austriamicrosystems AG is now ams AG The technical content of this austriamicrosystems datasheet is still valid. Contact information: Headquarters: ams AG Tobelbaderstrasse 30 8141 Unterpremstaetten, Austria Tel: +43 (0) 3136 500 0 e-Mail: [email protected] Please visit our website at www.ams.com Datasheet AS3647/47B 1600mA High Current LED Flash Driver 1 General Description 2 Key Features High efficiency 4MHz fixed frequency DCDC Boost converter with soft start allows small coils The AS3647/47B includes flash timeout, overvoltage, overtemperature, undervoltage and LED short circuit protection functions. A TXMASK/TORCH function reduces the flash current in case of parallel operation to the RF power amplifier and avoids a system shutdown. Alternatively this pin can be used to directly operate the torch light directly. Automatic al id The AS3647/47B is an inductive high efficient DCDC step up converter with two current sinks. The DCDC step up converter operates at a fixed frequency of 4MHz and includes soft startup to allow easy integration into noise sensitive RF systems. The two current sinks can operate in flash / torch / assist (=video) light modes. - Stable even in coil current limit current adjustable up to 1600mA LED lv current adjustment for low battery voltage PWM operation for lower output current for reliable light output of the LED; running at 31.25kHz to avoid audible noise functions: Automatic Flash Timeout timer to protect the LED(s) Overvoltage and undervoltage Protection Overtemperature Protection LED short/open circuit protection am lc s on A te G nt st il Protection 2 The AS3647/47B is controlled by an I C interface and has a hardware automatic shutdown if SCL=0 for 100ms. Therefore no additional enable input is required for shutting down of the device once the system shuts down. 2 I C Interface with automatic shutdown 5V constant voltage mode operation Available in tiny WL-CSP Packages, 13 balls 0.5mm pitch 2.25x1.5x0.6mm, 15 balls 0.4mm pitch 2.25x1.5x0.5mm package size The AS3647/47B is available in a space-saving WLCSP package measuring only 2.25x1.5x0.6mm (AS3647B: 2.25x1.5x0.5mm) and operates over the 30ºC to +85ºC temperature range. 3 Applications Flash/torch/videolight for smartphones, feature-phones, tablets, DSCs, DVCs Figure 1. Typical Operating Circuit &)*+ .-/# + Te ch ,(- $ 0 ! "#$ % %$ % * &'% ni ca ! * &'%$ & www.austriamicrosystems.com/AS3647 (ptr) AS3647/47B (! 1.5-4 1 - 37 AS3647/47B Datasheet, Confidential - P i n o u t 4 Pinout Pin Assignment Figure 2. Pin Assignments (Top View) AS3647 am lc s on A te G nt st il ! # #$ # % & lv al id ' ()*# '+ AS3647 Figure 3. Pin Assignments (Top View) AS3647B . - . - . 3- /12 34 % & !'#!! (& ) ( ! & * ( +* , AS3647B Te ch ni ca !" ! # $ www.austriamicrosystems.com/AS3647 1.5-4 2 - 37 AS3647/47B Datasheet, Confidential - P i n o u t Pin Description Table 1. Pin Description for AS3647 Pin Number Pin Name Description A1 VOUT1 DCDC converter output capacitor - make a short connection to CVOUT / VOUT2 A2 GND A3 LED_OUT1 B1 SW1 DCDC converter switching node - make a short connection to SW2 / coil LDCDC B2 GND Power and analog ground; make a short connection between both balls C1 VOUT2 DCDC converter output capacitor - make a short connection to CVOUT / VOUT1 C2 SW2 DCDC converter switching node - make a short connection to SW1 /coil LDCDC C3 LED_OUT2 D1 SCL E1 E2 al id 2 serial clock input for I C interface lv Flash LED current sink VIN Positive supply voltage input - connect to supply and make a short connection to input capacitor CVIN and to coil LDCDC SDA serial data input/output for I C interface (needs external pullup resistor) STROBE TXMASK/ TORCH E3 Flash LED current sink am lc s on A te G nt st il D2 Power and analog ground; make a short connection between both balls 2 Digital input with pulldown to control strobe time for flash function Function 1: Connect to RF power amplifier enable signal - reduces currents during flash to avoid a system shutdown due to parallel operation of the RF PA and the flash driver 2 Function 2: Operate torch current level without using the I C interface to 2 operate the torch without need to start a camera processor (if the I C is connected to the camera processor Table 2. Pin Description for AS3647B Pin Number A1 A2 Pin Name Description VOUT1 DCDC converter output capacitor - make a short connection to CVOUT / VOUT2 GND Power ground; make a short connection between both balls Flash LED current sink LED_OUT1 B1 VOUT2 DCDC converter output capacitor - make a short connection to CVOUT / VOUT1 SW2 DCDC converter switching node - make a short connection to SW1 /coil LDCDC GND Power ground; make a short connection between both balls SW1 DCDC converter switching node - make a short connection to SW2 / coil LDCDC SW3 DCDC converter switching node - make a short connection to SW3 /coil LDCDC ca A3 B2 C1 C2 LED_OUT2 ch C3 ni B3 SCL D2 GNDA Te D1 Flash LED current sink 2 serial clock input for I C interface Analog ground - internally connected to GND ball A2; for improving thermal performance connect to ground plane (optional) D3 VIN Positive supply voltage input - connect to supply and make a short connection to input capacitor CVIN and to coil LDCDC E1 SDA serial data input/output for I C interface (needs external pullup resistor) www.austriamicrosystems.com/AS3647 2 1.5-4 3 - 37 AS3647/47B Datasheet, Confidential - P i n o u t Table 2. Pin Description for AS3647B Pin Name E2 STROBE TXMASK/ TORCH E3 Description Digital input with pulldown to control strobe time for flash function Function 1: Connect to RF power amplifier enable signal - reduces currents during flash to avoid a system shutdown due to parallel operation of the RF PA and the flash driver 2 Function 2: Operate torch current level without using the I C interface to al id Pin Number 2 Te ch ni ca am lc s on A te G nt st il lv operate the torch without need to start a camera processor (if the I C is connected to the camera processor www.austriamicrosystems.com/AS3647 1.5-4 4 - 37 AS3647/47B Datasheet, Confidential - A b s o l u t e M a x i m u m R a t i n g s 5 Absolute Maximum Ratings Stresses beyond those listed in Table 3 may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in Table 4, “Electrical Characteristics,” on page 6 is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Table 3. Absolute Maximum Ratings Max Units VIN to GND -0.3 +7.0 V STROBE, TXMASK/TORCH, SCL, SDA to GND -0.3 VIN + 0.3 V SW1/2/3, VOUT1/2, LED_OUT1/2 to GND -0.3 +7.0 V VOUT1/2 to SW1/2/3 -0.3 voltage between 2xGND, GNDA pins 0.0 V Comments al id Min max. +7V Note: Diode between VOUT1/2 and SW1/2/3 lv Parameter V short connection recommended mA Norm: EIA/JESD78 Continuous power dissipation 1230 mW PT at 70ºC Continuous power dissipation derating factor 16.7 mW/ºC PDERATE ESD HBM 3 pins LED_OUT1/2 ±8000 V ESD HBM ±2000 V ESD CDM ±500 V Norm: JEDEC JESD 22-C101E ESD MM ±100 V Norm: JEDEC JESD 22-A115-B am lc s on A te G nt st il 0.0 +100 +IIN Input Pin Current without causing latchup -100 Continuous Power Dissipation (TA = +70ºC) 1 2 Electrostatic Discharge Norm: JEDEC JESD22-A114F Temperature Ranges and Storage Conditions Junction to ambient thermal resistance 60 ºC/W For more information about thermal metrics, see application note AN01 Thermal Characteristics Junction Temperature +150 ºC Internally limited (overtemperature protection), max. 20000s 4 -55 +125 ºC Humidity 5 85 % Non condensing +260 ºC according to IPC/JEDEC J-STD-020 ca Storage Temperature Range ni Body Temperature during Soldering Moisture Sensitivity Level (MSL) Represents a max. floor life time of unlimited MSL 1 Te ch 1. Depending on actual PCB layout and PCB used measured on demoboard; for peak power dissipation during flashing see document 'AS3647/47B Thermal Measurements' 2. PDERATE derating factor changes the total continuous power dissipation (PT) if the ambient temperature is not 70ºC. Therefore for e.g. TAMB=85ºC calculate PT at 85ºC = PT - PDERATE * (85ºC - 70ºC) 3. Pins LED_OUT1 connected to LED_OUT2 and capacitor CVOUT connected to VOUT1/2 and GND; both GND pins connected together 4. Measured on AS3647/47B Demoboard. www.austriamicrosystems.com/AS3647 1.5-4 5 - 37 AS3647/47B Datasheet, Confidential - E l e c t r i c a l C h a r a c t e r i s t i c s 6 Electrical Characteristics VVIN = +2.7V to +4.4V, TAMB = -30ºC to +85ºC, unless otherwise specified. Typical values are at VVIN = +3.7V, TAMB = +25ºC, unless otherwise specified. Table 4. Electrical Characteristics Symbol Parameter Condition Min Typ 3.7 Max Unit VVIN Supply Voltage pin VIN 2.7 VVINREDUCE Supply Voltage AS3647/47B functionally working, but not all parameters fulfilled 2.5 ISHUTDOWN Shutdown Current TXMASK/TORCH=L, SCL=SDA=0V, VVIN<3.7V ISTANBY Standby Current interface active, TXMASK/TORCH=L, 1 VVIN<3.7V TAMB Operating Temperature Eta Application Efficiency (DCDC and current sink) 4.4 2.7 4.4 5.5 2.0 V V µA lv 0.6 -30 1.0 10 µA 25 85 ºC am lc s on A te G nt st il D_FUNC al id General Operating Conditions LCOIL=0.6µH@3A, LESR=60m, 2 LED_OUT1,2=1300mA , tFLASH<300ms 84 % DCDC Step Up Converter VVOUT DCDC Boost output Voltage (pin VOUT1/2) VVOUT5V DCDC Boost output Voltage (pin VOUT1/2) constant voltage mode operation const_v_mode (see page 25)=1 5.0 V RPMOS On-resistance DCDC internal PMOS switch 70 m RNMOS On-resistance DCDC internal NMOS switch 70 m fCLK Operating Frequency All internal timings are derived from this oscillator -7.5% 4.0 +7.5% MHz 3.5 4.2 V Current Sinks 2.8 5.5 V LED forward voltage single LED at 1600mA 2.8 ILED_OUT LED_OUT1/2 current sinks output combined single LED 0 1600 mA ILED_OUT LED_OUT1/2 current sink accuracy ILED_OUT>=800mA or ILED_OUT<500mA 0ºC < TJ < 100ºC -7 +7 % 500mA<ILED_OUT<800mA, 0ºC < TJ < 100ºC -5 LED_OUT1/2 ramp time ch RAMP ni ILED_OUT ca VLED +5 % Ramp-up During startup 250 1000 µs Ramp-down 500 1000 µs ILED_OUT LED_OUT current ripple ILED_OUT = 1000mA, BW=20MHz 20 mAPP VILED_COMP LED_OUT current sink voltage compliance Minimum voltage between pin LED_OUT1/2 and GND for operation of the current sink 325 mV Te RIPPLE VHIGH_VDS Comparator High VDS low vds and high vds comparator - see 4MHz/ VLOW_VDS Comparator Low VDS 1MHz Operating Mode Switching on page 13 ILEAK_ LED_OUT LED_OUT1/2 Leakage Current Pins LED_OUT1 and LED_OUT2 900 mV 320 -1.0 0.0 +1.0 µA Protection and Fault Detection Functions (see page 13) www.austriamicrosystems.com/AS3647 1.5-4 6 - 37 AS3647/47B Datasheet, Confidential - E l e c t r i c a l C h a r a c t e r i s t i c s Table 4. Electrical Characteristics (Continued) Symbol Parameter Condition Min Typ Max Unit VVOUTMAX VVOUT overvoltage protection DCDC Converter Overvoltage Protection 5.0 5.3 5.6 V coil_peak=00b 1.8 2.0 2.23 coil_peak=01b 2.25 2.5 2.78 ILIMIT Current Limit for coil LDCDC (Pin SW) measured at 40% 3 PWM duty cycle coil_peak (see page 24)=10b 2.7 3.0 3.34 coil_peak=11b 3.15 3.5 maximum 40000s lifetime operation in overcurrent limit Flash LED short circuit detection voltage TOVTEMP Overtemperature Protection UT VUVLO Flash Timeout Timer Undervoltage Lockout Digital Interface ºC 5 ºC 2 1280 ms accuracy -7.5 +7.5 % Falling VVIN 2.25 2.5 V Rising VVIN High Level Input Voltage VIL Low Level Input Voltage VIHFLASH High Level Input Voltage VILFLASH Low Level Input Voltage VOL Low Level Output Voltage pin SDA, IOL=3mA ILEAK Leakage current Pins SCL, SDA IPD Pulldown current to 5 GND Pins TORCH, STROBE and TXMASK/TORCH VUVLO VUVLO VUVLO +0.05 +0.1 +0.15 V VVIN V 0.0 0.54 V Pin STROBE. Pin TXMASK/TORCH for TxMask mode 4 (ext_torch_on=01) 0.7 VVIN V 0.0 0.54 V 0.3 V +1.0 µA ca 1.26 ni ch SCL timeout 2.4 Pins SCL, SDA. Pin TXMASK/TORCH in external torch mode (ext_torch_on=10) TORCH debounce time tTIMEOUT 144 Can be adjusted with register flash_timeout (page 26) VIH tDEBTORCH V am lc s on A te G nt st il ST 1.0 Junction temperature Overtemperature Hysteresis TOVTEMPHY tFLASHTIMEO Voltage measured between pins VOUT1,2 and LED_OUT1,2 3.9 lv VLEDSHORT A al id default value -1.0 36 6.3 In indicator, assist or flash mode, if SCL is low longer than this timeout, the AS3647/47B automatically enters shutdown mode 0.0 9 µA 11.7 ms 35 100 ms 1/ tTIMEO 400 kHz 2 Te I C mode timings - see Figure 4 on page 9 fSCLK tBUF SCL Clock Frequency UT Bus Free Time Between a STOP and START Condition www.austriamicrosystems.com/AS3647 1.3 1.5-4 µs 7 - 37 AS3647/47B Datasheet, Confidential - E l e c t r i c a l C h a r a c t e r i s t i c s Table 4. Electrical Characteristics (Continued) Parameter tHD:STA Hold Time (Repeated) 6 START Condition Condition 0.6 µs tLOW LOW Period of SCL Clock 1.3 µs tHIGH HIGH Period of SCL Clock 0.6 µs tSU:STA Setup Time for a Repeated START Condition 0.6 tHD:DAT Data Hold Time tSU:DAT Data Setup Time 100 tR Rise Time of Both SDA and SCL Signals 20 + 0.1CB tF Fall Time of Both SDA and SCL Signals 20 + 0.1CB tSU:STO Setup Time for STOP Condition 0.6 CB Capacitive Load for Each Bus Line CI/O I/O Capacitance (SDA, SCL) 7 Min Max Unit µs 0.9 µs lv 0 Typ al id Symbol ns 300 am lc s on A te G nt st il 8 CB — total capacitance of one bus line in pF 300 ns ns µs 400 pF 10 pF Te ch ni ca 1. For VBAT=4.5V, SCL=1.8V, SDA=1.8V maximum ISTANBY is <16µA. 2. To improve efficiency at low output currents, the active part of the internal switching transistor PMOS is reduced in size to 1/5 its original size. This reduces the current required to drive the PMOS transistor and therefore improves overall efficiency at low output currents. 3. Due to slope compensation of the current limit, ILIMIT changes with duty cycle - see Figure 17 on page 12. 4. The logic input levels VIH and VIL allow for 1.2V or 1.8V supplied driving circuit 5. A pulldown current of 36µA is equal to a pulldown resistor of 42k at 1.5V 6. After this period, the first clock pulse is generated. 7. A device must internally provide a hold time of at least 300ns for the SDA signal (referred to the VIHMIN of the SCL signal) to bridge the undefined region of the falling edge of SCL. 8. A fast-mode device can be used in a standard-mode system, but the requirement tSU:DAT = to 250ns must then be met. This is automatically the case if the device does not stretch the LOW period of the SCL signal. If such a device does stretch the LOW period of the SCL signal, it must output the next data bit to the SDA line tR max + tSU:DAT = 1000 + 250 = 1250ns before the SCL line is released. www.austriamicrosystems.com/AS3647 1.5-4 8 - 37 AS3647/47B Datasheet, Confidential - E l e c t r i c a l C h a r a c t e r i s t i c s Timing Diagrams 2 tBUF tLOW tR tHD:STA tF am lc s on A te G nt st il SCL tHD:STA tSU:STA tHD:DAT tHIGH tSU:STO tSU:DAT REPEATED START Te ch ni ca STOP START lv SDA al id Figure 4. I C mode Timing Diagram www.austriamicrosystems.com/AS3647 1.5-4 9 - 37 AS3647/47B Datasheet, Confidential - Ty p i c a l O p e r a t i n g C h a r a c t e r i s t i c s 7 Typical Operating Characteristics VVIN = 3.7V, TA = +25ºC (unless otherwise specified), LED: Osram Phaser 2 (VFLED=3.8V at 1A) Figure 5. DCDC Efficiency vs. VVIN Figure 6. Application Efficiency (PLED/PVIN) vs. VVIN 95 al id 90 100 85 90 80 85 75 lv % 75 % 80 70 70 IOUT = 1600mA/1 LED IOUT = 1600mA/1 LED 65 65 IOUT = 1300mA/1 LED am lc s on A te G nt st il IOUT = 1300mA/1 LED IOUT = 1300mA/1 LED/ 1/4MHz on IOUT = 1300mA/1 LED/ 1/4MHz on IOUT = 1000mA/1 LED 60 2,8 3,2 3,6 4 4,4 4,8 IOUT = 1000mA/1 LED 60 2,8 5,2 3,2 3,6 Figure 7. Battery Current vs. VVIN 4 IOUT = 1300mA/1 LED/ 1/4MHz on IOUT = 1000mA/1 LED 2,5 4,8 5,2 100 IOUT = 1300mA/1 LED 3 4,4 Figure 8. Efficiency at low currents (300mA) IOUT = 1600mA/1 LED 3,5 4 Input Voltage (V) Input Voltage (V) 95 90 85 A 2 % 80 1,5 75 1 70 0,5 IOUT = 300mA/1 LEDs DCDC Efficiency 65 2,8 3,2 ca 0 3,6 4 4,4 4,8 5,2 IOUT = 300mA/1 LEDs Application Efficiency 60 2,8 Input Voltage (V) 3,2 3,4 3,6 3,8 4,0 4,2 4,4 Input Voltage (V) Figure 10. IVIN, ILED Startup (ILED_OUT=800mA) Te ch ni Figure 9. ILED Startup (ILED_OUT=1.0A) 3,0 www.austriamicrosystems.com/AS3647 1.5-4 10 - 37 AS3647/47B Datasheet, Confidential - Ty p i c a l O p e r a t i n g C h a r a c t e r i s t i c s Figure 12. VOUT / ILED_OUT ripple, ILED_OUT = 1.0A am lc s on A te G nt st il lv al id Figure 11. ILED Startup (ILED_OUT=60mA) Figure 13. ILED Rampdown (ILED_OUT=1.0A) Figure 14. ILED_OUT vs. TAMB 63 62 61 mA 60 59 58 -30 -10 10 30 50 70 ca Ambient Temperature (C) Figure 15. Oscillator frequency fCLK vs. TAMB ni 4.2 Figure 16. Flash Timeout ch 4.1 MHz Te 4.0 3.9 3.8 -30 -10 10 30 50 70 Ambient Temperature (C) www.austriamicrosystems.com/AS3647 1.5-4 11 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n 8 Detailed Description The AS3647/47B is a high performance DCDC step up converter with internal PMOS and NMOS switches. Its output is 2 connected to one flash LED with an internal current sink. The device is controlled by the pins SDA and SCL in I C mode. The actual operating mode like standby, assist light, indicator or flash mode, can then be chosen by the interface. If not 1 al id in standby mode, the device automatically enters shutdown mode by keeping SCL low for more than tTIMEOUT . The AS3647/47B includes a fixed frequency DCDC step-up with accurate startup control. Together with the current sink (on LED_OUT1/2) it includes several protection and safety functions. Internal Circuit Diagram lv Figure 17. Internal circuit Diagram AS3647/47B ! $ ' . ) % 1 1 1 " / $ '%* '+, ,0+'+, % /&5' #" +6 ' ' . ) " '' 55%3& '0%3& ! ! " ! " ! - %/ +,* - # ni ca & 2 ()'*( '+,' ! ,*&&-, '% * ,0+ ! " ! " ! & +, - am lc s on A te G nt st il Softstart / Soft ramp down ch During startup and ramp down the LED current is smoothly ramped up and ramped down. If the DCDC converter goes out of regulation (measured by monitoring the voltage across the current sinks), the ramp up is temporarily stopped in 2 Te order for the DCDC to return to regulation . 1. Following registers are reset to their default value if the timeout expires: out_on=0, ext_torch_on=00, mode_setting=00, const_v_mode=0. 2. The actual value of the LED current setting can be readout by the register led_current_actual (see page 28) to allow the camera processor to adopt to the actual operating conditions. www.austriamicrosystems.com/AS3647 1.5-4 12 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n 4MHz/1MHz Operating Mode Switching If freq_switch_on (see page 28)=1 and in flash and assist light mode (indicator mode or low current mode using PWM mode -see mode_setting (page 26) - always will use pulseskip) if led_current>=40h , the DCDC converter always operates in PWM mode (exception: PFM mode is allowed during startup) to reduce EMI in EMI sensitive systems. For flash and assist light mode and high duty cycles close to 100% on-time (maximum duty cycle) of the PMOS, the DCDC con3 al id verter can switch into a 1MHz operating mode and maximum duty cycle to improve efficiency for this load condition . The DCDC converter returns back to its normal 4MHz operating frequency when load or supply conditions change. Due to this switching between two fixed frequencies the noise spectrum of the system is exactly defined and predictable. If improved efficiency is required, the fixed switching between 1MHz / 4MHz can be disabled by freq_switch_on (see page 28)=0. In this case pulseskip will be used. The internal circuit for switching between these two frequencies is shown in Figure 18: Figure 18. Internal circuit of 4MHz/1Mhz selection lv AS3647/47B %!'/ am lc s on A te G nt st il $.!'/ &% ! $.1 $2#0 345 27 " " #0 $.!#0 $./ #$% '()) * +, Note: For simplicity Figure 18 shows only a single current sink. Protection and Fault Detection Functions The protection functions protect the AS3647/47B and the LED(s) against physical damage. In most cases a Fault reg2 2 ister bit is set, which can be readout by the I C interface. The fault bits are automatically cleared by a I C readout of the ca 4 fault register. Additionally the DCDC is stopped and the current sinks are disabled by resetting out_on=0, mode_setting=00 and ext_torch_on=00. ni Overvoltage Protection In case of no or a broken LED(s) at the pin LED_OUT1/2 and an enabled DCDC converter, the voltage on VOUT1/2 5 rises until it reaches VVOUTMAX (overvoltage condition) and the voltage across the current source is below low_vds ., ch 6 Te the DCDC converter is stopped, the current sources are disabled and the bit fault_ovp (see page 27) is set . 3. Efficiency compared to a 4MHz only DCDC converter forced to operate with minimum duty cycle. 4. Applies for all faults except TXMASK event occurred 5. If overvoltage is reached, but none of the low_vds comparator(s) triggers, VOUT1/2 is still regulated below VVOUTMAX. 6. In constant voltage mode (5V generation, register bit const_v_mode=1) this fault is disabled. www.austriamicrosystems.com/AS3647 1.5-4 13 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Short Circuit Protection After the startup of the DCDC converter, the voltage on LED_OUT1/2 is continuously monitored and compared against 7 VLEDSHORT if the LED current is above 25mA (see Figure 19). If the voltage across the LED (VFLED = VOUT1/2LED_OUT1/2) stays below VLEDSHORT, the DCDC is stopped (as a shorted LED is assumed), the current sinks are disabled and the bit fault_led_short (see page 27) is set. !!$ % & ! am lc s on A te G nt st il !"! ## ' lv al id Figure 19. Short LED detection Overtemperature Protection The junction temperature of the AS3647/47B is continuously monitored. If the temperature exceeds TOVTEMP, the DCDC is stopped, the current sinks are disabled (instantaneous) and the bit fault_overtemp (see page 27) is set. The 8 driver is automatically re-enabled once the junction temperature drops below TOVTEMP-TOVTEMPHYST. TXMASK event occurred If during flash, TXMASK current reduction is enabled (see TXMASK on page 16, configured by ext_torch_on=01) and a TXMASK event happened (pin TXMASK/TORCH=1), the fault register bit fault_txmask (see page 27) is set. Flash Timeout If the flash is started a timeout timer is started in parallel. If the flash duration defined by the STROBE input (strobe_on = 1 and strobe_type = 1, see Figure 26 on page 19) exceeds tFLASHTIMEOUT (adjustable by register flash_timeout (see page 26)), the DCDC is stopped and the flash current sinks (on pin LED_OUT1/2) are disabled and fault_timeout is set. ca If the flash duration is defined by the timeout timer itself (strobe_on = 0, see Figure 24 on page 19), the register fault_timeout is set after the flash has been finished. Supply undervoltage Protection ni If the voltage on the pin VIN (=battery voltage) is or falls below VUVLO, the AS3647/47B is kept in shutdown state and all registers are set to their default state. Wakeup Circuit - Power off detection Te ch In flash, assist light and indicator mode (register mode_setting (page 26)=01, 10 or 11) and out_on (page 26)=1, if SCL is L for more than tTIMEOUT, shutdown mode is automatically entered. This feature automatically detects a power-off of the controlling circuit driving SCL and SDA (VDD_I/F goes to 0V e.g. due to a low power condition of the driving circuit) - the internal circuit is shown in Figure 20: 7. To avoid errors in short LED detection for LEDs with a high leakage current 8. In constant voltage mode (const_v_mode=1) the DCDC will not be automatically re-enabled. www.austriamicrosystems.com/AS3647 1.5-4 14 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Figure 20. Device Shutdown and Wakeup !!" '()(* )))( + &+ !!" $ am lc s on A te G nt st il AS3647/47B lv al id "& " #!$%" In shutdown mode once pin SCL goes high for the first time, the internal counter shown in Figure 20 is immediately reset thus releasing the internal RESET (assuming VIN is above VUVLO) signal and allows instant communication on 2 2 the I C bus. Therefore no additional action is required to leave the shutdown mode and start I C communication. Purpose of this circuit The purpose of this circuit is an additional security mechanism. Assume the user programmed torch or indicator operation (there is no timeout for these operating modes) and the battery slowly drops below the undervoltage limit of the system. The processor would get an reset by the PMIC and the LDO operating VDD_I/F is switched off, but the processor might not have been able to switch-off the torch/indicator operation of the AS3647/47B. Due to the implemented security mechanism the AS3647/47B detects a power off of VDD_I/F and automatically enters shutdown. Current consumption in standby/shutdown mode ca The AS3647/47B is designed to draw minimum current in standby and shutdown mode. There is a small difference in current consumption between these two operating modes (typ. 300nA) only due to the internal level shifters (see the schmitt trigger input buffers connected to SCL and SDA in Figure 20) for shifting up the voltage on SCL/SDA (VDD_I/F e.g. 1.8V) to the supply voltage on VIN (e.g. 3.7V). If the AS3647/47B is driven with digital levels close to 0V/VIN, the current consumption for standby mode is identical to shutdown mode. Operating Mode and Currents ni The output currents and operating mode are selected according to the following table: Table 5. Operating Mode and current settings STROBE TORCH Te SCL and SDA ch AS3647/47B configuration SCL low for tTIME OUT X X mode_ setting out_on (see (see page page 26) 26) X X 1 www.austriamicrosystems.com/AS3647 operating mode and currents Condition Mode shutdown if previous operating mode was indicator, assist light or flash mode all registers are reset to their default values 1.5-4 LED_OUT1/2 output current 0 15 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Table 5. Operating Mode and current settings (Continued) X 10, 01 or 11 X X 0 X 1 X 00 Condition Mode ext_torch_on (see page 24) not 10 standby 0 X ext_torch_on =10 ext_torch_on =10 external torch mode X 01 1 X X 10 1 X X X 0->1 11 LED current is defined 2 by the 7LSB bits of led_current LED current is defined by the 6LSB bits (bits 5...0) of led_current pwm indicator mode or modulated with 3 low current pwm mode 31.25kHz defined by register inct_pwm (1/ 16...4/16) 1 assist light mode strobe_on (see page 27) =0 flash mode; strobe_on = 1 and strobe_type (see page 27) = 0 flash duration defined by flash_timeout (see page 26) flash mode; 1 0 am lc s on A te G nt st il X X LED_OUT1/2 output current al id STROBE X operating mode and currents lv TORCH mode_ setting out_on (see (see page page 26) 26) 2 I C commands are accepted SCL and SDA AS3647/47B configuration strobe_on = 1 and strobe_type = 1 flash duration defined by STROBE input; timeout defined by flash_timeout LED current is defined 2 by the 7LSB bits (6...0) of led_current LED current is defined by led_current - the current can be reduced during flash, see Flash Current Reductions below ni ca 1. SCL low for tTIMEOUT and operating mode is indicator, assist or flash mode then shutdown mode is entered. 2. The MSB bit of this register not used to protect the LED; therefore the maximum assist / torch light current = half the maximum flash current 3. The low current mode is a general purpose PWM mode to drive less current through the LED in average, but keep the actual pulsed current in a range where the light output from the LED is still specified. As only the 6 LSBs of led_current are used the maximum current is limited to 1/4 of the maximum flash current. ch Flash Current Reductions TXMASK Te Usually the flash current is defined by the register led_current . If the TXMASK/TORCH input is used and (configured by ext_torch_on=01), the flash current is reduced to flash_txmask_current if TXMASK/TORCH=1. Current Reduction by VIN measurements in Flash Mode Due to the high load of the flash driver and the ESR of the battery (especially critical at low temperatures), the voltage on the battery drops. If the voltage drops below the reset threshold of the system would reset. To prevent this condition the AS3647/47B monitors the battery voltage and keeps it above vin_low_v_run as follows: Before a flash is started the voltage on VIN is measured. If the voltage is below the setting of vin_low_v the fault_uvlo (see page 27) is set and the flash is disabled (driver stays in shutdown) if vin_low_v_shutdown=1. The flash current is reduced to flash_txmask_current if vin_low_v_shutdown=0. www.austriamicrosystems.com/AS3647 1.5-4 16 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n During flash, if the voltage on VIN drops below the threshold defined by vin_low_v_run, the flash current is reduced (or ramping of the current is stopped during flash current startup) and fault_uvlo is set. The timing for the reduction of the current is 8µs/LSB current change. During the flash pulse the actual used current can be readout by the register led_current_actual. The internal circuit for low voltage current reductions are shown in Figure 21: Figure 21. Low Voltage current Reduction Internal Circuit lv am lc s on A te G nt st il -/ (. al id After the flash pulse the minimum current can be readout by the register led_current_min - this allows to adjust the camera sensitivity (gain or iso-settings) for the subsequent flash pulse (e.g. when using a pre-flash and a main flash pulse). !" !#$ %"& ' (* ) ( ,- (+ ) - - ) & AS3647/47B A mobile phone camera flash system can trigger a diagnostic flash and a main-flash: The diagnostic flash is initiated by the processor. After this diagnostic flash, the determined maximum flash current can 2 Te ch ni ca be read back through the I C interface from register led_current_min (see page 28) and used for the setting for the main flash. Therefore the current in the main-flash is constant and additionally the camera system can use this current for picture quality adjustments - the waveforms for this concept are shown in Figure 22: www.austriamicrosystems.com/AS3647 1.5-4 17 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Figure 22. Low Voltage current Reduction Waveform with diagnostic-Flash and Main-Flash Phase &' ( " # ! $ % % % am lc s on A te G nt st il ! " # lv al id If the diagnostic flash should be short (e.g. 10ms) it is recommended to operate this diagnostic flash at slightly higher vin_low_v_run setting compared to the main flash as shown in Figure 23: Figure 23. Low Voltage current Reduction Waveform with short diagnostic-Flash and Main-Flash Phase &' ( % % % % ca ! " # ! $ % % % ni The different settings for vin_low_v_run allow a constant main flash current without dropping VIN below vin_low_v_run. Flash Strobe Timings ch The flash timing are defined as follows: 1. Flash duration defined by register flash_timeout and flash is started immediately when this mode is selected by 2 Te the I C command (see Figure 24): set strobe_on = 0, start the flash by setting out_on = 1 2. Flash duration defined by register flash_timeout and flash started with a rising edge on pin STROBE (see Figure 25): set strobe_on = 1 and strobe_type = 0 3. Flash start and timing defined by the pin STROBE; the flash duration is limited by the timeout timer defined by flash_timeout (see Figure 26 and Figure 34): set strobe_on = 1 and strobe_type = 1 www.austriamicrosystems.com/AS3647 1.5-4 18 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Figure 24. AS3647/47B flash duration defined by flash_timeout without using STROBE input ! "#$ al id ! " am lc s on A te G nt st il & lv Figure 25. AS3647/47B flash duration defined by flash_timeout, starting flash with STROBE rising edge #$% Figure 26. AS3647/47B flash duration and start defined by STROBE, limited by flash_timeout; timer not expired ' !" & !" #!" $% ca ni Figure 27. AS3647/47B flash duration and start defined by STROBE, limited by flash_timeout; timer expired #$ ch % !" Te www.austriamicrosystems.com/AS3647 1.5-4 19 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n I2C Serial Data Bus 2 The AS3647/47B supports the I C bus protocol. A device that sends data onto the bus is defined as a transmitter and a device receiving data as a receiver. The device that controls the message is called a master. The devices that are controlled by the master are referred to as slaves. A master device that generates the serial clock (SCL), controls the bus access, and generates the START and STOP conditions must control the bus. The AS3647/47B operates as a 2 The following bus protocol has been defined (Figure 28): Data transfer may be initiated only when the bus is not busy. data transfer, the data line must remain stable whenever the clock line is HIGH. Changes in the data line while the clock line is HIGH are interpreted as control signals. lv During al id slave on the I C bus. Within the bus specifications a standard mode (100kHz maximum clock rate) and a fast mode (400kHz maximum clock rate) are defined. The AS3647/47B works in both modes. Connections to the bus are made through the open-drain I/O lines SDA and SCL. Accordingly, the following bus conditions have been defined: Bus Not Busy Start Data Transfer am lc s on A te G nt st il Both data and clock lines remain HIGH. A change in the state of the data line, from HIGH to LOW, while the clock is HIGH, defines a START condition. Stop Data Transfer A change in the state of the data line, from LOW to HIGH, while the clock line is HIGH, defines the STOP condition. Data Valid The state of the data line represents valid data when, after a START condition, the data line is stable for the duration of the HIGH period of the clock signal. The data on the line must be changed during the LOW period of the clock signal. There is one clock pulse per bit of data. Each data transfer is initiated with a START condition and terminated with a STOP condition. The number of data bytes transferred between START and STOP conditions are not limited, and are determined by the master device. The information is transferred byte-wise and each receiver acknowledges with a ninth bit. Acknowledge Each receiving device, when addressed, is obliged to generate an acknowledge after the reception of each byte. The master device must generate an extra clock pulse that is associated with this acknowledge bit. Te ch ni ca A device that acknowledges must pull down the SDA line during the acknowledge clock pulse in such a way that the SDA line is stable LOW during the HIGH period of the acknowledge-related clock pulse. Of course, setup and hold times must be taken into account. A master must signal an end of data to the slave by not generating an acknowledge bit on the last byte that has been clocked out of the slave. In this case, the slave must leave the data line HIGH to enable the master to generate the STOP condition. www.austriamicrosystems.com/AS3647 1.5-4 20 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n 2 Figure 28. Data Transfer on I C Serial Bus SDA SLAVE ADDRESS R/W DIRECTION BIT ACKNOWLEDGEMENT SIGNAL FROM RECEIVER SCL 1 2 6 7 8 9 1 2 3-7 8 lv ACKNOWLEDGEMENT SIGNAL FROM RECEIVER al id MSB 9 ACK REPEATED IF MORE BYTES ARE TRANSFERRED STOP CONDITION OR REPEATED START CONDITION am lc s on A te G nt st il START CONDITION Depending upon the state of the R/W bit, two types of data transfer are possible: 1. Data transfer from a master transmitter to a slave receiver. The first byte transmitted by the master is the slave address. Next follows a number of data bytes. The slave returns an acknowledge bit after each received byte. Data is transferred with the most significant bit (MSB) first. 2. Data transfer from a slave transmitter to a master receiver. The master transmits the first byte (the slave address). The slave then returns an acknowledge bit, followed by the slave transmitting a number of data bytes. The master returns an acknowledge bit after all received bytes other than the last byte. At the end of the last received byte, a “not acknowledge” is returned. The master device generates all of the serial clock pulses and the START and STOP conditions. A transfer is ended with a STOP condition or with a repeated START condition. Since a repeated START condition is also the beginning of the next serial transfer, the bus is not released. Data is transferred with the most significant bit (MSB) first. The AS3647/47B can operate in the following two modes: ca 1. Slave Receiver Mode (Write Mode): Serial data and clock are received through SDA and SCL. After each byte is received an acknowledge bit is transmitted. START and STOP conditions are recognized as the beginning and end of a serial transfer. Address recognition is performed by hardware after reception of the slave address and direction bit (see Figure 29). The slave address byte is the first byte received after the master generates the START condition. The slave address byte contains the 7-bit AS3647/47B address, which is 9 Te ch ni 0110000, followed by the direction bit (R/W), which, for a write, is 0. After receiving and decoding the slave address byte the device outputs an acknowledge on the SDA line. After the AS3647/47B acknowledges the slave address + write bit, the master transmits a register address to the AS3647/47B. This sets the register pointer on the AS3647/47B. The master may then transmit zero or more bytes of data, with the AS3647/47B acknowledging each byte received. The address pointer will increment after each data byte is transferred. The master generates a STOP condition to terminate the data write. 2. Slave Transmitter Mode (Read Mode): The first byte is received and handled as in the slave receiver mode. However, in this mode, the direction bit indicates that the transfer direction is reversed. Serial data is transmitted on SDA by the AS3647/47B while the serial clock is input on SCL. START and STOP conditions are recognized as the beginning and end of a serial transfer (Figure 30 and Figure 31). The slave address byte is the first byte received after the master generates a START condition. The slave address byte contains the 7-bit 10 AS3647/47B address, which is 0110000, followed by the direction bit (R/W), which, for a read, is 1. After receiving and decoding the slave address byte the device outputs an acknowledge on the SDA line. The AS3647/47B then begins to transmit data starting with the register address pointed to by the register pointer. If 9. The address for writing to the AS3647/47B is 60h = 01100000b 10.The address for read mode from the AS3647/47B is 61h = 01100001b www.austriamicrosystems.com/AS3647 1.5-4 21 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n the register pointer is not written to before the initiation of a read mode the first address that is read is the last one stored in the register pointer. The AS3647/47B must receive a “not acknowledge” to end a read. 0110000 0 <Data(n)> XXXXXXXX XXXXXXXX A A S - Start A - Acknowledge (ACK) P - Stop A XXXXXXXX XXXXXXXX A Data Transferred (X + 1 Bytes + Acknowledge) al id S <Data(n+X)> <Data(n+1)> <Word Address (n)> A P am lc s on A te G nt st il lv <Slave Address> <RW> Figure 29. Data Write - Slave Receiver Mode <Slave Address> S 0110000 <RW> Figure 30. Data Read (from Current Pointer Location) - Slave Transmitter Mode 1 <Data(n+1)> <Data(n)> A XXXXXXXX A XXXXXXXX S - Start A - Acknowledge (ACK) P - Stop NA - Not Acknowledge (NACK) <Data(n+X)> <Data(n+2)> A XXXXXXXX XXXXXXXX A NA P Data Transferred (X + 1 Bytes + Acknowledge) Note: Last data byte is followed by a NACK ch S 0110000 0 Te A XXXXXXXX A XXXXXXXX S - Start Sr - Repeated Start A - Acknowledge (ACK) P - Stop NA - Not Acknowledge (NACK) www.austriamicrosystems.com/AS3647 A <Slave Address> Sr 0110000 A XXXXXXXX 1 A <Data(n+X)> <Data(n+2)> <Data(n+1)> <Data(n)> XXXXXXXX <Word Address (n)> <RW> ni <RW> ca Figure 31. Data Read (Write Pointer, Then Read) - Slave Receive and Transmit A XXXXXXXX NA P Data Transferred (X + 1 Bytes + Acknowledge) Note: Last data byte is followed by a NACK 1.5-4 22 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Register Description Table 6. ChipID Register ChipID Register Addr: 0 This register has a fixed ID Bit Name Default Access Description 2:0 version Xh R AS3647/47B chip version number 7:3 fixed_id 10110b R This is a fixed identification (e.g. to verify the I C communication) al id Bit 2 Current Set Register Addr: 1 Bit lv Table 7. Current Set Register This register defines design versions Bit Name Default Access Description am lc s on A te G nt st il Define the current on pin LED_OUT1/2 (combined; each current sink has identical currents) Caution: assist mode uses bits 6:0 of this current setting (max. half of full current setting) indicator or low current pwm mode uses only 5:0 of this current setting (max. 1/4 of full current setting) led_current 9Ch R/W 0mA 1h 6.3mA 2h 12.5mA ... ... 3Fh 393.3mA (maximum current for indicator or low current pwm mode, mode_setting=01) ... ... 7Fh 796.9mA (maximum current for assist light mode, mode_setting=10) ... ... 9Ch 979mA - default setting ... ... FEh 1593.7mA FFh 1600mA Te ch ni ca 7:0 0h www.austriamicrosystems.com/AS3647 1.5-4 23 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Table 9. TXMask Register TXMask Register Addr: 3 Bit This register defines the TXMask settings and coil peak current Bit Name Default Access Description Defines operating mode for input pin TXMASK/TORCH R/W 01 txmask-mode; during flash if TXMASK/TORCH=1, the LED current is set to flash_txmask_current - (see TXMASK on page 16) al id 00 pin has no effect external torch mode: if TXMASK/TORCH=1 and mode_setting=00, the AS3647/47B is set into external 10 1 torch mode (LED current is defined by the 7LSB bits of led_current ) lv ext_torch_on 1:0 00 11 don’t use am lc s on A te G nt st il Defines the maximum coil current (parameter ILIMIT) coil_peak 3:2 10 R/W 00 ILIMIT = 2.0A 01 ILIMIT = 2.5A 10 ILIMIT = 3.0A 11 ILIMIT = 3.5A Define the current on pin LED_OUT1/2 in flash mode if ext_torch_on=01 and TXMASK/TORCH=1 flash_txmask_current 2 6h R/W 0mA 1h 100mA 2h 201mA 3h 301mA 4h 402mA 5h 502mA 6h 602mA - default 7h 703mA 8h 803mA 9h 904mA Ah 1004mA Bh 1104mA Ch 1205mA Dh 1305mA Eh 1405mA Fh 1506mA Te ch ni ca 7:4 0h 1. The MSB bit of this register not used to protect the LED; therefore the maximum current = half the maximum flash current 2. www.austriamicrosystems.com/AS3647 1.5-4 24 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Table 10. Low Voltage Register Low Voltage Register Addr: 4 Bit This register defines the operating mode with low battery voltages Bit Name Default Access Description R/W 1h 3.0V 2h 3.07V 3h 3.14V 4h 3.22V - default 5h 3.3V 6h 3.38V 7h 3.47V am lc s on A te G nt st il 4h function is disabled lv vin_low_v_run 2:0 0h al id Voltage level on VIN where current reduction triggers during operation (see Current Reduction by VIN measurements in Flash Mode on page 16) - only in flash mode; if VIN drops below this voltage during current ramp up, the current ramp up is stopped; during operation the current is decreased until the voltage on VIN rises above this threshold fault_uvlo is set Voltage level on VIN where driver will change current before startup (only in flash mode) if before startup (out_on set from 0 to 1), the voltage on VIN is below vin_low_v, the current is changed to flash_txmask_current (vin_low_v_shutdown=0) or 0=shutdown (vin_low_v_shutdown=1) and fault_uvlo is set vin_low_v 5h R/W vin_low_v_shutdown 0 Te 7 const_v_mode www.austriamicrosystems.com/AS3647 function is disabled 1h 3.0V 2h 3.07V 3h 3.14V 4h 3.22V 5h 3.3V - default 6h 3.38V 7h 3.47V Enables Shutdown of current reduction under low voltage conditions R/W ch 6 ni ca 5:3 0h 0 if before startup (out_on set from 0 to 1), the voltage on VIN is below vin_low_v, the current is changed to flash_txmask_current and fault_uvlo is set 1 if before startup (out_on set from 0 to 1), the voltage on VIN is below vin_low_v, the operating mode stays in shutdown (zero LED current) and fault_uvlo is set Enables Constant output voltage mode 0 R/W 0 Normal operation defined by mode_setting 1 5V constant voltage mode on VOUT1/2; reset registers mode_setting, out_on and ext_torch_on before setting this bit 1.5-4 25 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Table 11. Flash Timer Register Flash Timer Register Addr: 5 Bit This register identifies the flash timer and timeout settings Bit Name Default Access Description Define the duration of the flash timer and timeout timer R/W 4ms 2h 6ms ... ... 23h 72ms - default ... ... 7F 256ms 80 264ms(now 8 ms LSB steps from here on) 81 272ms 82 280ms ... ... FEh 1272ms FFh 1280ms al id 1h 1 am lc s on A te G nt st il 23h 2ms lv flash_timeout 7:0 0h 1. Internal calculation for codes above 80h: flash timeout [ms] = (flash_timeout-127) * 8 + 256 [ms] Table 12. Control Register Addr: 6 Bit Bit Name Control Register This register identifies the operating mode and includes an all on/off bit Default Access Description Define the AS3647/47B operating mode shutdown or external torch mode if ext_torch_on (page 24)=10 ni mode_setting 00 R/W Te 2 3 reserved indicator mode (or low current mode using PWM) LED current is defined by the 6LSB bits of led_current 01 pwm modulated with 31.25kHz defined by register inct_pwm (1/16...4/16) assist light mode: 1 10 ch 1:0 ca 00 11 X LED current is defined by the 7LSB bits of led_current flash mode: LED current is defined by led_current (out_on and mode_setting are automatically cleared after a flash pulse) R reserved - don’t use, always write 0 Enables the output current sinks (pin LED_OUT1/2) out_on www.austriamicrosystems.com/AS3647 0 R/W 0 outputs disabled 1 outputs enabled (out_on and mode_setting are automatically cleared after a flash pulse) 1.5-4 26 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n 1. The MSB bit of this register not used to protect the LED; therefore the maximum assist light current = half the maximum flash current Table 13. Strobe Signalling Register Strobe Signalling Register Addr: 7 Bit Name Default Access Description al id Bit This register defines the flash current reducing and mode for STROBE Defines if the STROBE input is edge or level sensitive; see also bit strobe_on (page 27) 1 R/W 0 STROBE input is edge sensitive 1 STROBE input is level sensitive lv strobe_type 6 Enables the STROBE input strobe_on 1 R/W 0 STROBE input disabled STROBE input enabled in flash mode am lc s on A te G nt st il 7 1 Table 14. Fault Register Fault Register Addr: 8 Bit Bit Name This register identifies all the different fault conditions and provide information about the LED detection Default Access fault_uvlo 0 0 R/sC 1 Description an undervoltage event has happened - see Current Reduction by VIN measurements in Flash Mode on page 16 0 No 1 Yes 1 reserved 0 R reserved - don’t use 2 reserved 0 R reserved - don’t use fault_txmask ni fault_timeout ch 4 Te 5 6 7 0 ca 3 fault_overtemp fault_led_short 0 R/sC 1 TXMASK/TORCH event triggered during flash - see TXMASK event occurred on page 14 0 No 1 Yes see Flash Timeout on page 14 R/sC 1 0 No fault 1 Flash timeout exceeded see Overtemperature Protection on page 14 0 R/sC 1 0 No fault 1 Junction temperature limit has been exceeded see Short Circuit Protection on page 14 0 R/sC 1 0 No fault 1 A shorted LED is detected (pin LED_OUT1/2) see Overvoltage Protection on page 13 fault_ovp www.austriamicrosystems.com/AS3647 0 R/sC 1 0 No fault 1 An overvoltage condition is detected (pin VOUT) 1.5-4 27 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n 1. R/sC = Read, self clear; after readout the register is automatically cleared Table 15. PWM and Indicator Register PWM and Indicator Register Addr: 9 Bit Name Default Access Description al id Bit This register defines the PWM mode (e.g. for indicator) and 4/1MHz mode switching Define the AS3647/47B PWM with 31.25kHz operation for indicator or low current mode (mode_setting=01) 00 R/W 00 1/16 duty cycle 01 2/16 duty cycle 10 3/16 duty cycle 11 4/16 duty cycle lv inct_pwm 1:0 am lc s on A te G nt st il Exact frequency switching between 4MHz/1MHz for assist and flash modes for operation close to maximum pulsewidth freq_switch_on 2 0 R/W 0 Pulseskip operation is allowed for all modes results in better efficiency 1 In flash and assist light mode (indicator mode or low current mode using PWM always will use pulseskip) if led_current>=40h , the DCDC is running at 4MHz or 1MHz (pulseskip is disabled) - results in improved noise performance; Table 17. Minimum LED Current Register Minimum LED Current Register Addr: Eh Bit Bit Name Default Access 12 00h led_current_min R Description Minimum current through the current sink (only including all current reductions as described in Current Reduction by VIN measurements in Flash Mode excluding current reductions caused by TXMASK) ca 7:0 This register reports the minimum LED current from the last operation cycle ch ni 1. As the internal change of this register is asynchronous to the readout, it is recommended to readout the register after the flash pulse. The register will store the minimum current through the LED after e.g. a previous flash. This current can be used for a subsequent flash pulse for a safe operating range. 2. This register is only set if an actual current reduction happens (fault_uvlo (see page 27)=1) otherwise led_current_min=0. Table 18. Actual LED Current Register Actual LED Current Register Te Addr: Fh Bit Bit Name 7:0 led_current_actual This register reports the actual set LED current Default Access 1 00h R Description Actual set current through the current sink (including all current reductions as described in Flash Current Reductions including LED current ramp up/down) 1. As the internal change of this register is asynchronous to the readout, it is recommended to readout the register twice and compare the results. www.austriamicrosystems.com/AS3647 1.5-4 28 - 37 AS3647/47B Datasheet, Confidential - D e t a i l e d D e s c r i p t i o n Register Map Addr Default Name Content b7 0 Bxh Current Set 1 9Ch TXMask 3 68h Low Voltage 4 2Ch Flash Timer 5 23h Control 6 00h b5 b4 b3 led_current flash_txmask_current vin_low const_v _v_shut _mode down coil_peak vin_low_v ext_torch_on vin_low_v_run flash_timeout out_on strobe_ strobe_t on ype 8 00h fault_ov fault_le fault_ov p d_short ertemp 9 00h Minimum LED Current Eh 00h led_current_min Actual LED Current Fh 00h led_current_actual PWM and Indicator b0 version C0h Fault b1 fixed_id 7 Strobe Signalling b2 reserve d mode_setting am lc s on A te G nt st il ChipID b6 al id Register Definition 1 lv Table 21. Register Map fault_ti meout fault_tx mask reserve reserve fault_uvl d d o freq_swi tch_on inct_pwm Te ch ni ca 1. Always write’0’ to undefined register bits (e.g. to bits 4..7 of register 6) www.austriamicrosystems.com/AS3647 1.5-4 29 - 37 AS3647/47B Datasheet, Confidential - A p p l i c a t i o n I n f o r m a t i o n 9 Application Information External Components Input Capacitor CVIN al id Low ESR input capacitors reduce input switching noise and reduce the peak current drawn from the battery. Ceramic capacitors are required for input decoupling and should be located as close to the device as is practical. Table 22. Recommended Input Capacitor C TC Code Rated Voltage Size Manufacturer GRM188R60J106ME47 10µ >3µ[email protected] >2µ[email protected] X5R 6V3 0603 Murata www.murata.com LMK107BBJ106MA 10µ >3µ[email protected] X5R 6V3 0603 lv Part Number am lc s on A te G nt st il Taiyo Yuden www.t-yuden.com If a different input capacitor is chosen, ensure similar ESR value and at least 3µF capacitance at the maximum input supply voltage. Larger capacitor values (C) may be used without limitations. Add a smaller capacitor in parallel to the input pin VIN (e.g. Murata GRM155R61C104, >50nF @ 3V, 0402 size). Output Capacitor CVOUT Low ESR capacitors should be used to minimize VOUT ripple. Multi-layer ceramic capacitors are recommended since they have extremely low ESR and are available in small footprints. The capacitor should be located as close to the device as is practical. X5R dielectric material is recommended due to their ability to maintain capacitance over wide voltage and temperature range. Table 23. Recommended Output Capacitor Part Number GRM219R61A116U TC Code Rated Voltage Size 10µF +/-10% >4.2µF@5V X5R 10V 0805 6.3V 0603 (1.6x0.8x0.85mm max. 0.95mm height) 10µF +/-20% >4.2µF@4V X5R ca GRM188R60J106ME84 1 C Manufacturer Murata www.murata.com ni 1. Use only for VLED < 3.75V Te ch If a different output capacitor is chosen, ensure similar ESR values and at least 4.2µF capacitance at 5V output voltage. www.austriamicrosystems.com/AS3647 1.5-4 30 - 37 AS3647/47B Datasheet, Confidential - A p p l i c a t i o n I n f o r m a t i o n Inductor LDCDC The fast switching frequency (4MHz) of the AS3647/47B allows for the use of small SMDs for the external inductor. 11 The saturation current ISATURATION should be chosen to be above the maximum value of ILIMIT . The inductor should 2 have very low DC resistance (DCR) to reduce the I R power losses - high DCR values will reduce efficiency. Table 24. Recommended Inductor L DCR ISATURATION Size Manufacturer C3-P1.5R 1.5µH 58m 2.4A@25ºC, 1 2.0A 3x3x1.5mm (height is max.) Mitsumi www.mitsumi.com LQM32PN1R0MG0 1.0µH >0.6µH @ 3.0A 60m NRH2412T1R0N CKP3225N1R0M MAMK2520T1R0M MDMK2020T1R0M Murata www.murata.com 1.0µH >0.7µH @ 2.7A >0.6µH @ 3.0A 60m +/-25% 3.0A 3.2x2.5mm max 1.0mm height 1.0µH >0.6µH @ 2.5A 77m 2.5A 4 2.4x2.4x1.2 mm (height is max.) 1.0µH >0.6µH @ 3.0A <60m 3.0A 3.2x2.5x0.9 mm max 1.0mm height 1.0µH >0.6µH @ 2.75A 45m 3.0A 1.0µH >0.6µH @ 2.75A 56m 2.55A 1.0µH >0.6µH @ 2.75A 65m 2.0A 5 6 7 2.5x2.0x1.2 mm height is max Samsung ElectroMechancs www.sem.samsung.co.kr Taiyo Yuden www.t-yuden.com 2.0x2.0x1.2 mm height is max 2.0x1.6x1.0 mm height is max ca MAKK2016T1R0M 2.5x2.0x0.9 mm 3 1.5A (2.0A) max 1.00mm height am lc s on A te G nt st il CIG32W1R0MNE 100m 3.0A 3.2x2.5x0.9 mm max 1.0mm height lv 1.0µH >0.6µH @ 2.0A LQM2HPN1R0MGC 2 al id Part Number Te ch ni 1. Do not exceed maximum ISATURATION - can be ensured by setting coil_peak (will limit LED current) 2. Flash pattern: 200ms/3A, 200ms pause, 200ms/3A, 2s then repeat again (no limit on the number of total cycles) Alternative pattern with 1000ms/1.6A, 200ms pause, 200ms/3A, 200ms pause, 200ms/3A, 2s then repeat again. (no limit on the number of total cycles) 3. Set current limit to 2A (coil_peak=00b) - will limit maximum output current. Flash cycle limit: 150ms on, 500ms off; repeat maximum 50 times. 4. Set current limit to 2.5A (coil_peak=01b) - will limit maximum output current. 5. Set current limit to 3.0A (coil_peak=10b) - can limit maximum output current. 6. Set current limit to 2.5A (coil_peak=01b) - will limit maximum output current. 7. Set current limit to 2A (coil_peak=00b) - will limit maximum output current. If a different inductor is chosen, ensure similar DCR values and at least0.6µH inductance at ILIMIT. 2 11.Can be adjusted in I C mode with register coil_peak (see page 24) www.austriamicrosystems.com/AS3647 1.5-4 31 - 37 AS3647/47B Datasheet, Confidential - A p p l i c a t i o n I n f o r m a t i o n PCB Layout Guideline The high speed operation requires proper layout for optimum performance. Route the power traces first and try to minimize the area and wire length of the two high frequency/high current loops: Loop1: CVIN/CVIN2 - LDCDC - pin SW1/2 - pin GND - CVIN/CVIN2 Loop2: CVIN/CVIN2 - LDCDC - pin SW1/2 - pin VOUT1/2 - CVOUT - pin GND - CVIN/CVIN2 al id At the pin GND a single via (or more vias, which are closely combined) connects to the common ground plane. This via(s) will isolate the DCDC high frequency currents from the common ground (as most high frequency current will flow between Loop1 and Loop2 and will not pass the ground plane) - see the ‘island’ in Figure 32. Figure 32. Layout recommendation lv am lc s on A te G nt st il $ ! % &! &" & % )*' ' )*( AS3647 ( !" # ! !! Note: If component placement rules allow, move all components close to the AS3647/47B to reduce the area and length of Loop1 and Loop2. Te ch ni ca An additional 100nF (e.g. Murata GRM155R61C104, >50nF @ 3V, 0402 size) capacitor CVIN2 in parallel to CVIN is recommended to filter high frequency noise for the power supply of AS3647/47B. This capacitor should be as close as possible to the GND/VIN pins of AS3647/47B. www.austriamicrosystems.com/AS3647 1.5-4 32 - 37 AS3647/47B Datasheet, Confidential - A p p l i c a t i o n I n f o r m a t i o n 5V Operating Mode The AS3647/47Bcan be used to power a 5V system (e.g. audio amplifier). The operating mode is selected by setting register bit const_v_mode (page 25)=1. In this operating mode, the current sinks are disabled and cannot be switched on (no flash/torch operation is possible). am lc s on A te G nt st il AS3647/47B lv Figure 33. 5V Operating Mode al id Note: There is always a diode between VIN and VOUT1/2 due to the internal circuit. Therefore VOUT1/2 cannot be completely switched off Te ch ni ca www.austriamicrosystems.com/AS3647 1.5-4 33 - 37 AS3647/47B Datasheet, Confidential - P a c k a g e D r a w i n g s a n d M a r k i n g s 10 Package Drawings and Markings Figure 34. WL-CSP13 Marking AS3647 AS3647 <Code> Note: austriamicrosystems logo AS3647 <Code> Encoded Datecode (4 characters) am lc s on A te G nt st il Line 1: Line 2: Line 3: al id lv Figure 35. WL-CSP13 Package Dimensions AS3647 !" ( #$% &$' % % % % % % + + ch + ) ) ) * + + * * ni * ) + ) ) ca ( Te The coplanarity of the balls is 40µm. www.austriamicrosystems.com/AS3647 1.5-4 34 - 37 AS3647/47B Datasheet, Confidential - P a c k a g e D r a w i n g s a n d M a r k i n g s Figure 36. WL-CSP15 Marking AS3647B AS3647B <Code> Note: austriamicrosystems logo AS3647B <Code> Encoded Datecode (4 characters) am lc s on A te G nt st il Line 1: Line 2: Line 3: al id lv Figure 37. WL-CSP15 Package Dimensions AS3647B %* ) ) %* ) ! ! !% !% ! ! % % & & &% &% & & ' ' '% '% ' ' ( ( $ % (% ) ) ) % ch (% % ( ni ( ca ) ! " # Te The coplanarity of the balls is 40µm. www.austriamicrosystems.com/AS3647 1.5-4 35 - 37 AS3647/47B Datasheet, Confidential - O r d e r i n g I n f o r m a t i o n 11 Ordering Information The devices are available as the standard products shown in Table 25. Table 25. Ordering Information Description AS3647B1 ZWLT 1600mA High Current LED Flash Driver 1600mA High Current LED Flash Driver Package Tape & Reel 13-pin WL-CSP (2.25x1.5x0.6mm) 0.5mm pitch RoHS compliant / Pb-Free / Green Tape & Reel 15-pin WL-CSP (2.25x1.5x0.5mm) 0.4mm pitch RoHS compliant / Pb-Free / Green lv AS3647-ZWLT Delivery Form al id Model am lc s on A te G nt st il 1. Check with austriamicrosystems for availability and lead time of AS3647B. AS3647B is only available upon request. Note: All products are RoHS compliant and austriamicrosystems green. Buy our products or get free samples online at ICdirect: http://www.austriamicrosystems.com/ICdirect Technical support is found at http://www.austriamicrosystems.com/Technical-Support For further information and requests, please contact us mailto:[email protected] or find your local distributor at http://www.austriamicrosystems.com/distributor Note: AS3647/47B-ZWLT Te ch ni ca AS3647/47BZ Temperature Range: -30ºC - 85ºC WL Package: Wafer Level Chip Scale Package (WL-CSP) 2.25x1.5x0.6mm T Delivery Form: Tape & Reel www.austriamicrosystems.com/AS3647 1.5-4 36 - 37 AS3647/47B Datasheet, Confidential - O r d e r i n g I n f o r m a t i o n Copyrights Copyright © 1997-2012, austriamicrosystems AG, Schloss Premstaetten, 8141 Unterpremstaetten, Austria-Europe. Trademarks Registered ®. All rights reserved. The material herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. al id All products and companies mentioned are trademarks or registered trademarks of their respective companies. Disclaimer am lc s on A te G nt st il lv Devices sold by austriamicrosystems AG are covered by the warranty and patent indemnification provisions appearing in its Term of Sale. austriamicrosystems AG makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from patent infringement. austriamicrosystems AG reserves the right to change specifications and prices at any time and without notice. Therefore, prior to designing this product into a system, it is necessary to check with austriamicrosystems AG for current information. This product is intended for use in normal commercial applications. Applications requiring extended temperature range, unusual environmental requirements, or high reliability applications, such as military, medical life-support or lifesustaining equipment are specifically not recommended without additional processing by austriamicrosystems AG for each application. For shipments of less than 100 parts the manufacturing flow might show deviations from the standard production flow, such as test flow or test location. ca The information furnished here by austriamicrosystems AG is believed to be correct and accurate. However, austriamicrosystems AG shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interruption of business or indirect, special, incidental or consequential damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical data herein. No obligation or liability to recipient or any third party shall arise or flow out of austriamicrosystems AG rendering of technical or other services. ni Contact Information ch Headquarters austriamicrosystems AG Te Tobelbaderstrasse 30 Schloss Premstaetten A-8141 Austria Tel: +43 (0) 3136 500 0 Fax: +43 (0) 3136 525 01 For Sales Offices, Distributors and Representatives, please visit: http://www.austriamicrosystems.com/contact www.austriamicrosystems.com/AS3647 1.5-4 37 - 37