UM10714 SSL5301DB1213 flyback LED driver
Contents
1. SJ0jonpuoolul8S dXN NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 9 Bill Of Materials BOM Table 2 SSL5301DB1213 bill of materials Reference Description and values Part number Manufacturer BD1 bridge rectifier 0 5 A 600 V MB6S MBS C1 capacitor film 150 nF 450 V 10 95 C2228154K40C000 Xiamen Fara P 10 mm DIP10 C2 capacitor film 47 nF 450 V 10 96 CL21 450V 0 047K ZhongShan AIDI Electronics P 7 5 mm DIP7 5 C3 capacitor film 150 nF 450 V CL21 450V 0 15K ZhongShan AIDI Electronics P 27 5 mm 10 DIP7 5 C4 capacitor ceramic 2 2 nF 630 V 10 GHM1530X7R222K630D500 Murata 1206 C5 capacitor electrolysis 470 uF 50 V Shanghai Yongming 20 96 105 C Electronics 10 mm x 20 mm LK 8000 h L lead C7 capacitor Y 2 2 nF 400 V AC 10 96 P 10 mm DIP10 C8 capacitor ceramic 220 pF 50 V 0805 GRM2165C2A221JA01 Murata COG C10 capacitor electrolysis 10 uF ELE 500ELL220ME11D NCC 50 V 20 105 C 5 mm x 11 mm ELE 10000 h axial lead CN1 connector L pin 2 pin pitch 5 mm 691312710002 W rth Elektronik DIP2 CN2 connector L pin 4 pin pitch 2 5 mm 691312710004 W rth Elektronik DIP4 D1 D4 D9 diode RS1M 1 A 700 V RS1M Fairchild SMA DO 214AC D2 diode 1 A 600 V ES1J SMA DO 214AC ES1J Diotec D7 D8 diode 0 2 A 200 V BAS21H SOD123 BAS21H NXP Semi2. chip 15 kQ 1 96 0603 RCO0603FR 0715KL Yageo R20 R21 resistor chip 2 2 Q 1 95 0805 RCO0805FR 072K2L Yageo R23 resistor chip 820 Q 1 96 0603 RCO0603FR 07820RL Yageo R24 resistor chip 10 O 1 96 1206 RC1206FR 1310RL Yageo R25 resistor chip 100 kO 1 96 0603 RTO603FRE07100KL Yageo R26 resistor chip 1 MO 1 0603 RCO0603FR 071ML Yageo R27 resistor chip 470 1 96 0603 RCO0603FR 07470RL Yageo R28 resistor chip 4 7 KQ 1 96 1206 Yageo RV1 surge absorber 471KD07 300 V AC 471KD07 BrightKing DIP5 T1 transformer RM6 1 5 mH RM 6 3 750342290 Wirth Elektronik U1 IC SSL5301 SO 8 SSL5301 NXP Semiconductors ZD1 Zener diode 5 6 V 0 55 W 5 SOT323 BZX84J B5V6 NXP Semiconductors 10 Tuning options UM10714 To increase dimmer compatibility decrease the value of bleeder resistor R11 in order If some smart dimmers cannot start up try to decrease the resistor R26 value to get a higher start up current of the bleeder To achieve a different output current change the R20 and R21 resistor values A lower resistance value results in a higher output current All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 15 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 11 Board layout Figure 14 shows the SSL5301DB1213 demo board layout of all four
3. 60950 based national or regional safety standards NXP Semiconductors does not accept any liability for damages incurred due to inappropriate use of this product or related to non insulated high voltages Any use of this product is at customer s own risk and liability The customer shall fully indemnify and hold harmless NXP Semiconductors from any liability damages and claims resulting from the use of the product Translations A non English translated version of a document is for reference only The English version shall prevail in case of any discrepancy between the translated and English versions 15 3 Trademarks Notice All referenced brands product names service names and trademarks are the property of their respective owners GreenChip is a trademark of NXP Semiconductors N V NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 20 of 21 NXP Semiconductors UM10714 16 Contents SSL5301DB1213 flyback LED driver 15 1 15 2 15 3 16 Introduction sllessseeess 3 Safety warning sesesesesse 3 Specifications 00 cece eee eee 4 Board photographs 5 Board connections s 5 Performance ceee rrr 6 EMMCION CY rmn Tei Ave tales oh S 6 Power Factor PF 2 7 Line regulation llle 7 Load regulation llle 8 Dimming curves
4. NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 8 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 6 5 Dimming curves Figure 9 shows the output current for a leading edge dimmer and a trailing edge dimmer The output current without dimmer is also indicated The maximum output current with dimmer equals 92 of the output current when no dimmer is used As a result the input power of the SSL5301DB1213 demo board is the same with no dimmer as with dimmer and set at its maximum angle 120 aaa 012747 ILED 100 no dimmer 80 60 40 20 50 70 90 110 130 150 170 a Leading edge dimming 120 aaa 012748 ILED 100 no dimmer 80 60 40 20 30 50 70 90 110 130 150 a b Trailing edge dimming Fig 9 Output current as a function of dimmer angle Dimming compatibility includes smooth dimming without any flashing or flickering effects across the complete dimming range The SSL5301DB1213 demo board has been tested with a wide selection of dimmers It is compatible with most leading edge and trailing edge dimmers on the market UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved
5. does not accept any liability related to any default damage costs or problem which is based on any weakness or default in the customer s applications or products or the application or use by customer s third party customer s Customer is responsible for doing all necessary testing for the customer s applications and products using NXP Semiconductors products in order to avoid a default of the applications and the products or of the application or use by customer s third party customer s NXP does not accept any liability in this respect Export control This document as well as the item s described herein may be subject to export control regulations Export might require a prior authorization from competent authorities Evaluation products This product is provided on an as is and with all faults basis for evaluation purposes only NXP Semiconductors its affiliates and their suppliers expressly disclaim all warranties whether express implied or statutory including but not limited to the implied warranties of non infringement merchantability and fitness for a particular purpose The entire risk as to the quality or arising out of the use or performance of this product remains with customer In no event shall NXP Semiconductors its affiliates or their suppliers be liable to customer for any special indirect consequential punitive or incidental damages including without limitation damages for loss of business busine
6. m UM10714 PEER SSL5301DB1213 flyback LED driver Rev 1 4 June 2014 User manual Document information Info Content Keywords SSL5301DB1213 dimmable LED driver flypack converter A19 Abstract This user manual describes the operation of the SSL5301DB1213 230 V 12 W dimmable LED driver featuring the SSL5301 using a flyback topology The SSL5301DB1213 demo board has a form factor that is compatible with the base of an A19 LED lamp fitting used in Solid State Lighting SSL applications NXP Semiconductors UM10714 Revision history SSL5301DB1213 flyback LED driver Rev Date Description v 1 20140604 first issue Contact information For more information please visit http www nxp com For sales office addresses please send an email to salesaddresses nxp com UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 2 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 1 Introduction WARNING Lethal voltage and fire ignition hazard The non insulated high voltages that are present when operating this product constitute a risk of electric shock personal injury death and or ignition of fire This product is intended for evaluation purposes only It shall be operated in a designated test ar
7. 0 20 eee eee ee 9 Power losses 000 0c eee eee 10 ElectroMagnetic Interference EMI 11 Protections sre I RR 12 Schematic 1er eet Ren 13 Bill Of Materials BOM 14 Tuning OptionS 2 0 cece eee 15 Board layout 2 0 0 cece eee eee 16 Transformer specification 18 Abbreviations 0000e seen eee 19 References slee ssss 19 Legal information seLee 20 Definitions lessen 20 Disclaimers ae e 0c eee eee eee 20 Trademarks 00000 000 eee eee 20 eroa l ese kr xw ener eases RR REUS 21 Please be aware that important notices concerning this document and the product s described herein have been included in section Legal information NXP Semiconductors N V 2014 All rights reserved For more information please visit http Awww nxp com For sales office addresses please send an email to salesaddresses nxp com Date of release 4 June 2014 Document identifier UM10714
8. User manual Rev 1 4 June 2014 9 of 21 NXP Semiconductors UM10714 UM10714 SSL5301DB1213 flyback LED driver 6 6 Power losses Figure 10 shows the power losses when a leading edge or a trailing edge dimmer is used The power losses when no dimmer is used are also indicated Power losses are defined as the difference between input power and output power They indicate the total power loss in the converter 4 0 aaa 012762 Ploss T no dimmer w 3 5 3 0 2 5 2 0 1 5 1 0 0 20 40 60 80 100 120 a Leading edge dimmer 4 0 140 aaa 012763 Ploss T no dimmer W 3 5 3 0 2 67 2 5 2 61 2 36 2 0 1 87 1 98 1 77 1 5 1 0 0 20 40 60 80 100 120 b Trailing edge dimmer Fig 10 Power losses as a function of dimmer angle 140 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 10 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 6 7 ElectroMagnetic Interference EMI The ElectroMagnetic Interference EMI was measured according to the EN55015 standard The board complies with the requirement see Figure 11 aaa 012764 aaa 012765 120 noi
9. age UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 6 of 21 NXP Semiconductors UM10714 UM10714 SSL5301DB1213 flyback LED driver 6 2 Power Factor PF 1 000 aaa 012732 PF 0 900 1 2 3 4 0 800 0 700 100 150 200 250 300 vi Vigp 81 V Viep 84 V Vip 37 V Vip 40 V Power factor as a function of AC mains input voltage 6 3 Line regulation 2 Viep 34 V 0 300 aaa 012735 ILED A 0 250 1 2 3 4 0 200 100 150 200 250 300 Vi V Vigp 31 V Vigp 37 V Vigp 40 V Output current as a function of AC mains input voltage All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 7 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 6 4 Load regulation 0 300 aaa 012736 ILED A 0 250 0 200 30 35 40 Vip V Fig 8 Output current as a function of output voltage at V 230 V AC UM10714 All information provided in this document is subject to legal disclaimers
10. conductors FS1 resistor fusible 47 Q 2 W 5 96 FRN2W47RJ TY OHM axial lead L1 drum inductor power 4 7 mH 0 15 A W rth Elektronik 6 x 8 mm axial lead M1 N MOSFET 1 9 A 600 V Vg 30 V FQU2N60C Fairchild IPAK TO251 M2 N MOSFET 1 9 A 600 V Vgs 30 V FQD2N60C Fairchild DPAK TO252 Q1 transistor NPN 0 5 A 45 V SOT23 BC817 NXP Semiconductors R1 R2 resistor chip 470 kO 1 96 1206 RC1206FR 07470KL Yageo R3 resistor chip 220 kO 5 96 1206 RC1206JR 13240KL Yageo R5 resistor fusible 560 Q 500 V 3 W 5 96 FRN 3W 5600 J TY OHM axial R7 resistor fusible 750 Q 500 V 3 W 596 FRN 3W 7500 J TY OHM axial R8 resistor chip 30 kQ 1 96 1206 RC1206FR 0730KL Yageo UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 14 of 21 UM10714 SSL5301DB1213 flyback LED driver NXP Semiconductors Table 2 SSL5301DB1213 bill of materials continued Reference Description and values Part number Manufacturer R10 resistor chip 390 kO 1 96 1206 Yageo R11 resistor chip 18 O 1 96 1206 Yageo R13 resistor chip 47 Q 1 96 0603 RCO0603FR 0747RL Yageo R14 resistor chip 10 KQ 1 96 0805 RCO0603FR 071KL Yageo R17 resistor chip 5 6 kQ 1 96 0603 RCO0603FR 075K6L Yageo R18 resistor chip 10 O 1 96 1206 Yageo R19 resistor
11. ea by personnel qualified according to local requirements and labor laws to work with non insulated mains voltages and high voltage circuits This product shall never be operated unattended This user manual describes the operation of the SSL5301DB1213 230 V 12 W dimmable LED driver featuring the SSL5301 The SSL5301DB1213 demo board incorporates an A19 LED lamp compatible form factor The flyback converter topology provides a simple and efficient solution for mains dimmable LED recessed light applications The SSL5301DB1213 demo board complies with EMI and safety regulations Figure 2 shows the SSL5301DB1213 demo board dimensions The design and the components used ensure that the board fits into an A19 lamp base Figure 3 shows the top view and bottom view of the SSL5301DB1213 demo board 2 Safety warning The SSL5301DB1213 demo board input is connected to the 230 V mains Avoid touching the board while it is connected to the mains voltage and when it is in operation An isolated housing is obligatory when used in uncontrolled non laboratory environments Galvanic isolation from the mains phase using a fixed or variable transformer is always recommended Figure 1 shows the symbols that identify these devices OlO 019aab173 019aab174 a Isolated b Not isolated Fig 1 Isolation symbols UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All ri
12. fication of transformer T1 knob dot locates term 1 2500 2 00 lot code and 2 54 2x 10 16 2x gt date code pos 2 54 2x e 911049 recommended p c pattern component side Dimensions in mm EN aaa 012775 Table 3 Transformer T1 specifications At 25 C unless otherwise specified Parameter Value Test conditions Electric specifications DC resistance 2 3 maximum 2 97 Q at 20 C DC resistance 6 4 maximum 0 811 Q at 20 C DC resistance B W maximum 0 674 Q at 20 C inductance 2 3 1 50 mH 7 50 kHz 0 1 V AC Ls leakage inductance 2 3 maximum 20 uH tie 4 6 B W 100 kHz 0 1 V AO Ls dielectric 1 B 4000 V AC 1 minute tie 3 4 4000 V AC 1 s dielectric B core 1000 V AC 1 minute tie 3 4 B 1000 V AC 1 s dielectric 3 4 1800 V AC 1s 1800 V AC 1 s turns ratio 100T 24T 2 3 6 4 turns ratio 100T 40T 2 3 B W General specifications operating temperature 40 C to 125 C including temperature increase UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 18 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver The T1 tran
13. ghts reserved User manual Rev 1 4 June 2014 3 of 21 NXP Semiconductors UM10714 3 Specifications SSL5301DB1213 flyback LED driver Table 1 lists the specifications of the demo board Table 1 SSL5301DB1213 specifications Symbol Parameter Value Vimains AC mains supply voltage 230 V 15 Imains AC mains input current lt 65 mA ViED output voltage 36 V range 30 V to 40 V ILED output current 250 mA lo ripple LED LED output current ripple 30 n efficiency 85 PF Power Factor gt 0 9 at Vmains 230 V AC THD Total Harmonic Distortion 12 96 at Vmains 230 V AC and Vo gp 40 V DC Toper operating temperature 90 C to 100 C fow switching frequency 60 kHz Figure 2 shows the dimensions of the demo board Fig 2 230 Vac 36V 250mA 88 519 SSL5301DB1213 demo board dimensions 888 012727 UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 4 of 21 NXP Semiconductors UM10714 SSL5301DB1213 flyback LED driver 4 Board photographs a Top view Fig 3 SSL5301DB1213 demo board aaa 012728 aaa 012729 b Bottom view 5 Board connections UM10714 The board is optimized for a 230 V 50 Hz mains supply In addition to the ma
14. ife critical or safety critical systems or equipment nor in applications where failure or malfunction of an NXP Semiconductors product can reasonably be expected to result in personal injury death or severe property or environmental damage NXP Semiconductors and its suppliers accept no liability for inclusion and or use of NXP Semiconductors products in such equipment or applications and therefore such inclusion and or use is at the customer s own risk Applications Applications that are described herein for any of these products are for illustrative purposes only NXP Semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification Customers are responsible for the design and operation of their applications and products using NXP Semiconductors products and NXP Semiconductors accepts no liability for any assistance with applications or customer product design It is customer s sole responsibility to determine whether the NXP Semiconductors product is suitable and fit for the customer s applications and products planned as well as for the planned application and use of customer s third party customer s Customers should provide appropriate design and operating safeguards to minimize the risks associated with their applications and products UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors
15. ins voltage optimization the board is designed to work with multiple LEDs or an LED module with a 40 V forward voltage The mains connection of the SSL5301DB1213 demo board is different from other general evaluation reference boards Connect the mains to the crew connector CN1 see Figure 4 Remark The maximum rated voltage of the board is 265 V AC The anode of the LED load is connected to V of connector CN2 see Figure 4 The cathode is connected to V of connector CN2 Use an LED string with a forward voltage between 30 V and 40 V on this demo board Under the expected conditions the output current is 250 mA when no dimmer is used NXO SSL5301081213 WWW NXP COn AC Mains aaa 012730 Fig 4 SSL5301DB1213 board connections All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 5 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver 6 Performance The performance was measured using an LED with a 40 V forward voltage at a 250 mA output load Figure 5 to Figure 11 show the performance data 6 1 Efficiency 90 aaa 012731 n 85 1 80 2 3 4 75 70 100 150 200 250 300 Vi V Viep 81 V Viep 84 V Viep 37 V Vigp 40 V Fig 5 Efficiency as a function of AC mains input volt
16. latched state All other protections are not latched and lead to a safe restart of the converter For more information about the protections see the SSL5301 data sheet Ref 1 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 12 of 21 jenuew 19sp vlog eunf p L 3Y sjeuirejosip Jea oj joe qns si jueuunoop siui ui PEpIAOI uoneuuojul Iv LZ JO E paniasal SIyBU IIV Y LOZ NN S OJONPUOTIES AXN YLLOLNN 8 Schematic FS1 470 230 V AC 50 Hz RV1 07D471 L 1 R24 1206 100 BD1 Did D9 D1 Pl Pl RS1M RS1M C1 R3 150 nF 220 kQ 450 V D2 PX LED R5 R7 RM6 ES1J 560 Q 750 C8 Ti C5 R8 3w 3w Il 1 5 mH 470 pF 36 V 250 mA 220 pF white 50V 30 KQ p D4 2 3 m 50V RSIM 40T ZD1 D B ls 100T 3 black T En 3 R27 Is 2N60 56V T gt e H 30 Vgs 2 2 nF 0603 R26 M1 400 Vac 4700 O80 2NB0 at 1MO 100 kQ H BC817 T i 4 R11 R16 180 nc 24T 6 4 mH R17 4 R23 1kQ0 R18 100 BAS21H D7 t K BAS21H 4 C10 10 uF 50V aaa 012768 Fig 13 SSL5301DB1213 demo board schematic diagram J9AUp G37 H9eQAY ELZLAGLOESTSS VILZOLINN
17. layers Figure 15 show the outer layers of the board with their corresponding silk screen indicating component positions NXO 58L 53061DB1213 Ww MIXP LOn 230Vac 40V 250mA aaa 012769 Red Top Blue Bottom Yellow Silk screen top Gray Silk screen bottom Fig 14 SSL5301DB1213 demo board with double layers PCB only UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 16 of 21 NXP Semiconductors UM1 071 4 SSL5301DB1213 flyback LED driver NXO 8L5301DB1213 WWW NXP CON CN2 e a ow we Mo Le ee ve i aaa 012770 a Top view m m e emm 2 SA amp LST e e m e ti aaa 012771 b Bottom view Fig 15 SSL5301DB1213 demo board assembly UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 17 of 21 NXP Semiconductors UM10714 12 Transformer specification SSL530 1DB1213 flyback LED driver A I 2 54 min 13 21 5 00 1 50 max gt f term numbers for reference only 0 50 4x part must insert fully to surface A in recommended grid 2 s PRI 207 253 VAC 3 B 100 kHz SEM 3 40 V 0 3A 6 Ww AUX z 25 V 0 01A Fig 16 Speci
18. or warranties expressed or implied as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information NXP Semiconductors takes no responsibility for the content in this document if provided by an information source outside of NXP Semiconductors In no event shall NXP Semiconductors be liable for any indirect incidental punitive special or consequential damages including without limitation lost profits lost savings business interruption costs related to the removal or replacement of any products or rework charges whether or not such damages are based on tort including negligence warranty breach of contract or any other legal theory Notwithstanding any damages that customer might incur for any reason whatsoever NXP Semiconductors aggregate and cumulative liability towards customer for the products described herein shall be limited in accordance with the Terms and conditions of commercial sale of NXP Semiconductors Right to make changes NXP Semiconductors reserves the right to make changes to information published in this document including without limitation specifications and product descriptions at any time and without notice This document supersedes and replaces all information supplied prior to the publication hereof Suitability for use NXP Semiconductors products are not designed authorized or warranted to be suitable for use in life support l
19. se level dBuV m 100 80 so LIIIN LT c 40 20 BUM E LE LL N UA ELTE LL o LIE II 0 103 102 107 1 10 102 103 102 107 1 10 EU STU TEE LL BUM TT T TTL 4 l a Live b Neutral Fig 11 Conducted emission performance 60 aaa 012766 60 aaa 012767 noise level noise level dBus m dBus m 0 300 200 300 f MHz f MHz a Horizontal b Vertical Fig 12 Radiated emission performance UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 11 of 21 NXP Semiconductors UM1 071 4 T Protections SSL5301DB1213 flyback LED driver UM10714 The IC incorporates the following protections UnderVoltage LockOut UVLO OverCurrent Protection OCP Brownout protection Output Short Protection OSP Output open OverVoltage Protection OVP Internal OverTemperature Protection OTP Mains synchronization loss protection Leading Edge Blanking LEB Bleeder dissipation protection Output open OVP is a latched protection Power off cycling is required to exit the
20. sformer has been designed to comply with the following requirements as defined by IEC60950 1 Reinforced insulation for a primary circuit at a 400 V DC working voltage 13 Abbreviations Table 4 Abbreviations Acronym Description EMI ElectroMagnetic Interference LE Leading Edge LED Light Emitting Diode PF Power Factor SSL Solid State Lighting TE Trailing Edge 14 References 1 SSL5301 data sheet Mains dimmable controller for LED lighting 2 AN11533 application note SSL5301 driver for mains dimmable LED applications UM10714 All information provided in this document is subject to legal disclaimers NXP Semiconductors N V 2014 All rights reserved User manual Rev 1 4 June 2014 19 of 21 NXP Semiconductors UM10714 15 Legal information SSL5301DB1213 flyback LED driver 15 1 Definitions Draft The document is a draft version only The content is still under internal review and subject to formal approval which may result in modifications or additions NXP Semiconductors does not give any representations or warranties as to the accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information 15 2 Disclaimers Limited warranty and liability Information in this document is believed to be accurate and reliable However NXP Semiconductors does not give any representations
21. ss interruption loss of use loss of data or information and the like arising out the use of or inability to use the product whether or not based on tort including negligence strict liability breach of contract breach of warranty or any other theory even if advised of the possibility of such damages Notwithstanding any damages that customer might incur for any reason whatsoever including without limitation all damages referenced above and all direct or general damages the entire liability of NXP Semiconductors its affiliates and their suppliers and customer s exclusive remedy for all of the foregoing shall be limited to actual damages incurred by customer based on reasonable reliance up to the greater of the amount actually paid by customer for the product or five dollars US 5 00 The foregoing limitations exclusions and disclaimers shall apply to the maximum extent permitted by applicable law even if any remedy fails of its essential purpose Safety of high voltage evaluation products The non insulated high voltages that are present when operating this product constitute a risk of electric shock personal injury death and or ignition of fire This product is intended for evaluation purposes only It shall be operated in a designated test area by personnel that is qualified according to local requirements and labor laws to work with non insulated mains voltages and high voltage circuits The product does not comply with IEC
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