Teledyneメーカー3020Tの使用説明書/サービス説明書
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i T race Oxyg en Analyzer Teledyne Analytical Instruments OPERA TING INSTR UCTIONS FOR Model 3020T T r ace Oxygen Analyz er HIGHLY TOXIC AND OR FLAMMABLE LIQUIDS OR GASES MAY BE PRESENT IN THIS MONITORING SYSTEM. PERSONAL PROTECTIVE EQUIPMENT MAY BE REQUIRED WHEN SERVICING THIS SYSTEM.
ii Model 3020T Teledyne Analytical Instruments Copyright © 1999 Teledyne Analytical Instruments All Rights Reserved. No part of this manual may be reproduced, transmitted, tran- scribed, stored in a .
iii T race Oxyg en Analyzer Teledyne Analytical Instruments Specific Model Information The instrument for which this manual was supplied may incorporate one or more options not supplied in the standard instrument. Commonly available options are listed below, with check boxes.
iv Model 3020T Teledyne Analytical Instruments Table of Contents 1 Introduction 1. 1 Overview ........................................................................ 1-1 1. 2 T ypical Applications .....................................................
v T race Oxyg en Analyzer Teledyne Analytical Instruments 3. 5 Gas Connections .......................................................... 3-12 3. 6 T esting the System ........................................................ 3-14 4 Operation 4.1 Introduction .
vi Model 3020T Teledyne Analytical Instruments 5.3.4 Installing a New Micro-Fuel Cell .............................. 5-6 5.2.5 Cell W arr anty ........................................................... 5-6 5.4 Fuse Replacement .......................
1-1 T race Oxygen Anal yzer Introduction 1 Teledyne Analytical Instruments Introduction 1.1 Overview The Teledyne Analytical Instruments Model 3020T Trace Oxygen Analyzer is a versatile microprocessor-based instrument for detecting oxygen at the parts-per-million (ppm) level in a variety of gases.
1-2 1 Introduction Model 3020T Teledyne Analytical Instruments • Advanced Micro-Fuel Cell, redesigned for trace analysis, has an expected life of one year. • Versatile analysis over a wide range of applications. • Microprocessor based electronics: 8-bit CMOS microprocessor with 32 kB RAM and 128 kB ROM.
1-3 T race Oxygen Anal yzer Introduction 1 Teledyne Analytical Instruments 1 . 5 Operator Interface All controls and displays on the standard 3020T are accessible from outside the housing.
1-4 1 Introduction Model 3020T Teledyne Analytical Instruments 1.5 .1 UP/DOWN Switch Functions: The UP/DOWN switch is used to select the function to be performed. Choose UP or DOWN to scroll through the following list of eleven functions: • Auto-Cal Set up an automatic calibration sequence.
1-5 T race Oxygen Anal yzer Introduction 1 Teledyne Analytical Instruments 1.5.3 Displays Digital Meter Display: The meter display is a LED device that produces large, bright, 7-segment numbers that are legible in any lighting. It produces a continuous readout from 0-10,000 ppm and then switches to a continuous percent readout from 1-25%.
1-6 1 Introduction Model 3020T Teledyne Analytical Instruments • Alarm Connections 2 concentration alarms and 1 system alarm. • RS-232 Port Serial digital concentration signal output and control input. • Remote Valves Used for controlling external solenoid valves, if desired.
1-7 T race Oxygen Anal yzer Introduction 1 Teledyne Analytical Instruments • Remote Sensor Used for external sensor and thermocouple, if desired. • Remote Span/Zero Digital inputs allow external control of analyzer calibration.
1-8 1 Introduction Model 3020T Teledyne Analytical Instruments Optional: • Calibration Gas Ports Separate fittings for zero, span and sample gas input, plus internal valves for automatically switching the gases in sync with the 3020 electronics. Note: If you require highly accurate Auto-Cal timing, use external Auto-Cal control where possible.
2-1 T race Oxyg en Anal yzer Operational Theory 2 Teledyne Analytical Instruments Operational Theory 2. 1 Introduction The analyzer is composed of three subsystems: 1.
2-2 2 Operational Theory Model 3020T Teledyne Analytical Instruments analyzed. The Micro-Fuel Cell is therefore a hybrid between a battery and a true fuel cell. (All of the reactants are stored externally in a true fuel cell.) 2.2.2 Anatomy of a Micro-Fuel Cell The Micro-Fuel Cell is a cylinder only 1¼ inches in diameter and 1¼ inches thick.
2-3 T race Oxyg en Anal yzer Operational Theory 2 Teledyne Analytical Instruments At the top end of the cell is a diffusion membrane of Teflon, whose thickness is very accurately controlled. Beneath the diffusion membrane lies the oxygen sensing element—the cathode—with a surface area almost 4 cm 2 .
2-4 2 Operational Theory Model 3020T Teledyne Analytical Instruments The overall reaction for the fuel cell is the SUM of the half reactions above, or: 2Pb + O 2 → 2PbO (These reactions will hold as long as no gaseous components capable of oxidizing lead—such as iodine, bromine, chlorine and fluorine—are present in the sample.
2-5 T race Oxyg en Anal yzer Operational Theory 2 Teledyne Analytical Instruments Figure 2-3. Characteristic Input/Output Curve for a Micro-Fuel Cell 2 . 3 Sample System The sample system delivers gases to the Micro-Fuel Cell sensor from the analyzer gas panel inlets.
2-6 2 Operational Theory Model 3020T Teledyne Analytical Instruments Figure 2-4 is the flow diagram for the sampling system. In the standard instrument, calibration gases (zero and span) can be connected directly to the Sample In port by teeing to the port with appropriate valves.
2-7 T race Oxyg en Anal yzer Operational Theory 2 Teledyne Analytical Instruments Figure 2-5: Block Diagram of the Model 3020T Electronics.
2-8 2 Operational Theory Model 3020T Teledyne Analytical Instruments In the presence of oxygen the cell generates a current. A current to voltage amplifier converts this current to a voltage, which is amplified in the second stage amplifier. The second stage amplifier also supplies temperature compensation for the oxygen sensor output.
T race Oxyg en Analyzer Installation 3 3-1 Teledyne Analytical Instruments Installation Installation of the Model 3020T Analyzer includes: 1. Unpacking 2. Mounting 3. Gas connections 4. Electrical connections 5. Installing the Micro-Fuel Cell 6. Testing the system.
3 Installation Model 3020T 3-2 Teledyne Analytical Instruments Figure 3-1: Front View of the Model 3020T (Simplified).
T race Oxyg en Analyzer Installation 3 3-3 Teledyne Analytical Instruments Figure 3-2: Required Front Door Clearance 3 . 3 Electrical Connections Figure 3-3 shows the Model 3020T Electrical Connector Panel. There are terminal blocks for connecting power, communications, and both digital and analog concentration outputs.
3 Installation Model 3020T 3-4 Teledyne Analytical Instruments For safe connections, ensure that no uninsulated wire extends outside of the connectors they are attached to.
T race Oxyg en Analyzer Installation 3 3-5 Teledyne Analytical Instruments Figure 3-5: Analog Output Connections The outputs are: 0–1 V dc % of Range: Voltage rises linearly with increasing oxygen, from 0 V at 0 ppm to 1 V at full scale ppm. (Full scale = 100% of programmable range.
3 Installation Model 3020T 3-6 Teledyne Analytical Instruments Table 3-1: Analog Concentration Output—Example Voltage Signal Current Signal ppm O 2 Output (V dc) Output (mA dc) 0 0.0 4.0 10 0.1 5.6 20 0.2 7.2 30 0.3 8.8 40 0.4 10.4 50 0.5 12.0 60 0.
T race Oxyg en Analyzer Installation 3 3-7 Teledyne Analytical Instruments Figure 3-6: Types of Relay Contacts The connectors are: Threshold Alarm 1: • Can be configured as high (actuates when concen- tration is above threshold), or low (actuates when concentration is below threshold).
3 Installation Model 3020T 3-8 Teledyne Analytical Instruments ZERO: Floating input. 5 to 24 V input across the + and – terminals puts the analyzer into the Zero mode. Either side may be grounded at the source of the signal. 0 to 1 volt across the terminals allows Zero mode to terminate when done.
T race Oxyg en Analyzer Installation 3 3-9 Teledyne Analytical Instruments Note: The remote probe connections (paragraph 3.3.9) provide signals to ensure that the zero and span gas valves will be controlled synchronously.
3 Installation Model 3020T 3-10 Teledyne Analytical Instruments • The range in use (HI, MED, LO) • The span of the range (0-100 ppm, etc) • Which alarms—if any—are disabled (AL–x DISABLED) • Which alarms—if any—are tripped (AL–x ON).
T race Oxyg en Analyzer Installation 3 3-11 Teledyne Analytical Instruments Figure 3-7: Remote Solenoid Return Connector Pinouts The voltage from these outputs is nominally 0 V for the OFF and 15 V dc for the ON conditions. The maximum combined current that can be pulled from these output lines is 100 mA.
3 Installation Model 3020T 3-12 Teledyne Analytical Instruments When the micro-Fuel Cell needs to be installed or replaced, follow the procedures in chapter 5, Maintenance, for removing and installing cells.
T race Oxyg en Analyzer Installation 3 3-13 Teledyne Analytical Instruments Figure 3-9: Gas Connector Panel SAMPLE IN: In the standard model, gas connections are made at the SAMPLE IN and EXHAUST OUT connections. Calibration gases must be Tee'd into the Sample inlet with appropriate valves.
3 Installation Model 3020T 3-14 Teledyne Analytical Instruments Note: If the unit is for vacuum service, see Sample In , above, for gas pressure/flow considerations. 3 . 6 T esting the System Before plugging the instrument into the power source: • Check the integrity and accuracy of the gas connections.
T race Oxygen Anal yzer Operation 4 4-1 Teledyne Analytical Instruments Operation 4. 1 Introduction Once the analyzer has been installed, it can be configured for your application. To do this you will: • Establish and start an automatic calibration cycle, if desired.
4 Operation Model 3020T 4-2 Teledyne Analytical Instruments toward UP to move the VFD screen two selections upwards on the list of options (menu). The item that is between arrows on the screen is the item that is cur- rently selectable by choosing ENTER (turn-and-release toward ENTER with the ESCAPE/ENTER control).
T race Oxygen Anal yzer Operation 4 4-3 Teledyne Analytical Instruments 2 PWD : Used to establish password protection or change the existing password. 3 LOGOUT : Logging out prevents unauthorized tampering with the analyzer settings. 4 VERSION : Displays Manufacturer, Model, and Software version of the instrument.
4 Operation Model 3020T 4-4 Teledyne Analytical Instruments 9 RANGE : Used to set up three analysis ranges that can be switched automatically with auto-ranging or used as individual fixed ranges. 10 STANDBY : Remove power to outputs and displays, but maintain power to internal circuitry.
T race Oxygen Anal yzer Operation 4 4-5 Teledyne Analytical Instruments 4 .3 The A UT O-CAL Function When proper automatic valving is connected (see chapter 3, installa- tion ), the Analyzer can cycle itself through a sequence of steps that automati- cally zero and span the instrument.
4 Operation Model 3020T 4-6 Teledyne Analytical Instruments Once a unique password is assigned and activated, the operator MUST enter the UNIQUE password to gain access to any of the set-up functions (except to enter the password) .
T race Oxygen Anal yzer Operation 4 4-7 Teledyne Analytical Instruments In a few seconds, if you do not ESCAPE, you will be given the oppor- tunity to change this password or keep it and go on. Change Password? <ENT>=Yes <ESC>=No ESCAPE to move on, or proceed as in Changing the Password , below.
4 Operation Model 3020T 4-8 Teledyne Analytical Instruments A A A A A Retype PWD To Verify Wait a moment for the entry ( <ENT> ) screen. You will be given clearance to proceed. A A A A A <ENT> TO Proceed ENTER the letters of your new password.
T race Oxygen Anal yzer Operation 4 4-9 Teledyne Analytical Instruments 4 . 7 The SELF-TEST Function The Model 3020T has a built-in self-testing diagnostic routine. Prepro- grammed signals are sent through the power supply, output board and sensor circuit.
4 Operation Model 3020T 4-10 Teledyne Analytical Instruments Although the instrument can be spanned using air, a span gas with a known oxygen concentration in the range of 70–90% of full scale of the range of interest is recommended.
T race Oxygen Anal yzer Operation 4 4-11 Teledyne Analytical Instruments The beginning zero level is shown in the upper left corner of the dis- play. As the zero reading settles, the screen displays and updates information on Slope (unless the Slope starts within the acceptable zero range and does not need to settle further).
4 Operation Model 3020T 4-12 Teledyne Analytical Instruments 4.8.1.3 Cell Failure Cell failure in the 3020T is usually associated with inability to zero the instrument down to a satisfactorily low ppm reading. When this occurs, the 3020T system alarm trips, and the VFD displays a failure message.
T race Oxygen Anal yzer Operation 4 4-13 Teledyne Analytical Instruments typing in the concentration of the span gas you are using, repeatedly select ENTER until the rightmost digit is reached, then, the next ENTER will exit the Span Val field. One more ENTER will enter the new span value, bring up the next screen, and start the span calibration.
4 Operation Model 3020T 4-14 Teledyne Analytical Instruments When the Span value displayed on the screen is sufficiently stable, ENTER it. (Generally, when the Span reading changes by 1 % or less of the full scale of the range being calibrated for a period of ten minutes it is suffi- ciently stable.
T race Oxygen Anal yzer Operation 4 4-15 Teledyne Analytical Instruments to non-alarm conditions. This mode requires an alarm to be recognized before it can be reset. In the non-latching mode, the alarm status will terminate when process conditions revert to non- alarm conditions.
4 Operation Model 3020T 4-16 Teledyne Analytical Instruments –OR – Go to Ltch and then assert either DOWN two times or UP two times. (Toggle it to N N N N N and back to Y. Y. Y. Y. Y. ) 4.10 The RANGE Function The RANGE function allows the operator to program up to three concentration ranges to correlate with the DC analog outputs.
T race Oxygen Anal yzer Operation 4 4-17 Teledyne Analytical Instruments Use the DOWN/UP control to enter the upper value of the range (all ranges begin at 0 ppm). Repeat for each range you want to set. ENTER to accept the values and return to the Analysis Mode .
4 Operation Model 3020T 4-18 Teledyne Analytical Instruments output continue to read the true value of the oxygen concen- tration regardless of the analog output range. 4.11 The CONTRAST Function If you cannot read anything on the display after first powering up: 1.
T race Oxygen Anal yzer Operation 4 4-19 Teledyne Analytical Instruments 4.13 The Analysis Mode This is the normal operating mode of the analyzer. In this mode the analyzer is monitoring the sample, measuring and displaying the amount of oxygen, and reporting alarm conditions.
4 Operation Model 3020T 4-20 Teledyne Analytical Instruments.
T race Oxygen Anal yzer Maintenance 5 5-1 Teledyne Analytical Instruments Maintenance 5 . 1 Routine Maintenance Aside from normal cleaning and checking for leaks at the gas connec- tions, routine maintenance is limited to replacing Micro-Fuel cells and fuses, and recalibration.
5 Maintenance Model 3020T 5-2 Teledyne Analytical Instruments Figure 5-1: Major Internal Components To swing open the cover panel, remove all screws. 5 . 3 Cell Replacement The Micro-Fuel Cell is a sealed electrochemical transducer with no electrolyte to change or electrodes to clean.
T race Oxygen Anal yzer Maintenance 5 5-3 Teledyne Analytical Instruments 5.3.1 Storing and Handling Replacement Cells To have a replacement cell available when it is needed, it is recom- mended that one spare cell be purchased 9-10 months after commissioning the 3020T, or shortly before the end of the cell's one year warranty period.
5 Maintenance Model 3020T 5-4 Teledyne Analytical Instruments Before replacing the cell: a. Check your span gas to make sure it is within specifications. b. Check for leaks downstream from the cell, where oxygen may be leaking into the system. If there are no leaks and the span gas is OK, replace the cell.
T race Oxygen Anal yzer Maintenance 5 5-5 Teledyne Analytical Instruments Figure 5-2: Exploded View of Cell Block and Micro-Fuel Cell Li ft Up G at e.
5 Maintenance Model 3020T 5-6 Teledyne Analytical Instruments 5.3.4 Installing a New Micro-Fuel Cell It is important to minimize the amount of time that a Teledyne Trace Oxygen Sensor is exposed to air during the installation process.
T race Oxygen Anal yzer Maintenance 5 5-7 Teledyne Analytical Instruments 5.3.5 Cell Warranty The Class L-2C Micro-Fuel cell is used in the Model 3020T.
5 Maintenance Model 3020T 5-8 Teledyne Analytical Instruments Figure 5-3: Removing Fuse Cap and Fuse from Holder 2. Replace fuse by reversing process in step 1. 5 . 5 System Self Diagnostic T est Use the DOWN/UP control to scroll through the MAIN MENU to SELF-TEST .
T race Oxygen Anal yzer Maintenance 5 5-9 Teledyne Analytical Instruments Table 5-1: Self Test Failure Codes Power 0O K 1 5 V Failure 2 15 V Failure 3 Both Failed Analog 0O K 1 DAC A (0–1 V Concentr.
5 Maintenance Model 3020T 5-10 Teledyne Analytical Instruments.
A-1 T race Oxyg en Analyzer Appendix Teledyne Analytical Instruments Appendix A-1 Specifications Packaging: Explosion-proof. Bulkhead mount. Sensor: L-2C trace analysis Micro-Fuel Cell. Cell Block: 316 stainless steel. Ranges: Three user definable ranges from 0–10 ppm to 0–250,000 ppm, plus air calibration range of 0- 250,000 ppm (25 %).
A-2 Appendix Model 3020T Teledyne Analytical Instruments Operating Temperature: 0-50 °C Accuracy: ±2% of full scale at constant temperature. ±5% of full scale over operating temperature range, on factory default analysis ranges, once thermal equilibrium has been achieved.
A-3 T race Oxyg en Analyzer Appendix Teledyne Analytical Instruments A - 2 Recommended 2-Y ear Spare P ar ts List Qty Part Number Description 1 C62371B Display PCB 1 D65295A Customer Interface PCB 1 C.
A-4 Appendix Model 3020T Teledyne Analytical Instruments A - 3 Drawing List D65908 Final Assembly Drawing D65909 Outline Drawing D65911 Wiring Diagram.
A-5 T race Oxyg en Analyzer Appendix Teledyne Analytical Instruments 3000 SERIES ANAL YZERS APPLICATION NOTES ON RESTRICTORS, PRESSURES, AND FLOW RECOMMENDATIONS 3000 series analyzers require reasonably regulated sample pressures.
A-6 Appendix Model 3020T Teledyne Analytical Instruments The second function that the restriction device provides is a pressure drop. This device is selected to provide the only significant pressure drop in the sample path.
A-7 T race Oxyg en Analyzer Appendix Teledyne Analytical Instruments BY-PASS: To improve the system response, a by-pass can be added to increase the sample flow rate to the analyzer by a factor of ten. A by-pass provides a sample flow path around the analyzer of 2 - 18 SCFH.
デバイスTeledyne 3020Tの購入後に(又は購入する前であっても)重要なポイントは、説明書をよく読むことです。その単純な理由はいくつかあります:
Teledyne 3020Tをまだ購入していないなら、この製品の基本情報を理解する良い機会です。まずは上にある説明書の最初のページをご覧ください。そこにはTeledyne 3020Tの技術情報の概要が記載されているはずです。デバイスがあなたのニーズを満たすかどうかは、ここで確認しましょう。Teledyne 3020Tの取扱説明書の次のページをよく読むことにより、製品の全機能やその取り扱いに関する情報を知ることができます。Teledyne 3020Tで得られた情報は、きっとあなたの購入の決断を手助けしてくれることでしょう。
Teledyne 3020Tを既にお持ちだが、まだ読んでいない場合は、上記の理由によりそれを行うべきです。そうすることにより機能を適切に使用しているか、又はTeledyne 3020Tの不適切な取り扱いによりその寿命を短くする危険を犯していないかどうかを知ることができます。
ですが、ユーザガイドが果たす重要な役割の一つは、Teledyne 3020Tに関する問題の解決を支援することです。そこにはほとんどの場合、トラブルシューティング、すなわちTeledyne 3020Tデバイスで最もよく起こりうる故障・不良とそれらの対処法についてのアドバイスを見つけることができるはずです。たとえ問題を解決できなかった場合でも、説明書にはカスタマー・サービスセンター又は最寄りのサービスセンターへの問い合わせ先等、次の対処法についての指示があるはずです。