ROSEMOUNT ANALYTICAL NGA2000 CHEMILUMINESCENSE DETECTOR ANALYZER MODULE 748410-A
NOTICE The information contained in this document is subject to change without notice. Rosemount Analytical's system of NGA 2000 Modular Gas Analyzers and Controllers are patented, under U.S. Patent 5.787.015. Teflon is a Registered Trademark of E.I. duPont de Nemours and Co., Inc. Kynar is a Registered Trademark of Atochem North America, Inc. Manual Part Number 748410-A August 1999 Printed in U.S.A. Rosemount Analytical Inc.
CONTENTS PREFACE Purpose/Safety Summary.................................................................................P1 Glossary ....................................................................................................P5 Specifications - General....................................................................................P7 Specifications - Physical ...................................................................................P7 Specifications - Sample ...........................
CONTENTS SECTION 2. INSTALLATION 2.1 Unpacking ................................................................................................. 5 2.2 Assembly................................................................................................... 5 2.3 Location .................................................................................................... 5 2.4 Gases .................................................................................................... 6 2.4.1 Overview ....
CONTENTS SECTION 4. MAINTENANCE AND TROUBLESHOOTING 4.1 Overview....................................................................................................27 4.2 Fuses ....................................................................................................27 4.3 Fans ....................................................................................................29 4.4 Converter ...................................................................................................
CONTENTS FIGURES 1-1 CLD Analyzer Module Flow Diagram .......................................................... 3 1-2 CLD Analyzer Module - Top View .............................................................. 4 2-1 Analyzer Module Installation into Instrument Platform ............................... 6 2-2 CLD Rear Panel Connections .................................................................... 7 2-3 Front Panel Controls and Electrical Connections.......................................
PREFACE PURPOSE/SAFETY SUMMARY The purpose of this manual is to provide the procedures for the installation, operation and maintenance of the Platform and the System Accessories of the NGA 2000 System. Read this instruction manual completely before attempting to install any components into the NGA 200 System.
PREFACE WARNING: TOXIC AND OXIDIZING GAS This module generates ozone which is toxic by inhalation and is a strong irritant to throat and lungs. Ozone is also a strong oxidizing agent. Its presence is detected by a characteristic pungent odor. The module's exhaust contains both ozone and nitrogen dioxide, both toxic by inhalation, and may contain other constituents of the sample gas which may be toxic.
PREFACE WARNING: INTERNAL ULTRAVIOLET LIGHT Ultraviolet light from the ozone generator can cause permanent eye damage. Do not look directly at the ultraviolet source. Use of ultraviolet filtering glasses is recommended. WARNING: TOXIC CHEMICAL HAZARD The ozone generator lamp contains mercury. Lamp breakage could result in mercury exposure. Mercury is highly toxic if absorbed through the skin or ingested, or if vapors are inhaled. Handle lamp assembly with extreme care.
PREFACE WARNING: POSSIBLE EXPLOSION HAZARD Ensure that all gas connections are made as labeled and are leak free. Improper gas connections could result in explosion or death. CAUTION: OVER-VOLTAGE SPIKING If this analyzer module is used with a non-Rosemount Analytical power supply, adding Rosemount Analytical PN 903341 Current Protector in series with the 24V positive power line will prevent over-voltage spiking and resultant fuse blowing when powering up the instrument.
PREFACE GLOSSARY Analyzer Module The module that contains all sensor/detector components for development of a Primary Variable signal; includes all signal conditioning and temperature control circuitry. Backplane The interconnect circuit board which the Controller Board, Power Supply, Analyzer Module power and network cables, I/O Modules and Expansion Modules plug into. Control Module The Operator Interface plus the Controller Board.
PREFACE Power Supply Any of a variety of components that provides conditioned power to other NGA 2000 components, from the Power Supply Board that plugs into the front of the Backplane in a stand-alone instrument to several larger ones that can power larger collections of modules and components. Primary Variable The measured species concentration value from an Analyzer Module. Secondary Variable Data placed on the network by a module regarding current status, e.g.
PREFACE SPECIFICATIONS - GENERAL MEASUREMENT SPECIES: RANGES: REPEATABILITY: MIN. DETECTABLE LEVEL: NOISE: LINEARITY: RESPONSE TIME: ZERO DRIFT: (AT CONSTANT TEMPERATURE) SPAN DRIFT: (AT CONSTANT TEMPERATURE) EFFECT OF TEMPERATURE: AMBIENT TEMPERATURE: POWER REQUIREMENTS: NO, NOx 0 to 10 ppm through 0 to 10,000 ppm NO, NOx ±0.5% of fullscale (at constant temperature) 0.1 ppm <1% of fullscale, peak to peak ±1% of fullscale <1 sec. for 90% of fullscale for ranges of 25 ppm or greater <3 sec.
PREFACE SPECIFICATIONS - SAMPLE TEMPERATURE: TOTAL FLOW RATE: PARTICLES: DEWPOINT: MATERIALS IN CONTACT WITH SAMPLE: 0°C to 55°C (32°F to 131°F) (Externally measured) 900 to 2200 cc/min. with backpressure regulator pressure adjusted to 344 hPa (5 psig) Filtered to <2 microns 5.5°C below ambient temperature, no entrained liquid Stainless steel, Teflon, glass, brass and neoprene Optional: Stainless steel, Teflon, glass and Kynar Clean, dry air or oxygen; flow rate: 1 L/min.
PREFACE CUSTOMER SERVICE, TECHNICAL ASSISTANCE AND FIELD SERVICE For order administration, replacement Parts, application assistance, on-site or factory repair, service or maintenance contract information, contact: Rosemount Analytical Inc. Process Analytical Division Customer Service Center 1-800-433-6076 RETURNING PARTS TO THE FACTORY Before returning parts, contact the Customer Service Center and request a Returned Materials Authorization (RMA) number.
PREFACE DOCUMENTATION The following Chemiluminescense Detector Analyzer Module instruction materials are available. Contact Customer Service or the local representative to order. 748410 Instruction Manual (this document) COMPLIANCES This product may carry approvals from several certifying agencies, including Factory Mutual and the Canadian Standards Association (which is also an OSHA accredited, Nationally Recognized Testing Laboratory), for use in non-hazardous, indoor locations.
INTRODUCTION 1 1.1 OVERVIEW This manual describes the Chemiluminescence (CLD) Analyzer Module of Rosemount Analytical's NGA 2000 Series of gas analysis components (See Figures 1-1 and 1-2). The CLD Analyzer Module is designed to continuously determine the concentration of nitric oxide and oxides of nitrogen (NO plus nitrogen dioxide [NO2]) in a flowing gaseous mixture. The concentration is expressed in parts-per-million.
1 INTRODUCTION NO + O3 → NO2* + O2 NO2* → NO2 + red light As NO and O3 mix in the reaction chamber, the intensity of the emitted red light is measured by a photodiode and is proportional to the concentration of NO in the original gas sample. To measure NOx (NO + NO2), any NO2 in the sample is reduced to NO (at <95% efficiency) by being continuously passed through a heated bed of vitreous carbon (this occurs before the sample gas is presented to the ozone).
INTRODUCTION CONNECTOR 1/8T-1/8NPT BRS BULKHEAD REDUCER 1/4T - 1/8T BRS 1 OZONE GENERATOR AIR RESTRICTOR 430cc/min @ 12 PSIG MALE CONNECTOR 1/8T-3/8NPT BRS OZONE AIR CROSS 1/8T BRS 116 ID VITON BLK MALE CONNECTOR 1/8T-3/8NPT BRS NOx TO NO CONVERTER PRESSURE SWITCH PRESSURE SENSOR 30 PSIG AIR CONNECTOR,GLASS BLUE TOP CONNECTOR, GLASS BLUE VALVE NC ELBOW 1/8T-1/8MPT KYNAR FLOW BALANCE VALVE BYPASS FLOW SENSOR ELBOW 1/8T-1/8MPT KYNAR NO C VENT CAPILLARY 70cc/min 4 PSIG TEE 1/8T KYNAR SAMPLE
1 INTRODUCTION INLET/OUTLET FITTINGS FANS NO2 TO NO CONVERTER DRIVER BOARD 3-WAY SOLENOID VALVE DETECTOR SAMPLE CAPILLARY OZONE GENERATOR FLOW SENSOR POWER SUPPLY BOARD FUSE SIGNAL BOARD FLOW BALANCE NEEDLE VALVE COMPUTER BOARD NETWORK/POWER CONNECTOR SAMPLE BACKPRESSURE REGULATOR FIGURE 1-2.
INSTALLATION 2 2.1 UNPACKING If the Chemiluminescence (CLD) Analyzer Module is received as a separate unit, carefully examine the shipping carton and contents for signs of damage. Immediately notify the shipping carrier if the carton or contents is damaged. Retain the carton and packing material until all components associated with the CLD Analyzer Module are operational. 2.2 ASSEMBLY If the CLD Analyzer Module requires assembly with other components (e.g.
2 INSTALLATION ANALYZER MODULE GUIDES PIN SEATS DISENGAGED FRONT PANEL FIGURE 2-1. ANALYZER MODULE INSTALLATION INTO INSTRUMENT PLATFORM NOTE Unrestricted air flow to the rear of the Analyzer Module is critical to its performance and reliability. Operating ambient temperature is 0oC to 45oC (32oF to 113oF). Temperature change should not exceed 10oC (18oF) per hour. The same temperature range restrictions apply to the location of the air and span gas cylinders. 2.4 GASES 2.4.
INSTALLATION MAXIMUM NOX LEVEL IN PARTS PER MILLION GAS SUPPLIED TO REAR PANEL AIR INLET SETTING ON OZONE PRESSURE GAUGE (PRESSURE VALUES: GAUGE) SETTING ON SAMPLE PRESSURE GAUGE (PRESSURE VALUES: GAUGE) 800 Air 690 hPa (10 psig); provides flow of approximately 500 cc/min. to ozone generator 344 hPa (5 psig); provides flow of approximately 200 cc/min. to reaction chamber 2,500 Air 690 hPa (10 psig); provides flow of approximately 1000 cc/min. to ozone generator.
2 INSTALLATION 2.4.3 SPECIFICATIONS Calibration Gases Either U.S.P. breathing grade air or nitrogen is recommended for use as zero gas. A mixture of NO or NO2 in a background of nitrogen is recommended as span gas. For maximum accuracy, the concentration of NO in the span gas should be about the same as that in the expected sample stream. Ozonator Source Gas For analyzers with ranges less than 0 to 2,500 ppm, U.S.P.
INSTALLATION NOTE 2 At no time should ozonator gas pressure exceed 2070 hPa-gauge (30 psig). Damage to internal components may occur if this pressure level is exceeded. Leak Test The CLD Analyzer Module is completely tested at the factory for gas leakage. The user is responsible for testing for leakage only at the inlet and outlet fittings on the rear panel. Periodically, the user should do an internal leak test (with a test procedure chosen by the user).
2 INSTALLATION Metering Valve CLD Flow Regulator Adjust Slot Network1 Connection LON 1 Network2 Connection LON Sample Balance 2 1+ 24V 2 3 GND Power Connection Fuse Regulator T 6A 250 V FIGURE 2-3.
INSTALLATION 2 HARNESS, EXPANSION I/O 655249 NC POWER SUPPLY BOARD-LON/POWER MODULE ASSEMBLY 657510 1 J2 J1 J1 J3 1 LON/PWR MODULE 656761 E3 E2 J5 3 2 1 1 1 J5 J6 E1 BLK GRN COMPUTER ANALYSIS BOARD 655520 J6 RED J7 1 CABLE, CONTROLLER PWR 903034 J3 1 2 3 BLK J9 CABLE, INTERNAL NETWORK 903035 J6 1 2 2 POWER SUPPLY BOARD 657520 8 2 CABLE, FLOW SENSOR 655384 1 2 3 J11 RED SAMPLE PRESSURE SENSOR 655254 J11 J4 7 6 J7 8 1 4 5 6 1 2 3 6 1 J2 BLK WHT GRN RED J3 SAMPLE PRESS
2 INSTALLATION 8.4 [213] 4.1 [104] 8.2 [208] .7 [18] .8 [20] 1.5 [38] 2.5 [64] .4 [10] 6.1 [155] 4.3 [109] 2.8 [71] 1.1 [28] 6.0 [152] 17.5 [445] .5 1.3 [33] [13] 4.1 [104] .9 [23] .9 [23] Dimensions: 1.3 [33] INCHES [MM] FIGURE 2-5.
STARTUP AND OPERATION 3 3.1 OVERVIEW Prior to initial startup, the user should leak test the module as outlined in Section 2. For the remainder of this section, Analyzer Module interconnection with a Platform or some interfacing component will be assumed. Display and Keypad information shall refer to that which the user can expect to see and do with regard to the Front Panel of the Platform.
3 STARTUP AND OPERATION DISPLAY MESSAGE DESCRIPTION TYPE BAROMETER BLOCK FET BLOCK THRESH BLOK TEMP CONV FET CONV TEMP CRUDE NOISE LIN ERROR N15 VOLTS OZON PRES P10 VOLTS P12 VOLTS P15 VOLTS P24 VOLTS P5 VOLTS RAW SIGNAL SAMP PRES SVFLOW PELT TEMP SW ERROR System Barometer Heater Current CLD Threshold Temperature Block Temperature Converter Heater Temperature Converter Temperature Calculated Noise Linearizer Error Power Supply, -15V CLD Ozone Supply Pressure Power Supply, +10V Ref Power Supply, +12V P
STARTUP AND OPERATION 3 After the warm-up period (about one hour for the CLD Analyzer Module), all modules are completely functional. Establish that correct ozonator air pressure and sample flow rate are within specifications (see the Specifications page in the Preface section of this manual). Calibrate and adjust converter efficiency, and begin routine operation as the following sections indicate. 3.
3 STARTUP AND OPERATION 23.2 ppm NO Analyzer XXXXXXXX Basic Controls Measurement range Numbers: Range upper limit: Range and functional control: Calibration… 10 ppm Local Measurement mode: Ozonator status: NO Powered Status: Home Ready NO/NOx F1 F2 Zero F3 Span F4 Info F5 FIGURE 3-3. BASIC CONTROLS MENU 23.2 ppm NO Analyzer XXXXXXXX Expert controls and setup Expert analyzer controls ... Auxiliary module controls ... System set up ... Analyzer module set up ... Auxiliary module set up ...
STARTUP AND OPERATION 23.2 ppm NO 3 Analyzer XXXXXXXX Main Menu Help The Main Menu for the analyzer system. Note that this menu refers to the particular analyzer selected from the run screen, when used in a system. The softkey marked “HOME” will always return you to this screen. Help menu system... Help on help... Keyboard controls... Editing controls... Home F1 Escape F2 Map F3 F4 F5 FIGURE 3-6. TYPICAL HELP SCREEN 3.
3 STARTUP AND OPERATION It is recommended, after initial startup, that the CLD Analyzer Module is calibrated at least once every eight hours. This practice should continue until experience indicates that some other interval is more appropriate depending on the analytical accuracy required. If the user is unable to calibrate the Analyzer Module (i.e., when ZERO or SPAN is initiated, nothing happens), a possible solution relates to the use of an incorrect gas for zeroing or spanning (e.g.
STARTUP AND OPERATION • 3 the converter is operating at too high a temperature and the nitrogen dioxide is reduced to nitrogen, which is not detectable by the chemiluminescence reaction. Initially, an interval of one week between converter efficiency checks is recommended because high temperature operation changes conditions inside the converter. The active surface area of the vitreous carbon increases through use.
3 STARTUP AND OPERATION 3.7 MEASUREMENT OF CONVERTER EFFICIENCY It is the responsibility of the user to measure efficiency of the NO2-to-NO converter during initial startup and thereafter at intervals appropriate to the application (normally once a month). The reactant material used in the converter provides the optimum combination of high conversion efficiency and low ammonia interference.
STARTUP AND OPERATION 3 6. Open valve MV2 until the CLD Module SAMPLE Pressure Gauge reaches operating pressure and the BYPASS flowmeter indicates some bypass flow. Wait until stable readings are obtained by the CLD Module. 7. Zero and span the Analyzer output to indicate the value of the NO concentration being used. This value should be about 80% of fullscale. Record this concentration. 8.
3 STARTUP AND OPERATION NOTE In the initial measurement, after lowering the temperature setpoint in Step 2, the efficiency will normally be less than 92%. 14. Reset converter temperature setpoint 20°C higher, wait 15 minutes for temperature equilibration, and measure conversion efficiency by repeating Steps 3 through 13. Conversion efficiency should be improved. 15.
STARTUP AND OPERATION 3 A. TYPICAL TEST SETUP CONNECTOR C3 T1 OFF FLOWMETER FM2 115 VAC ON VARIABLE TRANSFORMER METERING VALVE MV2 TO SAMPLE INLET OF CLD ANALYZER MODULE OZONATOR UTILIZING ULTRAVIOLET LAMP FLOW APPROXIMATELY 3 LITERS PER MINUTE FLOWMETER FM1 METERING VALVE MV1 CONNECTOR C2 CONNECTOR C2 CONNECTOR C1 STANDARD GAS: NO IN N2 BACKGROUND CAUTION: Externally limit sample flow rate to less than 2200 cc/min. ZERO AIR ALL LINES AND FITTINGS STAINLESS STEEL OR TEFLON B.
3 STARTUP AND OPERATION About 97% Final 2 degree higher adjustment Final 1 degree lower adjustment Converter Efficiency Converter Temperature FIGURE 3-8. CONVERSION EFFICIENCY AS A FUNCTION OF CONVERTER TEMPERATURE 3.7.4 REPLACEMENT OF CONVERTER If the subnormal conversion efficiency is real, and not due to measurement error introduced by the test setup, the converter must be replaced. See Section 4.
STARTUP AND OPERATION 3 3.8 ROUTINE OPERATION The CLD Analyzer Module is designed to continuously analyze the sample stream. Normally, it is never powered off except for servicing or for a prolonged shutdown. Maximum permissible interval between calibrations depends on the analytical accuracy required, and therefore cannot be specified. Initially, the instrument should be calibrated at least once every eight hours.
3 STARTUP AND OPERATION NOTES 26 Chemiluminescense Detector Analyzer Module Rosemount Analytical NGA 2000 748410-A August 1999
MAINTENANCE AND TROUBLESHOOTING 4 WARNING: ELECTRICAL SHOCK HAZARD Disconnect power to the module(s) prior to replacing components. This equipment should not be adjusted or repaired by anyone except properly qualified service personnel. 4.1 OVERVIEW The CLD Analyzer Module requires very little maintenance during normal operation. Occasionally, the intake fan screen may require cleaning, refer to Section 4.3.
4 MAINTENANCE AND TROUBLESHOOTING NO/NOx Solenoid 655263 Ozonator 659494 Thermostat 657298 Converter Assembly 655250 See Figure 4-2 Transistor 655264 Flow Sensor 902931 Driver Board 655620 PCB Insulators 1 Fan Guard Glass Tube Connectors Pressure Switch 655215 EMI Shield Ozonator Power Supply 657716 Fan Guard Signal Board 655580 Sample Pressure Sensor 655253 Ozone 3 Pressure Sensor 655254 Insulator Fan 2 655245 Detector Assembly 658160 See Figure 4-3 Computer Analysis Board 655520 Detector
MAINTENANCE AND TROUBLESHOOTING 4 4.3 FANS Refer to Figure 4-1. To replace either rear panel fan, remove the cover of the Analyzer Module and then the rear panel. Disconnect connectors and remove screws. Assemble in reverse order. 4.4 CONVERTER Refer to Figures 4-1 and 4-2. To replace the converter or sensor, disconnect the two pneumatic tubes and two electrical connections. Unlace the heater blanket, and remove the converter.
4 MAINTENANCE AND TROUBLESHOOTING 4.5 OZONATOR Refer to Figure 4-1.To replace the ozonator, remove the two large straps and all tie-wraps, and disconnect the one electrical connection. Reassemble in reverse order. 4.6 PRINTED CIRCUIT BOARDS All four printed circuit boards can be replaced, if necessary. Refer to Figure 4-1 for location of the Driver, Power Supply, Signal and Computer Boards. To remove any PCB (except the Computer Board), disassemble the enclosure side first.
MAINTENANCE AND TROUBLESHOOTING 4 Reaction Chamber Installation To reinstall, hold the housing in the inverted position while sliding the Reaction Chamber O-ring and window into position and the tubing into the slot in the housing. Hold the Reaction Chamber in place while rotating the housing upright. Replace the hold-down screws. NOTE The procedure described above is for the purpose of maintaining the relative positions of windows and O-ring to the Reaction Chamber during installation.
4 MAINTENANCE AND TROUBLESHOOTING Replace the lower section of the housing, then the bottom cover, insulator and bracket with the shoulder washers and screws. Re-tighten the screws in the Reaction Chamber (upper section). Replace the top cap and its screws. To reinstall in the Analyzer Module, reverse the procedure for removal as indicated above.
MAINTENANCE AND TROUBLESHOOTING 4 Sapphire Window Reaction Chamber Photodiode Thermistor Assembly Sample Ozone Photodiode Socket Assembly Exhaust M3X0.5 x 25mm Screw (2) 3mm Spring Washer (2) Detector Mounting Bracket Detector Header Heater* Heater* Retainer Gasket M3X0.5 x 16mm Screw (2) 3mm Spring Washer (2) Thermostat* Reaction Chamber O-Ring 854540 Tubing Cover Sapphire Window Cushioning Gasket O-Ring 876478 Photodiode Cable Lower Cover Photodiode Assembly (see detail below) M3X0.
4 MAINTENANCE AND TROUBLESHOOTING NOTES 34 Chemiluminescense Detector Analyzer Module Rosemount Analytical NGA 2000 748410-A August 1999
REPLACEMENT PARTS 5 CAUTION: PARTS INTEGRITY Tampering with or unauthorized substitution of components may adversely affect safety of this product. Use only factory-approved components for repair. 5.
5 REPLACEMENT PARTS 655250 CONVERTER REPLACEMENT PARTS NL655228 NL655227 NL655282 Heater Jacket Tube, Aged Temperature Sensor 659753, 659754 DETECTOR REPLACEMENT PARTS NL655235 NL655216 NL655258 NL854540 NL876478 36 Heater/Thermostat Assembly Thermistor Photodiode O-Ring, Viton .739ID .875OD O-Ring, Viton .737ID .
CLD IDENTIFICATION MATRIX A Each analyzer is configured per the customer sales order. Below is the CLD sales matrix which lists the various configurations available. To identify the configuration of an analyzer, locate the analyzer name-rating plate. The 12position sales matrix identifier number appears on the analyzer name-rating plate.
A CLD IDENTIFICATION MATRIX NOTES A2 Chemiluminescense Detector Analyzer Module Rosemount Analytical NGA 2000 748410-A August 1999
GENERAL PRECAUTIONS FOR HANDLING AND STORING HIGH PRESSURE GAS CYLINDERS Edited from selected paragraphs of the Compressed Gas Association's "Handbook of Compressed Gases" published in 1981 Compressed Gas Association 1235 Jefferson Davis Highway Arlington, Virginia 22202 Used by Permission 1. Never drop cylinders or permit them to strike each other violently. 2.
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WARRANTY Goods and part(s) (excluding consumables) manufactured by Seller are warranted to be free from defects in workmanship and material under normal use and service for a period of twelve (12) months from the date of shipment by Seller. Consumables, glass electrodes, membranes, liquid junctions, electrolyte, o-rings, etc., are warranted to be free from defects in workmanship and material under normal use and service for a period of ninety (90) days from date of shipment by Seller.
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FIELD SERVICE AND REPAIR FACILITIES Field service and repair facilities are located worldwide. U.S.A. To obtain field service on-site or assistance with a service problem, contact (24 hours, 7 days a week): National Response Center 1-800-654-7768 INTERNATIONAL Contact your local Rosemount Sales and Service office for service support.
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INSTRUCTIONS 015-748335-B Rosemount Analytical SAMPLE INLET FLOW RATE RESTRICTION FOR NGA 2000 CLD ANALYZER MODULE NOTICE CAUTION EXTERNALLY RESTRICT SAMPLE FLOW TO LESS THAN 2200 CC/MIN. RESTRICTOR IS PROVIDED IN THE SAMPLE INLET OF THIS MODULE. FOR THOSE USERS WHO CANNOT EXTERNALLY LIMIT SAMPLE FLOW, ACCESSORY RESTRICTOR PN TO OBTAIN THIS 657300 IS AVAILABLE FROM ROSEMOUNT ANALYTICAL. ACCESSORY, CALL 800-441-7245. NO Rosemount Analytical Inc.
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INSTRUCTIONS 015-748430-A Rosemount Analytical ADDENDUM CLD INSTRUCTION MANUAL 748410 This addendum serves as an amendment to the CLD Instruction Manual 748410. The following information should be considered part of the manual, and supersedes any conflicting information in the body of the manual. Read this information and note the conflicts. MENU DISPLAYS Menu: 0 MAIN Menu: 1 ANALSET Rosemount Analytical Inc.
ADDENDUM Menu: 2 FLOCHEK Menu: 3 ZEROI1 Menu: 4 FLOCHEKI1 2 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 5 ANALOPI1 Menu: 6 ACALSET Menu: 7 APARLST 748430-A August 1999 Rosemount Analytical 3 of 44
ADDENDUM Menu: 8 ANALSETI1 Menu: 9 CALLIST Menu: 10 CALLISTI1 4 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 11 ACALSETI1 Menu: 12 APARLSTI1 Menu: 13 AMMAN 748430-A August 1999 Rosemount Analytical 5 of 44
ADDENDUM Menu: 14 AMMANI1 Menu: 15 AMSVC Menu: 16 AMSVCI1 6 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 17 ADIAG Menu: 18 AMPWR Menu: 19 AM1V 748430-A August 1999 Rosemount Analytical 7 of 44
ADDENDUM Menu: 20 AMTEMP Menu: 21 AMMISC Menu: 22 AMTREND 8 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 23 ADIAGI1 Menu: 24 RANGESETAM Menu: 25 RANGESSETI1 748430-A August 1999 Rosemount Analytical 9 of 44
ADDENDUM Menu: 26 LINRANGE1 Menu: 27 LINRANGE2 Menu: 28 LINRANGE3 10 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 29 LINRANGE4 Menu: 30 LINRANGE0 Menu: 31 AMPWRI1 748430-A August 1999 Rosemount Analytical 11 of 44
ADDENDUM Menu: 32 FLOCHEK1I1 Menu: 33 FILTER Menu: 34 NONOXEFFIC 12 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 35 AM1VI1 Menu: 36 AMTEMPI1 Menu: 37 AM2VA 748430-A August 1999 Rosemount Analytical 13 of 44
ADDENDUM Menu: 38 PLIMITSA Menu: 39 TLIMITSA Menu: 40 AMMISCI1 14 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 41 NONOXEFFICI1 Menu: 42 ANALSIMPLE Menu: 43 FILTERI1 748430-A August 1999 Rosemount Analytical 15 of 44
ADDENDUM Menu: 44 LINRANGE0I1 Menu: 45 PLIMITSAI1 Menu: 46 CALFACTORS 16 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 47 AMHELPINDEX Menu: 48 LINRANGE1I1 Menu: 49 CALFACTORSI1 748430-A August 1999 Rosemount Analytical 17 of 44
ADDENDUM Menu: 50 CALLIST2 Menu: 51 APARLST2 Menu: 52 APARLST4 18 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 53 APARLST5 Menu: 54 APARLST6 Menu: 55 APARLST7 748430-A August 1999 Rosemount Analytical 19 of 44
ADDENDUM Menu: 56 LISTNOTES Menu: 57 AMMISC2 Menu: 58 AMMISCI2 20 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 59 MPARMS Menu: 60 MPARMS2 Menu: 61 DISPLAY 748430-A August 1999 Rosemount Analytical 21 of 44
ADDENDUM Menu: 62 ANALSET2 Menu: 63 AMHELPINDEX2 Menu: 64 MPARMSI1 22 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 65 AMPWR2 Menu: 66 ANALSETI2 Menu: 67 AMMISC3 748430-A August 1999 Rosemount Analytical 23 of 44
ADDENDUM Menu: 68 SOFT_DIAGS Menu: 69 CALI1 Menu: 70 AM2VB 24 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 71 LINFUNCT Menu: 72 POLYSETUP Menu: 73 MIDPOINT1 748430-A August 1999 Rosemount Analytical 25 of 44
ADDENDUM Menu: 74 POLYGAS1 Menu: 75 POLYSETI1 Menu: 76 POLYGAS2 26 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 77 POLYGAS3 Menu: 78 POLYGAS4 Menu: 79 POLYGAS5 748430-A August 1999 Rosemount Analytical 27 of 44
ADDENDUM Menu: 80 POLYGAS6 Menu: 81 POLYGAS7 Menu: 82 POLYGAS8 28 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 83 POLYGAS9 Menu: 84 POLYGAS0 Menu: 85 MIDPOINT2 748430-A August 1999 Rosemount Analytical 29 of 44
ADDENDUM Menu: 86 MIDPOINT3 Menu: 87 MIDPOINT4 Menu: 88 EXP_CAL 30 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 89 EXP_CAL_DAT Menu: 90 EXP_CAL_DATI Menu: 91 UNITS 748430-A August 1999 Rosemount Analytical 31 of 44
ADDENDUM Menu: 92 UNITSI1 Menu: 93 POLYSETI2 Menu: 94 POLYSETI3 32 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 95 ZEROI3 Menu: 96 TWEAKI1 Menu: 97 ANALSETI3 748430-A August 1999 Rosemount Analytical 33 of 44
ADDENDUM Menu: 98 RESET Menu: 99 STORE Menu: 100 INIT 34 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 101 RFACTORSI Menu: 102 RFHIST Menu: 103 RFHIST2 748430-A August 1999 Rosemount Analytical 35 of 44
ADDENDUM Menu: 104 RFACTORS Menu: 105 R2FACTORS Menu: 106 RN3FACTORS 36 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 107 RFHIST3 Menu: 108 RFHIST4 Menu: 109 RN4FACTORS 748430-A August 1999 Rosemount Analytical 37 of 44
ADDENDUM Menu: 110 STOREPVA Menu: 111 ZERO_NOW2 Menu: 112 SPAN_NOW2 38 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 113 NEW_CONV Menu: 114 FLOWBALANCE Menu: 115 FLOWBALCALC1 748430-A August 1999 Rosemount Analytical 39 of 44
ADDENDUM Menu: 116 FLOWBALCALC2 Menu: 117 FLOWBALI1 Menu: 118 FLOWBALI2 40 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 119 DIAG_VOLTS_ Menu: 120 AMPWR_CLD2 Menu: 121 AMPWRI1_CLD2 748430-A August 1999 Rosemount Analytical 41 of 44
ADDENDUM Menu: 122 AM2VA2 Menu: 123 ALARM1 Menu: 124 ABOUT 42 of 44 Rosemount Analytical August 1999 748430-A
ADDENDUM Menu: 125 ABOUT1 Menu: 126 MANDATA 748430-A August 1999 Rosemount Analytical 43 of 44
ADDENDUM NOTES 44 of 44 Rosemount Analytical August 1999 748430-A
