SSL3252 Photo flash LED driver
Contents
1. TA SSL3252 BUS Photo flash LED driver Rev 1 7 July 2011 Product data sheet 1 General description The SSL3252 is a photo flash LED driver designed for battery operated mobile devices such as mobile phones and PDAs The boost converter delivers high performance and drives a single or dual high brightness LED at up to 500 mA with over 85 efficiency The driver can be programmed to operate in Flash mode Torch mode Assist light mode or Indicator mode The small silicon size and the high internal switching frequency of 2 MHz minimize the size of the application and make the SSL3252 very suitable for mobile phones where space is limited and only requiring three external components System protection has been a very important part of the SSL3252 design so a time out function can be programmed to prevent overstressing the LED and the driver itself is protected from overheating 2 Features and benefits High power single or dual LED output driving up to 500 mA flash current Separate indicator LED output of 2 5 mA to 10 mA High side current source for main and indicator LEDs Output voltage of up to 8 85 V Wide input voltage ranging from 2 5 V to 5 5 V High efficiency of over 85 at optimum output current Switching frequency of 2 MHz Flash mode Assist light mode Torch mode and Indicator mode are supported Internally timed flash operation up to 850 ms 12 C bus programmable up to 400 kHz St2. 7 July 2011 28 of 30 NXP Semiconductors SSL3252 Non automotive qualified products Unless this data sheet expressly states that this specific NXP Semiconductors product is automotive qualified the product is not suitable for automotive use It is neither qualified nor tested in accordance with automotive testing or application requirements NXP Semiconductors accepts no liability for inclusion and or use of non automotive qualified products in automotive equipment or applications In the event that customer uses the product for design in and use in automotive applications to automotive specifications and standards customer a shall use the product without NXP Semiconductors warranty of the product for such automotive applications use and specifications and b whenever customer uses the product for automotive applications beyond NXP Semiconductors specifications such use shall be solely at customer s 17 Contact information Photo flash LED driver own risk and c customer fully indemnifies NXP Semiconductors for any liability damages or failed product claims resulting from customer design and use of the product for automotive applications beyond NXP Semiconductors standard warranty and NXP Semiconductors product specifications 16 4 Trademarks Notice All referenced brands product names service names and trademarks are the property of their respective owners 2C bus logo is a trademark of NXP B
3. n0eee nee eS Protection circuits 05 Time out protection 22 Overtemperature protection Overvoltage protection Short circuit protection Broken coil detection Indicator output protection Undervoltage lockout Soft ramp up ramp down of LED current Peak current limit 5 Start up sequence 20000 LED detection 2 0005 I2C bus protocol 0 0 00 eee Addressing 00 c eee eee eee Data ih ocsseie oie e bk oboe bb eb boned Register map Limiting values 000 e eee eee Thermal characteristics Characteristics 00 00eeeeeeee Application information Input capacitor 0 eee eee Output capacitor 200005 IndUCtOr ecesas heed eee eee ee rassi ei PCB JayOUte vie cs ether se en e8 12 13 13 1 13 2 13 3 13 3 1 13 3 2 13 3 3 13 3 4 14 15 16 16 1 16 2 16 3 16 4 17 18 Package outline 00 e eee ee eee 24 Soldering of WLCSP packages 25 Introduction to soldering WLCSP packages 25 Board mounting 0 ee eee 25 Reflow soldering 20 000 25 Stand Offi ce ce era naes eae eaa a E eee 26 Quality of solder joint 26 ReWOIK esasa gae ba mora n anaa a aoaiga aia i 26 Clea iNg 2 2 eeene tae eb eae sade ees sa 27 Abbre
4. 30 NXP Semiconductors SS L3252 Photo flash LED driver 7 Functional description SSL3252 7 1 7 2 Introduction The SSL3252 is a boost converter intended to drive either a single high power flash LED or two high power flash LEDs in series The LED current is controlled by the output voltage of the boost converter and the integrated linear current source The SSL3252 has two interface modes and six operational modes The interface mode is selected by the interface select pin IF_SEL Depending on the Interface mode selected the device can either be controlled by an 1 C bus interface or external enable lines The interface modes are e 2C mode e Direct enable mode The operational modes are e Standby mode e Shut down mode e Flash mode e Torch mode e Assist light mode e Indicator mode In all LED modes to ensure a constant switching frequency the regulated converter employs Pulse Width Modulation PWM In applications where the required LED voltage is lower than the applied input voltage the converter switches to linear mode The excess voltage difference between the required LED voltage and input voltage is now compensated by increasing the voltage over the linear current source and therefore on the LED pin Apart from the main LED s a separate indicator LED can be driven from the SSL3252 This is driven by a linear current source circuit that operates independent of the switch mode converter for the ma
5. e START STOP condition condition 014aaa305 Fig 5 Switching between Standby mode and Shut down mode All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 7 of 30 NXP Semiconductors SS L3252 Photo flash LED driver 7 3 4 Torch mode SSL3252 The Torch mode allows the main LED to be switched on at a lower LED current setting without timing limitations Torch mode can be selected by connecting pin TORCH to HIGH Pin TORCH is a debounced input This allows the pin to be directly connected to a mechanical switch The debouncing circuit is active during both the LOW to HIGH and the HIGH to LOW transitions It uses a time constant of typically 9 ms The main LEDs will light to the set torch current level The TORCH pin has an internal 350 kQ pull down resistor In 12C mode the LED current is defined by bits D 2 0 in the current set register The torch current can be set between 20 mA and 160 mA The same bits are also used for Assist light mode For details see Table 5 and Figure 4 When using the Direct enable mode the default torch current values are used When only one LED is used the torch current will be set to a default level of 80 mA For two LEDs this value is 40 mA The EN1 and EN2 signals have higher priority than the TORCH pin signal For details see Table 4 and Figure 3 Figure 6 shows the current reg
6. rights reserved Product data sheet Rev 1 7 July 2011 23 of 30 NXP Semiconductors SSL3252 12 Package outline Photo flash LED driver WLCSP12 wafer level chip size package 12 bumps 1 58 x 2 06 x 0 6 mm SSL3252UK i D B A A 4 bump A1 index area E A t detail X Y o pte aee be amp vv cla 6 9 w C ry D yt e c 1 t Tez 1 2 e B ry A Y 7 1 emm scale DIMENSIONS mm are the controlling dimensions UT A ay Alb D E e e e viwt y max 0 26 0 38 0 34 1 60 2 08 mm 0 64 0 22 0 34 0 30 1 55 2 03 0 5 1 1 5 0 01 0 04 0 02 OUTLINE REFERENCES EUROPEAN VERSION IEC JEDEC JEITA PROJECTION ISSUE DATE SSL3252UK O he Fig 17 Package outline SSL3252UK WLCSP12 SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 24 of 30 NXP Semiconductors SS L3252 Photo flash LED driver 13 Soldering of WLCSP packages 13 1 13 2 13 3 SSL3252 Introduction to soldering WLCSP packages This text provides a very brief insight into a complex technology A
7. temperature C Volume mm lt 350 350 to 2000 gt 2000 lt 1 6 260 260 260 1 6 to 2 5 260 250 245 gt 2 5 250 245 245 Moisture sensitivity precautions as indicated on the packing must be respected at all times Studies have shown that small packages reach higher temperatures during reflow soldering see Figure 18 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 25 of 30 NXP Semiconductors SS L3252 13 3 1 13 3 2 13 3 3 SSL3252 Photo flash LED driver maximum peak temperature MSL limit damage level temperature minimum peak temperature minimum soldering temperature peak temperature time 001aac844 MSL Moisture Sensitivity Level Fig 18 Temperature profiles for large and small components For further information on temperature profiles refer to application note AN10365 Surface mount reflow soldering description Stand off The stand off between the substrate and the chip is determined by e The amount of printed solder on the substrate e The size of the solder land on the substrate e The bump height on the chip The higher the stand off the better the stresses are released due to TEC Thermal Expansion Coefficient differences between substrate and chip Quality of solder joint A flip chip joint is conside
8. to ambient 4 layer PCB in free airl 1 The junction to ambient thermal resistance is dependent on board layout PCB material application and environmental conditions SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 19 of 30 NXP Semiconductors SSL3252 10 Characteristics Photo flash LED driver Table 9 Characteristics Vi 2 7 V to 5 5 V Tamp 40 C to 85 C unless otherwise specified Symbol Parameter General voltage levels Vi input voltage Vi extnay vin extended input voltage on pin VIN Vi UVLO undervoltage lockout input voltage Vhys uvLo undervoltage lockout hysteresis voltage Vih threshold voltage General current levels Ist standby current Isa shutdown current limtr imy Lx peak current limiter current on pin LX High power LED parameters Vo LED LED output voltage Vor headroom voltage ILED LED current AlLep LED current variation Vovovp overvoltage protection output voltage Indicator LED parameters li IND current on pin I_IND VLIND voltage on pin I_IND Ali IND current variation on pin I_IND SSL3252 All information provided in this document is subject to legal disclaimers Conditions pin VIN V falling V rising on pin LED for single and dual LED detection no offset register value 00 Standby and Fault modes Shut down mode in
9. 0 1 Torch Fixed value 40 mA dual LEDs 80 mA single LED 0 0 1 x Assist light Fixed value 40 mA dual LEDs 80 mA single LED 0 1 0 x Indicator Fixed value 2 5 mA 0 1 1 xil Flash Fixed value 320 mA dual LEDs 500 mA single LED 1 X Don t care SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 5 of 30 NXP Semiconductors SS L3252 Photo flash LED driver 7 2 2 Using the I C control Using the 12C interface mode enables additional features and settings as described in the 12C register set Table 6 The definition of the control pins is given in Table 5 Figure 4 shows the typical transitions between the various modes The device cannot enter Shut down mode when in IC mode The lowest power consumption can be achieved in Standby mode When using I C the device can still be put in Shut down mode by first making all control pins LOW SDA SCL TORCH 0 and then going to Direct enable Shut down mode by making IF_SEL LOW Flash without strobe Flash with edge sensitive strobe Shut down mode Flash with level sensitive strobe Standby mode Indicator mode Assist light mode 014aaa304 Fig 4 12C mode typical transitions Table 5 1 C logic definition IF_SEL Torch mode Output ON Output Output TORCH Mode Output states pin
10. 2 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 18 of 30 NXP Semiconductors SS L3252 Photo flash LED driver 8 Limiting values Table 7 Limiting values In accordance with the Absolute Maximum Rating System IEC 60134 Symbol Parameter Conditions Min Max Unit VI input voltage on pin VIN 0 5 5 5 V VSDA_EN2 voltage on pin SDA EN2 0 5 Vi V VSCL_EN1 voltage on pin SCL EN1 0 5 VI V VstrB_2LED Voltage on pin STRB 2LED 0 5 Vi V VIF_SEL voltage on pin IF_SEL 0 5 Vi V VTORCH voltage on pin TORCH 0 5 Vi V VLIND voltage on pin I_IND 0 5 VI V Vo LED LED output voltage pin LED 0 5 1014 V Vo output voltage pin VO 0 5 101 V Vix voltage on pin LX 0 5 101 V Piot total power dissipation Tamb 85 C 0 8 Ww Tj junction temperature 40 150 C Tamb ambient temperature 40 85 C Tstg storage temperature IC 55 150 C Vesp electrostatic discharge human body model 2000 V voltage according to JESD22 A114 E charged device 500 V model according to JESD22 C101 A 1 Tolerant to the specified maximum voltage while operating Do not apply voltages externally this may cause permanent damage to the device 9 Thermal characteristics Table 8 Thermal characteristics Symbol Parameter Conditions Typ Unit Rth a thermal resistance from junction mounted on dedicated 83 K W
11. 7 V assuming the device is not in undervoltage lockout mode 3 When operating in Direct enable mode the device will apply a default current setting See Section 7 3 for details The pin IF_SEL should then be connected to GND SSL3252 All information provided in this document is subject to legal disclaimers Rev 1 7 July 2011 NXP B V 2011 All rights reserved 21 of 30 Product data sheet NXP Semiconductors SS L3252 Photo flash LED driver 11 Application information 11 1 11 3 SSL3252 Input capacitor For good input voltage decoupling a low ESR ceramic capacitor is highly recommended A 4 7 uF X5R X7R 6 3 V is the minimum recommended value Since the input capacitor is supplying the input ripple current a larger capacitor will improve both the transient behavior of the regulator and the EMI behavior of the power supply Taking capacitor DC bias and temperature de rating specifications into account a 10 uF X5R X7R is preferred Although increasing component count a smaller capacitor of 100 nF X5R X7R placed in parallel to the input capacitor will also improve EMI behavior Output capacitor The output capacitor supplies the current into the main LED while the inductor is being charged and it also ensures loop stability The minimum capacitance for stable loop operation would be 4 7 uF but taking capacitor DC bias and temperature de rating specifications into account a low ESR ceramic ca
12. Direct enable mode the 2LED function of the STRB 2LED pin is used to indicate the number of detected LEDs The STRB 2LED pin is an open drain output pin in Direct enable mode with a maximum sink current of 1 mA The 2LED function of the STRB 2LED pin will only signal the number of LEDs in Flash mode The signal on the 2LED function of the STRB 2LED pin will be active during the flash period from the moment of the detection 80 mA LED current until the moment the LED current is back to 0 mA In all other operating modes the 2LED function of the STRB 2LED pin will be high impedance In I2C mode LED detection can be disabled by setting bit D3 in the current set register to 0 In this case the number of LEDs can only be set via the I2C bus by writing the required value to bit 3 from the fault and info register which results in the corresponding default currents being set When operating in Assist light mode or Torch mode and with the LED detection enabled the LED output will always first ramp up to 80 mA and then ramp up or ramp down to the value set by the current register I2C bus protocol The 12C interface is a 2 wire serial interface developed by NXP Semiconductors to communicate between different ICs or modules The two wires are a Serial DAta line SDA and a Serial Clock Line SCL Both lines must be connected to a positive supply via a pull up resistor when connected to the output stages of a device Data transfer may only be initiated w
13. Document status I 2 Product status 3 Definition Objective short data sheet Development Preliminary short data sheet Qualification Product short data sheet Production This document contains data from the objective specification for product development This document contains data from the preliminary specification This document contains the product specification 1 Please consult the most recently issued document before initiating or completing a design 2 The term short data sheet is explained in section Definitions 3 The product status of device s described in this document may have changed since this document was published and may differ in case of multiple devices The latest product status information is available on the Internet at URL http www nxp com 16 2 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 Short data sheet A short data sheet is an extract from a full data sheet with the same product type number s and title A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information Fo
14. H to enter Assist light mode see Table 4 Figure 6 shows the current register setting for the Assist light 7 3 6 Flash mode The Flash mode allows the main LEDs to be used at high current settings The Flash mode current can be set to up to 500 mA in both the I2C mode and Direct enable mode In 2C mode the current is defined by bits D 7 4 in the current set register When two LEDs are used and the register is set for more than 400 mA the maximum current is clipped to 400 mA Generating the Flash mode can be done in the following three ways e software controlled e edge sensitive strobe e level sensitive strobe When using the I2C software controlled flash the bits in the control register D 1 0 11 D2 0 and D3 1 must be set and the timing of the flash is determined by the value of the bits D 3 0 in the indicator timer register Figure 7 shows the software controlled flash operation 12C command SDA SCL output on bit D3 register 04h e f 014aaa655 Fig 7 12C Flash mode The strobe signal coming directly from the host or camera processor can be used to avoid I C latency for the flash To select Strobe flash mode bit D2 in the control register must be set to 1 In 2C mode the STRB function of the STRB 2LED pin has an internal SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 9
15. L is HIGH and the outputs are not active In Standby mode part of the internal circuitry of the device remains on but the converter is not switching To avoid current leakage into the LED the current source circuitry for both the main LED and the indicator LED are switched to high impedance In this mode 12C communication with the device is possible Switching between Standby mode and Shut down mode When using the 12C interface the lowest power mode is the Standby mode To further reduce the power switching to Direct enable mode allows the device to enter Shut down mode When switching to and from the Direct enable interface the 12C lines have to be switched LOW to avoid that they are interpreted as EN1 and EN2 When IF_SEL is switched HIGH the 12C lines may still be LOW After the SDA lines and the SCL lines have become HIGH the bus free time has to be respected as is specified in the 1 C bus timing specifications C communication cannot be started until at least 350 us after the IF_SEL line is switched HIGH When switching from Standby mode to Shut down mode the 12C lines need to be set LOW before the IF_SEL line is set LOW or at least within 5 us after that to avoid the 12C levels being interpreted as EN1 and EN2 which may cause the LEDs to be lit Shut down Torch mode Shut down minimum IF_SEL Torch mode 12C mode Standby mode reas E maximum SDA EN2 5 us SCL EN1
16. V For more information please visit http www nxp com For sales office addresses please send an email to salesaddresses nxp com SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 29 of 30 NXP Semiconductors SSL3252 18 Contents Photo flash LED driver oahwN 6 1 7 1 7 2 7 2 1 7 2 2 7 3 7 3 1 7 3 2 7 3 3 7 3 4 7 3 5 7 3 6 7 3 7 7 4 7 4 1 7 4 2 7 4 3 7 4 4 7 4 5 7 4 6 7 4 7 7 5 7 6 7 7 7 8 7 9 7 9 1 7 9 2 7 9 3 10 11 11 1 11 2 11 3 11 4 General description 000e000s Features and benefits Applications 0 0 00 00 cece ee eee Ordering information 0 0 0005 Block diagram 00002e eee eens Pinning information 00ee eee PINNING 3 sies kde eee ee Yee eae Pin description 0 0 0000005 Functional description Introduction 2000000 cee eee Interface modes 0 2200055 Using the direct enable control Using the IPC control 00 00 Operational modes 00005 Shut down mode Standby mode 0000e ee eaee Switching between Standby mode and Shut down mode 05 55 Torch mode 2000 eee eee eee Assist light mode FIASNIMOdG i256 dais doers eek Indicator 60 4000 0400 8
17. arefully cleaned and all solder and flux residues and or underfill removed When a new chip is placed on the substrate use the flux process instead of solder on the solder lands Apply flux on the bumps at the chip side as well as on the solder pads on the substrate Place and align the new chip while viewing with a microscope To reflow the solder use the solder profile shown in application note AN10365 Surface mount reflow soldering description Cleaning Cleaning can be done after reflow soldering 14 Abbreviations Table 11 Abbreviations Abbreviation Description EMI ElectroMagnetic Interference ESR Equivalent Series Resistance IC Integrated Circuit VO Input Output LED Light Emitting Diode MOSFET Metal Oxide Semiconductor Field Effect Transistor NMOS N type Metal Oxide Semiconductor PCB Printed Circuit Board PDA Personal Digital Assistant PMOS P type Metal Oxide Semiconductor POR Power On Reset PWM Pulse Width Modulation RF Radio Frequency 15 Revision history Table 12 Revision history Document ID Release date Data sheet status Change notice Supersedes SSL3252 v 1 20110707 Product data sheet SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 27 of 30 NXP Semiconductors SSL3252 16 Legal information Photo flash LED driver 16 1 Data sheet status
18. bit D4 bit D3 mode mode pin Reg 04h Reg 04h bit D1 bit DO Reg 04h Reg 04h 1 X 0 X X 0 Standby Outputs disabled standby current 1 X 1 X 1 X less than 10 uA X 0 0 1 Torch Depends on the register value between 20 mA and 160 mA TORCH signal triggers this mode only if the registers allow it 1 1 0 X Assist light Depends on the register value between 20 mA and 160 mA 1 0 1 X Indicator Depends on the register value between 2 5 mA and 10 mA 1 1 1 X Flash Depends on the register value between 200 mA and 500 mA fora single LED and 200 mA to 400 mA for dual LEDs SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 6 of 30 NXP Semiconductors SS L3252 7 3 7 3 1 7 3 2 7 3 3 SSL3252 Photo flash LED driver Operational modes Shut down mode To enter the Shut down mode all control pins IF_SEL EN1 function of SCL EN1 EN2 function of SDA EN2 and TORCH must be LOW In this mode the internal circuitry of the device is turned off to guarantee a shut down current of less than 1 uA The PMOS switch of the converter is conducting and the NMOS is set to high impedance To avoid current leakage into the LED the current source circuitry for both the main LED and the indicator LED are switched to high impedance Standby mode The device only enters Standby mode in 12C mode when pin IF_SE
19. cknowledge from slave to master N Not Acknowledged 014aaa317 Fig 15 I C read data transfer format 7 9 1 Addressing SSL3252 Each SSL3252 in an C bus system is activated by sending a valid slave address to the device The slave address always has to be sent as the first byte after the START condition in the I C bus protocol See Figure 16 MSB LSB eli foto el Ye 014aaa318 Fig 16 1 C slave address All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 16 of 30 NXP Semiconductors SSL3252 Photo flash LED driver There is one address byte required since 7 bit addresses are used The last bit of the address byte is the read write bit and should always be set according to the required operation This 7 bit address is 0110 000b 30h The combination with the LSB R W bit gives a write address of 60h and a read address of 61h The second byte sent to the SSL3252 is the subaddress of the specific register 7 9 2 Data After the subaddress the data bytes are sent The definition of the data transfer is given in Figure 14 and Figure 15 After each data byte an acknowledge is given and the subaddress is automatically incremented to the next subaddress A description of the data that can be programmed in the registers is given in Table 6 7 9 3 Register map Table 6 Descrip
20. d SDA EN2 pins Table 4 The LED will stay lit in Flash mode for as long as the enable pins are set to Flash mode but limited to a maximum of 850 ms by the time out timer Figure 10 shows the current levels for the flash in both the 12C and the Direct enable use case More details on flash timing are given in Section 7 4 1 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 10 of 30 NXP Semiconductors SS L3252 Photo flash LED driver ILED mA 500 480 440 400 360 320 280 240 200 register 012345678 9101112131415 value 014aaa308 1 12C level for one LED 2 Direct enable default level for one LED 3 12C maximum level for two LEDs 4 Direct enable default level for two LEDs Fig 10 Flash mode LED current levels 7 3 7 Indicator The indicator LED is connected between the dedicated indicator LED current output pin LIND and GND Internally a linear current source controls the indicator LED current to the required current level In 12C interface mode the indicator LED current can be set between 2 5 mA and 10 mA by bits D 7 6 of the indicator timer register When using the Direct enable mode the indicator current is set to a default level of 2 5 mA Figure 11 shows the LED current levels for the indicator in both t
21. d to the EN1 and EN2 functions of the SCL EN1 and SDA EN2 pins only in Direct enable mode Fig 1 Block diagram SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 2 of 30 NXP Semiconductors SSL3252 6 Pinning information Photo flash LED driver 6 1 Pinning Bump A1 SSL3252UK C2 Index area 1 2 3 Transparent top view 002aag318 Fig 2 Pin configuration 6 2 Pin description Table 2 Pin description Symbol Pin Type Description PGND Al ground power ground GND A2 ground signal ground VIN A3 input input voltage LX B1 analog input inductor connection TORCH B2 input Torch mode activate IIND B3 analog output indicator LED current source VO C1 analog output output voltage STRB 2LED C2 input output I O strobe signal input to trigger flash in I C mode 2LED signal output in Direct enable mode open drain IF_SEL C3 input interface select choose between Direct enable mode or 12C mode LED D1 analog output main LED current source SDA EN2 D2 input output I O serial data line in 12C mode enable 2 in Direct enable mode SCL EN1 D3 input serial clock line in I2C mode enable 1 in Direct enable mode SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 3 of
22. ductor peak current limiter register value 00 register value 01 register value 10 register value 11 pin LED short circuit protection level on pin LED current source headroom voltage Vir Vo Viep in Boost mode Vi 3 6 V pin LED 12C mode single LED pin LED 12C mode dual LED from 20 mA to 180 mA from 200 mA to 500 mA pin VO IF_SEL 1 12C mode IF_SEL 0 Direct enable mode open circuit protection level at pin IIND short circuit protection level at pin IIND 2 Min 2 7 2 5 2 3 50 4 25 1 125 1 35 1 575 1 8 2 8 20 20 Typ Max Unit 5 5 V 5 5 V 2 4 2 5 V 100 150 mV 4 35 4 45 V 10 uA 1 uA 1 25 1 375 A 1 5 1 65 A 1 75 1 925 A 2 0 2 2 A 8 5 V 1 2 V 300 mV 500 mA 400 mA z 20 2 10 9 5 10 V 10 mA 2 5 mA z 1 25 mA z Vi 0 01 V 1 2 V 20 NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 20 of 30 NXP Semiconductors SSL3252 Photo flash LED driver Table 9 Characteristics continued Vi 2 7 V to 5 5 V Tamp 40 C to 85 C unless otherwise specified Symbol Parameter Conditions Min Typ Max Unit Power MOSFETs Rpson drain source on state NMOS 240 mo resistance PMOS _ 400 3 mo Timing fsw switching frequency 1 85 2 0 2 15 MHz tto time out time Flash mode the absolute value can 850 ms be set with 12C Atto time out time variation 7 5 tstart soft sof
23. he 12C and the Direct enable use case SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 11 of 30 NXP Semiconductors SS L3252 Photo flash LED driver Direct enable re register 0 1 2 3 value 014aaa309 Fig 11 Indicator LED current levels 7 4 Protection circuits There are several integrated protection circuits that protect the device and the application against defects Some of the protection circuits trigger the corresponding bit in the fault and info register In 2C mode the external logic can read out the status of the protection circuits to determine what fault has occurred and decide on the proper action to take In Direct enable mode the status register cannot be read out but the protection circuits are still functional In 12C mode the faults are cleared automatically by reading the fault and info register In Direct enable mode the faults are cleared when the EN1 function of SCL EN1 EN2 function of SCL EN2 and TORCH pins are set to LOW 7 4 1 Time out protection A time out protection function is used to avoid main LED overloading during flash The timer is started when the Flash mode is activated by the software or by hardware strobe signals in 12C mode or by the signals EN1 and EN2 in Direct enable mode The time out protection is active in I2C level sensit
24. hen the bus is not busy The SSL3252 C bus characteristic is the 400 kbit s Fast mode 2C bus from the I2C bus specification All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 15 of 30 NXP Semiconductors SS L3252 Photo flash LED driver Remark For more details on the I C bus standard refer to the document UM10204 I C bus specification and user manual www nxp com documents user_manual UM10204 pdf The following text describes the protocols used by the SSL3252 for the read and write sequences The read sequence may use a repeated START condition during the sequence to stop the bus being released during the communication The sequences can be used to read or write only one data byte or to read or write a sequence of data bytes After a START condition a valid hardware address must be sent to the SSL3252 followed by a subaddress and n data bytes See Figure 14 and Figure 15 below For the format and the timing of the START condition S the STOP condition P and the Acknowledge bit A refer to the user manual UM10204 B eer TI from master to slave S START condition P STOP condition A Acknowledge from slave to master N Not Acknowledged 014aaa316 Fig 14 1 C write data transfer format e aan from master to slave S START condition P STOP condition A A
25. ically 2 0 V all registers are set to their reset state After the registers are set the device enters Standby mode and waits for 12C commands If the Direct enable mode is selected IF_SEL is low POR is detected and pins EN1 function of SCL EN1 EN2 function of SDA EN2 and TORCH are set to LOW the device will stay in Shut down mode When activity is detected on one of the control pins EN1 function of SCL EN1 EN2 function of SDA EN2 or TORCH the SSL3252 will start to operate using the default settings When the activity ends all control pins are LOW the device will go back to Shut down mode LED detection There is an internal circuit integrated into the SSL3252 which is capable of detecting the number of LEDs connected in series to the LED output and automatically selecting the right default current settings The number of LEDs is detected every time the LED is ramping up At an LED current of 80 mA the voltage at the LED output is compared to the reference level of 4 35 V plus the offset set by bits D 5 4 in the indicator timer register If the measured voltage is higher than the reference level this is interpreted as two LEDs connected in series at the LED pin and the device changes all current settings to the dual LED default value If the voltage is lower than the reference level the single LED current settings are selected In I2C mode bit D3 in the fault and info register is set according to the detected amount of LEDs In
26. ill 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 NXP Semiconductors 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 Limiting values Stress above one or more limiting values as defined in the Absolute Maximum Ratings System of IEC 60134 will cause permanent damage to the device Limiting values are
27. ill be triggered when there is no LED connected to LED pin open or no capacitor connected to VO pin open If the overvoltage protection is triggered the fault and info register is set accordingly to flag a fault condition Short circuit protection The output is short circuit protected to avoid device and battery overloading If the LED is shorted to GND voltage on LED drops below 1 2 V due to a main LED or application failure the SSL3252 will stop switching and enter Fault mode If the short circuit protection is triggered the fault and info register is set accordingly to flag a fault condition Broken coil detection To avoid device and battery overloading from high peak currents the device is equipped with broken coil peak current protection This protection will be triggered when the core of the coil is broken and the inductance of the coil drops below 800 nH 25 The broken coil detection is done at the beginning of the ramp up of the LED current In case of broken coil detection the SSL3252 will stop switching and go in Fault mode If the broken coil protection is triggered the fault and info register is set accordingly to flag a fault condition Indicator output protection The _IND output is short circuit and open circuit protected to detect the fault condition In case _IND is shorted Vi np is less than 1 2 V to GND or open I_IND current is lower than 1 25 mA the SSL3252 will only stop the indicator LED cur
28. in LED s Interface modes The device is equipped with two interfaces I C and Direct enable Which interface mode is used is defined by the level of the IF_SEL pin Table 3 describes the interface possibilities Table 3 Interface modes IF_SEL Interface mode Relevant controls 1 12C mode SDA SCL STRB 2LED TORCH 0 Direct enable mode EN1 EN2 TORCH All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 4 of 30 NXP Semiconductors SS L3252 Photo flash LED driver 7 2 1 Using the direct enable control When the Direct enable mode is used the device can be switched to the various operational modes using the TORCH EN1 and EN2 control signals The definitions of these control signals are given in Table 4 The EN1 and EN2 functions of the SCL EN1 and SDA EN2 pins have a higher priority than the pin TORCH Figure 3 shows all the possible transitions between the various interface modes The device is in Shut down mode when all control pins IF_SEL EN1 EN2 TORCH are LOW Shut down mode Indicator mode Assist light mode 014aaa303 Fig 3 Direct enable mode transitions Table 4 Direct enable logic definition IF_SEL SCL SDA TORCH Mode Output states pin EN1 EN2 pin pin pin 0 0 0 0 Shut down Outputs disabled shut down current less than 1 pA 0 0
29. ister setting for the torch ILED mA A 160 140 120 100 80 60 40 20 register a oo 1 2 3 4 5 6 7 value 014aaa306 1 12C level 2 Direct enable level one LED 3 Direct enable level two LEDs Fig 6 Torch and Assist light LED current levels All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 8 of 30 NXP Semiconductors SS L3252 Photo flash LED driver 7 3 5 Assist light mode The Assist light mode allows the main LED to be switched on at a lower LED current setting without any timing limitations The Assist light mode can be selected in both 12C and Direct enable modes In I2C mode the LED current is defined by bits D 2 0 in the current set register The Assist light current value can be set between 20 mA and 160 mA The same bits are also used for Torch mode Entering Assist light mode is possible if bits D 1 0 from the control register are set to 10 and bit D3 from the same register is set to 1 When using the Direct enable mode the default Assist light current values are used When only one LED is used the Assist light current will be set to a default level of 80 mA For two LEDs this value is 40 mA The state of the EN1 function of the SCL EN1 pin must be LOW and the state of the EN2 function of the SDA EN2 pin HIG
30. ive strobe Flash and Direct enable modes When using 12C level sensitive strobe Flash mode the time out protection is triggered when the STRB signal is active longer than the time set by the flash timer bits in indicator timer register In Direct enable mode the default time limit is used as a trigger for this protection If the EN1 EN2 signals are active HIGH longer than the default limit of 850 ms the time out protection is triggered In case of a time out fault the IC will stop switching and go into Fault mode The fault and info register is set accordingly to flag a fault condition SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 12 of 30 NXP Semiconductors SS L3252 7 4 2 7 4 3 7 4 4 7 4 5 7 4 6 7 4 7 SSL3252 Photo flash LED driver Overtemperature protection If the chip temperature exceeds its limit Totp see Table 9 the SSL3252 will stop switching and enter Fault mode When an overtemperature situation is encountered the fault and info register is set accordingly to flag a fault condition If the chip temperature drops below the Totp hys level and the fault register is cleared the SSL3252 can operate normally Overvoltage protection If the output voltage Vo exceeds its limit Vovovp see Table 9 the SSL3252 will stop switching and enter Fault mode Overvoltage protection w
31. more in depth account of soldering WLCSP Wafer Level Chip Size Packages can be found in application note AN10439 Wafer Level Chip Scale Package and in application note AN10365 Surface mount reflow soldering description Wave soldering is not suitable for this package All NXP WLCSP packages are lead free Board mounting Board mounting of a WLCSP requires several steps 1 Solder paste printing on the PCB 2 Component placement with a pick and place machine 3 The reflow soldering itself Reflow soldering Key characteristics in reflow soldering are e Lead free versus SnPb soldering note that a lead free reflow process usually leads to higher minimum peak temperatures see Figure 18 than a PbSn process thus reducing the process window Solder paste printing issues such as smearing release and adjusting the process window for a mix of large and small components on one board Reflow temperature profile this profile includes preheat reflow in which the board is heated to the peak temperature and cooling down It is imperative that the peak temperature is high enough for the solder to make reliable solder joints a solder paste characteristic while being low enough that the packages and or boards are not damaged The peak temperature of the package depends on package thickness and volume and is classified in accordance with Table 10 Table 10 Lead free process from J STD 020C Package thickness mm Package reflow
32. ng each state there will be a current loop made by the power components that are conducting The input and output capacitors must be arranged in such a way on the SSL3252 that during each of the two states the current loop is conducting in the same direction This prevents phase reversal of the magnetic field and reduces radiated EMI The current loop area should be kept small by placing the power components as close as possible to the SSL3252 Use ground planes to keep the loop areas to a minimum All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 22 of 30 NXP Semiconductors SS L3252 SSL3252 Photo flash LED driver Priority should be given for the output capacitor to be positioned as close as possible to the VO and PGND nodes of the SSL3252 Since large currents will flow from input capacitor to the inductor and not to the VIN pin of the SSL3252 it is wise to locate the input capacitor near the inductor The VIN pin should be star connected to the positive pad of the input capacitor PGND and GND of the SSL3252 should be directly connected to each other Place the ground connection of the output capacitor as close as possible to the PGND pin of the SSL3252 The preferred minimum trace width for the high current width is 15 mm A All information provided in this document is subject to legal disclaimers NXP B V 2011 All
33. of 30 NXP Semiconductors SS L3252 SSL3252 Photo flash LED driver pull down resistor of 350 kQ and can be either level sensitive or edge sensitive depending on the value of the bit D5 in the control register 0 edge sensitive 1 level sensitive When using the level sensitive strobe the flash operates as long as the strobe signal is active or until the time limit set by the flash timer bits in the indicator timer register is reached This will generate time out fault Figure 8 shows the level sensitive strobe flash operation output on bit D3 register 04h STRB ef 014aaa656 Fig 8 Level sensitive strobe When the edge sensitive strobe signal is used the flash is activated at the positive edge of the STRB function of the STRB 2LED pin and the flash operation time will be defined from the timer register value Figure 9 shows the edge sensitive strobe flash operation output on bit D3 register 04h STRB ufo 014aaa654 Fig 9 Edge sensitive strobe After the flash pulse in all three flash modes the output ON bit is automatically cleared In Direct enable mode the flash current will be set to a default level When only one LED is used the flash current will be set to a default level of 500 mA For two LEDs this value is 320 mA Entering Flash mode in Direct enable mode can be done by switching the level to HIGH on both the EN1 and EN2 functions of the SCL EN1 an
34. orch mode Assist light mode or Flash mode when switching back to Standby mode or Shut down mode or just going from one current mode to another e g Torch mode to Flash mode the soft start circuit will slowly increase or decrease the output current until the required LED current has been reached The maximum total ramp up time will be 1 ms including the 150 us wake up time for going from 0 mA to the maximum current of 500 mA and the maximum ramp down time of 770 us for going from 500 mA to 0 mA The ramp up ramp down time depends on the LED current setting shut down wake up ramp up ramp down 014aaa311 Fig 13 Maximum soft ramp up and ramp down time for 500 mA LED current 7 6 Peak current limit The device is equipped with a peak current limit function to avoid saturation of the inductor This circuit limits the peak inductor currents to the value set in the control register 04h bits D 7 6 In Direct enable mode the default current limit value is 1 75 A No protection is activated All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 14 of 30 NXP Semiconductors SS L3252 SSL3252 7 7 7 8 7 9 Photo flash LED driver Start up sequence When 12C mode is selected IF_SEL is HIGH and the voltage on the VIN pin is rising to a level higher than the Power On Reset POR value POR level is typ
35. pacitor of 10 uF X5R X7R is highly recommended A higher value of capacitance will improve output current ripple while maintaining loop stability Typically the SSL3252 overvoltage limit on pin VO is at 9 5 V and the rated voltage of the output capacitor should be at least 10 V Inductor The device has been designed to operate well with inductance values between 1 5 uH and 3 3 uH in order to optimize for solution size In a typical high current dual flash LED application a 2 2 uH inductance is recommended The inductor s saturation current should be greater than or equal to the inductor peak current limiter current which is a typical 1 75 A During normal operation it is recommended to keep the inductor peak current below this value The copper losses and magnetic hysteresis losses in the inductor also contribute to the total system losses PCB layout It is essential to have a good circuit layout in order to maximize efficiency and minimize EMI disturbance The circuit topology uses an inductor which is often seen as a main source of EMI disturbance but any loop of wire carrying a current is essentially an electromagnet whose field strength is proportional to the current Careful circuit layout is therefore very important keeping loop areas small and minimizing the magnetic flux Due to the way a boost converter operates there are two power states One state when the internal NMOS switch is ON and one when the NMOS switch is OFF Duri
36. r detailed and full information see the relevant full data sheet which is available on request via the local NXP Semiconductors sales office In case of any inconsistency or conflict with the short data sheet the full data sheet shall prevail Product specification The information and data provided in a Product data sheet shall define the specification of the product as agreed between NXP Semiconductors and its customer unless NXP Semiconductors and customer have explicitly agreed otherwise in writing In no event however shall an agreement be valid in which the NXP Semiconductors product is deemed to offer functions and qualities beyond those described in the Product data sheet 16 3 Disclaimers Limited warranty and liability Information in this document is believed to be accurate and reliable However NXP Semiconductors does not give any representations 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 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 Notwith
37. red to be a good joint when the entire solder land has been wetted by the solder from the bump The surface of the joint should be smooth and the shape symmetrical The soldered joints on a chip should be uniform Voids in the bumps after reflow can occur during the reflow process in bumps with high ratio of bump diameter to bump height i e low bumps with large diameter No failures have been found to be related to these voids Solder joint inspection after reflow can be done with X ray to monitor defects such as bridging open circuits and voids Rework In general rework is not recommended By rework we mean the process of removing the chip from the substrate and replacing it with a new chip If a chip is removed from the substrate most solder balls of the chip will be damaged In that case it is recommended not to re use the chip again All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 26 of 30 NXP Semiconductors SS L3252 13 3 4 Photo flash LED driver Device removal can be done when the substrate is heated until it is certain that all solder joints are molten The chip can then be carefully removed from the substrate without damaging the tracks and solder lands on the substrate Removing the device must be done using plastic tweezers because metal tweezers can damage the silicon The surface of the substrate should be c
38. rent source The rest of the device will remain functional If the indicator output protection is triggered the fault and info register is set accordingly to flag a fault condition Undervoltage lockout As a result of a low input voltage the input voltage can drop too low to guarantee normal operation When the input voltage has dropped below the undervoltage lockout level the device switches to Fault mode stopping the switching completely Start up in 12C mode is only possible by crossing the start up level V UvLo Vnys uvLo and if the TORCH pin is LOW see Table 9 Start up in Direct enable mode is only possible by crossing the start up level and if EN1 function of SCL EN1 EN2 function of SDA EN2 and TORCH pins are All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 13 of 30 NXP Semiconductors SSL3252 SSL3252 Photo flash LED driver LOW Recovering from this error results in the reset of all register settings This protection cannot be read out in the status register Figure 12 shows the UVLO and trigger points and hysteresis 50 mV to 150 mV VI UVLO hysteresis 2 3 ovo V 014aaa310 Fig 12 UVLO levels and hysteresis V 7 5 Soft ramp up ramp down of LED current The device is equipped with a soft ramp up ramp down circuit to avoid battery overloading When entering the T
39. robe signal to avoid 12C latency for the flash Direct enable signals for stand alone operation Forward voltage sensing to allow single dual LED detection Soft start soft stop Integrated protection circuits for enhanced system reliability Internal time out OverTemperature Protection OTP UnderVoltage LockOut UVLO OverVoltage Protection OVP Short circuit protection E Inductor peak current limit and broken coil detection Low device shut down current of less than 1 uA E Small WLCSP12 package with 500 um bump pitch NXP Semiconductors SS L3252 Photo flash LED driver 3 Applications E Photo flash LED driver for mobile phones and digital cameras m White LED driver for battery powered portable devices 4 Ordering information Table 1 Ordering information Type number Package Name Description Version SSL3252UK C2 WLCSP12 wafer level chip size package 12 bumps 1 58 x 2 06 x 0 6 mm SSL3252UK 5 Block diagram VBAT 3 22 uH 4 7 UF I PGND LINEAR I CURRENT CURRENT PGND DA EN2 SOURCE FEEDBACK a aie 2 SYNCHRONOUS source SCL EN1 FOBUS SWITCHER t INTERFACE UP CONVERTER LED one or two LEDs AND CONTROL STRB 2LED 400 kHz TORCH p sN sN N GND LGND LPGND L PGND 014aaa297 1 Pull down resistor R2 is connected to STRB 2LED pin only in 12C mode 2 Pull down resistors R3 and R4 are connecte
40. standing 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 life critical or safety critical systems or equipment nor in applications where failure or SSL3252 All information provided in this document is subject to legal disclaimers malfunction of an NXP Semiconductors product can reasonably be expected to result in personal injury death or severe property or environmental damage NXP Semiconductors accepts 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 w
41. stress ratings only and proper operation of the device at these or any other conditions above those given in the Recommended operating conditions section if present or the Characteristics sections of this document is not warranted Constant or repeated exposure to limiting values will permanently and irreversibly affect the quality and reliability of the device Terms and conditions of commercial sale NXP Semiconductors products are sold subject to the general terms and conditions of commercial sale as published at http www nxp com profile terms unless otherwise agreed in a valid written individual agreement In case an individual agreement is concluded only the terms and conditions of the respective agreement shall apply NXP Semiconductors hereby expressly objects to applying the customer s general terms and conditions with regard to the purchase of NXP Semiconductors products by customer No offer to sell or license Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance or the grant conveyance or implication of any license under any copyrights patents or other industrial or intellectual property rights 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 national authorities NXP B V 2011 All rights reserved Product data sheet Rev 1
42. t start time from Standby mode or Shut down 1000 us mode to maximum current on LED from 0 mA to 500 mA tstop soft soft stop time from maximum current on LED from 825 us 500 mA to 0 mA to Standby mode or Shut down mode 12C interface Vit LOW level input voltage SCL SDA 0 0 54 V Vin HIGH level input voltage SCL SDA 1 26 Vi V VoL LOW level output voltage LOW on SDA Igink 3 MA 0 0 4 V fscL SCL clock frequency 0 400 kHz 2LED function of STRB 2LED VoL LOW level output voltage Isink 1 MA LOW state 0 0 4 V loH HIGH level output current HIGH state 1 uA SCL EN1 SDA EN2 IF_SEL STRB function of STRB 2LED TORCH Vit LOW level input voltage LOW digital input voltage 0 0 54 V Vin HIGH level input voltage HIGH digital input voltage 1 26 VI V Rpa int internal pull down resistance pins TORCH STRB function of 350 kQ STRB 2LED only in I2C mode SCL EN1 SDA EN2 only in Direct enable mode tdegl TORCH deglitch time on pin TORCH 6 3 9 11 7 ms Temperature Totp overtemperature protection temperature rising 150 C trip Totp hys overtemperature protection temperature falling 20 C trip hysteresis 1 All typical values are measured at Tamb 25 C and V 3 6 V 2 When operating in extended input voltage range the device will be fully functional but has a reduced performance specification on certain parameters An extended input voltage range is entered when the input voltage is dropping below 2
43. tion of registers Legend default reset register value Address Register Bit Symbol Access Value Description 00h Design info 7to4 Man_ID R 0100 Manufacturer ID 3to0 Model_ID R 0001 Model ID Oih Version control 7to4 Reserved R 0000 Reserved for future use 3to0 Design version R 0000 Design version 1 0001 Design version 2 1111 Design version 16 02h Indicator timer 7to6 Indicator R W 00 Indicator LED current 2 5 mA default current 01 Indicator LED current 5 mA 10 Indicator LED current 7 5 mA 11 Indicator LED current 10 mA 5to4 Vref offset R W 00 No offset default 01 Offset Vret 0 3 V 10 Offset Vref 0 3 V 11 Offset Vref 0 6 V 3to0 Flash timer R W 0000 Software flash timer value 100 ms 0001 Software flash timer value 150 ms 1111 Software flash timer value 850 ms default SSL3252 All information provided in this document is subject to legal disclaimers NXP B V 2011 All rights reserved Product data sheet Rev 1 7 July 2011 17 of 30 NXP Semiconductors SSL3252 Table 6 Description of registers continued Legend default reset register value Photo flash LED driver Address 03h 04h 05h Register Current set Control Fault and info Bit 7 to 4 2to0 7106 1to0 ye 0 Symbol Flashl LED detection enable Assist Torch current Coil peak Strobe signal Torch mode Output ON Strobe Output mode OVP Short circuit Over temp Timeout Amo
44. unt LEDs Indicator LED Broken coil Reserved Access Value R W R W R W R W R W R W R W R W R W DDD D R W R R R 0000 0001 0110 1111 1 000 001 011 111 00 01 10 11 1 1 o 1 00 01 10 11 o o o o o o o Description Flash current 200 mA Flash current 220 mA Flash current 320 mA default dual LEDs Flash current 500 mA default single LED Enabled number of LED detection default enabled Assist Torch current 20 mA Assist Torch current 40 mA default two LEDs Assist Torch current 80 mA default one LED Assist Torch current 160 mA Coil peak current limit 1 25 A Coil peak current limit 1 5 A Coil peak current limit 1 75 A default Coil peak current limit 2 00 A Strobe signal usage 0 edge sensitive 1 level sensitive Torch mode allowed in Standby mode 1 allowed Turn ON outputs Indicator mode Assist light mode or Flash mode 1 ON Strobe signal mode 1 enabled Torch mode default Indicator mode Assist light mode Flash mode Overvoltage protection 1 fault Short circuit LED 1 fault Overtemperature 1 fault Time out 1 fault Amount of LEDs on LED 0 one LED 1 two LEDs Short or open circuit on I_IND 1 fault Broken coil 1 fault Reserved for future use 1 For register settings above 400 mA and dual LED detected the output LED current will be limited to 400 mA SSL325
45. viations 2 00 eee eee eee 27 Revision history 00e cece eee eee 27 Legal information 00e eee eens 28 Data sheet status 00 28 Definitions 0000 eee eee 28 Disclaimers 00 0200 eee eeeeee 28 Trademarks 0 20002 eee eee 29 Contact information 2005 29 Contents 22 22 cede cence ne eee vee eta 30 Please be aware that important notices concerning this document and the product s described herein have been included in section Legal information NXP B V 2011 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 7 July 2011 Document identifier SSL3252
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