Dakota Digital CMX operation manual Chapter SIX Making Measurements

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CHAPTER SIX

MAKING MEASUREMENTS

The steps involved in making measurements are detailed in this section. The following sections outline how to setup and prepare your CMX for field use.

An automatic or manual zero must always be performed. The auto zero is an off block electronic zero that does not require a zero reference block. This will most always be the zero option of choice, as it makes the zeroing process very easy and convenient to perform. However, If the manual zero option is enabled, the probe zero must be measured on the reference disk (battery disk) attached to the top of the instrument. The zero compensates for variations in the transducer. In all modes the sound velocity must be determined. The sound velocity is used to convert the transit time to a physical length. The sound velocity can be selected from a material chart in the manual, selected from a material list in the CMX, or for greater precision determined from a sample of the test material that has been mechanically measured. To enter the velocity from a table, look up the material on the chart in the appendix of this manual and refer to the section below on Calibration to a Known Velocity. To determine the velocity of a single sample, refer to the Material Calibration section on page 45.

When measuring curved materials, it is more accurate to calibrate from two test points, one at the minimum limit of the target thickness and one at the maximum limit. In this case the reference disk mounted to the CMX is not used. This is called two- point calibration and is described on page 50.

6.1 Auto Probe Recognition & Selecting The Transducer Type

The first step in using the CMX is to plug the transducer into the gauge and power the unit up. The CMX has a special built-in automatic probe recognition feature that will check to see if the probe plugged into the gauge is an auto recognized probe type. If so, the CMX will display a message indicating the transducer type and ask the user for confirmation to use the identified probe. If the transducer is not an auto recognized probe, the CMX will display a message indicating the transducer type has not been recognized, and force the user to select a transducer type from a list of transducers according to frequency and diameter. Whether the transducer is auto recognized or selected from a predefined list, the CMX will recall specific properties about the transducer. Note: Once the transducer has been selected, the CMX will store and recall this transducer type every time the CMX is powered on/off. The type will only change if the user physically selects another type from the list, or selects a previously saved setup. Therefore, if you have previously gone through this section and selected the transducer you are using, proceed to the next section. Use the following steps to select your transducer type. Note: If the transducer is not

identified on power up, be sure the transducer type selected is the same as the transducer plugged into the CMX. Failure to do this will result in erroneous measurements:

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Contents CMX Page Appendix a Setup Library Page Chapter ONE Introduction DisclaimerChapter TWO Quick Startup Guide CMX OverviewPage Auto Probe Recognition Probe Automatically RecognizedSelecting the Transducer Type Selecting the Transducer Type Probe Zero & Calibration Performing an Auto Probe Zero Off Block Coating Probe Identified Coating Probe Not IdentifiedPerforming a Manual Probe Zero On Block One Point Material Calibration Using a Known Thickness Zero Coating Performing a Coating Zero Coating Calibration Using a Known Coating Velocity Known Coating VelocityUsing a Coating Sample to Calibrate Known Coating ThicknessPage Measure Selecting the Measurement View OptionAdjusting B-START & B-DEPTH Digit Edit Box as follows Digits Chapter Three KEYBOARD, MENU, & Connector Reference Menu Key Operation & Sub MenusActivating and Getting Around in the Menu Items Getting Around in the Sub Menu ItemsProbe Menu CAL MenuDisp display Menu Tune MenuSetup Menu Util utilities MenuCLR clear Key Meas measurement mode KeyXfer transfer Menu OK KeyEnter key Multi Mode KeyArrow Keys 16 ON/OFF KeyRS-232 Connector Transducer ConnectorsProbe Zero Disk & Battery Cover Top & Bottom End CapsSuitability of materials Chapter Four Principals of Ultrasonic MeasurementTime versus thickness relationship Range of measurement and accuracyTemperature Measurement ModesEcho-Echo Mode Thru-Paint E-E Path CorrectionCoating Mode Coating Only CT Pulse-Echo Temperature Compensated Mode Temp Comp Petp Chapter Five Selecting the Measurement Mode Setup libraryWhich mode & transducer do I use for my application? Coating Only High temperatureThru Paint & Coatings Thin materialsFactory Setup Chart Restricted accessChapter SIX Making Measurements Auto Probe Recognition & Selecting The Transducer TypeProbe Automatically Recognized Selecting the Transducer Type Page Probe zero Coating Probe Identified Coating Probe Not IdentifiedPerforming a Manual Probe Zero On Block Coating Probe Identified Coating Probe Not Identified Using a Known Material Velocity Material CalibrationKnown Velocity Page Page Known Thickness One Point CalibrationPage Two Point Calibration Basic Material Type Selecting a Basic Material Type Page Chapter Seven Using the Digits & B -SCAN Displays Display Views Digits ViewScan Scan ViewPage Enabling the B-Scan Feature Activating B-Scan ViewAdjusting the B-Scan Start B-START & Depth B-DEPTH Starting depth B -STARTAdjusting the Starting Depth B-START Adjusting the Overall Depth B-DEPTH Overall range B-DEPTHPage Gain Adjusting the Gain Using Thru Paint Mode Chapter Eight Thru Paint Measurement TechniqueIntroduction to Thru Paint Measurement Chapter Nine PULSE-ECHO Coating & Coating Techniques Enabling Pulse-Echo Coating Mode Pect & Coating CTCoating modes can be enabled in three different ways Introduction to Pulse-Echo Coating Measurement PectProbe Automatically Recognized Pect only Multi Mode Key Pressed Pect & CT Applied to Metals Not Applied to MetalsMeasure Mode Tabbed Menus Pect & CT Zero Coating Page Coating Calibration Pect Known Velocity Page Known Thickness Page Introduction to Coating Measurement CT Two Point Coating Calibration CT Known ThicknessOne Point Calibration Page Two Point Calibration Page Chapter TEN Additional Features of the CMX Using the Scan ModeHigh Speed Scan Alarm Mode Toggle Alarm on/offSetting the Alarm Low Limit Differential Mode Toggle Differential on/offSetting the Differential Value Chapter Eleven Setups CREATE, STORE, EDIT, & Recall Introduction to SetupsOpening a Setup Opening a Setup Saving a Setup Saving a Setup Page Page Deleting a Saved Setup Deleting a SetupUsing the Default Setup Using the Default Setup Selecting a Language Computer System Requirements Chapter Twelve Using the Utility SoftwareInstalling DakView USB to Serial ConverterUsing the Xfer menu CMX Accessing and Using the Xfer MenuAppendix a Velocity Table PVCCMX High Performance Material & Coating Thickness Gauge Appendix a Setup Library

CMX specifications

Dakota Digital CMX series represents a cutting-edge advancement in the world of digital instrumentation, designed specifically for automotive enthusiasts and restorers seeking to enhance their vehicle’s dashboard aesthetics and functionality. Characterized by its sleek appearance and intelligent design, the CMX offers a multitude of features that cater to modern demands while preserving the classic vehicle feel.

One of the standout features of the Dakota Digital CMX is its customizable display. The series provides an array of screen layouts and color schemes that allow users to personalize their instrumentation according to individual preferences. This flexibility not only enhances the visual appeal but also aids in quickly obtaining critical information at a glance, improving overall driver convenience.

The CMX is equipped with state-of-the-art technology, including high-definition OLED displays that ensure crisp visibility in all lighting conditions. This technological advancement makes the instrument panel not only easy to read but also optimally functional in both bright sunlight and low-light situations. The ambient light sensors adjust brightness automatically, promoting user comfort.

Another defining characteristic of the Dakota Digital CMX is its comprehensive data logging and diagnostic capabilities. Integrated advanced sensors enable real-time monitoring of various vehicle metrics, such as speed, RPM, fuel level, and engine temperatures. This feature aids users in maintaining their vehicle's performance and in diagnosing potential issues before they escalate into more severe problems.

The CMX series supports numerous vehicle types, with a compatibility range that includes classic muscle cars, street rods, and even motorcycles. Furthermore, it incorporates Bluetooth technology, allowing users to connect their smartphones for further customization and real-time data analysis via an associated app.

Installation is designed to be user-friendly, making it accessible even for those with limited automotive knowledge. The system typically utilizes plug-and-play wiring harnesses, simplifying the overall setup process. Additionally, the CMX series is engineered to withstand the harsh environments often found in automotive applications, ensuring durability and longevity.

In summary, the Dakota Digital CMX series exemplifies a harmonious blend of modern technology and classic style. With customizable displays, advanced diagnostics, excellent visibility, and robust construction, it is a top choice for those looking to elevate their vehicle’s instrumentation. The CMX not only provides essential information but also transforms the driving experience, making it both informative and enjoyable.
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