Juniper HarvestMaster mirus H2 Classic GrainGage User Manual
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Juniper HarvestMaster mirus H2 Classic GrainGage User Manual

Juniper HarvestMaster mirus H2 Classic GrainGage User Manual

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Summary of Contents for Juniper HarvestMaster mirus H2 Classic GrainGage

  • Page 1  ...
  • Page 2 Copyright © 2023 HarvestMaster. All rights reserved. Information subject to change without notice.  Part Number: 30438-02 Trademarks HarvestMaster, GrainGage, and Mirus are recognized trademarks of Juniper Systems, Inc. All other trademarks are registered or recognized by their respective owners. Disclaimer Information is subject to change without notice.

  • Page 3: Table Of Contents

    Mirus for H2/H3 GrainGage User's Guide   Contents Mirus Installation System Requirements................................9 Download and Install Mirus..............................9 Download and Activate Mirus for the H2 and H3 Classic GrainGage ........9 Enable the H3 Classic GrainGage Plugin....................9 Preparing the GrainGage ..............................10 Verify GrainGage Readiness ..........................
  • Page 4 Mirus for H2/H3 GrainGage User's Guide   Diagnostics Dialog Box................................ 34 Tare the GrainGage ..............................35 Open/Close All................................36 Weight Diagnostics..............................37 H2 GrainGage Sensor Info Diagnostics..................... 38 H3 GrainGage Sensor Info Diagnostics..................... 39 Test Weight Diagnostics............................. 40 Level Detect Diagnostics............................. 41 Health Diagnostics..............................
  • Page 5 Mirus for H2/H3 GrainGage User's Guide   Test a Calibration File (Moisture Curve)........................79 Test Weight Recalibration ..............................80 SCiO Offset Recalibration..............................83 M2.0 Moisture Model Recalibration ......................87 EM Moisture Recalibrate............................... 91 Manual Calibration of an EM Moisture Curve Using Excel................93 Calibrate High Moisture Corn on an EM Moisture Curve................
  • Page 6 Mirus for H2/H3 GrainGage User's Guide   Collect Harvest Data ................................147 Harvest with Cycle Button..........................147 Harvest with Countdown Timer ........................149 Appendix A: Standard Moisture and Test Weight References for Standard Moisture and Test Weight..................152 Appendix B: Troubleshooting Mirus Error Logs .....................................
  • Page 7 Mirus for H2/H3 GrainGage User's Guide   Ten Key................................... 176 Identifier Search (Imported Maps Only) ......................... 176 Appendix E: Limited Warranty Software ......................................181 Disclaimer of Warranties ..............................181 Updates or Modifications ..............................181 Removal of Serial Number ..............................181 Extended Warranties ................................

  • Page 8: Mirus Installation

      C H A P T E R 1. Mirus Installation  ...

  • Page 9: System Requirements

    Mirus for H2/H3 Graingage User's Guide Mirus Installation The Mirus app operates the H2 and H3 Classic GrainGage and runs on a Windows tablet. The H2 Classic GrainGage uses an EM sensor to detect the EM or M2.0 moisture content of the sample.

  • Page 10: Preparing The Graingage

    Mirus for H2/H3 Graingage User's Guide HarvestMaster will send the unlock code via email. Return to the H3 Plugin activation screen and input the unlock code. Check https://www.harvestmaster.com/support/article/14646 annually for updated software. Preparing the GrainGage Verify GrainGage Readiness Verify the GrainGage is ready for operation by checking the following: The Mirus app is installed and activated.

  • Page 11: Mirus And Graingage Setup

      C H A P T E R 2. Mirus and GrainGage Setup  ...

  • Page 12: Start Mirus

    Mirus for H2/H3 Graingage User's Guide Mirus and GrainGage Setup Start Mirus Double tap the Mirus icon on your Windows desktop. Mirus opens the Home screen. You can return to the Home screen at any time by selecting the Mirus home icon on the top left corner of the screen. Connect to the GrainGage Plugin On the Mirus Home screen, Tap Connect Plugin.
  • Page 13 Mirus for H2/H3 Graingage User's Guide If Mirus is unable to detect the GrainGage, the software may display a device connection error. Check the GrainGage power source to all modules (a green LED illuminated on each module). Tap Use Emulatorto proceed without connecting the GrainGage. Emulator Mode is not recommended for setting up the GrainGage.

  • Page 14: Setup Mirus Preferences

    Mirus for H2/H3 Graingage User's Guide Setup Mirus Preferences Open Setup Open the Home screen, Tap Setup.  Mirus opens the Setup screen. Set Preferred Units of Measure On the Setup screen, 2. Mirus and GrainGage Setup...

  • Page 15: Set Preferred Language

    Mirus for H2/H3 Graingage User's Guide Tap Preferences.   Tap Units of Measure. Select your preferred units of measure. Tap Save. Set Preferred Language On the Setup > Preferences screen, Select Language. Choose your preferred language. Tap Save. 2. Mirus and GrainGage Setup...

  • Page 16: Set Preferred Backup Log Location

    Mirus for H2/H3 Graingage User's Guide Note: Some languages may not be currently available in Mirus version 4.4.0. Set Preferred Backup Log Location On the Setup > Preferences screen, Tap Backup Log. Enter your preferred file path for the Mirus backup log. Tap Save.

  • Page 17: Set Low Disk Space Warnings

    Mirus for H2/H3 Graingage User's Guide Tap Clear Settings. Set Low Disk Space Warnings On the Setup > Preferences screen, Tap Low Disk Space Warnings. Set the amount of available disk space left that will trigger a warning. Set the minimum amount of disk space to allow harvest. Tap Save.

  • Page 18: Configure Actuators

    Mirus for H2/H3 Graingage User's Guide Configure Actuators The Setup screen defaults to Devices where you will set up your GrainGage. Tap H2 GrainGage or H3 GrainGage. 2. Mirus and GrainGage Setup...
  • Page 19 Mirus for H2/H3 Graingage User's Guide 2. Tap Actuator. Mirus opens the Actuator Setup screen on which you can configure settings for each actuator in the GrainGage. The following tables display the default values for each actuator, which may need to be adjusted based on your specific harvest conditions.
  • Page 20 Mirus for H2/H3 Graingage User's Guide Limit Switch Enables the limit switch when the gate closes. on Close Enables the limit switch when the gate opens. Limit Switch This is not supported in the H2 or on Open H3 GrainGage Classic.  ...
  • Page 21 Mirus for H2/H3 Graingage User's Guide The type of actuator. See Auxiliary Actuator Actuator Dual Controls—DSP Actuator 5 & 6 table below for actuator type descriptions. Close Transition The amount of time it takes the actuator to 200 msec Time close the gate. Limit Switch on Enables the limit switch when the gate Close...

  • Page 22: View Graingage Info

    Mirus for H2/H3 Graingage User's Guide be tied to a common ground. With a dual actuator, you can control two actuators from one actuator port     Close 12 V   Actuator   Open   Drives the pin with 12 V for the transition time and then uses 12 V for Electro-...

  • Page 23: Configure Weight Sensors

    Mirus for H2/H3 Graingage User's Guide Configure Weight Sensors On the Setup > H2 or H3 GrainGage screen, Tap Sensors > Weight. 2. Mirus and GrainGage Setup...
  • Page 24 Mirus for H2/H3 Graingage User's Guide Mirus opens the Weight Sensors Setup screen on which you can configure weigh bucket settings for the GrainGage. The following table displays the typical preferred setting for each item on this screen. Weight Sensors Settings Default Setup Parameter Description...

  • Page 25: Configure Test Weight Sensors

    Mirus for H2/H3 Graingage User's Guide This setting overrides the open state time for the top and bottom gates. Caution: Wetter grain or oil seeds may require longer evacuation times. Low-volume inserts will also require a longer evacuation time. If this setting is inaccurate, it may increase the weighing cycle time unnecessarily or cause the mixing of two plots.

  • Page 26: Configure Moisture Sensors

    Mirus for H2/H3 Graingage User's Guide Test Weight Sensor Settings Setup Parameter Default Value Description A tare warning is generated when a tare check Test Weight 2.02 lb/bu indicates weight in the chamber is above this Tare Warning 2.6 kg/hL threshold.

  • Page 27: Configure Overflow Sensor

    Mirus for H2/H3 Graingage User's Guide Setup Default Description Parameter Value A tare warning is generated when a tare Moisture Tare check indicates that the moisture is above Warning this threshold. Note: To edit other moisture settings, see M2.0 Moisture Model Recalibration.

  • Page 28: Configure The Graingage System Settings

    Mirus for H2/H3 Graingage User's Guide Configure the GrainGage System Settings On the Setup > H2 or H3 GrainGage screen, Tap System. Mirus opens the System Setup screen where you can configure settings for the GrainGage. The following table displays the typical preferred setting for each item on this screen. System Settings Item Default Value...

  • Page 29: Update The Graingage Firmware

    Mirus for H2/H3 Graingage User's Guide CAUTION: This cannot be undone! Resetting the GrainGage to factory defaults will clear all your settings, including actuator timers and weight calibrations. This should only be done in consultation with a HarvestMaster Field Service Engineer. Update the GrainGage Firmware This option can be found on the Setup >...

  • Page 30: Create And Record Traits

    Mirus for H2/H3 Graingage User's Guide Create and Record Traits This option can be found on the Setup screen. To create a new trait, Tap the new icon Enter a Name and Description for the new trait. Select the Type of trait. Select when you want Mirus to prompt the operator to record the trait: Before Plot or After Plot.
  • Page 31 Mirus for H2/H3 Graingage User's Guide 8. Tap the next arrow to save the trait. The following table describes the settings for each item on this screen. New Trait Settings Item  Description Name This is the name of the trait. Description This describes the type of data to be recorded within the trait.

  • Page 32: View Information About Mirus

    Mirus for H2/H3 Graingage User's Guide Harvest Specifies whether trait data will be collected before or after the Collection plot is harvested. Time This setting helps Mirus know when to move on to the next trait. Length After the allotted number of characters is entered, Mirus moves on automatically so that the operator doesn’t need to press enter.
  • Page 33   C H A P T E R 3. GrainGage Diagnostics & Alerts  ...

  • Page 34: Graingage Diagnostics And Alerts

    Mirus for H2/H3 Graingage User's Guide GrainGage Diagnostics and Alerts Diagnostics Dialog Box On the Home screen, Tap Diagnostics. Mirus opens the Diagnostics box. In the Diagnostics box (in all of the tabs), Mirus:  Allows the operator to tare all load cells and the EM moisture sensor in the GrainGage.

  • Page 35: Tare The Graingage

    Mirus for H2/H3 Graingage User's Guide  Provides additional information for each screen (primarily for HarvestMaster Field Service Engineers). Each tab provides additional functionality detailed below. Note: Tapping Tare in a Diagnostics tab tares the load cells and EM Moisture sensor. Mirus does not allow taring of individual sensors. ...

  • Page 36: Open/Close All

    Mirus for H2/H3 Graingage User's Guide trial. Open/Close All In the Diagnostics box, Tap Open All. Glean off border plots. All gates are in the open position. Tap Close All to begin measuring grain again. Tap the check icon to exit Diagnostics. 3.

  • Page 37: Weight Diagnostics

    Mirus for H2/H3 Graingage User's Guide All gates are in the correct position for Harvest Mode. Weight Diagnostics On the Weight Diagnostics screen, live values are shown for the load cells. Weight Diagnostics Item Description Shows the weight of the contents in the weigh bucket. Weight To change the units of measure, see Set Preferred Units of...

  • Page 38: H2 Graingage Sensor Info Diagnostics

    Mirus for H2/H3 Graingage User's Guide When Slope and Motion Compensation is enabled, Q should be 1.000 +/- .05 (depending on the slope the combine is on or intensity of vibrations/movement). If the Q value is off, see Slope and Motion Calibration.

  • Page 39: H3 Graingage Sensor Info Diagnostics

    Mirus for H2/H3 Graingage User's Guide This is the raw moisture sensor reading without any offset Absolute Moisture applied from a moisture curve. This is primarily used for Voltage maintenance and troubleshooting. This is a basic measure used for calculating grain moisture. EM Frequency This value is typically between 3.5 and 4.1 mHz for an empty chamber.

  • Page 40: Test Weight Diagnostics

    Mirus for H2/H3 Graingage User's Guide Moisture The type of the active moisture calibration file. Calibration Type The selected crop of the current calibration file (moisture SCiO Crop curve) which was chosen during that file’s creation. Detected Sensor The connected sensor. An H3 can have either a SCiO Sensor or Type an EM Sensor connected.

  • Page 41: Level Detect Diagnostics

    Mirus for H2/H3 Graingage User's Guide Test Weight Diagnostics Item Description Test Weight Real-time test weight of grain in the test chamber. Real-time weight of grain in the chamber. This value does not Chamber Weight include the weight of the chamber. Insert Count The number of inserts that have been set. ...

  • Page 42: Health Diagnostics

    Mirus for H2/H3 Graingage User's Guide Health Diagnostics The Health Diagnostics screen is used by HarvestMaster Field Service Engineers. Actuators Diagnostics Use the Actuators Diagnostics screen to manually test the actuators controlling all gates connected to the GrainGage. For more information about actuators, see Configure Actuators.
  • Page 43 Mirus for H2/H3 Graingage User's Guide Warning A warning message provides cautionary information. A confirmation message provides status information about the changing nature of an activity. These messages provide Confirmation information to explain that the GrainGage is operating as expected. Messages requiring action appear in a dialog box.
  • Page 44 Mirus for H2/H3 Graingage User's Guide Messages that have been hidden can be viewed again by clicking on the notifications tab on the right edge of the window. This tab is only visible if there are messages, and it disappears when there are no messages or when all messages have been cleared.

  • Page 45: H2 Or H3 Weight Calibration

      C H A P T E R 4. H2 or H3 Weight Calibration  ...

  • Page 46: Slope And Motion Calibration

    Mirus for H2/H3 Graingage User's Guide H2 or H3 Weight Calibration Slope and Motion Calibration Slope and motion calibration establishes the 1G voltage for the accelerometer inside the GrainGage. This calibration is critical for good weight measurements on the moving combine.
  • Page 47 Mirus for H2/H3 Graingage User's Guide Tap the next arrow to initiate the calibration. Tap the check icon to apply the new slope and motion settings. Note: A typical 1G voltage should be in the range of .950 and 1.0 volts. Tap the gear icon below the calibration wizard to open Diagnostics.

  • Page 48: Weigh Bucket Load Cell Calibration

    Mirus for H2/H3 Graingage User's Guide Weigh Bucket Load Cell Calibration Weigh bucket calibration ensures the accuracy of the GrainGage’s weight calculations. This calibration should be done on initial setup and should not need to be calibrated again unless repairs are needed on the GrainGage weigh system. Calibrate Weigh Bucket Use the weight calibration wizard and the larger weight (11 lb (5 kg)) included with the GrainGage to calibrate the weigh bucket load cells.
  • Page 49 Mirus for H2/H3 Graingage User's Guide Find the value stamped on the side of the weight. Enter that value in the field. Tap the next arrow to initiate the calibration. Follow the on-screen video instructions. Check for and remove any extra weight from the weigh bucket. When prompted, hang the weight as directed.
  • Page 50 Mirus for H2/H3 Graingage User's Guide Tap the next arrow Mirus displays the old and new load cell coefficients. Note: Typical calibration coefficients should be 1.9 +/- .2. Tap the next arrow Remove the calibration weight. Tap the next arrow .

  • Page 51: Check Weigh Bucket Calibration

    Mirus for H2/H3 Graingage User's Guide Check Weigh Bucket Calibration Weigh bucket calibration is stable. It rarely changes or loses accuracy. However, because the consequences of poor calibration can be devastating to your research data, HarvestMaster highly recommends checking the weigh bucket calibration every year before the harvest season begins, as well as every day before harvest.
  • Page 52 Mirus for H2/H3 Graingage User's Guide From Home > Setup > H2 or H3 GrainGage, tap Calibration. Tap Test Weight Load Cell Calibration. Select Open Calibration Wizard. Follow the on-screen video instructions as shown below. Find the value stamped on the side of the weight. Enter that value in the field.
  • Page 53 Mirus for H2/H3 Graingage User's Guide Tap the next arrow to initiate the calibration. Follow the on-screen instructions. Check for and remove any extra weight from the weigh bucket. When prompted, hang the weight as directed. Tap the next arrow Mirus displays the old and new load cell coefficients.

  • Page 54: Check Test Weight Calibration

    Mirus for H2/H3 Graingage User's Guide Tap the next arrow Remove the calibration weight. Tap the next arrow . The system will tare and show the new calibration values. Tap the check icon to finish. Check Test Weight Calibration The test weight calibration is stable and rarely changes or loses accuracy. However, because the consequences of poor calibration can be devastating to your research data, HarvestMaster highly recommends checking the test weight calibration every year before the harvest season begins, as well as every day before harvest.

  • Page 55: Scio Nir Sensor Self Test

    Mirus for H2/H3 Graingage User's Guide Tap the check icon to close Diagnostics. SCiO NIR Sensor Self Test Note: This option is only available with H3 GrainGage.   To run the SCiO NIR Sensor Self Test, From Setup > H3 GrainGage > Calibration, tap SCiO NIR Sensor Self-Test Calibration Tap Open Calibration Wizard.
  • Page 56 Mirus for H2/H3 Graingage User's Guide Tap the next arrow Remove the airlines. Tap the next arrow Loosen the four screws securing the SCiO sensor to the test weight chamber. Tap the next arrow Carefully remove the SCiO sensor and expose the glass dome. 4.
  • Page 57 Mirus for H2/H3 Graingage User's Guide Tap the next arrow Place the white reference cap firmly over the glass dome. Tap the next arrow to trigger the scan. After the scan, remove the white reference cap. Carefully reposition the SCiO sensor to ensure the proper gasket alignment. Tighten the four screws.
  • Page 58 Mirus for H2/H3 Graingage User's Guide Tap the next arrow Reconnect the airlines. Tap the check icon to finish. Take the actions noted in the table below based on the result you receive from the SCiO Self Test.  SCiO Sensor Self Test Result Action The Self Test passed.
  • Page 59 Mirus for H2/H3 Graingage User's Guide Bring the SCiO sensor temperature to 40–120°F Device temperature is low/high. (5–50°C). Repeat steps 1–18. 4. H2 or H3 Weight Calibration...

  • Page 60: Chamber Calibration

      C H A P T E R 5. Chamber Calibration  ...

  • Page 61: Scio Sensor Considerations

    Mirus for H2/H3 Graingage User's Guide Chamber Calibration Creating a calibration file (moisture curve) is an essential part of the harvesting process. The calibration file you use must be created specifically for your harvest conditions. Because the accuracy of your data depends on this calibration file, be extremely careful and precise as you create it.

  • Page 62: Prepare Samples

    Mirus for H2/H3 Graingage User's Guide SCiO calibration The SCiO data is only available when Mirus has connected to the H3 GrainGage and you are using a SCiO NIR sensor. For more information about the SCiO calibration, see Create a SCiO Calibration File.

  • Page 63: Additional Preparation For Samples Used With Em Sensors

    Mirus for H2/H3 Graingage User's Guide Use grain at the ambient outdoor temperature for calibrating. If the grain samples are cool (from air conditioning or cold storage), acclimate them by spreading them out on a clean surface overnight. If you are calibrating outside, keep the samples in the shade.

  • Page 64: Create A Scio Calibration File

    Mirus for H2/H3 Graingage User's Guide   This will take you to the moisture calibration screen. For the next steps, see Create a SCiO Calibration File, Create an M2.0 Calibration File, or Create an EM Calibration File. Create a SCiO Calibration File Note: This is only available with the H3 GrainGage and a SCiO sensor installed.
  • Page 65 Mirus for H2/H3 Graingage User's Guide Select the SCiO Crop. Tap the next arrow Pour the grain sample into the GrainGage hopper to simulate harvest. Enter the Known Test Weight. 5. Chamber Calibration...
  • Page 66 Mirus for H2/H3 Graingage User's Guide Tap Click to run a sample. Using the same sample, repeat steps 5–7 at least two more times. The GrainGage cycles the grain, and Mirus displays details of the calibration. Tap the check icon to display the calibration file.

  • Page 67: Create An M2.0 Calibration File

    Mirus for H2/H3 Graingage User's Guide Create an M2.0 Calibration File Calibrating the chamber to create a calibration file consists of two parts: Calibrating with moisture and test weight with the first sample. Calibrating with the remaining moisture samples. To begin the calibration you will need one sample that is at least 6 lb (2.7 kg) at the industry moisture standard.

  • Page 68: M2.0 Chamber Calibration

    Mirus for H2/H3 Graingage User's Guide Cycle Sample B two     more times. Test weight output should reflect the Sample C Grain bench top test weight. Cycle Sample C two     more times. Note: This table reflects the minimum number of cycles needed to create a calibration file.
  • Page 69 Mirus for H2/H3 Graingage User's Guide Under the Moisture Model Type, select M2.0.  Note: If you are harvesting a grain that is not listed here, see Create an EM Calibration File. Choose the grain you are harvesting. Tap the next arrow Calibrate the chamber using moisture and test weight (steps 7–10) and with moisture samples (with no test weight) (steps 10–17).
  • Page 70 Mirus for H2/H3 Graingage User's Guide Tap Click to run a sample. Using the same sample, repeat steps 7–9 at least two more times. The following steps explain how to continue a chamber calibration by adding moisture samples (with no test weight). Pour a grain sample into the GrainGage hopper to simulate harvest.
  • Page 71 Mirus for H2/H3 Graingage User's Guide Using the same sample, pour it into the GrainGage hopper again.  Note: TapLast Value to automatically populate the Known Moisture with the same value as the previous sample. Repeat steps 11–14 until all grain samples have been cycled through the GrainGage.
  • Page 72 Mirus for H2/H3 Graingage User's Guide If the moisture content of your samples do not cover a range of at least 3%, Mirus displays an Insufficient Moisture Range warning. Tap Ignore to continue with the current samples. Tap Return to add more samples with a variety of moisture percentages. 5.
  • Page 73 Mirus for H2/H3 Graingage User's Guide Tap the check icon Mirus displays the moisture calibration information. When this calibration file is selected for harvest, Mirus will use the M2.0 calibration throughout harvest, but it will save the EM calibration for reference. You can select the EM tab to view this saved calibration.

  • Page 74: Create An Em Calibration File

    Mirus for H2/H3 Graingage User's Guide Create an EM Calibration File Chamber Calibration Overview Calibrating the chamber to create a moisture curve consists of two parts: Calibrating with moisture and test weight with the first sample. Calibrating with the remaining moisture samples. Both of these parts are necessary to create an accurate moisture curve.
  • Page 75 Mirus for H2/H3 Graingage User's Guide Enter a name for the moisture curve. Enter the Chamber Inserts count. The insert count is the number of inserts present in the chamber. It is used to select default volume for the test chamber, which is important to the accuracy of the system.
  • Page 76 Mirus for H2/H3 Graingage User's Guide Using the same sample, repeat steps 6–8 at least 2 more times.  The following steps explain how to continue a chamber calibration by adding moisture samples (with no test weight). Pour a grain sample into the GrainGage hopper to simulate harvest. Enter the Known Moisture.
  • Page 77 Mirus for H2/H3 Graingage User's Guide Using the same sample, repeat steps 1-3 at least two more times. Note: Tap Last Value to automatically populate the Known Moisture with the same value as the previous sample. Repeat steps 10–13 until all grain samples have been cycled through the GrainGage.
  • Page 78 Mirus for H2/H3 Graingage User's Guide Tap the check icon Mirus displays the moisture curve and voltages graphically. Tap the check icon to save the new EM moisture curve. If desired, first tap the gear icon on the right for more information about this moisture curve.

  • Page 79: Test A Calibration File (Moisture Curve)

    Mirus for H2/H3 Graingage User's Guide Test a Calibration File (Moisture Curve) HarvestMaster recommends testing the new calibration file against different samples to confirm the data. Test the grain samples with a reference device by cycling sub-samples from the larger sample 3–5 times and averaging the data. The averages are the known values.

  • Page 80: Test Weight Recalibration

    Mirus for H2/H3 Graingage User's Guide Tap the Cycle button Mirus takes its measurements and displays the readings from the sample.   Cycle the sample through the GrainGage (repeat steps 7 and 8) two more times. This allows you to average the data readings for the sample. If the calibration file needs to be tuned to match the sample, tap Recalibrate.
  • Page 81 Mirus for H2/H3 Graingage User's Guide 5. Tap Recalibrate.  5. Chamber Calibration...
  • Page 82 Mirus for H2/H3 Graingage User's Guide Select Test Weight and tap the next arrow   Pour the grain sample into the hopper (to simulate harvest). Ensure the isolation gate is open so the grain drops into the GrainGage. Enter the Known Test Weight. Tap Click to run a sample.

  • Page 83: Scio Offset Recalibration

    Mirus for H2/H3 Graingage User's Guide Tap the check icon Tap the check icon  to save. SCiO Offset Recalibration Note: This is not recommended. If you offset the SCiO data, HarvestMaster recommends using 100 samples (20 samples minimum). Open Mirus. Go to Setup >...
  • Page 84 Mirus for H2/H3 Graingage User's Guide Tap Recalibrate. Select SCiO Offset Calibration. 5. Chamber Calibration...
  • Page 85 Mirus for H2/H3 Graingage User's Guide Pour the grain sample into the hopper (to simulate harvest). Ensure the isolation gate is open so the grain drops into the GrainGage. Enter the Known Moisture. Enter the Known Oil, if applicable. Enter the Known Protein, if applicable. Tap Click to run a sample.
  • Page 86 Mirus for H2/H3 Graingage User's Guide Mirus will display the recalibrated values. Tap the check icon 5. Chamber Calibration...

  • Page 87: M2.0 Moisture Model Recalibration

    Mirus for H2/H3 Graingage User's Guide On the final screen, tap the check icon  to save the calibration file. M2.0 Moisture Model Recalibration CAUTION: Test Weight Recalibration must be completed before following the steps in this section. To adjust an M2.0 moisture calibration, Open Mirus.
  • Page 88 Mirus for H2/H3 Graingage User's Guide Select the moisture curve you want to adjust. Tap the edit icon Tap Recalibrate.  Note: Adjusting the M2.0 calibration factors in the samples originally used in the calibration. Select H2 Moisture 2.0 Model Adjust and tap the next arrow Note: HarvestMaster recommends using different moisture samples (spread 2-3% 5.
  • Page 89 Mirus for H2/H3 Graingage User's Guide apart) to adjust and existing moisture curve. Pour the grain sample into the hopper (to simulate harvest). Ensure the isolation gate is open so the grain drops into the GrainGage.  Enter the Known Moisture percentage. Tap Click to run a sample.
  • Page 90 Mirus for H2/H3 Graingage User's Guide Repeat steps 7–9 with all moisture samples. HarvestMaster recommends using multiple samples when possible. Note: The Last Value button can be used to fill the Known Moisture field with the previous percentage when the same sample is run multiple times. Tap the next arrow to complete the recalibration.

  • Page 91: Em Moisture Recalibrate

    Mirus for H2/H3 Graingage User's Guide Tap the check icon to save the new M2.0 calibration file. EM Moisture Recalibrate When recalibrating an EM Moisture curve, the slope of the curve is not changed. The entire curve shifts to match the new sample. Fine-tuning a curve is often done later in the season as additional moisture samples are available.
  • Page 92 Mirus for H2/H3 Graingage User's Guide Select Moisture Adjust and tap the next arrow Note: Multiple samples can be used to adjust an existing moisture curve. If test weight needs to be adjusted, see the next section. Pour the grain sample into the hopper (to simulate harvest). Ensure the isolation gate is open so the grain drops into the GrainGage.

  • Page 93: Manual Calibration Of An Em Moisture Curve Using Excel

    Mirus for H2/H3 Graingage User's Guide Tap Click to run a sample. Repeat steps 12–14 with the same sample at least two more times. Note: The Last Value button can be used to fill the Known Moisture field with the previous percentage when the same sample is run multiple times.

  • Page 94: Calibrate High Moisture Corn On An Em Moisture Curve

    Mirus for H2/H3 Graingage User's Guide Calibrate High Moisture Corn on an EM Moisture Curve When calibrating with high moisture corn samples, some moisture curves do not follow a linear voltage relationship. HarvestMaster recommends manually adjusting the upper half of moisture curves with grain samples above 26%. To do this type of adjustment, start by using samples below 26% moisture to create a base curve as described in Chamber Calibration.
  • Page 95 Mirus for H2/H3 Graingage User's Guide Add the average offset to each moisture point with the exception of the 0 and 1 moisture points (never adjust 0 or 1). Subtract for a negative average offset. Do not adjust voltages. Add or subtract the offsets here. As needed add or remove points in the curve here. ...
  • Page 96 Mirus for H2/H3 Graingage User's Guide percentages to the default curve will help match the steeper slope in higher moisture grain samples: Add 1% to moisture values 26% to 27% Add 1.5% to moisture values 28% to 30% Add 2% to moisture values above 30% The following tables illustrate this type of adjustment.
  • Page 97 Mirus for H2/H3 Graingage User's Guide 32.0 1.582   34.0 1.582 36.0 1.713   39.0 1.713 40.0 1.845   44.0 1.845 5. Chamber Calibration...

  • Page 98: Field Maps

      C H A P T E R 6. Field Maps  ...

  • Page 99: Create A Range Row Field Map

    Mirus for H2/H3 Graingage User's Guide Field Maps This section explains how to create Range Row maps and Standard Plot ID maps. Create a Range Row Field Map In a Range Row field map, Ranges deep indicates the number of ranges within a given field. Range increment is the numeric interval between ranges.
  • Page 100 Mirus for H2/H3 Graingage User's Guide Plot increment is the numeric interval between plots. This will usually be 1. Plot numbering begins in the bottom left corner of a field and proceeds right. In the example to the left, Starting plot is 1 Plot increment is 1 Field map is six rows (plots) wide The following instructions walk you through creation of a Range Row map.
  • Page 101 Mirus for H2/H3 Graingage User's Guide Tap New. Select New Empty Map. Name and describe the map. Tap Range Row. Note: The Four Row option only applies to Twin plot systems. Tap the next arrow Note: The Name box will only accept basic letters and numbers. Do not use emojis 6.
  • Page 102 Mirus for H2/H3 Graingage User's Guide or the following special characters: > < : ” \ ? | / * Set the following: Ranges deep Plots wide Range increment Plot increment Starting range Starting plot Tap the check icon to save the map. Mirus displays a description of the map on the Manage Maps screen.

  • Page 103: Create A Standard Plot Id Map

    Mirus for H2/H3 Graingage User's Guide Export You also have the option to begin or resume harvest. Create a Standard Plot ID Map A Standard Plot ID map gives a unique ID number to each individual plot. The number of Ranges and Rows can reach up to 999.
  • Page 104 Mirus for H2/H3 Graingage User's Guide Reps (or Replication) usually indicates the same horizontal group of plots in a particular range as in the above examples. However, in some cases a replication will extend beyond a range (left). Plots per replication indicates the number of plots in each replication. Replication increment is the numeric interval between the first plots in each replication (e.g., 100 or 1000).
  • Page 105 Mirus for H2/H3 Graingage User's Guide   Sequential pattern numbers the plots in parallel columns. The columns can be ranges (horizontal) or rows (vertical). 6. Field Maps...
  • Page 106 Mirus for H2/H3 Graingage User's Guide   Direction indicates the direction in which plot increments increase. Note: In order to collect the correct data, the map pattern and direction should follow the planted pattern. This may or may not correspond with your harvest pattern. The following instructions walk you through creation of a Standard Plot ID map. ...
  • Page 107 Mirus for H2/H3 Graingage User's Guide Tap Maps Tap New. 6. Field Maps...
  • Page 108 Mirus for H2/H3 Graingage User's Guide Select New Empty Map. Name and describe the map. Tap Standard Plot ID. Tap the next arrow Note: The Name box will only accept basic letters and numbers. Do not use emojis or the following special characters: > < : ” \ ? | / * Set the following: Ranges deep Rows wide...
  • Page 109 Mirus for H2/H3 Graingage User's Guide 8. Tap the check icon to save the map. Mirus displays a description of the map on the Manage Maps screen. From this screen, Mirus allows you to do the following with your maps: Create new View Delete...

  • Page 110: Create A Sub-Map

    Mirus for H2/H3 Graingage User's Guide You also have the option to begin or resume harvest. Note: In Map View, Mirus initially displays Standard Plot ID maps as Range Row maps. To display the plot IDs, select Plot ID under Attribute. Create a Sub-Map Mirus allows the creation of sub-maps—smaller divisions of the larger field maps.
  • Page 111 Mirus for H2/H3 Graingage User's Guide Open the Manage Maps screen, and tap New. Select New Empty Map. Name and describe the map. Tap Sub-Map. Select which map this will be a sub-map of. Tap the next arrow Note: The Name box will only accept basic letters and numbers. Do not use emojis 6.
  • Page 112 Mirus for H2/H3 Graingage User's Guide or the following special characters: > < : ” \ ? | / * The plot and range increments are the same as the larger field map. Set the following: Starting range Starting row Ending range Ending row Tap the check icon...

  • Page 113: Import A Map

    Mirus for H2/H3 Graingage User's Guide On the Manage Maps screen, Mirus displays the sub-map under the main field map it is a part of. Import a Map In Mirus you can easily import maps created in Microsoft Excel or research programs such as PRISM®...
  • Page 114 Mirus for H2/H3 Graingage User's Guide notice the columns PLTID and study. Note: The range row map is in list format, and the range and row columns are entirely numeric. The column names are unimportant. During the import process, Mirus allows you to select which of the entirely numeric columns are Range and Row.
  • Page 115 Mirus for H2/H3 Graingage User's Guide Tap New. Select Import Map from File. Navigate to and select the desired file. Check the values displayed by Mirus and make sure they reflect the map you are importing. If necessary, change the columns designated as Range and Row by clicking on their respective drop-down menus.
  • Page 116 Mirus for H2/H3 Graingage User's Guide columns. Tap the next arrow On the Manage Maps screen, Mirus displays a notification that the map has been imported successfully. Mirus imports the additional attributes. You can select the attributes to view in the Attribute pane.

  • Page 117: Import A Two-Dimensional (2D) Map

    Mirus for H2/H3 Graingage User's Guide Import a Two-Dimensional (2D) Map Two-dimensional (2D) maps have the same layout as the field. Plot IDs in a 2D map allow any plot name in any order to be used on the map. This type of map must be created with a spreadsheet or text editor and saved as a tab-delimited file or TXT file.
  • Page 118 Mirus for H2/H3 Graingage User's Guide Tap New. Select Import Map from File. Navigate to and select the desired file. If desired, change the default description displayed by Mirus.  Tap the next arrow 6. Field Maps...

  • Page 119: Import Multiple Maps

    Mirus for H2/H3 Graingage User's Guide On the Manage Maps screen, Mirus displays a notification that the map has been imported successfully. Mirus imports the additional attributes. Select a different attribute to change the view.    Import Multiple Maps It is possible to import multiple maps at the same time. On the Miurs Home screen, 6.
  • Page 120 Mirus for H2/H3 Graingage User's Guide Tap Maps Tap New. Select Import Map from File. Navigate to the desired files. Select the desired files and tap Open. Note: You can select multiple files by holding the CTRL key and marking each file 6.

  • Page 121: View A Map

    Mirus for H2/H3 Graingage User's Guide you want to import. Tap Yes to enable Smart Import. Smart Import will import each file automatically without any additional input from the user. If the map name already exists, the import will stop to allow the user to change the name.
  • Page 122 Mirus for H2/H3 Graingage User's Guide Select the map you want to view. Tap View. Mirus opens the Map View screen. The image below displays a map that has not yet been harvested: Depending on the attributes in the map and what data has been collected, Map View can be configured to display different attributes of the grain as shown in the image below: 6.

  • Page 123: Delete A Map

    Mirus for H2/H3 Graingage User's Guide Delete a Map On the Manage Maps screen, Select the map you want to delete. Tap Delete.    Mirus asks if you are sure. CAUTION: This cannot be undone! You cannot recover a deleted map. If you choose to proceed, tap Yes.

  • Page 124: Export Map Data

    Mirus for H2/H3 Graingage User's Guide will not be copied.   Enter the name and description of the map. Tap the check icon to save the new copy. Mirus adds it to the list of maps on the Manage Maps screen. Export Map Data The Manage Maps screen allows you to export maps as data and as heat maps.
  • Page 125 Mirus for H2/H3 Graingage User's Guide Tap Export. Enter the file path for the exported data. Select your preferred Identifiers. When Advanced is switched to Off, Mirus automatically exports the data for weight, test weight, and moisture. When Advanced is switched to On, Mirus displays a list of available traits to export with the data.
  • Page 126 Mirus for H2/H3 Graingage User's Guide trip data. Select the individual traits you would like to export. If needed, check Select All to export all the listed traits. Tap the check icon to finish exporting the data. Mirus notifies of the successful export. Tap OK to finish the export.

  • Page 127: Export A Heat Map

    Mirus for H2/H3 Graingage User's Guide Mirus exports the data into CSV (comma delimited) form. This allows you to import the data into other programs for analysis. Export a Heat Map Exporting a heat map creates a color-coded visual map in a spreadsheet for each desired attribute.
  • Page 128 Mirus for H2/H3 Graingage User's Guide Enter the file path for the exported map. Select whether you want to increase color resolution. Select the attributes you want included in the export.  Note: If you select multiple attributes, each attribute will be displayed in a separate tab within Excel.
  • Page 129 Mirus for H2/H3 Graingage User's Guide If Microsoft Excel is installed, a spreadsheet opens automatically, showing the exported heat map. 6. Field Maps...

  • Page 130: Harvest Mode

      C H A P T E R 7. Harvest Mode  ...

  • Page 131: Options For Opening Harvest Mode

    Mirus for H2/H3 Graingage User's Guide Harvest Mode Options for Opening Harvest Mode You must create or import a map before you can harvest. Mirus offers three different routes for initiating or re-entering Harvest Mode.   On the Mirus Home screen, Tap Harvest .
  • Page 132 Mirus for H2/H3 Graingage User's Guide Tap Maps, select your desired map, and tap Harvest. Select a map or tap the plus icon to create a new map. Tap the check icon Enter the starting location. Note: Click on the matrix to bring up another screen to allow you to choose the starting location.
  • Page 133 Mirus for H2/H3 Graingage User's Guide mostly used for note taking. Select which attributes you plan to record. Note: Both moisture and test weight must be enabled even if only one trait is desired. The undesired trait can be modified post-process. If Traits are enabled, the Select Traits dialog box will appear.
  • Page 134 Mirus for H2/H3 Graingage User's Guide Tap the next arrow If you selected Moisture/Test Weight, Mirus prompts you to select a moisture curve. Select a Moisture Curve. Tap the check icon Note: You will only be able to see the SCiO calibration file if you are connected to 7.

  • Page 135: Configure Harvest Screen Options

    Mirus for H2/H3 Graingage User's Guide an H3 GrainGage with a SCiO sensor installed . Mirus opens the Harvest screen and is ready to be configured or to collect data. If you have connected an H3 with a SCiO sensor, the SCiO data will display here too. Configure Harvest Screen Options The Harvest screen provides several options for configuring how data is collected and presented during harvest.

  • Page 136: Configure Cycle Settings

    Mirus for H2/H3 Graingage User's Guide   Start/Cycle/Countdown/Go Button: Start initiates harvest. Cycle initiates measurements and data collection for a specific plot. Countdown initiates a delay before measurements. Go indicates it’s time to move to the next plot.    Diagnostics: Opens the Diagnostics dialog box for monitoring during harvest.  ...
  • Page 137 Mirus for H2/H3 Graingage User's Guide The countdown timer sets a wait time at the start of each cycle to ensure all the grain in the current plot reaches the GrainGage before cycling. To configure the Countdown Mode, Tap the cycle settings icon in the toolbar.
  • Page 138 Mirus for H2/H3 Graingage User's Guide To change the Toolbar position of the button, Select In Toolbar. Select Left or Right. The default position is left. If you select right, Mirus moves the Start/Cycle/ Countdown/Go button to the other side of the screen. Tap the check icon 7.

  • Page 139: Quad View

    Mirus for H2/H3 Graingage User's Guide Quad View Mirus provides the option of viewing four screens at once when Quad View selected. Each screen can be configured to display the data differently. The screen options are as follows: Cycle Data: Displays the plot, weight, moisture, test weight, and trait data for each cycle.

  • Page 140: Diagnostics Screen

    Mirus for H2/H3 Graingage User's Guide Tap the Quad View icon again. Mirus exits the configuration screens.   Diagnostics Screen To access the Diagnostics screen in Harvest Mode, Tap the gear icon on the toolbar. 7. Harvest Mode...

  • Page 141: Navigation Screen

    Mirus for H2/H3 Graingage User's Guide Select the tab for the diagnostic function you want to see. Note: If you open the Actuator tab, you can see the status of the gates and actuators while they cycle during the harvest. Note: The Diagnostics screen will not open while the GrainGage is cycling.

  • Page 142: Observations Screen

    Mirus for H2/H3 Graingage User's Guide Observations Screen On the Harvest screen, Tap the pencil icon to open the Observations window.   The Observations screen shows plot position and provides character fields for notes on each trait and a Quick Notes text box to record any other observations for each plot. Mirus stores the quick notes and trait notes alongside harvest data.

  • Page 143: Graph View

    Mirus for H2/H3 Graingage User's Guide Graph View To view the harvest data in graph form, tap the graph icon in the toolbar. The column to the right of the graph shows the data for the current plot. In the graph, each bar (or point in the line graph) represents a plot. Each graph represents the map for three different traits: green for weight, blue for moisture, and orange for test weight.

  • Page 144: List View

    Mirus for H2/H3 Graingage User's Guide Click on the graph to switch between a bar graph (shown above) and a line graph (shown below). List View In List View, you can see the data in the form of a spreadsheet. Configure Weight in Spatial Display To set the minimum and maximum weight, Tap the Spatial Display icon...

  • Page 145: Configure Moisture In Spatial Display

    Mirus for H2/H3 Graingage User's Guide This setting adjusts the maximum weight on the Real Time Weight display, which allows you to track how full the GrainGage is getting with each plot. This is important to monitor so the GrainGage doesn’t overflow. (The minimum weight shown on the Real Time Weight display is adjusted with the Chamber Head Room under Setup >...

  • Page 146: Configure Test Weight In Spatial Display

    Mirus for H2/H3 Graingage User's Guide Configure Test Weight in Spatial Display To set the minimum and maximum test weight, Tap the Spatial Display icon to display data in a heat map format. Select the Test Weight attribute. Tap the gear icon in the Attribute bar.

  • Page 147: Collect Harvest Data

    Mirus for H2/H3 Graingage User's Guide The values set here help calculate the yield per acre (bu/ac, kg/ha) using the weight measurements divided by the plot area. For each minimum and maximum changed, the Legend will change to match the correct values. Adjusting the minimum and maximum values helps to create a more detailed legend and define the scope of the graphs and maps.
  • Page 148 Mirus for H2/H3 Graingage User's Guide Harvest the first plot. Press Remote Enter or Cycle when all the grain is in the GrainGage. When prompted with a green Go button , start into the next plot. Repeat for each plot. The following table explains each stage of the Start/Cycle/Go button during harvest.

  • Page 149: Harvest With Countdown Timer

    Mirus for H2/H3 Graingage User's Guide Return to #2 at the   end of the next Mirus is ready to begin the cycle for the next plot. plot. Harvest with Countdown Timer Note: It is best to use the countdown timer. Using the countdown timer typically gives a more consistent clean-out time from plot to plot which can improve the quality of your data.
  • Page 150 Mirus for H2/H3 Graingage User's Guide The GrainGage is waiting for the trip point to be met or an Enter press at the end of the plot. If the trip point is met, the GrainGage will Enter press at the automatically cycle.

  • Page 151: Appendix A: Standard Moisture And Test Weight

      C H A P T E R Appendix A: Standard Moisture and Test Weight  ...

  • Page 152: References For Standard Moisture And Test Weight

    Mirus for H2/H3 Graingage User's Guide Appendix A: Standard Moisture and Test Weight Test weight should always be calculated with a sample that is as close to the industry moisture standard as possible. The table below shows some examples of the industry moisture standard.
  • Page 153 Mirus for H2/H3 Graingage User's Guide Isleib, J. (2012, August 6). Test weight in small grains. Michigan State University Extension. https://www.canr.msu.edu/news/test_weight_in_small_grains. Appendix A: Standard Moisture and Test Weight...

  • Page 154: Appendix B: Troubleshooting Mirus

      C H A P T E R Appendix B: Troubleshooting Mirus  ...

  • Page 155: Error Logs

    Mirus for H2/H3 Graingage User's Guide Appendix B: Troubleshooting Mirus Error Logs Error logs are used by HarvestMaster Engineers to pinpoint the problem occurring in Mirus. Flag Errors When experiencing an error, in Mirus version 4.3.0 and later, you can flag the error for the HarvestMaster Engineers.

  • Page 156: Find And Send Error And Backup Logs

    Mirus for H2/H3 Graingage User's Guide Find and Send Error and Backup Logs After an error has occurred, copy the error and backup log files as soon as possible to send to the HarvestMaster Field Service Engineers. If you do not copy the error log files right after the error occurs, it will be harder to find the point of error or the error might get overwritten with newer error files.

  • Page 157: Enable Or Disable Debug Streaming

    Mirus for H2/H3 Graingage User's Guide If error persists, run a self test when available. Malfunctioning light source Run a self test when available. Wait until the sensor Temperature is Sensor temperature exceeds temperature warms (if it was Out of the allowed range of -10°C to too cold) or cools (if it was too Supported...

  • Page 158: Common Errors

    Mirus for H2/H3 Graingage User's Guide Common Errors Inaccurate Plot Weight If weight values are inaccurate, open Diagnostics and follow the steps listed below. Ensure the weigh bucket of the GrainGage is in the tracks. Clean inside the bucket, around the bucket, and around the load cells of the GrainGage with compressed air.

  • Page 159: Inaccurate Moisture Or Constituent Data

    Mirus for H2/H3 Graingage User's Guide Check the airflow through the air valves to ensure enough flow to quickly close the gates and raise/lower the separator. Remove the air pressure and lift the separator up by hand to ensure it is not binding.

  • Page 160: Can't Connect To Graingage

    Mirus for H2/H3 Graingage User's Guide If the minimum weight threshold value is outside 2–6 lb., recalibrate the test weight for the chamber calibration. If you are not harvesting enough grain to meet the minimum weight threshold, install low yield inserts and recalibrate the chamber. For more information about low yield inserts, see the H2 Classic GrainGage Hardware Manual.

  • Page 161: Contact Harvestmaster

    Mirus for H2/H3 Graingage User's Guide • Lengthen the evacuation time by 500 milliseconds. • Harvest another plot and check again. Tare warning values Restore the values to the default setting. See the Weight have been adjusted. Sensors Settings. If the problem persists, contact the HarvestMaster Field Service Engineers at the number in Contact a HarvestMaster Field Service Engineer.

  • Page 162: Appendix C: Use The Conditional Action Plugin

      C H A P T E R Appendix C: Use the Conditional Action Plugin  ...

  • Page 163: Cycling Hierarchy

    Mirus for H2/H3 Graingage User's Guide Appendix C: Use the Conditional Action Plugin The Conditional Action plugin allows users to perform custom actions at various points of the harvest process. Conditional actions are preferred to manual script modifications for the following reasons: Conditional actions are more apparent to a user and can be explicitly enabled and disabled without manual script modifications.
  • Page 164 Mirus for H2/H3 Graingage User's Guide Under the Attachments tab, select Conditional Action. When the plugin has been selected a green check will appear in the corner. Tap the green check in the bottom right corner to save. Go to Setup > Conditional Action Plugin > Conditional Actions. Tap the new icon Appendix C: Use the Conditional Action Plugin...
  • Page 165 Mirus for H2/H3 Graingage User's Guide Name the conditional action. This is also the filename that will be used when the conditional action is saved to C:\HarvestMaster\Mirus\Config\ConditionalAction\Conditions Set the Active toggle to Yes or No. If set to Yes, the defined conditional action will be evaluated during harvest.

  • Page 166: Evaluation Points

    Mirus for H2/H3 Graingage User's Guide Conditions (if) are optional conditions that control if the defined actions will be executed. More explanation of conditions and variables is provided in Conditions. Add Actions (then). The drop-downs include a list of actions to be performed in sequence if the conditions are met at the designated evaluation point.
  • Page 167 Mirus for H2/H3 Graingage User's Guide Evaluation occurs when the GrainGage is about to begin cycling a plot for the first time. In Strip Mode, it occurs when the first cycle is tripped (weight or level trip). Plot is In Plot Mode, it occurs after the countdown timer expires. If starting there is no countdown timer, it occurs as soon as the cycle is requested (enter).

  • Page 168: Conditions

    Mirus for H2/H3 Graingage User's Guide In Strip Mode, evaluation may occur multiple times within a plot if a cycle is tripped. Plot Evaluation occurs at the end of the plot after the tare check occurs completed and the isolation gate opens. Conditions Users can also define conditions that determine if an action should or should not be performed.

  • Page 169: Actions

    Mirus for H2/H3 Graingage User's Guide Cycle Count is used to execute conditions based on the current Cycle Count cycle number. Actions The actions in a conditional action are the functions to be performed at an evaluation point, should the conditions be met. For example, an action would be helpful in the following scenario: an air diverter needs to be actuated at the start of a flush cycle to ensure all the grain from the cyclone has fallen into the GrainGage before closing the isolation gate.
  • Page 170   C H A P T E R Appendix D: Take Notes with Mirus  ...

  • Page 171: Appendix D: Take Notes In Mirus

    Mirus for H2/H3 Graingage User's Guide Appendix D: Take Notes in Mirus Mirus Note Taking provides a simplified process of taking notes in the field using many of the same tools supplied for harvest. Mirus Note Taking uses intuitive data collection forms, color-coded heat maps, and customized pick lists to help streamline your data collection process.
  • Page 172 Mirus for H2/H3 Graingage User's Guide For more information about creating or importing a map, see Create a Range Row Field Map, Create a Standard Plot ID Map or Import a Map. Enter the starting location. Note: Click on the matrix  to bring up another screen to allow you to choose the starting location.
  • Page 173 Mirus for H2/H3 Graingage User's Guide Trait Order: Mirus will prompt you to enter one trait at a time per plot through all the observers before routing to the next row or range. Select one or all of the traits to include. Tap the green check ...

  • Page 174: Configure The Note Taking Screen

    Mirus for H2/H3 Graingage User's Guide For more information about configuring Traits from the Setup screen, see Create and Record Traits. Mirus opens the Note Taking screen and is ready to be configured or collect data. Configure the Note Taking Screen The Note Taking Quad View is similar to the Harvest Mode Quad View (Configure Harvest Screen...

  • Page 175: Navigation Screen

    Mirus for H2/H3 Graingage User's Guide    Navigation: Opens the Change Location dialog box and allows the operator to make changes to location, direction, and navigation type.  Observations/Notes: Opens a dialog box where the operator can record notes for each plot during harvest. This is also where you can add information about any traits you configured.

  • Page 176: Quad View

    Mirus for H2/H3 Graingage User's Guide Quad View Mirus provides the option of viewing four screens at once when Quad View is selected. Each screen can be configured to display the data differently. The screen options are as follows: List: Displays accumulated data as a list. Spatial: Also referred to as a heat map, it shows attribute data with colors plot by plot.
  • Page 177 Mirus for H2/H3 Graingage User's Guide Select the Identifier Filter from the attribute list. Select the settings gears. Select the identifier you would like to filter/search. Note: The options available from the drop-down menu will vary based on your map. Appendix D: Take Notes with Mirus...
  • Page 178 Mirus for H2/H3 Graingage User's Guide Choose “is exactly” or “contains.” Enter your search criteria. Note: The search criteria must be based on information included in your map. Tap the  With the identifier filter applied, the spatial view will show only the plots that contain that match.
  • Page 179 Mirus for H2/H3 Graingage User's Guide Appendix D: Take Notes with Mirus...

  • Page 180: Appendix E: Limited Warranty

      C H A P T E R Appendix E: Limited Warranty  ...

  • Page 181: Software

    Disclaimer of Warranties The warranties set forth herein are in lieu of all other warranties of Juniper Systems, whether written, oral or implied. Juniper Systems makes no warranties regarding its products (hardware or software), including without limitation warranties as to...

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