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Texas Instruments TPS26750EVM User Manual
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Texas Instruments TPS26750EVM User Manual

Texas Instruments TPS26750EVM User Manual

Evaluation module
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EVM User's Guide: TPS26750EVM
TPS26750 Evaluation Module
Description
The TPS26750EVM is designed to test USB-PD for
sink-only, source-only, or DRP applications, in both
USB-PD SPR and EPR ranges. The TPS26750EVM
can operate as a sink only with no power provided, or
as a source, sink, or DRP with a power supply of 15V.
The TPS26750EVM supports sourcing and sinking
up to 48V at 5A, in accordance with the USB-PD
specification, as well as supporting battery charging
applications in conjunction with the BQ25756EVM.
Get Started
1. Order the
TPS26750EVM
2. Start development with the
Customization Tool
3. Refer to the
data
sheet,
Manual, or E2E for questions and support
Features
PD controller is certified by the USB-IF for PD3.1
Up to 240W (28V/5A) source and sink applications
– 15W (5V/3A) Source and 240W (48V/5A) sink
as standalone EVM
– 240W (48V/5A) Source and 240W (48V/5A)
sink with BQ25756EVM
Easy-to-use GUI with pre-configured firmware to
configure:
SLVUCP8 – SEPTEMBER 2024
Submit Document Feedback
Application
Technical Reference
Copyright © 2024 Texas Instruments Incorporated
– Programmable Power Supply (PPS) for 5V-21V
range
– Liquid detection and corrosion mitigation
– BC1.2 charging schemes (requires populating
resistors on board)
– Integrated I2C control for BQ25756 battery
charger
– Interfacing connector for BQ25756EVM
Multiple test points and headers for quick and easy
debug
– Exposed VBUS and CCx test points to monitor
PD traffic
– VBUS, VBUS_LV, PPHV, and VSYS test points
available
– GPIO, I2C, and power supplies available on
100mil header
– 100 mil header pins scaled to 5V to support 5V
or 10V digitizers for easier debug
Applications
Battery pack for cordless power
banks,
retail automation and payment
e-Bikes,
wireless
speakers,
cleaners
Personal and portable
applications
Medical
applications,
personal care and fitness
Description
tools,
power
cordless vacuum
electronics,
industrial
TPS26750 Evaluation Module
1

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Summary of Contents for Texas Instruments TPS26750EVM

  • Page 1 TPS26750 Evaluation Module – Programmable Power Supply (PPS) for 5V-21V Description range The TPS26750EVM is designed to test USB-PD for – Liquid detection and corrosion mitigation sink-only, source-only, or DRP applications, in both – BC1.2 charging schemes (requires populating USB-PD SPR and EPR ranges. The TPS26750EVM...
  • Page 2 6 Additional Information................................60 6.1 Trademarks..................................6.2 Electrostatic Discharge Caution............................Terminology..................................60 6.4 Device Support.................................60 6.5 Documentation Support..............................6.6 Receiving Notification of Documentation Updates......................6.7 Support Resources................................TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 3 5V and sinking from 5V to 48V. Alternatively, the EVM can be used in conjunction with the BQ25756EVM to source and sink from 5V to 48V. The TPS26750EVM can test both USB-PD SPR (Standard Power Range) and USB-PD EPR power ranges, and can be configured using the Application Customization tool as a source only device, a sink only device, or a Dual Role Power (DRP) device.
  • Page 4 LDO or switch to simplify and clarify the overall behavior of the device when the jumper is removed. Figure 1-1. TPS26750EVM Block Diagram The TPS26750EVM can be used in conjunction with the BQ25756 with minimal setup to test battery charging by utilizing, as shown in Figure 1-2: •...
  • Page 5 Evaluation Module Overview Table 1-1. Devices on TPS26750EVM Designator Device Name Description TPS26750RSMR USB Type-C and USB PD controller with integrated source power switch U1, U3 TLV75733PDRVR 1A Low-Quiescent-Current Low-Dropout (LDO) Regulator TPS259814ARPWR 2.7 - 16V, 10A, 7mΩ eFuse with transient overcurrent blanking timer...
  • Page 6 TPS26750EVM comes with an interfacing board (TPS26750EVM to BQ25756EVM connector board) to connect to the J1 and J7 connector on the TPS26750EVM. If the BQ25756EVM is connected, then the VAC net of the BQ25756EVM is connected to the high-voltage bidirectional power path (PPHV) of the TPS26750EVM. For more...
  • Page 7 Out of the box, the TPS26750EVM is configured for 15W (5V/3A) sourcing and 240W (48V/5A) sinking, utilized through the DUT Type C connector (J4). If a different configuration is required, then utilize the Application Customization Tool to create and/or load a different configuration.
  • Page 8 2. Connect USB-C end of USB-C to USB-C cable or USB-A to USB-C cable to Data Type C port (J6). 3. Connect other end of cable to computer. When flashing a new configuration to the TPS26750EVM, the binary configuration file is written to U13, the EEPROM. More details are provided in Section 3.4.6.3.
  • Page 9 3. 5V sourcing, 5V to 48V sinking (DRP) To test the TPS26750EVM as a stand-alone device, users need to connect a power source to the Power Type C connector (J3) or one of the XT30 Power connectors (J1 or J8).
  • Page 10 Note that all referenced products in the example setups in this document are not officially endorsed or recommended by Texas Instruments. Due to the complex nature of USB-PD, the products are provided as a means to further the reader's understanding and highlight EPR functionality. The products do not represent a specific, required component for the TPS26750EVM to function.
  • Page 11 USB-C1 port is capable of providing 140W (28V at 5A) of power, connected to a USB-C to USB-C 240W capable cable, which is in turn connected to the Power Type C port (J3) of the TPS26750EVM. This example setup is capable of sinking 28V of power (as the wall adapter can provide at maximum 28V;...
  • Page 12 Hardware www.ti.com Figure 2-6. Dead Battery Safe Mode Example Hardware Setup TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 13 2-6, except that J15 is not populated. This example setup is capable of sinking 28V of power to the DUT Type C port (J4), which is in the USB-PD Extended Power Range. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 14 USB-C2 port is capable of providing 100W (20V at 5A) of power, connected to a USB-C to USB-C 100W capable cable, which is in turn connected to the Power Type C port (J3) of the TPS26750EVM. This example setup is capable of sourcing 48V of power to the DUT Type C port (J4), which is in the USB-PD Extended Power Range.
  • Page 15 Hardware Figure 2-9. TPS26750EVM and BQ25756EVM Example Hardware Setup 2.4 Header Information The J2 and J5 headers are setup for ease of use with 5V and 10V level logic analyzers. The most pertinent signals and power rails for testing the TPS26750 are pulled out to these headers. If utilizing the Liquid Detection...
  • Page 16 The label suffix _D10 implies that the signal has been divided by 10. However, the actual value that the original signal has been divided by is 11; that is, if VBUS measures 48V, then VBUS_D10 measures approximately 4.36V. TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 17 Refer to Pin Strapping to Configure Default Behavior in the TPS26750 USB Type-C® and USB PD Controller With Extended Power Range Support data sheet for more detailed information about Dead Battery Configuration. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 18 Table 2-5. IDC Connector Pinout Pin Number Signal 1 (denoted by a white dot to the lower right of the pin) PP5V I2Cc_SCL GPIO1 I2Cc_SDA GPIO3 LDO_3V3 TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 19 Type-C implicit contract behavior. Utilizing this tool in conjunction with a 5V or 10V logic analyzer to view the signals available on headers J2 and J5, is a good place to start with debugging the TPS26750EVM. When deciding which USB-PD analyzer to use, make sure that the analyzer is designed for use with EPR capable devices.
  • Page 20 If users are not seeing expected behavior after configuring the TPS26750 using the Application Customization Tool, then one of the first places to start is to monitor the I2Cc lines when the TPS26750EVM is first powered up to see if the EEPROM is successfully writing the configuration of the device to the TPS26750. There must be I2C traffic (from the EEPROM to the TPS26750) that matches the contents of the binary that is exported from the Export Full Flash Binary tool in the GUI.
  • Page 21 High voltage power path HV_VSYS High voltage system power C_CC1 Connector side (J4) CC1 C_CC2 Connector side (J4) CC2 TP7, TP10, TP13, TP13 Ground SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 22 ¡ Figure 3-1. Application Customization Tool Download 4. Once the installer is open, follow the directions to install the application. TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 23 3. Power Source (provider) only Based on the configuration selected, certain questions are disabled. See the image and table below for a breakdown of each configuration. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 24 Section 3.4.4. Question 3: What is the maximum power in Watts that you want to sink to the TPS26750EVM using the DUT Type C Port (J4)? If a source only configuration was selected, then this question is not selectable. When selecting the maximum power that can be sinked, the Transmit Sink Capabilities register (0x33) of the TPS26750 is configured by adding default Sink PDOs (each PDO is also referred to as a USB-PD contract).
  • Page 25 • If the TPS26750EVM prefers to be a source, and after connection to a port partner, is acting as a sink, then the TPS26750 requests to the port partner to swap roles (power role swap) in an attempt to become a power source.
  • Page 26 Software www.ti.com Figure 3-3. Resistor 77 and 78 Location TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 27 Section 4.2.2. The TPS26750 supports integration with the BQ25756 IC. If using the BQ25756EVM in conjunction with the TPS26750EVM, then any configuration in Question 1 with a BQ block can be used. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback...
  • Page 28 Click here to enter “Advanced Configuration” To make changes, click on the field to modify Click on any registers to expand their fields Figure 3-6. Using Advanced Configuration TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 29 Data Type-C connections have been removed from ports J8 and J6, respectively. Also, make sure nothing is connected to J4. If a new configuration needs to be loaded to the TPS26750EVM, then all connections to the BQ25756EVM must be removed until the new configuration is loaded and ports J4, J8, and J6 are disconnected.
  • Page 30 If this option is unavailable, check to make sure all questions are answered Figure 3-8. Flash to Device from Current Configuration Figure 3-9. Flash to Device from Current Configuration TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 31 Flashing to Device from an Existing Binary File If a binary file has previously been generated, then the binary can be loaded directly to the TPS26750EVM instead of filling out the questionnaire again. Make sure the TPS26750EVM is detected and connected to the Application Customization Tool using the above steps, and instead of choosingFlash to Device from Current Configuration under the Flash to Device heading, select Flash to Device From Binary File.
  • Page 32 3.4.6.1 Generating a New Configuration To generate a new configuration for the TPS26750EVM, click the Reset Configuration button on the top right side of the tool (this is next to the Flash To Device drop-down menu). This button erases the existing configuration and resets the form back to the default settings.
  • Page 33 Import settings button on the top-right side of the tool. Select from the directory where the JSON setting file is and click the Import File button. The settings are restored in the Application Customization Tool. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 34 Software www.ti.com Figure 3-13. Import Settings in Application Customization Tool TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 35 This format is written to an EEPROM on the Generate full flash binary binary .bin TPS26750EVM using the GUI. The TPS26750 reads from this EEPROM for configuration at boot. This format is used to write the firmware to an EEPROM Generate full flash binary C source file using custom code.
  • Page 36 PD configuration and the application design. TI recommends using the VIF Generator Tool from the USB-IF to create or modify VIF files. TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 37 VBUS and the CC lines (if necessary, based on the USB-C and USB-PD state machines). Refer to the block diagram below for the hardware implementation. Note that for the TPS26750EVM, GPIO6 is configured to GPIOx, and GPIO7 is configured to GPIOy. For individual designs with the TPS26750, GPIOx and GPIOy can be moved to other available GPIOs, hence the use of a variable naming convention.
  • Page 38 4.1.1 Liquid Detection and Corrosion Mitigation Hardware Setup Out of the box, the hardware on the TPS26750EVM is set up for Liquid Detection and Corrosion Mitigation. R27 and R28 are populated to connect J4 Type-C SBU pins to TPS26750 GPIO4 and GPIO5 for liquid detection. R77 and R78, used for BC1.2, are not populated.
  • Page 39 For more details on register mapping, refer to the TPS26750 Technical Reference Manual. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 40 GPIO outputs high when the PD enters a Liquid Detected state and goes low when the PD exits the Liquid Detected state (similar to the interrupt event Liquid Detection). The TPS26750EVM sets GPIO1 by default to the LIQUID_DETECTED (157) event when selecting Yes to Question 8 in the Questionnaire.
  • Page 41 The Application Customization GUI already has liquid detection threshold values that have been tested with the TPS26750EVM and that are automatically set when the Liquid Detection feature is enabled. However, when setting up the high and low thresholds for custom designs, take into consideration hardware implementation (resistor value, board impedance, layout) and how this implementation aligns with the configurable thresholds.
  • Page 42 4.2.1 Hardware Setup with BQ25756EVM To set up the hardware, follow the instructions below: 1. Connect the J1 and J7 mating connectors of the TPS26750EVM to the reciprocal connectors on the provided BQ25756 interposer board. The silk-screen BQ25756 on the BQ25756 Interposer Board must oriented on the same plane as the top of the TPS26750EVM.
  • Page 43 BQ25756EVM from the TPS26750EVM. 4. Tighten the screws on headers J1 and J3 of the BQ25756EVM. 5. Attach the ribbon cable to header J9 on the TPS26750EVM as shown in Figure 1-2 . Attach the other end of the ribbon cable to header J8 of the BQ25756EVM.
  • Page 44 VIN_3V3 LDO_3V3 LDO_1V5 PP5V VIN_3V3 10uF 10uF 10uF 0.1uF 10uF 10uF Bulk Capacitor ison DC2DC output in level PP5 V_SUPPL Y Figure 5-2. TPS26750 TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 45 Figure 5-4. Bidirectional Power Path U_IPP007_TC_POWER IPP007_TC_POWER.SchDoc TC_VSYS U_PP5V_SUPPLY PP5V_SUPPLY.SchDoc SK56A-LTP HV_VSYS HV_VSYS PP5V PP5V VIN_3V3 VIN_3V3 RP_5V RP_5V PPHV PPHV Figure 5-5. System Power SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 46 IL M 0.47uF 100k SS/TRK 2.2uF 100k DVDT TPS259814ARPWR SYNC/MODE AGND AGND 23.7k AGND PEC02SAAN PGND PGND 10.0k PGND LM76005RNPR Figure 5-6. System Power Supplies TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 47 SBU1 SBU1 SBU2 SBU2 PPHV PPHV I2Cc I2Cc VIN_3V3 VIN_3V3 I2Ct I2Ct PP5V PP5V GPIO GPIO PP_EN PP_EN Figure 5-8. Support Circuits Top Level SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 48 VDDI O SMBJ48A-13-F LDO_3V3 MNT_2 PP5V ADCIN1 ADCIN2 XT30PW-M SBU2 SBU1 PPHV MNT_1 SMBJ48A-13-F PPHV1_D10 PPHV_D10 MNT_2 VBUS_LV_D10 VBUS_D10 XT30PW-F FX8-120P-SV1(91) Figure 5-9. Connectors TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 49 PA0/U0Rx 180pF PA1/U0Tx PA2/SSI0Clk PA3/SSI0Fss PA4/SSI0Rx PA5/SSI0Tx 10pF PB0/USB0VID PB1/USB0VBUS OSC1 PB2/I2C0SCL OSC0 PB3/I2C0SDA GNDX GNDA 10pF TM4C123GH6PMTR I2Ct I2Cc Figure 5-10. TIVA MCU SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 50 TPD2EUSB30DRTR SSRXn2 SSTXn2 SSRXp2 SSTXp2 TVS0500DRVR 5.10k SHIELD SHIELD 5.10k SHIELD SHIELD 0.01uF 0.01uF 0.01uF 0.01uF 10µF DX07S024JJ2R1300 1µF DataType C Figure 5-11. HUB TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 51 Hardware Design Files 5.2 PCB Layouts Figure 5-12. TPS26750EVM Top Layer (Composite View) Figure 5-13. TPS26750EVM Bottom Layer (Composite View) SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 52 Hardware Design Files www.ti.com Figure 5-14. TPS26750EVM Top Layer Figure 5-15. TPS26750EVM GND Layer TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 53 Hardware Design Files Figure 5-16. TPS26750EVM Internal Layer 1 Figure 5-17. TPS26750EVM Internal Layer 2 SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 54 Hardware Design Files www.ti.com Figure 5-18. TPS26750EVM Bottom Layer Figure 5-19. TPS26750EVMEVM Board Dimensions TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 55 C54, C55, C56, C57 0.1uF CAP, CERM, 0.1uF, 6.3V, +/- 10%, X5R, 0402 GRM155R60J104KA01D MuRata 0402 10uF CAP, CERM, 10µF, 10V,+/- 20%, X5R, 0402 0402ZD106MAT2A 0402 SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 56 Sullins Connector Header, 2 PIN, 100mil, Solutions L2, L4, L5 22 ohm Ferrite Bead, 22 ohm at 100MHz, 6A, 0805 742792021 Wurth Elektronik 0805 TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 57 RES, 10.0 k, 1%, 0.05 W, 0201 CRCW020110K0FKED Vishay-Dale 0201 R47, R52 100k RES, 100 k, 1%, 0.063 W, 0402 RC1005F104CS Samsung Electro- 0402 Mechanics SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 58 22V Precision Surge Protection Clamp, TVS2200DRVR Texas Instruments DRV0006A DRV0006A (WSON-6) 3.5V to 60V 5A Synchronous Step-Down LM76005RNPR Texas Instruments RNP0030A Voltage Regulator, RNP0030A (WQFN-30) TPS26750 Evaluation Module SLVUCP8 – SEPTEMBER 2024 Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 59 Sb/Br), Tape and Reel Oscillator XO 48MHz ±50ppm 15pF HCMOS ECS-2520MV-480-BN-TR ECS International SMT_OSC_2MM5_2MM0 55% 1.8V/2.5V/3.3V 4-Pin Mini-CSMD T/R Crystal, 16MHz, 8pF, SMD NX3225GA-16.000M-STD- 3.2x0.75x2.5mm CRG-1 SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 60 All trademarks are the property of their respective owners. 6.2 Electrostatic Discharge Caution This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.
  • Page 61 "AS IS" by the respective contributors. The content does not constitute TI specifications and do not necessarily reflect TI's views; see TI's Terms of Use. SLVUCP8 – SEPTEMBER 2024 TPS26750 Evaluation Module Submit Document Feedback Copyright © 2024 Texas Instruments Incorporated...
  • Page 62 STANDARD TERMS FOR EVALUATION MODULES Delivery: TI delivers TI evaluation boards, kits, or modules, including any accompanying demonstration software, components, and/or documentation which may be provided together or separately (collectively, an “EVM” or “EVMs”) to the User (“User”) in accordance with the terms set forth herein.
  • Page 63 www.ti.com Regulatory Notices: 3.1 United States 3.1.1 Notice applicable to EVMs not FCC-Approved: FCC NOTICE: This kit is designed to allow product developers to evaluate electronic components, circuitry, or software associated with the kit to determine whether to incorporate such items in a finished product and software developers to write software applications for use with the end product.
  • Page 64 www.ti.com Concernant les EVMs avec antennes détachables Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique à...
  • Page 65 www.ti.com EVM Use Restrictions and Warnings: 4.1 EVMS ARE NOT FOR USE IN FUNCTIONAL SAFETY AND/OR SAFETY CRITICAL EVALUATIONS, INCLUDING BUT NOT LIMITED TO EVALUATIONS OF LIFE SUPPORT APPLICATIONS. 4.2 User must read and apply the user guide and other available documentation provided by TI regarding the EVM prior to handling or using the EVM, including without limitation any warning or restriction notices.
  • Page 66 Notwithstanding the foregoing, any judgment may be enforced in any United States or foreign court, and TI may seek injunctive relief in any United States or foreign court. Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265 Copyright © 2023, Texas Instruments Incorporated...
  • Page 67 TI products. TI’s provision of these resources does not expand or otherwise alter TI’s applicable warranties or warranty disclaimers for TI products. TI objects to and rejects any additional or different terms you may have proposed. IMPORTANT NOTICE Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265 Copyright © 2024, Texas Instruments Incorporated...