UG_0_PL0_00 XMC00 Boot Kit For XMC000 Family About this document Scope and purpose This document provides the schematic and hardware description of XMC00 Boot Kit, so that user is able to make use of this board for their application code development on XMC0-Q0X000 device. Intended audience For people who are interested to explore the functionality of XMC0 device. Table of Contents About this document... Table of Contents... Overview.... Key Features.... Block Diagram... Hardware Description.... Power Supply.... Reset.... Clock Generation..... External Crystal and external Real time Clock crystal.... Boot Option...7. CAN bus connector...7. Debug Interface and virtual com port....7 LED...9. Potentiometer...9.9 Application Card connector... 0 Production Data.... Schematics.... Layout and Geometry.... CR number of XMC00 Boot Kit.... Bill of Material... Revision History... User Manual Revision.0 www.infineon.com 0-0-
XMC00 Boot Kit For XMC000 Family Overview Overview This document describes the features and hardware details of the XMC00 Boot Kit. This board is mounted with ARM Cortex -M0 based XMC00 Microcontroller from Infineon Technologies AG. This board is part of Infineon s XMC000 Application Kits. The XMC00 Boot Kit (CPU-A-V) houses the XMC00 Microcontroller and a x0 pin edge for application expansion. The board along with application cards (e.g. Colour LED Card, White LED Card) demonstrates the capabilities of XMC00. The main use case for this board is to demonstrate the generic features of XMC00 device, including tool chain. The focus is safe operation under evaluation conditions. The board is neither cost nor size optimized and does not serve as a reference design.. Key Features The XMC00 Boot Kit is equipped with the following features XMC00 (ARM Cortex -M0 based) Microcontroller, VQFN Connection to application cards via card edge connector Detachable J-Link debugger and UART virtual COM port, with micro USB connector Four user LEDs Potentiometer, connected to analog input P. Power supply via Micro-USB connector Usage of 0MHz external crystal for CAN communication Usage of.7 khz external crystal as standby clock. Block Diagram Figure shows the functional block diagram of the XMC00 Boot Kit. Features include: On board Debugger for downloading and debugging of application code Virtual COM port for UART communication with terminal program e.g. Hyperterminal x0 card edge connector for extension to application card e.g. Colour LED Card and White LED Card User LEDs connected to GPIO P.0, P., P., P. Variable resistor R0 connected to analog input P. All the pins of XMC00 are accessible via the connector JP0, JP0, JP0 and JP0 CAN interface with CAN transceiver mounted External crystal 0 MHz and.7 khz mounted User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description Figure Block Diagram of XMC00 Boot Kit Hardware Description The following sections give a detailed description of the hardware and how it can be used. User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description Figure XMC00 Boot Kit. Power Supply XMC00 Boot Kit is powered from the micro USB connector (+V); however, there is a current limit that can be drawn from the host PC through USB. If the CPU-A-V board is used to drive other application board (e.g. Colour LED Card, White LED Card) and the total current required exceeds 00mA, then the board needs to be powered by external power supply connected to VDD and connection on board. The XMC0 device can operate by power supply of.v till.vdc. On this board Vdc is used to power the XMC0 device. However, if the user wants to power the XMC0 device with.vdc, then set jumper at JP0 to.v side. User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description Figure Power Supply circuit. Reset Since XMC0 does not have a reset pin, the user can unplug and replug the USB cable to achieve power-on master reset.. Clock Generation XMC0 has two internal oscillators: DCO and DCO. DCO has a clock output of 9 MHz. DCO is used to generate the standby clock running at.7 khz which used for Real Time Clock too. The main clock, MCLK and fast peripherial clock, PCLK, are generated from the output of DCO... External Crystal and external Real time Clock crystal The XMC00 device allows its main clock MCLK to be generated from external crystal to achieve higher accuracy. It also allows its real time clock to be run from external RTC crystal. On the XMC00 Boot Kit, a 0 MHz external crystal circuit and a.7 khz RTC external crystal circuit are implement on board to allows user to run its application using external crystals. The 0 MHz crystal Q0 is connected to the XMC0 device via R and R. If user does not want to use the external 0MHz crystal Q0 but wish to use P0.0 and P0. as general purpose pins, then R and R need to be desoldered while R and R soldered. The.7 khz crystal Q0 is not connected to the XMC0 device. If user wants to use the external.7 khz crystal, the two 0 ohm resistors R09 and R need to be soldered while R0 and R0 need to desoldered. Please refer to Figure for locations of these 0 ohm resistors. User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description Figure The external 0 MHz crystal Figure The external.7 khz RTC crystal User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description Figure The positions of 0 ohm resistors for connection of external crystals to XMC00 device. Boot Option After power-on reset with master reset, XMC0 device enters different boot modes depending on the BMI (Boot Mode Index) value stored in flash configuration sector 0 (CS0). The BMI value pre-programmed in the XMC0 on Boot Kit is User mode with debug enabled, hence, the XMC0 device will start to run the application code in its embedded flash after power on reset.. CAN bus connector A CAN bus header connector is provided for CAN communication with the XMC0 device using CAN node RXD pin P. and TXD pin P.9. If the user wants to test the CAN BSL mode of XMC0 device using this CAN transceiver circuit, then R0 and R0 need to be removed, then RXD and TXD pins of IFX0LE need to be connected to P0. and P0. of XMC0 device respectively. Furthermore, dip-switches SWD/SPD and SWCLK need to set to position off. IFX0LE requires V power supply. If the input voltage to XMC0 is set to.v, then remove R0 and solder R0. Next, supply an external power supply of V to pin (+) of JP0. By making these changes, the user can use this CAN transceiver for CAN BSL handshaking. User Manual 7 Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description Figure 7 CAN transceiver circuitry Figure CAN header JP0, H refers to CANH, L refers to CANL, + refers to VCC, 0 refers to. Debug Interface and virtual com port XMC00 Boot Kit has on-board debugger which supports Serial Wire Debug (SWD) and Single Pin Debug (SPD) as debug interface. SPD is a proprietary debugging protocol from Infineon Technologies and it requires only pin for debug communication. The debugger also provides a virtual COM port which support UART communication via P. (rx-in) and P. (tx-out) of XMC00. There is a x pins Header Debug connector X0. Table Debug connector X0 Pin Signal Name XMC00 Signal Description SWCLK P0. SWD clock signal SWD(SPD) P0. SWD / SPD signal +V VSSP Ground VSSP Ground +V 7 PC_TXD P. UART data received PC_RXD P. UART data transmit User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description.7 LED The port pins P.0, P., P. and P. are connected to LED0, LED0, LED0 and LED0 respectively. The LEDs turns on by output Low at the respective port pins. Figure 9 LEDs circuit Table LEDs Pinout LED XMC00 Port Pin Description LED0 P.0 Output Low to on LED LED0 P. Output Low to on LED LED0 P. Output Low to on LED LED0 P. Output Low to on LED. Potentiometer XMC00 Boot Kit provides a potentiometer R0 for ease of use and testing of the on-chip analog to digital converter. The potentiometer is connected to the analog input P.. The analog output range of the potentiometer is the same the voltage supplied to the XMC0 device. Figure 0 Potentiometer Circuit User Manual 9 Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Hardware Description.9 Application Card connector XMC00 Boot Kit has a x0 pins card edge connector. The mating connector is SAMTEC HSEC-0-0-L-RA- XX. Figure Pinout of the x0 pin edge connector User Manual 0 Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data Production Data. Schematics This chapter contains the schematics for the XMC00 Boot Kit: Figure : CPU, Pin Headers, external crystals, CAN transceiver circuitry, Potentiometer, LEDs and 0pin Edge connector Figure : On-board Debugger, Power Supply User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data CAN transceiver (work for V only) XMC0 MCU JP0 0pin edge connector P. P. X0 P. P. P.0 P. P.7 7 P. P. P.0 P. 9 0 IC0 P./.B P. P.9 P./.7B 7 0R/00 P.0 P. 7 P. P. 9 0 VCC 9 P0.0 P0. P. 9 P.7 0 R0 VIO EPAD JP0 /.C A P. P. P0. 0R/00 R0 RM R0 JP0 0R/00 VAREF P0.0 7 7 P. 0R/00 P0. 9 0 7 P. P. R07 9 P. 0 TXD P0. CANH P. P. P. RXD P0. CANL P.0 P. P.7 7 P0. IFX0LE P0. P0.9 P. 9 0 7 /.C P0. 7 P.9 P0. 9 0 0R/00 P0. P0.7 9 P.0 0 P0. P0. P0.7 P. P.9 0R/00 R0 P0. P0. P. P0.9 P.7 P. P. 7 R0 7 P. JP0 P. 9 0 9 P. 0 P0. P. P. P. P0. P. P.0 P. Jumpers to connect P0.,P0.9,P0.0,P0. External RTC External XTAL P0./.C P0./.7B P. P. 7 to Header 7 R09 R 7 9 0 P0._ P0.0_ P0. P0. P0. P.0 9 0 P0.0 P0. P.0 9 P.0 0R/00 nm/0r/00 0R/00 0 R0 P. P..7KHz 0MHz P0._ P0. P.0 P. R R P. P. P0.9_ P0._ P. P.9 P. P. P. P.7 7 R0 0R/00 Q0 nm/0r/00 Q0 0R/00 P0. 7 P0. 9 P0.9_ P0.9 P0.9 0 9 P0.7 JP0 0 nm/0r/00 XSE00_HSEC_MATINGCARD R P0.0_ P0.0 P. P. P. P.7 P. P.9 7 R nm/0r/00 P0._ P0. P.0 P. 9 0 A VAREF P. Debug Connector SWD, SPD, UART Note: nm means 'not mounted' P. P.0 P. P. X0 MCU pins P. PC_RXD 7 PC_TXD P. IC0_P0 IC0_P VAREF Port 0 - standard port Port - high current port BR0 P0.0 P.0 A P0. SWD(SPD) SWCLK P0. P0.0 P.0 P0. P. BR0 P0. P. P0. P. P0. Debug P0. P./.B P0. P0. P. P./.7B 0 P0. P0. P. R7 P. 9 P0. P0. P. 7 P. P0. P0. P. 0R/00 P. 7 P0.7 P0.7 P.7 P.7 P0._ P0./RTC_XTAL P. 0 P. P0.9_ P0.9/RTC_XTAL P0.0_ P0.0/XTAL C0 P0./XTAL Potentiometer and LEDs P0._ C09 P0. P0. VAREF VDD 9 0nF/00 0nF/00 P0. P0. 7 VSSP C0 P0./.C P0. EXP 00nF/00 P0./.7B P0. EXP /.C A VSSP/VSS A LED0 K7/00 LED-RED/D/00 LED0 K7/00 LED-RED/D/00 LED0 K7/00 LED-RED/D/00 LED0 K7/00 LED-RED/D/00 pf/00 pf/00 pf/00 pf/00 00nF/00 00nF/00 00nF/00 nm/0r/00 K/00 XMC0-Q0X000 XMC0-Q0X000 XMC0-Q0X000 R 0k C0 C0 C0 C07 C0 C0 C0 R0 R R R9 R0 R 7 9 0 IC0_P P. P. P. P.7 P. P.9 P.0 P. P. P. 7 9 0 IC0_P P.0 P. P. P. P. XMC0-Q0X000 P. P. P. P.0 C 0 9 0nF/00 C 0nF/00 9 0 7 IC0_P P.0 P. P. P. P. P. P. P.7 P. P.9 P.0 P. VSSP XMC0-Q0X000 S R 0R/00 A E P. A B C D E 7 A B C P. P.7 P.9 P. P. P. P. P. P.0 P. P. P. P.0 P. P. Port - analogue features G0.CH0 G0.CH G0.CH G0.CH G0.CH G.CH G.CH7 G.CH G.CH0 G.CH G.CH G.CH CMP CMP0 CMP G0.CH7 G0.CH G0.CH ORC S&H0 S&H ACMP S&H S&H0 ORC Port - standard port CMP G.CH /.C P. P.0 P. P. P. P. P. P.7 P.9 P. /.C P.0 P. P. P. P. P.0 Port - standard port Legal Disclaimer The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any 7 VAREF information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights of any third party. P. P.0 P. P. P. MCU XMC00_VQFN-V- not saved! Sheet: / D E Figure Schematic of XMC00 Boot Kit User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data +V +V +V +V +V +V uf/0v/00 IC0 IFX00MEV USBV.V 0R IN OUT C0 LED-R/D/00 0R/00 V0 R0 LED-GN/D/00 0R/00 V0 R0 U0 R0 00nF 0uF/0V/00 P0 JP0 JMPER_VSEL C0 PULL_SEL TX_EN COMDIS# TX RX RESET# DEBUG_LED# AUX_LED# 7 C0 VIN P0. P0.7 P0. P0. P0. P0. P0. P0. P0.0 P. P. P. P. P. P.0 SWCLK CS - 7 Power Supply On-board J-Link with UART IO Configure COMDIS# as open-drain output Configure wiggler-p0. as USIC_Tx but only active while X-spy function is selected Configure wiggler-p0. as USIC_Rx but only active while X-spy function is selected Configure wiggler-p0. as RESET# detect input but with additional open-drain output capabilities SPI Master U0C0 SWD DIR GPIO-P. MISO DX0B-P. MOSI DOUT0-P. CLK_OUT SCLKOUT-P. CS_OUT SELO0-P.0 SWD_DIR SWD_IN SWD_OUT SWCLK A SPI Slave U0C CS_IN DXA-P. CLK_IN DXA-P. PULL Select GPIO-P0. + SWD_OUT SWD_IN SWD_DIR SWCLK CS 7 9 0 P. P. P. P. P. P.0 +V 9-0 +V P0. P0. P. P. 7 SWD_DEV SWCLK_DEV PC_TXD_DEV PC_RXD_DEV +V 9 0 P.9 P. P.7 P. P. P. P. P.0 C0 VAREF VA 7 00nF/00 ON S0 L0 BLMPG00 BAT0A C A RTC_XTAL_ 9 X0C 7 0 X0 V0 HIB_IO_0 VBAT PC_TXD SWCLK PC_RXD SWD(SPD) R0 R/00 R0 0R/00 USB USB_D- R0 R/00 0 XTAL USB_D+ Q0 MHZ/S/.X. DEBUG ZX-AB-PA RTC_XTAL_ P. P0. 7 P. P0. RESET C07 pf/00 pf/00 00nF/00 M/00 ESDV0LB-0L V0 k7/00 0k/00 XTAL 9 X0S R07 X0 RESET_DEV# PORST# TCK TMS DBGPRES# WTCK WTMS R09 R0 VDDC VDDC VSS EPAD 7 EPAD +V K0 / % 00nF/00 00nF/00 00nF/00.7uF/00 00nF/00 00nF/00 XMC00_QFN C0 C0 +V SWD_DEV R0 00nF/00 JP0 0k/00 R P.9 n.m./00 R K0 / % R C C C C0 C09 C0 C XMC_SWD C no ass./0nf/00 PULL_SEL_DEV +V +V +V R IC0 0k/00 +V 0k/00 VCCA A A DIR VCCB B B 7 IC0 RX SWD_IN PC_RXD_DEV VCCA A DIR VCCB B IC0 IC0 R SWCLK CS SWCLK_DEV RESET# PULL_SEL VCCA A A DIR VCCB B B 7 RESET_DEV# PULL_SEL_DEV TX TX_EN VCCA A DIR VCCB B PC_TXD_DEV SN7LVCTDCK SN7LVCTDCT 0k/00 SN7LVCTDCK +V R IC0 SN7LVCTDCT R 0k/00 SWD_OUT SWD_DIR VCCA A DIR VCCB B A SWD_DEV 0k/00 B SN7LVCTDCK R7 C D E PULL_SEL ADC AIN P.9 Digital UC0 DX0A-P0. DOUT0-P0. UART (DM) RXD TXD TX_ENABLE GPIO-P0.7 TXACTIVE# GPIO-P0. RXD TXD TX_EN EN# Debug Connector SWD, SPD, UART B P.9 COM LED Level Shifter No RESET Pin UART SPD SWV JTAG RESET# RESET# GPIO-P0. DEBUG_LED# DEBUG_LED# GPIO-P0. AUX_LED# AUX_LED# GPIO-P0. Analog Hibernate/RTC IO D D Supply C IO D Voltage Translators IO IO IO IO IO IO E J-Link & UART XMC00_VQFN-V- Legal Disclaimer The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any not saved! Sheet: / information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights of any third party. 7 Figure Schematic of XMC00 Boot Kit User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data. Layout and Geometry Figure XMC00 Boot Kit layout and geometry User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data. CR number of XMC00 Boot Kit : TMS : TCK : +V JP0 : : #DBGPRES X0 ON R R X0 Q0 C0 S0 R7 C0 C0 R C R R0 IC0 C09 R R U0 C0 C IC0 IC0 R0 R0 C V0 V0 IC0 R C0 C IC0 R0 C R07 R0 C0 C0 L0 C0 + VIN V0 R0 C07 V_SEL - R0 R0 V0 R09 USBV.V X0 IC0 R R9 R0 R X0 R7 R ADJ_0 R LED0 LED0 LED0 LED0 R JP0 JP0 C0 R R0 C0 C07 C0 Q0 Q0 C0 R0 R09 R R C R R IC0 C09 C0 C0 R0 R0 R0 IC0 R0 R0 C0 JP0 C JP0 R0 R07 JP0 C0 ADJ_0 0 X0 ADJ_0 Figure CR number of XMC00 Boot Kit User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data. Bill of Material Table XMC00 Boot Kit No. Value Device Qty Reference Designator JMPER_VSEL x pin header JP0 CAN pins x pin header JP0 Debug x pin header X0 X0 00nF 0V 0% 00 Capacitor X7R 9 C0 C0 C07 C0 C09 C C C C 00nF 0V 0% 00 Capacitor X7R C0 C0 C0 C0 0uF 0V 0% 00 Capacitor X7R C0 7 pf 0V % 00 Capacitor NPO C0 C0 C0 C0 0nF 0V 0% 00 Capacitor X7R C0 C09 C C 9 uf 0V 0% 00 Capacitor X7R C0 0.7uF 0V 0% 00 Capacitor X7R C0 pf 0V % 00 Capacitor NPO C0 C07 MHz S.X. Crystal MHz SMD pf NXGB-.000M-STD-CRA- 0 MHz S.X. Crystal 0 MHz SMD pf NXGB-0.000M-STD-CRA- a ) 0 MHz S.X. Crystal 0 MHz SMD pf HONG KONG X TALS LIMITED M000IB0 Q0 Q0 Q0 ESDV0LB-0L Diode, Infineon V0 SN7LVCTDCT Dual-bit Dual supply bus transceiver IC0 IC0 BLMPG00 Ferrite Bead L0 7 LED-GN D 00 LED, green V0 jumper (red) Jumper JP0A 9 ZX-AB-PA Connector Micro-USB AB SMD ZX-AB-PA Hirose X0 0 LED-RED D 00 LED, red V0 LED-RED D 00 LED, red LED0 LED0 LED0 LED0 0R 0% 00 Resistor R0 R0 R 0R 0% 00 Resistor R0 R0 R0 R0 R07 R7 R R0 0k Resistor, Potentiometer R 0k 0% 00 Resistor 7 R0 R R R R R7 R 0R 0% 00 Resistor R0 7 K 0% 00 Resistor R M 0% 00 Resistor R09 User Manual Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Production Data No. Value Device Qty Reference Designator 9 R 0% 00 Resistor R0 R0 0 k70% 00 Resistor R07 K7 0% 00 Resistor R R9 R0 R 0R 0% 00 Resistor R 0R 0% 00 Resistor R0 K0 0% % Resistor R0 R 0R 0% 00 Resistor R0 R0.7 khz, FC- Crystal.7 khz SMD.pF NDK NXSA-.7K a ).7 khz, FC- Crystal.7 khz SMD HONG KONG X TALS LIMITED K7IB0 7 SN7LVCTDCK Single bit Dual supply bus transceiver Q0 Q0 IFX0LE CAN transceiver, Infineon IC0 9 XMC0-Q0X000 Microcontroller, Infineon IC0 0 IFX00MEV Voltage regulator, V, Infineon IC0 XMC00-QK Microcontroller, Infineon U0 BAT0A Diode Infineon V0 no ass. 0nF 0% 00 Capacitor C IC0 IC0 IC0 MCU pins x pin header JP0 JP0 JP0 JP0 XMC_SWD x pin header X0 no ass. 0R 0% 00 Resistor R0 7 no ass. 0R 0% 00 Resistor R09 no ass. 0R 0% 00 Resistor R 9 no ass. 0R 0% 00 Resistor R 0 no ass. 0R0% 00 Resistor R no ass. 0R 0% 00 Resistor R Note: ) Alternative part. User Manual 7 Revision.0 0-0-
XMC00 Boot Kit For XMC000 Family Revision History Revision History Major changes since the last revision Page or Reference Description of change V.0 Initial Version User Manual Revision.0 0-0-
Trademarks of Infineon Technologies AG AURIX, C, CanPAK, CIPOS, CoolGaN, CoolMOS, CoolSET, CoolSiC, CORECONTROL, CROSSAVE, DAVE, DI-POL, DrBlade, EasyPIM, EconoBRIDGE, EconoDUAL, EconoPACK, EconoPIM, EiceDRIVER, eupec, FCOS, HITFET, HybridPACK, Infineon, ISOFACE, IsoPACK, i-wafer, MIPAQ, ModSTACK, my-d, NovalithIC, OmniTune, OPTIGA, OptiMOS, ORIGA, POWERCODE, PRIMARION, PrimePACK, PrimeSTACK, PROFET, PRO-SIL, RASIC, REAL, ReverSave, SatRIC, SIEGET, SIPMOS, SmartLEWIS, SOLID FLASH, SPOC, TEMPFET, thinq!, TRENCHSTOP, TriCore. Trademarks updated August 0 Other Trademarks All referenced product or service names and trademarks are the property of their respective owners. Edition 0-0- Published by Infineon Technologies AG 7 Munich, Germany 0 Infineon Technologies AG. All Rights Reserved. Do you have a question about this document? Email: erratum@infineon.com Document reference UG_0_PL0_00 IMPORTANT NOTICE The information contained in this application note is given as a hint for the implementation of the product only and shall in no event be regarded as a description or warranty of a certain functionality, condition or quality of the product. Before implementation of the product, the recipient of this application note must verify any function and other technical information given herein in the real application. Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind (including without limitation warranties of non-infringement of intellectual property rights of any third party) with respect to any and all information given in this application note. The data contained in this document is exclusively intended for technically trained staff. It is the responsibility of customer s technical departments to evaluate the suitability of the product for the intended application and the completeness of the product information given in this document with respect to such application. For further information on the product, technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies office (www.infineon.com). WARNINGS Due to technical requirements products may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies office. Except as otherwise explicitly approved by Infineon Technologies in a written document signed by authorized representatives of Infineon Technologies, Infineon Technologies products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury.