all the way out (close the cylinder). Turn the regulator outlet to off. Open the gas cylinder valve slowly and check for leaks. Adjust the delivery pressure and then open the regulator outlet valve. Hydrogen Gas Hydrogen gas is a fire and explosion hazard when exposed to heat or flame. The lower explosive limit (LEL) is 4%. The lower explosive limit is the minimum concentration of gas or vapor in air that will ignite in the presence of a source of heat or sparks. Refer to the Material Safety Data Sheet (MSDS) before handling this gas. You will receive the MSDS from your gas supplier when you order the gas. Calibration Gas...
Page 24 MicroFID Software Manual Adequate ventilation must be provided when MicroFID is being calibrated. If compound threshold limit values (TLV™) are exceeded, you should use a gas bag for sampling and calibration. To determine the TLV of the compounds contained in the calibration gas, refer to the Material Safety Data Sheet (MSDS) supplied with your calibration gas cylinder. See Calibration on page 65 for details of calibration using a gas bag. Battery Pack Care Do not leave battery packs uncharged for an extended period of time. This will result in damage to the battery packs and possible loss of logged data. Leaving MicroFID for more than 3 months, without turning it on, may result in the loss of recorded data and setup parameters. If MicroFID is not used for long periods of time, turn the instrument on for a few hours every month to avoid loss of data. See Battery Charging on page 28 for instructions on charging the battery. Please observe the following: 1. For replacement battery pack use only Part No. MX396005 or MX396006. 2. Do not dispose of the battery pack in a fire. The cell may explode. Check with local codes for possible special disposal instructions. 3. The battery pack is 57% lead (Pb) by weight. This battery pack must be disposed of properly. Check with local codes for special disposal instructions. 4. Do not open or mutilate the battery pack. Released electrolyte is corrosive and may cause damage to the eyes or skin. It may be toxic if swallowed. 5. Exercise care in handling battery packs in order not to short the terminals with conducting materials such as rings, bracelets...
Page 25 Introduction and keys. The battery or conduct or may overheat and cause burns. 6. Do not defeat proper polarity orientation between the battery pack and battery charger. 7. Charge the battery pack using the charger provided with or identified for use with this product only in accordance with the instructions and limitations specified in this manual. For battery charger use only Part No. MX396014 (110 V AC), MX369013 (220 V AC). Excessive Heat and Cold Do not expose the instrument to intense sunlight for prolonged periods. Exposure to excessive heat may result in erroneous readings. At low temperatures, water vapor, a byproduct of the hydrogen flame, may condense at the exhaust port. At subzero temperatures the water vapor will freeze and obstruct the exhaust port. If the exhaust port becomes obstructed, pump operation will be inhibited. Flame out may also result. Transporting MicroFID When you transport MicroFID, you should empty the internal hydrogen cylinder and then refill it when you arrive at your destination. If you are transporting MicroFID in the carry case or in any enclosed container, you must empty the hydrogen cylinder and fill it when you arrive at your destination If you are traveling by passenger aircraft, you must empty the cylinder. You cannot transport MicroFID by passenger aircraft with hydrogen in the cylinder. Refer to Emptying the Hydrogen Cylinder on page 110 for more details. Oxygen Concentration Limits...
Page 26 MicroFID Software Manual A minimum of 17% oxygen is required to start the hydrogen flame. The oxygen is supplied from the sample as it is drawn in by the pump. A minimum of 10% oxygen is required to maintain the hydrogen flame. An oxygen deficiency will reduce the height of the flame or cause the flame to be extinguished and may affect the displayed reading. If you will be using the MicroFID in a highly contaminated area where it is possible that the oxygen content is below 10%, watch for indications of reduced flame height such as lowered detection limits or a flame out fault. Flammable Gases High concentrations of flammable gases (gases within their flammable range) can act as an additional fuel source. When this happens, the flame height may increase beyond the confines of the combustion chamber. The hydrogen supply will then be cut off and the flame will go out. Flame out may also occur when the concentration of sample gas is so great that it causes an oxygen deficiency. This may occur when sampling enclosed or confined spaces where vapors and gases cannot escape. Watch for indications of increased flame height such as erratic readings or sudden high concentrations followed by a flame out fault. Unpacking The following accessories are included with your MicroFID: 1. Shoulder Strap 2. Sample Probe 3. MicroFID Instrument Manual 4. Hydrogen Refill Adapter 5. MicroFID MultiTool...
Page 27 Introduction 6. Battery Charger with AC Line Cord 7. Replacement Sample Inlet Filters (10 pieces) Ensure all of these accessories have been included with the instrument. If any items are missing or damaged, contact PerkinElmer immediately. Support Equipment and Consumables Hydrogen Fuel You must obtain a tank of hydrogen from which you can fill the internal cylinder. When ordering hydrogen specify ultra high purity hydrogen, 99.999% pure. This grade of hydrogen is also referred to as Grade 5 or zero zero grade. The hydrogen must have less than 1 ppm hydrocarbon contamination. You can obtain the hydrogen in various size cylinders. Regardless of the cylinder size, the cylinder must have a fill pressure of at least 1800 psig in order to completely fill the MicroFID internal cylinder. Specify a tank with no more than 2400 psig. The hydrogen cylinder must also have CGA 350, male outlet. The MicroFID refill adapter (Part No. MX396004) is shipped with the instrument. You cannot fill the MicroFID hydrogen cylinder without the refill adapter. If the hydrogen supply tank is more than 6 months old it should be replaced with a new cylinder. Calibration For normal operation these items are required: 1. Calibration Kit (Part No. MX396011). The calibration kit contains a regulator, a gas sampling bag and a gas bag adapter. 2. Calibration gas containing the appropriate concentration of methane. The exact concentration of the calibration gas will...
Page 28 MicroFID Software Manual depend on your application. 500 ppm methane in air is available from PerkinElmer. (Part No. MX396028) Some applications may require calibration gas at more than one concentration. When ordering calibration gas, specify methane in hydrocarbon free air. Air should have not more than 0.1 ppm total hydrocarbons (THC). Method 21 protocol requires that commercial cylinders of calibration gas be analyzed and certified to be within +/ 2% accuracy and a shelf life must be specified on the cylinder. At the end of the shelf life, the cylinder must be replaced or re analyzed. If you will be using a portable cylinder, specify a regulator with a C10, 5/8" 18 UNF valve inlet and a 1/4” parallel, compression fitting outlet. A regulator, matching this specification, is included in the calibration kit. If you will be using large tanks of gas, specify a single stage, high purity regulator with a CGA 590 connection at the inlet. The regulator should also have a 1/4” p arallel, compression fitting outlet with which to connect the regulator to the gas bag adapter. The delivery pressure must be adjustable to approximately 40 psig (275 kPa). 3. Zero air. Occasionally, clean, ambient air is suitable for calibration. If you are unsure about the quality of ambient air, you can connect a charcoal filter (Part No. MX396021 or MX396022) to MicroFID during the first step of calibration. Alternatively you can use an additional gas sampling bag and a source of hydrocarbon free air. Air should have not more than 0.1 ppm total hydrocarbons (THC). If you will be using large tanks of gas, specify a single stage, high purity regulator with a CGA 590 connection at the inlet. The regulator should also have a 1/4” p arallel, compression fitting with which to connect the regulator to the gas bag adapter. The delivery pressure must be adjustable to approximately 40 psig (275 kPa). You should obtain an...
Page 29 Introduction additional gas bag and gas bag adapter. (Part No. MX396017 gas bag, MX396010 gas bag adapter) Field Operation For field operation a MicroFID Field Kit (Part No. MX396058) is available. The field kit includes a printer cable, a long sample probe, a carrying case and a calibration kit. Refer to the check list in Preparing for Field Operation on page 82. Ensure you have all the necessary accessories and equipment before beginning field operation. Printer MicroFID may be used with a serial printer. The printer must have a print width of at least 65 characters and a proportionally spaced font. A serial printer with an RS232 port, can be connected directly to MicroFID. See Printer on page 87 for details of connecting a printer to MicroFID. If you are using a parallel printer, you will need the serial to parallel converter (Part No. MX380145). See Serial to Parallel Converter on page 98 for details. NOTE: MicroFID is not classified for use in hazardous locations with a printer. Computer MicroFID may also be connected to a computer. The computer must be 100% compatible with an IBM PC. You can use the printer cable to connect MicroFID to the computer. You will also need terminal emulation software. If you are using Microsoft® Windows you do not need to purchase any separate ™ software. If you are already using another type of communication or terminal emulation software package, it is not necessary to purchase separate software for MicroFID. See Computer on page 88 for details. ...
Page 30 MicroFID Software Manual NOTE: MicroFID is not classified for use in hazardous locations with a computer. Battery Charging Before beginning operation of MicroFID, the battery pack must be charged. You can connect the battery charger to the battery pack while the battery pack is still attached to MicroFID. You can also remove the battery pack and replace it with a fully charged, spare pack (Part No. MX396005 or MX396006) and charge the battery pack independently of the instrument. Removing and Replacing the Battery Pack NOTE: Do not remove or recharge the battery pack in a hazardous location. To remove the battery pack: 1. Stop the flow of hydrogen gas by turning the hydrogen shut off valve fully clockwise. See Figure 1. If the instrument has been turned on, turn it off by pressing the On/Off switch twice. 2. Use the MicroFID multitool to loosen the two captive screws in the bottom of the battery pack. 3. A retainer at the rear of the instrument helps to secure the battery pack to the instrument. Free the battery pack from the instrument.
Page 31: Figure 1 Microfid Layout
Introduction Keypad Shoulder Strap On/Off Switch Connector Shoulder Strap Connector Exhaust/Flame Arrestor I/O Connector IS3000 INTRINSICALLY SAFE/SECURITE INTRINS QUE/Exia CLASS I, DIVISION 1, GROUPS A, B, C, D, T4, HAZARDOUS LOCATIONS 1500 FULL 1000 Sample Inlet Contents Gauge 2500 Refill Connector Battery Pack Hydrogen ShutOff Battery Charger...
Page 32 MicroFID Software Manual It is normal for a fully charged battery to indicate it is charging (red light) when first plugged in. The LED will turn green as the battery charges. 4. When the battery pack is fully charged remove the charger, first from the wall outlet then from the battery pack. 5. If you removed the battery pack from the instrument to recharge it, you can replace the battery pack now or when necessary. Charging a fully discharged battery pack will take approximately 8 hours. Leaving the charger connected to a charged battery pack will not harm the battery or the charger in any way. If a battery pack is to be left indefinitely, leave it connected to the charger so that it will be fully charged and ready for operation. On average a fully charged battery pack will provide 15 hours of continuous operation. Battery life is shorter if the instrument is turned off and then on again repeatedly. Filling the Hydrogen Cylinder The Refill Adapter DO NOT attempt to fill the hydrogen cylinder without a refill adapter! WARNING The refill adapter (Part No. MX396004) consists of an adapter fitting with a left handed thread for cylinder attachment, a three way valve and a flexible hose. The threeway valve can be positioned to deliver gas from the cylinder to the port on the MicroFID. Alternatively, the valve can be turned to release gas held in the hose, after filling. A flow restrictor is also incorporated in line with the hose in order to limit the rate of gas flow.
Page 33 Introduction DO NOT MODIFY OR DISASSEMBLE THE REFILL ADAPTER! If you have any problems, the unit must be returned for repair or replacement. WARNING...
Page 34 MicroFID Software Manual Connecting the Refill Adapter to the Hydrogen Tank NOTE: Read through this section before filling the internal cylinder. Store the hydrogen tank in a well ventilated area, well away from heat or possible ignition sources. Hydrogen gas is a fire and explosion hazard when exposed to heat or flame. The lower explosive limit is 4%. WARNING 1. Connect the refill adapter to the tank of hydrogen. Hydrogen is usually supplied with a CGA 350 cylinder valve outlet. The refill adapter is supplied with the matching fitting for ease of connection. NOTE: Do not force the connection. Do not use Teflon tape with CGA fittings. In general, these fittings are designed for metal to metal sealing. Do not use adapters to connect one CGA fitting to another type of CGA fitting. If the refill adapter does not match the outlet on your hydrogen tank contact PerkinElmer. 2. Tighten the refill adapter onto the tank with a wrench. Do not over tighten. 3. Hold the flexible hose and open the cylinder. Ensure there are no leaks. Use soap solution to leak test the connection.
Page 35 Introduction DO NOT use an open flame to test for leaks! WARNING Filling the Internal Hydrogen Cylinder Do not fill the hydrogen cylinder in a hazardous location. WARNING 1. Turn MicroFID off. 2. Place MicroFID on a sturdy, flat surface within easy reach of the flexible filling hose. 3. Turn the refill adapter 3way valve so that it points away from the cylinder. See Figure 3. 4. Hold the delivery hose and turn the 3way valve on the refill adapter so that it points towards the cylinder. Open the cylinder valve. A steady flow of gas will be heard escaping from the end of the flexible hose. This serves to purge the hose of any impurities. Return the 3way valve to point away from the cylinder.
Page 36: Figure 2 Microfid Refill Adapter
MicroFID Software Manual 3Way Valve CGA 350 Pneumatic Adapter Silencer 1/4" NPT Thread Female Fitting Flow Restrictor Quick Connect Flexible Hose Figure 2 MicroFID Refill Adapter 5. Hold the knurled collar of the MicroFID refill connector and slide it in towards the instrument. Hydrogen Off/Vent Tank Deliver through Hydrogen flexible hose Tank Figure 3 Refill Adapter 3Way Valve 6. Insert the fitting at the end of the flexible hose into the port until it seats against the port. You will hear a click.
Page 37 Introduction 7. Release the knurled collar and allow it to slide up to its original position. 8. Turn the 3way valve on the refill adapter so that it once again points towards the cylinder and watch the pressure increase on the MicroFID Contents Gauge. DO NOT leave the MicroFID unattended during the filling procedure! It is possible to overfill the cylinder and damage MicroFID. WARNING 9. The contents pressure MUST NOT exceed 2400 psig and the cylinder valve must be closed before this occurs. 10. When the contents gauge on MicroFID indicates Full (approximately 16001800 psig), turn the 3way valve to point away from the cylinder. This will stop the flow of gas to MicroFID. High pressure gas trapped in the flexible hose will be vented. A check valve in the MicroFID prevents gas in the reservoir from escaping. 11. Close the cylinder valve on the tank of hydrogen. 12. AFTER relieving the gas pressure in the hose, disconnect it from MicroFID. Pull the knurled collar down and extract the fitting. The internal cylinder is now full and will provide approximately 11 hours of operation. If you have not used MicroFID for six months or longer, empty the hydrogen cylinder and refill it before beginning operation. See Emptying the Hydrogen Cylinder on page 110 for more details. Overview...
Page 38 MicroFID Software Manual MicroFID measures the concentration of airborne organic, combustible gases and vapors and automatically displays and records these concentrations. It does not distinguish between individual pollutants. The reading displayed represents the total concentration of all ionizable chemicals present in the sample. MicroFID does not distinguish between individual pollutants. MicroFID operates automatically. The user reads concentrations directly from the display. The display updates itself twice per second. MicroFID has many datalogging options. You can select an averaging interval, you can log all data with no averaging or you can use the Method 21 mode. If you select an averaging interval, the minimum, maximum, and average concentrations measured in each period are automatically recorded in MicroFID’s datalogging memory, if the datalogger is turned on. If you are recording all data with no averaging you will only be able to log data for a short time before the datalogger becomes full. If you are averaging data you can log data for a longer period of time. The exact duration will depend on the averaging interval. The Method 21 mode prompts you to locate a site and then to record a background and sample reading for the site. You can record up to 750 such entries. There is no averaging of data in Method 21 operation. Recorded data can be played back from memory on MicroFID’s display, sent to a printer in either tabular or graphical format or sent to a computer. Data are recorded by date, time, and by an event name. Event names can be entered using the MicroFID keypad, an external bar code reader or a computer. Data are played back by specifying the start event name. The keypad is used to set up and calibrate MicroFID, and allows you to manipulate the concentrations measured and recorded by MicroFID in various ways. MicroFID has 16 keys for direct numeric entry and for using MicroFID’ s functions. All information entered from the keypad, the bar code reader or the computer and stored in MicroFID’s memory is retained when the...
Page 39 Introduction instrument is switched off. The clock and calendar continue to operate and do not need to be reset each time MicroFID is used.
Page 40: Tutorial Session
Tutorial Session...
Page 42 MicroFID Software Manual Beginning Operation To print or review logged data, you can operate MicroFID without the flame. You conserve the hydrogen this way. If you choose to start the flame, MicroFID will attempt to ignite the flame once you have turned on the flow of hydrogen gas. If MicroFID has been unused for a while it is possible that the gas supply lines are filled with air. If the flame cannot be started, MicroFID will begin a 30 second purge cycle. During the purge cycle it will flush the gas supply lines with hydrogen. After the purge cycle it will attempt to light the flame again. If it fails again, another purge cycle will be performed and MicroFID will try a third time to ignite the flame. To operate MicroFID: 1. Turn the instrument on by pressing the front of the On/Off switch. When the instrument is powered up, the version number and creation date of the instrument software are displayed. Press ENTER. 2. You will be prompted to start the flame. If you do not want to start the flame, use the ARROW keys to select “N o Flame Needed” and press ENTER. To start the flame use the ARROW keys to select Start Flame and press ENTER. 3. If you selected “ Start Flame”, MicroFID will prompt you to start the flow of hydrogen. Turn the shutoff valve counterclockwise to start the flow of hydrogen and press ENTER. See Figure 1 for the location of the shutoff valve. 4. The pump will start and MicroFID will then ignite the flame. You will hear a small pop when the flame has been ignited. Once the flame has been started the message “D etector flame has been started OK” will be displayed followed by the default display, shown in Figure 4.
Page 43: Figure 4 Default Display
Tutorial Session Instrument Status Detected Concentration Time Event Name Date Figure 4 Default Display The default display provides the following information: instrument status, current detected concentration, Event name (if the datalogger is on), time, and date. If an event name is longer than three characters the bottom line of the display will scroll through the information. The instrument status appears at the left of the upper line of the display and on the Print and Graph outputs. Each status has a priority assigned to it. If more than one status is in effect, then the status with the highest priority is displayed until the condition is corrected or until the option is turned off. When the bar graph is selected, the instrument status is reduced to a oneletter code. Status Code Priority Description NoFlm Flame has not been ignited. Check One of 4 faults is occurring. Press the TUTOR key for details. Over Detector electronics have been saturated. Table 1 Instrument Status...
Page 44 MicroFID Software Manual Status Code Priority Description This status will never be observed on the display during normal operation as various calibration prompt messages are displayed while MicroFID is calibrating. If the instrument is turned off during calibration, Cal will appear on the display when MicroFID is turned on again indicating the last calibration was incomplete. “C al” status is also shown on printed and graphed output. Alarm Detected concentration exceeds the set alarm level. LoBatt Battery pack power is low. Connect MicroFID to AC supply or replace the battery pack. Play The instrument is playing back previously recorded data. Endlog The datalogger is full. Sniff High Sensitivity operation. Ready Normal operation. Locate Locate site. Used for Method 21 operation BkGnd Record background reading. Used for Method 21 operation Sample Record sample reading. Used for Method 21 operation Displays maximum detected concentration.
Page 45 Tutorial Session Stop the flow of hydrogen gas by turning the hydrogen shutoff valve fully clockwise. Pressing the On/Off switch twice to power down the instrument. Tutorial Session TUTOR Key To assist you in learning the key functions, MicroFID has a builtin tutorial session that displays a twoline description of the function of each key. Pressing the TUTOR key begins a tutorial session and pressing the EXIT key after any other key, ends the session. While in the tutorial session, key presses have no effect on MicroFID’s operation. To begin a tutorial session: 1. Turn on MicroFID and select the “ No Flame” option. 2. Press the TUTOR key and begin a tutorial session. 3. Press each key and read the display. The tutorial display for each key is provided in Table 2. If a fault is encountered during normal operation, press the TUTOR key to display a description of the fault. If more than one fault is occurring at the same time, press the TUTOR key to see each of the faults in turn. When all the faults have been viewed, press EXIT to return to the normal display.
Page 46: Table 2 Tutor Displays
MicroFID Software Manual Tutor Tutor Description Description BATT Shows battery V ALARM Shows setpoint normally 68.9V for conc alarm DISPLAY Displays conc as SETUP Sets date time graph or numeral & options for keys LIGHT Shows detector Displays flame status highest conc measured AUDIO Selects alarm or EVENT Sets options for tone or no audio recording data PRINT Prints table of TUTOR Press a key then recorded data read explanation GRAPH Prints graph of CLEAR Erases the last recorded data number pressed...
Page 47 Tutorial Session keypad. Pressing ENTER confirms that the displayed value is correct and moves to the next key option. Some functions have multiple steps for options and/or numeric inputs. These are arranged so that the most frequently changed inputs are displayed first. Once the desired changes have been made you can bypass the rest of the steps by pressing EXIT. Each key function is described in more detail in the following sections. Leave MicroFID on and try each key in turn. BATT Key Press the BATT key to open a window that displays the battery voltage. The voltage will be 9 volts when the instrument is fully charged. When the voltage drops below 7.2 volts, a “ LoBatt” status will be displayed and the battery pack must be recharged. See Battery Charging on page 28. NOTE: Do not remove or recharge the battery pack in a hazardous location. An audio signal will be generated when “LoBatt” occurs. The signal will not clear until you connect the battery pack to an AC supply or replace the battery pack with a fully charged one. NOTE: Do not leave the battery pack uncharged for an extended period of time. This will result in damage to the battery pack. DISPLAY Key If a numerical display is shown, pressing DISPLAY will change it to a bar graph. If the bar graph is shown, pressing DISPLAY changes it to a numerical display. The top line of the bar graph display shows the instrument status and the concentration range. The bar graph range is selected with the SETUP key. In the bar graph display, the instrument status becomes a oneletter code. See Table 1 for a description of the instrument status codes.
Page 48 MicroFID Software Manual The bottom line of the display remains unchanged in bar graph mode and will continue to scroll and display data. LIGHT Key Press the LIGHT key to display the flame status. If the flame has been ignited and is burning, the status will be Detector flame is lit. If you are not analyzing, the flame status will be “Detector Flame is not lit” . EXIT Key The EXIT key terminates all MicroFID functions. When you press the EXIT key the display reverts to the default display. Most functions exit automatically if no key is pressed for 15 seconds. When EXIT is pressed during printing, MicroFID stops sending information to the printer. The printer will continue to print until its buffer is empty. CLEAR Key CLEAR erases the last entry. If a value is entered in error, press CLEAR to erase the entry and then reenter the correct number. CLEAR used in conjunction with the MAX key clears the Max register. MAX Key Press the MAX key. The maximum concentration, the event during which it was encountered and the time and date of the occurrence will be displayed. Max is shown for 15 seconds and then the display reverts to the default display.
Page 49 Tutorial Session Press MAX then press CLEAR twice to reset the Max register. “M ax Cleared” will be displayed with the current date and time. After 15 seconds the display reverts to the default display. Recording of real time data is not interrupted when the MAX key is pressed or when the Max register is cleared. AUDIO Key If an “ Alarm” status, “LoBatt” status or a flame out fault occurs, an audio signal will be generated. Under these conditions you will hear the audio signal even if a headset is not connected. If you have a “L oBatt” status, the audio signal will not clear until you connect the battery pack to an AC supply or replace the battery pack with a fully charged one. If a flame out fault has occurred, the audio signal will not stop until the flame has been restarted or you turn MicroFID off. In the case of an alarm condition, an audio signal will be generated when an alarm is encountered. To turn off the audio signal on alarm: 1. Press the AUDIO key. 2. Select “A udio Off” with the ARROW keys and press ENTER. ALARM Key Press the ALARM key to display the current alarm level or to enter a new alarm level. The displayed alarm level is specific to the current Cal Memory. When the Cal Memory is changed, the alarm level associated with the newly loaded Cal Memory will be displayed and used during sampling. To display the current alarm level or to enter a new alarm level:...
Page 50 MicroFID Software Manual 1. Press CAL and select the desired Cal Memory. Press ENTER and then press EXIT. You do not want to calibrate MicroFID at this point. 2. Press ALARM to display the current alarm level. If this value is correct, press EXIT to return to the normal display. 3. If a new value is to be set, enter the new value, and press ENTER. This alarm level is specific to the current Cal Memory. When an alarm condition is detected, the instrument status changes to “A larm” and an audio signal is generated. The “Alarm” status will not clear until the detected concentration falls below the set alarm level. PLAY Key The PLAY key plays back previously recorded data. To play back previously recorded data: 1. Press PLAY. Two options are available. Pressing ENTER begins playback where it was last stopped. Press the SETUP (*) key to set the playback options. 2. Select the start Event. MicroFID will display a list of available events. Use the ARROW keys to scroll through the list. When the start event you want is displayed, press ENTER. NOTE: An event name may not be available if it has been deleted. 3. If data has been averaged over an interval, select which value is to be displayed, either the Minimum, the Average, or the Maximum, and press ENTER. If you are playing back Method 21 data select Background, Sample or Difference to be displayed. 4. The data can be played back in either numerical or bar graph display. Press the DISPLAY key to select the desired option.
Page 51 Tutorial Session 5. Press the ARROW keys to play back the data. You can move forward or backward through the datalogger. 6. Press EXIT at any time to return to normal operation. If the flame is on, MicroFID is measuring and recording real time concentrations when the instrument status is “P lay”. If, du ring playback, an instrument status with a priority higher than that of “P lay” is encountered in real time, it will be displayed. MicroFID will however, continue to play back recorded data. The PLAY function provides a speed search to review data or to find the desired start and stop event names for printing or graphing. SETUP Key The setup key is used to enter analysis information. Press SETUP and step through the options. Press ENTER to accept the displayed data or enter a numerical value using the keypad and then press ENTER. If no values are entered the display reverts to the default display after 15 seconds. To enter analysis information: 1. The first option is for the detector. If you have been using the instrument with no flame and you now need to start the flame, use this option. You can also use this option to start the flame after a flame out fault. If you do not want to change the status of the detector use the ARROW keys to select “No Change”. Press ENTER to move to the next option. 2. The next option is Repair. Use Repair to record the state of repair. You must define the repair codes and ensure all users are aware of the codes. This option is most useful for Method 21 monitoring. For example, a code of 0 may represent no repair under way, 1 may represent first attempt at repair with 5 days, 2 may represent final repair attempt within 15 days, 3 may indicate irreparable damage, and a 4 may represent a state in which a repair can not be attempted until the next scheduled shut down.
Page 52 MicroFID Software Manual 3. Next, select the operating range. This option sets the fullscale range for the bar graph display, the graph output. Use the ARROW keys to select a Range of 20, 200, 2000, 10000, 50000 ppm. This does not affect MicroFID’s numeric display and datalogging. 4. Select the Interval next. You can average data over intervals of 1 second (s) 5 s, 10 s, 15 s, 30 s, 1 minute (m), 2 m, or 5 m. You may also select Method 21 mode. If you select Method 21, the datalogger will be cleared. If you do not want to lose your previously recorded data, press EXIT. Then print or save the data to disk before changing the interval to Method 21. See PRINT Key on page 53, GRAPH Key Mode on page 58 and Computer on page 88 for more information on printing and saving logged data. NOTE: The datalogger will be cleared when you change from Interval mode to Method 21. Method 21 mode first prompts you to locate a specific sampling site and then allows you to record both a background and sample entry in the datalogger. Method 21 mode will be covered in more detail on page 72. 5. The date option is next. Enter the current day, month and year. Press ENTER to confirm the entry. The date is retained when the instrument is turned off. You do not need to enter this information every time you use MicroFID. 6. Next enter the correct time. Press ENTER. EVENT Key Events may be used to identify a particular sample or sampling location in memory. An event name is used in Method 21 operation to identify a sampling location. Recorded data are played, printed and removed from the datalogger by specifying a start and stop event name.
Page 53 Tutorial Session The EVENT key controls MicroFID’ s datalogger. Press the EVENT key to see the event options. To display or add events: 1. Press the ARROW keys until the “In sert” option is displayed. 2. To insert an event, press ENTER. You will be prompted to enter an event name. You can enter a numerical name directly from the MicroFID keypad or you can connect MicroFID to a computer and enter the event name using the STAR 21 Software (Part No. MX396027). An event name may be up to 16 characters long. Refer to the Software Manual for the STAR 21 software for details of using the software with MicroFID. 3. Press the ARROW keys to move to the next option. If you want to delete a range of events you must select a start and stop event. Use the ARROW keys to scroll through the list of events to select the start event and then to select the stop event. NOTE: Deleted information cannot be recovered. You should play back and print or download the contents of the datalogger before deleting any information. 4. You can delete the current event, all recorded events or a range of events. Press ENTER then use the ARROW keys to select the desired option. 5. You can turn the datalogger off by selecting Stop. MicroFID will continue to analyze, but no data will be stored. To turn the datalogger on again press the EVENT key and use the ARROW keys to select Start. MicroFID will begin logging data again. 6. You can find a specific event in the datalogger using the “Fin d”...
Page 54 MicroFID Software Manual 7. The next option is “Scan” . You can use a bar code reader (Part No. MX396054) to scan a bar coded event name. See Bar Code Reader on page 103 for details of connecting the bar code reader to MicroFID. 8. To activate the bar code reader, use the ARROW keys to select “Scan ” . Press ENTER to activate the bar code reader. It will remain activated until you scan a code. If no bar code is scanned within 15 seconds the bar code reader will be deactivated. This is done to conserve battery life. “Scan ” , when used with the bar code reader has the same function as the “I nsert” option. MicroFID can record continuously until the datalogger is full. When the datalogger is full the instrument status will change to “ Endlog”. The datalogger will stop logging data when it is full. If it is necessary to retain a copy of recorded data, the data should be printed or stored in a computer when “E ndlog” is displayed. This will prevent loss of information. CAL Key The CAL key is used to calibrate MicroFID. Calibration has been automated for ease of operation. Before beginning calibration ensure you have a reliable source of zero air and calibration gas. A brief description of the functions under the CAL key will be provided here. For more information on calibrating MicroFID, see Calibration on page 65. When you press the CAL key you will first be prompted to select a Cal Memory. Each Cal Memory stores a unique zero point, sensitivity setting, response factor and alarm level. You will then be prompted to enter a response factor. Refer to Response Factors on page 149 for a list of response factors. If the compound is not in this list or you are measuring gas mixtures,...
Page 55: Figure 5 Keep Microfid Level
Tutorial Session Next select Low Range or High Range operation. Use Low Range if you are sampling concentrations between 0.5 and 2000 ppm (methane equivalents). Use High Range if you are sampling concentrations between 10 and 50,000 ppm (methane equivalents). You will now be prompted to connect a supply of zero air. You can use ambient air, a charcoal filter (Part No. MX396021, MX396022) to clean ambient air or, for best results, use a clean sampling bag filled with zero grade air. After MicroFID has set its zero point, you then enter the concentration of the calibration gas and then connect the calibration gas. MicroFID sets its sensitivity for the specified Cal Memory. You must have a supply of calibration gas ready before calibrating MicroFID. See Calibration on page 25 for detailed calibration instructions. When calibrating MicroFID, ensure the instrument is level. If MicroFID is tilted from side to side, gravity will affect the flame height and cause erroneous readings. Figure 5 Keep MicroFID Level...
Page 56 MicroFID Software Manual PRINT Key MicroFID has been designed for use with a serial printer. The printer must have a print width of at least 65 characters and a proportionally spaced font. If you are using a parallel printer, you will also need the serial to parallel converter (Part No. MX380145). See Printer on page 87 for instructions on connecting and configuring a printer for use with MicroFID. See Serial to Parallel Converter on page 98 for instructions on connecting the serial to parallel converter to MicroFID and to the printer. When MicroFID is printing data it is still measuring real time concentrations. NOTE: MicroFID is not classified for use in hazardous locations with a printer. To print data: 1. Turn MicroFID off. 2. Use the MicroFID printer cable (Part No. MX396051) to connect the MicroFID I/O connector to the printer. 3. Turn MicroFID on and press the PRINT key and then the SETUP (*) key to select the desired setup options. 4. MicroFID will ask for the start and stop Events. Use the ARROW keys to scroll through the list of events to select the start event and then to select the stop event. 5. Enter an ID number if desired. Any number up to 16 digits long may be entered as an ID number. The ID number can be used, for example, to differentiate between users or instruments. If more than one person is...
Page 57 Tutorial Session using a single instrument, each person can use an individual number for printed reports. If more than one MicroFID is being used, each instrument can have its own ID number on printed reports. If an ID number is not required, leave this option blank and move to the next option by pressing ENTER. 6. Enter the baud rate. This value is specific to the printer being used and must be set correctly. Refer to the printer user’ s manual to determine the correct baud rate 7. Enter the parity. The parity is specific to the printer being used and must be set correctly. Most printers will have parity set to none. 8. When the setup is correct, ensure the printer is online and press ENTER. MicroFID stores one set of readings (Min, Avg and Max) each interval. In each averaging interval the printed minimum is the minimum of all the stored readings in that interval. The printed Avg is the average of all the recorded average readings and the Max is the maximum of all the recorded maximum readings. In Method 21 operation, the background, sample and the difference are stored. When you are using interval mode, the date and time are printed along with the event name, repair code and the minimum, average and maximum concentration of each interval. The date, time, event name, and repair code are only printed when they change.
Page 58: Figure 6 Printed Output For Interval Mode
MicroFID Software Manual Photovac MicroFID Analysis Report (All units are PPM) ID: 100 Date Time Event REP Stat Nov 28,94 16:06 22.6 16:07 11.6 91.7 Ready 22.5 50.1 16.0 22.0 16:08 HiSens 128.0 173.0 503.1 17.4 417.9 520.5 485.5 515.0 519.5 489.8 505.2 518.9 Figure 6 Printed Output for Interval Mode When you are using Method 21 mode, the date and time are printed along with the event name, repair code and the background, difference and sample concentration of each interval. The date, time, event name, and repair code are only printed when they change. See Figure 7.
Page 59 Tutorial Session Pressing EXIT during printing stops the job. The printer will continue to print until its buffer is empty.
Page 60: Figure 7 Printed Output For Method 21 Mode
MicroFID Software Manual Photovac MicroFID Analysis Report (All units are PPM) ID:100781 Date Time Event REP Stat BkGnd Diff Sample Nov 30,94 13:29 100 Ready 15.4 17.2 13:35 101 15.8 17.6 13:48 102 14:13 103 14:53 104 Alarm 2464 2470 15:54 105 Ready 16:05 106 20.9 21.2 16:12 107 16:56 108 19.6 21.1 Dec 1, 94 10:39 109 10:57 110 98.6 98.8...
Page 61 Tutorial Session 3. Turn MicroFID on and press the SETUP key to set the range for the graph. Use the ARROW keys to select the 20, 200, 2000, 10,000 or 50,000 ppm range. 4. Press the GRAPH key and then the SETUP (*) key to select the desired setup options. 5. MicroFID will ask for the start and stop events. Enter the desired event and press ENTER. Use the ARROW keys to scroll through the list of events to select the start event and then to select the stop event. 6. Enter an ID number if desired. Any number up to 16 digits long may be entered as an ID number. The ID number can be used, for example, to differentiate between users or instruments. If more than one person is using a single instrument, each person can use an individual number for printed reports. If more than one MicroFID is being used, each instrument can have its own ID number on printed reports. If an ID number is not required, leave this option blank and move onto the next option by pressing ENTER. 7. Enter the baud rate. This value is specific to the printer being used and must be set correctly. Refer to the printer user’ s manual to determine the correct baud rate. 8. Enter the parity. The parity is specific to the printer being used and must be set correctly. Most printers will have parity set to none. 9. When the setup is correct, ensure the printer is online and press ENTER. MicroFID stores one set of readings (Min, Avg and Max) for each averaging interval. In each averaging interval the graphed minimum is the minimum of all the stored readings in that interval. The graphed Avg is the average of all the recorded average readings and the Max is the maximum of all the recorded maximum readings. In...
Page 62 MicroFID Software Manual Method 21 operation, the background, sample and the difference are stored. In Interval mode the date and time are printed along with the event name and the repair code. The date, time, event name, and repair code are only printed when they change. See Figure 8. A minus sign is used to draw the graph from the minimum to the average. Plus signs are used to graph the area between average and maximum. In Method 21 mode the date and time are printed along with the event name and the repair code. The date, time, event name, and repair code are only printed when they change. See Figure 9. A minus sign is used to draw the graph from the background to the difference. Plus signs are used to graph the area between difference and sample. Difference is calculated by subtracting the background from the sample.
Page 63: Figure 8 Graphed Output For Interval Mode
Tutorial Session Photovac MicroFID Analysis Report (All units are PPM) ID:100 Date Time Event REP Stat [02000] Nov 29,94 13:36 Ready + 13:37 + 13:38 +++ +++ 13:39 Ready 13:40 ++ 13:41 +++++ ++ 13:42 13:43 HiSens +++++++++++ ++++++++ Figure 8 ...
Page 64: Figure 9 Graphed Output For Method 21 Mode
MicroFID Software Manual Photovac MicroFID Analysis Report (All units are PPM) ID: 100781 Date Time Event REP Stat [0 2000] Nov 30,95 13:29 100 Ready 13:35 101 13:48 102 14:13 103 14:53 104 Alarm + 15:54 105 Ready 16:05 106 16:12 107 16:56 108 ...
Page 65: Detailed Operation
Detailed Operation...
Page 67 Detailed Operation Calibration General Information MicroFID must be calibrated in order to display concentration in ppm units equivalent to the calibration gas. First a supply of zero air, which contains no ionizable gases or vapors, is used to set MicroFID’s zero point. Then, calibration gas, containing a known concentration of an ionizable gas or vapor, is used to set the sensitivity. Occasionally clean ambient air will be suitable as zero air. Due to MicroFID’s sensitivity, outdoor air is usually unsuitable for calibration. A charcoal filter (Part No. MX396021, MX396022) may be connected to the instrument to produce clean air from otherwise unsuitable ambient air. For best results, use a commercial source of zero grade air and a second sampling bag. Zero air should have not more than 0.1 ppm total hydrocarbons (THC). Methane in air is recommended as span gas. The concentration of the calibration gas will depend on your application. When ordering calibration gas, specify methane in hydrocarbon free air. Balance air should have not more than 0.1 ppm total hydrocarbons (THC). Method 21 protocol requires that commercial cylinders of calibration gas be analyzed and certified to be within +/ 2% accuracy and that a shelf life must be specified on the cylinder. At the end of the shelf life, the cylinder must be replaced or re analyzed.
Page 68 MicroFID Software Manual Preparing the Calibration Gas Bag and the Zero Air Bag Use the calibration kit (Part No. MX396011) as follows: Observe proper handling techniques for all gases! See Warnings and Safety Practices on page 18. WARNING 1. Connect the regulator to the calibration gas cylinder. If you are using a portable tank of calibration gas, connect the regulator supplied with the calibration kit. If you are using a large cylinder of calibration gas, you must obtain a high purity regulator as specified in Support Equipment and Consumables on page 25. Methane in air is usually supplied with a standard CGA 590 cylinder valve outlet. Obtain a regulator with the matching fitting. Connect the regulator to the tank of calibration gas. NOTE: Do not force the connection. Do not use Teflon tape with CGA fittings. In general, these fittings are designed for metal to metal sealing. Do not use adapters to connect one CGA fitting to another type of CGA fitting. If the regulator does not match the outlet on your calibration tank, contact your specialty gas supplier. Tighten the regulator onto the tank with a wrench. Do not overtighten. Attach the knurled nut on the gas bag adapter to the regulator. Fingertighten the fitting.
Page 69: Figure 10 Gas Bag Adapter
Detailed Operation 1/8" to 3/16" Union 1/8" Nut To Regulator Gas Bag 1/8" Adapter Tube Stub Tubing Teflon Ferrules Required Here Figure 10 Gas Bag Adapter Loosen the knurled nut on the reducing union of the gas bag adapter. NOTE: Do not remove the nut from the union, as the Teflon ferrules contained inside the nut may be lost. See Figure 10. 5. Insert the tube stub from the gas bag into the knurled nut. Tighten the knurled nut and ensure the tube stub is secure. If the gas bag is not secure, ensure you have inserted the tube stub far enough into the knurled nut. Do not over tighten the fitting. Overtightening the Teflon ferrules will result in damage to the ferrules. CAUTION 6. The union should be connected to the gas bag adapter. If it is not, then tighten the nut on the adapter tube to the union. 7.
Page 70: Figure 11 Using The Gas Bag
MicroFID Software Manual Tube Stub Septum Retainer Locking Ring Gas Bag Valve Injection Port Replacing the Septum Remove retainer and replace silicone septum. Place septum with Teflon side down. Replace retainer Replace septum after Do not overtighten. 510 injections.To replace Overtightening may result septum, turn retainer counter...
Page 71 Detailed Operation Calibrating MicroFID To calibrate MicroFID: 1. Press CAL and select the desired Cal Memory. MicroFID has 10 Cal Memories and can be calibrated with 10 different span gases or response factors if desired. Only one Cal Memory can be used at a time. Each Cal Memory stores a different response factor, zero point, sensitivity, and alarm level 2. Enter the desired response factor and press ENTER. Refer to Response Factors on page 149 for a list of Response Factors. If the compound is not in this list or you measuring gas mixtures then enter a value of 1.00. The concentration detected by MicroFID will be multiplied by the response factor before it is displayed and logged. 3. Select Low Range or High Range and press ENTER. Use Low Range if you are sampling concentrations between 0.5 and 2000 ppm (methane equivalents). Use High Range if you are sampling concentrations between 10 and 50,000 ppm (methane equivalents) 4. Connect the supply of zero air. If you are using room air press ENTER. 5. If you are using a charcoal filter, connect the filter as outlined in Charcoal Filters on page 95. Press ENTER and MicroFID will set its zero point. NOTE: The charcoal filter does not filter methane or ethane. If these compounds are present, use a gas bag with a supply of commercial zero air. 6. If you are using a gas bag with zero air, connect the gas bag adapter to the inlet. Open the bag and press ENTER. MicroFID sets its zero point. 7. MicroFID then asks for the span gas concentration. Enter the known span gas concentration and then connect the gas bag adapter to the inlet. Open the bag.
Page 72 MicroFID Software Manual 8. Press ENTER and MicroFID sets its sensitivity. NOTE: Readings may fluctuate slightly as the gas bag empties. Do not allow the MicroFID to evacuate the bag completely. 9. When MicroFID’ s display reverts to normal, it is calibrated and ready for use. Remove the span gas bag from the inlet. 10. Press the ALARM key and enter the alarm level for the selected Cal Memory. Programming the Cal Memories MicroFID has 10 Cal Memories and can be calibrated with 10 different span gases or response factors if desired. To program the Cal Memories: 1. Prepare the bags of calibration gas as outlined in Preparing the Calibration Gas Bag and the Zero Air Bag on page 66. Use a different gas bag and gas bag adapter for each concentration and for each type of calibration gas. You can use the same gas bag to zero all the Cal Memories; however, you must refill the bag for each Cal Memory. 2. Press CAL and select the desired Cal Memory (1 to 10) with the ARROW keys. 3. Enter the desired response factor and press ENTER. See Response Factors on page 149. NOTE: It does not matter which Cal Memory is selected or which response factor is entered, MicroFID’ s response is not specific to any one compound. The reading displayed represents the total concentration of all ionizable compounds in the sample. 4. Select the Low Range or High Range and press ENTER. The range will depend on the concentration of the calibration gas. Use Low range if you are sampling concentrations between 0.5 and 2000 ppm (methane equivalents). Use High Range if you are sampling...
Page 73 Detailed Operation concentrations between 10 and 50,000 ppm (methane equivalents). 5. You will now be prompted to connect a supply of zero air. You can use ambient air, a charcoal filter (Part No. MX396021, MX396022) to clean ambient air or, for best results, use a clean sampling bag filled with zero grade air. 6. After MicroFID has set its zero point, you then enter the concentration of the calibration gas and then connect the calibration gas. MicroFID sets its sensitivity for the specified Cal Memory. The span gas concentration, response factor and alarm level entered here are specific to the selected Cal Memory only. When the calibration is completed it is automatically stored in the selected Cal Memory. 7. Press the ALARM key and enter the alarm level for the selected Cal Memory. 8. Repeat this procedure for each Cal Memory you need. When calibrating MicroFID, ensure the instrument is level. If MicroFID is tilted side to side, gravity will affect the flame height and cause erroneous readings Whenever the instrument is calibrated, MicroFID updates the selected Cal Memory only. Each Cal Memory must be calibrated at least once a day. Frequency of calibration will depend on ambient conditions and instrument response. If ambient conditions change or the response has drifted, a calibration must be performed for each Cal Memory to ensure reliable operation. High Sensitivity Operation MicroFID can be used as a high sensitivity leak detector. In high sensitivity operation, MicroFID does not read in ppm units equivalent to the calibration gas, but displays a reading proportional to the total concentration of ionizable gases and vapors detected.
Page 74 MicroFID Software Manual During calibration, no span gas is required. MicroFID zeros its reading with zero air and then sets itself to maximum sensitivity. To use the High Sensitivity option: 1. Press SETUP. Select the 020 ppm display range with the ARROW keys and press ENTER. 2. Press CAL. Under Cal Memory, use the ARROW keys to select High Sensitivity and press ENTER. 3. Press EXIT. Select the bar graph with the DISPLAY key. 4. Press CAL and calibrate MicroFID with zero air. You should use a supply of commercial zero grade air and a gas sampling bag when zeroing MicroFID for high sensitivity operation. As MicroFID samples air closer to the leak, the length of the shaded area on the display increases. MicroFID’s 3 second response time and detection limit of 0.5 ppm methane permit fast detection of small leaks. Method 21 Operation Method 21 is a US EPA protocol for the determination of volatile organic compound (VOC) leaks in process equipment. MicroFID has a Method 21 mode that facilitates Method 21 measurements. The STAR 21 Software (Part No. MX396027) provides more comprehensive data management consistent with the Method 21 protocol. Contact PerkinElmer for more information. You must be familiar with the Method 21 protocol to use MicroFID for Method 21 monitoring. You must use the specifications outlined in the Method 21 documentation for programming MicroFID’ s Cal Memories and monitoring the sites. As part of Method 21 operation, you must setup MicroFID to monitor various locations. Since each location may contain different...
Page 75 Detailed Operation compounds and concentration ranges you will store a Cal Memory and the associated response factor and alarm level as part of each event. In this way you can sample numerous locations without having to recalibrate MicroFID at each location. You can enter the monitoring schedule in one of two methods. Regardless of the method you use to enter the monitoring schedule; you must calibrate the required Cal Memories before you enter the monitoring schedule. Calibration You must determine the number of calibration standards that will be required to perform Method 21 monitoring for your site. Refer to the Method 21 documentation for details. To program your cal memories: 1. Prepare the bags of calibration gas as outlined in Preparing the Calibration Gas Bag and the Zero Air Bag on page 66. Use a different gas bag and gas bag adapter for each concentration and for each type of calibration gas. You can use the same gas bag to zero all the Cal Memories; however, you must refill the bag for each Cal Memory. 2. Press CAL and select the desired Cal Memory (1 to 10) with the ARROW keys. 3. Enter the desired response factor and press ENTER. See Response Factors on page 149. NOTE: It does not matter which Cal Memory is selected or which response factor is entered, MicroFID’ s response is not specific to any one compound. The displayed reading represents the total concentration of all ionizable compounds in the sample. 4. Select the Low Range or High Range and press ENTER. The range will depend on the concentration of the calibration gas. Use Low Range if you are sampling concentrations between 0.5 and 2000 ppm (methane equivalents). Use High Range if you are sampling...
Page 76 MicroFID Software Manual concentrations between 10 and 50,000 ppm (methane equivalents). 5. Follow the displayed calibration instructions. When the calibration is completed it is automatically stored in the selected Cal Memory. The span gas concentration and response factor entered here are specific to the selected Cal Memory only. 6. Press the ALARM key and enter the alarm level for the selected Cal Memory. Whenever the instrument is calibrated, MicroFID updates the selected Cal Memory only. Each Cal Memory must be calibrated at least once a day. Frequency of calibration will depend on ambient conditions and instrument response. If ambient conditions change or the response has drifted, a calibration must be performed for each Cal Memory to ensure reliable operation. Programming the Monitoring Schedule in the Field The easiest way of entering the Method 21 information is to go to each site and enter the required information. In this way, the schedule will be entered into the instrument in the exact manner in which it will be used. To program the monitoring schedule: 1. Press the SETUP key. Press ENTER until “I nterval” is displayed. Use the ARROW keys to select Method 21 as the Interval. Press ENTER. 2. You will be prompted to clear the datalogger. If you want to save the contents of the datalogger, press EXIT. You must print or save the data to disk. See PRINT Key on page 53, GRAPH Key Mode on page 58 or Computer on page 88 for details of printing or saving your data. Press ENTER to clear the datalogger. 3. Go to the first site to be monitored. You can enter the sites in any order; however, using the schedule after it has been...
Page 77 Detailed Operation stored is easier if the sites are stored in the order in which they will be monitored. 4. Press the EVENT key. Use the ARROW keys to select “In sert” . Press ENTER. Use the keypad to enter an event name up to 16 characters long. To obtain alphabetic characters you must use the STAR 21 software (Part No. MX396027). If your site is bar coded, use the ARROW keys to select “S can”. Press ENTER to activate the bar code reader. The bar code reader will remain activated until you scan a code. If no bar code is scanned within 15 seconds the bar code reader will be deactivated. See Bar Code Reader on page 103 for details of connecting the bar code reader to MicroFID. It is possible to enter an event name that already exists in the datalogger. When you select “In sert” or “Scan” you can enter the name of an event that already exists in the datalogger. MicroFID will not overwrite the existing event. It will insert an event with the same name. In this way you can create multiple copies of the same schedule in the datalogger. You can see the duplicate events when you print the contents of the datalogger. 5. Press the CAL key and select the calibration memory to be used for this site. Press ENTER and then press EXIT. 6. Press SETUP and enter a 2digit repair code for this location. See SETUP Key on page 49 for a description of Repair code. This step is optional. 7. When you return to the default display, the instrument status will be “...
Page 78 MicroFID Software Manual 9. The instrument status will now be “Sample ”. Ta ke a sample measurement, as specified in the Method 21 protocol. When you have an accurate sample, press ENTER. MicroFID will record the maximum sample concentration when you press the ENTER key. 10. The instrument status will again be Locate. At this time, since there are no other locations stored in the datalogger the same event will be displayed. 11. Press EXIT at anytime to return to the beginning of the current event and repeat the readings. 12. To store the next location, go the next site and press the EVENT key. Select “Insert” or “Scan ” to enter an event name. 13. Press the CAL key and select the calibration memory to be used for this site. 14. Press SETUP and enter a repair code for this location. 15. When you return to the default display, the instrument status will be “ Locate” . Record a background and sample reading for this site. You will now have two events recorded in the datalogger. 16. Repeat this procedure for all sites that must be monitored. You can record data for up to 250 sites. 17. Once all event entries have been recorded in the datalogger, you may want to download them to a computer to perform your own calculations.
Page 79 Detailed Operation Programming the Monitoring Schedule before Field Operation Use this method of programming the schedule if you are unable to go into the field. You will create a monitoring schedule with place holders for the data. To preprogram your monitoring schedule: 1. Press the SETUP key. Press ENTER until “ Interval” is displayed. Use the ARROW keys to select Method 21 as the Interval. Press ENTER. 2. You will be prompted to clear the datalogger. If you want to save the contents of the datalogger, press EXIT. You must print or save the data to disk. See PRINT Key on page 53, GRAPH Key Mode on page 58 or Computer on page 88 for details of printing or saving your data. Press ENTER to clear the datalogger. 3. You can enter the sites in any order; however, using the schedule after it has been stored is easier if the sites are stored in the order in which they will be monitored. 4. Press the EVENT key. Use the ARROW keys to select “In sert” . Press ENTER. Use the keypad to enter an event name up to 16 characters long. To obtain alphabetic characters you must use the STAR 21 software. (Part No. MX396027) If your site is bar coded and you have a list of the bar codes, use the ARROW keys to select “Scan ”. P ress ENTER to activate the bar code reader. The bar code reader will remain activated until you scan a code. If no bar code is scanned within 15 seconds the bar code reader will be deactivated. See Bar Code Reader on page 103 for details of connecting the bar code reader to MicroFID.
Page 80 MicroFID Software Manual datalogger. You can see the duplicate events when you print the contents of the datalogger. 5. Press the CAL key and select the calibration memory to be used for this site. Press ENTER and then press EXIT. 6. Press SETUP and enter a 2 digit repair code for this location. See SETUP Key on page 49 for a description of Repair code. This step is optional. 7. When you return to the default display, the instrument status will be “ Locate”. If t he event name is greater than 3 characters the bottom line of the display will scroll from right to left. 8. Press ENTER. The instrument status will change to “B kGnd”. P ress ENTER to create a placeholder and to move to the next step. 9. The instrument status will now be “Sample ”. Pr ess ENTER to create a placeholder and to move to the next step. The instrument status will again be Locate. At this time, since there are no other locations stored in the datalogger the same event will be displayed. 10. Press EXIT at any time to return to the beginning of the current event. 11. To store the next location, press the EVENT key. Select “In sert” or “Sc an” to enter an event name. 12.
Page 81 Detailed Operation 15. The instrument status will now be “Sample”. Press ENTER to create a placeholder and to move to the next step. The instrument status will again be “Locate”. 16. Repeat this procedure for all sites that must be monitored. You can record data for up to 250 sites. Once all event entries have been recorded in the datalogger, you are ready to use the schedule for monitoring the sites. You may want to print the schedule to ensure all your sites have been entered correctly. Using the Schedule Once you have programmed the schedule you can use it at any time to perform Method 21 monitoring. Frequency of monitoring is determined from percentage leaker calculations. Refer to the Method 21 documentation for details. To use the schedule: 1. Calibrate MicroFID as outlined in Calibration on page 65. 2. If the first event of the schedule is not displayed, you can find a specific event in the datalogger using the “F ind” option. Press SETUP and use the ARROW keys to scroll through the list of events. Select the desired event. When you press ENTER, the selected event will be displayed. 3. Locate the specified site and press ENTER. 4. The instrument status will change to “BkGnd ”. A background measurement must be made as specified in the Method 21 protocol. When you have an accurate background, press ENTER. MicroFID will record the displayed concentration when you press the ENTER key. 5. The instrument status will now be “Sample ”. Ta ke a sample measurement, as specified in the Method 21 protocol. When you have an accurate sample, press ENTER. MicroFID will record the displayed concentration when you press the...
Page 82 MicroFID Software Manual 6. The instrument status will again be “Locate”. If you recorded the sites in order, the next site will be displayed. You can move through the stored list. If the sites were not entered in order or the order of sites has changed, use the “F ind” option to locate the next site. 7. Press EXIT at any time to return to the beginning of the current event and repeat the readings. 8. To repeat a measurement recorded previously in the datalogger, press the EVENT key and use the ARROW keys to select “ Find”. Select the event you need to repeat and press ENTER. If you change from Method 21 operation to a set averaging interval, you will lose your Method 21 schedule and associated programming. Print or save the data to disk before changing the interval. See PRINT Key on page 53, GRAPH Key Mode on page 58 or Computer on page 88 for details of printing or saving your data. NOTE: The datalogger will be cleared when you change from Method 21 to Interval mode. Response Factors for Gases and Vapors In situations where only a single pure compound is present in air, MicroFID should be calibrated with a standard of that specific compound as span gas. MicroFID’s 10 Cal Memories can be used to store calibration information for 10 different span gases. MicroFID’s reading will always be influenced by any other ionizable compounds present in the air sample. Even if MicroFID has been calibrated with a specific compound, its response is not specific and the presence of another ionizable impurity may render the numerical result invalid.
Page 83 Detailed Operation with the recommended span gas and entering the appropriate response factor. The response factor is based on the ratio of the response of the specific compound to the response of the span gas. The response factor multiplies MicroFID’s reading then displays and records it (if the datalogger is on). Response Factors on page 149 provides a list of response factors from which approximations can be made for guidance purposes. Data extrapolated from the use of response factors must be regarded as interim and approximate only. The response factors in the list should be used only for concentrations up to 500 ppm of the specific compound, as response factors change with concentration. To use the response factors: 1. Press the CAL key and enter the response factor for the specific compound. 2. Calibrate MicroFID with zero air and 500 ppm methane as described in Calibration on page 65. 3. Expose MicroFID to the sample. The displayed reading is the approximate concentration of the specific compound. The response factors on page 149 serve as a guide to concentrations measured by MicroFID. Results are expected to be accurate to within +/10 ppm or +/25% of result, whichever is greater. Accuracy of response factors to other gases and vapors may differ from that stated. NOTE: It does not matter which Cal Memory is selected or which response factor is entered, MicroFID’ s response is not specific to any one compound. The displayed reading represents the total concentration of all ionizable compounds in the sample.
Page 84: Table 3 Check List For Field Operation
MicroFID Software Manual Preparing for Field Operation Field Check List The following items should be carried into the field to reduce or eliminate instrument down time. If you will be in the field for a single 810 hour day, you should include the following accessories: Spare battery pack (Part No. MX396005 or MX396006) Long sample probe (Part No. MX396018) Calibration kit(s) (Part No. MX396011) Tank(s) of calibration gas (Part No. MX396028) Spare gas bag for zero air (Part No. MX396017) Gas bag adapter for zero air (Part No. MX396010) Supply of commercial zero air Charcoal filters (Part No. MX396021, MX396022) Shoulder strap (Part No. MX395002) Spare inlet filters (Part No. MX396020 or MX396015) Bar code reader and interface module (Part No. MX396054) Spare 9 volt battery for bar code reader Carrying case (Part No. MX396007) Headset (Part No. MX396053) MicroFID Instrument Manual (Part No. MX396003) Table 3 Check List for Field Operation...
Page 85: Table 4 Additional Field Items
Detailed Operation If you will be in the field for more than one day you should include the following additional items: Battery chargers (Part No. MX396013 or MX396014). Take one charger for each battery pack. Hydrogen and refill adapter (Part No. MX396004) Printer cable (Part No. MX396051) Computer and associated cables Table 4 Additional Field Items Operational Check List Before beginning field work, set up and calibrate MicroFID for your particular application. Ensure the instrument is in working order before heading into the field. To prepare MicroFID for field work: 1. Ideally, you should not transport MicroFID with the hydrogen cylinder filled. If it is possible to fill the internal hydrogen cylinder when you arrive at your destination then do so. If not, then you must fill the cylinder before you leave and observe all precautions for handling compressed, flammable gases. See Warnings and Safety Practices on page 18. If you are travelling by passenger aircraft, you must make arrangements to fill the hydrogen cylinder when you arrive at your destination. You cannot transport MicroFID by passenger aircraft unless the internal hydrogen cylinder is empty. See Emptying the Hydrogen Cylinder on page 110 more information. 2. Press the BATT key and ensure the battery pack is fully charged. The voltage should be 9 volts. 3. Press the SETUP key and ensure the correct date and time are entered.
Page 86 MicroFID Software Manual 4. Program and calibrate all the Cal Memories you will be using. See Calibration on page 65. After calibration is complete, sample the bag of calibration gas and the bag of zero air to ensure MicroFID has been calibrated correctly. 5. Press the MAX key and clear the Max register if necessary. 6. If you are using an averaging interval, you may also want to delete all events from the datalogger to avoid confusion between different days’ data and to avoid running out of space in the datalogger. See EVENT Key on page 50. 7. If you are performing Method 21 monitoring ensure you have programmed and calibrated all the Cal Memories. You must also program your monitoring schedule. See Method 21 Operation on page 72 for more information.
Page 87: Accessories
Accessories...
Page 89 Accessories Printer MicroFID has been designed for use with a serial printer. The printer must have a print width of at least 65 characters and a proportionally spaced font. The printer cable (Part No. MX396051) has been configured for this application only. If the printer does not have an RS232 serial interface you will need to use the serial to parallel converter (Part No. MX380145). See Serial to Parallel Converter on page 98 for details. If you are unsure of the compatibility of the printer, refer to the printer user’ s manual or contact the printer’s manufacturer. Ensure the printer is set to 8 data bits and 1 stop bit, parity has been set to none and that the appropriate baud rate has been selected. NOTE: MicroFID is not classified for use in hazardous locations with a printer. To connect a printer: 1. Turn MicroFID off. 2. Connect the RS232 printer cable (Part No. MX396051) to the I/O port on the back of the MicroFID and then to the serial port on the printer. See Figure 12. 3. Turn MicroFID on. 4. Determine the baud rate for your printer. Refer to the printer user’ s manual for details. 87...
Page 90: Figure 12 Connecting Microfid To A Serial Printer
MicroFID Software Manual Printer with 25 Pin, Male,Serial, Port MicroFID MicroFID Printer Cable Figure 12 Connecting MicroFID to a Serial Printer 5. Press the SETUP key and select the Baud Rate option. Use the ARROW keys to select the baud rate corresponding to the printer. The baud rate in the SETUP option must match the baud rate of the printer. 6. Use the PRINT and GRAPH keys as detailed on pages 53 and 7. Turn MicroFID off before disconnecting the printer cable from the I/O port. If this arrangement does not produce the desired results, see Printer Troubleshooting on page 124. Computer MicroFID will send information stored in its datalogger to a computer. This option may be used if you need to prepare reports based on MicroFID’s recorded data. This feature may also be used if you need the recorded data in a format that can be imported into a spreadsheet or database for further calculations. NOTE: MicroFID is not classified for use in hazardous locations with computers. You may need to keep more data than can be logged by MicroFID. If this is the case you have two options: you may print the data before they are deleted from the datalogger and keep the printed reports, or you may store the data on disk for later use. You may...
Page 91 Accessories not, however, load data that has been stored on disk back into MicroFID. In order to establish communication with MicroFID and send data stored in the datalogger to a computer, the computer must be set up to emulate a terminal. In order to do this you will need a communications software package that will allow you to transfer data from MicroFID to a computer. If you are using Microsoft Windows, you do not need to purchase any separate software. Instructions for downloading information to Windows’ HyperTerminal are provided below. If you are already using another type of communication or terminal emulation software package it is not necessary to use HyperTerminal. Use your communications package to set up the computer to receive data with 8 data bits, 1 stop bit and no parity at the desired baud rate. Refer to the manual, provided with your software, for specific details. Once the data have been transferred to HyperTerminal, it must be saved to a floppy disk or a hard disk. In order to manipulate the data you must import the data either as a text file into a spreadsheet, where it may be parsed and converted to numeric data, or into a text editor or word processor where it may be viewed and edited. Refer to the computer setup options to determine the baud rate, as this value will depend on the computer. MicroFID’ s baud rate can be set from 1200 to 19200 to match the computer’s setting. The instructions below will provide you with the most basic information for using MicroFID with communications software. Please refer to the software user’s manual for specific details of operation. If you are using Microsoft Windows you do not need to purchase any separate software. You can use the HyperTerminal program that is shipped with Windows. 89...
Page 92 MicroFID Software Manual In order to use these instructions, you must be familiar with Microsoft Windows and it must be installed and running on your computer. These instructions are based on HyperTerminal Version 1.1. NOTE: As newer versions of HyperTerminal and Windows are released, the exact names and contents of dialog boxes may change. Use these instructions as a general guideline. To initiate communications between MicroFID and Windows: 1. Turn MicroFID off. NOTE: You must turn the instrument off before connecting or disconnecting the printer cable. 2. MicroFID must be connected to a serial port. Use the printer cable (Part No. MX396051) to connect MicroFID to one of the computer’s serial ports. Remember which serial port you are using as you will need this information when you set up HyperTerminal. Normally you will use Com1 or Com2. 3. If the MicroFID printer cable plugs directly into the port on the computer without the gender changer or the 9 to 25 pin adapter, you are most probably connected to a parallel port. You will need at least one of the adapter cables to connect MicroFID to a serial port. To communicate with a parallel port, you will need to use the serial to parallel converter (Part No. MX380145). 4. Once all connections have been made, turn on the computer and the instrument. 5. Start Windows and then start the HyperTerminal. HyperTerminal will most likely be in the may be in the Accessories Program Group. Its location will depend on how you have set up Windows. Refer to your Windows documentation for details. ...
Page 93 Accessories 6. HyperTerminal may prompt you to connect a modem. You do not need a modem for this application, so press No, to close the pop up window. 7. The Connection Description dialog box will open. Enter the instrument name and select an icon. If you choose to save the session after you have completed downloading the data, this icon will then appear in the HyperTerminal group. Figure 13 Connection Description Dialog Box 8. Press OK to accept the information. 9. The Connect To dialog box opens next. Select the serial port to which you connected MicroFID Press OK to move to the next dialog box. 91...
Page 94 MicroFID Software Manual Figure 14 Connect To Dialog Box 10. The current properties of the selected serial port will be displayed. Enter 9600 as the baud rate (bits per second). This sets the baud rate at which the computer will receive data from MicroFID. NOTE: The baud rate setting of 9600 is being used here as an example. In order for this setting to work, your computer serial port must be set to send/receive at 9600 baud. If your computer serial port is set to send/receive at a different baud rate, set the Speed command and MicroFID accordingly. 11. On MicroFID the number of data bits has been fixed at 8, stop bits has been fixed at 1. Parity has been set at None and the Flow control is Xon/Xoff. Enter these values and then press...
Page 95 Accessories Figure 15 Properties Dialog Box 12. Select the correct Baud Rate, Data Bits, Stop Bits, Parity. Select Xon/Xoff for the Flow Control option. Leave the Parity Check and Carrier Detect options off. Select OK to close the dialog box and accept the settings. 13. Open the Transfer menu and select Capture Text. A “ Capture Text” dia log box will appear. Type in the desired path and filename for the data that are to be downloaded. Ensure the path is correct. 93...
Page 96 MicroFID Software Manual Figure 16 Properties Dialog Box 14. Ensure the file name has a .txt extension. The .txt extension will make it easier to use the downloaded data later. 15. Press Start. Select the Table Format option and then select OK. At the bottom of the screen the message, “Recei ving Data” is displayed. 16. On MicroFID, ensure the same baud rate is entered under the PRINT key. The number of Data Bits has been fixed at 8, the number of Stop Bits is fixed at one. Parity has been set to none. The settings in the Properties dialog box must match these settings. 17. Press the MicroFID PRINT or GRAPH key. Press SETUP (*) and set the start and stop run numbers. Press ENTER (on MicroFID). The logged data will begin to appear on the computer screen. It will be saved to the specified file as it appears on the screen. 18. To terminate communications select Stop from the bottom of the screen. This will close the text file. The logged data can now be copied or cut to the Windows Clipboard and pasted into a text editor, such as Windows’ Notep ad, or into a spreadsheet for analysis. Refer to the Microsoft Windows User’s Guide for detailed instruction on operation of HyperTerminal.
Page 97 Accessories Chart Recorder MicroFID’s output can be displayed as a 0 to 1 volt analog voltage on a chart recorder in real time. NOTE: MicroFID is not classified for use in hazardous locations with a chart recorder. To connect MircoFID to a chart recorder: 1. Set the chart recorder to 1 volt full scale. 2. Turn MicroFID off and connect the analog output cable (Part No. MX396052) to the I/O port. 3. Connect the analog output cable to the chart recorder. 4. Turn MicroFID on. The analog output has been fixed at 50000 ppm as full scale. Gas Sampling Bag A gas sampling bag is required for calibration of MicroFID. If you are unsure of the quality of ambient air you should use an additional gas bag filled with zero air. Connect the sample bag to the inlet fitting with the gas bag adapter. See Calibration on page 65 for details. One sampling bag is included in the calibration kit. Additional gas bags are also available (Part No. MX396017). Charcoal Filters A charcoal filter (Part No. MX396021 or MX396022) may be connected to MicroFID during calibration to provide clean air to 95...
Page 98: Figure 17 Connecting Charcoal Filter
MicroFID Software Manual MicroFID. The filter will remove hydrocarbon contamination from room air to provide zero grade air to MicroFID. NOTE: The charcoal filter does not filter methane or ethane. If these compounds are present, you should use a gas bag with a supply of commercial zero air. To connect a charcoal filter: 1. Load the Teflon ferrules into the nut. The nut and ferrules are supplied with the filter. See Figure 17. 2. Connect the nut to MicroFID’ s inlet. Do not tighten the nut. Overtightening the Teflon ferrules will result in damage to the ferrules. CAUTION 3. Remove the charcoal filter from its plastic bag and insert it into the nut. Fingertighten the nut onto the inlet. If the filter is not secure, ensure you have inserted the tube stub far enough into nut. Do not overtighten the fitting. Charcoal Filter 1/4" Nut Connect to MicroFID Front Ferrule Back Ferrule Figure 17 Connecting Charcoal Filter...
Page 99 Accessories The charcoal filter will remove hydrocarbon contaminants for up to 4000 ppm hours. This means that the filter will be good for 1 hour removing 4000 ppm of hydrocarbon contaminants or will last for 4 hours removing 1000 ppm. The exact time will be determined by the operating environment. You will notice an increased hydrocarbon background when the filter requires replacement. To replace the charcoal filter: 1. Loosen the nut on MicroFID’ s inlet. 2. Remove the used filter. 3. Insert the new charcoal filter into the nut and finger tighten the nut onto the inlet. Do not overtighten the fitting. When the charcoal filter is not in use, place it in its plastic bag and store it in a clean, dry place. Installing the Coalescing Filter To install the Coalescing filter: 1. Load the Teflon® ferrules into the nut. The nut and ferrules are supplied with the filter. 2. Connect the nut to MicroFID’ s inlet. Do not tighten the nut. 2 C o n n e c t n u t t o 1 ...
Page 100 MicroFID Software Manual 3. Remove the filter from its plastic bag and insert it into the nut. 4. Fingertighten the nut onto the inlet. If the filter is not secure, ensure you have inserted the tube stub far enough into nut. Do not overtighten the fitting. Overtightening the Teflon ferrules will result in damage to the ferrules. CAUTION 5. Calibrate all Cal Memories, that you are using, before continuing operation. The coalescing filter will remove particulates for up to 5 days of operation. The exact duration will be determined by the operating environment. MicroFID’ s inlet flow rate and sensitivity decrease when the filer is full. Serial to Parallel Converter This device allows MicroFID, which is only capable of serial communication, to communicate with a parallel device. This will be most useful for printing, as most printers utilize parallel communication. Your printer must have a print width of at least 65 characters and a proportionally spaced font. DIP Switch Settings The DIP switch settings are very important and must be set correctly in order to correctly communicate with MicroFID. MicroFID will always be the serial device so the data flow direction will be serial to parallel. ...
Page 101 Accessories To configure the serial port of the converter: 1. Locate the DIP switches located on the side of the converter. Female Parallel Connector to Parallel Printer using Supplied Cable Power Indicator AC Power Jack DIP Switches Male DB25 Serial Connector to MicroFID using MicroFID printer cable Figure 19 Serial to Parallel Converter 2. Determine the baud rate at which the converter will be receiving data from the instrument. The value you set here must match the value you enter on MicroFID. 3. Use the first three DIP switches to set the baud rate. See Table 5. 4.
Page 102: Table 5 Dip Switch Settings For Baud Rate
MicroFID Software Manual Baud Rate 38400 19200 9600 4800 2400 1200 Table 5 DIP Switch Settings for Baud Rate Parity None Even Not Used Off Table 6 DIP Switch Settings for Parity 6. Switch 7 sets the Handshake mode. Off = Xon/Xoff. On = DTR Mode. Set the Handshake mode to Xon/Xoff. 7. Use switch 8 to set the data flow direction to serial to parallel. Off = Serial to Parallel. On = Parallel to Serial.
Page 103: Table 7 Dip Switch Settings
Accessories 8. Check your settings. It is imperative that you have the correct settings or you will be unable to establish communications. Your settings should match those in Table 7. Table 7 DIP Switch Settings Using MicroFID with the Serial to Parallel Converter NOTE: MicroFID is not classified for use in hazardous locations with printers or with the serial to parallel converter. To connect MircoFID to the serial to parallel converter: 1. Turn MicroFID off. 2. Unplug the converter from the AC outlet. 3. Use the printer cable and suitable adapter (Part No. MX396051) to connect the MicroFID I/O connector to the converter. 4. Connect the parallel cable to the converter and then to the printer. Use the parallel cable supplied with the converter. If this cable is not suitable, see Serial to Parallel Converter Troubleshooting on page 128 for the cable requirements. 101...
Page 104 MicroFID Software Manual Serial to Parallel Converter Parallel Cable MicroFID Printer Cable Printer with Parallel Port MicroFID Figure 20 Connecting MicroFID to the Serial to Parallel Converter 5. Plug the converter into an AC outlet. 6. Turn MicroFID on. 7. Ensure the printer has been set up correctly. It must be online. Ensure paper is available and has been aligned properly. 8. Press the PRINT or GRAPH key and then the SETUP (*) key to select the desired setup options. See Tutorial Session on page 42. Headset Use the headset when operating MicroFID in a noisy environment. Audio signals for “L oBatt”, “ Alarm” and “N oFlm” will be heard through the headset. To connect the headset: 1.
Page 105: Figure 21 Bar Code Reader And Interface Module
Accessories 2. Connect the headset (Part No. MX396053) to the I/O port and tighten the locking nut. 3. Turn MicroFID on and start the flame. Use the volume control on the headset to adjust the volume. Bar Code Reader Connecting the Bar Code Reader You can use a bar code reader to scan bar coded event names or site locations. Use the bar code reader in Method 21 operation to insert location names into the datalogger. This option may only be used if your sites have been bar coded. The bar code reader must be used with the bar code reader interface module (Part No. MX396056). You cannot connect the bar code reader directly to MicroFID. To connect the bar code reader: 1. Turn MicroFID off and remove the dust cap. 1. Connect the interface module to the MicroFID I/O port and tighten the locking nut. 1. Connect the bar code reader to the interface module. Bar Code Reader Interface Module MicroFID Bar Code Reader Figure 21 Bar Code Reader and Interface Module 103...
Page 106 MicroFID Software Manual The bar code reader is activated by MicroFID when it is ready to scan a bar code. Operation of the bar code reader is covered in Bar Code Reader on page 103. Replacing the Battery in the Bar Code Reader Interface Module The bar code reader uses a separate 9 volt battery. Normally, the battery will provide one year of operation. Battery life will depend on usage. To replace the battery: 1. Remove the four screws in the bottom of the interface unit. Lift the bottom cover off. 2. Remove the 9 V battery and replace it with a new one. The replacement battery must be one of four types: Energizer® No. En22, Kodak® SupraLife, Duracell®, Eveready® Energizer, or Radio Shack® Enercell®. See Bar Code Reader Control Drawing on page 152 for details. 3. Replace the bottom cover. The cover incorporates a tongue and groove design. If it does not fit flush, then rotate it 180º and place it on the top cover. 4. Replace the four screws in the bottom cover. Shoulder Strap Use the shoulder strap for field operation to facilitate singlehanded operation. To use the shoulder strap: 1. Snap one end of the shoulder strap to the connector on MicroFID’s handle. See Figure 1 for the location of the connectors.
Page 107 Accessories 2. Snap the other end to one of the shoulder strap connectors beside the display. The connection point is selectable for right or left handed operation. 3. Adjust the shoulder pad and strap length for comfort. Long Sample Probe A two meter (6’) extension probe (Part No. MX396018) may be connected to the MicroFID inlet for remote sampling. If a sampling location is difficult to reach, use the long sample probe. Ensure MicroFID is level. If MicroFID is tilted from side to side, gravity will affect the flame height and cause erroneous readings. To use the long sample probe: 1. Connect the long sample probe to MicroFID’s inlet. 2. To extend the probe, loosen the knurled nut at the top of the wand. Pull the extension out and then tighten the knurled nut down to lock the extension in place. 3. To lengthen the probe further, loosen the lower knurled nut. Pull the second extension out and then tighten the knurled nut down to lock the extension in place. 4. When you are using the probe, allow at least 10 seconds for the sample to travel through the probe and reach the detector. NOTE: When using the long probe, be especially careful not to aspirate liquids or solids as they will damage MicroFID. 5. To reduce the probe, loosen both knurled nuts and push the extensions back into the probe. Tighten the knurled nuts down to lock the extensions in place. 105...
Page 108 MicroFID Software Manual...
Page 109: Routine Maintenance
Routine Maintenance...
Page 111 Routine Maintenance Battery Charging A fully charged battery powers MicroFID for approximately 15 hours. If the instrument is to be used for more than 15 hours, carry a spare battery pack (Part No. MX396005 or MX396006). When the first one has been discharged, replace it with the spare. Battery life is reduced if the instrument is turned off and then on again repeatedly. When the instrument status displays “LoBatt ”, the battery pack requires charging. When the “ LoBatt” status is displayed, you have a few minutes of operation left. MicroFID will turn itself off before the battery pack becomes critically low. NOTE: Do not remove the battery pack in a hazardous location. Do not connect the battery charger to MicroFID in a hazardous location. Upon return from field work, charge the battery packs as outlined in Chapter 1. You will need one charger for each battery pack. Use only the MicroFID battery charger. You can connect the charger to the battery pack without removing the battery pack from the instrument. If you do not require portable operation, you can use MicroFID while the battery pack is connected to the battery charger NOTE: Do not leave battery packs uncharged for an extended period of time. This will result in damage to the battery packs. The charger automatically charges at a high charge rate until the battery pack is fully charged. It then maintains the full charge with a low continuous charge rate indefinitely so there is no danger of overcharging. A red LED on the battery pack indicates that the...
Page 112 MicroFID Software Manual battery is charging. When the LED turns green, the battery is fully charged and ready for use. NOTE: Leaving MicroFID for more than 3 months without turning it on may result in the loss of recorded data and setup parameters. If MicroFID is not used for long periods of time, turn the instrument on for a few hours every month to avoid loss of data. The battery pack is 57% lead. (Pb) by weight. This battery pack must be disposed of properly. Check with local codes for special disposal instructions. Emptying the Hydrogen Cylinder When you transport MicroFID, you should empty the internal hydrogen cylinder and then refill it when you arrive at your destination. If you are traveling by passenger aircraft, you must empty the cylinder. Do not vent the hydrogen cylinder in a hazardous location. Move to an open, well ventilated area away from possible ignition sources before emptying the cylinder. Hydrogen gas is a fire and explosion hazard when exposed to heat or WARNING flame. The lower explosive limit is 4%. To empty the cylinder: 1. Turn MicroFID off and open the hydrogen shutoff valve. 2. Remove the battery pack as outlined in Chapter 1. 3. Locate the purge outlet. It is located on the underside of the instrument.
Page 113 Routine Maintenance 4. Use the MicroFID multitool to turn the screw counter clockwise. Loosen the screw but do not remove it. Hydrogen Purge Outlet Figure 22 Hydrogen Purge Outlet 5. Leave the instrument so that the purge outlet is facing up. If the purge outlet is facing down, hydrogen will vent into MicroFID’ s case. 6. If the cylinder is full, it will take approximately 15 minutes to empty. 7. Watch the Contents Gauge. When the cylinder is empty, close the purge outlet. Use the MicroFID multi tool to turn the screw clockwise. 8. Replace the battery pack as outlined in Chapter 1. Replacing the Sample Inlet Filter MicroFID is equipped with a combined dust and water filter to reduce detector contamination. As the filter collects dust, MicroFID’s inlet flow rate and sensitivity decrease. The filter will not allow water to pass through, but the filter will not stop all solvents. NOTE: Do not aspirate liquid samples with MicroFID!
Page 114 MicroFID Software Manual Replace the filter on a weekly basis, or more frequently if MicroFID is used in a dusty or wet environment. You must replace the filter if MicroFID has been exposed to liquid water. The pump will sound labored when the filter requires replacement. NOTE: Do not replace the inlet filter in a hazardous location. 1. Turn the instrument off. Unscrew the filter housing from the detector housing. Be careful not to lose the O ring seal. See Figure 23. Polypropylene Mesh Teflon Side of Filter Filter ORing Detector Housing Housing Figure 23 Inlet Filter 2. Remove the Teflon/Polypropylene filter and install the new filter (Part No. MX396020 or MX396015). Place the filter in the filter housing with the Teflon side facing down in the filter housing and the mesh side facing the MicroFID. Handle the filter disk only by the edges. The mesh may be damaged or contaminated by excessive handling. Use forceps if possible. NOTE: Each filter is protected by a piece of blue plastic. Remove the plastic before installing the filter in MicroFID. 3. Replace the filter housing. 4. Calibrate all Cal Memories, that you are using, before continuing operation. NOTE: Do not operate MicroFID without an inlet filter. ...
Page 115: Troubleshooting
Troubleshooting...
Page 117 Troubleshooting General Information If you have a service related question about MicroFID, consult this manual first. If you cannot find the answer in this documentation, contact the Service Department. When you call you should have your MicroFID in front of you. You should also have this manual at hand. Lastly, please have the following information ready: A description of what happened and what you were doing when the problem occurred. Any corrective action that has been taken. The exact wording of any messages that appeared on the display. NOTE: Do not service MicroFID in a hazardous location. MicroFID Fault Messages When the “ Check” status is displayed, MicroFID’ s operation is compromised. Press the TUTOR key for a twoline description of the fault. One exception is the flame out fault. When a Flame out fault occurs, the instrument status changes to “NoF lm”. Fault: Detector flame has gone out. Cause: The hydrogen gas has run out. Action: Ensure the shutoff valve is open. Action. Check the hydrogen Contents Gauge on the side of the instrument and refill the hydrogen cylinder if necessary. See Filling the Hydrogen Cylinder on page 30. Action: Ensure the cylinder purge outlet has been closed. See Emptying the Hydrogen Cylinder on page 110. Cause: Oxygen supply is deficient.
Page 118 MicroFID Software Manual Action: Ensure there is an adequate supply of oxygen, If you are sampling very high concentrations it is possible you are sampling above the flame out concentration. The flame out concentration for methane is approximately 52,000 ppm (5.2% methane in air). A minimum of 17% oxygen is required to start the hydrogen flame. The oxygen is supplied from the sample as it is drawn in by the pump. A minimum of 10% oxygen is required to maintain the hydrogen flame Flame out may also occur when sampling enclosed or confined spaces where vapors and gases cannot escape. Watch for indications of increased flame height such as erratic readings or sudden high concentrations followed by a flame out fault. If you will be using the MicroFID in a highly contaminated area where it is possible that the oxygen content is below 10%, watch for indications of reduced flame height such as lowered detection limits or a flame out fault. Cause: High concentrations of flammable gases (gases within their flammable range) are present. High concentrations of flammable gases can act as an additional fuel source. When this happens, the flame height may increase beyond the confines of the combustion chamber. The hydrogen supply will then be cut off and the flame will go out. Action: Move to a location where there is an adequate supply of air and restart the flame. See the information above. Watch for indications of increased flame height such as erratic readings or sudden high concentrations followed by a flame out fault. Cause: Exhaust port is blocked. Action: At low temperatures, water vapor, a byproduct of the hydrogen flame, may condense at the exhaust port. At subzero temperatures the water vapor will freeze and obstruct the exhaust port. If the exhaust port becomes obstructed, pump operation will be inhibited. Flame out may also result. Operate MicroFID within the...
Page 119 Troubleshooting operating temperature range 5 to 40°C (41 to 104°F ). Action: The flame arrestor has become plugged. Contact the Service Department. Cause: Sample line is blocked. Action: Ensure the sample line is not obstructed in any way. If you are using the long sample probe, ensure flow is maintained through the entire length of tubing. Cause: Inlet filter is plugged. Action: Replace inlet filter. See Replacing the Sample Inlet Filter on page 111. Fault: Signal from zero gas is too high. Cause: Contamination of sample line or fittings before the detector. Action: Clean or replace the sample line or the inlet filter. See Replacing the Sample Inlet Filter on page 111. Cause: Span gas and zero air mixed up. Action: Ensure clean gas is used to zero MicroFID. Mark the calibration and zero gas bags clearly. Cause: Ambient air is contaminated. Action: If you are unsure about the quality of the ambient air, use a charcoal filter or a supply of commercial zero grade air. Cause: Hydrogen supply is contaminated Action: Hydrogen may react with the carbon, in the steel, inside the tank to produce methane.
Page 120 MicroFID Software Manual MicroFID internal cylinder with fresh hydrogen. Fault: Signal from span gas is too small. Cause: Span gas and zero air mixed up. Action: Ensure calibration gas is used to calibrate MicroFID. Mark the calibration and zero gas bags clearly. Action: Ensure the span gas is of a reliable concentration. Fault: Detector field voltage is low Cause: Internal fault in the electronics. Action: Contact the Service Department. Troubleshooting Problem: No instrument response detected, yet compounds are known to be present. Cause: MicroFID has not been calibrated properly. Action: Ensure calibration gas is of a reliable concentration and then calibrate the instrument as outlined in Chapter 3. After the instrument has been calibrated, sample the bag of calibration gas. A reading equivalent to the calibration gas should be displayed. If not, contact the Service Department. Action: When calibrating MicroFID, ensure the instrument is level. If MicroFID is tilted side to side, gravity will affect the flame height and cause erroneous readings. See CAL Key on page 52. If a sampling location if difficult to reach without tilting the instrument, use the long sample probe to reach the sample and ensure MicroFID is level.
Page 121 Troubleshooting Cause: Background contamination from the hydrogen. Action: It is possible that the hydrogen has become contaminated and is contributing a high background signal. If the hydrogen supply tank is more than 6 months old it should be replaced with a new cylinder. When ordering hydrogen specify ultra high purity hydrogen, 99.999% pure. Empty the MicroFID hydrogen cylinder and then refill it with hydrogen from a new tank. Cause: There is an undetermined problem. Action: Contact the Service Department. Problem: Date and time settings are not retained. Cause: MicroFID has not been used for 3 months or more and the internal battery (not the external battery pack) has been discharged. Action: Turn MicroFID on and allow it to run until a “ LoBatt” status appears. This will take approximately 15 to 16 hours. Remove the battery pack and recharge it overnight. Repeat this procedure for 3 or 4 days. While MicroFID is running the internal battery is charging. Problem: Cannot fill the internal hydrogen cylinder to 1800 psig. Cause: Supply tank has less than 1800 psig of pressure. You can only fill the internal cylinder to a pressure of less than or equal to the tank pressure. Action: Fill the internal cylinder to the pressure of the tank or replace the tank with a full one.
Page 122 MicroFID Software Manual Cause: There is a problem with the refill adapter. Action: Contact the Service Department. DO NOT modify or disassemble the refill adapter! If you have any problems, the unit must be returned for repair or replacement. WARNING Problem: Instrument status shows “ Over” . Cause: Rapid change in signal level. The detector electronics have been momentarily saturated. Action: Wait a few seconds for the status to return to “R eady”. Cause: The detector has become saturated. Action: Move MicroFID to a location where it can sample clean air. Sample zero air until the reading stabilizes around 0. If you were using Low Range, switch to High Range. Calibrate the Cal Memory you were using when the “O ver” status appeared. Action: If you were using High Range, there may be an electronic problem. Contact the Service Department. Problem: Display contrast bars are on or display is blank Cause: Battery pack is critically low. Action: Recharge battery pack or connect MicroFID to the battery charger. Cause: The battery pack is not connected to the instrument properly.
Page 123 Troubleshooting battery pack to the instrument. See Chapter 1. Problem: Sample flow rate varies from 600 ml/min. +/ 10%. Cause: Inlet filter has not been installed. Action: Install an inlet filter into the inlet filter cap. See Replacing the Sample Inlet Filter on page 111. Cause: Inlet filter cap has not been tightened onto the detector cap. Action: Fingertighten the filter cap. See Replacing the Sample Inlet Filter on page 111. Cause: Inlet filter is plugged. Action: Replace the inlet filter See Replacing the Sample Inlet Filter on page 111. Cause: Pump has been damaged. Action: Contact the Service Department. Cause: Exhaust port is blocked. Action: At low temperatures, water vapor, a by product of the hydrogen flame, may condense at the exhaust port. At sub zero temperatures the water vapor will freeze and obstruct the exhaust port. If the exhaust port becomes obstructed, pump operation will be inhibited. Flame out may also result. Operate MicroFID within the operating temperature range 5° to 40°C (41° to 104°F ). Action: The flame arrestor has become plugged. Contact the Service Department.
Page 124 MicroFID Software Manual Action. Check the hydrogen contents gauge on the side of the instrument and refill the hydrogen cylinder if necessary. See Filling the Hydrogen Cylinder on page 30. Action: Ensure the hydrogen purge outlet is closed. See Emptying the Hydrogen Cylinder on page 110. Refill the hydrogen cylinder if necessary. See Filling the Hydrogen Cylinder on page 30. Cause: Oxygen supply is deficient. Action: Ensure there is an adequate supply of oxygen, Do not attempt to ignite the flame in a location where there is greater than 10,000 ppm methane or the equivalent concentration of a flammable gas. Move to a location where there are lower concentrations and start the flame and then begin sampling higher concentrations. If the flame goes out while you are sampling very high concentrations, it is possible that you are sampling above the flame out concentration. The flame out concentration for methane is approximately 52,000 ppm (5.2% methane in air). A minimum of 17% oxygen is required to start the hydrogen flame. Oxygen is supplied from the sample as it is drawn in by the pump. A minimum of 10% oxygen is required to maintain the hydrogen flame. If you will be using the MicroFID in a highly contaminated area where it is possible that the oxygen content is below 10%, watch for indications of reduced flame height such as lowered detection limits or a flame out fault. Cause: Exhaust port is blocked.
Page 125 Troubleshooting Action: At low temperatures, water vapor, a by product of the hydrogen flame, may condense at the exhaust port. At sub zero temperatures the water vapor will freeze and obstruct the exhaust port. If the exhaust port becomes obstructed, pump operation will be inhibited. Flame out may also result. Operate MicroFID within the operating temperature range 5° to 40°C (41° to 104°F ). Action: The flame arrestor has become plugged. Contact the Service Department. Cause: Hydrogen supply lines are full of air. Action: If MicroFID has not been used for some time, it is possible that the hydrogen supply lines contain air. Fill the hydrogen cylinder and then open the hydrogen shutoff valve. Allow the hydrogen to purge the system for about 5 minutes and then turn MicroFID on and start the flame. Cause: Hydrogen supply lines are blocked. Action: Contact the Service Department. Problem: Liquid has been aspirated. Cause: MicroFID has been exposed to a solvent that can pass through the Teflon/Polypropylene filter. Action: Contact the Service Department. Problem: In Method 21 operation, the next event is not displayed after you have recorded background and sample readings for the current event. Cause: Duplicate events are present in the datalogger. Action: Print the contents of the datalogger to ensure the duplicate events are unused. Use the “D elete”...
Page 126 MicroFID Software Manual Printer Troubleshooting Problem: Printer will not print. Cause: Printer is not connected properly. Action: Make sure that you have the correct cable for your instrument. Ensure that the printer and instrument cables are properly connected. If you are using the serial to parallel converter ensure the cables are properly connected to the converter, the instrument and to the printer. Turn the converter and the instrument off before connecting the cables. Cause: Mechanical problem with the printer. Action: Make sure that the printer is plugged in and turned on. Action: Make sure that the printer is online, as shown on its control panel. Action: Check the ribbon, the print wheel or cartridge, and the paper supply. Cause: The serial to parallel converter is not turned on. Action: Ensure the serial to parallel converter is connected to the AC adapter and the adapter is plugged into an AC outlet. The red LED on the top of the converter will be Cause: Printer cable is not configured correctly. Action: If you are sure that you have set up your printer is correctly, then you may have to modify the cable. In order to modify the existing printer cable, the pinout information for the printer connector is required. Refer to the printer user’s manual for specific details. The pinouts for the...
Page 127: Table 8 Microfid I/O Port Pinouts
Troubleshooting take the electrical and pinout information to a computer store where a suitable adapter may be obtained. Signal MicroFID Printer Connector Cable (DB25) Pin # (8 pin) Pin # Analog — Audio — Analog GND 1 & 7 8 Audio GND — Table 8 MicroFID I/O Port Pinouts...
Page 128 MicroFID Software Manual Cause: Printer is not configured properly. Action: Ensure your printer has a print width of at least 65 characters and you are using a proportionally spaced font. Action: Many printers have a set of configuration (DIP) switches. Generally, these instruments expect these switches to be set in the factory default settings. Many printers have switches for enabling automatic line feeds when receiving a carriage return. These switches should be set to carriage returns only, which is normally the factory default setting. Some printers have switches or control panels that enable you to set the printer for different modes, such as sans serif, letter quality, or compressed text. Do not use these controls. If you do use them, you may cause your tabular or graphed output to be printed incorrectly. The baud rate and parity options on the printer are not used for parallel communication. However, you must ensure the baud rate and parity options on the serial to parallel converter match the settings of your instrument.. Action: When MicroFID downloads information to a printer, the information is sent as a series of codes. These codes must be formatted in such a way that the printer can interpret them and print the information properly. There are several industry standards for the formatting of printer codes, also known as printer protocols. Epson FX80, IBM® Proprinter and Hewlett Packard are some of the more commonly used protocols. These protocols were developed by their...
Page 129 Troubleshooting respective manufacturers to be their standards. Other manufacturers will generally copy these standards with their own equipment. This is called an emulation. When one printer emulates another, the emulation may not be complete. If the emulation is not complete, the printer is not 100% compatible. Printed information may not be correct or no information may be printed at all. Photovac products use the Epson FX80 protocol. If your printer is not 100% compatible, it may not print information correctly. Information about printer compatibility may be obtained from the manufacturer or from your dealer. If you cannot make your printer 100% compatible with the Epson FX80 protocol, you may have to purchase another printer. Cause: Serial card is installed in the printer. Action: If a serial card is installed in your printer, you do not need the serial to parallel converter. Disconnect the converter and connect the instrument directly to the printer.
Page 130 MicroFID Software Manual Problem: Data are printed or downloaded correctly at first but become garbled. Cause: Baud rate may be set too high. Action: Ensure the baud rate set on your instrument matches the baud rate of the converter. Action: If the baud rate is correct it is possible that the transfer rate is too high and information is being lost. Lower the baud rate of the instrument and the serial to parallel converter (DIP switch settings). Serial to Parallel Converter Troubleshooting You must use the correct type of cable to ensure trouble free data transmission. The length of the cable at the parallel side must not exceed 15 feet. On the serial side, use the MicroFID printer cable. When you are connecting the parallel side of the converter to a Centronics 36 pin, female connector, use a straight wired cable with 36 conductors and a Centronics 36pin, male connector at each end. This cable is supplied with the converter. When you are connecting the parallel side of the converter to a Centronics 36 pin, male connector, use a straight wired cable with 36 conductors and a Centronics 36 pin, female connector at one end and a Centronics 36pin, male connector at the other end. If you are connecting the parallel side of the converter to a female DB25 pin connector use a straight wired cable with a DB25 pin, male connector on one end and a 36pin, Centronics, male connector on the other end. The pin assignments for all parallel port signals are listed below.
Page 131: Table 9 Parallel Port Signals
Troubleshooting Pin # Name I/O Parallel to I/O Serial to Serial Parallel /Strobe 29 Data0Data7 /Acknlg Not Used Busy — Pull Low Pull High Select Pull High Pull Low /Auto FF Not Used Not Used Not Used Not Used Ground — — Not Used Not Used Not Used Not Used 1930 Ground — — /Init Not Used /Error Pull High Pull High Ground —...
Page 132: Table 10 Serial Port Signals
MicroFID Software Manual The pin assignments for all serial port signals are listed below. Pin # Name I/O Parallel to Serial to Serial Parallel Frame Gnd — — — — — — Table 10 Serial Port Signals Strobe Data Bit 0 Data Bit 1 Data Bit 2 Data Bit 3 Data Bit 4 Data Bit 5 Data Bit 6 Data Bit 7 Acknowledge Busy...
Page 133 Troubleshooting Establishing Computer Communications If, after having followed the procedure in Computer on page 88, communications cannot be established with a computer, the problem may lie with the hardware connections or the printer cable configuration. To connect MicroFID to your computer: 1. Ensure MicroFID is connected to the serial port of the computer. The serial port will usually be a male connector, typically 9 pins on most computers. The serial port may also be a 25 pin connector on computers The 25 (or more) pin female connector is usually a parallel port. However, there are exceptions to this rule. MicroFID cannot be connected to a parallel port unless you are using the serial to parallel converter. If you do not have a free serial port on you computer and you want to connect MicroFID to the parallel port you will need the serial to parallel converter. Connect MicroFID to the serial port on the converter and then connect the printer to the parallel port. If the port on computer is anything other than a female, 36pin Centronics connector you will need an adapter in order to use the cable supplied with the converter. See Serial to Parallel Converter on page 98 for more details. 2. Ensure the cable being used is compatible with the device. A computer with a 9 pin serial connector will first require a null modem to switch pins 2 and 3. Next a gender changer that converts the male DB25 connector on the printer cable from male 25 pins to female 9 pins is required. These two adapters have been combined into one, which is supplied with the MicroFID printer cable.
Page 134: Figure 25 Connecting Microfid Using The Null Modem Cable
MicroFID Software Manual Computer with 9 Pin, Male, Serial Port Null Modem MicroFID Printer Cable MicroFID Figure 25 Connecting MicroFID Using the Null Modem Cable A computer with a 25 pin serial port should not require a null modem but will require a gender changer. A gender changer will convert the male DB25 connector on the printer cable to a female connector. A gender changer is supplied with the MicroFID printer cable. Computer with 25 Pin, Male, Serial Port Gender Changer MicroFID Printer Cable MicroFID Figure 26 Connecting MicroFID Using the Gender Changer Cable The pin definitions of interest are listed in Table 11. Only pins 2 and 3 are shown since these are the problem pins:...
Page 135: Table 11 Pin Definitions
Troubleshooting Pin # MicroFID 9pin 25pin 2 RXD 3 TXD TXD Table 11 Pin Definitions Pins 2 and 3 should be mismatched between MicroFID and the computer. Ensure this is the case. It is also possible that the cable being used may switch pins 2 and 3, even if it is not necessary. The cable may be a null modem. 3. Ensure all hardware is working properly. Use a printer to test both MicroFID and the computer. Connect MicroFID to the printer and ensure that this arrangement produces the desired results. If the correct printout is obtained, then the MicroFID and the printer cable are okay. Now connect the computer to the printer and ensure this works. If the desired printout is obtained this ensures the computer is sending data correctly.
Page 136: Technical Description
Technical Description...
Page 138: Figure 27 Flame Ionization Detector
MicroFID Software Manual Flame Ionization Detector The MicroFID uses a flame ionization detector for the measurement of combustible organic compounds in air at partsper million levels. The permanent air gases (argon, carbon dioxide, nitrogen, oxygen, water vapor, etc.) are not ionized by the flame. When MicroFID is turned on, the display prompts you to turn on the hydrogen. The internal pump draws air in through MicroFID’s inlet. This sample air provides the oxygen necessary for combustion in the hydrogen fed flame. Exhaust Out Flame Arrestor Thermocouple Glow Plug Microprocessor Combustion Chamber Collector Electrode Electrometer Repeller Electrode (Jet +75 Volts) Flame Arrestor Sample In Figure 27 Flame Ionization Detector When the proper ratio of hydrogen to air is present in the combustion chamber, the flame is started automatically with a glow plug. A thermocouple is used to monitor the status of the flame. When the sample passes through the flame the combustible organic compounds in the sample will be ionized. After the compounds have been ionized by the flame, the ionized particles are subjected to a continuous electric field between the repeller electrode at the jet (+75V) and the collector electrode.
Page 139 Technical Description The ions move in the electric field, generating a current, which is proportional to the concentration of the ionized molecules in the ionization chamber. An electrometer circuit converts the current to a voltage that is then fed to the microprocessor. After the sample passes through the flame and has become ionized it is vented from the detector through a flame arrestor. The flame arrestor prevents the flame from igniting any flammable gases present in the sampling location. Inlet Flame Ionization Detector Sample Filter Detector Display and Pump Microprocessor I/O Connector Keypad Power Supply Sample Flow Electrical Connections Figure 28 Block Diagram Detector Response MicroFID is strictly an organic compound detector. It does not respond to inorganic compounds. MicroFID’ s sensitivity is highly dependent on chemical structure and bonding characteristics. The combustion efficiency of a compound determines its sensitivity. Simple saturated hydrocarbons (methane, ethane etc.) possess high combustion efficiencies and are among the compounds that produce the highest MicroFID response. Organic fuels (acetylene, refined petroleum products), burn easily and are also extremely well detected.
Page 140 MicroFID Software Manual The presence of substituted functional groups (amino, hydroxyl, halogens) on a simple hydrocarbon reduces its combustion efficiency and thus MicroFID’s sensitivity to the compound. Methanol and chloromethane, for example are detectable with MicroFID but not as well as methane. A greater number of carbon atoms can offset this loss of sensitivity due to substitution. For example, MicroFID is more sensitive to nbutanol than it is to methanol. See Response Factors on page 149 for a list of the response factors of compounds detectable with MicroFID. The information in this list is not a complete list of detectable compounds. Contact the Applications Group for more information. Calibration Periodic calibration is required to compensate for FID output changes due to inlet filter restriction, ionization chamber cleanliness, sample pump wear and other factors. During calibration, MicroFID is first exposed to zero air. A small signal is generated. This zero signal is stored by the microprocessor. MicroFID is next exposed to span gas. This span gas signal is stored by the microprocessor. The microprocessor subtracts the zero signal from the span gas signal and divides the difference by the user entered span gas concentration. The resulting sensitivity is stored in the selected Cal Memory with the zero signal and the alarm level. This number is then multiplied by the response factor and displayed. In High Sensitivity or sniff operation, you calibrate MicroFID with zero gas only. The microprocessor subtracts the zero signal from the MicroFID signal, and multiplies the difference by 1000. This number is then displayed. MicroFID readings are always relative to the calibration gas. After calibration with methane, MicroFID will respond directly in units equivalent to methane. Almost all combustible organic compounds will be detected by MicroFID. It cannot distinguish between methane and other ionizable compounds. A reading of 10 ppm indicates all ionizable compounds that are present have generated...
Page 141 Technical Description an ion current proportional to 10 ppm of methane. The reading is actually 10 ppm methane equivalent units. MicroFID readings give an indication of the total ionizables present and their concentration relative the calibration gas. Datalogging Interval Operation The microprocessor accumulates all readings in an averaging interval, that you select, and determines the minimum, average and maximum readings. It stores these numbers along with the highest priority instrument status and the most recent time, date and Event that occurred during the interval. MicroFID records these results when the datalogger is turned on. The number of events that are stored in the datalogger will depend on the averaging interval you have selected. These recorded data can now be played back on MicroFID’s display. The display is identical to the numeric or bar graph display, but the instrument status is “Play” indicating that recorded data, not realtime data, are being displayed. During playback MicroFID continues to analyze and record new data. Recorded data can also be printed as either a table or a graph. For each averaging interval, MicroFID prints the minimum of all the minima, the average of all the averages and the maximum of all the maxima. Method 21 Mode In Method 21 operation you log data manually. You must program a monitoring schedule into the instrument and then monitor sites according to the Method 21 documentation. The Method 21 option first prompts you to locate a specific sampling site and then allows you to record both a background and sample entry in the datalogger. MicroFID stores these numbers along the difference between sample and background, the highest priority instrument status and the most recent time, date and Event name. 139...
Page 142 MicroFID Software Manual Recorded data can now be played back on MicroFID’s display. The instrument status is “Play” indicating that recorded data, not real time data, are being displayed. Recorded data can also be printed as either a table or a graph. The difference between the sample and background is calculated and shown on the print and graph output.
Page 143 Technical Description 141...
Page 144: Appendices
Appendices...
Page 146: Specifications
MicroFID Software Manual Specifications Size: 43.5 cm (17.1”) lo ng, 9.8 cm (3.85”) wide, 18.8 cm (7.4” ) high Weight: 3.7 kg (8.1 lb.) Detector: Flame ionization Keypad: 16key silicone with tactile feedback Display: 2line, 16character dotmatrix, liquid crystal, for alphanumeric and bar graph readouts Datalogger memory: 30 kilobytes or 750 entries Chart recorder output: 0 to 1 volt full scale Serial output: RS232, 120019200 baud with no parity, for tabular and graphic printouts and connection to an IBM compatible computer Audio output: On Alarm, LoBatt and NoFlm Inlet connection: 1/4” stainless steel compression fitting Battery type: Sealed leadacid, fieldreplaceable pack Battery pack lead content: 57% Lead (Pb) by weight. Charge/discharge time: 8 hr/15 hr Battery charger:...
Page 147 Appendices Hydrogen cylinder capacity: 9.2 liters at 1800 psig Hydrogen cylinder discharge time: 12 hours Materials in Stainless steel, Teflon®, Viton®, sample stream: polypropylene, PEEK, nitrile chorobutadiene rubber Inlet filter: Replaceable 1 µm Teflon/Polypropylene, Inlet flow rate: 600 mL/min. +/ 10% Operating temperature range: 5° to 40°C (41° to 104°F ) Storage temperature range: 5° to 40°C (41° to 104°F ) Operating humidity range: 0 to 100% relative humidity (non condensing) Operating 0.5 to 2000 ppm methane equivalent concentration range: (Low Range), 10 to 50,000 ppm methane equivalent (High Range) Accuracy: Methane: (after calibration with zero air and 500 ppm methane span gas): within +/0.5 ppm or +/10% of actual methane concentration. (0.5 to 2000 ppm range) Precision: +/0.3 ppm or +/5% (0.5 to 2000 ppm methane range) and +/3 or +/...
Page 148 MicroFID Software Manual Warranty MicroFID is warranted for one year against defects in materials and workmanship. PerkinElmer warrants that its manufactured product will be free from defects in materials and workmanship for a period of one (1) year from the date of receipt by the Customer. This may be voided if, in the opinion of PerkinElmer, the product has been abused or treated in a negligent manner so as to cause damage or failure. Negligent use includes, but is not limited to, exposure of the internal parts of the equipment to water. Damage caused thereby is expressly excluded from this Warranty. Consumable supplies and parts routinely replaced are not warranted. PerkinElmer and its vendors disclaim any implied warranty of merchantability or fitness for a particular purpose. PerkinElmer and its vendors will not be liable for any indirect, special, incidental, or consequential damages, irrespective of whether PerkinElmer or the vendor has advance notice of the possibility of such damages. PerkinElmer’s sole liability under this warranty is limited to the repair or replacement of the product at its Service/Repair facility and return to the Customer. When PerkinElmer is made aware of a problem, which would be eligible for remedy under Warranty, it will issue a Return Authorization Number to the Customer. No return will be accepted unless such authorization has been obtained. The customer is responsible for insurance and shipping to the designated Service/Repair facility.
Page 149: Table 12 Contact Information
Appendices Contacting PerkinElmer To place an order, check the 18007624002 (US) status of an order, obtain 18005614646 (Canada) current pricing and availability Service and repair of your 18007624002 (US) instrument 18005614646 (Canada) Applications Department 18007624002 (US) 18005614646 (Canada) Customer Service 18007624002 (US) 18005614646 (Canada) PerkinElmer Photovac In the Canada and the USA 761 Main Avenue Norwalk, CT 068590010 U.S.A. Tel.: 8007624000 or (+1) 2037615330 Fax.: (+1) 2037614228 Photovac Europa In Europe Sjæ lsø Allé 7 A P.O. Box 79 DK3450 Allerød, Denmark Tel.: +4548100400 Fax.: +4548100401 In all other areas contact your representative. Table 12 Contact Information 147...
Page 150 MicroFID Software Manual Installing Alternate AC Plug on the Battery Charger In most cases MicroFID will be shipped with an AC line cord that will fit the AC wall outlet in your area. If this cannot be done, you may need to obtain an AC line cord suitable for the AC receptacle in your area. The AC line cord, attached plug and receptacle must be marked with your country's certification mark and the cord must have a Harmonization (HAR) mark. The line cord must be rated for either 100 to 120 VAC at 60 Hz or 220 to 240 VAC at 50 Hz. The voltage rating will depend on the voltage in your area. Contact your PerkinElmer representative to obtain more information. Calibration Gas Supplier The MicroFID calibration kit includes the following items: 1. Gas pressure regulator to fit a calibration gas cylinder with C10 5/8” 18 UNF fitting. 2. Gas sampling bag. 3. Gas bag adapter to fit gas bag and MicroFID inlet. The kit does not include a tank of span gas. The recommended span gas is methane in air. 500 ppm methane in air is available from PerkinElmer (Part No. MX396028). ...
Page 151 Appendices The exact concentration of calibration gas will be determined by your application. Span gases of various concentrations and compounds may be obtained from: Scott Specialty Gases Inc. 1290 Combermere Street Troy, Michigan 48083 Telephone (within the USA): 18007749447 Telephone (outside USA): (810) 5892950 Fax: (810) 5892134 If you order your calibration gas from Scott Specialty Gases Inc., specify a Scotty® V Cylinder. Response Factors This list of response factors was determined at (nominally) 500 ppm, based on 500 ppm methane calibration gas. Methane will have a response factor of 1.0. The following formula was used for calculation of the response factors: Response Factor = Actual Concentration MicroFID Response A response factor less than 1.0 indicates a compound response better than that of methane. A response factor greater than 1.0 indicates a lower response than that of methane. ...
Page 152 MicroFID Software Manual Compound Response Factor Acetaldehyde Acetone Acetonitrile (Methyl Cyanide) Acrolein (2Propenal) Acrylonitrile (Vinyl Cyanide) Allyl Chloride (3Chloro1 Propene) Aniline (Benzenamine) Benzene Benzyl Chloride (Chloromethyl Benzene) Bromoform (Tribromomethane) 1,3Butadiene isoButane nButane nButanol nButyl Mercaptan (Butanethiol) Carbon Tetrachloride 25.9 Chlorobenzene Chloroform (Trichloromethane) Cumene (Isopropyl Benzene) Cyclohexane 1,2Dichlorobenzene (ortho) cis1,2Dichloroethylene trans1,2Dichloroethylene N,NDimethylformamide (DMF) 1,4Dioxane Epichlorohydrin Ethane Ethanol...
Page 153 Appendices Ethyl Acrylate Ethylbenzene Ethyl Cellusolve (2Ethoxyethanol) Ethyl Chloride (Chloroethane) Ethyl Mercaptan (Ethanethiol) Ethylene Ethylene Dibromide (1,2Dibromoethane) Ethylene Dichloride (1,2Dichloroethane) nHeptane nHexane Isobutylene Isoprene (2Methyl1,3 Butadiene) Isopropanol Methanol 23.8 Methyl Bromide (Bromomethane) Methyl Ethyl Ketone (2Butanone) Methyl Isobutyl Ketone Methyl Methacrylate Methyl tertButyl Ether (MTBE) Methyl Cellusolve (2Methoxyethanol) Methylene Chloride (Dichloromethane) nNonane isoOctane (2,2,4Trimethylpentane) nPentane Propane Propionaldehyde (Propanal) Propylene Propylene Dichloride (1,2DCP) 151...
Page 154: Table 13 Microfid Response Factors
MicroFID Software Manual Propylene Oxide Styrene 1,1,2,2Tetrachloroethane Tetrachloroethylene (Perchloroethylene) Toluene 1,1,1Trichloroethane 1,2,4 Trichlorobenzene 1,1,2Trichloroethane Trichloroethylene (TCE) Triethylamine Vinyl Acetate Vinyl Bromide Vinyl Chloride (Chloroethylene) Vinylidene Chloride (1,1DCE) orthoXylene metaXylene paraXylene Table 13 MicroFID Response Factors Standards used for determination of these response factors were derived from a variety of sources: Certified gas cylinder, +/ 2% analytical accuracy (Isobutylene +/ 5% analytical accuracy) Standard prepared by dilution of pure gas into zero air, accuracy unknown Standard prepared by addition of pure liquid to zero air, accuracy unknown...
Page 155 Appendices Bar Code Reader Control Drawing 1. Intrinsically safe for use in Class I, Division 1, Groups A, B, C, D, Hazardous Locations when used in accordance with control drawing 890047, when powered by Energizer No. EN22, Kodak Supralife, Duracell, Energizer, Radio Shack Enercell, 9.0 V alkaline battery. 1. Read this manual before operating. 1. Sécurité Intrinsèque.? Substitution of components may impair intrinsic safety. WARNING La substitution de composants peut compromettre la s curit intrinsèque Avertissement 153...
Page 156 MicroFID Software Manual R e a r C o n n e c t o r M i c r o F I D ( P a r t N o . 5 0 0 4 9 4 ) M a n u f a c t u r e d b y ...
Page 157 Appendices 155...
Page 158: Index
MicroFID Software Manual Index AC Plug Accessories Charcoal Filter Chart Recorder Connecting Gas Bag Long Sample Probe Printer Serial to Parallel Converter Standard Accuracy Accuracy Response Factor Adapter 9 to 25 Pin ALARM Key 47, 71, 74 Alarm Level Setting Alarm Status 42, 47, 48 Analog Output Appendix...
Page 159 Contacting Photovac Aspirated Liquid Audio Output Signal AUDIO Key Averaging Interval Technical Description Background Hydrocarbon Bar Code Reader 75, 77 Connecting Control Drawing Operation BATT Key 45, 83 Battery Interface Module Battery Charger 23, 109 Alternate AC Plug Line Cord Specifications Battery Pack Charging 29, 109 Critically Low 109, 120 Damage Disposal 22, 110 Disposal Handling Life Not Connected Recycling 22, 110 Removing Replacing Type Voltage Baud Rate...
Page 160 MicroFID Software Manual Cable Not Connected Analog Output Printer Printer, Configuration Serial to Parallel Converter CAL Key 52, 72, 75, 78, 81 Cal Memory 47, 69 Method 21 Programming Selecting Cal Status Calibration General Information High Sensitivity Interval Mode Kit Support Equipment Calibration Gas Specifications Supplier Carrying Case CE Directive Centronics Cable 350 for Hydrogen 25, 32 590 for Air Fittings Usage 32, 66 Charcoal Filter 26, 65 Limitations Replacing Chart Recorder Output Check Status 41, 115 CLEAR Key Collector Electrode combustion efficiency...
Page 161 Compound Threshold Limit Values Compressed Gases Handling Computer Communication 88, 131 Specifications Concentration Maximum Range 50, 145 Consumables Contamination From Hydrogen Sample Line Control Drawing Council Directive Customer Service Data Bits 87, 89, 92, 93, 99 Data Flow Direction Datalogger Clearing 50, 74 Memory Method 21 Mode Options Date Instrument Software Not Retained Setting Delete Event Detection Limit 72, 145 Detection Limit Lowered Detector Saturated Dilution DIP Switches Printer Serial to Parallel Converter...
Page 162 MicroFID Software Manual is Blank Numerical Range Specifications DISPLAY Key 45, 72 Duplicate Event 75, 78 Electric Field Electrometer Circuit Endlog Status 42, 52 Event Delete Duplicate EVENT Key 50, 75, 77 Exhaust Port Blockage 23, 116, 121, 123 EXIT Key Exposure to Cold 23, 116, 121, 123 to Excessive Heat to Intense Sunlight Extension Extension Probe Fault Detector Field Voltage Low Flame Has Gone Out Messages Signal From Span Gas Small Signal From Zero Gas High Field Kit Field Operation Check List Filter Find Event 51, 79, 80 Flame Status...
Page 163 Blockage 117, 123 Flame Height Effect of Gravity 53, 71, 118 Increased 24, 116 Reduced Flame Out Fault 24, 116 Flame Out Fault 47, 49, 115 Flammable Gases 24, 116 Functional Groups Gas Bag Adapter 27, 66 Contamination Filling Preparation Size Gender Changer Cable Glow Plug Graph Start/Stop Events Interpretation GRAPH Key 58, 94, 102 Handshake Mode Harmonization Mark Hazardous Location Charging Battery Pack 28, 29, 45, 109 Chart Recorder Compressed Gases Computer Printer 27, 54, 87, 101 Replacing Inlet Filter Service Venting Hydrogen Cylinder Headset...
Page 164 MicroFID Software Manual Connecting Refill Adapter Explosion Hazard 21, 32, 110 Filling Cylinder Purge Outlet ShutOff Valve Specifications 25, 119 Supply Lines Hydrogen Cylinder Cannot Fill Capacity Discharge Time I/O Connector I/O Connector I/O Port Pinouts ID Number 54, 59 Igniting the Flame Inlet Connection Filter Specifications Flow Rate Replacing Filter Insert Event 51, 75, 77 Instrument Status Code 41, 45 Interface Module 103, 154 Interval Stored Data 55, 59 Introduction Key Functions Keypad Specifications Layout Serial to Parallel Converter Lead Content...
Page 165 Level Keep MicroFID 53, 118 LIGHT Key Limitations of Use Intrinsic Safety Liquid Aspirated LoBatt Status 42, 45, 47, 109 Locate Status 42, 75, 78 Low Range 69, 73 Lower Explosive Limit Manual Conventions Organization Material Safety Data Sheet (MSDS) Calibration Gas Hydrogen MAX Key 46, 84 Max Register Methane Method 21 Calibration Calibration Gas 26, 65 Description Duplicate Event Graphed Output Monitoring Monitoring Schedule Operation Playback Selecting Stored Data 55, 60 MicroFID Approved Models Calibrating Contents Gauge Default Display...
Page 166 MicroFID Software Manual Specifications Tutorial Zeroing 53, 71 Microsoft Windows Mode Interval Method 21 Monitoring Schedule Programming 74, 77 MultiTool 28, 111 No Flame Needed NoFlm Status 41, 115 Null Modem ORing On/Off Switch MicroFID 40, 42 Operation Beginning Check List Detailed High Range 53, 69 Low Range 53, 69 Organic Fuels Over Status 41, 120 Oxygen Concentration Limits Deficiency 115, 122 Parallel Cable Port Signals Printer Parity 93, 126...
Page 167 Contacting Europa PerkinElmer Corporation Service Department Warranty PLAY Key Play Status 42, 49 Playback 36, 48 Precision PRINT Key 94, 102 Printer Compatibility 87, 126 Default Settings Mechanical Problem Not Configured Properly Protocols Serial Card Serial to Parallel Converter Setup Specifications Troubleshooting Will not Print Printer Cable 87, 101 Printer Cable Connecting 54, 58 Printing GRAPH Key PRINT Key Sample Printouts 56, 58, 61, 62 Start/Stop Events Stopping Pump Damaged Inhibited Operation Laboured Purge Cycle...
Page 168 MicroFID Software Manual Refill Adapter 3Way Valve Connecting to Hydrogen Defective Regulator Calibration Gas 19, 66 Connecting Construction Materials Delivery Pressure Maintenance Specifications Relative Response Factors Standards Remote Sampling Repair Code 49, 75, 78 Repeat Event 76, 80 Repeller Electrode Response Not Detected Time Response Factor 52, 69, 80 Response Time Retainer Battery Pack Routine Maintenance Safety Glasses Intrinsic Practices Sample Probe Long Flow Rate Method 21 Status 42, 76, 78, 79 Saturated Hydrocarbons...
Page 169 Setting 53, 71 Serial Computer Port Interface Output Serial to Parallel Converter Troubleshooting Service Contacting SETUP Key 48, 49, 54, 59, 74, 75, 78, 83, 88 Shoulder Strap Signal From Span Gas From Span Gas Small From Zero Gas Size Software Communication Specifications Methane Calibration Gas Speed Search STAR 21 Software 51, 72 Start Flame Status Detector Stop Bits 87, 92, 93 Storage Temperature Range Support Equipment Technical Description Calibration Datalogger Detector Response Flame Ionization Detector Teflon Ferrules 67, 96, 97 in Sample Stream Polypropylene Filter Temperature Range...
Page 170 MicroFID Software Manual Setting Transporting MicroFID Troubleshooting MicroFID TUTOR Key Version Number Instrument Software Water Filter Water Vapor 23, 116, 121, 123 Weight Windows Notepad Xon/Xoff Serial to Parallel Converter Windows Zero Air 53, 65, 71, 96 Zero Air Regulator Specifications...

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