Spectronic Genesys 5 Manual
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The information in this publication is provided for reference only. All information contained in this publication is believed to be correct and complete. Thermo Electron Corporation shall not be liable for errors contained herein nor for incidental or consequential damages in connection with the furnishing, performance or use of this material. All product specifications, as well as the information contained in this publication, are subject to change without notice. This publication may contain or reference information and products protected by copyrights or patents and does not convey any license under our patent rights, nor the rights of others. We do not assume any liability arising out of any infringements of patents or other rights of third parties. We make no warranty of any kind with regard to this material, including but not limited to the implied warranties of merchantability and fitness for a particular purpose. Copyright © 2003 by Thermo Electron Corporation, Madison, WI 53711. Printed in the United States of America. All world rights reserved. No part of this publication may be stored in a retrieval system, transmitted, or reproduced in any way, including but not limited to photocopy, photograph, magnetic, or other record, without the prior written permission of Thermo Electron Corporation. For technical assistance, please contact: Technical Support: Thermo Electron Corporation (USA, Asia Pacific, Middle East, Africa, India and Latin America) 5225 Verona Road Madison, WI 53711-4495 U.S.A. Telephone: 800-642-6538 or 608-276-6373 Fax: 608-273-6883 E-mail: 6883 Thermo Electron Corporation (Europe) Mercers Row, Cambridge CB5 8HY, UK Telephone: Int +44 (0) 1223 446655 Fax: Int +44 (0) 1223 446644 E-Mail: Careplan.Techsupport@thermo.com SPECTRONIC, GENESYS, WinSpec and SoftCard are trademarks of Thermo Electron Scientific Instruments Corporation, a subsidiary of Thermo Electron Corporation. Lotus is a registered trademark of Lotus Development Company. 336001-10063 Rev. W Declaration of Conformity (For instruments manufactured after September 1, 2001) Instruments: GENESYS 2 and GENESYS 5 Spectrophotometers Thermo Electron Scientific Instruments Corporation certifies that the GENESYS 2 and GENESYS 5 Spectrophotometers have been tested according to instrumentation standards listed in this section in compliance with IEC directive(s) and other regulatory requirements. The equipment under test (EUT) consisted of a sample instrument and applicable accessories manufactured by Thermo Electron Scientific Instruments Corporation. The EUT was configured to ensure that worst case conditions were represented. This equipment has been tested for use in non-residential environments. The following instrument models meet the listed directives, when powered from the noise suppressing line cord: 336001-02 336002-02 336008-02 336009-02 336001-04 336002-04 336008-04 336009-04 The instrument MUST include one of the following noise suppression line cords, in order to be compliant with the standards of the International European Community: 336001-634 336001-635 336001-636 U.S. Noise Suppression Line Cord (120 V.A.C.) Eurocord Noise Suppression Line Cord (220 V.A.C.) U.K. Noise Suppression Line Cord (240 V.A.C.) IEC Directives 89/336/EEC 73/23/EEC Electromagnetic Compatibility Directive Low Voltage Directive Electromagnetic Compatibility Test Standards IEC 61326-1 1998, Electrical Equipment for Measurement, Control, and Laboratory use - EMC Requirements. Class A Limits IEC 61000-4-2 1999, Electrostatic Discharge Immunity Test (Test level: 4KV Air Discharge and 4 KV Contact Discharge) IEC 61000-4-3 1998, Radiated, Radio Frequency, Electromagnetic Field Immunity Test (Test level: 3V/m) IEC 61000-4-4 1995, Electrical Fast Transient/Burst Immunity Test (Test level: 1KV on the supply lines) IEC 61000-4-5 1995, Surge Immunity Test (Test level: 0.5KV line to line and 1KV line to earth on the supply lines) IEC 61000-4-6 1996, Immunity to Conducted Disturbances, Induced by Radio-Frequency Fields (Test level: 3V on the supply lines) IEC 61000-4-11 1994, Voltage Dips, Short Interruptions, and Voltage Variations Test Level: 1 cycle/100% CISPR 16-2 1999, Specification for Radio Disturbance and Immunity Measuring Apparatus and Methods– Methods of Measurement of Disturbances and Immunity Safety Test Standards IEC 61010-1 1990 + A1 1992 +A2 1995. Safety requirements for Electrical Equipment for Measurement, Control and Laboratory use. CSA C22.2 No. 1010.1, plus Am 2 IEC 61010-1 1997, Safety requirements for Electrical Equipment for Measurement, Control and Laboratory use; Part 1: General Requirements Test level: Installation Category II, Pollution Degree 2 Warning: This is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate corrective measures. Installation restrictions may be applied by supply authorities in relation to harmonics and voltage fluctuation. Authorized signature: _______________________________________ ___ Brenda Wilcox Vice President, Molecular Spectroscopy Date: ______27May03_____________ FCC COMPLIANCE STATEMENT FOR U.S.A. USERS This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the reference guide, may cause interference to radio communications. It has been tested and found to comply with the limits in effect at the time of manufacture for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference in which case the user, at their own expense, will be required to take whatever measures may be required to correct the interference. GENERAL SAFETY NOTES USED IN THIS MANUAL This symbol alerts you to important information about using the instrument. Be sure to read and follow the associated instructions carefully. This symbol alerts you to potential electrical hazards. Be sure that only qualified persons perform the related procedures. This symbol alerts you to hot surfaces. Be sure to read and follow the associated instructions carefully. This symbol alerts you to potential UV radiation exposure, which can cause eye damage. Wear UV-opaque eye protection. NEW PRODUCT WARRANTY Thermo Electron Corporation instrumentation and related accessories are warranted against defects in material and workmanship for a period of one (1) year from the date of delivery. This warranty is provided only if the warranty registration card is returned within fifteen (15) days after delivery. This warranty covers parts (except those specified below) and labor, and applies only to equipment which has been installed and operated in accordance with the operator's reference guide and which has been serviced only by authorized Thermo Electron Corporation dealers or service personnel. This warranty does not apply to equipment and accessories that have been modified or tampered with in any way, misused, or damaged by accident, neglect, or conditions beyond Thermo Electron Corporation’s control. This warranty does not apply to lamps, glassware, and similar expendable components. However, such parts and components may be warranted by their manufacturer. Thermo Electron Corporation is not responsible under this warranty for loss in operating performance due to environmental conditions. THIS WARRANTY IS IN LIEU OF ALL WARRANTIES EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY OR OTHERWISE, and states Thermo Electron Corporation’s entire and exclusive liability and the Customer's exclusive remedy for any claim in connection with the sale or furnishing of services, goods, or parts, their design, suitability for use, installation, or operations. Thermo Electron Corporation will in no event be liable for any direct, indirect, special, or consequential damages, whatsoever, including loss of goodwill, whether grounded in tort (including negligence), strict liability or contract, and Thermo Electron Corporation’s liability under no circumstances will exceed the contract price for the goods and/or services for which liability is claimed. UPDATE POLICY Thermo Electron Corporation may, from time to time, revise the performance of its products, and in doing so incur no obligation to furnish any such revisions to any Thermo Electron Corporation customer. SOFTWARE PASSWORD This password allows you to enter the security section of your spectrophotometer software used on GENESYS 2 and GENESYS 5 models. Through the security section, you can "lock" test setups (test parameters) so that they may not be altered. The password also allows you to remove the security so that you may edit the test parameters. Please refer to the appropriate section in this Operator's Manual for more information on locking a test. PASSWORD: 4 3 6 3 7 9 7 Contrast Main keyboard and screen display of GENESYS spectrophotometers Name of key Function ACC Sets parameters (e.g., auto increment, temperature) used to control the automated accessory currently installed in the instrument Sets the instrument to 0.0A or 100%T Increments the Multi-Cell Holder one position (from position #8, the holder will advance to position #1) Decrements the Multi-Cell Holder one position (from position #1, the holder will advance to position #8) Clears the numeric or alphanumeric entry field, one character at a time Controls the contrast of the display Accepts the displayed entry Backs up one screen in the software or out of the screen currently displayed. Pressing this key causes the instrument to accept any valid changes made. Sets the analytical wavelength AUTO ZERO CELL /\ CELL \/ CLEAR CONTRAST ENTER EXIT GOTO WL Name of key MINUS (-) NUMBER KEYS PERIOD (.) PRINT SAMPLE ID SETUP TESTS TEST TYPES UTILITY Function Used for numerical entries Used for numerical entries Used for numerical entries Sends screen information or test results to the selected printer (internal or external to the instrument) Sets (changes and enters a new sample identifier (alphanumeric) Accesses the application program set-up screen, enabling you to enter instrument and test parameters for the current test Loads a specific test, previously stored, from a Memory SoftCard or from the instrument (default test) Accesses selected instrument functions (lamp interchange wavelength, time/date settings, language, turning lamps on and off, printer/plotter devices, parameters for RS232C port) Pictogram Component/Status Tungsten lamp lit Tungsten lamp burnt out Deuterium lamp lit Pictogram Component/Status Thermoelectric accessory installed SoftCard installed in card slot A SoftCard installed in card slot B Deuterium lamp burnt out Printer selected Pump installed In addition to the above pictograms, a pictogram illustrating a key is displayed on the screen when you set up a test and "lock" it. This means that the test cannot be edited, it can only be run. A password must be used to "unlock" the test. Pictograms used in GENESYS spectrophotometers Front view of GENESYS 2 and 5 spectrophotometers KEY 1. 2. 3. 4. 5. 6. 7. 8. Lamp compartment LCD screen Sample compartment Card slots Keyboard Contrast keys Power on/off switch Printer cover Table of Contents Section 1 - Setting up the Instrument Instrument description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Environmental and electrical requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . Setting up the instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Setting utility parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Aligning the 8-Position Multi-Cell Holder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Preparing Memory SoftCards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1-2 1-2 1-4 1-5 1-6 1-6 Section 2 - Operation General operating principles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . GENESYS software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Saving tests and data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A/%T/C program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Manual A/%T/C measurements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Automatic A/%T/C measurements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . File Manager program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Program Manager program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Advanced Scanning program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 2-1 2-1 2-2 2-2 2-2 2-4 2-7 2-9 Section 3 - Dictionary of Parameters, Keyboard Functions and Soft Keys Section 4 - Accessories General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cell Holder Platform . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-Position Multi-Cell Holder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Printers / Plotters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . External computers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Accessory Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 4-1 4-2 4-4 4-7 4-9 Contents Section 5 - RS232C Interface Remote operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pin functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Connecting a device to the RS232C port (interface) . . . . . . . . . . . . . . . . . . . . Setting RS232C parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Command descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1 5-1 5-2 5-3 5-4 Section 6 - Maintenance Routine care . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cleaning and maintenance of cells . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cleaning the windows of the sample compartment . . . . . . . . . . . . . . . . . . . . Cleaning the air filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Replacing lamps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Replacing the tungsten-halogen lamp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Aligning the tungsten lamp vertically . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Replacing the deuterium lamp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Optimizing energy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Replacing the instrument battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Changing the fuse . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Changing the voltage setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Replacing the paper in the internal printer . . . . . . . . . . . . . . . . . . . . . . . . . . . Cleaning the internal printer head . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Replacement parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 6-1 6-1 6-2 6-2 6-2 6-2 6-4 6-4 6-6 6-8 6-8 6-9 6-10 6-10 6-10 Section 7 - Diagnostics & Troubleshooting Checking the wavelength calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Checking photometric linearity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 General troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 Appendix A - Selecting glassware & Preparing samples/standards Appendix B - Sample Compartment Layout/Dimensions Appendix C - Optical Description Index Section 1 - Setting up the Instrument Instrument description Your GENESYS spectrophotometer is an easy-to-use, UV-Visible wavelength spectrophotometer designed for quantitative measurements in: C Industrial quality control and research laboratories, including food and beverage, chemical and pharmaceutical applications C Academic research and teaching laboratories C Environmental laboratories, including water and wastewater applications The GENESYS spectrophotometer is available in: C GENESYS 5 spectrophotometer C GENESYS 2 spectrophotometer Regardless of model, your GENESYS spectrophotometer performs absorbance, % transmittance and concentration measurements within the wavelength range of 200 to 1100 nanometers. The instrument offers: C Control and operation of all accessories C Microprocessor-controlled 8-Position Multi-Cell Holder for increased productivity C Automatic wavelength calibration on power-up to ensure the instrument is operating properly C Split-beam optical system for stable measurements GENESYS 2 and 5 The GENESYS 2 and 5 spectrophotometers: C Accept Application and Memory SoftCards™ for running applications programs and manipulating data C Support external devices, such as a printer, plotter or computer C Automatically print data to the internal printer or to an external printer GENESYS 2 and 5 instruments offer the following standard features: C Graphic LCD (40 columns x 16 lines, backlit) display for easy data plotting, test set-up and instrument status information; color display on the GENESYS 2, monochrome display on the GENESYS 5 C Tactile keyboard with audible response so you know when a key has been completely pressed C Two card slots for SoftCards (Application and Memory) to increase the test and storage capability of the instrument C Built-in RS232C and Centronics®-compatible ports to support a wide range of output devices GENESYS 2 and 5 instruments can use SoftCards. These small (2" x 4") cards are formatted by the GENESYS using the standard DOS format, making it easy to transfer data to and from the instrument. Two types of SoftCards are available — Application SoftCards and Memory SoftCards. A number of Application SoftCards are available. They contain software used for: C Scanning C Kinetics C Standard curves C Absorbance difference C Absorbance ratio C Multiple wavelength C Selected data manipulations 1-1 Setting up the Instrument The Advanced Scanning Application SoftCard is shipped with the GENESYS 2. For information about Application SoftCards, contact your distributor. Environmental and electrical requirements Memory SoftCards are used to store data files and/or test parameter files. Applications programs can be transferred from an Application SoftCard to a Memory SoftCard, enabling you to make your own customized Application SoftCards. In addition, Memory SoftCards: C Allow you to view and output data C Store programs and data and test files Your GENESYS has two card slots, labeled A and B, enabling you to have both types of cards (Application SoftCard and Memory SoftCard) in the instrument at the same time. Specifications Table 1-2 on the next page lists the specifications for the GENESYS series of spectrophotometers. Your GENESYS spectrophotometer has been designed to operate under the environmental and electrical requirements listed in Table 1-1 and meets the IEC 1010-1 international safety standard. Table 1-1 Environmental & Electrical Requirements Line voltages (separate models) 115V ± 15% at 50 ± 2 Hz and 60 ± 2 Hz, 2.2 Amp 230V ± 15% at 50 ± 2 Hz and 60 ± 2 Hz, 1.1 Amp Operating environment - The instrument meets the specifications on the previous page under the following conditions after a 30-minute warm-up period. Ambient temperature Relative humidity 50°F - 75°F 20% - 80% 75°F - 85°F 20% - 70% 85°F - 95°F 20% - 60% 95°F - 105°F 20% - 50% Storage environment -40°F to 140°F (-40°C to 60°C) - Relative humidity not to exceed 60%. Allow instrument to adjust to room temperature for 24 hours after taking it out of storage. Temperature should be maintained at ±4°F. Relative humidity should be maintained to ±5%. Altitude From below sea level to 2000 meters (6562 feet) For indoor use only Installation Category II Pollution Degree 2 1-2 Setting up the Instrument Table 1-2 Specifications for GENESYS series of spectrophotometers1, 2 Spectral slitwidth GENESYS 5 GENESYS 2 5nm 2nm Optical system Split-beam, dual detectors Wavelength: Range Accuracy Precision Display 200 to 1100nm ± 1nm ±0.5 nm (ASTM method #E275-83) Graphic, backlit monochrome LCD Graphic, backlit color LCD Display range Photometric: Readout Range Accuracy3 Noise (peak-to-peak) -3.0A to 4.0A Absorbance, % Transmittance and Concentration -0.1 A to 3.000 A; 0 to 125%T ±0.003 A from 0 to 0.3 A ±1% of reading from 0.3 to 2 A ±2% of reading from 2 A to 3 A ±0.001 A at 340nm at 0A Drift Stray Radiant Energy4 Scan Speeds Slew Speed Standard Cell Holder Standard Interfaces Dimensions Weight 1 2 3 4 ±0.0015 A at 340nm at 0A 0.002 A/hour at 340nm 0.05 %T at 220nm, 340nm and 400nm 300nm min (1pt/ nm), or 900nm/min (1pt/3nm) SLOW: up to 200nm/min (1pt/0.3nm) MEDIUM: up to 600nm/min (1pt/1nm) FAST: up to 1800nm/min (1pt/3nm) TURBO: up to 2400nm/min (1pt/6nm) 27,000nm/min (across full wavelength range) 8-position, instrument/software controlled RS232C serial and parallel printer ports 47.9 cm (18.9") width x 55.5 cm (22.3") depth x 21.0 cm (8.3") height 12.3 kg (27 lbs) These specifications are valid only after a 30-minute warm-up period and when the required environmental conditions (see previous page) are met. When working in the range of 800 to 1100nm, allow the instrument to warm up for at least an hour. Measured using NIST 930D filters 220nm, 340nm, and 400nm measurements with SPECTRONIC Standards (#333150); 220nm measurement with deuterium lamp; 340nm and 400nm measurements with tungsten-halogen lamp 1-3 Setting up the Instrument Setting up the instrument 1. Unpack the shipping carton and verify that you have received all the items listed on Table 1-3. If any item is missing, contact Customer Service . Table 1-3 Unpacking list Description Part # Zippered Binder Pocket Memory Card 336090-240 Software Registration Card File Transfer Disk 336090-260S Operator’s Manual 336001-10001 App I Manual (GENESYS 5 only) 336090-10031 Registration Card Dust Cover 336001-232 Spare Tungsten-Halogen Lamp 335401-727 Certificate of Calibration Unpacking Notice Line Cord (models 336001-000 & 336001-07) 336001-634 Line Cord (model 336001-02) 336001-635 Line cord (model 336001-04) 336001-636 2. 3. 4. Place the instrument on a flat, even surface that is: As far as possible from any strong electric or magnetic fields and from any electrical device that may generate high-frequency fields C Free of dust, corrosive gases and strong vibrations Remove any obstructions or materials that could hinder the flow of air under, behind and around the instrument. Before connecting the instrument to a power source, check the voltage label on the back panel of the spectrophotometer to determine the pre-set voltage. If the voltage shown on the label is not the same as the voltage of your power sources, DO NOT PLUG IN THE INSTRUMENT! Refer to the instructions for Changing the voltage setting in the Maintenance section. 5. Connect the female end of the power cord into the connector labeled A/C power on the back panel of the instrument (see Figure 6-3). 6. Plug the other end of the power cord into a grounded outlet with the appropriate voltage. 7. Remove the tape used to secure the cell holder during shipment. 8. If the deuterium lamp was shipped in the sample compartment, install the lamp according to the instruction sheet. 9. Ensure that the sample compartment does not contain any samples, and that the sample compartment door and the test tube access door are closed. 10. Turn on the instrument by pressing the power switch to ON (1=ON, 0=OFF; see diagram on page ix). The power-on sequence will appear on the display and the instrument will go through its selfdiagnostics. The instrument performs these diagnostics in the sequence shown: 1) RAM CHECK 2) BATTERY CHECK 3) FILTER WHEEL INITIALIZATION 4) TUNGSTEN LAMP CHECK 5) DEUTERIUM LAMP CHECK 6) LAMP ALIGNMENT 7) WAVELENGTH CALIBRATION 8) LAMP WARM UP Note: C If necessary, adjust the screen contrast using the two CONTRAST keys (on the left side of the LCD screen, see diagram on page ix) until you obtain the best contrast for your viewing angle. 11. When the power-on sequence is completed, allow the lamps to warm up for 30 minutes before taking any readings. 1-4 Setting up the Instrument Setting utility parameters Selecting the language The utility parameters should be set up after the instrument is first powered up. They include the date and time, the parameters needed to set up printers and plotters, and the language. C 1. Press the number next to Language until the name of the appropriate language appears. Note: With the Acquisition or Main Menu screen displayed, press the UTILITY key. The Utilities screen (Figure 1-1) appears on the display. From this screen, you can select the language, set the date and time and select the parameters for a printer or plotter. The instrument supports English, Spanish, French and German as the language options, but the Application SoftCards you are using may not. Setting up parameters for a printer or plotter To ensure that the GENESYS spectrophotometer can output information to a printer or plotter, you need to select the device. These devices include the internal printer as well as devices connected to either the serial port or the (parallel) Centronics-compatible port. C With the Utilities screen (Figure 1-1) displayed, press the NEXT PAGE soft key to access the printer/plotter options. A screen like the one shown in Figure 1-2 appears. Note: Figure 1-1 Utilities Set-Up screen In some languages, the utility parameters appear on different pages. Press the NEXT PAGE soft key until the appropriate parameter appears. Setting the date and time C C C C To change the day, press 5. Type in the number of the day (use the format XX; use one or two numbers; e.g., for the first day of the month, type X, for the fifteenth, type 15) and press ENTER. To change the month, press 4 until the correct month appears. To change the year, press 6. Type in the number of the year (use the format XXXX; e.g., for 2003, type 2003) and press ENTER. To change the time, press 7. Type in the time, using military format (HHMM using a 24-hour clock; H = hour, M = minutes). For example, to enter 7:30 a.m., type 0730 and press ENTER. To enter 7:30 p.m., type 1930 and press ENTER. Note: Any changes made are saved automatically (even during power down) by battery backup. Figure 1-2 C C 1-5 Utilities screen used to select printer and plotter options To select a printer, press the number next to Printer until the name of the appropriate printer appears. To select whether or not the printer should perform a formfeed when it reaches the end of a page, press the number next to Printer Page Break until the name of the appropriate selection (NONE, FORMFEED) appears. Setting up the Instrument C C To select a plotter, press the number next to Plotter until the name of the appropriate plotter appears. C Note: C For a list of printers and plotters supported by the GENESYS, refer to the Accessories section. C Press EXIT to save the selections and return to the Acquisition screen. Print to RS232 function C One of the devices you can select under Printer options is RS232. When you press PRINT with this option selected, the data is sent to the RS232C port. C Aligning the 8-Position Multi-Cell Holder To align the 8-Position Multi-Cell Holder, press the ACC key. With the Multi-Cell Holder screen (Figure 1-3) displayed, you can align the accessory. C C C With the Multi-Cell Holder screen (Figure 1-3) displayed, press the ALIGN CELLS soft key. The Cell Positions / Platform Alignment screen appears. Place the cells filled with your reference solution into the appropriate positions in the cell holder. Press the AUTO ALIGN soft key. A message appears indicating that the cell positions are being aligned. Notes: A number in a particular position indicates that the position is being aligned. A "P" in a particular position indicates that the position has been properly aligned. An "F" in a particular position indicates that the alignment has failed for that position. When the alignment is complete, press EXIT to save and return to the Multi-Cell Holder screen. If the alignment failed on any position, press MANUAL ALIGN and refer to the description in the Dictionary section for instructions. Preparing Memory SoftCards Memory SoftCards purchased with your instrument are formatted before they are shipped. However, if you purchase a SoftCard from another source, you must format it before you can use it in your instrument. Formatting a Memory SoftCard 1. 2. Figure 1-3 Setting the parameters for the 8-Position Multi-Cell Holder The ALIGN CELLS soft key function enables the instrument to position low-volume (semi-micro or ultra-micro) cells in various cell positions for optimal results. The instrument optimizes the alignment of the platform by aligning the cells in the light path for precise and accurate results. The alignment is saved when the corresponding test is saved or when the instrument is powered down. Insert the Memory SoftCard into one of the card slots on the instrument. Press the SETUP TESTS key. The Test Setup screen appears. Note: 3. 4. 1-6 The active card slot is shown in reverse video at the top right-hand corner of the screen. Press the CHANGE CARD soft key, if necessary, to select the card slot containing the Memory SoftCard as the active card slot. Press the FORMAT CARD soft key. The instrument formats the Memory SoftCard in the active card slot. Setting up the Instrument Securing tests stored on a Memory SoftCard A special security feature allows test files to be locked so they can be edited only by authorized personnel. This feature is available through TEST TYPES and through FILE OPTIONS. Passwords are required to lock and unlock the test file. Note: The password for your instrument is printed in the front of this manual. You should remove the page and store the password in a secure place. 1-7 Setting up the Instrument This page intentionally left blank. 1-8 Section 2 - Operation General operating principles Saving tests and data Once you have completed the instrument set-up procedures in the Setting up the Instrument section and allowed the instrument to warm up, you can use your GENESYS spectrophotometer. Simply select the measurement mode, enter the appropriate wavelength, put your blank and samples into the instrument and read the data displayed on the screen. When you power-down the instrument, the current test is maintained by battery back-up. This means that when you turn the instrument on again, the cell holder alignment and values for all parameters will be the same as they were when the instrument was last used. When you load a test that has been saved, the values for all parameters stored with that test will replace the current values for the test parameters. However, to take full advantage of the instrument's capabilities, you will probably want to set up some customized tests using the GENESYS software provided on SoftCards or in the WinSpec application. Refer to the appropriate manual (either the SoftCard manual or the WinSpec manual) for instructions on using the software. As you create customized tests and collect data, you will be saving both tests and data for later use. The GENESYS spectrophotometer stores information in two types of files: C Test files contain the values for all the parameters needed to run a test, including the alignment of the cell holder and the other parameters for the accessories installed. Once you select the values for the parameters, you can assign a test name and save the test. You can then restore the test and run it without having to set up the parameters again. C Data files contain the data collected when you run a test. You can view the stored data in graphical scan or kinetics or tabular form. The "default" data file contains the scan data for the last scan acquired. When you collect new scan data, the new scan is displayed and replaces the default. GENESYS software The software included with your GENESYS instrument includes programs for measuring absorbance, %transmittance and concentration and for collecting scan data. It also includes programs that allow you to perform file and program management tasks such as copying and deleting files and programs. Note: The acquisition parameters are not stored with the data files. Later in this section, you'll find more detailed descriptions of each of the standard programs: C A/%T/C program C File Manager C Program Manager C Scanning program The scanning program also includes post-processing functions that allow you to manipulate scan data. When you run the scanning program (standard on the GENESYS 2 only), you can generate data files containing multiple sets of data. The instrument saves all sets of data for each test run in a single data file. A number appears in square brackets next to the data filename indicating how many sets of data are in the data file. The descriptions include flowcharts to help you become familiar with how to move around within the software, and some step-by-step guidelines for using the software. For specific information about the options, keyboard functions and soft keys used to set up and operate your instrument, refer to the Dictionary section. For example, the data file H247P94 [6] contains six sets of scan data. These data files would be accessed individually as H247P94 (0), H247P94 (1), H247P94 (2), etc. 2-1 Operation A/%T/C program Manual A/%T/C measurements The A/%T/C program takes measurements in absorbance, transmittance or concentration mode. When you select the A/%T/C program from the Main Menu, the A/%T/C Acquisition screen (Figure 2-1) appears. Setting up manual A/%T/C measurements requires only a few steps — select the mode and wavelength, position the cell in the light path and take the measurement. Figure 2-1 To take A/%T/C measurements manually: C Select the mode for the measurement by pressing MODE: A/%T/C until the desired mode appears C Set the wavelength by pressing GOTO WL and entering the desired value C Position the cells by pressing CELL v or CELL w C Insert the blank into the current cell position C Zero the instrument by pressing AUTOZERO C Insert the sample into the current cell position C Observe the measurement on the screen or print out the result by pressing PRINT A/%T/C Acquisition screen Automatic A/%T/C measurements When you set up a test to take measurements automatically, you are not limited to single measurements — the test will run until all samples have been measured. In addition, once you have set up and saved a test, you can restore it and run it at a later time. You can take A/%T/C measurements manually or automatically. The manual method is quick and easy, but you must set the mode, wavelength, and cell position. It also limits you to single measurements. The automatic method takes a bit longer to set up, but allows you to run the same test over and over again. It also allows you to obtain multiple readings automatically. When taking measurements automatically, you can use a sample identifier (ID) to name each sample. The sample ID can be up to 10 characters (alphabetic or numeric), but it must be completely numeric if you want the ID to increment automatically as sample measurements are taken. The flowchart on the next page shows how to operate the A/%T/C program. Instead of the sample ID, you can specify a preset label to indicate the type of sample you are measuring. For example, you may use a preset label to indicate that a particular set of measurements is for a series of controls. 2-2 Operation 2-3 Operation Refer to the Dictionary section for instructions about keyboard functions, parameters, options and soft key functions. File Manager program The File Manager program allows you to access data files and application program directories, and to perform routine functions on your files, such as viewing, copying, renaming, deleting, converting to ASCII format and converting to Lotus format. Set up a new test: C Select the mode for the measurement by pressing MODE: A/%T/C until the desired mode appears C Set the sample ID by pressing SAMPLE ID and entering the identifier or preset label (optional) C Set up cell holders and blank location by pressing ACC (optional) - Turn ON Auto Increment if you want the instrument to advance the cell holder automatically after each measurement - Specify which cell positions are empty and which contain samples - Specify the location of the blank - Select Serial or Parallel data collection - Turn ON Automatic Initiation of Multi-Cell Holder if desired C Set up the following test parameters by pressing SETUP TEST (optional): - Test name - Name of file to contain the test data - Analytical wavelength - Number of samples - Initial delay - High and low limits for test results - AutoPrint function - AutoSave function C Save the test by pressing SAVE TEST and entering a test name (optional) Using the File Manager Program, you can: C Copy a directory and its contents from one SoftCard to a second SoftCard (DIRECTORY OPTIONS) C View the directories on both SoftCards C View the files (test or data) in a specific directory C View the contents of a file (test or data) C Delete files (DELETE, DELETE ALL) C Rename files (RENAME) C Copy files (COPY, COPY ALL) C Convert files (single or multiple) to ASCII or Lotus® format (CONVERSION OPTIONS) C Transfer files (single or multiple) to an IBM™-compatible personal computer (PC) in ASCII or Lotus format (CONVERSION OPTIONS) The flowchart on the next page shows how to operate the File Manager program. OR Restore a test: C Press TEST TYPES to display the TEST TYPES screen C Press the number next to the name of the test you want restored THEN Run the test: C Make sure you have the test parameters set or you have restored the appropriate test C Load your blank and samples into the cell holder according to the cell assignments C Run the test by pressing MEASURE. Remember that when you run a test, the instrument runs the entire test automatically. You can press STOP TEST to interrupt the test at any time. 2-4 Operation 2-5 Operation The available formats are: C ASCII format - suitable for importing into a word processing program C Lotus format - suitable for importing into a spreadsheet program When you select File Manager from the Main Menu, a screen like the one shown in Figure 2-2 appears. Figure 2-2 To transfer a file to an IBM-compatible PC: • The file transfer program must be installed on the PC. To install the program, copy the genxfer.exe file from the File Transfer Program diskette (shipped with instrument) to one of the hard drives on the PC. Example: C:\>copy b:\genxfer.exe c:\ • The spectrophotometer is connected to a serial (RS232C) port on the PC as described in the RS232C Interface section. The program defaults to COM1: as the port being used. File Manager screen In the upper-right corner of this screen, the active SoftCard is identified in reverse video. The screen also displays the space available on the active SoftCard. In addition, the RS232C parameters set using UTILITY must be identical to those on the PC. If they are not, the File Transfer Program will not function. From this screen you can also display the contents of a file. When you select a directory, a screen appears listing all the files in that directory. When you select a specific file, a screen appears listing the contents of that file: C Test files contain a list of all the parameters and their values C Data files contain all the data obtained during a test GENESYS instruments and the File Transfer Program use the YMODEM file transfer protocol to communicate. The File Transfer Program defaults to the following RS232C parameters: C Baud rate = 9600 C Parity = NONE C Port = COM1 To transfer a file from the instrument to your PC using the default parameter settings, make sure that: C The RS232C parameters on the instrument (Utility screen) are set as follows: - Baud rate = 9600 - Parity = NONE Refer to the Dictionary section for instructions about keyboard functions, parameters, options and soft key functions. Transferring files in ASCII or Lotus format If you need to override these defaults, you can use the following command line options: -pe parity = EVEN -po parity = ODD -pn parity = NONE (default) The file transfer function allows you to transfer test and data files from Memory SoftCards installed in a GENESYS spectrophotometer to an IBM-compatible personal computer. You may transfer a single file or all the files in a selected directory. 2-6 -b300 -b1200 -b2400 -b4800 -b9600 baud rate = 300 baud rate = 1200 baud rate = 2400 baud rate = 4800 baud rate = 9600 (default) -c1 port = COM1 (default) Operation -c2 -c3 -c4 port = COM2 port = COM3 port = COM4 To transfer all the files in a selected directory: 1. On your PC, change to the directory containing the genxfer.exe file and type genxfer.exe to run the File Transfer Program. 2. With the File Manager screen (Figure 2-2) displayed on the screen of your instrument, press DIRECTORY OPTIONS. A screen appears listing the available directories. 3. Press the number of the directory containing the files you want to transfer. For example, to transfer all the files in the ABS/%T/CONC directory shown in Figure 2-3, press 1. A screen appears listing the names of the available files. 4. Press FILE OPTIONS. A screen appears listing the options. 5. Press the number corresponding to the format you want used for the transfer. All the files in the selected directory will be transferred in the selected format and will appear in the current PC directory. For example, entering the command line genxfer.exe -pe -b2400 -c2 sets the parity to EVEN, the baud rate to 2400 and the port to COM2. To transfer a single file: 1. On your PC, change to the directory containing the genxfer.exe file and type genxfer.exe to run the File Transfer Program. 2. With the File Manager screen (Figure 2-2) displayed on the screen of your instrument, press the number of the directory containing the file you want to transfer. For example, to transfer files in the ABS/%T/CONC directory, press 1. A screen appears listing the names of the available files. 3. Press the number of the file you want transferred. A screen appears listing the contents of the file. 4. Press CONVERSION OPTIONS. A screen appears listing the conversion options. 5. Press the number corresponding to the format you want used for the transfer. The selected file will be transferred in the selected format and will appear in the current PC directory. Note: Files transferred in ASCII format will be given the extension .asc and those in Lotus format will be given the extension .lts. A message will appear on the screen of the instrument indicating that the transfer is complete. Note: Files transferred in ASCII format will be given the extension .asc and those in Lotus format will be given the extension .lts. Program Manager program A message will appear on the screen of the instrument indicating that the transfer is complete. The Program Manager allows you to install or remove an application program from a Memory SoftCard. This allows you to customize your Memory SoftCards. For example, you may install the Survey Scan program on a Memory SoftCard and also store subsequent scans on the same Memory SoftCard. The flowchart on the next page shows how to operate the Program Manager program. 2-7 Operation 2-8 Operation Advanced Scanning program When you select Program Manager from the Main Menu, a screen like the one shown in Figure 2-3 appears. (GENESYS 2 only) The scanning program obtains a spectrum for a sample in absorbance, transmittance, or derivative (first, second or fourth) mode. Some models of the GENESYS 2 are shipped with the scanning program pre-loaded, so the scanning program appears on the Main Menu when you start up the instrument. A Memory SoftCard must be inserted into slot A or B to run the scanning program. Figure 2-3 If you received a Scanning Application SoftCard with your GENESYS 2 spectrophotometer, insert the card into slot A at the front of the instrument and a Memory SoftCard into slot B. When you turn on the instrument, the scanning program appears on the Main Menu. Program Manager screen In the upper-right corner of the Program Manager screen, the active SoftCard is highlighted in reverse video. The screen also displays the available space on the active SoftCard. When you select the scanning program from the Main Menu, the Scanning screen (Figure 2-4) appears. The Program Manager screen is split to display the contents (application programs) of both SoftCards installed in the instrument. Notes: C The list includes names of application programs only. C The NEXT PAGE soft key appears when all the application programs will not fit on one screen. Press NEXT PAGE to view any additional pages. Figure 2-4 Scanning main screen The flowchart on the next page shows how to operate the Scanning program. 2-9 Operation 2 - 10 Operation Refer to the Dictionary section for instructions about keyboard functions, parameters, options and soft key functions. Collecting scan data Set up a new test: C Set up cell holders and blank location by pressing ACC - Turn ON Auto Increment if you want the instrument to advance the cell holder automatically after each measurement - Specify which cell positions are empty and which contain samples - Specify the location of the blank - Select Serial or Parallel data collection - Turn ON Automatic Initiation of Multi-Cell Holder if desired C Set up the following test parameters by pressing SETUP TEST (optional) - Test name - Name of file to contain the test data - Start and stop wavelengths for the scan - Scan speed - Measurement mode (absorbance or %transmittance) - Derivative scan (first, second, fourth) - Smoothing (low, medium, high) - AutoPrint function - Repeat scans - Overlay scans Processing scan data Once you have collected data, you can display it on the screen and process it in several ways: C Change the way the data is displayed (DISPLAY FUNCTIONS): - Label a curve with measurements at peaks and valleys C Perform scaling functions (SCALE FUNCTIONS): - Manually or automatically scale displayed data by changing the scale of the X- and Y-axes - Use a cursor to obtain the absorbance value for a selected point on a displayed curve C Perform mathematical manipulations (MATH FUNCTIONS): - Switch between absorbance and %transmittance modes by pressing MODE: A/%T - Calculate first, second or fourth derivative of an absorbance scan - Addition/ subtraction of a constant or another scan, multiplication by a constant) - Determine 3-point net absorbance for a displayed curve - Calculate area under a displayed curve OR Restore a test: C Press TEST TYPES to display the TEST TYPES These functions are all accessed through the POST PROCESS soft key that appears on the Scanning main screen. screen C Press the number next to the name of the test you want restored Note: The POST PROCESS functions are available only when data is displayed on the screen. Only the active scan (the scan displayed in white) will be processed. THEN Collect the scan data: C Make sure you have the test parameters set or you have restored the appropriate test Once a post-processing operation has been performed, you can print or save the data. If you exit, the post-processed data will be erased. C Load your blank and samples into the cell holder according to the cell assignments C Collect a baseline scan by pressing COLLECT BASELINE C Collect scan data by pressing SCAN 2 - 11 Operation You can also save scan data, load previously saved data files and unload data files (FILE OPTIONS). When you press POST PROCESS, a screen like the one shown in Figure 2-5 appears. Refer to the Dictionary section for instructions about keyboard functions, parameters, options and soft key functions. Figure 2-5 POST PROCESS screen 2 - 12 Section 3 - Dictionary of Parameters, Keyboard Functions and Soft Keys This section contains definitions, descriptions, instructions and limits for each parameter, keyboard function and soft key function available on the GENESYS 2 and 5 spectrophotometers. The descriptions also include specific symbols to identify which keys are found on the keyboard and which are soft keys: The entries in this section are arranged alphabetically to help you find what you are looking for quickly and easily. Keyboard key Soft key All other entries are parameters or options on menus. 3-1 Dictionary ACC ADD/SUBTRACT A CONSTANT Sets parameters (e.g., auto increment, temperature) used to control the automated accessory installed in the instrument. Allows you to add a constant to, or subtract a constant from, the scan data displayed on the screen. C Press ACC to list the parameters available for C Select ADD/SUBTRACT A CONSTANT to whatever accessory is installed. enter the constant you want added to or subtracted from the scan data displayed on the screen. The instrument calculates the sum or difference and plots the data on the screen. Limits: -999.9 to +999.9 ADD Allows you to create concentration units. C Press ADD to display the UNITS SELECTION ALIGN CELLS Input screen. Use the arrow soft keys to move the cursor around the screen to highlight the desired character, then press ENTER. C When you have selected all the characters, press EXIT. Enables the instrument to align low-volume (semi-micro or ultra-micro) cells in the light path for precise and accurate results. The alignment is saved when the corresponding test is saved and when the instrument is powered down. Note: C Press ALIGN CELLS to display the CELL C A maximum of 10 characters may be selected. POSITIONS / PLATFORM ALIGNMENT screen. C Select either the automatic or manual alignment procedure. Refer to AUTO ALIGN (page 3-4) or MANUAL ALIGN (page 3-13) for instructions. ADD A SCAN Allows you to add data from a selected scan to the scan data displayed on the screen. C Select ADD A SCAN to list the data files stored on the active card ALIGN LAMP C Select the data file containing the data to be Aligns the tungsten lamp after it has been replaced. Refer to the Maintenance section for specific instructions on aligning the tungsten lamp. added to the scan data displayed on the screen. The instrument sums the data and plots the summed data on the screen. 3-2 Dictionary AREA UNDER CURVE Notes: C As you move the cursor line, the current wavelength and data value at that position are displayed below the X-axis. C If you wish to multiply the calculated area under the curve by a factor, press FACTOR, type in its value and press ENTER. The factor appears on the screen. C If you wish to switch to the other calculation method (tangent or baseline), press TANGENT/BASELINE and select the wavelengths for the calculation. Determines the area under a curve defined by two wavelengths. The area can be calculated using either the "baseline" method or the "tangent" method. Figure 3-2 shows the two methods. When using the "baseline" method, the calculated area is Area A+B in Figure 3-2; when using the "tangent" method, the calculated area is Area A only. C Press AREA UNDER CURVE to display a cursor line to help you select the wavelengths for the calculation. C Press the 6 soft key to move the cursor line to the first wavelength or use the numeric keypad to type the wavelength, then press ENTER to select the first wavelength. C Repeat for the second wavelength. The calculated area under the curve, the baseline for the selected curve appear on the screen and the type of calculation used (baseline or tangent method) appear on the screen. Figure 3-1 Figure 3-2 Area under a curve screen with calculation Baseline and tangent methods for calculating area under a curve 3-3 Dictionary ASSIGN CELL POSITIONS AUTO INCREMENT Assigns cell positions as either SAMPLE or EMPTY. When ON, the instrument automatically moves the 8-Position Multi-Cell Holder to the next position after a measurement is taken. The 8-Position Multi-Cell Holder provides eight positions. However, you may install other types of cell holders on the platform. For example, if you have replaced the Multi-Cell Holder with three longpath cell holders (installed on the Cell Holder Platform) in positions 3, 5 and 7, you would designate these as SAMPLE positions. Notes: Ensure that Auto Increment is set correctly for single or multiple sample measuring: C To acquire multiple readings on a single sample, set Auto Increment to OFF. C To acquire a single reading on up to eight samples, set Auto Increment to ON. C Press ASSIGN CELL POSITIONS to list each cell position and its current assignment. C Press the number of the cell position you want to assign until the setting you want (SAMPLE or EMPTY) is displayed C Continue until you have assigned all the appropriate cell positions. C Press EXIT to save all cell position assignments automatically. AUTO SCALE Instructs the instrument to replot the graph using all the data. AUTO ZERO Sets the instrument to 0.0A or 100%T. Note: C The blank position can only be changed from the Multi-Cell Holder screen, not from the Assign Cell Positions screen. Notes: C If a blank position (1 to 8) is selected and AUTO ZERO is pressed, the cell positioner moves to the blank position and sets 0.0A (100%T). C If no blank position (NONE) is selected and AUTO ZERO is pressed, the instrument sets 0.0A (100%T) on the cell position currently in the light beam. AUTO ALIGN Automatically aligns the cells in the light path for precise and accurate results. The alignment is saved when the corresponding test is saved or when the instrument is powered down. C Press ALIGN CELLS to display the Cell AUTOMATIC INITIATION OF MULTI-CELL HOLDER Positions / Platform Alignment screen. C Place the cells into the appropriate positions in the cell holder and press AUTO ALIGN. A message appears, indicating that the cell positions are being aligned: - A number in a particular position indicates that the position is being aligned. - A "P" in a particular position indicates that the position has been properly aligned. - An "F" in a particular position indicates that the alignment has failed for that position. - If the alignment failed on any position, perform a manual alignment (see MANUAL ALIGN on page 3-13). When ON, the instrument automatically repositions the instrument platform at the "home" position each time MEASURE is pressed. When OFF, the platform will be repositioned at the "home" position only when INITIATE PLATFORM is pressed. This operation is required when the cell holder has been moved out of alignment while loading samples or sample holders. 3-4 Dictionary CELL w AUTOPRINT When ON, prints data automatically after data collection. Decrements the Multi-Cell Holder one position. C Press CELL w until the desired cell position is in Note: C A printer must be installed for AutoPrint to function. the light path. Note: C If the holder is in position #1, it will advance to position #8. AUTOSAVE DATA Instructs the instrument to save data automatically after collection. If you want data saved automatically, you must insert a formatted Memory SoftCard in either card slot A or B. CELL ASSIGNMENT Displays the current cell assignments (SAMPLE, EMPTY) for a stored test. C Press AUTOSAVE DATA until the desired setting (OFF, CARD A, CARD B) is displayed. CHANGE Changes the concentration units. BLANK POSITION Selects the cell position of the blank. You may select one blank position (or none). Limits: NONE, 1 to 8 C Press CHANGE to list the current concentration C Press BLANK POSITION until the appropriate C Press ENTER. The UNITS SELECTION units. C Press the number corresponding to the units to be changed. Input screen appears. cell position is displayed. C Use the arrow soft keys to move the cursor around the screen to highlight the desired character, then press ENTER. C When you have selected all the characters, press EXIT. CANCEL Cancels a selected operation. This soft key function appears if an error occurs while performing an operation. Notes: C A maximum of 10 characters may be selected. C You may also use the numeric keypad to enter C Press CANCEL to cancel the operation. numbers. C If you make a mistake, press CLEAR to remove CELL v one character at a time. Increments the Multi-Cell Holder one position. CHANGE CARD C Press CELL v until the desired cell position is in Switches between CARD A and CARD B. The active card is shown in reverse video at the top of the screen. Note: C Press CHANGE CARD to activate the other the light path. C If the holder is in position #8, it will advance to SoftCard. For example, if the active SoftCard is in card slot B, pressing CHANGE CARD would change the active SoftCard to the one installed in card slot A. position #1. 3-5 Dictionary CLEAR CONTRAST Clears the numeric or alphanumeric entry field, one character at a time. Two keys control the contrast of the display. C Press CLEAR until the desired characters are C Press the top CONTRAST key to lighten the display. deleted. C Press bottom CONTRAST key to darken the display. COLLECT BASELINE Collects a baseline over the specified wavelength range of a scan. CONVERSION OPTIONS Allows you to convert GENESYS test and data files to either ASCII or Lotus format. To ensure that scan data is corrected for optical and solvent variations across a range of wavelengths, the instrument requires a valid baseline. C Press CONVERSION OPTIONS to list the available conversion options. C Press the number corresponding to the type of Whenever you change the test setup or load a different test, the instrument checks the start and stop wavelength values and the scan speed. If the scan speed is lower than the previous setting or if either wavelength value is outside the range of the current scanning baseline, the message "New Baseline Required" appears. When the instrument has collected the baseline data, the date and time when the baseline was collected are displayed on the screen. conversion you want done on the file. When the file has been converted, the message "Operation successful" appears on the screen. CONVERT ALL Converts all selected files to the selected format (ASCII or Lotus) at one time. CONVERT TO ASCII FORMAT C Ensure that the start and stop wavelengths match Converts selected file(s) to ASCII format (suitable for importing into a word processing program). those of the test you want to run, load your blank in the blank position of the cell holder and close the cover of the sample compartment. C Press COLLECT BASELINE. When the instrument has collected the baseline data, the date and time when the baseline was collected are displayed on the screen. C Select CONVERT TO ASCII FORMAT to display a list of files. C Press the number corresponding to the file you want converted. The file is converted to ASCII format. C Press ENTER. C Press EXIT. Notes: C Make sure that the appropriate lamp is turned ON (use UTILITY to turn lamps ON and OFF). If a lamp is turned OFF but is needed for the selected wavelength range, the message "Setting lamp state. . ." is displayed and the instrument automatically turns ON the lamp. C Be sure to select the BLANK position using the ACC key. If no blank position is defined, the baseline will be collected for the current position. 3-6 Dictionary CONVERT TO LOTUS FORMAT CURSOR Converts selected file(s) to Lotus format (suitable for importing into a spreadsheet program). Provides a cursor line to select wavelengths and data values on a displayed scan. C Select CONVERT TO LOTUS FORMAT to C Press CURSOR to display a vertical line and to identify the two arrow soft keys. display a list of files. C Press the number corresponding to the file you want converted. The file is converted to Lotus format. C Press ENTER. C Press EXIT. C Use the left and right arrow soft keys to move the cursor. The current wavelength and data value are displayed below the X-axis. DATA COLLECTION TYPE Specifies the type of data collection for the measurement: C Serial - The blank is measured once, then each sample is measured C Parallel - The blank is measured immediately before each sample is measured COPY ALL Copies all the directories on one SoftCard or all the files in a selected directory to another SoftCard at one time. C Press the number next to Data Collection Type until the desired selection is displayed. COPY DIRECTORY Copies a selected directory on one SoftCard to another SoftCard. Note: C If the blank position is set to NONE, only SERIAL data collection is allowed. C Press the number corresponding to the directory you want copied. DATA FILENAME C Press COPY DIRECTORY. Allows entry of a data filename. The filename will be used when the AutoSave function is ON. COPY TO OTHER CARD C Press DATA FILENAME to display the DATA Copies selected file(s) on one SoftCard to another SoftCard. FILENAME Input screen. C Use the arrow soft keys to highlight the first character to be used for the data filename and press ENTER to select it. C Continue until you have selected all the characters for the data filename, then press EXIT. C Select COPY TO OTHER CARD to display a list of files. C Press the number corresponding to the file you want copied. The file is copied to the other SoftCard. C Press ENTER. C Press EXIT. Notes: C A maximum of eight characters is allowed for the filename. C A Memory SoftCard must be inserted in a card slot for the AutoSave Data function to be operational. C You may also use the numeric keypad to enter numbers. C If you make a mistake, press CLEAR to remove one character at a time. 3-7 Dictionary DATA MODE: ABS/%T DELETE Switches between absorbance and transmittance modes for scan data displayed on the screen. Deletes a selected item from a list. C Press DELETE to display the list. C Press the number corresponding to the item to be C Press DATA MODE: ABS/%T until the desired selection is displayed. deleted. C Press ENTER to verify that you want the selected item deleted. C If the selection is not the one you want deleted, DATE, DAY press EXIT. When the item has been deleted, an updated list appears on the screen. Selects a numerical day of the month. C Press the number next to Date, Day. C Enter the desired date. C Press EXIT. DELETE ALL Deletes all the directories on one SoftCard or all the files in a selected directory at one time. Note: C Use the format X or XX; e.g., for the first day of the month, type 1; for the fifteenth, type 15 DELETE DIRECTORY Deletes a selected directory from a Memory SoftCard. DATE, MONTH Selects the month of the year. C Press the number corresponding to the directory C Press the number next to Date, Month until the you want deleted. C Press DELETE DIRECTORY. desired month is displayed. DELETE TEST DATE, YEAR Selects the year. Deletes a selected test. C Press the number next to Date, Year. C Enter the desired year. C Press EXIT. C Press DELETE to display a list of the tests. C Press the number corresponding to the test to be deleted. C Press ENTER to verify that you want the selected test deleted. Note: C If the selection is not the one you want deleted, C Use the format XXXX; e.g., for 2003, type 2003 C If you make a mistake, press CLEAR to remove press EXIT. When the test has been deleted, an updated list appears on the screen. one character at a time. 3-8 Dictionary DERIVATIVE FACTOR Collects a real-time derivative scan. Limits: FIRST, SECOND, FOURTH, OFF Multiplies the calculated three point net absorbance by a factor. C Press the number next to Derivative until the C Press FACTOR. C Enter the desired value. C Press ENTER. The factor appears on the screen. desired derivative is displayed. DEUTERIUM LAMP FILE OPTIONS Turns the deuterium lamp on or off. Copies, deletes, renames or locks and unlocks selected files. Note: C A BUSY label indicates that the lamp is needed based on the current wavelength setting. C Press FILE OPTIONS to list the file options. C Select the function you want to perform and follow the instructions on the screen. DIRECTORY OPTIONS Copies or deletes selected directories at one time. FIRST DERIVATIVE C Press DIRECTORY OPTIONS to list your Determines the first derivative of the scan data displayed on the screen. options. C Select the function you want to perform and follow the instructions on the screen. C Select FIRST DERIVATIVE. The instrument calculates the derivative and plots the data on the screen. DISPLAY FUNCTIONS Accesses labeling and sensitivity parameters for peaks and valleys in the data. FORMAT CARD Formats a Memory SoftCard. C Press DISPLAY FUNCTIONS to list your C Press FORMAT CARD. A message appears options. C Select the parameter you want to define and warning you that formatting a card will destroy its contents. C Press ENTER to the Memory SoftCard in the active card slot. follow the instructions on the screen. ENTER Notes: C Memory SoftCards must be formatted before they can be used to store information. C The Memory SoftCard to be formatted must be inserted into one of the card slots and must be the active card. C The active card is identified in reverse video in the top right-hand corner of the screen. Press CHANGE CARD to switch the active card if necessary. Accepts the highlighted item. EXIT Exits the screen currently displayed and accepts any changes made. 3-9 Dictionary FOURTH DERIVATIVE HIGH SMOOTHING Determines the fourth derivative of the scan data displayed on the screen. Removes the effects of noise from the data displayed on the screen. C Select FOURTH DERIVATIVE. The C Select HIGH SMOOTHING. The instrument instrument calculates the derivative and plots the data on the screen. smooths the data over each 12 nm interval (using moving boxcar averaging) and displays the smoothed data plot on the screen. GOTO WL INITIATE PLATFORM Sets the analytical wavelength. Limits: 200.0 to 1100.0 Either: C Press GOTO WL and enter the desired analytical wavelength. C Press ENTER. Or: C Enter the desired analytical wavelength and press GOTO WL. Resets the platform to the "home" position. You can use this whenever the position of the platform is in question. Note: C The "platform" is the plate on which the 8-Position Multi-Cell Holder is mounted. INITIATE RS232C HI Activates the RS232C port. It also deactivates the LCD screen and the keyboard of the GENESYS spectrophotometer so that you can use an external computer to control the instrument. The RS232C section of this manual contains more specific information about the RS232C interface. Indicates that the result is above the specified High Limit. HIGH LIMIT Enters a value indicating the highest acceptable result. Limits: -9999 to 9999 C Press INITIATE RS232C. A screen appears listing the settings for the RS232C parameters, along with the message "RS232C port activated." C Select High Limit and enter the desired value. C Press ENTER. C Press EXIT. Note: C Press EXIT at any time to return to the Main Menu. Note: C If the measured test value is above the specified limit, the message HI is displayed next to the measured value. 3 - 10 Dictionary INSTALL PROGRAM Note: C If you set the interval time too low for the Installs an application program onto a Memory SoftCard. instrument to complete its measurement, a warning message will appear while the test is running stating that the interval time has been exceeded. The instrument will collect data as fast as possible, exceeding the total run time if necessary to measure the requested number of samples. C Select INSTALL PROGRAM to enter the number of the application program you want to install. When the instrument has installed the selected program, the name of the program appears in the list of application programs. For example, Figure 3-3 shows that the ADVANCED KINETICS program was installed on card B. LABEL PEAKS When ON, the calculated peaks (maxima) of scan data will be displayed. Both the wavelength value and the measurement data (either absorbance or %transmittance) will appear on the data screen. Limits: ON, OFF LABEL VALLEYS When ON, the calculated valleys (minima) of scan data will be displayed. Both the wavelength value and the measurement data (either absorbance or %transmittance) will appear on the data screen. Limits: ON, OFF Figure 3-4 Program Manager screen showing that ADVANCED KINETICS program was installed on card B LAMP INTERCHANGE WL Specifies the wavelength at which the source lamp changes between the tungsten-halogen lamp and the deuterium lamp. Limits: 320 - 360nm Note: C The application program that you want to install on a Memory SoftCard must be on the active SoftCard. Use the CHANGE CARD soft key to activate the Program SoftCard, if necessary. The application programs on the card will be numbered. C Select Lamp Interchange WL and enter the desired value. C Press ENTER. C Press EXIT. Note: C To optimize the data, select a wavelength at INTERVAL TIME (seconds) some distance from the analytical wavelength of the solution you are measuring. Specifies the length of time between repeat scans (from the beginning of one scan to the beginning of the next scan). Limits: 0.1 to 999.0 seconds C Press the number next to Interval Time and enter the desired value. C Press ENTER. C Press EXIT. 3 - 11 Dictionary LOCK ALL LANGUAGE Locks all the files listed in a selected directory at one time. Selects the language to be used for the screen displays. C Press the number next to Language until the LOW LIMIT name of the appropriate language appears. Enters a value indicating the lowest acceptable result. Limits: -9999 to 9999 Note: C The instrument supports English, Spanish, French and German as the language options, but the Application SoftCards you are using may not. C Select Low Limit and enter the desired value. C Press ENTER. C Press EXIT. LO Indicates that the result is below the specified Low Limit. Note: C If the measured test value is below the specified limit, the message LO is displayed next to the measured value. LOCK / UNLOCK "Locks" a test so it can be modified only by someone with the appropriate password. A "key" pictogram appears next to the name of each locked test to indicate that a password is required to modify the test. LOW SMOOTHING Removes the effects of noise from the data displayed on the screen. C Select LOW SMOOTHING and the instrument C Press LOCK / UNLOCK. A screen appears smooths the data over each 3 nm interval (using moving boxcar averaging) and displays the smoothed data plot on the screen. prompting you to enter the password. C Type the appropriate password and press ENTER. C Press the number corresponding to the test to be locked (or unlocked). The test will be locked (or unlocked). MAIN MENU Returns you to the GENESYS Main Menu screen, listing the programs available on your instrument. Note: C The test in current memory cannot be locked. Only tests that are stored on Memory SoftCards can be locked or unlocked. 3 - 12 Dictionary MANUAL ALIGN C C C C C C C MATH FUNCTIONS Aligns the cell positions manually. The following conditions require manual alignment to ensure proper positioning of the cells in the light beam: When only some of the cell positions are defined as SAMPLE When an automatic alignment fails on any position Press ALIGN CELLS to display the Cell Positions / Platform Alignment screen. Place the cells into the appropriate positions in the cell holder Press MANUAL ALIGN to display the Manual Platform Alignment screen. Use the 8 and 9 arrow soft keys to select the cell position to be aligned and the 7 and 6 arrow soft keys to align the selected position. When the maximum value is displayed (number to the right of the cell positions on the screen), press ENTER. The maximum value indicates that the cell holder is at the optimum position in the light beam. Performs selected mathematical manipulations on scan data displayed on the screen. The manipulations available include adding/subtracting a constant, adding/subtracting a scan, taking derivatives, smoothing a curve, determining three-point net absorbance for a selected curve and calculating the area under a selected curve. C Press MATH FUNCTIONS to list the mathematical manipulations available. C Select the function you want to perform and follow the instructions on the screen. MAX X VALUE Specifies the maximum value for the X-axis when you are manually scaling scan data. Note: C The limit for the maximum value is 1100 nm. MAX Y VALUE Note: C When ENTER is pressed, a "P" should appear in the box for the aligned cell position. If an "F" appears, the cell holder was not at the maximum when ENTER was pressed. This means that the manual alignment must be repeated on that position. Specifies the maximum value for the Y-axis when you are manually scaling scan data. Note: C The limit for the maximum value is determined by the instrument display range (4A or 200%T). MANUAL SCALE MEASURE Allows you to select a different scale for scan data displayed on the screen. Begins measuring the sample or standard solution in the cell. C Press MANUAL SCALE to list the maximum Notes: C Be sure to load your samples in the cell holder and to close the cover of the sample compartment before pressing MEASURE. C Verify that the accessory parameters (Auto Increment, Data Collection Type, Auto Initiation, Blank Position) are set correctly before pressing MEASURE. Press ACC to access these parameters. and minimum for both the X- and Y-axes. C Select the maximum or minimum you want to modify and follow the instructions on the screen. Note: C The limits for the maximum and minimum values are determined by the range of values of the instrument. 3 - 13 Dictionary MEASUREMENT MODE MULTIPLY A CONSTANT Specifies whether measurements will be in absorbance or %transmittance. Limits: ABS, %T Multiplies the scan data displayed on the screen by a constant. Limits: -999.9 to +999.9 C Select MULTIPLY A CONSTANT to enter the MEDIUM SMOOTHING constant by which you want to multiply the scan data displayed on the screen. When you enter the constant, the instrument calculates the product and plots the data on the screen. Removes the effects of noise from the data displayed on the screen. When you select MEDIUM SMOOTHING, the instrument smooths the data over each 6 nm interval (using moving baxcar averaging) and displays the smoothed data plot on the screen. NEXT PAGE Displays the next screenful of a list or other information. MIN X VALUE Specifies the minimum value for the X-axis when you are manually scaling scan data. Limit: 200nm NUMBER KEYS These keys are used to enter numerical values and to select numbered menu options. MIN Y VALUE Specifies the minimum value for the Y-axis when you are manually scaling scan data. Limit: -3.0A, 0%T NUMBER OF SAMPLES Sets the number of samples that will be measured. When the value of this option is greater than one, the instrument automatically positions the cell holder and measures the specified number of samples. When the 8-Position Multi-Cell Holder is installed, one to eight samples may be measured at one time. MINUS (-) Toggles numerical values between positive and negative. MODE: A/%T/C C Press the number next to Number of Samples and enter the desired value. Selects the test mode (absorbance [A], % transmittance [%T] or concentration [C]). C Press EXIT. Note: C When concentration mode is selected, the factor and the concentration units (if selected) are also displayed. The factor (1 / ab) is the inverse of the slope of the standard curve. If no units have been selected, a "C" appears next to the concentration value. Notes: C The limits for the maximum and minimum values are determined by the type of accessory installed. The number of samples may be up to the number of cell positions for the accessory. For example, the Thermoelectric Flowcell has one cell position available, the Thermoelectric Cuvette Holder has two. C Ensure that the Number of Samples is greater than one and that AutoIncrement is ON for multiple measurements. 3 - 14 Dictionary OPTIMIZE ENERGY POST PROCESS Runs an energy scan of both lamps. You should run an energy scan each time you install a new deuterium or tungsten-halogen lamp. Refer to the Maintenance section for specific instructions on running an energy scan. C C C C OVERLAY SCANS Accesses data manipulation and processing functions available for scan data. The functions available include: SELECT DATA DISPLAY FUNCTIONS SCALE FUNCTIONS MATH FUNCTIONS C Press POST PROCESS to display the When ON, subsequent scans will be displayed on the same set of axes. Scans are displayed in different colors, with the current scan displayed in white. post-processing soft keys at the bottom of the screen. C Select the function you want to perform and follow the instructions on the screen. PARALLEL PRINT Method of data collection in which the blank is measured immediately before each sample is measured. Sends screen information or test results to the selected printer (internal or external to the instrument). PEAK SENSITIVITY PRINTER Sets a threshold to indicate where a peak occurs in scan data. Limits: 0.001 to 3.000 Selects the internal printer or an external printer connected to the Centronics-compatible port. Limits: NONE, INTERNAL, IBM PROPRINTER II, IBM PROPRINTER III, EPSON FX-850, HP LASERJET, IBM PROPRINTER II (High Resolution), IBM PROPRINTER III (High Resolution), EPSON FX-850 (High Resolution), HP LASERJET (High Resolution), HP LASERJET (HPGL), RS232 PERIOD Enters a decimal point for numerical values. PLOTTER Selects the external plotter on the RS232C (serial) port. Limits: NONE, HP LASERJET, HPGL PLOTTER C Press the number next to Printer until the desired selection appears. C Press the number next to Plotter until the desired C Press EXIT. selection appears. C Press EXIT. 3 - 15 Dictionary PRINTER PAGE BREAK RENAME Specifies whether or not the printer should perform a formfeed when it reaches the end of a page. (60 lines = 1 page) Limits: NONE, FORMFEED Renames a stored test or data file. C Select RENAME to select the file you want to rename. A screen appears prompting you to enter the new filename. C Use the arrow soft keys to highlight the first character to be used for the filename and press ENTER to select it. C Continue until you have selected all the characters for the data filename, then press EXIT. C Press the number next to Printer Page Break until the desired selection appears. C Press EXIT. Notes: C When using the internal printer, you should set Printer Page Break to NONE. C When using an external printer, you may want to Notes: set Printer Page Break to FORMFEED. C You may also use the numeric keypad to enter numbers. C If you make a mistake, press CLEAR to remove PROGRAM OPTIONS one character at a time. Allows you to install a program, remove a program and check the revision of an application program. RETRY C Press PROGRAM OPTIONS to list the Retries a selected operation. This soft key function appears if an error occurs while performing an operation. program options available. C Select the function you want to perform and follow the instructions on the screen. C Press RETRY to try the operation again. REMOVE PROGRAM Removes an application program from a Memory SoftCard. RS232C BAUD RATE Specifies the speed at which the instrument will transmit data. Limits: 300, 1200, 2400, 4800, 9600 C Select REMOVE PROGRAM and enter the number of the application program you want to remove. When the instrument has removed the selected program, the name of the program is removed from the list of application programs. C Press the number next to RS232C Baud Rate until the desired value appears. C Press EXIT. Note: C The application program that you want to remove on a Memory SoftCard must be on the active SoftCard. Use the CHANGE CARD soft key to select the correct SoftCard, if necessary. The application programs on the card will be numbered. RS232C DATA BITS Specifies the number of data bits for the RS232C interface. Limits: 7 or 8 C Press the number next to RS232C Data Bits until the desired value appears. C Press EXIT. 3 - 16 Dictionary RS232C PARITY SAVE DATA Specifies the parity for the RS232C interface. Limits: NONE, EVEN, ODD Saves scan data to a Memory SoftCard. C Press SAVE DATA to display the DATA C Press the number next to RS232C Parity until FILENAME Input screen. C Use the arrow soft keys to highlight the first the desired value appears. C Press EXIT. character to be used for the data filename and press ENTER to select it. C Continue until you have selected all the characters for the data filename, then press EXIT. The instrument saves the data to the Memory SoftCard installed in the card slot. RS232C TERMINATOR Specifies the terminator for the RS232C interface. Limits: CR, LF, CRLF Notes: C You may also use the numeric keypad to enter numbers. C If you make a mistake, press CLEAR to remove one character at a time. C Press the number next to RS232C Terminator until the desired value appears. C Press EXIT. SAMPLE ID Changes or enters a new alphanumeric sample identifier. SAVE TEST Saves a test to a Memory SoftCard that has been formatted. Accessory parameters, including the alignment, are saved when the test is saved. C Press SAMPLE ID to display the Sample I.D. Input screen. C Use the arrow soft keys to highlight the first character to be used for the sample ID and press ENTER to select it. C Continue until you have selected all the characters for the sample ID, then press EXIT. When you press SAVE TEST, a message appears, indicating that the test has been saved. The test name and date the test was saved are displayed on the screen. Notes: C The ID can be up to 10 characters (alphabetic or numeric), but the ID must be completely numeric if you want the ID to increment automatically as sample measurements are taken. C You may also use the numeric keypad to enter numbers. C If you make a mistake, press CLEAR to remove one character at a time. C To assign a preset label instead of a sample ID, use the arrow soft keys to highlight the appropriate label. The preset label will appear in the "Entry:" field after it has been highlighted and entered. Notes: C One test is stored in the instrument itself. This stored test is the last test loaded before the instrument was powered down. C A Memory SoftCard must be inserted into one of the card slots and must be the active card. SCALE FUNCTIONS Allows you to select the data mode (absorbance or % transmittance), change the scale (manually or automatically) or use a cursor line to obtain the absorbance value for selected points on the displayed curve. 3 - 17 Dictionary SCAN SET CONC. AND ABS. Initiates a scan of the sample in the cell. Enters the concentration of a standard and its absorbance. Note: C Be sure to load your samples in the cell holder and to close the cover of the sample compartment before pressing SCAN. C Select Set Conc. and Abs. to enter the concentration of your standard (Limits: ±29997.0). C Enter the absorbance of the standard (Limits: ±3.0). The calculated factor appears on the FACTOR / STANDARD SETUP screen. SECOND DERIVATIVE Determines the second derivative of the scan data displayed on the screen. SET CONC. AND MEASURE ABS. C Select SECOND DERIVATIVE. The Enters the concentration of a standard and its absorbance. instrument calculates the derivative and plots the data on the screen. C Select Set Conc. and Measure Abs. to enter the concentration of your standard (Limits: ±29997.0). C Insert the cell containing the standard solution into the cell holder and press MEASURE. When the measurement is complete, the calculated factor appears on the FACTOR / STANDARD SETUP screen. SELECT SCAN Selects which set of data will be used for any post-processing functions. The selected scan is displayed in white. C Press SELECT SCAN to switch from one data set to another until the appropriate set is displayed in white. SET FACTOR Enters the factor to be used when taking measurements in concentration mode. A factor (1 / ab) is the inverse of the slope of the concentration curve. It is used to obtain the concentration of an unknown solution by multiplying the absorbance of the solution by the value of the factor. Limits: ±9999.00 SELECT UNITS Specifies the units to be used for concentration measurements. C Select SELECT UNITS to access the UNITS SELECTION screen, displaying the current list of concentration units. You may also ADD, DELETE and CHANGE units from this screen. C Press the number next to Set Factor and enter the desired value. C Press ENTER. C Press EXIT. SERIAL Method of data collection in which the blank is measured once, then each sample is measured. 3 - 18 Dictionary SET FACTOR/STANDARD SUBTRACT A SCAN C Sets a factor C Sets the concentration and measures the Subtracts scan data from a selected scan from the scan data displayed on the screen. absorbance of a standard C Sets the concentration and absorbance of a C Select Subtract a Scan to list the data files standard C Selects the concentration units to be used for results stored on the active card. C Select the data file containing the data you want subtracted from the scan data displayed on the screen. The instrument subtracts the data and plots the data on the screen. C Press SET FACTOR/STANDARD to display the FACTOR/STANDARD SETUP screen. C Select the function you want to perform and TABULAR follow the instructions on the screen. Switches between tabular and graphical displays of scan data. Tabular data includes wavelength and data value. SETUP TESTS Accesses the application program set-up screen, allowing you to enter instrument and test parameters for the current test, save a test or format a Memory SoftCard. TANGENT/BASELINE Switches between the tangent and baseline methods for calculating the area under a curve for scan data. See Figure 3-2 in AREA UNDER CURVE for more information about the two calculation methods. SHOW PROGRAM REVISION Displays the revision level of an application program. C Select Show Program Revision to enter the TEST NAME number of the application program whose revision level you want to check. Specifies a name to be used for a selected set of test parameters. C Select Test Name to display the TEST NAME START WAVELENGTH Input screen appears. C Use the arrow soft keys to move the cursor Enters the value of the minimum wavelength for the scan. Limits: 200.0 to 1100.0nm around the screen to select each character, then press ENTER. C When you have selected all the characters, press EXIT. STOP TEST Notes: Interrupts the test that the instrument is running. C A maximum of eight characters may be selected. C You may also use the numeric keypad to enter numbers. STOP WAVELENGTH C If you make a mistake, press CLEAR to remove Enters the value of the maximum wavelength for the scan. Limits: 200.0 to 1100.0nm one character at a time. 3 - 19 Dictionary TEST/DATA Switches between test files and data files in a selected directory. TEST TYPES Loads a specific stored test from a Memory SoftCard or from the instrument. It also allows you to delete and lock/unlock tests. C Press TEST TYPES to display the TEST TYPES screen. C Select the function you want to perform and follow the instructions on the screen. 3 - 20 Dictionary C Repeat for the other two wavelengths. The THREE POINT NET calculated 3-point net absorbance and the baseline for the selected curve appear on the screen. Determines the absorbance of a sample at three wavelengths and calculates the peak height relative to a calculated baseline. Notes: C As you move the cursor line, the current wavelength and data value are displayed below the X-axis. C If you wish to multiply the calculated 3-point net absorbance by a factor, press FACTOR, type in its value and press ENTER. The factor appears on the screen. The Three Point Net Absorbance analysis is used to correct for the effects of a broad sloping baseline on a peak height calculation. Figure 3-5 shows an example of this type of curve. The baseline corrected absorbance for the sample is calculated using the following equation: where: A = 81 = 82 = 83 = Absorbance Base wavelength 1 Peak wavelength Base wavelength 2 C Select Three Point Net to display a cursor line to help you select the wavelengths for the calculation. C Press the 6 soft key to move the cursor line to the first wavelength or use the numeric keypad to type the wavelength, then press ENTER to select the first wavelength. Figure 3-6 Figure 3-5 3-Point Net Absorbance sample curve 3 - 21 Three point net absorbance screen with calculation Dictionary TIME UNLOAD ALL Specifies the current time. Unloads all the scan data that is currently displayed. Note: C Use military format (HHMM using a 24-hour clock; H = hours, M = minutes); e.g., to enter 7:30 a.m., type 0730; to enter 7:30 p.m., type 1930 UNLOAD DATA Removes selected scan data from the scan data that is currently displayed. C Press UNLOAD DATA to list the scan data files TOTAL RUN TIME currently displayed. C Press the number corresponding to the scan data Specifies the total time for data collection. Limits: 0.0 to 99999.0 seconds you want removed from the scan data displayed on the screen. When you return to the display screen, the selected scan data will not appear. TRANSFER ALL Transfers all selected files to the selected format (ASCII or Lotus) at one time. Refer to Transferring files in ASCII or Lotus format in the Operation section for instructions on transferring files. UNLOCK ALL Unlocks all the files listed in a selected directory at one time. UTILITY TRANSFER TO ASCII FORMAT Accesses selected instrument functions (lamp interchange wavelength, time/date settings, language, turning lamps on and off, printer/plotter devices, parameters for RS232C port). Transfers selected file(s) to ASCII format (suitable for importing into a word processing program). Refer to Transferring files in ASCII or Lotus format in the Operation section for instructions on transferring files. C Press UTILITY to display the UTILITIES screen. C Select the function you want to perform and follow the instructions on the screen. TRANSFER TO LOTUS FORMAT Transfers selected file(s) to Lotus format (suitable for importing into a spreadsheet program). Refer to Transferring files in ASCII or Lotus format in the Operation section for instructions on transferring files. VALLEY SENSITIVITY Sets a threshold to indicate where a valley occurs in scan data. Limits: 0.001 to 3.000 TUNGSTEN LAMP WAVELENGTH Turns the tungsten lamp on or off. Enters a value for the analytical wavelength, in nanometers. Limits: 200.0 to 1100.0 nm Note: C A BUSY label indicates that the lamp cannot be turned off based on the current wavelength setting. C Press the number next to Wavelength and enter the desired value. C Press EXIT. 3 - 22 Section 4 - Accessories General Information Cell Holder Platform Your GENESYS spectrophotometer supports a variety of sample-handling accessories. The Accessory Guide (inserted at the end of this section) describes the sample-handling and data-handling accessories in detail, including part numbers, related accessories and ordering information. The Cell Holder Platform (335626) is available as an accessory and it can accommodate the following cell holders: C Up to eight standard Single Cell Holders (336028) C Up to four Rectangular (335112) or Cylindrical (336012) Longpath Cell Holders C Up to four Thermal Blocks (335079) C Up to four Adjustable Filter Holders (336017) C Up to four Test Tube Holders (336014) This section describes how to remove the 8-Position Multi-Cell Holder and install other cell holder accessories in the sample compartment. Information on using cell holders other than the 8-Position Multi-Cell Holder is included in the Accessory Guide. It also describes the printer and plotters that you can use with your GENESYS 2 and 5 spectrophotometers and how to install them. Finally, this section includes instructions for connecting an external computer to your instrument. The RS232C interface is described separately in the RS232C Interface section. If you want to use longpath cells (cylindrical or rectangular), use test tubes, measure solid filters, or regulate cell temperature via an external water circulator, you must install various cell holders on the Cell Holder Platform. Refer to the Accessory Guide for more information. 4-1 Accessories 8-Position Multi-Cell Holder Replacing the 8-Position Multi-Cell Holder The standard cell holder for the GENESYS is the 8-Position Multi-Cell Holder which comes installed in the instrument. However, it can easily be removed to install other accessories. 1. Align the 8-Position Multi-Cell Holder on the platform with the pin located at the far end of the instrument platform. 2. Pinch the cell holder retainer spring and push the 8-Position Multi-Cell Holder down onto the instrument platform. 3. Align the 8-Position Multi-Cell Holder as described in the Setting up the Instrument section. Removing the 8-Position Multi-Cell Holder 1. Open the sample compartment and let the sample compartment door rest on its hinge. 2. With one hand, pinch the cell holder retainer spring at the front of the instrument platform. 3. With the other hand, pull up on the 8-Position Multi-Cell Holder and lift it out of the sample compartment (Figure 4-1). Figure 4-1 Removing / Replacing the 8-Position Multi-Cell Holder KEY 1. Instrument platform 3. 8-Position Multi-Cell Holder 2. Alignment pin 4. Cell holder retainer spring 4-2 Accessories Installing accessory cell holders 4. Pinch the cell holder retainer spring and push the Cell Holder Platform down onto the instrument platform. 5. Manually align the cell holder positions (see MANUAL ALIGN in the Dictionary section). 1. Remove the 8-Position Multi-Cell Holder from the sample compartment as described in Removing the 8-Position Multi-Cell Holder. 2. Install the desired accessory cell holders on the Cell Holder Platform (335626) by tightening the set screw on each cell holder. 3. After installing the cell holders on the Cell Holder Platform (Figure 4-2), align the Cell Holder Platform on the instrument platform with the pin located at the far end of the platform. Figure 4-2 Installing Cell Holders on the Cell Holder Platform KEY 1. Instrument platform 4. Set screw 2. Alignment pin 5. Accessory cell holder 3. Cell holder platform 6. Cell holder retainer spring 4-3 Accessories Printers / Plotters Internal printer Two accessory printers are available for the GENESYS 2 and 5 spectrophotometers - one is internal and the other is external to the instrument. The GENESYS supports various printers which can be connected through the parallel port on the back of the instrument. See page 4-7 for more information. The internal printer (336088) is installed in the instrument and supports both text and graphics. Print resolution is equal to the display resolution of the instrument (320 x 240 pixels). Shown in Figure 4-3, the internal printer uses paper that is 112 mm wide. C To install the internal printer, see the following instructions. C To print, press the PRINT key on the keyboard. C To advance the paper, press the Line Feed key on the printer. In addition, the GENESYS enables you to plot data on a plotter connected to the serial port on the back of the instrument. See page 4-7 for more information. Figure 4-3 Internal Printer (336088) KEY 1. Printer cover panel 2. Line feed key 3. Printer 4. White connector 5. Ribbon cable 6. Paper bar 7. Printer paper 4-4 Accessories Installing the internal printer 2. 3. WARNING 4. Turn off the instrument and disconnect the power cord from the outlet before installing the internal printer. 1. 5. 6. With a flat-blade screwdriver, lift the printer cover and remove it from the instrument. Unfold the two cables located under the panel (Figure 4-4). Connect the ribbon cable (20-pin) to the ribbon cable connector on the printer (Figure 4-3). Connect the white connector (4-pin) to the white connector on the printer (Figure 4-3). Slide the printer, with the printer head on top and the circuit board facing the front, into the instrument cover slot. Turn off the instrument and disconnect the power cord. Figure 4-4 Location of cables under the panel for the Internal Printer (336088) — viewed from the rear of the instrument KEY 1. White connector 2. Ribbon cable connector 3. Paper bar slots 4-5 Accessories 7. With a Phillips screwdriver, tighten the two captive screws (Figure 4-5) on either side of the printer. 8. Plug the power cord into the outlet and turn on the power switch. 9. Cut the paper at the end of the roll in a "V" to make a point at the end of the paper. 10. Carefully feed the printer paper (from the bottom of the paper roll; shiny side down) into the back of the printer using the Line feed key on the printer. 11. Place the printer paper on the paper bar and place the paper bar in the appropriate slot on the printer compartment (Figure 4-4). 12. When the paper is installed, thread the paper through the panel slot in the printer cover panel and snap the printer cover panel back into the instrument cover. 13. With the Acquisition screen displayed, press the UTILITY key. 14. With the UTILITIES screen displayed, press the NEXT PAGE soft key. 15. Press the number next to Printer until INTERNAL appears. 16. Press EXIT to return to the Acquisition screen. 17. To test the printer, press the PRINT key on the keyboard. Figure 4-5 Inserting the Internal Printer (336088) — viewed from the rear of the instrument KEY 1. Captive screws 4-6 Accessories External printers External plotters The instrument also supports these printers with text and graphics: C IBM Proprinter II C IBM Proprinter III C Epson FX-850 C HP LaserJet Your GENESYS supports single-color plots, regardless of the capability of the plotter. For color plotters, the first available pen will be used. The GENESYS supports the following plotters: C HP LaserJet - all series supporting HPGL C HP Color Plotter 7440A using HPGL C Generic HPGL format plotter Installing an external printer Installing an external plotter To connect an external printer, connect the printer cable to the Centronics-compatible printer port (parallel printer port) on the back of the instrument (see Figure 6-3). 1. 2. 3. 4. 5. 6. 1. 2. Press UTILITY, then NEXT PAGE to display the printer option. Press the number next to Printer until the name of the appropriate printer appears. Selected printers support both high and low resolution options. When you select "high" resolution, the printing may take a little longer than "low" resolution. Set Printer Page Break to FORMFEED or NONE. When set to FORMFEED, a page break is sent after 60 lines are printed. Press EXIT to return to the Acquisition screen. Turn on the printer, set the top of form and turn the printer on line. To test the printer, press PRINT on the keyboard. 3. 4. Press UTILITY, then NEXT PAGE to display the plotter option. Press the number next to Plotter until the name of the appropriate plotter appears. Press EXIT to return to the Acquisition screen. To test the plotter, press PRINT on the keyboard. External computers To connect an external computer, connect the computer cable to the 9-pin RS232C port on the back of the instrument (see diagram on page x). C To connect the GENESYS to an IBM AT, use a DB9 pin (female) to DB9 pin (female) interface cable (336042). C To connect the GENESYS to an IBM PC/XT or P/S2 models, use a DB9 pin (female) to DB25 pin (female) interface cable (336041). C To connect the GENESYS to an Apple computer, use a DB9 pin (female) to DB25 pin (male) interface cable (345002-111) and a DB25 pin (female) to DB25 pin (male) straight-connect interface cable. (You can obtain the straight-connect cable from your local computer store.) Notes: C When installing an IBM ProPrinter II, be sure that DIP switch 6 is set to ON. (Please refer to the manufacturer's instructions for more information.) C The Epson FX-870 is supported in IBM Emulation mode. (See manufacturer's instructions for more information.) C LaserJet printers store all characters until a formfeed is received. Either press the formfeed on the LaserJet printer or set the Printer Page Break to FORMFEED. Refer to the RS232C Interface section for information about using an external computer with your GENESYS spectrophotometer. 4-7 Accessories This page intentionally left blank. 4-8 Section 5 - RS232C Interface The GENESYS spectrophotometer has a built-in RS232C interface that enables the instrument to communicate with an external computer that is RS232C compatible. This section: C Describes the RS232C (serial) port of the GENESYS spectrophotometer C Describes how to set up the interface between the spectrophotometer and an RS232C compatible computer C Lists and describes the commands for the RS232C interface Instrument automation provides several advantages, including: C Minimizes operator error in setting up and running tests, and in reporting data C Frees the operator to perform other tasks while the analysis is running C Considerably enhances the versatility of the instrument because the user can develop or purchase software to meet specific needs Remote operation C The RS232C interface cannot be used with serial Notes: C The RS232C command set is supported in the English language only. printers, data loggers or other similar devices. By communicating with external devices, selected instrument functions can be performed remotely. Remote functions include: C Wavelength control C Accessory control C Data acquisition C Lamp control Figure 5-1 Pin functions The serial port connector on the rear panel of the GENESYS spectrophotometer is a nine-pin connector (male; DCE format). Figure 5-1 and Table 5-1 identify the pin functions for the nine-pin connector. Connector-to-connector information flow 5-1 RS232C Interface Table 5-1 Pin functions of RS232C port on GENESYS spectrophotometers Pin # Signal name IMPORTANT! The signal names listed in Table 5-1 are those assigned to the pins in the RS232C interface connector on the IBM computer. Connecting these GENESYS spectrophotometer pins to IBM RS232C pins with these names ensures the correct connection (see Figure 5-1). Function 1 Data Carrier Detect Spectrophotometer supplies +12V when power is ON and the instrument is operational. 2 Receive Data Spectrophotometer transmits data to the computer. 3 Transmit Data Spectrophotometer receives data from the computer. 4 Data Terminal Ready Spectrophotometer requires +3V to +25V from the external device before transmitting data. 5 Signal Ground Acts as return for data and control signals. 6 Data Set Ready Spectrophotometer supplies +12V when power is ON and the instrument is operational. 7 Request to Send Spectrophotometer requires +3V to +25V from the external device before transmitting data. 8 Clear to Send Spectrophotometer supplies +12V when power is ON and the instrument is operational. 9 Ring Indicator Spectrophotometer supplies +12V when power is ON and the instrument is operational. Connecting a device to the RS232C port (interface) You can connect a variety of electronic devices (with two-way communication capability) to the RS232C port of the spectrophotometer. However, any device you connect to the interface must meet certain standards to ensure compatibility and to prevent possible damage to the spectrophotometer. Refer to Table 5-1 for a description of the nine-pin connector used as part of the interface. Be sure to follow the installation instructions in the manual provided by the manufacturer of the selected external device. Once you assign the proper pinouts on the connector cable, just connect the female end of the RS232C cable from your external device to the nine-pin D connector of the RS232C port of the spectrophotometer. Table 5-2 lists the specifications for the RS232C interface on the GENESYS. 5-2 RS232C Interface Table 5-2 Specifications for the RS232C Interface Interface Data transmission rate (baud rate) RS232C compatible, 9-pin D connector (male) (DCE format) (mate: 9-pin female) Five software-selectable rates: 300, 1200, 2400, 4800, 9600 Transmission mode Full duplex, ASCII code Data • 8 data bits,* one stop bit and one start bit • Selectable parity: ODD/EVEN or OFF Signal characteristics Setting RS232C parameters 1. 2. 3. 4. With the Acquisition or Main Menu screen displayed, press the UTILITY key to display the Utilities screen. Press NEXT PAGE to access the options for the RS232C interface. A screen like the one shown in Figure 5-2 appears. Set the values for baud rate, number of data bits, parity and terminator parameters. Press INITIATE RS232C to transfer control from the spectrophotometer to the computer. • Receiver input threshold: -3 to +3 V minimum • Receiver maximum input voltage: -25 to +25 V • Transmit: ±12 V nominal Line terminators Three software-selectable terminators: • Carriage return • Line feed • Carriage return / line feed Commands • Wavelength control • Lamp control • Accessory control • Data acquisition Figure 5-2 Utilities screen used to select printer and plotter options * You may select seven data bits on the Utilities screen; however, the eight data bit mode is recommended. 5-3 RS232C Interface Command descriptions ALIGN + Increments the alignment step number for the current cell position. Each command description includes the command syntax and any appropriate parameters that can be used with the command. When you run a command, the message “OK” appears if the command was successful. If it was not successful, the message “ERR” appears. ACCESSORY List installed accessories. This list may contain: PLATFORM Movable platform PROBE Temperature Probe PUMP Peristaltic Pump TEC1 1-Position Thermoelectric Cuvette Holder TEC2 2-Position Thermoelectric Cuvette Holder TEFC Thermoelectric Flowcell ALIGN Decrements the alignment step number for the current cell position. ALIGNAUTO Automatically aligns the current cell position in the multiple cell holder. ALIGNAUTO ALL Automatically aligns all cell positions in the multiple cell holder. ALIGNLAMP Returns an energy reading for the current lamp alignment. The energy reading is returned as an integer in the range of 0 to 800. ALIGNSAVE Saves the stage alignment of all cell positions in the current accessory. ACCESSORYReturns YES if the specified accessory is present, or NO otherwise. is one of the following values: PLATFORM Movable platform PROBE Temperature Probe PUMP Peristaltic Pump TEC1 1-Position Thermoelectric Cuvette Holder TEC2 2-Position Thermoelectric Cuvette Holder TEFC Thermoelectric Flowcell ANSWERBACK Returns the current answerback settings. ANSWERBACK " " " " Enables command completion answerback using the specified values. The first eight characters of each message are used. ALIGN Returns the step number for the current cell position. The step number is returned as an integer in the range of 0 to 730. ALIGN Sets the alignment step number for the current cell position. is an integer in the range of 0 to 730. ANSWERBACK OFF Disables command completion answerback. AUTOCAL OFF [GENESYS 5 only] Disables asynchronous dark compensation. AUTOCAL ON [GENESYS 5 only] Enables asynchronous dark compensation. 5-4 RS232C Interface AUTOZERO Sets the currently measured absorbance to 0.0. COMMENT ON This allows a section of a program to be commented out. This command remains in effect until the COMMENT OFF is sent. Comment blocks may be nested. AUTOZERO Sets the currently measured absorbance to the specified absorbance. is a number in the range of -3.000 to 3.000. DATA Returns the current photometric data in the current measurement mode. In absorbance mode, the data is a number in the range of -3.100 to +4.000. In % transmittance mode, the data is a number in the range of 0.0 to 200.0. BASELINE [GENESYS 5 only] Generates a scan baseline over the instrument's entire wavelength range. Resolution is fixed at one nanometer per point. BASELINE [GENESYS 5 only] Generates a scan baseline over the specified wavelength range. Resolution is fixed at one nanometer per point. BASELINE [GENESYS 2] Generates a scan baseline over the specified wavelength range. is a number in the range of 0.3 to 6.0 that specifies the number of nanometers per point in the scan (i.e., the speed of the scan). and are numbers in the range of 200.0 to 1100.0 nanometers. CELL Returns the current cell position. The cell position is an integer in the range of 1 to 8. CELL Sets the current cell position to the specified value. | is an integer in the range of 1 to 8. CELL + Increments the current cell position. CELL Decrements the current cell position. CELL INITIATE Initializes the platform to the "home" position, then returns to the current cell position. DATAMODE Returns the current measurement mode. Returned values are: ABS Indicates data will be returned as absorbance TRANS Indicates data will be returned as % transmittance DATAMODE ABS Sets the current measurement mode to absorbance. DATAMODE TRANS Sets the current measurement mode to transmittance. DEUTERIUM Returns the current state of the deuterium lamp. Returned values are: ON Indicates the lamp is on OFF Indicates the lamp is off OUT Indicates the lamp is burned out DEUTERIUM OFF Turns the deuterium lamp off. DEUTERIUM ON Turns the deuterium lamp on. This command will fail if the lamp is burned out. DISPLAY " | " Displays a string on the GENESYS screen. Printable ASCII characters and the bell character "\g" are supported. COMMENT OFF Indicates the end of a comment block. The COMMENT ON command remains in effect until this command is sent. Comment blocks may be nested. 5-5 RS232C Interface PRINTINIT Initializes the printer. ECHO " " Sends a string out the RS232 port. ANSI C escape sequences are supported. The returned value will be the specified string with any escape sequences interpreted. PRINTLOG OFF Disables logging of all input and output to the current printer. EXIT Exits remote mode and executes the Main Menu. PRINTLOG ON Enables logging of all input and output to the current printer. LAMPCHANGE Returns the current lamp change wavelength in nanometers. The lamp change wavelength will be in the range of 320.0 to 360.0. PUMP Pumps at the specified speed for the specified duration in the specified direction. is either CW (clockwise) or CCW (counterclockwise). may be one of: SLOW MEDIUM FAST is 0 to 999 seconds. LAMPCHANGE Sets the lamp change wavelength to the specified value. This command will cause the required lamp to be turned on, if necessary. is a number in the range of 320.0 to 360.0 nanometers. LAST ERROR Returns a string indicating the error code of the previously executed command. If the previous command was successful (returned “OK”), LAST ERROR returns “NONE.” Error code 16000 16001 16002 16004 Description Monochromator step-to-WL table code not defined. Default value set (0). If your instrument has a different code, you must issue the WLTABLE command. Invalid command syntax Command execution failure Accessory not installed Any other error codes displayed indicate specific internal system errors and are for the use of authorized service engineers. Be sure to record the error code before requesting technical support. REVISION Returns the revision of the specified instrument ROM. The ROM's that may be specified are: ACC Accessory Board ROM MAIN Main instrument ROM OB Optical Bench ROM PUMP Pump Board ROM This command will fail if the specified board is not present. The returned value will be a string indicating the revision of the specified ROM. SCAN Returns the current photometric data at all wavelengths in the specified range. The specifies the number of nanometers per point in the scan (i.e., the speed of the scan). For the GENESYS 2, the can be set to 0.3, 1, 3 or 6. For the GENESYS 5, the can be set to 1, 2, 3, 4, 5 or 6. One wavelength and measurement will be returned on each line. The format of the line will be where is a number between 200.0 and 1100.0 and is the same as the output of the DATA command. MODEL Indicates the instrument model; e.g., "GENESYS 5". OPTIMIZE Generates a single-point baseline over the instrument’s entire wavelength range. PRINT " " Sends a string to the current printer. ANSI C escape sequences are supported. 5-6 RS232C Interface Notes: C If and are not specified, data from 200.0 to 1100.0nm will be returned. C A baseline must be collected prior to running the SCAN command. SIPPER Returns the type of the last sipper switch action. The returned value will be UP, DOWN or NONE. TEMPSETPT Returns the current temperature setpoint. The returned value is a number in a range that is specific to the installed thermoelectric device. TEMPSETPT Sets the temperature setpoint to the specified value. is a number in a range that is specific to the installed thermoelectric device. STIR Returns the current stirrer speed. The returned value is in the range of 0 to 10, where 0 is off and 10 is the fastest speed. TUNGSTEN Returns the current state of the tungsten lamp. Returned values are: ON Indicates the lamp is on OFF Indicates the lamp is off OUT Indicates the lamp is burned out STIR Turns on the stirrer at the specified speed. is an integer from 0 to 10, where 0 is off and 10 is the fastest speed. TUNGSTEN OFF Turns the tungsten lamp off. TEMP Returns the current temperature in degrees Celsius. The temperature is a number with one decimal place. TEMPCTRL Returns the status of temperature control. Returned values are: ON Indicates that temperature control is enabled OFF Indicates that temperature control is disabled TEMPCTRL OFF Disables temperature control. TEMPCTRL ON Enables temperature control. TEMPDEV Returns the current temperature sensing device. Returned values are: BLOCK Indicates the temperature is determined by the block PROBE Indicates the temperature is determined by the probe TEMPDEV BLOCK Sets the temperature sensing device to the block (peltier device). TEMPDEV PROBE Sets the temperature sensing device to the probe. TUNGSTEN ON Turns the tungsten lamp on. This command will fail if the lamp is burned out. WAVELENGTH Returns the current measurement wavelength. The returned value is a number in the range of 200.0 to 1100.0. WAVELENGTH Sets the measurement wavelength to the specified value. is a number in the range of 200.0 to 1100.0. WLTABLE Returns the current selection of the monochromator step-to-wavelength table. WLTABLE Selects the monochromator step-to-wavelength table. is an integer in the range of 0 to 2. ANSI C escape sequences GENESYS spectrophotometers support the following ANSI C escape sequences: \n \r \t \f 5-7 CRLF CR tab form feed RS232C Interface 5-8 Section 6 - Maintenance C Do not use or store the instrument in a corrosive Your GENESYS spectrophotometer is durable and reliable, so routine maintenance is minimal. This section includes complete instructions for: C Routine care, cleaning and maintenance of the instrument and cells C Replacing and aligning the lamps C Changing the fuse and voltage setting C Cleaning and maintaining the internal printer environment. C Gently wipe the outside of the instrument with a soft cloth to remove any dust or spills. Water, isopropyl alcohol and other common laboratory cleaning agents may be used if necessary. C Always clean up spills to prevent or minimize damage to the instrument. If concentrated acids or bases, or any hydrocarbon materials, are spilled on the instrument, be sure to clean up the affected area immediately. C Use water, alcohol or other common laboratory cleaning agents to clean the keyboard. It is recommended that you clean spills off the keyboard as soon as they occur. This section also includes lists of replacement parts and accessories. WARNING Operating the instrument with the cover off exposes the operator to potentially dangerous voltages and ultraviolet (UV) radiation. Therefore, it is recommended that only authorized service representatives perform procedures requiring removal of the instrument cover and replacement of electrical components. To protect both yourself and the instrument, be sure to contact an authorized service representative to perform any service procedure you do not feel comfortable performing. Cleaning Cleaning and maintenance of cells Cleaning of cells both inside and out is important not only because any contaminating material may absorb light, but also because material within the cell may react chemically with subsequent reagents or standards introduced into the cell. Cleaning methods depend to some extent on the nature of the contaminating material. Sodium (or ammonium) hydroxide and dilute hydrochloric acid may be used to remove some acidic and basic contaminants, respectively. Clorox (undiluted or 1:1) is very effective in removing proteinaceous and bacterial contaminants. You may also use Cell Cleaning Solution (332260-169) to clean your cells. Routine care Routine care for your GENESYS spectrophotometer does not require a lot of time. To help minimize maintenance time and to increase the life and performance of your instrument, please follow these guidelines: C To prevent dust from accumulating on and in the instrument, always replace the dust cover when the instrument is not turned on. The dust cover, supplied with the instrument, is resistant to most aqueous solutions. Handle and dispose of chromic acid with care! Finally, soaking in chromic acid will remove most contaminants, but the acid should be handled, and disposed of, with care. Because of the exothermic reaction of the acid and water, any heat generated should be quickly dissipated to avoid altering the pathlength of the cell. Cells should not be placed in hot chromic acid. 6-1 Maintenance Cleaning the air filter Note: To prepare chromic acid cleaning solution, slowly add (with stirring) 800 mL of concentrated sulfuric acid to 458 mL of distilled water containing 92 g of sodium dichromate (Na2Cr2O7•2H2O). This cleaning solution should be red-brown. Discard, using proper disposal methods, when green tinge appears. 1. 2. 3. Cells with scratches in the optical path should be discarded because scratches will cause anomalous absorbance readings. Cells should be protected during cleaning and never thrown into a bath with glassware where they might get scratched, or placed in a wire rack that might scratch them. The outside of the cells may be wiped with a soft, lint-free tissue, and should be kept free of fingerprints. Turn off the instrument. This prevents dust and lint on the filter from being pulled into the instrument by the fan. Pull the foam air filter out of the area directly behind the fan (see diagram on page x). Clean the filter by shaking off the dust. If necessary, you can wash the filter in warm soapy water to remove excessive dirt and then rinse thoroughly. Note: The filter must be completely dry before it is replaced in the instrument. 4. Insert the clean dry air filter in the area directly behind the fan. Micro flowcells can be kept clean by: C Flushing well with a solvent after use C Aspirating dilute acid, base, non-filming detergent or Clorox through the cell in short bursts C Storing with distilled water in the cell Replacing lamps Replacing the tungsten-halogen lamp The lamp gets very hot during operation. Before removing the lamp, turn off the instrument and allow the lamp to cool down for 10 minutes. Cleaning the windows of the sample compartment Follow these guidelines to clean the windows of the sample compartment: C Do not use acetone to clean the windows of the sample compartment. Instead, use a non-abrasive laboratory cleaning solution (Cell Cleaning Solution, 332260-169), distilled water or alcohol. C Use the liquid and a soft, lint-free cloth to clean the windows. Do not apply too much pressure or the surface of the windows may be damaged. Be sure to remove all fingerprints. To avoid personal injury or damage to the instrument, follow these instructions carefully! Turn off and unplug the instrument before removing the cover of the lamp compartment. 1. 2. 3. 4. 6-2 Turn off and unplug the instrument. Make sure that the lamp has had time (at least 10 minutes) to cool off. Remove the cover of the lamp compartment (a coin will release the lock). Pull the lamp (#8, Figure 6-1) horizontally out of its socket. Maintenance 5. Align the two legs protruding from the clean, new lamp with the two holes in the socket of the lamp and press the lamp securely into the socket (the legs should fit snugly in the holes). 9. Note: The lamp interchange mirror automatic alignment, which takes place during the power-on sequence, aligns the light beam horizontally. Vertical alignment of the tungsten-halogen lamp is a manual adjustment. This adjustment may provide additional energy to the optical system. Follow the vertical alignment (page 6-4) and optimizing energy (page 6-6) procedures to optimize the system to the new lamp. Do not touch the lamp with your fingers! 6. 7. 8. During the power-on sequence, the lamp interchange mirror will automatically align on the tungsten-halogen and the deuterium lamps. Use a soft, lint-free cloth to wipe off any fingerprints on the lamp. Replace the cover of the lamp compartment. Plug the instrument into an appropriate wall outlet and turn on the power. Figure 6-2 Lamp compartment KEY 1. Deuterium lamp 2. Deuterium lamp connector 3. Thumbscrew 4. Lamp and cable well 5. Lamp interchange mirror locking screw 6. Lamp interchange mirror 7. Vertical alignment screw for tungsten-halogen lamp 8. Tungsten-halogen lamp 9. Tungsten-halogen lamp socket 10. Notched tab at base of deuterium lamp 6-3 Maintenance 7. Slowly adjust the vertical alignment screw while watching the display. C If the energy decreases, reverse the direction of the adjustment. C If the energy increases, continue adjusting in the same direction. 8. Adjust the vertical alignment screw until the reading reaches a maximum. 9. Replace the cover of the lamp compartment. 10. Press EXIT to end the alignment diagnostic. Follow the optimizing energy procedure (page 6-6) before using the instrument. Aligning the tungsten-halogen lamp vertically This adjustment positions the reflected tungsten-halogen light image so it falls fully (top to bottom) onto the entrance slit to the monochromator. CAUTION This procedure requires removal of the cover of the lamp compartment while the instrument is turned on. This exposes the operator to ultraviolet (UV) radiation which can damage the eye and burn the skin. Minimize exposure to hands and wear UV-absorbing glasses to protect your eyes whenever the lamps are exposed. Replacing the deuterium lamp The lamp gets very hot during operation. Before removing the lamp, turn off the instrument and allow the lamp to cool down for 10 minutes. IMPORTANT! To avoid personal injury or damage to the instrument, follow these instructions carefully. 1. 2. 3. 4. 5. 6. Turn off and unplug the instrument before removing the cover of the lamp compartment. Turn on the instrument and allow the power-on sequence to be completed. Press the UTILITY key when the Main Menu (or the Acquisition screen) appears. Press 2 to turn off the deuterium lamp. Press the ALIGN LAMP soft key. The instrument will set the wavelength to 550nm and will change the electronics to alignment mode. Remove the cover of the lamp compartment. Locate the vertical alignment screw (#7, Figure 6-1). Do not touch the glass portions of the deuterium lamp assembly with your bare fingers - use a lint-free cloth! 1. 2. Note: The vertical alignment screw is very close to the lamp interchange mirror. Use caution when working in this area, and be careful NOT to touch or scratch the lamp interchange mirror. 3. 4. Turn off and unplug the instrument. Make sure that the lamp has had time (at least 10 minutes) to cool off. Remove the cover of the lamp compartment (a coin will release the lock). Unscrew and remove the thumbscrew securing the lamp assembly (#3, Figure 6-1). Note: The thumbscrew is not needed for the replacement lamp because it is supplied with its own lamp holder assembly. 5. 6. 6-4 Disconnect the deuterium lamp connector. Carefully raise the lamp and lift it slightly to the left to unhook the tab at the base. Maintenance 7. 8. 11. When the lamp is seated, release the locking handle to secure the new deuterium lamp in position. 12. Plug the three-wire connector into the socket at the rear of the lamp compartment. The lamp compartment should now look like Figure 6-2. 13. Use a soft, lint-free cloth to wipe off any oil or fingerprints which may be on the deuterium lamp. 14. Replace the cover of the lamp compartment. 15. Plug the instrument in and turn it on. The instrument will run its power-on sequence and automatically align the deuterium lamp. Hold the new deuterium lamp by the locking handle, making sure you don't touch the quartz envelope of the deuterium lamp. Carefully route the cable on the replacement deuterium lamp into the lamp and cable well (Figure 6-2). Do not touch the lamp with your fingers! 9. Insert the new deuterium lamp onto the illumination assembly, aligning the locking handle so that it faces away from the lamp interchange mirror (#5, Figure 6-2). 10. Squeeze the locking handle toward the lamp as you insert the new deuterium lamp into the lamp and cable well. You may push down on the metal bracket around the deuterium lamp to seat it properly, but be careful not to push on the quartz envelope. Figure 6-3 Notes: If you have a problem, follow these steps: C Turn the instrument off and allow the lamp to cool. Then reinsert the lamp and turn the instrument back on. C If the problem persists, contact service. Lamp compartment after replacing deuterium lamp KEY 1. Deuterium lamp locking handle 2. Deuterium lamp connector 3. Deuterium lamp 4. Lamp interchange mirror locking screw 5. Lamp interchange mirror 6-5 6. Vertical alignment screw for tungsten-halogen lamp 7. Tungsten-halogen lamp 8. Tungsten-halogen lamp socket 9. Lamp and cable well Maintenance Turn off and unplug the instrument before removing the Accessory Board cover plate. Optimizing energy Whenever you replace either the tungsten-halogen lamp or the deuterium lamp, you should optimize the energy. This procedure performs an energy scan on a wavelength-by-wavelength basis. It takes approximately five minutes on the GENESYS 5 and 12 to 15 minutes on the GENESYS 2. 1. 2. 3. 4. 5. 1. 2. Press UTILITY. Press ALIGN LAMP. Press OPTIMIZE ENERGY. The message "Setting lamp state" will appear. When the lamp state is set, make sure the sample compartment is empty and closed, then press ENTER to start the scan. Press EXIT when the scan is complete. 3. 4. 5. 6. Replacing the instrument battery The instrument battery (336001-738) provides power for the backup Random Access Memory (RAM) components. A missing, defective or depleted battery can cause a battery voltage error message during power-on diagnostics. In addition, setup parameters stored in RAM can be lost or revert to default settings. Any RAM data lost will have to be reset after the battery is replaced. Follow this procedure to replace the battery, then refer to the information on page 6-8 if you need to reset lost setup parameters. 7. 8. 9. The lamp gets very hot during operation. Before removing the lamp, turn off the instrument and allow the lamp to cool down for 10 minutes. Turn off and unplug the instrument. If any accessory is plugged into the socket at the rear of the sample compartment, disconnect it. This socket is part of the Accessory Board located behind the sample compartment. To access the instrument battery, you must remove the Accessory Board. Position the instrument so you can access the rear panel). Loosen the single screw securing the Accessory Board and the Accessory Board cover plate. Remove the cover plate and set it aside. The Accessory Board plugs into a socket on the Optical Bench Board (the board to which the battery is secured). Grasp the bottom left section of the Accessory Board and pull it back through the opening in the rear panel to disconnect the plug. You should now be able to see the instrument battery (1/2AA lithium) in the battery socket mounted on the Optical Bench Board. The battery is surrounded by a plastic strap used to secure the battery during shipment. Use a pair of diagonal cutters to remove it. Observe which end of the battery is plus (to the right, when viewed from the rear of the instrument) and then remove the battery by lifting it straight up and out of the socket. If you have a GENESYS 5: a. Plug in the instrument. (You can ignore the error messages displayed during the next step.) b. Turn on the instrument for approximately 10 seconds to ensure that the electronics are in the proper state. Turn off and unplug the instrument before continuing. c. Turn off and unplug the instrument. 10. Identify the positive (+) and negative (-) ends of the replacement instrument battery and battery holder. 6-6 Maintenance Figure 6-4 Location of Accessory Board and Instrument Battery KEY 1. Accessory board 6. LAN connector 2. A/C power connector 7. Parallel (Centronics) port 3. Dust filter 8. Battery in battery holder 4. Fuse/Voltage select access panel 9. Optical bench board 5. Serial (RS232C) port 10. DC power status LEDs 11. Insert the battery into the battery holder with the positive (+) and negative (-) ends aligned as when the battery was removed in step 8. 12. Replace the Accessory Board which was removed in step 6. 13. Replace the Accessory Board cover plate and secure with the single screw. 14. Tighten the screw to secure the Accessory Board and the cover plate. 15. Reconnect any accessories disconnected in step 2. 16. Position the instrument so you can access the front panel, plug the instrument in and turn on the power. 6-7 Maintenance Resetting setup parameters The instrument fuse must be replaced with the same type and rating fuse. It is possible for battery-backed-up memory to be corrupted when the instrument battery is replaced. If the memory is corrupted, you will need to reset the setup parameters. The following list identifies the parameters you may need to reset and the section of this manual containing the appropriate instructions. C Date and time (Setting up the Instrument) C Language (Setting up the Instrument) C Printer (Setting up the Instrument) C Plotter (Setting up the Instrument) C Lamp change wavelength (Dictionary) C Cell alignment (Setting up the Instrument) Note: If you have a cell-holder accessory installed, refer to the manual shipped with the accessory for instructions. C Printer page break (Dictionary) C Last test setup used (Operation) C Concentration units (Dictionary) C Serial port setup (RS232C) If the fuse fails repeatedly, it may indicate a serious problem with the instrument. Contact your service representative as soon as possible. 1. 2. Turn off and unplug the instrument. Position the instrument so you can see the power entry module on the rear panel. 3. Remove the power cord. 4. Insert a flat-blade screwdriver (c" wide blade) into the fuse/voltage select cover removal notch. Pry off the fuse/voltage select cover. 5. Pull out the fuse/voltage select cover (Figure 6-4). This removes the fuse holder assembly and allows you to access the fuse. 6. Remove the fuse by unsnapping it from the contact on the fuse/voltage select cover. 7. Snap a new fuse into the contact on the fuse/ voltage select cover. 8. Reinsert the fuse/voltage select cover with the new fuse. 9. Replace the power cord. 10. Plug the instrument back in the appropriate outlet and turn on the power. In addition, you may also need to reset the Motor Step-to-WL table code and/or the instrument baseline. If either of these needs to be reset, the instrument will prompt you to do so. The code for the instrument Motor Step-to-WL table is located on a sticker underneath the instrument keyboard. Note: Some of these parameters are not available in all versions of the instrument software. If your version of the software does not prompt for these parameters, you may ignore them. Note: If the fuse blows again, contact service at the number listed on back cover. Changing the fuse The fuse is located within the power entry module located at the center of the rear panel of the instrument (see diagram on page x). 120VAC, 2.5A, Slo-Blo 240VAC, 1.25A, Slo-Blo (2 required) See Table 6-1 on page 6-10 for a list of replacement part numbers. 6-8 Maintenance Changing the voltage setting You may select either 120 VAC or 240 VAC for the line voltage on your GENESYS spectrophotometer. The power entry module located at the center of the rear panel contains a voltage selection card that enables you to select the correct voltage. The proper line voltage must be selected, and the corresponding fuse installed (see step 9 below), to ensure that the instrument operates properly and/or to prevent damage to the instrument. Figure 6-5 Fuse / Voltage select cover KEY 1. Power cord receptacle 2. Fuse cover removal notch 3. Fuse holder and voltage selector cover 4. Voltage selection indicator 5. Do not remove these screws Determine the current line voltage setting by examining the voltage selection indicators (see Figure 6-4) on the rear panel of the instrument. A white peg appears in the hole adjacent to the 120 VAC or 240 VAC setting to indicate the current setting. If the current line voltage is different from the line voltage being supplied to the instrument, you have two choices: C Use an outlet that supplies the line voltage indicated on the instrument C Change the voltage setting on the instrument 7. Position the white plastic indicator dot on the voltage select card so it is in the 120 VAC position or the 240 VAC position as indicated in Figure 6-5. Follow the procedure below to change the voltage setting on the instrument. Turn off and unplug the instrument before changing the voltage setting. 1. 2. 3. 4. 5. 6. Turn off and unplug the instrument. Position the instrument so you can see the power entry module on the rear panel. Remove the power cord. Insert a flat-blade screwdriver (c" wide blade) into the fuse/voltage select cover removal notch. Pry off the fuse/voltage select cover (Figure 6-4). This allows you to access the fuse and the voltage selection card (Figure 6-5) Grasp the exposed edge of the voltage select card with a pair of needle-nose pliers. Remove the card by pulling it horizontally out of the voltage select card slot. Figure 6-6 Orienting the voltage select card 8. 6-9 Firmly insert the voltage select card back into the voltage select card slot. Maintenance 9. Replacing the paper in the internal printer If you have changed the voltage, you must also reverse the fuse holder and change the fuse: C For 240V operation, there should be slots for two fuses. C For 110V operation, there should be one fuse slot and a shorting bar. 1. 2. Loosen the Phillips screw, slide the fuse holder away from the screw hole, then lift up. Flip the fuse holder over and replace it on the voltage cover, making sure the edges seat properly. Tighten the Phillips screw and place the correct fuse(s) in the fuse holder (see the instructions for Changing the fuse in this section). Refer to Table 6-1 for part numbers for the fuses. 3. 4. Cut the paper at the end of the roll in a "V" to make a point at the end of the paper. Carefully feed the printer paper (shiny side down) into the printer using the Line feed key on the printer. When the paper is installed, thread the paper through the panel slot in the printer cover and snap the printer cover panel back into the instrument cover. To test the printer, press the PRINT key on the keyboard. Cleaning the internal printer head 10. Replace the fuse/voltage select cover, making sure that the white peg on the voltage select card extends through the correct opening. 11. Replace the power cord. 12. Plug the instrument back in and turn on the power. Run a piece of coarse paper (similar to construction paper) back and forth through the printer head to remove any dirt. Replacement parts Table 6-1 lists the replacement parts for your GENESYS spectrophotometer. Table 6-1 Replacement parts for GENESYS spectrophotometers Tungsten-halogen lamp (package of 2 lamps) Deuterium lamp Sample Compartment Door Fan filter (package of 10) Battery (instrument) Dust cover Fuse (for 115V operation, 2.5A, Slo-Blo, package of 4) Fuse (for 220V operation, 1.25A, Slo-Blo, package of 8) Lamp area cover Power cord (120V U.S.) 6 - 10 335423 343425 336001-253 335660 336001-738 336065 333526 336013 336001-174 335001-634 Section 7 - Diagnostics & Troubleshooting In addition to the general maintenance procedures described in the Maintenance section, periodically you may need to perform selected diagnostic and troubleshooting procedures. For example, you should check wavelength calibration and photometric linearity to verify the instrument's performance. General troubleshooting Your GENESYS spectrophotometer should provide consistently reliable performance. However, if you have problems operating the instrument, you can often resolve them by performing a few basic checks: C Ensure that the instrument is getting the right power; i.e., steady line voltage at the correct voltage for the instrument. C Verify that the line voltage selection card (mounted in the fuse compartment of the main unit) is set for the correct line voltage. C Check that the instrument goes through the power-on sequence properly when you turn it on. C Observe and record any error messages. This section includes selected diagnostic procedures that you can perform and a troubleshooting guide, including a list of error messages for GENESYS 2 and 5 instruments. Checking the wavelength calibration Normally, your GENESYS spectrophotometer retains its wavelength calibration indefinitely. However, if the instrument receives a severe shock or is abused, use one of the following items to check the wavelength calibration: ! Wavelength Accuracy Test filter from Standards (#333150) ! NIST Standards Troubleshooting GENESYS 2 and 5 Generally, when you enter a value outside the limits for a parameter, the instrument will beep three times to warn you. The instrument will continue to display the limits for the parameter (Entry: will remain the same) until you enter a value which is within the limits for the parameter. Checking photometric linearity You may want to obtain and use the Performance Validation SoftCard (336090-10) to evaluate and track the performance of your GENESYS 2 or 5 instrument. For more information, contact your distributor. If you suspect the photometric linearity of your instrument is not adequate, first check your analytical procedure and technique. You can check the photometric linearity of the instrument by inspecting the standard curve of a chemical species known to obey Beer's Law. A linear standard curve indicates photometric linearity and low stray light levels. Troubleshooting GENESYS 2 PC The WinSpec software includes a Performance Validation application that you can use to evaluate and track performance. Refer to your WinSpec Operator’s Manual for more information. We recommend one of the following items to check photometric linearity: C SPECTRONIC Standards (#333150) C NIST Standards #930 and #1930 7-1 Diagnostics & Troubleshooting Table 7-1 Alphabetical list of error messages for GENESYS 2 and 5 instruments Message Cause Action Access denied ( :) Write-protect violation on Memory SoftCard. The writeprotect tab is set to "protect." Remove the SoftCard and turn off the write-protection mechanism. Re-insert the SoftCard. Accessory un-installed. Please re-install and press CANCEL. An accessory was removed from the instrument while running an application. Re-install the accessory that was removed and press CANCEL. Bad format ( :) Memory SoftCard has a bad format. Format the SoftCard (see Formatting a Memory SoftCard in the Setting up the Instrument section). Cannot execute An application program could not load. Insert the SoftCard containing the application program and try the operation again. If the problem persists, call Technical Support. Corrupted test/data file filename: The specified test or data file is corrupt. The specified test or data file can no longer be used. Delete the file and use a different one. Database read error There was an error reading a text string from the language database. Call Technical Support. Database file: .sdb not found The specified language database was not found. Call Technical Support. Dead battery ( :) Battery in Memory SoftCard is dead; data may be lost. Replace the battery according to the procedure in the Setting up the Instrument section. Debug message: A debugging message put in by the programmer is being displayed. Call Technical Support. Error saving test. Test exists and is locked. An attempt was made to save to a locked test file. Unlock the test file and try to save the test file again OR save the test using a new name. File access denied ( ) An attempt was made to write to a locked file. Unlock the file and try the write operation again. Global system data is corrupt press IGNORE to reload defaults Non-volatile instrument memory is corrupt or not initialized. Press IGNORE. The default instrument settings will be loaded into the non-volatile memory. 7-2 Diagnostics & Troubleshooting Message Cause Action I/O error ( :) SoftCard is not making a good connection with the instrument. Remove the SoftCard and insert it again. If the problem persists, call Technical Support at the numbers listed on back cover. Illegal interrupt number #### called from ####:#### An illegal interrupt has occurred within the instrument. Call Technical Support. Incompatible programs ROM version ###, application number ### The application is not compatible with the system firmware and will not run. Run a compatible version of the application OR call Technical Support. Instrument error: An error occurred that prevents the program from executing. Call Technical Support. Internal filesystem error ( :) This error indicates a serious corruption on the specified SoftCard. Try to back-up the SoftCard using the File Manager program then reformat the SoftCard according to the procedure in the Setting up the Instrument section. LAN communication error Interference or faulty connection with internal LAN. Call Technical Support. LAN error response received IDENTIFIER: ## An internal hardware error that prevents the system from operating has occurred. Call Technical Support. Low battery ( :) Low voltage in the battery in the Memory SoftCard. Replace the battery in the SoftCard according to the procedure in the Setting up the Instrument section. Memory allocation error An error occurred in the system memory. Call Technical Support. Microsoft runtime error This indicates an error message from the Microsoft library. Call Technical Support. Not enough space ( :) The specified SoftCard does not have enough free space to perform the requested operation. Delete information from the SoftCard, or use another SoftCard that has enough free space. Not Installed ( :) Memory SoftCard is not inserted in the card slot. Insert a SoftCard into the specified card slot. Optical bench does not respond The optical bench is not responding to the computer board master. Call Technical Support. 7-3 Diagnostics & Troubleshooting Message Cause Action Plotter communication error A serial communication error occurred on the connection to the plotter. 1) Check that the cable connecting the plotter is connected properly. 2) Check the baud rate, parity, word size and number of stop bits on both the instrument and the plotter. Plotter disconnected An attempt was made to access the plotter, but no plotter is connected. Re-connect the plotter. Plotter is off-line An attempt was made to access the plotter, but it is off-line. Put the plotter on-line. Plotting complete Please replace paper The page plot is complete. Load the plotter with a new sheet of paper to plot the next page. Power failure: cycle power to restart AC power has been briefly interrupted; a brownout may have occurred. Turn off the instrument and then turn it back on. Printer disconnected An attempt was made to access the printer, but no printer is connected. ! If the printer is the external printer, re-connect it. ! If the printer is the internal printer, call Technical Support. Printer error A printer fault has occurred. 1) Check that the printer is ON, connected, on-line, has paper and that the paper is inserted correctly. 2) Reinstall the printer by pressing UTILITY and selecting the appropriate printer. Printer is off-line An attempt was made to access the printer, but it is off-line. Put the printer on-line. Printer out of paper The printer does not have any paper. Re-load the printer with paper. Remove write-protect on ( :) An attempt was made to write to a SoftCard that has been protected against writes. Remove the SoftCard and turn off the write-protection mechanism. Re-insert the SoftCard. sys_init_memory(): out of memory The system ran out of memory during initialization. Call Technical Support. System baseline error A new base line will be generated Press IGNORE and wait about 20 minutes The system baseline is invalid and must be rebuilt. Press IGNORE and wait for the new baseline to be built. 7-4 Diagnostics & Troubleshooting Message Cause Action System clock error press IGNORE to reset to
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