Analog Devices MAXREFDES106# Manual
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Analog Devices MAXREFDES106# Manual

Health sensor platform 4.0
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Features

The MAXREFDES106# is a chest-worn device
that displays and logs biometric data. The
platform includes the following innovative
features:
ECG-Based Heart Rate
Optical PPG-based SpO
BioZ-Based Respiration Rate
Skin and Ambient Temperature
Location Finder to Determine the Best
Placement Location
Rechargeable 190mAh Battery

General Description

The MAXREFDES106# is a vital sign monitoring
platform in a chest-patch form factor. The
platform uses algorithms and high sensitivity
photoplethysmography (PPG),
electrocardiogram (ECG), bioimpedance (BioZ),
and temperature biosensor measurements to
calculate heart rate (HR), respiration rate (RR),
and blood oxygenation (SpO
data can be displayed on a Microsoft Windows
graphical user interface (GUI) in real-time and
logged to a local file for further study.
The patch is designed for long-term passive
monitoring with a runtime of one day on a single
charge. The PPG acquisition system consists of
a red and infrared (IR) light emitter source and
two photodiode receivers. The MAX86178 AFE
includes dual high-resolution optical readout
signal-processing channels with robust ambient-
light cancellation, which is ideal for SpO
measurement. PPG and accelerometer data are
processed by the embedded algorithm inside of
the MAX32674C algorithm hub (Algo Hub) to
calculate SpO
. The ECG acquisition system
2
has three electrodes for continuous ECG, and
four electrodes for BioZ monitoring. The PC GUI
©2022 Analog Devices, Inc. All rights reserved.
MAXREFDES106# Health Sensor Platform 4.0
2
). The vital signs
2
®
2
contains algorithms to filter the ECG and BioZ
data, and to calculate heart rate, respiration
rate, blood stroke volume, and cardiac output.
All algorithms are not publicly available. The
exception to this is the SpO
released as an .msbl file that is flashed to the
MAX32674C.
The patch also features measurements for both
skin temperature and ambient temperature
using two low-power consumption, highly
accurate MAX30210 temperature sensors.
The real-time vital signs can be viewed and
logged through Low Energy Bluetooth
communications available from the PC GUI
running on a Microsoft Windows PC.
Figure 1. MAXREFDES106# Vital Sign
Monitoring Patch
algorithm, which is
2
®
11//23
(
) 1
Rev 1

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Summary of Contents for Analog Devices MAXREFDES106#

  • Page 1: Features

    Monitoring Patch the MAX32674C algorithm hub (Algo Hub) to calculate SpO . The ECG acquisition system has three electrodes for continuous ECG, and four electrodes for BioZ monitoring. The PC GUI ©2022 Analog Devices, Inc. All rights reserved. 11//23 Rev 1...

  • Page 2: Table Of Contents

    Bio-impedance Analysis (BIA) ....................32 Heart Rate (HR) ........................34 Blood Oxygen Saturation (SpO ) .................... 37 Temperature Sensors ......................39 PC GUI Tabs ........................... 40 Location Finder Tab ......................40 ©2022 Analog Devices, Inc. All rights reserved. 11//23 Rev 1...
  • Page 3 Drag and Drop Does Not Work: Updating the MAXDAP-TYPE-C Programmer ..... 74 Packet Drop Counts Seen in the PC GUI ................76 Confirm that the BleuIO Dongle Firmware is Version 2.2.0+ ..........76 Updating the BleuIO Dongle Firmware to 2.2.0 ..............78 ©2023 Analog Devices, Inc. All rights reserved.

  • Page 4: System Architecture

    The PC GUI interface allows the user to change configuration settings and capture the data to a log file. Plots for ECG, BioZ, SpO respiration rate, accelerometer, and temperatures are available. Figure 2. MAXREFDES106# System Diagram ©2023 Analog Devices, Inc. All rights reserved.

  • Page 5: Push Button Description

    Battery Critically Low Failed (<10%) Yellow Device is MAX32674C Programming in Battery Low Initializing Progress (10% to 50%) Cyan USB Connected Not Used Flash Logging in Progress Pink Not Used Not Used Battery High (>50%) ©2023 Analog Devices, Inc. All rights reserved.

  • Page 6: Location Quality Definitions For The Location Finder Led

    MAXDAP-TYPE-C Programming Adapter  USB Type-C™ Cable (USB-C)  USB Micro-B Cable (Micro-USB)  BleuIO BLE 5.0 USB Dongle  Two-Piece Snap-Fit 3D Printed Enclosure  3M Double-Sided Adhesive Tape (1577, 5 Pieces) ©2023 Analog Devices, Inc. All rights reserved.

  • Page 7: Additional Components Required

    Additional Components Required  Microsoft Windows 10+ PC  PC GUI Software to Display/Log ECG Heart Rate, BioZ Respiration Rate, and PPG SpO  MAX32666 Host Firmware (.bin)  MAX32674C Algo Hub Firmware (.msbl) ©2023 Analog Devices, Inc. All rights reserved.

  • Page 8: Updating The Firmware

    MAXREFDES106# powers down briefly and then powers up again. Figure 3. Micro-USB to MAXDAP-TYPE-C to MAXREFDES106#. 3. Unzip the ‘MRD106_Update.zip’ file. Find the ‘openocd’ folder and ‘load_fw.bat’ file. Move the ‘MRD106_Host’ firmware into this folder. The folder looks like Figure 4. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 9 7. After a successful programming, unplug the DAPLINK from the MAXREFDES106#. Then, hold the MAXREFDES106# push button for more than 13 seconds to force a power down. 8. The MAXREDES106# host firmware is now successfully programmed. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 10: Updating The Max32674C Algo Hub Microcontroller Coprocessor Firmware (.Msbl)

    Figure 9. Note the USB Serial Device COM Port Number After pressing ENTER, the program begins flashing the MAX32674C with the latest firmware. A successful flash looks like Figure 10, and ‘SUCCEED…’ displays near the end. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 11 MAXREFDES106# Health Sensor Platform 4.0 ©2023 Analog Devices, Inc. All rights reserved.

  • Page 12: Installing The Maxrefdes106# Health Sensor Platform Pc Gui

    Uninstall any previously installed versions of the MAXREFDES106# Health Sensor Platform PC GUI. Download and extract the ‘Evaluation Package’ from the Analog Devices website for the MAXREFDES106#. Note: The software package includes the latest firmware .bin, algorithm .msbl, and the corresponding PC GUI Microsoft Windows application .exe.
  • Page 13 MAXREFDES106# Health Sensor Platform 4.0 Figure 12. PC GUI Select Destination Figure 13. PC GUI Select Start Menu Folder Figure 14. PC GUI Select Additional Tasks 4. Then, click Finish in the ‘Ready to Install’ pop-up. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 14 MAXREFDES106# Health Sensor Platform 4.0 Figure 15. PC GUI Ready to Install ©2023 Analog Devices, Inc. All rights reserved.

  • Page 15: Charge The Device And Run The Maxrefdes106# Health Sensor Platform Pc Gui

    Figure 18. Connect the PC GUI BleuIO to the MAXREFDES106# The battery level displays at the bottom left of the PC GUI. The host .bin, Algo Hub, and .msbl versions display at the bottom center of the PC GUI. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 16 .bin Battery Version Version Figure 19. Battery Level, Host .bin Version, Algo Hub .msbl Version The GUI version is displayed by clicking ‘Help > About’. PC GUI Version Figure 20. PC GUI Version ©2023 Analog Devices, Inc. All rights reserved.
  • Page 17 Flash the host micro, MAX32666, with the .bin file using drag and drop to the DAPLINK folder. Flash the algorithm .msbl file to MAX32674C using the .bat file. Install the PC GUI using the .exe file. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 18: Orientation Of The Usb-C 7-Lead Electrode Cable To The Maxrefdes106

    IMPORTANT. The USB symbol on the USB-C 7-lead electrode cable must be visible when viewing the MAXREFDES106# from the top. Plug the USB-C 7-lead electrode cable into the MAXREFDES106#, as shown in Figure 21. Figure 21. Orientation of the USB-C 7-Lead Electrode to the MAXREFDES106# ©2023 Analog Devices, Inc. All rights reserved.

  • Page 19: Measurements

    Measurement settings can be finetuned manually in the Raw Mode or adjusted algorithmically by enabling the AGC in the Algo Hub Mode. See the section PPG Mode for details on these modes. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 20 Mode: ‘Raw Mode’ selected.  PPG Settings: ‘PPG1 Power Down’ and/or ‘PPG2 Power Down’ not checked.   PPG Measurement: At least one measurement enabled. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 21: Electrocardiogram (Ecg)

    ECG solution with the ‘Evaluation GUI’. This section discusses how to set up a basic ECG measurement and provides an overview of how the ECG measurement is structured. See the MAX86178 data sheet for a more detailed description and available feature-set of the ECG AFE. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 22 ECG Channel: ‘ECG Enable’ checked (checking this box on one of the tabs checks all).   ECG MUX: Keep default settings.  ECG Lead Off: Keep default settings. ECG RLD: ‘RLD Enable’ checked.  ©2023 Analog Devices, Inc. All rights reserved.
  • Page 23 Start a measurement by clicking Start. ECG data is drawn to the Plots tab. Stop an active ECG measurement by clicking Stop.  ECG measurement can be simultaneously enabled alongside the PPG and Bio-Z measurements. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 24: Bioimpedance (Bio-Z)

    BioZ Drive: ‘I-Channel’ selected in ‘BioZ Enable’ (selecting this box on one of the tabs selects all).  BioZ Receive: ‘I-Channel’ selected.   BioZ MUX: Keep as default.  BioZ Calibration: Before any BioZ measurement, a BioZ Calibration is required. See the BioZ Calibration section for details. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 25 Ensure electrodes I+, V+, I-, V- are placed as in Figure 29. Figure 29. BioZ Electrodes: I- (Blue), I+ (Blue), V- (Green), V+ (Green)  BioZ measurement can be simultaneously enabled alongside the PPG and ECG measurements. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 26: Algorithms

    MAXREFDES106# Health Sensor Platform 4.0 Algorithms The MAXREFDES106# includes a MAX32674C Algorithm Hub that contains Analog Devices’ proprietary algorithms for deriving HR from ECG measurement, SpO from PPG measurement, respiration rate from BioZ measurement, and stroke volume and cardiac output from impedance cardiography (ICG).
  • Page 27 These settings satisfy the requirements to start an ICG measurement and the rest of the tabs can be left at their power-on defaults. To improve the accuracy of the measurement, a BioZ calibration should be done (see BioZ Calibration section for details). ©2023 Analog Devices, Inc. All rights reserved.
  • Page 28 MAXREFDES106# Health Sensor Platform 4.0  ECG Channel: Keep power-on default settings. Figure 32. ECG Channel Tab: Use Power-On Default Settings  ECG Mux: Keep power-on default settings. Figure 33. ECG Mux Tab: Use Power-On Default Settings ©2023 Analog Devices, Inc. All rights reserved.
  • Page 29 MAXREFDES106# Health Sensor Platform 4.0  ECG RLD: Keep power-on default settings. Figure 34. ECG RLD Tab: Use Power-On Default Settings  BioZ Drive: Keep power-on default settings. Figure 35. BioZ Drive Tab: Use Power-On Default Settings ©2023 Analog Devices, Inc. All rights reserved.
  • Page 30 MAXREFDES106# Health Sensor Platform 4.0  BioZ Receive: Keep power-on default settings. Figure 36. BioZ Receive Tab: Use Power-On Default Settings  BioZ Mux: Keep power-on default settings. Figure 37. BioZ Mux Tab: Use Power-On Default Settings ©2023 Analog Devices, Inc. All rights reserved.
  • Page 31 Ensure the minimum settings requirements, listed above, are met.  Start the measurement by clicking Start. ICG algorithm data is displayed to the Plots tab under ECG + ICG. Stop an active measurement by clicking Stop. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 32: Bio-Impedance Analysis (Bia)

    Click ‘Calibrate’, and when it has finished calibrating, press ‘Start Measurement’ and hold still until the measurement is done. BIA outputs display in the ‘Bioelectrical Impedance Analysis Outputs’ window. • All other settings should be left as their power-on default settings. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 33 MAXREFDES106# Health Sensor Platform 4.0 Figure 40. BIA Tab Placing the Electrode Figure 41. Placing the BIA Electrode Placement ©2023 Analog Devices, Inc. All rights reserved.

  • Page 34: Heart Rate (Hr)

    Once ECG in ‘Quick Configuration’ is selected, the rest of the settings can be configured at their power- on defaults.  ECG Channel: Keep power-on default settings. Figure 42. ECG Channel Tab: Use Power-On Default Settings ©2023 Analog Devices, Inc. All rights reserved.
  • Page 35 MAXREFDES106# Health Sensor Platform 4.0  ECG Mux: Keep power-on default settings. Figure 43. ECG Mux Tab: Use Power-On Default Settings ©2023 Analog Devices, Inc. All rights reserved.
  • Page 36 MAXREFDES106# Health Sensor Platform 4.0  ECG Lead-Off Figure 44. ECG Lead Off Tab  ECG RLD Figure 45. ECG RLD Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 37: Blood Oxygen Saturation (Spo 2 )

    This section discusses how to enable the SpO algorithm output and fundamentals of the algorithm setup. Analog Devices’ proprietary algorithms for deriving clinical-grade accuracy pulse oximetry (SpO measurements from Red and IR PPG signals are packaged in the .msbl file, which is flashed to the MAX32674C (the SpO source code/library is not released to the public) .
  • Page 38  Motion and movements should be limited; remain as still as possible during the measurement period. Starting and Stopping a Measurement Figure 47. Example SpO Algorithm Output ©2023 Analog Devices, Inc. All rights reserved.

  • Page 39: Temperature Sensors

    Ambient Temperature Sensor Figure 48. MAXREFDES106# Thermal Contact Associated Tabs The tab associated with temperature sensor measurements is the Temperature tab. Starting and Stopping a Measurement Figure 49. Example Temperature Measurement Output ©2023 Analog Devices, Inc. All rights reserved.

  • Page 40: Pc Gui Tabs

    1 and 2. Green is for great location, yellow is for an okay location, and red for a bad location. If the GUI shows red, move the patch to a new spot and wait for the score indicator to update. Repeat until a green location is found. Figure 50. Location Finder Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 41: Pll Tab

    The PLL tab allows the generation of PLL clock frequency. PLL is enabled by default. PLL frequency is generated by multiplying the Clock Selection frequency with the M Divider. PLL frequency ranges from 4MHz to 24MHz. Refer to Table 3 for more details. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 42 PLL frequency divided by the F Divider. If disabled, the output of the mux is simply the PLL frequency. This functionality allows lower drive and sampling frequencies to be generated, as measuring respiration does not require high frequencies. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 43: Ppg Mode Tab

    GUI offers a relatively open interface to modify the input data configuration, if necessary. However, not all possible configurations are fully supported. If the defaults are modified, ensure the modifications are properly selected. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 44 Sample rate and DAC offsets can be manually set in this mode. With AGC enabled: This is the fixed PD current target the AGC Control Target PD algorithm hub always tries to hit. It adjusts LED driver currents Setting Current as necessary. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 45: Ppg Settings Tab

    This tab offers further configuration settings for the PPG AFE. Primarily, this tab is used to control the PPG frame rate, enable/disable PPG channels, and configure the onboard accelerometer. Figure 53. PPG Settings Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 46: Ppg Measurement Settings

    This tab offers in-depth manual control of the PPG AFE. Individual measurement blocks can be enabled, configured, and sequenced here. The layout of the LEDs and PDs on the MAXREFDES106# is provided for reference in Figure 55. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 47 MAXREFDES106# Health Sensor Platform 4.0 Figure 54. PPG Meas Tab: PPG Measurement Settings Tab Figure 55. MAXREFDES106# LED and PD Layout, Bottom View ©2023 Analog Devices, Inc. All rights reserved.
  • Page 48 DRV pins: LED1 = IR LED2 = Red Driver A/B PA Sets the LED driver current pulse amplitude in mA. This is the amount of current the driver pushes through the LED ©2023 Analog Devices, Inc. All rights reserved.

  • Page 49: Ecg Channel Tab

    Software ECG Filter is shown on ECG signals in the GUI plots as well as saved in a separate file log ending in ‘.ecg_filtered.csv’. See the table configuration options in Table 7 for more details. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 50 Sets the ECG threshold at which the fast recovery mode Threshold begins to trigger. PGA Gain Sets the gain factor for the PGA. This is the final gain stage before the ECG signal is sampled by the ADC. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 51 ‘.ecg_filtered.csv’. Baseline Removal This switch toggles the baseline removal feature of the ‘Software ECG Filter’ chain. This is a Analog Devices advanced post-processing filter that tracks the baseline signal and eliminates baseline drift and motion artifacts. It can recover very fast from sudden signal level changes due to motion or other possible causes.

  • Page 52: Ecg Mux Tab

    The switches must be connected to collect an ECG signal. ECGP/N Polarity Controls the polarity of the ECGP/ECGN pin connections. These are non-inverted by default. If the ECG waveform is inverted, change this value. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 53: Ecg Lead Off Tab

    ECGP/ECGN lines and checking for a conduction path through the body by measuring differential voltage (DC) or impedance (AC). Refer to the MAX86178 data sheet for more details, and the available options in Table 9 for more details on the available configurations. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 54 Pay careful attention when selecting the stimulus frequency during ECG measurements as the stimulus frequency can and will interfere with ECG signals when selected at low values. Refer to the MAX86178 data sheet for more details. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 55: Ecg Rld Tab

    Alternatively, the RLD circuit can also act as a DC body-bias buffer. See the available options in Table 10 for more details. Figure 59. ECG RLD Tab ©2023 Analog Devices, Inc. All rights reserved.
  • Page 56 RLD electrode and input ECG electrodes is too high to maintain the feedback loop, usually because electrodes are off or have poor contact with the user. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 57: Bioz Drive Tab

    H-Bridge for square wave voltage, and Standby for a low- power state where electrodes are driven to VMID_TX. Standby is useful to maintain electrode bias between measurements. Note that Current DAC Drive Mode is ignored when respiration is enabled. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 58 ‘Current DAC’ configuration and drive DC current instead of Override Modes sine-wave current. Selecting DC Mode enables this functionality. When DC Mode is selected, the DC current magnitude is defined in ‘DC Code’ (upper 7-bits) ©2023 Analog Devices, Inc. All rights reserved.

  • Page 59: Bioz Receive Tab

    (ADC). Refer to the MAX86178 data sheet for more details. See the available options in Table 12 for more details. Figure 61. BioZ Receive Tab ©2023 Analog Devices, Inc. All rights reserved.
  • Page 60 PLL mux by the N Divider and ADC OSR. Selecting respiration mode additionally divides this frequency by the F divider. Enable/Disable ‘AC Lead Off’ detection. AC Lead Off Detection Enable ©2023 Analog Devices, Inc. All rights reserved.

  • Page 61: Bioz Mux Tab

    Connect to BioZ Channel. Refer to the MAX86178 data sheet BIOZ section for more details. BioZ Mux Tab See the available options in Table 13 for more details. Figure 62. BioZ Mux Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 62: Bioz Calibration Tab

    The calibration procedure uses either internal programmable resistors or an external calibration resistor connected at the calibration pins. A default calibration file is loaded when the MAXREFDES106# GUI is opened. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 63 After completing the calibration, selecting Export saves the calibration coefficients to a .csv file, which can later be reloaded by selecting Import. Clicking Add copies the current ‘BioZ Drive Frequency’ in PLL tab into frequency list. Multiple frequencies can ©2023 Analog Devices, Inc. All rights reserved.
  • Page 64 Select Apply Calibration to BioZ vs. Time Plot and press Calibrate. As each frequency in list is calibrated, the new Mag Coefficient is automatically loaded into the frequency list. Uncheck External Resistor on CALx Pins. b. Internal Resistor Calibration ©2023 Analog Devices, Inc. All rights reserved.

  • Page 65: Bia Tab

    Uncheck Select Internal BioZ Test Resistor and enable Mux Enable in BioZ Mux tab. BIA Tab The BIA tab is used to run the entire BIA measurement using the BioZ circuitry. See available options for BIA in the Table 15. Figure 64. BIA Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 66: Temperature Tab

    The temperature tab is used to start, stop, and plot skin and ambient temperature measurements from the onboard MAX30210 clinical grade 0.1ºC accurate temperature sensor, calibrated in an oil bath. See the available options in Table 16 for more details. Figure 65. Temperature Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 67: Plots Tab

    The plots tab is where the output data for all measurements are displayed except for BIA having its own dedicated tab. ECG, PPG, BioZ, accelerometer signals, temperature, and HR, SpO , respiration algorithm can be viewed through their associated sub-sections in the left sidebar. Figure 66. Plots Tab ©2023 Analog Devices, Inc. All rights reserved.

  • Page 68: Register Tab

    ADXL367 accelerometer. Registers cannot be modified while the device is actively taking a measurement. The GUI highlights the registers being changed based on different settings. Modifying the devices at the register level can break their functionality, and extreme care should be taken when doing ©2023 Analog Devices, Inc. All rights reserved.
  • Page 69 The MAX30210 also has the flexibility to get controlled by registers and the user can read/write to the register. ADXL367 This is an accelerometer with certain info and control registers the user can control. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 70: Data Logging

    MAXREFDES106# twice. If done correctly, a slow blinking ‘Cyan LED’ is seen. This indicates the patch has started measurements and is flash logging the data collected. See Push Button Description and Status LED Color Definitions. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 71 6. In the GUI, select Logging, then Parse Bin File. Figure 71. The Built-In Parser Processes, Converts, and Saves Flash Log Data to .csv Files 7. Select an input for the .bin file and output directory for the parsed .csv file. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 72 Long data sets may take more time. Figure 73. Completed Flash Log Parse Confirmation Window 9. Flash logging conversion is now complete! Open the saved .csv file to view the data. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 73: Data Format For Logged Files

    .acc, and algorithm log files as .algo. These files can be opened with a standard .csv editor, such as Microsoft Excel. Temperature data can be logged in the Temperature tab. Figure 74. Log Files ©2023 Analog Devices, Inc. All rights reserved.

  • Page 74: Troubleshooting

    The easiest way to do this is to plug in the Micro-USB side of the cable to the programmer first, and then plug in the USB-A side of the cable to the PC while holding down the push button. ©2023 Analog Devices, Inc. All rights reserved.
  • Page 75 MAINTENANCE drive. For a pop-up message up asking to copy the file without its properties, click Yes. The following window (Figure 78) appears while the programmer is being flashed. ©2023 Analog Devices, Inc. All rights reserved.

  • Page 76: Packet Drop Counts Seen In The Pc Gui

    BleuIO dongle and wait a few minutes for the MS Windows drivers to finish installing. Figure . Wait for MS Windows to Install BleuIO Dongle Drivers ©2023 Analog Devices, Inc. All rights reserved.
  • Page 77 3. Download and install a terminal emulation software such as Tera Term software from the web: Download File List - Tera Term - OSDN. Run the Tera Term software and select File, New connection. Figure 83. Tera Term: File, New Connection ©2023 Analog Devices, Inc. All rights reserved.

  • Page 78: Updating The Bleuio Dongle Firmware To 2.2.0

    BleuIO is plugged in. Figure 86. Note the USB Serial Device COM Port Number for the BleuIO Dongle During the First Nine Seconds ©2023 Analog Devices, Inc. All rights reserved.
  • Page 79 Figure 87. Run Command Prompt Using the Administrator Account Open a Command Prompt window and change the directory to c:\tmp by entering the command cd c:\tmp. Figure 88. Change the Directory to c:\tmp ©2023 Analog Devices, Inc. All rights reserved.
  • Page 80 The bootloader times out in ten seconds, and there are error messages if the flashing of the firmware is not completed within ten seconds; retry the procedures (unplug dongle, ‘up arrow’ the above command, plug in the dongle, press Enter for the command above). ©2023 Analog Devices, Inc. All rights reserved.
  • Page 81 Figure 89. BleuIO Firmware Successfully Updated to Version 2.2.0 ©2023 by Analog Devices Inc. All rights reserved. Information in this publication concerning the devices, applications, or technology described is intended to suggest possible uses and may be superseded. ANALOG DEVICES INC. DOES NOT ASSUME LIABILITY FOR OR PROVIDE A REPRESENTATION OF ACCURACY OF THE INFORMATION, DEVICES, OR TECHNOLOGY DESCRIBED IN THIS DOCUMENT.

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