Texas Instruments TPS6598x Application-Customization Tool (Rev. A) User Guides

Type
User Guides
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User's Guide
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TPS6598x Application-Customization Tool User Guide
1 Getting Started
1.1 Purpose and Scope
This document describes the functionality of the TPS6598x Application Customization Tool from Texas
Instruments. This tool is used to customize and generate firmware images that can be loaded onto
TPS6598x devices. This user guide describes the installation procedure and the complete process of
using TI-provided firmware projects to create usable firmware. In addition, the process of importing
application firmware settings both to and from a TPS6598x device are described.
NOTE: This tool is replacing the TPS6598x Configuration Tool; therefore, use of this tool is
recommended to receive the latest firmware and features.
Details regarding each configuration setting are not within the scope of this user's guide. For information
on which settings to choose for the an application, refer to the firmware user's guide for the TPS6598x
device that is used.
1.2 Hardware
The required hardware is listed as follows:
NOTE: Only one (1) of these two (2) adaptor options is required: TotalPhase Aardvark or USB
Standard-A to Type-C cable. The hardware and setup will be different depending on the
adaptor selected.
Windows-based PC with at least one USB2.0 (or later) port
TPS6598x-EVM
Barrel-jack laptop charger power-supply AC adaptor (20 V)
USB Standard-A to Type-C passive adaptor cable for USB2.0 Low-Speed Endpoint (USB EP) option
TotalPhase Aardvark USB-to-SPI/I
2
C Host adaptor + USB standard-B to -A cable + jumper wires or
LaunchPad EVM to Aardvark adaptor (for the Aardvark option)
1.3 Software
The required software packages and drivers are bundled into a single Windows installer. See Section 1.4
for installation instructions using the bundled installer.
The only additional software needed is the Aardvark driver and software only if the user intends to use the
Aardvark adaptor. See Section 3 for instructions on the TotalPhase Aardvark driver and software
installation.
Getting Started
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1.4 Installation and Launch
Download the software from TI’s USB PD website (www.ti.com/lsds/ti/interface/usb-power-delivery-
overview.page). Use the following steps to install the software:
Step 1. Click on the Tools & software tab on TI's USB PD website.
Step 2. Click the TPS6598x Application Customization Tool link.
Step 3. Click the Get Software button on the TPS6598x Application Customization Tool page.
Step 4. Complete all the requested information then click Submit for approval.
NOTE: Incomplete information will not be approved.
Step 5. If approved, the user will receive an email with a download link. Click the link to download the
configuration tool.
Step 6. Select the appropriate installer (.exe file) for the operating system of the user's computer.
Step 7. Follow the onscreen instructions which are detailed as follows:
(a) After opening the installation .exe file, click the Next button.
Figure 1. TPS6598x Application Customization Tool Installation Welcome
(b) Read the license agreement.
(c) If accepted, select the appropriate radio button and then click the Next button.
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Figure 2. Installation License Agreement
(d) Use the default location if desired or click the Browse... button to change the location of
the installed files. Then click the Next button.
Figure 3. File Path for Installation Files
(e) Use the default location if desired or click the Browse... button to change the location of
the start-menu shortcut. Then click the Next button.
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Figure 4. File Path for Start-Menu Shortcut
(f) Select or deselect the options shown in Figure 5 by checking the corresponding boxes or
radio buttons. This step allows the user to install the desired driver depending on which
adaptor is used to interface with the TPS6598x-EVM. TI recommends uninstalling any
previous versions of these drivers before installation.
Figure 5. Miscellaneous Installation Options
(g) Review the selected options, and then click the Install button to start the installation of the
tool.
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Figure 6. Installation Summary
(h) When the installation is complete, the Device Driver Installation window opens if the user
chose to install drivers. Follow the installer instructions to complete the installation
process.
Figure 7. Driver Installation Window
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Figure 8. License Agreement for Driver Installation
Figure 9. Completed Driver Installation
(i) When the installation of the software and drivers is complete, click the Finish button.
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Figure 10. End of Installation
Step 8. When installed, launch the tool in one of two ways:
Click the TPS6598x Application Customizer shortcut icon on the desktop.
Figure 11. Desktop Shortcut
Use the TPS6598x Application Customizer shortcut from the start menu.
1.5 Features of the TPS6598x Application-Customization Tool
The TPS6598x Application Customization Tool provides users with the following capabilities:
Load, configure, and save a firmware project
Update outdated firmware
Create a compliant TPS6598x firmware image (.bin)
Import firmware settings from a TPS6598x device to the tool
Load created firmware image from the tool to a TPS598x device
The tool includes TI-provided projects, which are firmware templates that contain configuration settings
that are specific to various applications. These projects are to be used as a starting point in generating
custom firmware. Users select a project that corresponds to the user’s intended device and application.
NOTE: Projects have a varying level of configurability depending on the application.
Users can also update outdated firmware images. This feature will become applicable as future versions
of firmware are released. This tool also provides the unique ability to both obtain firmware settings from a
TPS6598x device and load a compliant firmware image onto a TPS6598x device.
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2 Using the TPS6598x Application-Customization Tool
2.1 Start Page
The start page is displayed after launching the TPS6598x Application Customization Tool.
Figure 12. Main Window of TPS6598x Application Customization Tool
The start page is a TPS6598x project that contains no configuration settings or firmware image. This page
presents various features which are listed in Table 1.
Table 1. Features of Configuration Tool
Feature Description
File Select to begin a new project, open an existing project, or save
Device Select to import configuration settings from a device or flash firmware onto a device
View Select to show bitfield ranges of each configuration in device settings tabs
Help Select to open an About window, which describes version information
Change file
Allows user to load a new binary file (.bin). This is primarily applicable when a user has
received an updated firmware image (.bin file)
Number of connected devices
Allows user to save unique configurations for up to three devices in a single image to
flash simultaneously (through UART)
Global device settings Click this tab to customize configuration settings that will apply to all devices.
Device Settings (0x7f) tab
Click this tab to customize the various configuration settings of an uploaded project.
Note that an additional tab will appear if more than one device is selected in Device
Initialization Chain.
Firmware type and version
When a project or firmware is loaded, the project type and firmware version are
displayed in the top-right corner of the window. If a project is not selected, it will read
No Project Loaded.
Firmware base image
Displays the loaded firmware base image (low-region binary file) that was loaded with
the project. This image can be changed by selecting Change File. Note that no file will
be present until a project is selected.
Device initialization chain
This field has now been populated with a device. The user can select the number of
devices (1-3) and the associated device selection bit field. Note that additional device
settings tabs open when Number of Connected Devices is increased.
String table
Allows the user to input the necessary billboard information for manufacturer and
product.
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New users should begin by selecting click the File menu and then selecting New Project to load a default
template (.tpl file) for the intended application. Texas Instruments provides various default projects for the
TPS6598x applications. Existing users can also load an existing project, which has configuration settings
that can be modified and saved to produce low-region and full-flash images (.bin). The instructions for
these functionalities are described in the following sections.
2.2 Beginning a New Project
When beginning a new project, users typically open default templates (.tpl), which are provided by Texas
Instruments. The default images cover the primary use cases for TPS6598x applications.
To load and use one of the TI projects, use the following instructions:
Step 1. Click the File menu and then select New Project. The next window displayed allows the user
to browse, select, and open a default project.
Step 2. Select the appropriate .tpl project file for the application then click the OK button.
Figure 13. Project Files
The user now sees additional functionality, depending on the project that is loaded. In Figure 14, for
example, the user now the following is displayed:
The TPS65982 Intel Apex Creek, version 2.3 project has been loaded to the tool.
The low-region firmware image has been loaded as shown in the Firmware Base Image section of
the General Settings tab.
The available configurable settings within the Global and Device Settings tab, which are described
in the respective firmware user's guide for the selected TPS6598x device.
Billboarding information is now configurable in the String Table section of the General Settings tab.
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Figure 14. TPS6598x Application Customization Tool With Project
Step 3. Under the Device Initialization Chain section of the General Settings tab, select the
appropriate number of devices and bitfield addresses if using a single image to flash more
than one TPS6598x device.
Step 4. Click the Global Device Settings and Device Settings tabs to configure the settings for the
desired application.
Step 5. Click the File menu and then select Save Binary to save the low-region binary image to a
specified location.
Step 6. Click the File menu and then select Save Project to save the project to a specified location.
The user now has the low-region binary file (.bin) and full-flash image (.bin), which can be flashed on to
the TPS6598x device using the TPS6598x Utilities Tool. The user also has the customized project (.pjt),
which can be loaded at anytime into the configuration tool to make additional changes (if needed).
2.3 Updating and Modifying a Project
As discussed in the previous section, the user can save a project in the .pjt format. To make changes to
the configuration file, update the configuration file, produce a new firmware image (.bin file), or complete
all listed functions, use the following steps :
Step 1. Click the File menu and then select New Project. The next window displayed allows the user
to browse, select, and open a valid configuration file (one that was created using this tool).
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Figure 15. Loading a Project
Step 2. Select a configuration file (.pjt). The next window displayed shows the customized
configuration settings and device initialization settings that were selected during creation of
this project. The low-region file that is included in the original project file is displayed in the
Firmware Base Images section of the General Settings tab.
Step 3. (Optional) Make changes to the number of devices and the selected bitfield addresses in the
Device Initialization Chain section of the General Settings tab.
Step 4. Click the Global Device Settings and Device Settings tabs to configure the settings for the
desired application.
Step 5. Click the File menu and then select Save Binary to save the low-region binary image to a
specified location.
Step 6. Click the File menu and then select Save Project to save the project to a specified location.
The user now has a low-region binary file (.bin) and full-flash image (.bin) containing the firmware version
included in the latest tool release. This image can be flashed on to the TPS6598x device using the
TPS6598x Utilities Tool. The user’s project (.pjt) now also contains the latest firmware version. The saved
project can be loaded anytime in to the configuration tool to make additional changes.
2.4 Loading an Updated Firmware Image
Due to the nature of the configuration tool, it is possible that firmware image versions (.bin) are updated
more frequently than the configuration tool itself: therefore, it may be necessary to use an updated low-
region firmware image (.bin) instead of the default that is included with the configuration projects. Use the
following steps to load, modify, and save an updated image to a configuration:
Step 1. Click the File menu and then select Load Project or New Project. The next window displayed
allows the user to browse, select, and open a valid configuration file (one that was created
using this tool).
Step 2. Select a .tpl template if creating new project or a .pjt file if modifying an existing project. The
configuration settings are now displayed with a base image in the current firmware version.
Step 3. Click the Change File button to load an updated firmware image (.bin).
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Figure 16. Changing the Firmware Base Image (low-region .bin file)
A new firmware image is placed in the configuration file.
Figure 17. Display of an Updated Firmware Image
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Step 4. Make any necessary changes to the configuration settings.
Step 5. Save both the binary file and project (including new binary image) using the Save Binary and
Save Project options under the File menu.
The (modified) low-region and full-flash images are now avaialble, which can be flashed on to the
TPS6598x device using the TPS6598x Utilities Tool. The project (.pjt) file is also avaialble, which contains
the updated low-region image.
2.5 Importing Configuration Settings from a TPS6598x
The Application Customization Tool is capable of loading firmware settings from a TPS6598x at run time
over a USB-to-I
2
C adaptor. This function can be useful if the user wants to take firmware settings from a
current device and port (or transfer) it over to this tool.
NOTE: This function is extracting the contents of each register directly and placing in the device
settings on the tool. Therefore, only import device settings to a project that is for the
associated device. For example, if the contents of a TPS65982 device are imported into a
TPS65983 project, the contents will not be placed appropriately.
To perform the import function, use the following the steps:
Step 1. Load or start a project for the TPS6598x device being used.
Step 2. Click the Device menu and then select Import Settings from Device.
Step 3. Specify the appropriate adaptor, I
2
C address, and device settings tab to place the settings.
Step 4. (Optional) Click the Test Read (Mode Register 0x3): button to ensure proper device
connection.
Figure 18. Import Device Settings Window
Step 5. Click the OK button. If successful, a window is displayed which indicates a successful import
of device settings (see Figure 19).
Figure 19. Successful Device Settings Import
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The configuration settings from the device are now viewable in the Device Settings tab that was selected.
The low-region binary file can now be saved, which can be flashed onto the TPS6598x device using the
TPS6598x Utilities Tool. The modified project (.pjt) file can also be saved, which contains the updated
configuration.
2.6 Loading Firmware onto a TPS6598x
The loading firmware functionality allows the user to automatically create a full-flash image and load it
onto a TPS6598x device over the serial peripheral interface (SPI). After the desired device configuration
settings have been changed within a project, use the following the steps to load the firmware:
Step 1. Click the Device menu and then select Flash App Firmware to Device.
Step 2. Specify the appropriate adaptor and device offsets.
Step 3. (Optional) Click the Read Current Region Offsets button to automatically obtain correct
offsets.
Figure 20. Load Application Firmware Window
Step 4. Click the OK button. If successful, a window is displayed which indicates a successful SPI
Flash.
Figure 21. Successful Flash Update
Step 5. Power cycle the TPS6598x device so that the new firmware is loaded.
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3 Using the Aardvark
3.1 Software and Driver Installation
As discussed in Section 1.3, the Aardvark driver and associated software are not included in the bundled
installer. Use the following steps to install the software and driver:
Step 1. Go to the Total Phase USB Drivers website (www.totalphase.com/products/usb-drivers-
windows) to download the Aardvark driver.
Step 2. Click the USB Drivers Windows v2.12 link and fill out the requested registration information
if an account has not been created.
Step 3. Install the Aardvark drivers using the .exe which is downloaded from the Total Phase website
by following these steps:
(a) Extract the .zip file to obtain the TotalPhaseUSB-v2.12.exe file.
NOTE: The file must execute the installer with administrative privileges.
(b) In Windows 7, right click the .exe file and select Run as Administrator from the menu.
(c) Follow the instructions in the installer window to complete the installation.
Step 4. Go to the Total Phase Aardvark Software website (www.totalphase.com/products/aardvark-
software-api).
Step 5. Click the Aardvark Software API v5.15 (Windows 64-bit) link to download the aardvark-api-
windows-x86_64-v5.15.zip file.
Step 6. Dearchive the Aardvark Software API to open theaardvark-api-windows-x86_64-v5.15 folder.
Step 7. Search in this folder for the Python folder. Place the aardvark.dll and aardvark_py.py files into
the Configuration Tool Python scripts folder (C:\Program Files\Texas Instruments\TPS6598x
Firmware Configuration\tps6598x-app-customizer\gui\device_if).
NOTE: The rest of the downloaded files are not required for the Aardvark to function.
3.2 Connecting Aardvark to TPS6598x-EVM
3.2.1 Direct Connection
The Aardvark connector has an I
2
C line that must be physically connected to the I
2
C1 of the TPS6598x
device. Refer to the Aardvark User’s Guide (www.totalphase.com/support/articles/200468316) for the pin
connections and descriptions of the Aardvark connector.
Figure 22 is from the design files of the TPS6598x-EVM and shows the pin-out of the J2 connector for I
2
C
(pins 16, 18, 20) and the J3 connector for SPI (not discussed in this document) and an alternate ground
(GND) pin. Figure 22 shows the position of the three I
2
C lines required on the Total Phase Aardvark
adaptor: serial clock (SCL), serial data (SDA), and ground (GND). For more details and the full schematic
of the TPS65982-EVM, refer to the TPS65982-EVM User's Guide.
1
3 GND
5
7
9
11
13
15
17
19
TPS65982 Booster Pack
J2 Connector
4
6
8
10
12
14
10 GND
8
6
4
9
7
5
SDA 3
SCL 2
Total Phase
Aardvark Adapter
2
16
SCL 18
2
SDA 20
DNP R48
0 R60
DNP R58
DNP R64
0 R62
DNP R57
DNP R51
DNP R35
DNP R53
DNP R59
DNP R61
DNP R63
DNP R65
GND
DNP R50
DNP R47
0 R46
DNP R68DNP R67
0 R66
DNP R18
DNP R19
DNP R23
0 R41
0 R39
DNP R37
DNP R54
GND
1
3
56
4
2
7
910
8
12 11
14 13
16 15
18 17
20 19
J2
1
3
56
4
2
7
910
8
12 11
14 13
16 15
18 17
20 19
J3
3.83k
R20
100k R24
GND
Tiva_5VTiva_3V3
DNP R31
DNP R34
0 R38
0 R40
0 R69
0 R71
DNP R36
DNP R32
DNP R17
DNP R16
100k
R70
GND
VOUT_3V3
UART_TX
UART_RX
AUX_P
AUX_N
SPI_CLK
I2C_IRQ1Z
I2C_SDA1
I2C_SCL1
I2C_IRQ2Z
I2C_SDA2
I2C_SCL2
GPIO7
GPIO0
GPIO1
LSX_P2R
MRESET
RESETZ
GPIO6
SPI_MOSI
SPI_MISO
DEBUG_2
SPI_CSZ
USB2_RP_NUSB2_RP_P
DEBUG_1
DEBUG_3
DEBUG_4
GPIO2
GPIO3
GPIO8
GPIO5_HPD
LSX_R2P
GPIO4_HPD
SWD_CLK
SWD_DATA
LDO_3V3
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Figure 22. Texas Instruments TPS6598x Booster Pack J2 and J3 Pin Connections for I
2
C and SPI
Figure 23 shows the wiring diagram to wire the I
2
C lines of the Aardvark connector into the J2 connector
of the TPS6598x-EVM. The wiring diagram represents the connections for using the I
2
C port 1; however,
the host interface also recognizes commands sent over I
2
C port 2.
the position of the pins is shown as looking down at the board from above.
Figure 23. Aardvark to Booster Pack Wiring Diagram
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Figure 24 shows an Aardvark adaptor wired into the TPS6598x Booster Pack. Notice that the orientation
of the TPS6598x board and the Aardvark connector match the diagram in Figure 23.
Figure 24. Correctly-Wired System
3.2.2 Aardvark using LaunchPad EVM to Aardvark Adaptor PCB
The Aardvark can also be connected the standard 10-pin male header connection on a LaunchPad EVM
to Aardvark adaptor PCB. See Figure 25 for the location of the connector.
Figure 25. "Aardvark" 10-pin Header on LaunchPad EVM to Aardvark Adaptor PCB
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This feature offers the ability to directly connect the Aardvark connector, as shown in Figure 26.
Figure 26. "Aardvark" 10-pin Header Attached to LaunchPad EVM to Aardvark Adaptor PCB
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Revision History
Revision History
NOTE: Page numbers for previous revisions may differ from page numbers in the current version.
Changes from Original (May 2016) to A Revision ........................................................................................................... Page
Deleted references to USB2MANY board and replaced with Aardvark or LaunchPad EVM to Aardvark adaptor PCB..... 1
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Power Mgmt power.ti.com Space, Avionics and Defense www.ti.com/space-avionics-defense
Microcontrollers microcontroller.ti.com Video and Imaging www.ti.com/video
RFID www.ti-rfid.com
OMAP Applications Processors www.ti.com/omap TI E2E Community e2e.ti.com
Wireless Connectivity www.ti.com/wirelessconnectivity
Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265
Copyright © 2016, Texas Instruments Incorporated
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Texas Instruments TPS6598x Application-Customization Tool (Rev. A) User Guides

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User Guides

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