Page 1 700 CLD / O2 5-04-2017 CAI 700...
Page 2: Table Of Contents
700 CLD / O2 5-04-2017 Table of Contents Introduction ........................... 5 Analyzer Specifications ......................8 Installation ........................... 10 Safety Information ......................10 Startup and Shutdown ......................19 Using the Keypad ........................21 Menu Flow Chart ........................23 Main Menu ........................... 31 Measure Screen .........................
Page 3 700 CLD / O2 5-04-2017 Range Setup ........................81 Range Limits ........................... 82 Auto Range On/Off ......................... 84 AutoRange Switch Points ....................... 85 Diagnostics ........................86 Diagnostic Values ........................87 Raw Values Display ........................ 89 I/O Status ..........................91 Analyzer Digital Outputs ..................... 92 Analyzer Digital Inputs ......................
Page 4 700 CLD / O2 5-04-2017 Instruction Command ......................148 Error Handling ........................150 General AK Requirements ....................151 Scan Commands ........................153 Control Commands ....................... 164 Configuration Commands ..................... 168 Modbus Protocol ......................174 MBAP Description ........................ 174 MBAP Header Description ....................175 Modbus Command Function Codes ..................
Page 5: Introduction
Support for assistance. We want you to be among our thousands of satisfied customers. Description The CAI 700 CLD Analyzer is an exceptionally accurate chemiluminescent (CLD) gas analyzer designed for measuring oxides of nitrogen in gas samples. It also includes a paramagnetic oxygen channel.
Page 6 700 CLD / O2 5-04-2017 Operating Principle The California Analytical Instruments CLD Analyzer utilizes the principle of chemiluminescence for analyzing the NO, NO or NO concentration within a gaseous sample. It uses paramagnetic technology for measurement of oxygen. In the NO mode, the measurement is based upon the chemiluminescent reaction between ozone and nitric oxide (NO) yielding nitrogen dioxide (NO ) and oxygen.
Page 7 700 CLD / O2 5-04-2017 Flow System The flow system’s basic function is to deliver highly regulated flows of sample and air or to the ozonator and reaction chamber assemblies. The EPC (electronic proportional control) valve delivers approximately 15 PSIG (Standard without ozone pump option) to a pre-set capillary and consequently accurately predetermines the ozone flow rate.
Page 8: Analyzer Specifications
700 CLD / O2 5-04-2017 Analyzer Specifications Specifications are subject to change without notice. Detector: Chemiluminescence (CLD) Photodiode (thermally stabilized with Peltier cooler). NO/NO Ranges: Four operator-definable ranges from 0-3 to 0-3,000 ppm standard (consult factory for other ranges). Paramagnetic O : Ranges 0-25% and 0-100%.
Page 9 700 CLD / O2 5-04-2017 Special Features:  Calculated NO derived from NO converter efficiency  Auto ranging  Auto calibration (adjustable through internal clock)  < 3 cc gold-plated reaction chamber Display: 3” x 5” backlit LCD. Sample Temperature: Up to 50°C non-condensing sample. Ambient Temperature: 5 to 40°C.
Page 10: Installation
700 CLD / O2 5-04-2017 Installation Safety Information Safety Alert Temperature Hazard Electrical Shock Hazard Caution or Warning Caution or Warning Caution or Warning Note, Caution and Warning symbols appear on the instrument and in this manual to draw your attention to important operational and safety information. A “NOTE”...
Page 11 700 CLD / O2 5-04-2017 symbol (a lightning bolt in a triangle) precedes an electrical shock hazard CAUTION or WARNING statement. Some or all of the above symbols may appear in this manual or on the equipment. This manual should be consulted whenever one of these symbols is encountered on the equipment.
Page 12 The shipping container and packaging are specially designed to protect the analyzer in transport. If you ever need to return the analyzer to CAI for repair or any other reason, the original shipping container and packaging should be used.
Page 13 700 CLD / O2 5-04-2017 Rack Mounting The front panel is designed for mounting into a standard 19-inch rack enclosure. Holes are located on the left and right side to allow the panel to be secured in the rack by screws.
Page 14 700 CLD / O2 5-04-2017 Site Selection and Mounting CAUTION: The following precautions must be carefully observed: 1. Select a site free from direct sunlight, radiation from a high-temperature surface, or abrupt temperature variations. 2. This analyzer is not suitable for installation outdoors. 3.
Page 15 700 CLD / O2 5-04-2017 Electrical All wiring is connected at the rear of the analyzer. The AC power cord is connected to the power entry as shown below: Fuse Panel Power ON/OFF Switch Power Entry AC Power Switch, Connector and Fuse. NOTE: A defective ground may affect the analyzer’s operation.
Page 16 700 CLD / O2 5-04-2017 inlet. Gases introduced through a calibration port should be at 20-25 PSIG. If introduced through the sample port, pressures should be as follows: 1. Without sample pump, pressure should be 10-25 PSIG. 2. With sample pump – no pressure. 3.
Page 17 700 CLD / O2 5-04-2017 Sampling Requirements Filtration Dust must be eliminated completely in the sample stream. Use filters as necessary. The final filter must be capable of removing any particles larger than 4 microns. Condensation The dew point of the sample gases must be lower than the instrument temperature to prevent accidental condensation within the instrument.
Page 18 700 CLD / O2 5-04-2017 If the analyzer does not contain an optional internal sample pump, the sample gas entering the instrument should be at a pressure between 10 and 25 PSIG with a flow capacity at a minimum of 3 liters/min. If the analyzer is using the optional sample pump, do not introduce a pressurized sample.
Page 19: Startup And Shutdown
Turn on the Power switch on the analyzer’s rear panel. After a short delay, the digital display should illuminate. If the display does not come on, check the power source and the fuse. If the problem persists, call CAI Technical Support. section and review the complete Operator’s Manual for...
Page 20 700 CLD / O2 5-04-2017 Proper Storage After power down, allow the heated analyzer components to cool to room temperature before preparing for storage. If the original shipping box was retained, the analyzer should be stored in the box in the packing material supplied.
Page 21: Using The Keypad
700 CLD / O2 5-04-2017 Using the Keypad When the Measure screen is displayed, the ten Function keys (F1 through F10) are shortcuts to commonly used screens. On other screens, these keys can either be used as function keys or to enter numeric values. This is why each number key includes both the larger Function number at the top (for example, F1) and the smaller number underneath for numeric value (for example, 1).
Page 22 700 CLD / O2 5-04-2017 From any screen, the Measure key takes you to the Measure screen. The current measurement is being displayed. The Enter key: 1. In Function mode, the Enter key selects the highlighted function. 2. When a field is highlighted for numeric input, pressing the Enter key opens the selected field for numeric entry with a blinking cursor.
Page 23: Menu Flow Chart
Menu Flow Chart The menu flow chart is a handy reference that will help you familiarize yourself with the operation of the CAI System 700 CLD Analyzer. Start by pressing to access the Main Menu to quickly find any screen.
Page 24 700 CLD / O2 5-04-2017 Calibration Menu Main Menu Menus Calibration Calibration Manual Automated Cal Gas Calibration Reset Factory Calibration Calibration Concentration Setup Factors Settings Initiate Manual Auto Cal Reset Zero NOx Sequenced Cal Deviations Schedule Offset and Gain Zero Gas Initiate Span NOx Auto Cal...
Page 25 700 CLD / O2 5-04-2017 Range Setup Menu Main Menu Menus Range Setup AutoRange AutoRange Range Limits On/Off Switch Points AutoRange On AutoRange Off Security Level Legend Security Level 1 STANDARD Security Level 2 SETUP Security Level 3 FACTORY...
Page 26 700 CLD / O2 5-04-2017 Diagnostics Menu Main Menu Menus Diagnostics Diagnostic Raw Value I/O Status Status Line Values Display Analyzer Digital Turn Status Line ← Temps → Outputs ← Press → ← → ← Flows → Analyzer Digital Turn Status Line Inputs Programmable Digital Outputs...
Page 27 700 CLD / O2 5-04-2017 Setup Menu Main Menu Menus Setup Data Logging Measure Output TCP/IP Auto Start Clock Settings Parameters Time Settings Settings Averaging Programmable Programmable Time Analogs Digitals NO/NOx/NO Output Output Output Output Mode Times Assignments Assignments Hold/Clear Test NOx Correction Output...
Page 28 700 CLD / O2 5-04-2017 Alarms Menu Main Menu Menus Alarms Alarm Display Current Alarms Alarm Log Alarm Limits On/Off Turn Alarm Temperatures Display On Turn Alarm Pressures Display Off EPC Voltages Concentrations Security Level Legend Security Level 1 STANDARD Security Level 2 SETUP...
Page 29 700 CLD / O2 5-04-2017 Service Menu Main Menu Menus Service Linear Factory Service CAI use Only Coefficients Range 1 Range 2 Range 3 Range 4 Security Level Legend Security Level 1 STANDARD Security Level 2 SETUP Security Level 3...
Page 30 700 CLD / O2 5-04-2017 Security Menu Main Menu Menus Security Operator Levels Reset Password Change Password Standard Functions Setup Functions Factory Functions Security Level Legend Security Level 1 STANDARD Security Level 2 SETUP Security Level 3 FACTORY...
Page 31: Main Menu
700 CLD / O2 5-04-2017 Main Menu The Main Menu is your gateway to operational, setup and maintenance functions on the 700 CLD Analyzer via the corresponding function keys. All software functions of the 700 CLD Analyzer can be reached via the menu above from the Main Menu screen. Operation starts by pressing the Menu key to bring up the Main Menu.
Page 32: Measure Screen
700 CLD / O2 5-04-2017 Measure Screen Screen Name Current Range AK Status Line Measured Concentration Second Log On Analyzer Mode Shortcut Menu Range Limit Current Time & Active Alarms Keypad Status The Measure Screen provides a visual of the current concentration of the gas being analyzed, along with other pertinent information.
Page 33 700 CLD / O2 5-04-2017 AK Status Line: When the AK Status line is enabled, it will scroll through the analyzer’s present state using AK Protocol. See Protocol. Analyzer Mode: The active mode the analyzer is in (NO, NO or NO/NO Measured Concentration: The current concentration that is displayed on the screen.
Page 34 700 CLD / O2 5-04-2017 Diags Diagnostic Values is used to view Temperatures, Pressures, EPC Percent Full scale and Flows. Auto Range Allows operators to turn Auto Range On or Off. Manual Cal Allows operators to Zero or Span the analyzer from the Manual Calibration menu. Menus The Menus screen is the starting point for advanced setup and functions.
Page 35: Measure Mode
700 CLD / O2 5-04-2017 Measure Mode → → The Measure Mode menu is used to select one of three measurement modes: NO, NOx or NO/NOx/NO . The Measure Mode menu is accessed by pressing the on the Main Menu. This menu will affect how the analyzer operates and what is displayed in the Measure screen.
Page 36: No Mode
700 CLD / O2 5-04-2017 NO Mode → → To move to the NO mode, press while in the Measure Mode menu. In NO mode, the sample gas does not pass through the analyzer’s NO converter. The final reading is NO only.
Page 37: No/No X /No 2 Mode
700 CLD / O2 5-04-2017 NO/NO Mode → → mode activates the “sample and hold” feature which allows the The NO/NO analyzer to automatically cycle between NO and NO measurement. To change to the NO/NO mode, press from the Measure Mode menu. The current measuring mode (cycle) is indicated above the analyzer range.
Page 38: Analyzer Info
This screen includes the Model and Serial Number of your analyzer (for easy identification if you are discussing your analyzer with CAI), factory settings for sample pressure and air pressure, and the software versions being used. The analyzer’s current IP...
Page 39: Remote/Manual
700 CLD / O2 5-04-2017 Remote/Manual → The Remote/Manual menu gives the operator the ability to control the instrument manually using the keypad or via a remote computer. The Remote/Manual menu is accessed by pressing the key on the Main Menu. The current setting (Remote Mode) is displayed in the upper right-hand corner of the screen.
Page 40: Standby
→ When the analyzer is in Standby Mode, the pump is turned off and the solenoid valves are closed. The CAI logo is displayed along with the Serial Number. Standby mode is accessed by pressing the key from the Main Menu.
Page 41: Menus
700 CLD / O2 5-04-2017 Menus → → The Menus screen provides access to most instrument features, including Calibration, Setup and Diagnostics. From the Main Menu press to bring up the Menus screen. Press to access the Calibration menus. Press to access the Range Setup menu.
Page 42: Calibration
700 CLD / O2 5-04-2017 Calibration → → The 700 CLD Analyzer requires initial calibration with zero and span calibration standards before operation. These calibrations can be performed manually or initiated automatically. From the Menus screen press to access the Calibration menu. The Calibration menu includes important features including basic setup for both manual and automated calibration.
Page 43: Manual Calibration
700 CLD / O2 5-04-2017 Manual Calibration Whether you are calibrating a single range or multiple ranges, each range requires its own complete zero and span calibration. If you are calibrating multiple ranges during one session, the zero calibrations can all be performed before any of the span calibrations, as long as they are within the same relatively short time period.
Page 44: No Or No Mode
700 CLD / O2 5-04-2017 Manual Calibration NO or NO Mode → → → → When a manual calibration is performed in Single Mode operation (NO or NO mode), the analyzer will remain in that mode during calibration. In Single Mode operation the analyzer can only be calibrated for one mode.
Page 45: Zero
700 CLD / O2 5-04-2017 Zero → → → → Zero calibration should be performed before a span calibration. From the Manual Calibration menu, press to access the Manual Zero Calibration screen. Make sure the analyzer is in the range you wish to calibrate. Use the Up/Down arrows to go to the desired range.
Page 46 700 CLD / O2 5-04-2017 When the concentration value has stabilized, press to set the zero calibration. The zero portion of the calibration should now be complete. If the calibration was successful, the screen will say ***Saved Current*** above the concentration value.
Page 47 700 CLD / O2 5-04-2017 If the zero calibration is unsuccessful, check the following: 1. Make sure the correct gas was introduced into the analyzer. 2. Verify the Diagnostic Values while flowing gas. 3. Check Zero Gas Deviations under Manual Deviations: →...
Page 48: Span
700 CLD / O2 5-04-2017 Span → → → → A span calibration should be performed after a successful zero calibration. From the Manual Calibration menu press to access the Manual Span Calibration screen. Make sure the highlighted span gas value (see above) matches the value on the certificate for the span calibration gas being supplied to the analyzer.
Page 49 700 CLD / O2 5-04-2017 When the concentration number has stabilized, press to set the span calibration. The calibration should now be complete. If the span calibration was successful, the screen will say ***Saved Current***. If the calibration was unsuccessful, the screen will say Outside Deviation Limits. See the Manual Zero Calibration section for examples of screens showing successful and unsuccessful calibrations.
Page 50: No/No X /No 2 Mode
700 CLD / O2 5-04-2017 Manual Calibration NO/NO Mode → → → → When performing a calibration in Switching mode (NO/NO mode), the operator has the option of using basic calibration in NO mode or advanced calibration to create NO Correction Factors using NO and NO modes.
Page 51: Automated Calibration
700 CLD / O2 5-04-2017 Automated Calibration → → → An automated calibration is a timed zero calibration immediately followed by a timed span calibration. The Automated Calibration menu offers two choices: Sequenced Calibration and Sequenced Check of the existing calibration. The Automated Calibration menu is accessed by pressing from the Calibration menu.
Page 52 700 CLD / O2 5-04-2017  This automated calibration is triggered manually and not by the analyzer’s clock or via remote signal. A fully automated sequenced calibration can be preset to include the desired interval for recurring analyzer-initiated calibrations. This requires additional setup.
Page 53: Initiate Sequenced Cal
700 CLD / O2 5-04-2017 Initiate Sequenced Cal → → → → Because of timing requirements, sequenced calibrations are generally only used when the analyzer is controlling the flow of zero and span gases into the analyzer. To initiate a sequenced calibration, press from the Automated Calibration menu.
Page 54 700 CLD / O2 5-04-2017 1. Zero Range 1 Purging – Allows time for the zero gas to flush out any residual gases that may still be present in the detection path. 2. Zero Range 1 Calibrating – The calculated averaged zero is set as the new offset value, as long as it is within the Maximum Calibration Error limits.
Page 55: Initiate Sequenced Check
700 CLD / O2 5-04-2017 Initiate Sequenced Check → → → → Initiate Sequenced Check is a useful tool for setting up Auto Calibration. From the Auto Calibration Menu screen, pressing initiates a sequenced calibration check. Rather than initiating a calibration, it checks the validity of your most current calibration. A sequenced calibration check performs all of the steps of a sequenced calibration with the exception of the zero and span calibrations.
Page 56: Cal Gas Concentrations
700 CLD / O2 5-04-2017 Cal Gas Concentrations → → → → The Cal Gas Concentrations Screen allows operators to change calibration gas values for multiple ranges on one screen. To access the Cal Gas Concentrations screen (shown above) press from the Calibration Menu.
Page 57: Calibration Setup
700 CLD / O2 5-04-2017 Calibration Setup → → → The Calibration Setup menu provides all the parameters necessary for completing a successful calibration. To access the Calibration Setup menu, select from the Calibration menu. All parameters on the Calibration Setup menu apply to Automated Calibration. The following also apply to Manual Calibration: Cal Pump/Valves, Auto Cal/Check, Deviation Limits and Analog Hold on Cal.
Page 58: Auto Calibration Schedule
700 CLD / O2 5-04-2017 Auto Calibration Schedule → → → → Next Scheduled Scheduled Screen Name Calibration Time and Date Calibration Interval Save Hourly, Daily or Current Date and AutoCal On / Off Weekly Time The Auto Calibration Schedule screen allows the operator to run automated calibrations using the analyzer’s internal clock.
Page 59 700 CLD / O2 5-04-2017 Use the arrow buttons to move the highlight to changeable fields (in the example, Start Time: 12). Press to open the field and change the value. Press again to close the field after you have made your changes. After all the changes have been made, you must choose one of the following: (Hourly), (Daily) or...
Page 60: Auto Calibration Parameters
700 CLD / O2 5-04-2017 Auto Calibration Parameters → → → → Auto Calibration Parameters allows the operator to select the range, mode and choose between Zero and All calibration gases (both zero and span). To access the AutoCal Parameters screen, press from the Calibration Setup menu.
Page 61 700 CLD / O2 5-04-2017 Calibration Gases gives you a choice of calibrating with Zero gas only or All calibration gases (zero and span gases). Press to open the field and change the parameter using the up/down arrows . Press to close the field.
Page 62: Calibration Via Pump/Valves
700 CLD / O2 5-04-2017 Calibration Via Pump/Valves → → → → The use of Cal via Pump/Valves depends upon how calibration gases are being introduced into the analyzer – via a sample pump or internal valves (if equipped with internal valve option). The existing setting (Valves in the example) is shown at the top right of the menu.
Page 63: Auto Calibration/Check
700 CLD / O2 5-04-2017 Auto Calibration/Check → → → → Auto Calibration/Check lets the operator select whether the analyzer actually calibrates, or performs a check of the calibration. To access the Auto Cal/Check menu, press from the Calibration Setup menu. The current setting is shown on the upper-right corner of the screen.
Page 64: Auto Calibration Timing
700 CLD / O2 5-04-2017 Auto Calibration Timing → → → → Auto Calibration Timing determines the length of time it takes the analyzer to perform the Zero and Span cycles during a sequenced auto calibration. To access the AutoCal Timing screen, press from the Calibration Setup menu.
Page 65 700 CLD / O2 5-04-2017 1. Purge Before: the operator can set the amount of time necessary to flush the analyzer with calibration gases. This will ensure that there are no other gases remaining in the analyzer during the calibration process. 2.
Page 66: Deviation Limits
700 CLD / O2 5-04-2017 Deviation Limits → → → → Deviation Limits are used by the operator to define the maximum acceptable error limits of the zero and span gases for both manual and sequenced calibration. To access the Deviation Limits menu, press from the Calibration Setup menu.
Page 67: Maximum Calibration Error
700 CLD / O2 5-04-2017 Maximum Calibration Error → → → → → Maximum Calibration Error is used by the operator to define the maximum acceptable tolerances for Absolute and Relative deviations. Each range has its own set of Absolute and Relative tolerances. The deviations must be inside these tolerances for the analyzer to accept a calibration.
Page 68: Maximum Verifying Error
700 CLD / O2 5-04-2017 Maximum Verifying Error → → → → → Maximum Verifying Error is the allowable tolerance during the Verifying step of sequenced calibration. To access the Maximum Verifying Error screen, press from the Deviation Limits menu. To set the allowable tolerances for different ranges, use the up or down arrow to move the highlight to the field you intend to change.
Page 69: Analog Hold On Cal
700 CLD / O2 5-04-2017 Analog Hold on Cal → → → → Analog Hold on Cal will hold the analog outputs to the last measured value during calibration. If Analog Hold on Cal is Off the analog outputs will be live. The existing setting (Off) is shown at the top right of the menu.
Page 70: Calibration Factors
700 CLD / O2 5-04-2017 Calibration Factors → → → Calibration Factors allow the operator to track and view changes from the factory and previous calibrations. To access the Calibration Factors menu, press from the Calibration menu. Press to view the Manual Calibration Deviations menu. Press to view the Auto Calibration Deviations menu.
Page 71: Manual Deviations
700 CLD / O2 5-04-2017 Manual Deviations → → → → The Manual Deviations menu allows the operator to view the Zero and Span Deviations from manual calibrations. Press from the Calibration Factors menu to access the Manual Deviations menu. Press to view Zero Gas deviations.
Page 72: Zero Gas Deviations
700 CLD / O2 5-04-2017 Zero Gas Deviations → → → → → Press from the Manual Deviations menu to view the Zero Gas Deviations screen. Absolute Zero Gas Deviation is the zero gas content calculated by the factory polynomial related to the calibrated range limit. Relative Zero Gas Deviation is the current deviation minus the deviation of the previous calibration related to the calibrated range limit.
Page 73: Span Gas Deviations
700 CLD / O2 5-04-2017 Span Gas Deviations → → → → → Press from the Manual Deviations menu to view the Span Gas Deviations screen. Absolute Span Gas Deviation is span gas bottle value minus span gas value calculated by the factory polynomial related to the calibrated range limit.
Page 74: Auto Cal Deviations
700 CLD / O2 5-04-2017 Auto Cal Deviations → → → → The Auto Calibration Deviations menu gives the operator a choice of viewing either zero or span verifying deviations. The verifying deviations are taken during the verifying stage of sequenced and auto calibrations. Press from the Calibration Factors menu to access the Auto Cal Deviations menu.
Page 75: Verifying Zero Deviations
700 CLD / O2 5-04-2017 Verifying Zero Deviations → → → → → Press from the Auto Cal Deviations menu to view the Verifying Zero Deviations screen. Measured Value is the averaged concentration during the Verifying Zero stage of sequenced and auto calibrations. Variance is the difference of the measured value and zero.
Page 76: Verifying Span Deviations
700 CLD / O2 5-04-2017 Verifying Span Deviations → → → → → Press from the Auto Cal Deviations menu to view the Verifying Span Deviations screen. Measured Value is the averaged concentration during the Verifying Span stage of sequenced and auto calibrations. Variance is the difference of the measured value and span gas concentration.
Page 77: Offset/Gain Factors
700 CLD / O2 5-04-2017 Offset/Gain Factors → → → → When used in conjunction with the Manual Calibration Deviations, an increasing or decreasing change in Offset or Gain will provide insight into changes in analyzer performance. Press from the Calibration Factors menu to access the Offset/Gain Factors screen.
Page 78: Reset Factory Settings
700 CLD / O2 5-04-2017 Reset Factory Settings → → → The Reset Factory Settings menu gives the operator a choice of resetting the Offsets and Gains, or both Factory Linear Coefficients and Offsets and Gains for all calibrated ranges. Resetting factory settings will not affect any other operator-changed parameters.
Page 79 700 CLD / O2 5-04-2017 Reset Offsets and Gains → → → → Pressing from the Reset Factory Settings menu will prompt the operator to confirm resetting Offsets and Gains for all ranges. Pressing (Yes) from this screen resets the Offset and Gain factors to factory default settings (0 and 1 respectively) and brings you to this confirmation screen: ...
Page 80 700 CLD / O2 5-04-2017 Reset Linear Coefficients → → → → Pressing from the Reset Factory Settings menu will prompt the operator to confirm resetting the Linear Coefficients for all ranges. Pressing (Yes) from this screen resets all the Linear Coefficients, Offset and Gain Factors and NO Correction Factors to factory default settings and brings you to this confirmation screen: NOTE: After resetting Linear Coefficients, the analyzer must be zeroed and spanned...
Page 81: Range Setup
700 CLD / O2 5-04-2017 Range Setup → → Range Setup allows the operator to change Range Limits, turn Auto Range On or Off, and change Auto Range Switch Points. From the Menus screen press access the Range Setup menu. Press to view or change Range Limits.
Page 82: Range Limits
700 CLD / O2 5-04-2017 Range Limits → → → → The analyzer is factory-configured with four physical ranges (1 - 4). The operator can change the number of ranges and select a specific full-scale concentration in ppm. From the Range Setup menu press to access the Range Limits screen.
Page 83 700 CLD / O2 5-04-2017 4. To set two ranges, set Range 1 to the lowest value, Range 2 to the highest value, and the others to zero. 5. If new ranges are saved, the Auto Range Switch Points will be set to default percentages of range limits.
Page 84: Auto Range On/Off
700 CLD / O2 5-04-2017 Auto Range On/Off → → → → The Auto Range Function allows the analyzer to automatically switch up and down between ranges at predetermined concentrations. From the Range Setup menu press to access the Auto Range On/Off screen. The current Auto Range status appears in the upper-right corner of the screen.
Page 85: Autorange Switch Points
700 CLD / O2 5-04-2017 AutoRange Switch Points → → → Auto Range Switch Points determine when the analyzer automatically changes a range up or down when the Auto Range function is turned on. From the Range Setup menu press to access the Auto Range Switch Points screen.
Page 86: Diagnostics
700 CLD / O2 5-04-2017 Diagnostics → → The Diagnostics menu allows the operator to access key troubleshooting screens including Diagnostic Values, Raw Values and Input/Output statuses. From the Menus screen press to access the Diagnostics menu. Press to access the Diagnostic Values screen. It allows you to check analyzer temperatures, pressures, EPC voltage percentages and flows.
Page 87: Diagnostic Values
700 CLD / O2 5-04-2017 Diagnostic Values → → → → Temperatures Screen The Diagnostic Values screens allow the operator to check analyzer temperatures, sample and air pressures, EPC voltage percentages and flows. These important screens are accessed by pressing from the Diagnostics menu.
Page 88 700 CLD / O2 5-04-2017 Pressures Screen The Pressures screen displays current sample and air pressures and low and high alarm limits in PSIG. EPC Voltage Percent Screen The EPC screen displays the percentage of EPC voltage being supplied to the EPC valve. Flows Screen The Flows screen displays the current flow of sample and air in mL/minute.
Page 89: Raw Values Display
700 CLD / O2 5-04-2017 Raw Values Display → → → → The Raw Values Display screen is a diagnostic tool for viewing detector Raw Volts and Calculated Concentrations. This screen is accessed by pressing from the Diagnostics menu. Raw Voltage: This is a 0.512 VDC to 4.512 VDC that will be digitized by the microprocessor to generate the calibration curve from which the Raw Concentration and Measured Concentration are derived.
Page 90 700 CLD / O2 5-04-2017 From the Raw Values Display screen, the following functions can be useful for diagnosing and monitoring the analyzer’s performance: to change the analyzer’s mode to NO or NO Press . If the analyzer is in NO/NO mode it will continue to switch between NO and NO .
Page 91: I/O Status
700 CLD / O2 5-04-2017 I/O Status → → → The I/O Status menu gives the operator a choice of viewing the statuses of the analyzer’s digital outputs or digital inputs (open or closed). To access the I/O Status menu, press from the Diagnostics menu.
Page 92: Analyzer Digital Outputs
700 CLD / O2 5-04-2017 Analyzer Digital Outputs → → → → The Analyzer Digital Outputs screen allows the operator to view the status of an analyzer output (Open or Closed) and where to find the corresponding pin number. To access the Analyzer Digital Outputs status screen, press from the I/O Status menu.
Page 93: Analyzer Digital Inputs
12 is the Pin Number on that connector. The abbreviations are as follows: M = Main Connector A = Auxiliary Int = internal, for CAI use only. When the analyzer is in Remote Mode and the digital input is pulled to digital ground (Main Connector, Pin 6), the status will become Closed.
Page 94: Programmable Digital Outputs
700 CLD / O2 5-04-2017 Programmable Digital Outputs → → → → The Programmable Digital Outputs screen allows the operator to check the status of the analyzer’s programmable digital outputs (Open or Closed) according to pin numbers and programmed functions. From the I/O Status menu, press to view Programmable Digital Output statuses.
Page 95: Status Line
700 CLD / O2 5-04-2017 Status Line → → → The AK Command Status Line can be displayed at the top of the Measure Screen. This field contains the current AK Protocol information. See Protocol. The current status is shown in the upper-right corner of the Status Line menu. Example above: OFF. From the Diagnostics menu, Press to select On or Off.
Page 96: Setup Menu
Programmable Digital outputs can be viewed or set up to fit the operator’s needs. Press to view or change the current TCP/IP parameters. Press to access the Data Logging Time screen. (For CAI use only.) Press to view or make changes to the Auto Start Settings. Press...
Page 97: Measure Settings
700 CLD / O2 5-04-2017 Measure Settings → → → The Measure Settings menu provides access to the following Setup parameters: Averaging Time, NO/NO Mode Times and NO Correction Factors. The Measure Settings menu is accessed by pressing from the Setup menu. Press to view or change the Averaging Time of the measured concentration.
Page 98: Averaging Time
700 CLD / O2 5-04-2017 Averaging Time → → → → The Averaging Time screen allows the operator to set the averaging time of the measured concentration. From Measure Settings menu press to access the Averaging Time screen. The Averaging Time is a sliding average. As shown above, it can be set from 0 – 60 seconds.
Page 99: No/No X /No 2 Mode Times
700 CLD / O2 5-04-2017 NO/NO Mode Times → → → → The NO/NO Mode Times screen allows the operator to set the Purge Time and the Integration Time. From Measure Settings menu press to access the NO/NO Mode Times screen. The Purge and Integration times are set to allow adequate purging and integration times between the NO and NO cycles.
Page 100: Nox Correction Factors
700 CLD / O2 5-04-2017 NOx Correction Factors → → → → → Current Settings Correction Factors allows the operator to adjust small offsets between the NO and NOx modes while operating in the NO/NO mode. Press to access the Correction Factors menu from the Measure Settings menu.
Page 101 700 CLD / O2 5-04-2017 Press to set the analyzer in NO mode and enter the Manual Zero Calibration screen. Introduce zero gas into the rear of the analyzer. Once the concentration stabilizes, press to set the Zero Offset. Press to return to the NO Correction Factors menu.
Page 102: Output Settings
700 CLD / O2 5-04-2017 Output Settings → → → The Output Settings menu allows the operator to change the analyzer’s Programmable Analog and Programmable Digital outputs to suit the operator’s needs. The Output Settings menu is accessed by pressing from the Setup menu.
Page 103: Programmable Analogs
700 CLD / O2 5-04-2017 Programmable Analogs → → → → The Programmable Analogs menu provides access to the following Setup parameters: Output Assignments, Output Scaling and Output Adjustments. The Programmable Analogs menu is accessed by pressing from the Output Settings menu.
Page 104: Output Assignments
700 CLD / O2 5-04-2017 Output Assignments → → → → → The Output Assignments screen allows the operator to view or change the signals assigned to the programmable analog outputs. From the Programmable Analogs menu press to access the Output Assignments screen. Use the Up/Down arrows to highlight the field you intend to change.
Page 105 700 CLD / O2 5-04-2017 The following output signals can be programmed by the operator from the Output Assignments screen: mode the concentration’s output will be a live reading. RealTime: In either NO or NO NO: In NO mode the concentration’s output will be a live reading. In NO/NO mode the output will be a read and hold.
Page 106: Output Scaling
700 CLD / O2 5-04-2017 Output Scaling → → → → → The Output Scaling screen allows the operator to scale the analyzer’s Analog Outputs to a specific value for each of the four output signals. This is generally used for scaling of temperatures or pressures, but it can also be used to set an output for a specific concentration.
Page 107 700 CLD / O2 5-04-2017 EXAMPLES: 1. When the analog Output Assignment is set for Cell Temperature and the lower setting is set to 0.00 and the upper setting is set to 100.00, 66°C will = 6.6 VDC. 2. When the analog Output Assignments are set for concentrations and the default upper and lower settings are 0.00 and 0.00, the default settings allow the output...
Page 108: Output Adjustments
700 CLD / O2 5-04-2017 Output Adjustments → → → → → The Output Adjustments screen allows the operator to set the output to either mA or voltage and calibrate the outputs to exactly match the results obtained on a PLC or other remote data-recording device.
Page 109 700 CLD / O2 5-04-2017 Once the output type has been selected, use the Left/Right arrows to move the highlight into the % FS column of the output to be checked. Press until the % FS value reads 0.000. To adjust the zero (Offset), use the Left/Right arrows highlight the Offset column and press to open the field.
Page 110: Programmable Digitals
700 CLD / O2 5-04-2017 Programmable Digitals → → → → The Programmable Digitals menu provides access to the analyzer’s digital outputs for viewing and changing Output Assignments, holding or clearing alarms, and testing the outputs. The Programmable Digitals menu is accessed by pressing from the Output Settings menu.
Page 111: Output Assignments
700 CLD / O2 5-04-2017 Output Assignments → → → → → The Output Assignments screen allows the operator to assign any of the 15 programmable digital outputs to a specific alarm or status. From the Programmable Digitals menu press to access the Output Assignments screen.
Page 112 700 CLD / O2 5-04-2017 Programmable Digital Output List Alarms_________________________________________________________________  SampP – Sample Pressure  AUnd – ADC Under Range  AirP – Air Pressure  R1NC – Range 1 not calibrated  OvenT – Oven Temperature  R2NC – Range 2 not calibrated ...
Page 113 700 CLD / O2 5-04-2017 General Alarms__________________________________________________________  Sample Pressure  Dryer Temperature  Air Pressure  O2 Temperature  Oven Temperature  Sample EPC Voltage  Converter Temperature  Air EPC Coil Voltage  Pump Temperature  ADC Over Range ...
Page 114: Output Hold/Clear
700 CLD / O2 5-04-2017 Output Hold/Clear → → → → → The Output Hold/Clear menu allows the operator to choose whether to hold or clear a triggered alarm when the alarm is no longer present. The current status is shown in the upper-right corner of the Output Hold/Clear menu.
Page 115: Output Test
700 CLD / O2 5-04-2017 Output Test → → → → → The Output Test Screen allows the operator to test the Programmable Digital Outputs to make sure they are functioning properly. The Output Test Screen is accessed by pressing from the Programmable Digitals menu.
Page 116 700 CLD / O2 5-04-2017 To test outputs one at a time, use the Up/Down arrows to highlight the desired output, then press to change the state of the output (open or closed). Press again to change the state back. To test all the outputs at once, press to change the state of all the outputs (they are all Open in the example).
Page 117: Tcp/Ip Parameters
The IP-address, Netmask and Gateway may be defined by the user. The Port and WinIfPort are assigned 7750 and 2000 by CAI and should not be changed unless required for a certain location. Use the Up/Down arrows to move the highlight to the setting you wish to change.
Page 118: Data Logging Time
Data logging allows the analyzer to store internal variables to support CAI troubleshooting. When troubleshooting with CAI Technical Support, the operator may be asked to turn this feature on. These files can only be accessed by CAI. To access the Data Logging screen press from the Setup menu.
Page 119: Auto Start Settings
700 CLD / O2 5-04-2017 Auto Start Settings → → → The Auto Start Settings screen allows the operator to set parameters that will take effect upon power up of the analyzer. The Auto Start Settings screen is accessed by pressing from the Setup menu.
Page 120 700 CLD / O2 5-04-2017 To change a setting use the Up/Down arrows to move the highlight to the setting you wish to change. Press to open the field to change the value. After making your change, press again to close the field. Press to save your changes and return to the Setup menu.
Page 121: Clock Settings
700 CLD / O2 5-04-2017 Clock Settings → → → The Clock Settings screen allows the operator to set the analyzer’s internal clock. The internal clock is used for auto calibrations and data time stamping. The Clock Settings screen is accessed by pressing from the Setup menu.
Page 122: Alarms Menu
700 CLD / O2 5-04-2017 Alarms Menu → → The Alarms menu allows the operator to view Current Alarms, the Alarm Log and settable Alarm Limits. From the Menus screen press to access the Alarms menu. Press to access the Current Alarms screen and view the alarms that are currently active. Press to access the Alarm Log.
Page 123: Current Alarms
700 CLD / O2 5-04-2017 Current Alarms → → → The Current Alarms screen allows the operator to view the analyzer’s current alarms at the time this screen was accessed. To access the Current Alarms screen press from the Alarms menu. Press to refresh this screen.
Page 124: Alarm Log
700 CLD / O2 5-04-2017 Alarm Log → → → Screen Name Alarm Abbreviation Alarm Status Year / Month / Day Hour / Minute Alarm Value The Alarm Log allows the operator to view the analyzer’s last 40 alarms and their current statuses.
Page 125 700 CLD / O2 5-04-2017 Alarm Abbreviations and Descriptions SampP – Sample Pressure AOvr – ADC Over Range AirP – Air Pressure AUnd – ADC Under Range OvenT – Oven Temperature R1NC – Range 1 not calibrated ConvT – O R2NC –...
Page 126: Alarm Limits
700 CLD / O2 5-04-2017 Alarm Limits → → → The Alarm Limits menu allows the operator to view or change the current upper and lower alarm tolerances. When the signals go above or lower than the assigned limit an alarm is triggered.
Page 127: Temperatures
700 CLD / O2 5-04-2017 Temperatures → → → → From the Alarm Limits menu press to access the Temperatures screen. Use the left or right arrow to highlight the alarm limit you wish to change. Press to open the field to change the value.
Page 128: Pressures
700 CLD / O2 5-04-2017 Pressures → → → → From the Alarm Limits menu press to access the Pressures screen. Use the left or right arrow to highlight the alarm limit you intend to change. Press to open the field to change the value.
Page 129: Epc Voltages
700 CLD / O2 5-04-2017 EPC Voltages → → → → From the Alarm Limits menu, press to access the EPC Voltage Alarm Limits screen. Use the left or right arrow to highlight the alarm limit you intend to change. Press open the field to change the value.
Page 130: Concentrations
700 CLD / O2 5-04-2017 Concentrations → → → → Concentration alarms can be set to trigger an alarm below or above a specified concentration. From the Alarm Limits menu, press to access the Concentration Alarm Limits screen. Use the left or right arrow to highlight the concentration alarm limit you intend to change.
Page 131: Alarm Display On/Off
The scrolling alarms will be replaced with the CAI phone number when an alarm is active. If there are no alarms, only the date and time will be displayed.
Page 132: Service Menu
5-04-2017 Service Menu → → The Service Menu is for advanced operators and CAI Service. The Service menu provides access to operator-level linear coefficients and CAI factory service. From the Menus screen press to access the Service menu. Press to view or change operator-level linear coefficients.
Page 133: Linear Coefficients
700 CLD / O2 5-04-2017 Linear Coefficients → → → The Linear Coefficients function allows the operator to optimize linearity by inputting up to five coefficients for each range to generate up to a fourth-order curve. From the Service menu press to access the Linear Coefficients screen.
Page 134 700 CLD / O2 5-04-2017 Use the Up/Down arrows to highlight the coefficient you intend to change. Press to open the field, use the left and right arrow buttons to position the cursor, and use the Up/Down arrows or number keys to make your change. Press again to close the field.
Page 135: Factory Service
700 CLD / O2 5-04-2017 Factory Service → → → The Factory Service menus can only be accessed by California Analytical Instruments. The best way to contact CAI with a support question is to fill out our brief Technical Support Form at http://www.gasanalyzers.com/technical_support/new.
Page 136: Security
700 CLD / O2 5-04-2017 Security → → The Security menu allows the operator to change the access to Standard or Setup Function menus and change or reset the Setup Function password. From the Menus screen press to access the Security menu. to set the operator’s access level.
Page 137: Operator Levels
Setup Functions for advanced operators. This allows the operator access to all standard functions, setup functions and parameters. Setup Functions requires the operator to enter the password “222.” The analyzer will remain in this level until the operator changes it. Factory Functions is for CAI use only.
Page 138: Change Password
700 CLD / O2 5-04-2017 Change Password → → → The Change Password screen allows the operator to change the Setup Functions password from the factory-preset 222 to a new password. From the Security menu screen press access the Operator Levels screen. To change the password, press to open the field.
Page 139: Reset Password
700 CLD / O2 5-04-2017 Reset Password → → → The Reset Password screen allows the operator to reset the Setup Password to the original factory password (222). From the Security menu screen press to access the Reset Password screen. To return the password to the original factory password, you must enter WIZARD in the field.
Page 140: Communication And Interface
700 CLD / O2 5-04-2017 Communication and Interface Analog and Digital Interface The Main and Auxiliary connectors provide the analog outputs for concentrations and other variable signals. Digital Status outputs, Control inputs and Calibration drive signals are also provided. There are four analog outputs, whose type (mA or specific voltage range) and signal assignments are assignable from the Setup menu.
Page 141: Analog And Digital Interface
700 CLD / O2 5-04-2017 Analog and Digital Interface Hardware Capabilities of Main and Aux Connectors Analog Output The operator can choose one of the following output types:  As voltage outputs – 0 to 1V, 5V or 10V  As current outputs – 0 to 20 mA or 4 to 20 mA When set as current outputs, the maximum drive voltage provided by the analyzer is slightly more than 20 Volts, requiring that the maximum loop resistance does not exceed 1,000 Ohms.
Page 142 700 CLD / O2 5-04-2017 All opto-isolated relays are rated for 48VDC, 0.5 Amp maximum. The user is required to limit the drive current supplied to each input. All inputs are DC only and will not operate on AC current. CAUTION: Do not connect these pins directly to both sides of a voltage power supply as unrestricted current will damage the relay.
Page 143 700 CLD / O2 5-04-2017 28-Pin Main (BPM) Connector Assignments Pin # Signal Signal Type Operation Isolated Analog Ground Analog Output Isolated Analog Ground User-Defined AO-1 Analog Output 1V, 5V, 10VDC or mA User-Defined AO-2 Analog Output 1V, 5V, 10VDC or mA User-Defined AO-3 Analog Output 1V, 5V, 10VDC or mA...
Page 144 700 CLD / O2 5-04-2017 28-Pin Auxiliary (BPA) Connector Assignments Pin # Signal Signal Type Operation Analog Ground Analog Input Analog Ground Reserved Analog Input Reserved Reserved Analog Input Reserved Reserved Analog Input Reserved Relay RTN 1 Digital Output RTN Relays 1 - 4 Relay RTN 2 Digital Output RTN Relays 5 - 8...
Page 145: Serial Interface
700 CLD / O2 5-04-2017 Serial Interface The serial interface enables remote control of the analyzer by a master computer. It is implemented as an RS232 V24 interface and meets all requirements of the AK protocol. A 9-pin male connector at the back of the unit is used to connect a master computer with the following pin assignment: Pin 3 = Txd (transmit) Pin 2 = Rxd (receive)
Page 146: Ak Protocol
700 CLD / O2 5-04-2017 AK Protocol Data Description Each command begins with STX (Start of Text) in the first byte. The “don’t care” byte can be any ASCII character. Generally, a blank space or an underscore ( _ ) is used to increase readability.
Page 147 700 CLD / O2 5-04-2017 When both HyperTerminal and the analyzer are running while connected by the null modem cable, the analyzer will present a menu if sent a non-AK command. This menu can be ignored and AK commands will be acted on by the analyzer. The picture below shows a sequence with the AKON 0 command being sent to the analyzer.
Page 148: Instruction Command
700 CLD / O2 5-04-2017 Instruction Command Byte Character Explanation Byte ASCII Code 02 Don’t Care Byte Any ASCII code Byte Function Code 1 AK instruction, e.g. ASTF Byte Function Code 2 AK instruction, e.g. ASTF Byte Function Code 3 AK instruction, e.g.
Page 149 700 CLD / O2 5-04-2017 Acknowledgement Command Byte Character Explanation Byte ASCII Code 02 Don’t Care Byte Any ASCII code Byte Function Code 1 Echo of the AK instruction command Byte Function Code 2 Echo of the AK instruction command Byte Function Code 3 Echo of the AK instruction command...
Page 150: Error Handling
700 CLD / O2 5-04-2017 Error Handling It is possible that an unknown instruction is sent, the analyzer is busy with a function that is not the desired one, or an error occurred in the command parameters. The table below provides a summary of all errors that can appear upon any master instruction.
Page 151: General Ak Requirements
700 CLD / O2 5-04-2017 General AK Requirements 1. If the command message contains no error, the Acknowledge message contains the echo of the Function code and the Error Status number (0 to 9). 2. If the transfer was faulty or the function code is unknown, the answer contains four question marks (for example, ???? 0).
Page 152 700 CLD / O2 5-04-2017 Abbreviations Abbreviation Description Measuring range number Mn .. M4 Measuring range 1 .. 4 w.w .. ZZ. Numerical value Number Numeric integer value a0 .. a4 Polynomial coefficients Status Yyymmdd Date of format year, month and day with 2 characters each and no spaces Hhmmss Time of format hour, minute and second with 2 characters each and no spaces In general, AK commands are subdivided into three classes:...
Page 153: Scan Commands
750 Manual 5-04-2017 Scan Commands AAEG: Verifying Span-Point Deviation During Auto Calibration Command Response Description _AAEG_K0 _AAEG_s_M1_z.z_da_dr Verifying deviations of ranges M1 to M4 and _M2_z.z_da_dr with O option from span point stored _M3_z.z_da_dr after auto calibration. _M4_z.z_da_dr Values: measured value (z.z), absolute dev _02_z.z_da.dr (da), relative dev (dr).
Page 154 750 Manual 5-04-2017 AATK: Query Auto Calibration Parameters Command Response Description _AATK_K0 _AATK_s_z_y_x z: 1) NO mode 2) NO mode y: 1) ALL gases 2) Zero gas only x: 1) NO only 2) NO 3) O only ADAL: Diagnostic Alarm Limits Command Response Description...
Page 155 750 Manual 5-04-2017 ADRU: Pressures / Electronic Pressure Control Valve Voltage in Percent Command Response Description _ADRU_K0 _ADRU_s_z.z_y.y_x.x…… 1. Sample pressure 2. Air pressure 3. % of sample EPC volts 4. % of Ozone EPC Volts _ADRU_s_xpress/x% voltage Reading of x _ADRU_K0_x ADUF: Flows Command...
Page 156 750 Manual 5-04-2017 AFDA: Auto Calibration Times and Purge Time Command Response Description _AFDA_K0_SATK _AFDA_s_z_y_x_w Auto calibration times in seconds: z: Purge time y: Verify time x: Purge after time w: Calibrate time v: Total time _AFDA_s_z Purge time will be responded _AFDA_K0_SSPL AFGR: Default Factory Polynomial Coefficients Command...
Page 157 750 Manual 5-04-2017 AKAK: Calibration Gas Concentrations Command Response Description _AKAK_K0 _AKAK_s_M1_w.w All existing calibration gas values are responded _M2_x.x _M3_y.y _M4_z.z _AKAK_s_Mn_z.z Calibration gas value of Range n _AKAK_K0_Mn _AKAK_K1 _AKAK_s_M1_w.w K1 is for O option AKAL: Percent Deviations of Last Accepted Calibration Command Response Description...
Page 158 750 Manual 5-04-2017 AKON: Measured Concentration Value Command Response Description _AKON_K0 _AKON_s_z.z_y.y_x.x_t z.z : Current measured value y.y : NO concentration x.x : NO concentration w.w : NO concentration Note: y.y, x.x, and w.w are normally 0.0 when NO/NO mode is selected. t = Timestamp (1/10 sec.) _AKON_K1 _AKON_s_z.z_t...
Page 159 750 Manual 5-04-2017 APAR: Auto Calibration Tolerance Values Command Response Description _APAR_K0_SATK _APAR_s_z.z_y.y_x.x_w.w Auto calibration tolerance value (%): z.z: Range 1 y.y: Range 2 x.x: Range 3 w.w: Range 4 ARAW: Raw Detector Volts Command Response Description _ARAW_K0 _ARAW_s_z.z_t Raw detector volts t = Timestamp (1/10 sec.) _ARAW_K1 _ARAW_s_z.z_t...
Page 160 750 Manual 5-04-2017 ASTF: Error Status Command Response Description _ASTF_K0 _ASTF_s_f1_f2_f3_...f25 Current error numbers of all are responded. 1. Check sample pressure 2. Check air pressure 3. Check oven temperature 4. Check converter temperature 5. Check pump temperature 6. Check diode temperature 7.
Page 161 750 Manual 5-04-2017 ASTZ: Normal Device Status Command Response Description _ASTZ_K0 _ASTZ_s _State 1_State 2_. . State 5 Respond device status for all channels Possible States Response Description SREM Remote State 1 SMAN Manual STBY Standby State 2 SPAU Pause SMGA Measuring gas SNGA...
Page 162 750 Manual 5-04-2017 AT90: Respond Low-pass Filter Time Command Response Description _AT90_K0 _AT90_s_t Low-pass filter time in seconds t = filter time in seconds ATCP: Query TCP/IP Settings Command Response Description _ATCP_s_zzz.zzz.zzz.zzz zzz: TCP/IP address _ATCP_K0 _yyy.yyy.yyy.yyy yyy: TCP/IP subnet mask _xxxx xxxx: TCP/IP port ATEM: Temperatures...
Page 163 750 Manual 5-04-2017 AVER: Query Software Version Command Response Description _AVER_K0 _AVER_s_NMAIN_Z_mm.dd.yyyy_ Z: NMAIN version build number NUSER_Y_mm.dd.yyyy_OSMSR_ Y: NUSER version build number X_dd.mm.yyyy X: OSMSR version build number dd: Day mm: Month yyyy: Year...
Page 164: Control Commands
750 Manual 5-04-2017 Control Commands SARA: Auto Range Off Command Response Description _SARA_K0 _SARA_s Sets auto range off, CLD and FID SARE: Auto Range On Command Response Description _SARE_K0 _SARE_s Sets auto range on SATK: Start Automatic Calibration Command Response Description _SATK_s Start automatic calibration of all available ranges...
Page 165 750 Manual 5-04-2017 SEMB: Set Measuring Range Command Response Description _SEMB_K0_Mn _SEMB_s Sets measuring range to range n. Auto range will be disabled. SENO: Sets NO Mode Command Response Description _SENO_K0 _SENO_s Sets the measurement mode to NO only SENT: Set Calibration Gas Flow (Pumps or Valves) Command Response Description...
Page 166 750 Manual 5-04-2017 SNKA: Saves Measured Value as New Offset Command Response Description _SNKA_K0 _SNKA_s Saves measured value of actual range as offset if Zero mode is set _ SNKA_K1 _SNKA_s Saves measured value as offset of O channel if Zero mode is set SNOX: Sets NOx Mode Command...
Page 167 750 Manual 5-04-2017 SSPL: Purge Analyzer with Zero Gas Command Response Description _SSPL_K0 _SSPL_s Opens purge gas valve STBY: Standby Command Response Description _STBY_s Standby mode _STBY_K0 SUDP: Start/Stop UDP Data Streaming Command Response Description _SUDP_K0_ON _SUDP_s Starts data streaming via the UDP channel. Configure the channel before starting with EUDP command.
Page 168: Configuration Commands
750 Manual 5-04-2017 Configuration Commands EATK: Set Auto Calibration Parameters Command Response Description _EATK_K0_z_y_x _EATK_s_z_y_x z: 1) NO mode 2) NO mode y: 1) ALL gases 2) Zero gas only x: 1) NO only 2) NO 3) O only EDAL: Set Diagnostic Alarm Limits Command Response Description...
Page 169 750 Manual 5-04-2017 EEFF: NO Offset and Correction Factor Command Response Description _EEFF_K0 _EEFF_s_z.z_y.y zz: NO offset yy: NO correction factor EFDA: Set Auto Calibration and Purge Times Command Response Description _EFDA_K0_SATK_ _EFDA_s Sets auto calibration times: z: Purge time z_y_x y: Verify time x: Purge after...
Page 170 750 Manual 5-04-2017 EKAK: Set the Four Span Gas Concentration Values Command Response Description _EKAK_K0_M1_ _EKAK_s Sets the NO span gas values w.w_M2_x.x_M3_ y.y_M4_z.z EKAK_K1_M1_ _EKAK_s Sets the O span gas values EMBE: Set the Four Measuring Range Full scale Limits Command Response Description...
Page 171 750 Manual 5-04-2017 ESYZ: Set System Time Command Response Description _ESYZ_K0_ _ESYZ_s Sets system time: yymmdd_hhmmss yymmdd: year, month, day (each 2 characters wide, no spaces) hhmmss: hour, minutes, seconds (each 2 characters, no spaces) ET90: Set Lowpass Filter Time Command Response Description...
Page 172 750 Manual 5-04-2017 EUDP: Set TCP/IP Data Streaming Parameters Command Response Description _EUDP_K0_<UDPPort>_ _EUDP_s Configures a UDP channel for data <DataFrequency>_ streaming of the measuring values via Ethernet UDP. [<Mode>]_[<UDP_IP>] Port: port for opening the UDP connection Data Frequency: frequency for transmitting the data in Hz Mode: A: ASCII mode (optional)
Page 173 750 Manual 5-04-2017 <data> is the AK four-character code followed by the answer. See corresponding AK command description. Example Sending “EUDP K0 7501 2 A – AKON_KO;ADUF_K0” will give the following streaming result: “123 AKON 4.07 901.33 22.50 3481639460 ADUF 4.30 4.59 4.45”, where 123 is the sequence number.
Page 174: Modbus Protocol
750 Manual 5-04-2017 Modbus Protocol Modbus on TCP/IP Application Data Unit MBAP Description This section describes the encapsulation of a Modbus request or a response when it is carried on a Modbus TCP/IP network. A dedicated header, called the MBAP (Modbus Application Protocol) header, is used on TCP/IP to identify the Modbus Application Data Unit.
Page 175: Mbap Header Description
750 Manual 5-04-2017 MBAP Header Description The MBAP Header contains the following fields: Field Length Description Transaction Identifier 2 Bytes Identification of a Modbus request / Response transaction Protocol Identifier 2 Bytes 0 = Modbus Length 2 Bytes Number of following bytes Unit Identifier 1 Byte Identification of a remote slave connected on a serial line or...
Page 176: Modbus Command Function Codes
750 Manual 5-04-2017 Modbus Command Function Codes Code 01 This function code is used to read from 1 to 2000 contiguous status bits in a remote device. The requesting remote device specifies the starting address, including the address of the first bit specified and the number of bits.
Page 177 750 Manual 5-04-2017 Error Function Code 1 Byte Function code + 0x80 Exception Code 1 Byte 01 or 02 or 03 or 04 Here is an example of a request to read discrete outputs 20–38: Request Response Field Name (Hex) Field Name (Hex) Function...
Page 178 750 Manual 5-04-2017 Command 01, Read Coil 200 Count 1. Result = 01. Command 01, Read Coil 200 Count 16. Result = 55 55 hex.
Page 179 750 Manual 5-04-2017 Code 03 This command has been modified to read floating-point numbers in 32-bit IEEE format. This function code is used to read the contents of a contiguous block of floating-point registers in a remote device. The Request PDU specifies the starting register address and the number of registers.
Page 180 750 Manual 5-04-2017 Here is an example of a request to read Register 0: Request Response Field Name (Hex) Field Name (Hex) Function Function Starting Address Hi Byte Count Starting Address Lo Register Value Hi (1) Number of Registers Hi Register Value Lo (1) Number of Registers Lo Register Value Hi (0)
Page 181 750 Manual 5-04-2017 Here is an example of a request to read 3 registers starting at 40201: Request Response Field Name (Hex) Field Name (Hex) Function Function Starting Address Hi Byte Count Starting Address Lo Register Value Hi (40202) Number of Registers Hi Register Value Lo (40201) Number of Registers Lo Register Value Hi (40201)
Page 182 750 Manual 5-04-2017 Command 03, Read four Floating Point values starting at Address 1. Result = 1234.56789, 0.0 -1234.568, 10000.
Page 183 750 Manual 5-04-2017 Code 04 This function code is used to read from 1 to 125 contiguous input registers in a remote device. The Request PDU specifies the starting register address and the number of registers. In the PDU, registers are addressed starting at zero. Therefore input registers numbered 1-16 are addressed as 0-15.
Page 184 750 Manual 5-04-2017 Here is an example of a request to read Input Register 8: Request Response Field Name (Hex) Field Name (Hex) Function Function Starting Address Hi Byte Count Starting Address Lo Input Register 9 Hi Quantity of Input Registers Hi Input Register 9 Lo Quantity of Input Registers Lo The contents of Input Register 8 are shown as the two-byte values of 00 0A hex, or 10 decimal.
Page 185 750 Manual 5-04-2017 Code 05 This function code is used to write a single output to either ON or OFF in a remote device. The requested ON/OFF state is specified by a constant in the request data field. A value of FF 00 hex requests the output to be ON.
Page 186 750 Manual 5-04-2017 Here is an example of a request to write bit 173 ON: Request Response Field Name (Hex) Field Name (Hex) Function Function Output Address Hi Output Address Hi Output Address Lo Output Address Lo Output Value Hi Output Value Hi Output Value Lo Output Value Lo...
Page 187 750 Manual 5-04-2017 Code 06 This function code is used to write a single holding register in a remote device. The Request PDU specifies the address of the register to be written. Registers are addressed starting at zero. Therefore the register numbered 1 is addressed as 0. The normal response is an echo of the request, returned after the register contents have been written.
Page 188 750 Manual 5-04-2017 Here is an example of a request to write Register 1 to 00 03 hex: Request Response Field Name (Hex) Field Name (Hex) Function Function Register Address Hi Register Address Hi Register Address Lo Register Address Lo Register Value Hi Register Value Hi Register Value Lo...
Page 189 750 Manual 5-04-2017 Code 16 This function code is used to write a single floating point register to a remote device. The requested written values are specified in the request data field. Data is packed as four bytes per register. The normal response returns the function code, starting address and quantity of registers written.
Page 190 750 Manual 5-04-2017 Here is an example of a request to write two registers starting at 2 to 00 0A and 01 02 hex: Request Response Field Name (Hex) Field Name (Hex) Function Function Starting Address Hi Starting Address Hi Starting Address Lo Starting Address Lo Quantity of Registers Hi...
Page 191 750 Manual 5-04-2017 Command 16, Write one floating point register at Address 40200 showing error response. Not a valid address.
Page 192 750 Manual 5-04-2017 Code 26 This is a non-standard code used to read an ASCII string. Request Function Code 1 Byte 0x1A Starting Address 2 Bytes 0x0000 to 0xFFFF Quantity of Registers 2 Bytes Response Function Code 1 Byte 0x1A Length of String 1 Byte 0x00 to 0x7D...
Page 193: Modbus Map
750 Manual 5-04-2017 Modbus Map 01H Single-Read Coil Modbus Commands Use TCP/IP Port 502. (Do not change TCP/IP port from 7750.) Coil Numbers and Descriptions Coil Number Read Data Sample pressure Air pressure Oven temperature Converter temperature Pump temperature Diode temperature Cell temperature Gas dryer temperature temperature (with option)
Page 194 750 Manual 5-04-2017 Coil Number Read Data 0 – Manual, 1 – Remote 0 – Standby, 1 – Measure 1 – Zero 1 – Span 1 – AutoCal 1 – Purge 0 – Standby, 1 – Measure 1 – Zero 1 –...
Page 195: 05H Write Single Coil
750 Manual 5-04-2017 05H Write Single Coil Modbus Commands Use TCP/IP Port 502. (Do not change TCP/IP port from 7750.) Coil Numbers and Descriptions Coil Number Write Data 0 – Manual, 1 – Remote 0 – Standby, 1 – Measure 1 –...
Page 196: 03H Read Floating Point
750 Manual 5-04-2017 03H Read Floating Point Modbus Commands Use TCP/IP Port 502. (Do not change TCP/IP port from 7750.) Register Numbers and Descriptions Register Number Contents IEEE 40001 UNDILUTED real-time concentration* dilution ratio / 10000 40003 Real-time concentration (in ppm) 40005 Concentration before linearization and zero / span corrections 40007...
Page 197 750 Manual 5-04-2017 Register Number Contents IEEE 40063 Range 1 gain 40065 Range 2 offset 40067 Range 2 gain 40069 Range 3 offset 40071 Range 3 gain 40073 Range 4 offset 40075 Range 4 gain 40077 offset 40079 gain 40109 Range 1 Full scale 40111 Range 2 Full scale...
Page 198 750 Manual 5-04-2017 Register Number Contents IEEE 40239 Converter temperature alarm minimum 40241 Converter temperature alarm maximum 40243 Pump temperature alarm minimum 40245 Pump temperature alarm maximum 40247 Diode temperature alarm minimum 40249 Diode temperature alarm maximum 40251 Cell temperature alarm minimum 40253 Cell temperature alarm maximum 40255...
Page 199: 16H Write Floating Point
750 Manual 5-04-2017 16H Write Floating Point Modbus Commands Use TCP/IP Port 502. (Do not change TCP/IP port from 7750.) Register Numbers and Descriptions Register Number Contents IEEE 40201 Range 1 span gas concentration 40203 Range 2 span gas concentration 40205 Range 3 span gas concentration 40207...
Page 200 750 Manual 5-04-2017 Register Number Contents IEEE 40267 detector temperature alarm minimum 40269 detector temperature alarm maximum 40287 Sample concentration alarm minimum 40289 Sample concentration alarm maximum...
Page 201: Warranty Statement
Buyer by CAI and if any such product should prove to be defective within such one year period, CAI agrees, at its option, either (i) to correct by repair or, at CAI’s election, by replacement with...
Page 202 750 Manual 5-04-2017 f) CAI may from time to time provide a special printed warranty with respect to a certain product, and where applicable, such warranty shall be deemed incorporated herein by reference; g) CAI shall be released from all obligations under all warranties, either expressed or implied, if any product covered hereby is repaired or modified by persons other than its own authorized service personnel unless such repair by others is made with the written consent of CAI.

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750 cld 700 hcld nox series

CAI 700 CLD Series Operator's Manual

Introduction

Analyzer Specifications

Installation

Safety Information

Startup and Shutdown

Using the Keypad

Menu Flow Chart

Main Menu

Measure Screen

Measure Mode

Analyzer Info

Remote/Manual

Standby

Menus

Calibration

Communication and Interface

Modbus Protocol

1 H Single-Read Coil

3 H Read Floating Point

Warranty Statement

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