View ADP1650ACPZ-R7_7686955.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

1.5 a led flash driver with i 2 c-compatible interface adp1650 rev. c information furnished by analog devices is believed to be accurate and reliable. however, no responsibility is assumed by analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specifications subject to change without notice. no license is granted by implication or otherwise under any patent or patent rights of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062-9106, u.s.a. tel: 781.329.4700 www.analog.com fax: 781.461.3113 ?2010C2011 analog devices, inc. all rights reserved. features ultracompact solution small, 2 mm 1.5 mm, 12-ball wlcsp package thin, 3 mm 3 mm 0.75 mm, 10-lead lfcsp package smallest footprint, 1 mm height, 1 h power inductor led current source for local led grounding simplified routing to/from led improved led thermals synchronous 3 mhz pwm boost converter, no external diode high efficiency: 90% peak reduces high levels of input battery current during flash limits battery current drain in torch mode i 2 c programmable currents up to 1500 ma in flash mode for 1 led with 7% accuracy over all conditions currents up to 200 ma in torch mode programmable dc battery current limit (4 settings) programmable flash timer up to 1600 ms low vbat mode to reduce led current automatically 4-bit adc for led v f , die/led temperature readback control i 2 c-compatible control registers external strobe and torch input pins 2 transmitter mask (txmask) inputs safety thermal overload protection inductor fault detection led short-/open-circuit protection applications camera-enabled cellular phones and smart phones digital still cameras, camcorders, and pdas functional block diagram 08837-001 adp1650 10f 1.0h input voltage = 2.7v to 5.0 v vout pgnd sw strobe 10f led_out en sgnd scl sda tx1/torch t x2/iled/adc gpio1 gpio2 max 1.5a vin figure 1. 0 8837-002 digital input/ output li-ion + li-ion + pgnd c 1 l1 inductor led anode c2 area = 16.4mm 2 figure 2. pcb layout (wlcsp) general description the adp1650 is a very compact, highly efficient, single white led flash driver for high resolution camera phones that improves picture and video quality in low light environments. the device integrates a programmable 1.5 mhz or 3 mhz synchronous inductive boost converter, an i 2 c-compatible interface, and a 1500 ma current source. the high switching frequency enables the use of a tiny, 1 mm high, low cost, 1 h power inductor, and the current source permits led cathode grounding for thermally enhanced, low emi, and compact layouts. the led driver maximizes efficiency over the entire battery voltage range to maximize the input-power-to-led-power conversion and to minimize battery current draw during flash events. a programmable dc battery current limit safely maximizes led current for all led v f and battery voltage conditions. two independent txmask inputs permit the flash led current and battery current to reduce quickly during a power amplifier current burst. the i 2 c-compatible interface enables the pro- grammability of timers, currents, and status bit readback for operation monitoring and safety control. the adp1650 is available in a compact 12-ball, 0.5 mm pitch wlcsp package and a 10-lead lfcsp package, and operates within specification over the full ?40c to +125c junction temperature range.
adp1650 rev. c | page 2 of 32 table of contents features .............................................................................................. 1 ? applications....................................................................................... 1 ? functional block diagram .............................................................. 1 ? general description ......................................................................... 1 ? revision history ............................................................................... 2 ? specifications..................................................................................... 3 ? recommended specifications: input and output capacitance and inductance ............................................................................. 5 ? i 2 c-compatible interface timing specifications ..................... 5 ? absolute maximum ratings............................................................ 6 ? thermal data ................................................................................ 6 ? thermal resistance ...................................................................... 6 ? esd caution.................................................................................. 6 ? pin configurations and function descriptions ........................... 7 ? typical performance characteristics ............................................. 8 ? theory of operation ...................................................................... 12 ? white led driver ...................................................................... 12 ? modes of operation ................................................................... 12 ? assist light .................................................................................. 13 ? flash mode .................................................................................. 13 ? assist-to-flash operation ......................................................... 13 ? torch mode ................................................................................. 13 ? torch-to-flash mode ................................................................. 14 ? txmask operation................................................................... 14 ? frequency foldback ................................................................... 14 ? indicator led driver................................................................. 14 ? low battery led current foldback ........................................ 14 ? programmable battery dc current limit.............................. 15 ? analog-to-digital converter operation ................................. 15 ? 5 v output operation ............................................................... 16 ? safety features................................................................................. 18 ? short-circuit fault ..................................................................... 18 ? overvoltage fault ....................................................................... 18 ? dynamic overvoltage mode (dovp) .................................... 18 ? timeout fault.............................................................................. 18 ? overtemperature fault .............................................................. 18 ? indicator led fault ................................................................... 18 ? current limit .............................................................................. 18 ? input undervoltage .................................................................... 18 ? soft start ...................................................................................... 18 ? reset using the enable (en) pin ............................................. 18 ? clearing faults ............................................................................ 18 ? i 2 c interface ................................................................................ 19 ? i 2 c register map............................................................................. 20 ? applications information .............................................................. 26 ? external component selection ................................................ 26 ? pcb layout...................................................................................... 28 ? outline dimensions ....................................................................... 29 ? ordering guide .......................................................................... 29 ? revision history 4 /11rev. b to rev. c added 10-lead lfcsp package........................................universal changes to features section, general description section, and figure 2 caption ............................................................................... 1 changes to table 1............................................................................ 3 changes to table 5............................................................................ 6 added figure 5; renumbered sequentially .................................. 7 changes to table 6............................................................................ 7 changes to pcb layout section and figure 45 caption........... 28 added figure 46.............................................................................. 28 updated outline dimensions ....................................................... 29 changes to ordering guide .......................................................... 29 2/11rev. a to rev. b changes to features section and general description section . 1 changes to switching regulator, voltage output mode, vout voltage parameter and digital inputs/gpio, torch glitch filtering delay parameter, table 1.................................................. 3 changed gnd to power ground throughout .............................6 changed il to i l , iled to i led , led out to led_out, and ibat to i bat throughout ..................................................................8 change to figure 10 caption ...........................................................8 change to figure 11 caption ...........................................................9 changed led_mod = 10 to led_mod = 11 in figure 32 ... 14 changes to analog-to-digital converter operation section and figure 37 .......................................................................................... 15 changes to selecting the output capacitor section.................. 26 6/10rev. 0 to rev. a changes to contact information.....................................................1 5/10revision 0: initial version
adp1650 rev. c | page 3 of 32 specifications v in 1 = 3.6 v, t j = ?40c to +125c for minimum/maximum specifications, and t a = 25c for typical specifications, unless otherwise noted. table 1. parameter 2 conditions min typ max unit supply input voltage range 2.7 5.0 v undervoltage lockout threshold v in falling 2.3 2.4 2.5 v undervoltage lockout hysteresis 50 100 150 mv shutdown current (i q ), en = 0 v t j = ?40c to +85c, current into vin pin, v in = 2.7 v to 4.5 v 0.2 1 a standby current (i stby ), en = 1.8 v t j = ?40c to +85c, current into vin pin, v in = 2.7 v to 4.5 v 3 10 a operating quiescent current torch mode, led current = 100 ma 5.3 ma sw switch leakage t j = ?40c to +85c, v sw 3 = 4.5 v 2 a t j = 25c, v sw 3 = 4.5 v 0.5 a led driver led current assist light, torch assist light value setting = 0 (000 binary) 25 ma assist light value setting = 7 (111 binary) 200 ma flash flash value setting = 0 (00000 binary) 300 ma flash value setting = 24 (11000 binary) 1500 ma led current errorwlcsp i led = 700 ma to 1100 ma ?6 +6 % i led = 300 ma to 650 ma, 1150 ma to 1500 ma ?7 +7 % i led = 75 ma to 200 ma ?10 +10 % i led = 25 ma to 50 ma ?15 +15 % led current errorlfcsp i led = 700 ma to 1100 ma ?6 +6 % i led = 300 ma to 650 ma, 1150 ma to 1500 ma ?7 +7 % i led = 75 ma to 200 ma ?10 +10 % i led = 25 ma to 50 ma ?15 +18 % led current source headroomwlcsp flash, 1200 ma led current 290 mv torch, 200 ma led current 190 mv led current source headroomlfcsp flash, 1200 ma led current 370 mv torch, 200 ma led current 220 mv led_out ramp-up time 0.6 ms led_out ramp-down time 0.1 ms switching regulator switching frequency switching fr equency = 3 mhz 2.8 3 3.2 mhz switching frequency = 1.5 mhz 1.4 1.5 1.6 mhz minimum duty cycle switching frequency = 3 mhz 14 % switching frequency = 1.5 mhz 7 % nfet resistancewlcsp 60 m pfet resistancewlcsp 50 m nfet resistancelfcsp 77 m pfet resistancelfcsp 85 m voltage output mode vout voltagewlcsp 4.575 5.000 5.425 v vout voltagelfcsp 4.575 5.000 5.500 v output current 500 ma line regulation i load at vout = 300 ma 0.3 %/v load regulation ?0.7 %/a
adp1650 rev. c | page 4 of 32 parameter 2 conditions min typ max unit pass-through mode transition, flash vin to led_out, entry 1200 ma led current 580 mv vin to led_out, exit 1200 ma led current 435 mv pass-through mode transition, torch vin to led_out, entry 200 ma led current 380 mv vin to led_out, exit 200 ma led current 285 mv digital inputs/gpio input logic low voltage 0.54 v input logic high voltage 1.26 v gpio1, gpio2, strobe pull-down 390 k torch glitch filtering delay from torch rising edge to device start 5.5 7 7.5 ms indicator led led current accuracy ?22 +22 % short-circuit detection threshold 1.2 v open-circuit detection threshold 2.45 v adc resolution 4 bits error external voltage mode 0 1 lsb v f mode, t j = 25c 1 lsb v f mode, t j = ?40c to +125c 1.5 lsb input voltage range, gpio2 external voltage mode 0 0. 5 v safety features maximum timeout for flash 1600 ms timer accuracy ?7.0 +7.0 % dc current limit dc current value setting = 0 (00 binary) 1.35 1.5 1.65 a dc current value setting = 1 (01 binary) 1.55 1.75 1.95 a dc current value setting = 2 (10 binary) 1.8 2.0 2.2 a dc current value setting = 3 (11 binary) 2.02 2.25 2.5 a low vbat mode transition voltage error 3.2 % hysteresis 50 mv coil peak current limit peak current value setting = 0 (00 binary) 1.55 1.75 1.95 a peak current value setting = 1 (01 binary) 2.02 2.25 2.5 a peak current value setting = 2 (10 binary) 2.47 2.75 3.0 a peak current value setting = 3 (11 binary) 2.7 3.0 3.3 a overvoltage detection threshold 5.15 5.5 5.9 v led_out short-circuit detection comparator reference voltage 1.2 1.3 v thermal shutdown threshold t j rising 150 c t j falling 140 c 1 v in is the input voltage to the circuit. 2 all limits at temperature extremes ar e guaranteed via correlation using standard statistical quality control (sqc). 3 v sw is the voltage on the sw switch pin.
adp1650 rev. c | page 5 of 32 recommended specifications: input and output capacitance and inductance table 2. parameter symbol conditions min typ max unit capacitance c min input t a = ?40c to +125c 4.0 10 f output t a = ?40c to +125c 3.0 10 20 f minimum and maximum inductance l t a = ?40c to +125c 0.6 1.0 1.5 h i 2 c-compatible interface timing specifications table 3. parameter 1 min max unit description f scl 400 khz scl clock frequency t high 0.6 s scl high time t low 1.3 s scl low time t su, dat 100 ns data setup time t hd, dat 0 0.9 s data hold time t su, sta 0.6 s setup time for repeated start t hd, sta 0.6 s hold time for start/repeated start t buf 1.3 s bus free time between a stop and a start condition t su, sto 0.6 s setup time for stop condition t r 20 + 0.1 c b 2 300 ns rise time of scl and sda t f 20 + 0.1 c b 2 300 ns fall time of scl and sda t sp 0 50 ns pulse width of suppressed spike c b 2 400 pf capacitive load for each bus line 1 guaranteed by design. 2 c b is the total capacitance of one bus line in picofarads. sd a scl s s = start condition sr = repeated start condition p = stop condition sr p s t low t r t hd, dat t high t su, dat t f t f t su, sta t hd, sta t sp t su, sto t buf t r 08837-003 figure 3. i 2 c-compatible interface timing diagram
adp1650 rev. c | page 6 of 32 absolute maximum ratings table 4. parameter rating vin, sda, scl, en, gpio1, gpio2, strobe, led_out, sw, vout to power ground ?0.3 v to +6 v pgnd to sgnd ?0.3 v to +0.3 v ambient temperature range (t a ) ?40c to +85c junction temperature range (t j ) ?40c to +125c storage temperature jedec j-std-020 esd human body model 2000 v esd charged device model 500 v esd machine model 150 v stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. thermal data the adp1650 may be damaged if the junction temperature limits are exceeded. monitoring t a does not guarantee that t j is within the specified temperature limits. in applications with high power dissipation and poor thermal resistance, the maximum t a may have to be derated. in applications with moderate power dissipation and low pcb thermal resistance, the maximum t a can exceed the maximum limit as long as the t j is within speci- fication limits. t j of the device is dependent on the t a , the power dissipation (pd) of the device, and the junction-to-ambient thermal resistance ( ja ) of the package. maximum t j is calculated from the t a and pd using the following formula: t j = t a + ( pd ja ) thermal resistance ja of the package is based on modeling and calculation using a 4-layer board. ja is highly dependent on the application and board layout. in applications where high maximum power dissi- pation exists, attention to thermal board design is required. the value of ja may vary, depending on pcb material, layout, and environmental conditions. the specified value of ja is based on a 4-layer, 4 in 3 in, 2 ? oz copper board, per jedec standards. for more information, see the an-617 application note, microcsp? wafer level chip scale package. ja is specified for a device mounted on a jedec 2s2p pcb. table 5. thermal resistance package type ja unit 12-ball wlcsp 75 c/w 10-lead lfcsp 42.5 c/w esd caution
adp1650 rev. c | page 7 of 32 pin configurations and function descriptions top view (ball side down) not to scale pgnd sgnd vin sw gpio2 gpio1 vout strobe en led_out sda scl 1 a b c d 23 ball a1 indicator 08837-004 1 vin 2 gpio2 3 gpio1 4 sda 5 scl 10 strobe 9en 8sw 7vout 6led_out 08837-070 top view adp1650 notes 1. the exposed paddle must be connected to ground. figure 4. wlcsp pin configuration fi gure 5. lfcsp pin configuration table 6. pin function descriptions pin no. wlcsp lfcsp mnemonic description a1 n/a 1 pgnd power ground. a2 n/a 1 sgnd signal ground. a3 1 vin input voltage for the device. connect an input bypass capacitor close to this pin. b1 8 sw boost switch. connect the power inductor between sw and the input capacitor. b2 2 gpio2 iled/tx2/adc. mode is register selectable. red indicator led current source or txmask2 or adc input. iled mode. connect to red led anode. connect the led cathode to power ground. txmask2 mode. reduces the current to the programmable txmask2 current. adc mode. this pin is used as the input pin for the adc. b3 3 gpio1 torch/tx1. mode is register selectable. external torch mode or txmask1 input. torch mode. enables the integrated circuit (ic) in direct torch mode. txmask1 mode. reduces the flash current to the programmable txmask1 current. c1 7 vout boost output. connect an output bypass capacito r very close to this pin. this is the output for the 5 v external voltage mode. c2 10 strobe strobe signal input. this pin synchronizes the flash pulse to the image capture. in most cases, this signal comes directly from the image sensor. c3 9 en enable. set en low to bring the quiescent current (i q ) to <1 a. registers are set to their defaults when en is brought from low to high. d1 6 led_out led current source. connect this pin to the anode of the flash led. d2 4 sda i 2 c data signal in i 2 c mode. d3 5 scl i 2 c clock signal in i 2 c mode. 0 epad exposed pad. connect the exposed pad to the ground plane for the lfcsp version. 1 n/a means not applicable.
adp1650 rev. c | page 8 of 32 typical performance characteristics i l = inductor current, i led = led current, led_out = led output, i bat = battery current. 08837-025 ch1 5v ch2 1a ? ch4 500ma ? ch3 1v m100s a ch1 400mv 3 4 2 1 t 402.2s led_out i led i l strobe figure 6. startup flash mode, v in = 3.6 v, i led = 1500 ma 08837-026 ch1 5v ch2 100ma ? ch4 100ma ? ch3 2v m1.00ms a ch1 600mv 3 4 2 1 t 4.16ms led_out i led gpio1 (torch) i l figure 7. startup torch mode, v in = 3.6 v, i led = 100 ma 08837-028 ch1 2v ch2 1a ? ch4 500ma ? ch3 1v m100s a ch1 440mv 3 4 2 1 t 394.6s i led i l v in = 3.6v str led_out figure 8. 100 ma torch to 1500 ma flash transition 08837-031 ch1 2v ch2 100ma ? ch4 25ma ? m100ns a ch1 1.6v 4 2 1 t 4.16007ms i led sw i l figure 9. switching waveforms, flash mode, i led = 1500 ma 08837-032 ch1 5v ch2 100ma ? ch4 100ma ? ch3 2v m1ms a ch2 88ma 3 4 2 1 t 30.40% vin led_out i led i l figure 10. pass-through to boost mode transition, i led = 100 ma 08837-035 ch1 2v ch4 500ma ? ch3 1v m10s a ch1 680mv 3 4 2 1 t 30.60% ch2 1a ? led_out i bat i led gpio1 (txmask1) figure 11. entry into txmask1 mode
adp1650 rev. c | page 9 of 32 08837-036 ch4 ch2 ch2 2v ch4 500ma ? 1v 1a ? m40s a ch1 680mv 4 3 2 1 t 16% led_out gpio1 (txmask1) i bat i led figure 12. exit from txmask1 mode 2.94 2.95 2.96 2.97 2.98 2.99 3.00 3.01 3.02 3.03 3.04 2.7 3.0 3.3 3.6 3.9 4.2 4.5 4.8 5.1 5.4 f sw (mhz) input voltage (v) ?40c +25c +85c +125c 08837-038 figure 13. switching frequency vs. supply voltage (3 mhz mode) 0 1 2 3 4 5 6 ?40 ?20 0 20 40 60 80 100 120 standby current (a) temperature (c) v in = 2.7v v in = 3.6v v in = 4.5v 08837-043 figure 14. standby current vs. temperature 0 10 20 30 40 50 60 70 80 90 100 0.30.50.70.91.11.31.5 efficien c y (%) led current (a) v in = 4.2v v in = 3.6v v in = 3.4v v in = 3.2v 0 8837-044 figure 15. flash mode efficiency vs. led current 0 10 20 30 40 50 60 70 80 90 100 0.01 0.1 1 efficien c y (%) output current (a) v in = 2.7v v in = 3.0v v in = 3.6v v in = 4.2v 08837-045 figure 16. voltage regulation mode efficiency vs. load current 08837-059 0 50 100 150 200 250 300 350 400 450 500 550 adc result (binary) adc input voltage (mv) 0010 0000 0100 0110 1000 1010 1100 1110 1111 figure 17. adc external voltage mode transfer characteristic
adp1650 rev. c | page 10 of 32 08837-060 0 25 50 75 100 125 150 adc result (binary) die temperature (c) 0010 0000 0100 0110 1000 1010 1100 1110 1111 figure 18. adc die temperature mode transfer characteristic 0 8837-061 2.8 3.0 3.2 3.4 3.6 3.8 4.0 4.2 4.4 adc result (binary) led_out voltage (v) 0010 0000 0100 0110 1000 1010 1100 1110 1111 figure 19. adc led v f mode transfer characteristic 08837-062 3.710 3.715 3.720 3.725 3.730 3.735 3.740 3.745 3.750 3.755 3.760 ?40 10 60 110 code 1000 midpoint (v) v in = 2.7v v in = 3.6v v in = 5.0v temperature (c) figure 20. adc led v f mode, code 1000, midpoint vs. temperature 08837-063 286 287 288 289 290 291 292 293 294 295 ?40 10 60 110 code 1000 midpoint (mv) temperature (c) v in = 2.7v v in = 3.6v v in = 5v figure 21. adc external voltage mode, code 1000, midpoint vs. temperature 08837-066 led current error (%) ?2.5 ?2.0 ?1.5 ?1.0 ?0.5 0 0.5 1.0 ?40 10 60 110 led current error (%) temperature (c) v in = 3.2v v in = 3.6v v in = 4.2v figure 22. led current accuracy vs. temperature, i led = 1200 ma 08837-067 ?3.0 ?2.5 ?2.0 ?1.5 ?1.0 ?0.5 0 0.5 ?40 10 60 110 led current error (%) temperature (c) v in = 3.2v v in = 3.6v v in = 4.2v figure 23. led current accuracy vs. temperature, i led = 800 ma
adp1650 rev. c | page 11 of 32 08837-068 temperature (c) ?2.0 ?1.5 ?1.0 ?0.5 0 0.5 1.0 1.5 2.0 2.5 3.0 ?40 10 60 110 led current error (%) v in = 3.2v v in = 3.6v v in = 4.2v figure 24. led current error vs. temperature, i led = 1500 ma 08837-069 led current error (%) ?2.5 ?2.0 ?1.5 ?1.0 ?0.5 0 0.5 1.0 ?40 10 60 110 led current error (%) temperature (c) v in = 3.2v v in = 3.6v v in = 4.2v figure 25. led current error vs. temperature, i led = 1000 ma
adp1650 rev. c | page 12 of 32 theory of operation the adp1650 is a high power, i 2 c programmable white led driver ideal for driving white leds for use as a camera flash. the adp1650 includes a boost converter and a current regulator suitable for powering one high power white led. white led driver the adp1650 drives a synchronous 3 mhz boost converter as required to power the high power led. if the sum of the led forward voltage and current regulator voltage is higher than the battery voltage, the boost turns on. if the battery voltage is higher than the sum of the led v f and current regulator volt- age, the boost is disabled and the part operates in pass-through mode. the adp1650 uses an integrated pfet high-side current regulator for accurate brightness control. modes of operation once the enable pin is high, the device can be set into the four modes of operation using the led_mod bits in register 0x04, via the i 2 c-compatible interface. led_mod = [00] sets the device in standby mode, consuming 3 a (typical). led_mod = [01] sets the device in fixed vout = 5 v output mode. led_mod = [10] sets the device in assist light mode with continuous led current. led_mod = [11] sets the device in flash mode with current up to 1.5 a available for up to 1.6 sec. led_out pin pwm controller pgnd pgnd vout sw pgnd sgnd vin uvlo ovp fault register ic thermal sensing hpled short hpled driver current sense current sense scl strobe pgnd pgnd agnd c out 10f l1 1f input voltage = 2.7v to 5.0 v c in 10f gpio1 gpio2 sda torch en 5.5v high power led current control led_out 25ma to 1.5a 08837-006 interface and control txmask1 txmask2 4-bit adc vin iled io2_cfg[7:6] io1_cfg[5:4] 2.4v figure 26. detailed block diagram
adp1650 rev. c | page 13 of 32 assist light the assist light provides continuous current programmable from 25 ma to 200 ma. set the assist light current using the i_tor bits (in register 0x03). to enable assist, set led_mod to assist light mode and set output_en = 1 (in register 0x04). disable assist light mode by setting led_mod to standby mode or setting output_en = 0. led current reg 0x03, i_tor = xxx ma reg 0x04, output_en = 1 led_mod = 10 i 2 c data bus reg 0x04, output_en = 0 0a i(assist) 08837-007 figure 27. enabling assist light mode flash mode flash mode provides 300 ma to 1.5 a for a programmable time of up to 1.6 seconds. set the flash current using the i_fl bits (in register 0x03) and the maximum flash duration with the fl_tim bits (in register 0x02). to enable flash mode, set led_mod to flash mode and set output_en = 1. enable flash without strobe by setting str_mode (in register 0x04) to 0 (software strobe). when str_mode is in hardware strobe mode, setting the strobe pin high enables flash and synchronizes it to the image sensor. hardware strobe mode has two modes for timeout: level sensitive and edge sensitive. led current reg 0x04, output_en = 1 str_lv = 1 led_mod = 11 i 2 c data bus 0a i(flash) strobe reg 0x02, fl_tim = xxxx ms reg 0x03, i_fl = xxxxx ma adp1650 sets output_en to 0. adp1650 sets led_mod to 00. 08837-008 figure 28. flash operation: level-sensitive mode in level-sensitive mode, the duration of strobe high sets the duration of the flash up to the maximum time set by the fl_tim timeout. if strobe is kept high longer than the duration set by fl_tim, a timeout fault disables the flash. i 2 c data bus led current reg 0x02, fl_tim = xxxx ms reg 0x03, i_fl = xxxxx ma reg 0x04, output_en = 1 str_lv = 0 led_mod = 11 0a i(flash) strobe adp1650 sets output_en to 0. adp1650 sets led_mod to 00. fl_tim 08837-009 figure 29. flash operatio n: edge-sensitive mode in edge-sensitive mode, a positive edge on the strobe pin enables the flash, and the fl_tim bits set the flash duration. assist-to-flash operation led current reg 0x02, fl_tim = xxxx ms reg 0x03, i_tor = xxx ma reg 0x03, i_fl = xxxxx ma reg 0x04, output_en = 1 str_lv = 1 led_mod = 10 i 2 c d ata bus 0a i(fl a sh) strobe adp1650 sets output_en to 0. adp1650 sets led_mod to 00. i(assist) 08837-010 figure 30. enabling assist to flash (level-sensitive) mode the str_pol bit in register 0x07 changes the default enable of strobe from low to high to high to low. additional image sensor-specific assist/flash enable modes are included in the device, and information on these is available on request from the analog devices, inc., sales team. torch mode set the assist/torch light current using the i_tor bits. to enable torch mode using a logic signal, set led_mod to standby mode and output_en = 1, and then bring gpio1 high. disable external torch mode by setting gpio1 low or programming output_en = 0. bringing gpio1 low during torch mode automatically sets output_en = 0. to enable torch mode again, program output_en = 1, and bring gpio high again. 08837-065 led current reg 0x03, i_tor = xxx ma reg 0x04, output_en = 1 led_mod = 00 i 2 c data bus 0a i(assist) adp1650 sets output_en to 0 gpio1 (torch) figure 31. enabling external torch mode using gpio1
adp1650 rev. c | page 14 of 32 torch-to-flash mode the driver can move directly from external torch mode (using gpio1) to flash mode by bringing strobe high before gpio1 = torch is brought low. bringing torch low before strobe goes high prevents the flash from firing when strobe goes high. the adp1650 returns to standby mode after a successful flash and sets output_en = 0. led current reg 0x02, fl_tim = xxxx ms io1_cfg = 01, torch reg 0x03, i_tor = xxx ma reg 0x03, i_fl = xxxxx ma reg 0x04, output_en = 1 str_lv = 1 led_mod = 00 i 2 c d ata bus 0a i(flash) strobe 08837-064 adp1650 sets output_en to 0 i(assist) torch figure 32. enabling flash mode from external torch mode txmask operation when the adp1650 is in flash mode, the txmask1 and txmask2 functions reduce the battery load in response to the system enabling a power amplifier. the device remains in flash mode, but the led driver output current reduces to the pro- grammed txmask light level in less than 21 s. led current reg 0x02, io1_cfg = 10 fl_tim = xxxx ms reg 0x03, i_fl = xxxxx ma reg 0x06, i_tx1 = xxxx ma reg 0x04, output_en = 1 str_lv = 1 led_mod = 11 i 2 cdatabus 0a i(flash) strobe adp1650 sets output_en to 0. adp1650 sets led_mod to 00. i(txmask1) txmask1 (gpio1) fl_tx1 = 1 0 8837-011 figure 33. txmask1 operation duri ng flash (level-sensitive) mode the device selects the txmask1 or txmask2 current level based on whether the txmask1 or txmask2 input is used. after a txmask1 or txmask2 occurs, a flag is set in the fault information register. when the txmask signal goes low again, the led current goes back to the full flash level in a controlled manner to avoid overshoots on the battery current. if both txmask inputs are set high simultaneously, the txmask1 current level is used. frequency foldback frequency foldback is an optional mode that optimizes efficiency by reducing the switching frequency to 1.5 mhz when vin is slightly less than vout. enable frequency foldback by setting freq_fb = 1 in register 0x04. indicator led driver the indicator led driver on gpio2 provides a programmable current source of between 2.75 ma and 11 ma for driving a red privacy led. the current level is programmed by the i_iled bits in register 0x07. the circuit consists of a programmable current source and a monitoring circuit that uses comparators to determine whether the indicator led is shorted or open. the threshold for detection of a short is 1.2 v (maximum) and an open circuit is 2.45 v (minimum). the indicator led must not be used at the same time as a flash or assist/torch event. low battery led current foldback as the battery discharges, the lower battery voltage results in higher peak currents through the battery esr, which may cause early shutdown of the phone. the adp1650 features an optional low battery detection option, which reduces the flash current (to a programmable level) when the battery voltage falls below a programmable level. reg 0x09, i_vb_lo = xxxx ma v_vb_lo = xxx v i 2 cdatabus strobe adp1650 sets output_en to 0. adp1650 sets led_mod to 00. vin v(v_vb_lo) reg 0x04, output_en = 1 led_mod = 10 fl_vb_lo = 1 50mv hys glitch < 50s ignored 08837-012 figure 34. register 0x09 sets the ba ttery voltage threshold level and the reduced led current level table 7. vdd level at which the vbat low function is enabled bit name vdd level v_vb_lo 000 = disabled (default) 001 = 3.3 v 010 = 3.35 v 011 = 3.4 v 100 = 3.45 v 101 = 3.5 v 110 = 3.55 v 111 = 3.6 v set v_vb_lo = 000 to disable the low battery current foldback.
adp1650 rev. c | page 15 of 32 programmable battery dc current limit the adp1650 has four optional programmable input dc current limits that limit the maximum battery current that can be taken over all conditions. this allows higher led currents to be used in a system with significant variation in led forward voltage (v f ) and supply battery voltage without risk of the current allocated to the flash being exceeded. table 8. input dc current limit setting the led current bit name current limit il_dc 00 = 1.5 a 01 = 1.75 a 10 = 2.0 a (default) 11 = 2.25 a during startup of the flash, if the battery current does not reach the dc current limit, the led current is set to the current value of the i_fl bits. if the battery current does hit the programmed dc current limit on startup, the led current does not increase further. the dc current limit flag is set in the fault information register. the i_fl bits in register 0x03 are set to the actual led current and are available for readback. reg 0x02, fl_tim = xxxx ms reg 0x03, i_fl = xx xxx ma il_dc_en = 1 il_dc = xx a i 2 c data bus strobe adp1650 sets output_en to 0. adp1650 sets led_mod to 00. no limit led current actual led current adp1650 sets fl_idc (reg 0x05) to 1. adp1650 sets i_fl to actual led current. reg 0x04, output_en = 1 str_lv = 1 led_mod = 11 08837-013 figure 35. dc current limit operation in a low battery, high led v f case the camera system shown in figure 36 can adjust the image sensor settings based on the known reduced led current for a low battery and a high v f led. select flash current select max battery current preflash strobe dc limit hit? led current = progammed led current no led current = reduced led current yes battery current = programmed dc limit i 2 c read led current adjust image sensor strobe strobe 08837-014 figure 36. use of the dc current limit in an optimized camera system analog-to-digital converter operation the internal 4-bit analog-to-digital converter (adc) is configura- ble to measure the led v f , integrated circuit (ic) die temperature, or an external voltage using the gpio2 pin. read the 4-bit resolution output code back from register 0x08 using the i 2 c interface. interface/ control led_out sda scl adc_en[1:0] 4-bit adc ic temperature sensor en gpio2 adc_val[5:2] ptc 08837-015 figure 37. available adc modes in the adp1650 the adc can perform the conversion either immediately on an i 2 c command, or it can delay the conversion until the next time the adp1650 exits an active mode. delayed conversion can be useful, for example, for measuring the ic temperature at the end of a timed flash period. to set up a delayed conversion, set adc_en to the required mode while output_en = 0. then set the adp1650 to the desired output mode (torch, flash assist light, or 5 v output) and set output_en = 1. the adc conver- sion is performed when the adp1650 exits the chosen mode. to perform an immediate conversion, set adc_en to the required mode during adp1650 operation (output_en = 1). note that an adc conversion cannot be performed when the adp1650 is idle. this is interpreted as an attempt to set up a delayed conversion. led v f mode the adc can measure the led v f in both flash and assist/ torch modes. in torch mode, set adc_en = 01 to begin a conversion. the value can be read back from the adc_val[5:2] bits 1 ms after the conversion has started. assist/torch mode, rather than flash mode, is best in the handset production test to verify the led v f . reg 0x08, adc_en = 01 start conversion (internal signal) 1 m s adc_val[5:2] available for read i 2 c data bus 08837-016 figure 38. adc timing for all modes except v f measurement in flash mode in flash mode, set adc_en = 01. the conversion happens just before the timeout occurs; therefore, the fl_tim bits set when the adc sample occurs. this allows the v f to settle from the
adp1650 rev. c | page 16 of 32 initial peak as the junction temperature of the led stabilizes. an led temperature vs. flash time profile for the handset pcb design can be generated during the design phase by varying the fl_tim bits from the lowest to the highest setting and collecting a v f sample on each flash. write adc_en = 10 to begin a die temperature measurement. the value can be read back from the adc_val[5:2] bits 1 ms after the conversion has started. the most stable and accurate value of die temperature is available at the end of the flash pulse. external voltage mode led current reg 0x02, fl_tim = xxxx ms reg 0x03, i_fl = xxxxx ma reg 0x04, output_en = 1 str_lv = 0 led_mod = 11 i 2 c data bus 0a i(flash) strobe fl_tim start conversion (internal signal) adc_val[5:2] available for read reg 0x08, adc_en = 01 t s = 1ms 08837-017 the adc measures the voltage on the gpio2 pin when the gpio2 is configured as an adc input by setting io2_cfg = 11. one example is using an external temperature-dependent resistor to create a voltage based on the temperature of the flash led. the en line can be used for biasing to reduce leakage current when the flash is not being used. 5 v output operation the adp1650 can be used as a 5 v boost to supply up to 500 ma for an audio voltage rail or keypad led driver voltage. to move into voltage regulation mode, the output_en bit must be set to 0. to enable the 5 v output, set led_mod[1:0] = 01, and set output_en = 1. the adp1650 sets the vout pin to 5 v and disconnects vout from led_out. the vout pin is connected to the sw node when the adp1650 is not enabled. vout should not be connected directly to a positive external voltage source because this causes current to flow from vout to the battery. figure 39. adc timing for v f measurement in flash mode die temperature mode the adc measures the ic die temperature and provides the result to the i 2 c interface. this is useful during the design phase of the flash system to optimize pcb layout for the best thermal design. adp1650 10f 1.0h input voltage = 2.7v to 5.0 v pgnd sw strobe 10f led_out en sgnd scl sda gpio1 gpio2 off on i 2 c bus sda, scl en applications processor 3.2 megapixel to 5.0 megapixel cmos image sensor power-on reset vout = 5.0v keypad led driver vdd gnd vout* vin 08837-018 *the vout pin is connected to the sw node when the adp1650 is not enabled. vout should not be connected directly to a positive external voltage source because this will cause current to flow from vout to the battery. figure 40. adp1650 voltage regulation mode: led driver application
adp1650 rev. c | page 17 of 32 vout = 5.0v 8.5%, imax = 500ma shutdown vdd out+ out? in+ gnd sd audio in? audio in+ ssm2315 80k ? 80k ? 160k ? 160k ? bias 0.1f adp1650 10f 1.0h input voltage = 2.7v to 5.0 v pgnd sw strobe 10f led_out en sgnd scl sda gpio1 gpio2 off on i 2 c bus sda, scl en applications processor 3.2 to 5.0 megapixel cmos image sensor power-on reset vout vin in? 47nf 47nf fet driver pop/click suppression internal oscillator modulator ( - ? ) 08837-019 figure 41. adp1650 voltage regulation mode: class-d audio application
adp1650 rev. c | page 18 of 32 safety features for critical fault conditions, such as output overvoltage, flash timeout, led output short circuit, and overtemperature conditions, the adp1650 has built-in protection modes. if a critical fault occurs, output_en (register 0x04) is set to 0, and the driver shuts down. the appropriate fault bit is set in the fault information register (register 0x05). the processor can read the fault information register through the i 2 c interface to determine the nature of the fault condition. when the fault register is read, the corresponding fault bit is cleared. if a noncritical event such as an indicator led open/short or a txmask1 or txmask2 event occurs, or the dc current limit or soft inductor current limit is hit, the led driver continues operating. the corresponding information bits are set in the fault information register until the processor reads them. short-circuit fault when the flash driver is disabled, the high-side current regulator disconnects the dc path between the battery and the led, pro- tecting the system from an led short circuit. the led_out pin features short-circuit protection that monitors the led voltage when the led driver is enabled. if the led_out pin remains below the short-circuit detection threshold, a short circuit is detected. bit 6 of the fault information register is set high. the adp1650 remains disabled until the processor clears the fault register. overvoltage fault the adp1650 contains a comparator at the vout pin that monitors the voltage between vout and gnd. if the voltage exceeds 5.5 v (typical), the adp1650 shuts down. bit 7 in the fault information register is read back as high. the adp1650 is disabled until the fault is cleared, ensuring protection against an open circuit. dynamic overvoltage mode (dovp) dynamic ovp mode is a programmable feature that limits the vout voltage exceeding the ovp level while maintaining as much current as possible through the led. this mode prevents an overvoltage fault in the case of a much higher than expected led forward voltage. if the led forward voltage reduces due to the led temperature rising, the adp1650 moves out of dovp mode and regulates the led at the programmed current level. set bit 7 of register 0x07 high to enable dynamic ovp mode. timeout fault when external strobe mode is enabled (register 0x04, bit 2), and strobe is set to level-sensitive mode (register 0x04, bit 5), if the strobe pin remains high for longer than the programmed timeout period, the timeout fault bit (register 0x05, bit 4) is read back as high. the adp1650 remains disabled until the processor clears the fault register. overtemperature fault if the junction temperature of the adp1650 rises above 150c, a thermal protection circuit shuts down the device. bit 5 of the fault information register is set high. the adp1650 remains disabled until the processor clears the fault register. indicator led fault the gpio2 pin features open- and short-circuit protection in the indicator led mode. if a short or open circuit occurs, bit 2 of the fault information register is set high. the indicator led regulator ensures that no damage occurs to the ic during a fault. current limit the internal switch limits battery current by ensuring that the peak inductor current does not exceed the programmed limit (current limit is set by bit 6 and bit 7 in register 0x04). the default mode of the adp1650 is soft current limit mode. if the peak inductor current hits the limit, bit 1 of the fault informa- tion register is set, and the inductor and led current cannot increase further. the adp1650 continues to operate. if the adp1650 has soft current limit disabled and the peak inductor current exceeds the limit, the part shuts down and bit 1 of the fault information register is set high. in this case, adp1650 remains disabled until the processor clears the fault register. input undervoltage the adp1650 includes a battery undervoltage lockout circuit. during 5 v or led operation, if the battery voltage drops below the 2.4 v (typical) input uvlo threshold, the adp1650 shuts down. a power-on reset circuit resets the registers to their default conditions when the voltage rises above the uvlo rising threshold. soft start the adp1650 has a soft start mode that controls the rate of increase of battery current at startup by digitally controlling the output current ramp. the maximum soft start time is 0.6 ms. reset using the enable (en) pin a low-to-high transition on the en pin resets all registers to their default values. bringing en low reduces the i q to 0.2 a (typical). clearing faults the information bits and faults in register 0x05 clear automatically when the processor reads the fault register.
adp1650 rev. c | page 19 of 32 i 2 c interface the adp1650 includes an i 2 c-compatible serial interface for control of the led current, as well as for readback of system status registers. the i 2 c chip address is 0x30 (0x60 in write mode and 0x61 in read mode). additional i 2 c addresses are available on request. figure 42 illustrates the i 2 c write sequence to a single register. the subaddress content selects which of the nine adp1650 registers is written to. the adp1650 sends an acknowledgment to the master after the 8-bit data byte has been written. figure 43 shows the i 2 c read sequence of a single register. the register definitions are shown in the i 2 c register map section. subaddress chip address 01 100 00 0 00 0 = write 0 a dp1650 ack adp1650 ack adp1650 ack adp1650 receives data s t s p master stop 08837-021 figure 42. i 2 c single register write sequence adp1650 ack adp1650 ack adp1650 ack chip address 011000 0 0 0 1 0 master stop chip address s t s t 0110000 0 1 0 0 = write 1 = read s p master ack adp1650 sends data subaddress 08837-020 figure 43. i 2 c single register read sequence
adp1650 rev. c | page 20 of 32 i 2 c register map the lowest bit number (0) represents the least significant bit, and the highest bit number (7) represents the most significant bit. table 9. design information register (register 0x00) bit r/w reset state [7:0] r 00100010 table 10. vref and timer register (register 0x02) bit name bit r/w description io2_cfg [7:6] r/w gpio2 configuration 00 = high impedance (default) 01 = indicator led 10 = txmask2 operation mode 11 = analog input (to adc) io1_cfg [5:4] r/w gpio1 configuration 00 = high impedance (default) 01 = torch 10 = txmask1 operation mode 11 = reserved fl_tim [3:0] r/w flash timer value setting 0000 = 100 ms 0001 = 200 ms 0010 = 300 ms 0011 = 400 ms 0100 = 500 ms 0101 = 600 ms 0110 = 700 ms 0111 = 800 ms 1000 = 900 ms 1001 = 1000 ms 1010 = 1100 ms 1011 = 1200 ms 1100 = 1300 ms 1101 = 1400 ms 1110 = 1500 ms 1111 = 1600 ms (default)
adp1650 rev. c | page 21 of 32 table 11. current set register (register 0x03) bit name bit r/w description i_fl [7:3] r/w flash current value setting 00000 = 300 ma 00001 = 350 ma 00010 = 400 ma 00011 = 450 ma 00100 = 500 ma 00101 = 550 ma 00110 = 600 ma 00111 = 650 ma 01000 = 700 ma 01001 = 750 ma 01010 = 800 ma 01011 = 850 ma 01100 = 900 ma 01101 = 950 ma 01110 = 1000 ma (default) 01111 = 1050 ma 10000 = 1100 ma 10001 = 1150 ma 10010 = 1200 ma 10011 = 1250 ma 10100 = 1300 ma 10101 = 1350 ma 10110 = 1400 ma 10111 = 1450 ma 11000 = 1500 ma i_tor [2:0] r/w torch and assist light current value setting 000 = 25 ma 001 = 50 ma 010 = 75 ma 011 = 100 ma (default) 100 = 125 ma 101 = 150 ma 110 = 175 ma 111 = 200 ma
adp1650 rev. c | page 22 of 32 table 12. output mode register (register 0x04) bit name bit r/w description il_peak [7:6] r/w inductor peak current limit setting 00 = 1.75 a 01 = 2.25 a 10 = 2.75 a (default) 11 = 3.0 a str_lv 5 r/w 0 = edge sensitive 1 = level sensitive (default) freq_fb 4 r/w 0 = frequency foldback to 1.5 mhz not allowed (default) 1 = frequency foldback to 1.5 mhz allowed output_en 3 r/w 0 = output off (default) 1 = output on str_mode 2 r/w 0 = software strobe mode (software flash occurs when output is enabled in flash mode) 1 = hardware strobe mode (the strobe pin must go high for flash) (default) led_mod [1:0] r/w configures led output mode 00 = standby mode (default) 01 = voltage output mode, vout = 5 v 10 = assist light mode 11 = flash mode table 13. fault information register (register 0x05) bit name bit r/w description fl_ovp 7 r 0 = no fault (default) 1 = overvoltage fault fl_sc 6 r 0 = no fault (default) 1 = short-circuit fault fl_ot 5 r 0 = no fault (default) 1 = overtemperature fault fl_to 4 r 0 = no fault (default) 1 = timeout fault fl_tx1 3 r 0 = no txmask1 operation mode during last flash (default) 1 = txmask1 operational mode occurred during last flash fl_io2 2 r if gpio2 is configured as txmask2 0 = no txmask2 operations mode during last flash (default) 1 = txmask2 operational mode occurred during last flash if gpio2 is configured as iled 0 = no fault (default) 1 = indicator led fault fl_il 1 r 0 = no fault (default) 1 = inductor peak current limit fault fl_idc 0 r 0 = programmed dc cu rrent limit not hit (default) 1 = programmed dc current limit hit
adp1650 rev. c | page 23 of 32 table 14. input control register (register 0x06) bit name bit r/w description i_tx2 [7:4] r/w txmask2 operational mode foldback current 0000 = 100 ma 0001 = 150 ma 0010 = 200 ma 0011 = 250 ma 0100 = 300 ma 0101 = 350 ma 0110 = 400 ma (default) 0111 = 450 ma 1000 = 500 ma 1001 = 550 ma 1010 = 600 ma 1011 = 650 ma 1100 = 700 ma 1101 = 750 ma 1110 = 800 ma 1111 = 850 ma i_tx1 [3:0] r/w txmask1 operational mode foldback current 0000 = 100 ma 0001 = 150 ma 0010 = 200 ma 0011 = 250 ma 0100 = 300 ma 0101 = 350 ma 0110 = 400 ma (default) 0111 = 450 ma 1000 = 500 ma 1001 = 550 ma 1010 = 600 ma 1011 = 650 ma 1100 = 700 ma 1101 = 750 ma 1110 = 800 ma 1111 = 850 ma
adp1650 rev. c | page 24 of 32 table 15. additional mode register, ad_mod (register 0x07) bit name bit r/w description dyn_ovp 7 r/w dynamic ovp 0 = dynamic ovp off (default) 1 = dynamic ovp on sw_lo 6 r/w force 1.5 mhz switching frequency 0 = disabled (default) 1 = enabled str_pol 5 r/w strobe polarity 0 = active low 1 = active high (default) i_iled [4:3] r/w indicator led current 00 = 2.75 ma (default) 01 = 5.5 ma 10 = 8.25 ma 11 = 11 ma il_dc [2:1] r/w input dc current limit setting led current 00 = 1.5 a 01 = 1.75 a 10 = 2.0 a (default) 11 = 2.25 a il_dc_en 0 r/w input dc current limit 0 = disabled (default) 1 = enabled table 16. additional mode register, adc (register 0x08) bit name bit r/w description reserved 7 r/w test mode 0 = disabled (default) 1 = enabled fl_vb_lo 6 r programmed vbat low threshold status; lo w battery mode must be enabled in register 0x09 0 = vdd is greater than the vbat low threshold (default) 1 = vdd is less than the vbat low threshold adc_val [5:2] r/w adc readback value; four bits (see figure 17 , figure 18 , and figure 19 ) adc_en [1:0] r/w adc enable mode 00 = disabled (default) 01 = led v f measurement 10 = die temperature measurement 11 = external voltage mode
adp1650 rev. c | page 25 of 32 table 17. battery low mode register (register 0x09) bit name bit r/w description cl_soft 7 r/w soft inductor peak current limit 0 = disabled (adp1650 is disabled when th e inductor peak current limit is hit) 1 = enabled (default) i_vb_lo [6:3] r current setting for vbat low mode 0000 = 300 ma 0001 = 350 ma 0010 = 400 ma 0011 = 450 ma 0100 = 500 ma 0101 = 550 ma 0110 = 600 ma 0111 = 650 ma 1000 = 700 ma 1001 = 750 ma 1010 = 800 ma (default) 1011 = 850 ma 1100 = 900 ma 1101 = 950 ma 1110 = 1000 ma 1111 = 1050 ma v_vb_lo [2:0] r/w vdd level where vbat low function is enabled 000 = disabled (default) 001 = 3.3 v 010 = 3.35 v 011 = 3.4 v 100 = 3.45 v 101 = 3.5 v 110 = 3.55 v 111 = 3.6 v
adp1650 rev. c | page 26 of 32 applications information external component selection selecting the inductor the adp1650 boost converter increases the battery voltage to allow driving of one led, whose voltage drop is higher than the battery voltage plus the current source headroom voltage. this allows the converter to regulate the led current over the entire battery voltage range and with a wide variation of led forward voltage. the inductor saturation current should be greater than the sum of the dc input current and half the inductor ripple current. a reduction in the effective inductance due to saturation increases the inductor current ripple. table 18 provides a list of recom- mended inductors. selecting the input capacitor the adp1650 requires an input bypass capacitor to supply transient currents while maintaining constant input and output voltages. the input capacitor carries the input ripple current, allowing the input power source to supply only the dc current. increased input capacitance reduces the amplitude of the switching frequency ripple on the battery. due to the dc bias characteristics of ceramic capacitors, a 0603, 6.3 v, x5r/x7r, 10 f ceramic capacitor is preferable. higher value input capacitors help to reduce the input voltage ripple and improve transient response. to minimize supply noise, place the input capacitor as close to the vin pin of the adp1650 as possible. as with the output capacitor, a low esr capacitor is required. table 19 provides a list of suggested input capacitors. selecting the output capacitor the output capacitor maintains the output voltage and supplies the led current during the nfet power switch on period. it also stabilizes the loop. the recommended capacitor is a 10 f, 6.3 v, x5r/x7r ceramic capacitor. note that dc bias characterization data is available from capa- citor manufacturers and should be taken into account when selecting input and output capacitors. the 6.3 v capacitors are best for most designs. table 20 provides a list of recommended output capacitors. higher output capacitor values reduce the output voltage ripple and improve load transient response. when choosing this value, it is also important to account for the loss of capacitance due to output voltage dc bias. ceramic capacitors have a variety of dielectrics, each with different behavior over temperature and applied voltage. capacitors must have a dielectric that ensures the minimum capacitance over the necessary temperature range and dc bias conditions. x5r or x7r dielectrics with a voltage rating of 6.3 v or 10 v are recommended for best performance. y5v and z5u dielectrics are not recom- mended for use with any dc-to-dc converter because of their poor temperature and dc bias characteristics. table 18. suggested inductors vendor value (h) part no. dcr (m) isat (a) dimensions l w h (mm) toko 1.0 fdsd0312 41.5 4.5 3.0 3.0 1.2 toko 1.0 dfe2520 50 3.4 2.5 2.0 1.2 coilcraft 1.0 xfl3010 43 2.4 3.0 3.0 1.0 murata 1.0 lqm32p_g0 60 3 3.2 2.5 1.0 fdk 1.0 mips3226d 40 3 2.5 2.0 1.2 table 19. suggested input capacitors vendor value part no. dimensions l w h (mm) murata 10 f, 6.3 v grm188r60j106me47 1.6 0.8 0.8 tdk 10 f, 6.3 v c1608jb0j106k 1.6 0.8 0.8 taiyo yuden 10 f, 6.3 v jmk107bj106ma 1.6 0.8 0.8 table 20. suggested output capacitors vendor value part no. dimensions l w h (mm) murata 10 f, 6.3 v grm188r60j106me47 1.6 0.8 0.8 tdk 10 f, 6.3 v c1608jb0j106k 1.6 0.8 0.8 taiyo yuden 10 f, 6.3 v jmk107bj106ma 1.6 0.8 0.8
adp1650 rev. c | page 27 of 32 the worst-case capacitance accounting for capacitor variation over temperature, component tolerance, and voltage is calcu- lated using the following equation: c eff = c out (1 ? tempco ) (1 ? tol) where: c eff is the effective capacitance at the operating voltage. tempco is the worst-case capacitor temperature coefficient. tol is the worst-case component tolerance. in this example, the 10 f x5r capacitor has the following characteristics: tempco from ?40c to +85c is 15%. tol is 10%. c out at vout (max) = 5 v, is 3 f, as shown in figure 44 . 08837-022 10 0 ?10 ?20 ?30 ?40 ?50 ?60 ?70 ?80 ?90 6.30 5.04 3.78 2.52 dc bias voltage (v) c a pacitance change (%) 1.26 0 figure 44. dc bias characteristic of a 3 6.3 v, 10 f ceramic capacitor substituting these values in the equation yields c eff = 3 f (1 ? 0.15) (1 ? 0.1) = 2.29 f the effective capacitance needed for stability, which includes temperature and dc bias effects, is 3.0 f.
adp1650 rev. c | page 28 of 32 pcb layout poor layout can affect performance, causing electromagnetic interference (emi) and electromagnetic compatibility (emc) problems, ground bounce, and power losses. poor layout can also affect regulation and stability. figure 45 shows optimized layouts implemented using the following guidelines: ? place the inductor, input capacitor, and output capacitor close to the ic using short tracks. these components carry high switching frequencies and large currents. ? route the trace from the inductor to the sw pin with as wide a trace as possible. the easiest path is through the center of the output capacitor. ? route the led_out path away from the inductor and sw node to minimize noise and magnetic interference. ? maximize the size of ground metal on the component side to help with thermal dissipation. ? use a ground plane with two to three vias connecting to the component side ground near the output capacitor to reduce noise interference on sensitive circuit nodes. ? with the lfcsp package, six to eight thermal vias connect the ground paddle to the main pcb ground plane. ? analog devices applications engineers can be contacted through the analog devices sales team to discuss different layouts based on system design constraints. 0 8837-023 digital input/ output li-ion + li-ion + pgnd c 1 l1 inductor led anode c2 area = 16.4mm 2 figure 45. layout of the adp1650 driving a high power white led (wlcsp) 08837-024 c1 a dp1650 li-ion + l1 inductor pgnd gnd pgnd vout sda scl gpio2 g pi o 1 strobe en sw vout led_out vin c2 figure 46. example layout of the adp1650 driving a high power white led (lfcsp)
adp1650 rev. c | page 29 of 32 outline dimensions 020409-b a b c d 0.660 0.602 0.544 1.54 1.50 1.46 2.04 2.00 1.96 1 2 3 bottom view (ball side up) top view (ball side down) 0.330 0.310 0.290 1.50 ref seating plane 1.00 ref 0.50 ref 0.380 0.352 0.324 0.280 0.250 0.220 0.04 max coplanarity 0.022 ref ball a1 identifier figure 47. 12-ball wafer level chip scale package [wlcsp] (cb-12-4) dimensions shown in millimeters 2.48 2.38 2.23 0.50 0.40 0.30 121009-a top view 10 1 6 5 0.30 0.25 0.20 bottom view pin 1 index area seating plane 0.80 0.75 0.70 1.74 1.64 1.49 0.20 ref 0.05 max 0.02 nom 0.50 bsc exposed pad 3.10 3.00 sq 2.90 p i n 1 i n d i c a t o r ( r 0 . 1 5 ) for proper connection of the exposed pad, refer to the pin configuration and function descriptions section of this data sheet. figure 48. 10-lead lead frame chip scale package [lfcsp_wd] 3 mm 3 mm body, very very thin, dual lead (cp-10-9) dimensions shown in millimeters ordering guide model 1 temperature range package description package option 2 branding adp1650acbz-r7 ?40c to +125c 12-ball wafer level chip scale package [wlcsp] cb-12-4 le4 ADP1650ACPZ-R7 ?40c to +125c 10-lead frame chip scale package [lfcsp_wd] cp-10-9 lgx adp1650cb-evalz evaluation board wlcsp package adp1650cp-evalz evaluation board lfcsp package 1 z = rohs compliant part. 2 this package option is halide free.
adp1650 rev. c | page 30 of 32 notes
adp1650 rev. c | page 31 of 32 notes
adp1650 rev. c | page 32 of 32 notes ?2010C2011 analog devices, inc. all rights reserved. trademarks and registered trademarks are the property of their respective owners. d08837-0-4 /11(c)

▲Up To Search▲

Price & Availability of ADP1650ACPZ-R7

	To Download ADP1650ACPZ-R7 Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .