TUSB9261DEMO

TUSB9261 DEMO Board Guide User's Guide Literature Number: SLLU139A February 2011 – Revised December 2014 Contents 1 TUSB9261 DEMO Board Block Diagram .................................................................................. 4 2 Component Location ............................................................................................................ 5 3 12-V DC Jack ....................................................................................................................... 6 4 Cable Power vs. Self Power ................................................................................................... 7 5 Power Switch....................................................................................................................... 8 6 1 3.3-V and 1.1-V Regulator ...................................................................................................... 9 Push Button Reset ............................................................................................................... 9 7 SPI .................................................................................................................................... 10 8 Crystal or Oscillator Support ............................................................................................... 11 9 1 2 3 GPIOs/LEDs/PBUTTON ....................................................................................................... GPIO LEDs ........................................................................................................................ PWM LEDs......................................................................................................................... GPIO Push Button .............................................................................................................. 10 Default GPIO/PWM Configures States ................................................................................... 13 11 1 2 Troubleshooting Tips for Windows ....................................................................................... 14 Step 1 ............................................................................................................................... 15 Step 2 ............................................................................................................................... 15 12 TUSB9261 DEMO Board Schematic ...................................................................................... 17 12 12 12 12 Revision History .......................................................................................................................... 20 2 Table of Contents SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated www.ti.com List of Figures 1 DEMO Board Block Diagram ............................................................................................... 4 2 Component Location ........................................................................................................ 5 3 Windows Troubleshooting ................................................................................................. 14 4 Disk Management .......................................................................................................... 15 5 Primary Partition ............................................................................................................ 15 6 Healthy Disk Status ........................................................................................................ 16 7 Drive in Windows Explorer ................................................................................................ 16 List of Tables 1 Frequency Select Map ..................................................................................................... 11 2 GPIO and PWM Factory Default Settings............................................................................... 13 3 Link Power Status .......................................................................................................... 13 SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated List of Figures 3 SLLU139A – February 2011 – Revised December 2014 TUSB9261 DEMO Board Block Diagram Figure 1 represents the block diagram of the TUSB9261 DEMO Board. The board is designed to be powered from either a 12-V DC wall-wart (not supplied) or via USB cable power. TUSB9261 Figure 1. DEMO Board Block Diagram 4 TUSB9261 DEMO Board Block Diagram SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated SLLU139A – February 2011 – Revised December 2014 Component Location Figure 2 shows the general location of major components on the TUSB9261 DEMO Board. TUSB9261 Figure 2. Component Location SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated Component Location 5 SLLU139A – February 2011 – Revised December 2014 12-V DC Jack The DEMO Board can operate from a standard DC jack for connecting an external 12-V wall-wart. The wall-wart should be rated for 12 V with at least a 2-A current rating. The tip of the DC jack has positive polarity. A wall-wart is not supplied with this reference design demonstration module, leaving it capable of bus power mode by default. In this mode, only Solid State Drives will work. If other higher current hard drives are to be used a wall-wart will have to be used. 6 12-V DC Jack SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated SLLU139A – February 2011 – Revised December 2014 Cable Power vs. Self Power The DEMO Board can be configured to operate off of cable power or use the 12-V wall-wart. To configure the board to use cable power jumper J4 must have a jumper placed across pins 1 and 2. When configured for cable power mode only 5-V and 3.3-V are available at the SATA connector. Therefore only SATA devices such as SSD drives may operate in this mode. For self power mode J4 must have a jumper placed across pins 2 and 3. In this mode any SATA device can operate since 12 V, 5 V, and 3.3 V are available at the SATA connector. SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated Cable Power vs. Self Power 7 SLLU139A – February 2011 – Revised December 2014 Power Switch The DEMO Baord uses a TI TPS2561 power switch. This switch serves two purposes. It limits the amount of in-rush current on VBUS and it allows power to the SATA connector to be switched via the TUSB9261. The switch is controlled via GPIO10 from the TUSB9261 and power faults can be monitored by GPIO11. By default the DEMO Board is configured to always apply power to the SATA connector and power faults are not monitored. 8 Power Switch SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated SLLU139A – February 2011 – Revised December 2014 3.3-V and 1.1-V Regulator The DEMO Board utilizes a TI TPS650061 regulator to power the TUSB9261 and associated circuitry. 1 Push Button Reset Connected to the TPS650061 is a push button (SW2) that can be used to reset the TUSB9261 to its default state. When pressed the global reset terminal (GRST#) on the TUSB9261 will be driven low. SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated 3.3-V and 1.1-V Regulator 9 SLLU139A – February 2011 – Revised December 2014 SPI The TUSB9261 supports a SPI interface connected to a SPI flash device. The flash device is used to hold the firmware for the TUSB9261. For normal SPI operation a jumper on J13 must be populated. For reprogramming of the SPI flash device it may be necessary to temporally remove J13. Refer to the TUSB9260 Flash Burner User Guide (SLLU125) for more information about programming the SPI flash. 10 SPI SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated SLLU139A – February 2011 – Revised December 2014 Crystal or Oscillator Support The TUSB9261 DEMO can support either a crystal or oscillator reference clock. By default the board is configured to use a 40-MHz crystal. To use an oscillator R23 and R37 need to be populated with a 0-Ω resistor. C17 and C19 need to be de-populated. The crystal or oscillator should be rated for 1.8 V with PPM of ±100 or better. The frequency of the clock is configurable via resistors R10-R13. Table 1 shows how to populate resistors R10-R13 for desired clock frequency. Table 1. Frequency Select Map FREQUENCY (MHz) R10 40 POP R11 SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated R12 R13 POP Crystal or Oscillator Support 11 SLLU139A – February 2011 – Revised December 2014 GPIOs/LEDs/PBUTTON 1 GPIO LEDs Each GPIO is connected to an LED on the DEMO Board. The LEDs are located along the top side of the board (D1 – D8). The LEDs are for test purposes and can be used to indicate device operational states. This is firmware dependent. 2 PWM LEDs Each PWM is connected to an LED (D3 and D6) on the DEMO Board. PWM LEDs are for test purposes and can be used to indicate hard drive activity or USB activity. This is firmware dependent. 3 GPIO Push Button There is one GPIO configurable push button (SW1) on the DEMO Board. This push button is connected to GPIO3. This is firmware dependent. 12 GPIOs/LEDs/PBUTTON SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated SLLU139A – February 2011 – Revised December 2014 Default GPIO/PWM Configures States Table 2 shows the factory default programmed settings for the GPIO and PWM terminals used on the PDK. Table 2. GPIO and PWM Factory Default Settings GPIO LED NO. DEFAULT FUNCTION 0 D1 SW_HB 1 D4 PWR_STATE_0 2 D2 HS_FS_SUSPEND# DESCRIPTION Software Heartbeat: Flashes to indicate firmware is executing Power State bit 0 - See Table 3 High Speed / Full Speed Suspend: Indicates when USB2 high speed or full speed is in the suspended state 3 PBUTTON# Push Button: Input terminal connected to active low push button 4 SELF_PWR Bus or Self-powered indicator input - HIGH when self-powered 5 D7 PWR_STATE_1 6 D5 HS_FS_CONNECT# 7 D8 SS_CONNECT# Power State bit 1 - See Table 3 High Speed / Full Speed Connect: Indicates when a high speed or full speed connection is established SuperSpeed Connect: Indicates when a SuperSpeed connection has been established 8 UART Tx Debug port is not pinned out on the TUSB9261DEMO. 9 UART Rx Debug port is not pinned out on the TUSB9261DEMO. 10 SATA_EN Used to control power to SATA connector via option resistors R34 and R35. 11 FAULT# PWM LED NO. DEFAULT FUNCTION 0 D3 HDD_ACT# 1 D6 MISC_LED0# Indicates a power fault DESCRIPTION Disk Activity and Device ON (blink rate varies depending on USB connection speed) Table 3. Link Power Status GPIO1 GPIO5 Off Off U0: Active On Off U1: Idle, fast exit Off On U2: Idle, slow Exit On On U3: Suspend SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback LINK POWER STATUS Default GPIO/PWM Configures States Copyright © 2011–2014, Texas Instruments Incorporated 13 SLLU139A – February 2011 – Revised December 2014 Troubleshooting Tips for Windows If the hard drive can be seen in Device Manager but does not show up in Windows Explorer (as seen below) you may need to partition and format the hard drive. This is typical of a new or corrupted hard drive. Figure 3. Windows Troubleshooting 14 Troubleshooting Tips for Windows SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated Step 1 www.ti.com 1 Step 1 In the Control Panel, open Administrative Tools → Computer Management. Under Storage, click on Disk Management. Figure 4. Disk Management 2 Step 2 If you can see the unallocated disk, right click and select New Partition. Follow the Wizard to create a Primary Partition. Make sure to select the “Perform Quick Format” check box. Figure 5. Primary Partition SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated Troubleshooting Tips for Windows 15 Step 2 www.ti.com Once the disk is properly partitioned and formatted, it will appear as Healthy. Figure 6. Healthy Disk Status It will then appear as a drive in Windows Explorer. Figure 7. Drive in Windows Explorer 16 Troubleshooting Tips for Windows SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated SLLU139A – February 2011 – Revised December 2014 TUSB9261 DEMO Board Schematic See following pages. SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated TUSB9261 DEMO Board Schematic 17 www.ti.com 5 4 3 2 1 BOARD_12V R41 10 R42 10 FUSE_12V + C10 220uF + C12 220uF GND A+ AGND BB+ GND S1 S2 S3 S4 S5 S6 S7 C1 CAP_SATATXM CAP_SATATXP CAP_SATARXM CAP_SATARXP 0.01uF C2 0.01uF C6 0.01uF C7 0.01uF 1. MATCH TO WITHIN 2.5MILS 2. 100-ohms DIFFERENTIAL IMPEDANCE 3. 50-ohms SINGLE-ENDED IMPEDANCE 10031569-001LF NOPOP 3 2 1 SATATXM SATATXP 56 57 SATARXM SATARXP 59 60 SW_HB PWR_STATE_0 HS_FS_SUSPEND# PBUTTON# SELF_PWR PWR_STATE_1 HS_FS_CONNECT# SS_CONNECT# UART_RX UART_TX 8 9 10 11 13 14 15 16 5 6 22 23 SATA_EN FAULT# J1 HDD_ACT# MISC_LED0# C BOARD_1P8V 2 3 XI XO VSSOSC 52 54 53 FREQSEL0 FREQSEL1 30 31 4 GRST# 34 40 48 62 51 VDDA33 VDDA33 VDDA33 VDDA33 V33 V33 V33 GND GND GND V5 V5 V5 GND DAS/DSS GND V12 V12 V12 VDD33 P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13 P14 P15 VDDSHV VDDSHV 1. MATCH TO WITHIN 2.5MILS 2. 100-ohms DIFFERENTIAL IMPEDANCE 3. 50-ohms SINGLE-ENDED IMPEDANCE CN1 22uF VDDA_3P3V SATA_5V R40 10 C8 VDD_3P3V VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD BOARD_3P3V VDD_1P1V 7 24 D The SATA TX differential pair were swapped to simplify the EVM board layout. THe 9261 firmware provided by TI takes this swap into account. F1 PTC FUSE 1 12 19 32 41 33 47 55 49 61 63 D BOARD_3P3V SATA_TXM SATA_TXP R2 4.7K SATA_RXM SATA_RXP USB_R1 GPIO0 GPIO1 GPIO2 GPIO3 GPIO4 GPIO5 GPIO6 GPIO7 UART_RX_GPIO8 UART_TX_GPIO9 SPI_CS1_GPIO10 SPI_CS2_GPIO11 USB_R1RTN JTAG_TRSTZ JTAG_TMS JTAG_TDO JTAG_TDI JTAG_TCK SPI_SCLK SPI_DATA_OUT SPI_DATA_IN SPI_CS0 PWM0 PWM1 USB_VBUS XI XO VSSOSC USB_DM USB_DP USB_SSTXM USB_SSTXP FREQSEL0 FREQSEL1 USB_SSRXM USB_SSRXP GRSTZ 38 R3 4.7K U2 USB_R1 R4 10K USB_R1RTN 39 29 28 27 26 25 R5 1 2 3 4 1% NOPOP CE# SO WP# GND VCC HOLD# SCK SI 8 7 6 5 VBUS Pm25LV512A SPI_SO_J 17 18 20 21 SPI_SCK SPI_SO SPI_SI SPI_CE# 50 CN_VBUS 35 36 US_DM US_DP 42 43 SSTXM SSTXP 45 46 SSRXM SSRXP C11 0.1uF SOIC_8S 1uF 1 R6 90.9K 2 SPI ENABLE 0.1uF C13 0.1uF C14 R37 NOPOP 2 GND XI 4 R23 1 2 3 4 5 6 7 8 9 10 11 CAP_SSTXM CAP_SSTXP 40MHz Crystal R38 NOPOP VSS 4.7K NOPOP 4.7k NOPOP R9 1M 0402 R7 10K 1% U5 C15 .1uF VBUS DM DP GND SSTXN SSTXP GND SSRXN SSRXP SHIELD0 SHIELD1 Conn USB3_B_AK AK4AA009K1 MainSuper C16 .001uF 3 C17 18pF R10 R11 R12 R13 NOPOP 65 XO VCC 37 44 58 64 1 NC1 NC2 NC3 NC4 NOPOP C J2 HDR2X1 M .1 1% VDD_3P3V R8 XY1 C45 J13 X OR Y C18 C19 0.1uF 18pF TUSB9261PVP * 11 = 40MHz U11 NOTE: TO USE OSCILLATOR IN PLACE OF CRYSTAL REMOVE 1M RESISTOR AND 18pF CAPS CAP_SSTXM 1 CAP_SSTXP 2 U10 D+ GND SSRXM 1 SSRXP 2 D+ 3 D- GND TPD2EUSB30 BOARD_3P3V BOARD_3P3V BOARD_3P3V 3 DTPD2EUSB30 BOARD_3P3V U12 D1 B D2 R14 SW_HB HS_FS_SUSPEND# LED Green 0805 D4 330 D5 330 LED Green 0805 D6 R19 HS_FS_CONNECT# D7 330 SW1 PB_SWITCH R20 1 2 MISC_LED0# LED Green 0805 D8 R21 PWR_STATE_1 1 US_DP 2 D+ GND 330 LED Green 0805 3 DB 330 330 TPD2EUSB30 R17 4.7K 4 3 N.O. LED Green 0805 US_DM R16 HDD_ACT# LED Green 0805 R18 PWR_STATE_0 ESD PROTECTION D3 R15 PBUTTON# C20 18pF R22 SS_CONNECT# LED Green 0805 330 LED Green 0805 330 BOARD_12V R25 10K MISC GPIO INDICATORS SELF_PWR R24 3.65K SILKSCREEN: GPIO0 (D1): SW_HB GPIO1 (D4): PWR_STATE_0 GPIO2 (D2): HS_FS_SUSPEND# GPIO3 (SW1): PBUTTON# GPIO4: SELF_PWR GPIO5 (D7): PWR_STATE_1 GPIO6 (D5): HS_FS_CONNECT# GPIO7 (D8): SS_CONNECT# GPIO8: UART_RX GPIO9: UART_TX GPIO10: SATA_EN GPIO11: FAULT# PWM0 (D3): HDD_ACT# PWM1 (D6): MISC_LED0# A A TUSB9261 DEMO EVM SIZE C SCALE: NONE 5 18 4 3 TUSB9261 DEMO Board Schematic 2 DWG NO: Saturday, January 29, 2011 TUSB9261 DEMO Sheet 1 of 2 1 SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated www.ti.com 5 4 3 2 1 5V REGULATOR REG_5V BOARD_12V L1 15uH C21 220uF C22 0.01uF D12 MBRS540T3 C23 TUSB9261 DECOUPLING 0.01uF NOTE: USE LOW ESR CAP D D J3 TPS5450 R27 3.16K 1% PH VIN GND ENA 8 7 6 5 2 3 1 PH NOTE: USE LOW ESR CAP C29 9 VSENSE BOOT NC NC_ VSENSE T 1 2 3 4 BOOT GND U3 R26 10K 1% S + BOARD_3P3V 2.1mm x 5.5mm VDD_3P3V 0.01uF FB1 + C30 1000uF 220 @ 100MHZ C24 22uF C25 C26 C27 C28 1uF 0.1uF 0.1uF 0.1uF VDDA_3P3V FB2 C31 220 @ 100MHZ 0.1uF POWER SWITCH BOARD_3P3V VBUS SELECT BOARD_3P3V BOARD_5V C32 22uF SATA_5V SOURCE_5V C C REG_5V SOURCE_5V VBUS R33 10K 0402 5% C66 R34 NOPOP 0.1uF U7 2 3 4 HDR 3 2 1 SELF POWERED CABLE POWERED VDD_1P1V 5 SATA_EN 1 11 J4 IN IN OUT1 FAULT1Z EN1 OUT2 EN2 FAULT2Z GND PAD ILIM 9 10 C33 22uF 6 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 1uF 0.1uF 0.1uF 0.1uF 0.01uF 0.1uF 0.1uF 0.1uF 0.01uF 0.1uF 0.1uF FAULT# 7 ILIM1 TPS2560DRC R35 4.7K C34 8 C67 C69 0.1uF 0.1uF R36 27.4K 0402 5% VDD_1P1V USB2_1P1V FB4 220 @ 100MHZ C54 0.1uF C64 22uF B B BOARD_1P8V VDDA_1P8V FB5 VDD_1P1V 3.3V, 1.8V AND 1.1V REGULATOR 220 @ 100MHZ L2 2.2uH C62 22uF C58 C59 C61 0.1uF 0.01uF 1uF R30 0402 BOARD_5V 400K R31 475K 0402 1% U4 MODE C57 22uF 8 10 9 R39 1 19 MR# 4.7K 0402 15 3 18 4 SW2 PB_SWITCH 1 2 4 3 N.O. A VINDCDC EN_DCDC MODE SW FB_DCDC PG# MR# RSTSNS VINLDO1 EN_LDO1 VINLDO2 EN_LDO2 TRST RST# VLDO1 FB_LDO1 PGND VLDO2 FB_LDO2 AGND PWR_PAD TPS650061 7 11 5 SW_1.1V FB_DCDC 2 20 TRST 1% 30pF A R32 BOARD_3P3V GRST# 14 13 6 17 16 12 21 C46 22uF C72 BOARD_1P8V C68 4.7K 0402 5% C60 22uF 0.1uF A A A STAR GROUND AGND TO GND A C63 22uF A TUSB9261 DEMO EVM SIZE C SCALE: NONE 5 4 3 SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback 2 DWG NO: Thursday, August 26, 2010 POWER Sheet 2 of 2 1 TUSB9261 DEMO Board Schematic Copyright © 2011–2014, Texas Instruments Incorporated 19 Revision History www.ti.com Revision History Changes from Original (February 2011) to A Revision .................................................................................................. Page • • Changed text in Chapter 8 From: "By default the board is configured to use a 25-MHz crystal" To: "By default the board is configured to use a 40-MHz crystal" .................................................................................................. 11 Deleted Frequencies 20 - 30 from Table 1 .......................................................................................... 11 NOTE: Page numbers for previous revisions may differ from page numbers in the current version. 20 Revision History SLLU139A – February 2011 – Revised December 2014 Submit Documentation Feedback Copyright © 2011–2014, Texas Instruments Incorporated STANDARD TERMS AND CONDITIONS FOR EVALUATION MODULES 1. Delivery: TI delivers TI evaluation boards, kits, or modules, including any accompanying demonstration software, components, or documentation (collectively, an “EVM” or “EVMs”) to the User (“User”) in accordance with the terms and conditions set forth herein. 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Unless the assembled kit is designed to operate under part 15, part 18 or part 95 of this chapter, the operator of the kit must operate under the authority of an FCC license holder or must secure an experimental authorization under part 5 of this chapter. 3.1.2 For EVMs annotated as FCC – FEDERAL COMMUNICATIONS COMMISSION Part 15 Compliant: CAUTION This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. FCC Interference Statement for Class A EVM devices NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. SPACER SPACER SPACER SPACER SPACER SPACER SPACER SPACER FCC Interference Statement for Class B EVM devices NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. 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Les types d'antenne non inclus dans cette liste, ou dont le gain est supérieur au gain maximal indiqué, sont strictement interdits pour l'exploitation de l'émetteur 3.3 Japan 3.3.1 Notice for EVMs delivered in Japan: Please see http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_01.page 日本国内に 輸入される評価用キット、ボードについては、次のところをご覧ください。 http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_01.page 3.3.2 Notice for Users of EVMs Considered “Radio Frequency Products” in Japan: EVMs entering Japan may not be certified by TI as conforming to Technical Regulations of Radio Law of Japan. If User uses EVMs in Japan, not certified to Technical Regulations of Radio Law of Japan, User is required by Radio Law of Japan to follow the instructions below with respect to EVMs: 1. 2. 3. Use EVMs in a shielded room or any other test facility as defined in the notification #173 issued by Ministry of Internal Affairs and Communications on March 28, 2006, based on Sub-section 1.1 of Article 6 of the Ministry’s Rule for Enforcement of Radio Law of Japan, Use EVMs only after User obtains the license of Test Radio Station as provided in Radio Law of Japan with respect to EVMs, or Use of EVMs only after User obtains the Technical Regulations Conformity Certification as provided in Radio Law of Japan with respect to EVMs. Also, do not transfer EVMs, unless User gives the same notice above to the transferee. Please note that if User does not follow the instructions above, User will be subject to penalties of Radio Law of Japan. SPACER SPACER SPACER SPACER SPACER 【無線電波を送信する製品の開発キットをお使いになる際の注意事項】 開発キットの中には技術基準適合証明を受けて いないものがあります。 技術適合証明を受けていないもののご使用に際しては、電波法遵守のため、以下のいずれかの 措置を取っていただく必要がありますのでご注意ください。 1. 2. 3. 電波法施行規則第6条第1項第1号に基づく平成18年3月28日総務省告示第173号で定められた電波暗室等の試験設備でご使用 いただく。 実験局の免許を取得後ご使用いただく。 技術基準適合証明を取得後ご使用いただく。 なお、本製品は、上記の「ご使用にあたっての注意」を譲渡先、移転先に通知しない限り、譲渡、移転できないものとします。 上記を遵守頂けない場合は、電波法の罰則が適用される可能性があることをご留意ください。 日本テキサス・イ ンスツルメンツ株式会社 東京都新宿区西新宿６丁目２４番１号 西新宿三井ビル 3.3.3 Notice for EVMs for Power Line Communication: Please see http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_02.page 電力線搬送波通信についての開発キットをお使いになる際の注意事項については、次のところをご覧くださ い。http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_02.page SPACER 4 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. The notices contain important safety information related to, for example, temperatures and voltages. 4.3 Safety-Related Warnings and Restrictions: 4.3.1 User shall operate the EVM within TI’s recommended specifications and environmental considerations stated in the user guide, other available documentation provided by TI, and any other applicable requirements and employ reasonable and customary safeguards. Exceeding the specified performance ratings and specifications (including but not limited to input and output voltage, current, power, and environmental ranges) for the EVM may cause personal injury or death, or property damage. If there are questions concerning performance ratings and specifications, User should contact a TI field representative prior to connecting interface electronics including input power and intended loads. Any loads applied outside of the specified output range may also result in unintended and/or inaccurate operation and/or possible permanent damage to the EVM and/or interface electronics. Please consult the EVM user guide prior to connecting any load to the EVM output. If there is uncertainty as to the load specification, please contact a TI field representative. During normal operation, even with the inputs and outputs kept within the specified allowable ranges, some circuit components may have elevated case temperatures. These components include but are not limited to linear regulators, switching transistors, pass transistors, current sense resistors, and heat sinks, which can be identified using the information in the associated documentation. When working with the EVM, please be aware that the EVM may become very warm. 4.3.2 EVMs are intended solely for use by technically qualified, professional electronics experts who are familiar with the dangers and application risks associated with handling electrical mechanical components, systems, and subsystems. User assumes all responsibility and liability for proper and safe handling and use of the EVM by User or its employees, affiliates, contractors or designees. User assumes all responsibility and liability to ensure that any interfaces (electronic and/or mechanical) between the EVM and any human body are designed with suitable isolation and means to safely limit accessible leakage currents to minimize the risk of electrical shock hazard. User assumes all responsibility and liability for any improper or unsafe handling or use of the EVM by User or its employees, affiliates, contractors or designees. 4.4 User assumes all responsibility and liability to determine whether the EVM is subject to any applicable international, federal, state, or local laws and regulations related to User’s handling and use of the EVM and, if applicable, User assumes all responsibility and liability for compliance in all respects with such laws and regulations. User assumes all responsibility and liability for proper disposal and recycling of the EVM consistent with all applicable international, federal, state, and local requirements. 5. Accuracy of Information: To the extent TI provides information on the availability and function of EVMs, TI attempts to be as accurate as possible. However, TI does not warrant the accuracy of EVM descriptions, EVM availability or other information on its websites as accurate, complete, reliable, current, or error-free. SPACER SPACER SPACER SPACER SPACER SPACER SPACER 6. Disclaimers: 6.1 EXCEPT AS SET FORTH ABOVE, EVMS AND ANY WRITTEN DESIGN MATERIALS PROVIDED WITH THE EVM (AND THE DESIGN OF THE EVM ITSELF) ARE PROVIDED "AS IS" AND "WITH ALL FAULTS." TI DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, REGARDING SUCH ITEMS, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADE SECRETS OR OTHER INTELLECTUAL PROPERTY RIGHTS. 6.2 EXCEPT FOR THE LIMITED RIGHT TO USE THE EVM SET FORTH HEREIN, NOTHING IN THESE TERMS AND CONDITIONS SHALL BE CONSTRUED AS GRANTING OR CONFERRING ANY RIGHTS BY LICENSE, PATENT, OR ANY OTHER INDUSTRIAL OR INTELLECTUAL PROPERTY RIGHT OF TI, ITS SUPPLIERS/LICENSORS OR ANY OTHER THIRD PARTY, TO USE THE EVM IN ANY FINISHED END-USER OR READY-TO-USE FINAL PRODUCT, OR FOR ANY INVENTION, DISCOVERY OR IMPROVEMENT MADE, CONCEIVED OR ACQUIRED PRIOR TO OR AFTER DELIVERY OF THE EVM. 7. USER'S INDEMNITY OBLIGATIONS AND REPRESENTATIONS. USER WILL DEFEND, INDEMNIFY AND HOLD TI, ITS LICENSORS AND THEIR REPRESENTATIVES HARMLESS FROM AND AGAINST ANY AND ALL CLAIMS, DAMAGES, LOSSES, EXPENSES, COSTS AND LIABILITIES (COLLECTIVELY, "CLAIMS") ARISING OUT OF OR IN CONNECTION WITH ANY HANDLING OR USE OF THE EVM THAT IS NOT IN ACCORDANCE WITH THESE TERMS AND CONDITIONS. THIS OBLIGATION SHALL APPLY WHETHER CLAIMS ARISE UNDER STATUTE, REGULATION, OR THE LAW OF TORT, CONTRACT OR ANY OTHER LEGAL THEORY, AND EVEN IF THE EVM FAILS TO PERFORM AS DESCRIBED OR EXPECTED. 8. Limitations on Damages and Liability: 8.1 General Limitations. IN NO EVENT SHALL TI BE LIABLE FOR ANY SPECIAL, COLLATERAL, INDIRECT, PUNITIVE, INCIDENTAL, CONSEQUENTIAL, OR EXEMPLARY DAMAGES IN CONNECTION WITH OR ARISING OUT OF THESE TERMS ANDCONDITIONS OR THE USE OF THE EVMS PROVIDED HEREUNDER, REGARDLESS OF WHETHER TI HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. EXCLUDED DAMAGES INCLUDE, BUT ARE NOT LIMITED TO, COST OF REMOVAL OR REINSTALLATION, ANCILLARY COSTS TO THE PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES, RETESTING, OUTSIDE COMPUTER TIME, LABOR COSTS, LOSS OF GOODWILL, LOSS OF PROFITS, LOSS OF SAVINGS, LOSS OF USE, LOSS OF DATA, OR BUSINESS INTERRUPTION. NO CLAIM, SUIT OR ACTION SHALL BE BROUGHT AGAINST TI MORE THAN ONE YEAR AFTER THE RELATED CAUSE OF ACTION HAS OCCURRED. 8.2 Specific Limitations. IN NO EVENT SHALL TI'S AGGREGATE LIABILITY FROM ANY WARRANTY OR OTHER OBLIGATION ARISING OUT OF OR IN CONNECTION WITH THESE TERMS AND CONDITIONS, OR ANY USE OF ANY TI EVM PROVIDED HEREUNDER, EXCEED THE TOTAL AMOUNT PAID TO TI FOR THE PARTICULAR UNITS SOLD UNDER THESE TERMS AND CONDITIONS WITH RESPECT TO WHICH LOSSES OR DAMAGES ARE CLAIMED. THE EXISTENCE OF MORE THAN ONE CLAIM AGAINST THE PARTICULAR UNITS SOLD TO USER UNDER THESE TERMS AND CONDITIONS SHALL NOT ENLARGE OR EXTEND THIS LIMIT. 9. Return Policy. Except as otherwise provided, TI does not offer any refunds, returns, or exchanges. Furthermore, no return of EVM(s) will be accepted if the package has been opened and no return of the EVM(s) will be accepted if they are damaged or otherwise not in a resalable condition. If User feels it has been incorrectly charged for the EVM(s) it ordered or that delivery violates the applicable order, User should contact TI. All refunds will be made in full within thirty (30) working days from the return of the components(s), excluding any postage or packaging costs. 10. Governing Law: These terms and conditions shall be governed by and interpreted in accordance with the laws of the State of Texas, without reference to conflict-of-laws principles. User agrees that non-exclusive jurisdiction for any dispute arising out of or relating to these terms and conditions lies within courts located in the State of Texas and consents to venue in Dallas County, Texas. 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 © 2015, Texas Instruments Incorporated spacer IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, enhancements, improvements and other changes to its semiconductor products and services per JESD46, latest issue, and to discontinue any product or service per JESD48, latest issue. Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All semiconductor products (also referred to herein as “components”) are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment. 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