585M 6200 Isoperibol Calorimeter Operating Instruction Manual For models produced after October 2010
6200 Table of Contents Preface 4 Chapter 3 15 Scope 4 Instrument Description 15 Types of Controls 15 Related Instructions 4 Purpose 4 Customer Service 4 Menu Keys 15 Control Keys 15 Explanation of Symbols 5 Safety Information 5 Chapter 4 17 Intended Usage 5 Program Installation & Control General Specifications 5 Environmental Conditions 6 Provisions for Lifting and Carrying 6 Cleaning & Maintenance 6 Getting Started 6 Chapter 1 7 Concept of Operation 7 Overview 7 Remova
Table of Contents Chapter 8 31 Appendix C 55 File Management 31 Clearing Memory 31 Standardization Removable SD Memory 31 Standard Materials 55 55 Standardizing the Calorimeter 55 Automatic Statistical Calculations 55 Chapter 9 33 Maintenance & Troubleshooting 33 Appendix D 59 Oxygen Bomb 33 Communications Interfaces Jacket Temperature Troubleshooting 33 Printer Port 59 Fuses 33 Balance and Port Input Driver Specifications 59 6200 Calorimeter Error List 33 Mettler 011/0
6200 Table of Contents Tables Table 4-1 6200 Factory Default Settings 18 Table B-1 Settings for ISO & BSI Methods 52 Table C-1 Calorimeter Control Limit Values in J/g 56 Table C-2 Calorimeter Control Limit Values in cal/g 57 Table C-3 Calorimeter Control Limit Values in BTU/lb 58 Table D-1 6200 Data File Naming Convention 60 Table D-2 6200 Calorimeter Run Data Template 60 Figures Figure 2-1 Swagelok Tube Fittings 11 Figure 2-2 6200 Calorimeter Back Panel 12
Preface Preface Related Instructions Scope This manual contains instructions for installing and operating the Parr 6200 Calorimeter. For ease of use, the manual is divided into nine chapters.
6200 Preface Explanation of Symbols I On Position O Off Position ~ Alternating Current This CAUTION symbol may be present on the Product Instrumentation and literature. If present on the product, the user must consult the appropriate part of the accompanying product literature for more information. ATTENTION, Electrostatic Discharge (ESD) hazards. Observe precautions for handling electrostatic sensitive devices. Protective Earth (PE) terminal.
Preface Frequency: Calorimeters can be operated from either a 50 or 60 Hertz power supply without affecting their operation or calibration. Current: The total current drawn should not exceed the rating shown on the data plate on the calorimeter by more than 10 percent. Environmental Conditions Operating: 15 ºC to 30 ºC; maximum relative humidity of 80% non-condensing. Installation Category II (over voltage) in accordance with IEC 664. Pollution degree 2 in accordance with IEC 664.
6200 Concept of Operation Chapter 1 Concept of Operation Overview • The 6200 Calorimeter has been designed to provide the user with: • A traditional design calorimeter with removable oxygen bomb and bucket. • A moderately priced calorimeter which uses real time temperature measurements to determine heat leaks using a controlled calorimeter jacket. • A high precision calorimeter capable of exceeding the repeatability and reproducibility requirements of all international standard test methods.
1 Concept of Operation Full Microprocessor Based Process Control Flexible Programming The microprocessor controller in this calorimeter has been pre-programmed to automatically prompt the user for all required data and control input and to: The fifth generation software built into this calorimeter and accessed through the screen menus permit the user to customize the operation of the calorimeter to meet a wide variety of operating conditions including: • Generate all temperature readings in the calorim
6200 Installation Chapter 2 Installation Note: Some of the following manual sections contain information in the form of warnings, cautions and notes that require special attention. Read and follow these instructions carefully to avoid personal injury and damage to the instrument. Only qualified personnel should conduct the installation tasks described in this portion of the manual.
2 Installation Tap Water Cooling Connect the tap water supply to the cold water inlet on the back of the calorimeter using either 1/4” copper or nylon tubing (HJ0025TB035). A 196VB metering valve is provided with the calorimeter. This valve should be installed in this inlet line near the calorimeter. This valve is used to adjust the flow of water to the heat exchanger to compensate for differences in tap water temperatures and water line pressures.
6200 Swagelok Tube Fittings When Swagelok Tube Fittings are used, the instructions for installation are: Installation Figure 2-1 Swagelok Tube Fittings 1. Simply insert the tubing into the Swagelok Tube Fitting. Make sure that the tubing rests firmly on the shoulder of the fitting and that the nut is finger-tight. 2. Before tightening the Swagelok nut, scribe the nut at the 6 o’clock position. 3. While holding the fitting body steady with a back-up wrench, tighten the nut 1-1/4 turns.
2 Installation Figure 2-2 6200 Calorimeter Back Panel 12 Parr Instrument Company
6200 Installation Figure 2-3 Closed Loop Configuration with 6510 O2 Regulator 6510 Water Handling System Line 3 Line 2 Line 1 ~27 °C Figure 2-4 Open Loop Configuration with Tap Water O2 Regulator Tap Water · <27 °C Line 3 Line 2 Line 1 Drain Line 1 & 2 – Maximum length of 10 feet, 1/4” OD, Polyurethane (Part Number HJ0025TB035) Line 3 – Maximum length of 25 feet, 1/8” OD, Nylon (Part Number HX0012TB024) www.parrinst.
2 Installation Figure 2-5 Open Loop Configuration with 1552 O2 Regulator Tap Water · >27 °C Line 3 Line 2 1552 Water Line 1 Cooler ~27 °C Drain Line 1 & 2 – Maximum length of 10 feet, 1/4” OD, Polyurethane (Part Number HJ0025TB035) Line 3 – Maximum length of 25 feet, 1/8” OD, Nylon (Part Number HX0012TB024) 14 Parr Instrument Company
6200 Instrument Description Chapter 3 pad or similar screen for entering the required value. Some keys lead to multiple choices. Always clear the current value before entering a new value. Once entered the screen will revert to the previous menu and the new value will be displayed in the lower right corner of the key. Instrument Description Types of Controls All calorimeter configurations and operations are handled by a menu-driven system operated from the bright touch screen display.
Notes 16 Parr Instrument Company
6200 Program Installation & Control Chapter 4 Program Installation & Control Software Installation Revising Default Settings The default parameters of the 6200 Calorimeter can be changed to guarantee that the 6200 Calorimeter, when cold restarted, will always be in the desired configuration before beginning a series of tests.
4 Program Installation & Control Table 4-1 6200 Factory Default Settings Calorimeter Operations Operating Mode Calibration Data & Controls Determination Calibration Run Limit 10 1/2400.0 EE Max Std Deviation 0.0 Bomb Installed/EE Heater and Pump OFF Heat of Combustion of Standard 6318.4 Bomb Service Interval Operating Controls Method of Operation 500 Control Chart Parameters Dynamic Reporting Units “OTHER” Multiplier 0.1 OFF Temp Rise High Warning 3.3 4.1868 Temp Rise Low Warning 2.
6200 Program Installation & Control Table 4-1 (Continued) 6200 Factory Default Settings Communication Controls Calculation Factors Nitric Acid Factor 1.58 Acid Multiplier 0.0709 Sulfur Value is Percent ON Sulfur Multiplier 0.6238 Fuse Multiplier 1.0 Use Offset Correction (ISO) OFF Offset Value Printer Type Parr 1758 Balance Port Network Interface Printer Destination Local (USB) Bar Code Port Network Data Devices 0.
Notes 20 Parr Instrument Company
6200 Operating Instructions Chapter 5 Operating Instructions Operating the 1108P Oxygen Combustion Vessel Detailed instructions for preparing the sample and charging the 1108P Oxygen Combustion Vessels are given in Operating Instructions No. 418M. Follow these instructions carefully, giving particular attention to the precautions to be observed in charging and handling the bomb.
5 Operating Instructions To speed and simplify the bucket filling process, and to conserve water and energy, Parr offers a closed circuit Water Handling System (No. 6510). This provides a water supply, cooled to the starting temperature and held in an automatic pipet ready for delivery in the exact amount needed to fill the bucket. Instructions for this automatic system are given in Operating Instruction No. 454M. 4. Set the bucket in the calorimeter.
6200 Samples and Sample Holders Particle Size and Moisture Content. Solid samples burn best in an oxygen bomb when reduced to 60 mesh, or smaller, and compressed into a pellet with a 2811 Parr Pellet Press. Large particles may not burn completely and small particles are easily swept out of the capsule by turbulent gases during rapid combustion. Note: Particle size is important because it influences the reaction rate.
5 Operating Instructions Foodstuffs and Cellulosic Materials Explosives and High Energy Fuels Fibrous and fluffy materials generally require one of three modes of controlling the burn rate. Fibrous materials do not pelletize readily and generally require either moisture content or a combustion aid such as mineral oil to retard the burn rate and avoid development of high pressures. The 1108P and 1108PCL used in the 6200 Calorimeter have been designed to provide highly automated testing of routine samples.
6200 Operating Instructions Figure 5-7 Combustion Capsule with Adhesive Tape Seal Poor Combustion Because of the difference in combustion characteristics of the many different materials which may be burned in an oxygen bomb, it is difficult to give specific directions which will assure complete combustions for all samples.
Notes 26 Parr Instrument Company
6200 Corrections & Final Reports Chapter 6 Corrections & Final Reports Entering Corrections and Obtaining the Final Report Final reports for each test can be obtained whenever the operator is prepared to enter any required corrections for fuse, acid and sulfur. When entering corrections, the user can choose either of two methods. These are: • Manual Entry • Fixed Corrections Program Installation and Control, Chapter 4. provides the default settings used to setup the method preferred by the user.
Notes 28 Parr Instrument Company
6200 Reporting Instructions Chapter 7 Reporting Instructions Report Option Section The 6200 Calorimeter can transmit its stored test data in either of two ways. The REPORT DESTINATION key on the Reporting Controls Page toggles the report destination between the display and an optional printer connected to the USB port of the calorimeter. This page also selects the type of reports that are generated automatically by the calorimeter.
Notes 30 Parr Instrument Company
6200 File Management Chapter 8 File Management The 6200 Calorimeter will hold data for 1000 tests in its memory. These tests may be pre weights, preliminary or final reports for either standardization or determination runs. Once the memory of the controller is filled, the controller will not start a new analysis until the user clears some of the memory. Clearing Memory The FILE MANAGEMENT key on the main menu leads to the file management sub-menu.
Notes 32 Parr Instrument Company
6200 Maintenance & Troubleshooting Chapter 9 Maintenance & Troubleshooting Oxygen Bomb Under normal usage the 1108P Parr Oxygen Combustion Vessel will give long service if handled with reasonable care. However, the user must remember these bombs are continually subjected to high temperatures and pressures that apply heavy stresses to the sealing mechanism.
9 Maintenance & Troubleshooting before the Start button lights up. This is to make sure that all of the jacket water is stable at the correct temperature. A Misfire Condition Has Been Detected. This error will be generated in the event the total temperature rise fails to exceed 0.5 °C after the first minute of the post-period. The heater loop break limit has been detected. The heater will now be shutdown.
Menu Operating Instructions A 6200 Appendix A Menu Operating Instructions The settings and controls are organized into ten main sections or pages which comprise the Main Menu. This appendix describes all pages of the menu-based operating system of the 6200 Calorimeter. Note: Keys which make global changes to the setup of the calorimeter contain a YES or NO response to make certain that the user wishes to proceed. This two step entry is intended to prevent inadvertent global program changes.
A Menu Operating Instructions Temperature Plot Setup Jacket Plot Symbol: Toggles between (same as Bucket Plot Symbol, above). Jacket Min Value: Press this key to access its numeric dialog box to set a minimum jacket value. Time Window: Sets the time scale for the Xaxis. Time Units: Toggles between minutes and seconds. Enable Bucket: Toggles ON/OFF. Bucket Autoscale: Toggles ON/OFF. Enable Jacket: Toggles ON/OFF. Jacket Autoscale: Toggles ON/OFF. Time Mode: Toggles between Autoscale, Window, and Range.
6200 Operating Controls Menu Menu Operating Instructions A Use Spiking: When set to ON, the calorimeter will prompt for the weight of the spike added and will compensate for the heat of combustion in the calculations. Heat of Combustion of Spike: The heat of combustion of spike is entered on sub-menu keyboard in cal/g. Use Fixed Spike: When set to ON, a constant amount of spike is to be added to each test. Weight of Fixed Spike: The weight of the fixed spike is entered on a sub-menu keyboard.
A Menu Operating Instructions Program Information and Control Menu Software and Hardware Info: This screen displays important information such as the main software version, I/O board hardware information, CPU type, I/O firmware revision, and Controller IP address. Settings Protect: Provides protection for the program options and settings on the menus. If this is turned ON, the user will be warned that enumeration keys are locked when a key is pressed.
6200 Compare Settings With Factory Defaults: This button will bring up a screen that will show the differences in the current settings of the calorimeter with the factory defaults. Menu Operating Instructions A Feature Key: Unique Feature Keys obtained from Parr allow the user to access capabilities on the instrument such as bar code interfacing or remote operation of the calorimeter.
A Menu Operating Instructions Charted Value: Toggles the charted value between the HOC Standard (Heat Of Combustion of Standard) and Energy Equivalent. Bomb 1 Process Sigma: In relation to calorimetry, sigma is used as the classification of the instrument. The higher the process sigma the higher the limits for acceptable values for precision control. Note: The 6200 is a .1 Process Sigma calorimeter. Temp. Rise High Warning: Sets the high warning limit on the bucket temperature rise.
Menu Operating Instructions A 6200 Manual EE Entry: This key allows the user to manually enter an EE or calibration factor for a given calorimeter ID or bomb head. If an EE value is manually entered, it is necessary to turn the Protect EE Value ON in order to prevent this value from being overwritten by an automatic update. Thermochemical Calculations Menu Print Standardization Runs: Will print all of the tests that have been incorporated into the calculated EE value.
A Menu Operating Instructions Determination Correction Calculation Factors Fixed Fuse Correction: Displays both the ON/OFF of the fixed fuse corrections for determination runs and the value of the correction. This key toggles the correction ON/OFF and accesses a sub-menu on which the value is set. Fixed Acid Correction: Press this key on the LEFT side to toggle between Fixed HNO3, Calculated HNO3, Entered Total, Entered HNO3, and Fixed Total for the acid correction for determination runs.
6200 Use Offset Correction (ISO): The thermochemical calculations used for treatment of nitric acid and sulfuric acid corrections in the ISO and B. S. methods require an offset correction to compensate for the back titration that is made. To use these calculations, set to ON and enter the appropriate value as the offset value. Menu Operating Instructions A Data Entry Controls Menu Offset Value: Entry for the value when use offset correction is turned ON.
A Menu Operating Instructions Automatic Sample ID Controls Moisture Entry Mode: This key steps through the options for entering the moisture percentage whether manually through the touch screen or automatically through the balance (USB) port. Auto Preweigh ID Controls: Accesses sub-menu, used to automatically assign sample identification numbers when a series of samples are pre weighed ahead of the time they are actually tested.
6200 Menu Operating Instructions A Reporting Controls Menu Communication Controls Menu Report Width: The column width of the printer being used can be set to 40 or 80 columns. Select 40 when the 1758 Printer is used. Communication Controls: Accesses sub-menus which set the communications protocols for the printer and balances.
A Menu Operating Instructions Balance Port Communications Customize Balance Settings: Accesses submenu that sets the communication parameters for the balance port. Standard options for data bits, parity, stop bits, handshaking, baud rate and balance type are provided to match the settings of an attached balance for proper communication. 46 »» Number of Data Bits: Standard options for data bits. Toggles between 7 and 8. »» Parity: Standard options for parity. Choose from None, Odd, or Even.
6200 File Management Menu Operating Instructions A Format the SD Card: This key provides access to a function that will format the user installed SD card in a manner that is compatible with the CPU Boot loader. Formatting the card this way is recommended prior to installing any program update files on the SD card. Copy Run Data to SD Card: This key copies all test data to a SD memory card inserted into the rear of the calorimeter controller.
A Menu Operating Instructions Diagnostics Menu Allows the user to test many of the components and subsystems of the calorimeter. These capabilities must be used in conjunction with the Maintenance Instructions to obtain the maximum benefits from these capabilities. Instrument Monitor: This screen provides a summary of important instrument parameters. The monitor is used to detail the course of a test or to observe the heating/cooling performance of the calorimeter.
Calculations B 6200 Appendix B Calculations Calculating the Heat of Combustion The 6200 Calorimeter will automatically make all of the calculations necessary to produce a gross heat of combustion for the sample. However, it is important that the user understand these calculations to ensure the instrument is set up so the calculations match the procedures and the units are consistent throughout the process. Energy Equivalent.
B Calculations Users may find it convenient to enter a fixed value for the fuse correction and avoid the need to determine this correction for each test. Fixed fuse corrections can be entered when Thermochemical Corrections, is set to ON. By default a fixed fuse correction of 50 calories is applied to all tests. Total errors of more than 5 calories will seldom occur when using a fixed fuse correction and the fuse wire supplied by Parr.
Calculations B 6200 Thermochemical Calculation Details Traditionally, standard solutions and procedures have been established to simplify the calculations related to the thermochemical corrections. The 6200 Calorimeter has been programmed to permit the user to use standard solutions and units which are most convenient, since the microprocessor can easily apply any conversion factors required.
B Calculations Using the default acid and sulfur multipliers as well as a heat of formation of nitric acid of 14.1 cal/milliequivalent a 1 gram sample with 25 ml of washings and 2 % sulfur would result in the following calculation: e1 = [((25)(.0709)) – (2)(1)(.6238)] 14.1 e1 = [(1.7725) – (1.2476)] 14.1 e1 = [.5249] 14.1 e1 = 7.40 When the Acid Correction is set to Fixed Total the value is considered a final value and the operator is not prompted for an acid value when reporting the results.
Calculations B 6200 ASTM Treatment for Acid and Sulfur ISO Calculations In the ASTM treatment, the correction for acid formation assumes that all the acid titrated is nitric acid. Obviously, if sulfur is present in the sample, which in turn produces sulfuric acid, part of the correction for the sulfuric acid formed is already included in the ASTM nitric acid correction (e1). This is adjusted by a separate computation based upon the sulfur content of the sample. An additional correction of 1.
B Calculations Spiking Samples Conversion to Other Moisture Bases It is sometimes necessary to add a spiking material to samples which are very small, have a low heat of combustion, or have a high moisture content to add sufficient heat to drive the combustion to completion. Benzoic acid is an excellent material for spiking for all of the same reasons it is a good standard material. White oil is also an excellent material, particularly for liquid samples.
Standardization C 6200 Appendix C Standardization Standardizing the Calorimeter The Energy Equivalent Factor The term “standardization”, as used here, denotes the operation of the calorimeter on a standard sample from which the energy equivalent or effective heat capacity of the system can be determined. The energy equivalent, W or EE of the calorimeter is the energy required to raise the temperature one degree, usually expressed as calories per degree Celsius.
C Standardization Any outliers or other tests which should not be included in the average EE Value must be deleted from the memory using the memory management procedures (see Chapter 8). A list of all tests associated with any Cal ID can be printed from the Calibration Data Page using Print Standardization Runs. The user can elect to have any number of stored standardization runs used in determining the EE Value by entering this number on Calibration Data & Controls Page - Calibration Run Limit.
Standardization C 6200 Table C-2 Calorimeter Control Limit Values in cal/g When Benzoic Acid is Used as a Test Sample Accepted heat of combustion taken as 6318 cal/g. Instrument precision 0.10%. Control limits based on 99% confidence (3 sigma) values. Values are in cal/g.
C Standardization Table C-3 Calorimeter Control Limit Values in BTU/lb When Benzoic Acid is Used as a Test Sample Accepted heat of combustion taken as 11373 BTU/lb. Instrument precision 0.10% RSD. Control limits based on 99% confidence (3 sigma) values. Values are in BTU/lb. NUMBER OF UCL FOR THE RANGE OBSERVATIONS (HIGH – LOW) WITHIN IN A GROUP THE GROUP 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 58 41.9 49.6 53.4 55.9 57.8 59.2 60.4 61.3 62.2 62.9 63.6 64.2 64.8 65.3 65.8 66.
Communications Interfaces D 6200 Appendix D Mettler 011/012 Balance Interface Communications Interfaces Field Printer Port USB Connection The 6200 Calorimeter is also equipped with a USB port for connection to either a 40 or 80 column printer and/or a computer. The default parameters for the 6200 Calorimeter are set up for use with the Parr 1758 Printer. Balance and Port Input Driver Specifications The 6200 Calorimeter supports input from multiple balance types.
D Communications Interfaces Generic Interface Table D-2 6200 Calorimeter Run Data Template Field Length data 9 CR 1 The data field should consist of 9 numeric characters (0 through 9, +, - and space) terminated with a carriage return (CR). Leading zeros may be blanked as spaces and are counted. Non-numeric characters are ignored and will reset the input buffer if the data field has not been filled. Any characters received after filling the data field and before the carriage return are ignored.
6200 Ethernet Interface Calorimeter test data can be transferred to an Ethernet network connected computer using the FTP File Transfer Protocol. First, you must know the IP address of the network-connected calorimeter. The network DHCP (Dynamic Host Configuration Protocol) server provides this address shortly after the calorimeter is turned on or a static IP address can be assigned. The address can be seen on the “software and hardware info” page, under “program information and control”.
D Communications Interfaces Samba Server Feature (Optional) Samba was originally developed as an implementation of the SMB (Server Message Block) protocol. The most common use of SMB is in Microsoft’s CIFS (Common Internet File System) implementation. As a result, Samba has become a de facto Microsoft network compatibility tool. In relation to CIFS, Samba allows non-Microsoft operating systems to enjoy effectively seamless server and client operation in networks catering to the needs of Windows computers.
6200 Communications Interfaces D The following screenshot illustrates the contents of the calorimeter data directory as presented by a web browser. www.parrinst.
D Communications Interfaces The calorimeter offers a web server service. Test reports can be viewed with a web browser using a URL of the following form. http://10.1.5.10 Where 10.1.5.10 is the IP address of the calorimeter. The following screenshot illustrates the calorimeter home page.
6200 Communications Interfaces D Clicking on the Config button will display the screen below. Changes made on this screen will change the settings in the calorimeter. www.parrinst.
D Communications Interfaces Clicking on the Run Data button displays a list of reports currently in the instrument memory. Clicking on a test under the select sample ID box will display the data for the selected sample ID.
6200 Communications Interfaces D Clicking on the System Info button will display the screen below. www.parrinst.
D Communications Interfaces Clicking on the LCD Snap Shot button will display the current menu screen displayed by the calorimeter. If the backlight is not on, this screen will display a blank blue square. Note: This is a picture only. The calorimeter cannot be remotely operated from this screen. Remote operation requires the appropriate Feature Key. Please contact Parr Instrument Company for more details about available Feature Keys.
6200 Communications Interfaces D Clicking on the Documentation button will display the screen below. Clicking on any of the links will open the corresponding web page. Note: Connection to the internet is required for these links. www.parrinst.
D Communications Interfaces Bar Code Port Network Data Services The use of barcodes in the laboratory has become a highly accurate, rapid and inexpensive way to identify samples. When purchasing this feature, the user must supply Parr with the MAC address of the calorimeter (found in the Software & Hardware Info menu screen). This allows Parr to activate the feature key. These keys allow the user to specify the IP addresses of one or more Balance Interface devices on the network.
Technical Service E 6200 Appendix E Technical Service Should you need assistance in the operation or service of your instrument, please contact the Technical Service Department. Telephone: (309) 762-7716 Toll Free: 1-800-872-7720 Fax: (309) 762-9453 E-mail: parr@parrinst.com Any correspondence must include the following basic information: The model and serial # of the instrument. Software version(s) shown on the “Software and Hardware Information” page.
Notes 72 Parr Instrument Company
6200 Parts Lists & Drawings Appendix F Parts Lists & Drawings Principal Assemblies in Calorimeter Item Description 1108P A391DD A570DD A1279DD2 A1311DDEB A1311DDEE A1268DD Oxygen Combustion Vessel Oval Bucket Regulator Assembly, Oxygen Controller Assembly Pump Assembly, Circulating, 115V Pump Assembly, Circulating, 230V Motor Assembly, Pump, 12V A1276DD A1284DD A297E A1278DD 1940E 897E 1317DD 1417E2 538VB Cold Water Solenoid Stirrer Hub Assembly Lead Wire Oxygen Solenoid, w/o fittings Power Supply C
F Parts Lists & Drawings Parts List for A1284DD2 Stirrer Hub Assembly Item Description 1282DD 1283DD2 1242DD3 682DD 683DD 684DD A540DD Hub, Stirrer Shaft, Stirrer Pulley, Timing Snap Ring, Internal .50 Wave Spring, .
6200 Parts Lists & Drawings Figure F-1 6200 Isoperibol Calorimeter Cutaway Front www.parrinst.
F Parts Lists & Drawings Figure F-2 6200 Isoperibol Calorimeter Cutaway Rear 76 Parr Instrument Company
A2140E IO BOARD P6 P8 USB PORT A2154E CPU BOARD CONNECTS IN LOWER PORT OF J4 ON CPU A2166E IO TO CPU USB CABLE ASSY (RED WIRE ON CABLE CONNECTS TO PIN #1) PIN #1 PIN #1 A1822E POWER CABLE ASSY J10 J1 J9 J8 J4 www.parrinst.
F Parts Lists & Drawings Figure F-4 Oxygen Solenoid Assembly & Fittings 78 Parr Instrument Company
6200 Parts Lists & Drawings Figure F-5 Water Tank Assembly www.parrinst.
F Parts Lists & Drawings Figure F-6 A1311DD Circulating Pump Assembly 80 Parr Instrument Company
6200 Parts Lists & Drawings Figure F-7 Temperature Control Assembly with Fittings www.parrinst.
F Parts Lists & Drawings Figure F-8 A1284DD2 Stirrer Hub Assembly 82 Parr Instrument Company
6200 Parts Lists & Drawings Figure F-9 Stirrer Motor Assembly www.parrinst.
Notes 84 Parr Instrument Company
585M R04 09/11/14
