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as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 1 - 33 1 general description t he as3693b1 is a 16 channels high precision led controller with build in pwm generators for driving external fets in lcd-backlight panels. external clock and synchronizing inputs allow the synchronization of the lcd backlight with the tv picture. local dimming and scan dimming is supported by 16 independent pwm generators with programmable delay, period and duty cycle. three free configurable dynamic power feedback circuits make the device usable for white led as well as rgb backlights. build in safety features include thermal shutdown as well as open and short led detection. all circuit parameters are programmable via i2c or spi interface. 2 key features � 16 channel led driver � output current only limited by external transistor � output voltage 0.4v to 50v � absolute current accuracy +/- 0.5% � output slew rate programmable � current programmable with external resistor � linear current control with 8 - bit dac � linear current control with external analog voltage � digital current control with 16 independent pwm generators � free programmable 12 bit resolution ( period, high time and delay ) � overvoltage detection ( short led ) � undervoltage detection ( open led ) � temperature shutdown � fault interrupt output � h-sync, v-sync inputs to synchronize with tv- set � internal or external pwm ? clock � i2c interface � spi interface � 5 bit device - address (sets device address and interface mode) � automatic supply regulation feedback � each output can be assigned to red, green or blue feedback. � package mlf64, lqfp64 3 applications ? led backlighting for lcd ? tv sets and monitors product specification, confidential as3693b1?16 channel high precision led driver for l cd backlight ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 2 - 33 4 block diagram spi / i2c interface vreg vsupply hsync vsync scl sda sdo cs v2_5 ref fbr fbb fbg as3693b v2_5 addr2 addr1 fault 86 byte registers reference, dac fault detectors smps feedback pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm pwm typical application gnd fbb vreg sdi v2_5 agnd power supply as3693b 16 output sclk xcs sdo fault rvreg hsync vsync vdcdc cfb rfb v2_5 2.2uf 2.2uf channels 10uf addr1 addr2 ( exposed pad ) 100k 100k 10k 10k 10k 10k 10k ref(ext) 2.2uf fbg fbr cfb 10uf cfb 10uf micro controller curr1 rfb1 gate1 curr2 rfb2 gate2 curr15 rfb15 gate15 curr16 rfb16 gate16 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 3 - 33 table of contents 1 general description ....................................................................................................................................... 1 2 key features .................................................................................................................................................. 1 3 applications .................................................................................................................................................... 1 4 block diagram ................................................................................................................................................ 2 5 characteristics ............................................................................................................................................... 4 5.1 absolute maximum ratings .................................................................................................................... 4 5.2 operating conditions .............................................................................................................................. 5 5.3 electrical characteristics ......................................................................................................................... 5 6 typical operation characteristics .................................................................................................................. 8 6.1 output current vs output voltage ........................................................................................................... 8 6.2 vsupply vs vreg and v2.5 at startup .................................................................................................... 8 6.3 9us slew rate ......................................................................................................................................... 9 6.4 supply regulation ................................................................................................................................... 9 7 block description ......................................................................................................................................... 10 7.1 feedback circuit ................................................................................................................................... 10 7.1.1 feedback selection ....................................................................................................................... 12 7.1.2 voltage fault registers .................................................................................................................... 13 7.2 curreg 1-16 ........................................................................................................................................... 13 7.3 pwm ? modes ...................................................................................................................................... 15 7.3.1 sync mode (pwm_mode = 00) .................................................................................................. 15 7.3.2 async ? mode (pwm_mode = 01) ............................................................................................ 17 7.4 pwm ? high time, period and delay registers ....................................................................................... 18 7.5 shunt regulator .................................................................................................................................... 19 7.5.1 undervoltage lockout ..................................................................................................................... 19 7.6 over temperature control ...................................................................................................................... 19 7.7 device address setup ........................................................................................................................... 20 7.7.1 i2c device address setup ............................................................................................................. 20 7.7.2 spi device address setup ............................................................................................................. 20 7.8 digital interface ..................................................................................................................................... 21 7.8.1 i2c interface .................................................................................................................................. 21 7.8.2 spi interface .................................................................................................................................. 23 8 register map ................................................................................................................................................ 25 9 pinout and packaging .................................................................................................................................. 28 9.1 pinout.................................................................................................................................................... 28 9.2 package drawing mlf64 ...................................................................................................................... 30 9.3 package drawing lqfp64 .................................................................................................................... 31 10 ordering information .................................................................................................................................... 32 copyright ............................................................................................................................................................. 33 disclaimer ........................................................................................................................................................... 33 contact information ............................................................................................................................................. 33 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 4 - 33 5 characteristics 5. 1 absolute maximum ratings stresses beyond those listed in table 1 may cause permanent damage to the device. these are stress ratings o nly and functional operation of the device at these or any other conditions beyond those indicated in section 5 electrical characteristics is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. table 1 ? absolute maximum ratings symbol parameter min max unit note v ddmax supply for led?s -0.3 >50 v see notes 1 v invreg vreg supply voltage -0.3 7.0 v applicable for pin vreg i invreg maximum vreg current 1 00 ma maximum current flowing into vreg v in2.5v 2 .5 v pins -0 .3 v2_5+0.3v v applicable for 2.5v pins 4 v in5v 5 v pins -0.3 vreg+ 0.3v v applicable for 5v pins 2 v in50v 5 0v pins -0.3 55 v applicable for curr1, curr2, curr3 up to curr16 i in i nput pin current -25 +25 ma at 25oc, norm: jedec 17 t strg storage temperature range - 55 150 c humidity 5 85 % non condensing v esd el ectrostatic discharge on pins curr1 ? curr16 -4000 4000 v norm: mil 883 e method 3015 v esd electrostatic discharge on all pins -2000 2000 v norm: mil 883 e method 3015 pt total power dissipation 3.8w w at ta = 25oc, no airflow for mlf64 on two layer fr4-cu pcb 3 p derate pt derating factor 40 mw/ c see notes 3 t body bo dy temperature during soldering 260 c according to ipc/jedec j-std- 020c notes: 1, as the as3693b1 is not directly connected to this supply. only the parameters v invreg , v in5v and v in50v have to be guaranteed by the application 2 , all pins except curr1 to curr16 and 2.5v 3, copper area > 9 cm2, thermal vias 4, 2.5v pins are fault, sdo, addr1 and addr2 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 5 - 33 5.2 operating conditions t est circuit vcurr v2_5 2.2uf 10k 10k 2.2uf vreg gnd fbb vreg sdi v2_5 agnd as3693b sclk xcs sdo fault hsync vsync addr1 addr2 ( exposed pad ) ref(ext) fbg fbr curr1 rfb1 gate1 curr2 rfb2 gate2 curr15 rfb15 gate15 curr16 rfb16 gate16 table 2 ? operating conditions symbol parameter min typ max unit note vdd main supply not limited v supply is not directly connected to the as3693b1 ? see section ?shunt regulator? vdd tol main supply voltage tolerance -20 +20 % applies only for supply vreg is connected via rvdd vreg int supply (shunt regulated by as3693b1) 5.0 5.2 5.4 v if internally (shunt-)regulated by zd1 vreg ext 4.0 4.5 4.9 v if externally supplied vuvl untervoltage lockout voltage 2.4 2 .7 3 v if vreg < uvul current sources are turned off ( addr 0x01,addr 0x02 = 0x00 ) i vreg su pply current (chip current consumption) 20 ma excluding current through shunt regulator (zd1) ? see section ?shunt regulator? . note: take care of the power dissipation of the external resistor. i vreg_m a x m aximum supply current 30 ma maximum current into vreg ? pin (supply current + shunt regulator current). i vreg ext_off 350 ua condition: externally supplied curr_reg1-16 off (register 01h = 00h, register 02h = 00h) igate gate driving capability 0.5 1 2 ma gate1 ? gate16 output current rcurrx input resistance at pins currx 100 k � 5.3 electrical characteristics table 3 ? analog electrical characteristics symbol parameter min typ max unit note v curr voltage at curr1 to curr16 50.0 v ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 6 - 33 symbol parameter min typ max unit note i curr, tol c urrent source tolerance -0.5 +0.5 % using 250mv reference @25c t junction , excluding v ariation of external resistors -1.5 +1.5 % using 250mv reference -20c to +100c (1) t junction , - 20c to +85c t amb , excluding v ariation of external resistors; v(currx) <= 4.0v -1.6 +1.6 % using dac reference vdac =250mv ( data = 0x80 ) @25c t junction , excluding v ariation of external resistors dac_inl dac inl -4 +4 lsb vc au tomatic supply regulation trip point 0.5 1 v see section ?feedback circuit (dcdc_regulation_trip_point)?. v c,gain automatic supply regulation gain 2.0 ma/v voltage to current ratio; output current range typ. 0 to 200ua t ovtemp over temperature limit 130 140 150 c maximum junction temperature (2) thyst over temperature hysteresis 10 c clk internal clock for pwm 400 500 600 khz clock for internal pwm generation notes: 1, accuracy at +100c guaranteed by design and verified by laboratory characterization 2, if the temperature exceeds the over temperature limit, the pwm will be turned off. if the temperature decreases, the pwm is activated again. the register settings are not reset. table 4 ? digital input pins characteristics (sdi,vsync,hsync,scl,cs) symbol parameter min typ max unit note v ih high level input voltage 1.3 vr eg v v il low level input voltage -0.3 0 .4 v f _scl maximum scl frequency 1 0 mhz f _hsync maximum hsync frequency 10 mhz output driver is slew rate limited ( register: curreg_control 0x0d ) t s_vh vsync setup time before rising e dge of hsync 15 ns sync-mode: pwm values are updated with first r ising edge of hsync while vsync = 1 ( see 7.3.1.1 ) t h_vh vsync hold time after rising edge of hsync 15 ns t s_sciscl setup time sdi,scl 15 ns spi interface mode t h_sclsci hold time scl,sdi 15 ns spi interface mode t s_csscl setup time cs,scl 15 ns spi interface mode t h_sclcs hold time scl, cs 15 ns spi interface mode t buf bu s free time between stop and start conditions 1.3 us i2c interface mode t setupstart setup time for repeated start condition 100 ns i2c interface mode ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 7 - 33 symbol parameter min typ max unit note t holdstart hold time for repeated start condition 160 ns i2c interface mode t setupstop setup time for stop condition 160 ns i2c interface mode table 5 ? digital output pins characteristics (sdo) symbol parameter min typ max unit note v oh high level output voltage 2.4 2 .5 v v ol low level output voltage -0.3 0 .4 v ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 8 - 33 6 typical operation characteristics 6.1 output current vs output voltage 0 0,02 0,04 0,06 0,08 0,1 0,12 0,14 0,16 0 5 10 15 20 25 150ma 75ma 25ma 6.2 vsupply vs vreg and v2.5 at startup channel 1 = vreg channel 2 = v2_5 channel3 = vsupply ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 9 - 33 6.3 9us slew rate t rr channel 1 = voltage on current source channel 2 + voltage on res pin 6.4 supply regulation channel 1 = dcdc vout (30v) channel 2 = voltage on res pin channel 3 = voltage on curr pin ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 10 - 33 7 block description 7. 1 feedback circuit the as3693b1 supports a flexible feedback selection for external dcdc ? supplies. beside the default setup for r ggb lighting, each channel can be assigned to an external dcdc feedback loop. this feedback circuit is important to reduce power dissipation of the device. table 6 ? feedback control addr: 04h feedback control enables and disables the different feedback modes bit bit name default access description 0 feedback on 1 r/w 1 = feedback circuit is active 0 = the entire feedback loop is disabled 1 feedback on pwm 0 r/w 0 = the feedback regulator is always active 1 = the feedback regulator is only active, if pwm = 1 2 open_led_det_on 0 r/w en ables open led detection comparators 0 = open led detection disabled 1 = open led detection enabled 3 short_det_on 0 r/w en ables short detection 0 = short detection off 1 = sort detection on 5:4 vs_l 00 r/w sh ort led detection voltage ( debounced 3ms ) detection voltage is defined by addr 0x58h bit[1:0] and addr 0x04 bit[5:4] and the dac output voltage addr 0x58h addr 0x04h b it]1] bit[0] bit]5] bit[4] code 0 0 0 0 = 3 0 0 0 1 = 5 0 0 1 0 = 0 0 0 1 1 = 1 0 1 0 0 = 6 0 1 0 1 = 7 0 1 1 0 = 2 0 1 1 1 = 4 1 0 0 0 = 10 do not use ( >11v) 1 0 0 1 = 11 do not use ( >11v) 1 0 1 0 = 8 1 0 11 = 9 do not use ( >11v) t he short led detection voltage can be calculated: vshort = 5*(0.6 + 0.2* code ) - 4* vdac the resulting voltage vshort must be <= 11v 7:6 dcdc_regulation_tri p point (vc) 00 r/w t rip point voltage of the dcdc-feedback regulation circuit. (note: this value has to be adjusted if analog ref select bit is changed.) 00 = 0.5v (note use for currents up to 70 ma) 01 = 0.6v (note use for currents up to 80 ma) 10 = 0.8v (note use for currents up to 110 ma) 11 = 1.0v (note use for currents up to 150 ma) table 6a ? short detect high addr: 58h short led high high bits of short led detection voltage bit bit name default access description 1:0 vs_h 00 r/w sh ort led detection voltage ( debounced 3ms ) detection voltage is defined by addr 0x58h bit[1:0] and addr 0x04 bit[5:4] ( see addr. 0x04 definition ) ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 11 - 33 7:2 000000 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 12 - 33 7.1.1 feedback selection in the as3693b1, each led ? string feedback can be assigned to the specific led-supply, to minimize the power c onsumption in the system. it can be chosen in between fbr, fbg and fbb. fb r fb g fb b nofb vc shortled ref openled vsl vol 1 2 3...16 r5 as3693b analog regulation circuit 16 regulators feedback resistor divider (part of dcdc converter circuit) voltage feedback input for dcdc from main supply r1 r2 r3 c1 vfb voltage feedback input for dcdc dcdc converter for vdd (internal or externa)l table 7 ? feedback selection addr: 05h,06h,07h,08h feedback select 1-4 this register controls the feedback of the automatic feedback loop bit bit name default access description 1:0 fb1_select fb5_select fb9_select fb13_select 00 r/w selects the feedback of the voltage regulators 00= regulator on fbr 01= regulator on fbg 10= regulator on fbb 11= regulator not connected to fb 3:2 fb2_select fb6_select fb10_select fb14_select 01 r/w selects the feedback of the voltage regulators 00= regulator on fbr 01= regulator on fbg 10= regulator on fbb 11= regulator not connected to fb 5:4 fb3_select fb7_select fb11_select fb15_select 01 r/w selects the feedback of the voltage regulators 00= regulator on fbr 01= regulator on fbg 10= regulator on fbb 11= regulator not connected to fb 7:6 fb4_select fb8_select fb12_select fb16_select 10 r/w selects the feedback of the voltage regulators 00= regulator on fbr 01= regulator on fbg 10= regulator on fbb 11= regulator not connected to fb ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 13 - 33 7.1.2 voltage fault registers in this registers an open or short led fault can be detected. if an open or short led error occurs, pin fault is pulled t o 0 (3 ms debounced ). remark: at 100% pwm duty cycle, short and open led fault detection is not available. please set pwm to 99% duty cycle. t able 8 ? fault registers addr: 09h-0ch voltage fault 1,2,3,4 this register shows a fault on any led string bit bit name default access description 1:0 fault_reg 1 fault_reg 5 fault_reg 9 fault_reg 13 00 r sh ows a error on any led string 00 = no fault 01 = open led 10 = short led 3:2 fault_reg 2 f ault_reg 6 fault_reg 10 fault_reg 14 00 r sh ows a error on any led string 00 = no fault 01 = open led 10 = short led 5:4 fault_reg 3 f ault_reg 7 fault_reg 11 fault_reg 15 00 r sh ows a error on any led string 00 = no fault 01 = open led 10 = short led 7:6 fault_reg 4 fault_reg 8 fault_reg 12 fault_reg 16 00 r sh ows a error on any led string 00 = no fault 01 = open led 10 = short led 7.2 curreg 1-16 each current source can be turned on and off separately. table 9 ?reg. control 1 addr: 01h reg. control1 this register enables or disables the curreg 1 - 8 bit bit name default access description 7:0 curreg 1-8_on 00000000 r/w enables or disables the current regulators 0 = regulator off 1 = regulator on table 10? reg.control 2 addr: 02h reg. control2 this register enables or disables the curreg 9-16 bit bit name default access description 7:0 curreg 9 -16_on 00000000 r/w enables or disables the current regulators 0 = regulator off 1 = regulator on ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 14 - 33 table 11 ?curreg_control addr: 0dh curreg control controls rise, fall times and references of the curreg. bit bit name default access description 1:0 analog ref select 00 r/w voltage reference for the current regulators can be chosen with these options. 00 = 250mv reference 01 = external reference 10 = dac reference 11 = do not use 3:2 slew_rate_cont rol 0 0 r/w sl ew ? rate ? control. adjusts the rise and fall time of the current switching 00 = typ. 9us 01 = typ. 6us 10 = typ. 3us 11 = typ. 1us 4 oled voltage 0 r/w vo ltage for open led sense 0=100mv 1=200mv 5 oled sense 0 r/w so urce for open led sense 0=drain of external transistor 1=source of external transistor 6 do not change 0 r/w for internal use only. do not change 7 boost mode 0 r/w g ives +30% current. only available in internal reference mode. 0,5% vref 250mv 8bit dac 0...500mv external reference as3693b reference sources analog ref select pwm curreg 1 2 3-16 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 15 - 33 table 12 ? ref_dac_voltage addr: 0eh ref_dac_voltage the regulation voltage can be chosen in this register bit bit name default access description 70 ref_dac_voltage 00 r /w reference voltage for current regulators. (note: if analog ref select = 10, the regulation voltage can be adjusted here. 00000000 = 0mv 00000001 ? 01111111 = 250 mv .. 11111111= 500mv 7.3 pwm ? modes table 14? pwm control addr: 0fh pwm_mode controls the different pwm modes and internal or external pwm bit bit name default access description 1:0 pwm_mode 0 1 r/w 00 sync mode 0 1 async - mode 10 not used 11 not used note: sync mode can only be used with pwm int = 0. 2 pwm int/ext 1 r/w 0 pwm generator uses external h and vsync clock 1 pwm generator uses internal 500khz clock. 3 vsync_invert 0 r/w 0 vsync active high (pwm triggers on rising edge) 1 vsync active low (pwm triggers on falling edge) 4 pwminvert 0 r/w 0 pwm normal (pwm starts with ?1? after delay) 1 pwm inverted(pwm starts with ?0? after delay) note: if vsync or hsync is not used, connect it to gnd. 7.3.1 sync mode (pwm_mode = 00) in this mode the pwm is synchronized with vsync and hsync. delay reg: n counter reg: m compare r reset vsync hsync compare reg: p or pwm pwminvert( register 0x0f ) ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 16 - 33 se tup options: delay (n) = registers 0h32 to 0h51 high time (m) = registers 0h12 to 0h31 pwm period (p) = register 0h10 v sync hs ync delay =n * t hsync p wm p wm p eriode = t vsyunc p wm duration = t vsync p wm reset p wm s ignal: high time = m * t hsync p * t hsync > t vsync reset with vsync p wm p wm p eriode = p * t hsync p wm s ignal: high time = m * t hsync p * t hsync < t vsync repetitive pwm reset with p * t hsync restart example: two pwm output channels with fixed delays and variable high times (ht) pwminvert = 0 pwminvert = 1 7.3.1.1 sync ? mode pwm ? generator update cycle. ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 17 - 33 vsync delayed vs ync (internal) pwm -store new values from serial interface -update delay immediately update hightime, period -store new values from serial interface -update delay immediately -no new data -new data hsync shift new data in pwm C state maschine restart pwm vsync 7.3.2 async ? mode (pwm_mode = 01) this pwm is synchronized with hsync or internal 500khz clock. the registers are updated with each serial data. counter reg: m compare r reset vsync hsync compare reg: p pwm pwminvert( register 0x0f ) high time (m) = registers 0h12 to 0h 31 pwm period (p) = register 0h10 hs ync p wm p wm p eriode = p * t hsync p wm s ignal: high time = m * t hsync asyncmode repetitive pwm no reset syncronized on hsync or internal clock ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 18 - 33 7.4 pwm ? high time, period and delay registers table 15 ? curreg1-16_delay_lsb addr: 32h ? 50h curregx_delay_lsb defines delay of the different pwm?s bit bit name default access description 7:0 curregx_delay_lsb 00000000 r/w defines the delay time of the pwm table 16 ? curreg1-16_delay_msb addr: 32h-51h curregx_delay_lsb defines delay of the different pwm?s bit bit name default access description 3:0 curregx_delay_msb 0000 r/w d efines the delay time of the pwm table 17? pwm_period_lsb addr: 10h pwm ? period ? lsb defines pwm ? periode bit bit name default access description 7:0 pwm_period_lsb 11111111 r/w defines the period of the pwm table 18? pwm_period_msb addr: 11h pwm ? period ? msb defines pwm ? periode bit bit name default access description 3:0 pwm_period_msb 0000 r/w d efines the period of the pwm table 19? curreg1-16_ht_lsb addr: 12h-30h curregx_ht_lsb defines high time of pwm bit bit name default access description 7:0 curreg1_ht_lsb 0 r/w d efines pwm high time ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 19 - 33 table 20? curreg1-16_ht_msb addr: 13h-31h curregx_ht_msb defines high time of pwm bit bit name default access description 3:0 curreg1_ht_msb 0000 r/w d efines pwm high time 7.5 shunt regulator t he supply of the as3693b1 is generated from the high voltage supply. to obtain a 5v regulated supply, a series resistor rvdd is used together with an internal zener diode (zd1). an external capacitor cvdd is used to filter the supply on the pin vreg. the external resistor rvdd has to be choosen according to the following formula: this ensures enough supply current (ivreg max ) for the as3693b1 under minimum supply voltage vdd min . i f a stable 5v supply within the operating conditions limits of vreg ext is already existing in the system it is possible to supply the as3693b1 directly. in this case remove the resistor rvdd and connected this supply directly to vreg. 7.5.1 undervoltage lockout the undervoltage lockout is an additional safety feature to prevent led-current under abnormal vreg conditions. i f the supply voltage vreg is below 2.7v (e.g. device is supplied only by the voltage of the serial interface ) the registers reg.control1 and regcontrol2 (0x01 and 0x02) are reset. this turns off all current sinks. vreg 2.7v register 0x01 reset register 0x02 reset 3v to 5.4v 7.6 over temperature control table 14C overtemp control addr:55h over temperature control controls the temperature functions bit bit name default access description 0 overtemp_on 1 r/w en ables the over temperature protection 0 = protection off 1 = protection on 1 ov_temp 0 r/w d isplays temperature status 0 = normal operation 1 = over temperature shutdown ma v vdd rvdd min 20 4,5 - = vdd min is the minimum voltage of the supply, where rvdd is connected ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 20 - 33 7.7 device address setup the i2c and spi ? device address can be set via pin addr1 and addr2. the as3693b1 offers 31 i2c or 32 spi addresses, which can be set via external resistor. addr2 bit 2 decides if i2c or spi interface is used. digital registers pwm - generator addr1 as3693 flexible 6- bit address programming with 2 external resistors. digital 6 bit i2c address addr2 addr1 adc r1 r2 table 13? device address device adress setup: i2c address i2c address options bit bit name default access description 2:0 device addr1 000 r lower 3 bits of device address 0 00 open note: don?t use address 00h 001 320k � 010 160k � 011 80k � 100 40k � 101 20k � 110 10k � 111 0 � 5:3 device addr2 000 r upper 3 bits of device address 0 00 open note: activates i2c - mode 001 320k � note: activates i2c - mode 010 160k � note: activates i2c - mode 011 80k � note: activates i2c - mode 100 40k � note: activates spi - mode 101 20k � note: activates spi - mode 110 10k � note: activates spi - mode 111 0 � note: activates spi ? mode 7.7.1 i2c device address setup bi t 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 0 0 (addr2<2>) addr2<1> addr2<0> addr1<2> addr1<1> addr1<0> r/w 7.7.2 spi device address setup bi t 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 0 0 1 (addr2<2>) addr2<1> addr2<0> addr1<2> addr1<1> addr1<0> ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com r evision 1.26 / 2011-04-02 21 - 33 7.8 digital interface the as3693b1 can be controlled with two types of interfaces. 7.8.1 i2c interface 7 .8.1.1 feature list ? fast-mode capability (max. scl-frequency is 400 khz) ? write formats: single-byte-write, page-write ? read formats: current-address-read, random-read, sequential-read ? sda input delay and scl spike filtering by integrated rc-components 7.8.1.2 transfer formats figure 1 ? i 2 c byte-write: s dw a wa a reg_data a p write register, wa++ s start condition after stop sr repeated start dw device address for write dr device address for read wa word address a acknowledge n no acknowledge p stop condition white field slave as receiver grey field slave as transmitter wa++ increment word address internally figure 2 ? i 2 c page-write: s dw a wa a reg_data 1 a a reg_data 2 write register wa++ p a reg_data n write register wa++ write register wa++ ? byte-write and page-write are used to write data to the slave. t he transmission begins with the start condition, which is generated by the master when the bus is in idle state (the bus is free). the device-write address is followed by the word address. after the word address any number of data bytes can be send to the slave. the word address is incremented internally, in order to write subsequent data bytes on subsequent address locations. for reading data from the slave device, the master has to change the transfer direction. this can be done either with a repeated start condition followed by the device-read address, or simply with a new transmission start followed by the device-read address, when the bus is in idle state. the device-read address is always followed by the 1 st register byte transmitted from the slave. in read-mode any number of subsequent register bytes can be read from the slave. the word address is incremented internally. the diagrams below show various read formats available: figure 3 ? i 2 c random-read: a s dw a wa a data n p read register wa++ sr dr wa++ random-read and sequential-read are combined formats. the repeated start condition is used to change the direction after the data transfer from the master. the word address transfer is initiated with a start condition issued by the master while the bus is idle. the start condition is followed by the device-write address and the word address. ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 22 - 33 in order to change the data direction a repeated start condition is issued on the 1 st scl pulse after the acknowledge bit of the word address transfer. after the reception of the device-read address, the slave becomes the transmitter. in this state the slave transmits register data located by the previous received word address vector. the master responds to the data byte with a not-acknowledge, and issues a stop condition on the bus. figure 4 ? i 2 c sequential-read: a s dw a wa a data 1 n p sr dr wa++ ? data 2 data n a a read register wa++ sequential-read is the extended form of random-read, as more than one register-data bytes are transferred subsequently. in difference to the random-read, for a sequential read the transferred register-data bytes are responded by an acknowledge from the master. the number of data bytes transferred in one sequence is unlimited (consider the behavior of the word-address counter). to terminate the transmission the master has to send a not-acknowledge following the last data byte and generate the stop condition subsequently. figure 5 ? i 2 c current-address-read: a data 1 read register wa++ s dr data 2 a read register wa++ n p wa++ ? data n a read register wa++ to keep the access time as small as possible, this format allows a read access without the word address transfer in advance to the data transfer. the bus is idle and the master issues a start condition followed by the device- read address. analogous to random-read, a single byte transfer is terminated with a not-acknowledge after the 1 st register byte. analogous to sequential-read an unlimited number of data bytes can be transferred, where the data bytes has to be responded with an acknowledge from the master. for termination of the transmission the master sends a not-acknowledge following the last data byte and a subsequent stop condition. ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 23 - 33 7.8.2 spi interface sdi spi ? interface pins digital scl control -registers pwm - generator output vsync hsync cs sdo fault addr2 addr1 spi mode ? digital interface pins: cs(n) chip select input sdo serial data output sdi serial data input scl serial clock input vsync video sync signal input hsync video sync signal input addr1 addr2 device address pins (can be set via resistor). 7.8.2.1 read sequence sck sdi (sda) sdo 6 0 1 2 8 3 4 5 6 7 9 10 11 5 4 3 1 0 1 13 23 14 15 16 17 18 19 20 21 22 7 6 5 4 3 2 1 0 cs1 high impedance 8 bit device address 7 bit register address data out r/w 7 6 5 4 3 2 1 0 2 12 7.8.2.2 page read sequence ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 24 - 33 7.8.2.3 write sequence sdi (sda) sdo 7 6 5 2 1 0 0 7 6 5 4 3 2 1 0 cs1 high impedance 8 bit de vice address 7 b i t a d d r e s s data byte t wc r/w 5 4 3 4 3 2 1 0 0 1 2 8 3 4 5 6 7 9 10 11 13 23 14 15 16 17 18 19 20 21 22 scl 6 12 7.8.2.4 page write sequence 0 1 2 8 3 4 5 6 7 9 10 11 13 23 14 15 16 17 18 19 20 21 22 6 5 4 3 1 0 0 7 6 5 4 3 2 1 0 8 bit device address 7 bit register address data byte 1 sck cs1 3736 34 24 333231302928272625 35 38 39 7 6 5 4 3 2 1 0 data byte 2 7 6 5 4 3 2 1 0 data byte 3 sd (sda) 7 6 5 4 3 2 1 0 data byte n (32 max) sck sdi (sda) cs1 7 6 5 4 3 2 1 0 r/w 2 12 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 25 - 33 8 register map name addr def ault b7 b6 b5 b4 b3 b2 b1 b0 reg. control1 01h 00h curreg 8_on curreg7 _on curreg6 _on curreg5 _on curreg4 _on curreg 3_on curreg 2_on curreg1 _on reg control 2 02h 00h curreg 16_on curreg1 5_on curreg1 4_on curreg1 3_on curreg1 2_on curreg 11_on curreg 10_on curreg9 _on feedback control 04h 01h dcdc_regulati on_trip_point short_led detect voltage_low bits short _det_ on open_ led _det _on feedba ck_on_ pwm feedb ack_o n fedback select 1 05h 94h fb4_ select fb3_ select fb2_ select fb1_select fedback select 2 06h 94h fb8_ select fb7_ select fb6_ select fb5_ select fedback select 3 07h 94h fb12_ select fb11_ select fb10_ select fb9_ select fedback select 4 08h 94h fb16_ select fb15_ select fb14_ select fb13_ select voltage_fault 1 09h 00h fault_reg4 fault_reg3 fault_reg2 fault_reg1 voltage_fault 2 0ah 00h fault_reg8 fault_reg7 fault_reg6 fault_reg5 voltage_fault 3 0bh 00h fault_reg12 fault_reg11 fault_reg10 fault_reg9 voltage_fault 4 0ch 00h fault_reg16 fault_reg15 fault_reg14 fault_reg13 curreg_contr ol 0dh 00h boost mode switch_ output_ driver oled sense oled volt rc_sel select ref ref_dac_voltage 0eh 00h vref_dac pwm ?control 0fh 04h pwm inver t vsync _inver t pwm- int/ex t pwm - mode pwm- period_lsb 10h ffh pwm ?period - lsb pwm-period- msb 11h 00h pwm ? period - msb curreg1_ht_lsb 12h 00h curreg1_ht_lsb curreg1_ht_msb 13h 00h curreg1_ht_msb curreg2_ht_lsb 14h 00h curreg2_ht_lsb curreg2_ht_msb 15h 00h curreg2_ht_msb curreg3_ht_lsb 16h 00h curreg3_ht_lsb curreg3_ht_msb 17h 00h curreg3_ht_ msb curreg4_ht_lsb 18h 00h curreg4_ht_lsb curreg4_ht_msb 19h 00h curreg4_ht_ msb curreg5_ht_lsb 1ah 00h curreg5_ht_lsb curreg5_ht_msb 1bh 00h curreg5_ht_ msb curreg6_ht_lsb 1ch 00h curreg6_ht_lsb curreg6_ht_msb 1dh 00h curreg6_ht_ msb curreg7_ht_lsb 1eh 00h curreg7_ht_lsb curreg7_ht_msb 1fh 00h curreg7_ht_ msb curreg8_ht_lsb 20h 00h curreg8_ht_lsb ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 26 - 33 name addr def ault b7 b6 b5 b4 b3 b2 b1 b0 curreg8_ht_msb 21h 00h curreg8_ht_ msb curreg9_ht_lsb 22h 00h curreg9_ht_lsb curreg9_ht_msb 23h 00h curreg9_ht_ msb curreg10_ht_lsb 24h 00h curreg10_ht_lsb curreg10_ht_msb 25h 00h curreg10_ht_ msb curreg11_ht_lsb 26h 00h curreg11_ht_lsb curreg11_ht_msb 27h 00h curreg11_ht_ msb curreg12_ht_lsb 28h 00h curreg12_ht_lsb curreg12_ht_msb 29h 00h curreg12_ht_msb curreg13_ht_lsb 2ah 00h curreg13_ht_lsb curreg13_ht_msb 2bh 00h curreg13_ht_msb curreg14_ht_lsb 2ch 00h curreg14_ht_lsb curreg14_ht_msb 2dh 00h curreg14_ht_msb curreg15_ht_lsb 2eh 00h curreg15_ht_lsb curreg15_ht_msb 2fh 00h curreg15_ht_msb curreg16_ht_lsb 30h 00h curreg16_ht_lsb curreg16_ht_msb 31h 00h curreg16_ht_msb curreg1_delay_l sb 32h 00h curreg1_delay_lsb curreg1_ delay _msb 33h 00h curreg1_delay_msb curreg2_ delay _lsb 34h 00h curreg2_delay_lsb curreg2_ delay _msb 35h 00h curreg2_delay_msb curreg3_ delay _lsb 36h 00h curreg3_delay_lsb curreg3_ delay _msb 37h 00h curreg3_delay_ msb curreg4_ delay _lsb 38h 00h curreg4_delay_lsb curreg4_ delay _msb 39h 00h curreg4_delay_ msb curreg5_delay_l sb 3ah 00h curreg5_delay_lsb curreg5_delay_m sb 3bh 00h curreg5_delay_ msb curreg6_delay_l sb 3ch 00h curreg6_delay_lsb curreg6_delay_m sb 3dh 00h curreg6_delay_ msb curreg7_delay_l sb 3eh 00h curreg7_delay_lsb curreg7_delay_m sb 3fh 00h curreg7_delay_ msb curreg8_delay_l sb 40h 00h curreg8_delay_lsb ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 27 - 33 name addr def ault b7 b6 b5 b4 b3 b2 b1 b0 curreg8_delay_m sb 41h 00h curreg8_delay_ msb curreg9_delay_l sb 42h 00h curreg9_delay_lsb curreg9_delay_m sb 43h 00h curreg9_delay_ msb curreg10_delay_ lsb 44h 00h curreg10_delay_lsb curreg10_delay_ msb 45h 00h curreg10_delay_ msb curreg11_delay_ lsb 46h 00h curreg11_delay_lsb curreg11_delay_ msb 47h 00h curreg11_delay_ msb curreg12_delay_ lsb 48h 00h curreg12_delay_lsb curreg12_delay_ msb 49h 00h curreg12_delay_msb curreg13_delay_ lsb 4ah 00h curreg13_delay_lsb curreg13_delay_ msb 4bh 00h curreg13_delay_msb curreg14_delay_ lsb 4ch 00h curreg14_delay_lsb curreg14_delay_ msb 4dh 00h curreg14_delay_msb curreg15_delay_ lsb 4eh 00h curreg15_delay_lsb curreg15_delay_ msb 4fh 00h curreg15_delay_msb curreg16_delay_ lsb 50h 00h curreg16_delay_lsb curreg16_delay_ msb 51h 00h curreg16_delay_lsb overtemp control 55h 01h ov_temp ov_temp _on short led high 58h 00h short_led detect voltage_high bits asic id1 5ch cah 1 1 0 0 1 0 1 0 asic id2 5dh 5xh 0 1 0 1 revision revision code: 0x0? initial version january 2010 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 28 - 33 9 pinout and packaging 9.1 pinout table 5 ? pinlist pin name type description 1 gate16 aio connect to gate of external transistor 2 rfb1 aio connect to source of external transistor and to resistor rset 3 gate1 aio connect to gate of external transistor 4 curr_sense1 aio connect to drain of external transistor (input for open and short led detection) 5 fbg aio automatic supply regulation for green led strings; if not used, leave open 6 fbb aio automatic supply regulation for blue led strings; if not used, leave open 7 ref(ext) ai reference pin for pwm = 1 voltage, if not used leave open 8 gnd(sense) aio gnd supply connection (sense) 9 vreg aio shunt regulator supply; connect to rvdd and cvdd 10 v2_5 aio digital supply, connect 1uf blocking capacitor 11 addr2 aio connect to external resistor for serial interface address selection, 12 addr1 aio connect to external resistor for serial interface address selection. 13 curr_sense2 aio connect to drain of external transistor (input for open and short led detection) 14 gate2 aio connect to gate of external transistor 15 rfb2 aio connect to source of external transistor and to resistor rset 16 gate3 aio connect to gate of external transistor 17 rfb3 aio connect to source of external transistor and to resistor rset 18 curr_sense3 aio connect to drain of external transistor (input for open and short led detection) 19 gate4 aio connect to gate of external transistor 20 rfb4 aio connect to source of external transistor and to resistor rset 21 curr_sense4 aio connect to drain of external transistor (input for open and short led detection) 22 gate5 aio connect to gate of external transistor 23 rfb5 aio connect to source of external transistor and to resistor rset 24 curr_sense5 aio connect to drain of external transistor (input for open and short led detection) 25 curr_sense6 aio connect to drain of external transistor (input for open and short led detection) 26 rfb6 aio connect to source of external transistor and to resistor rset 27 gate6 aio connect to gate of external transistor 28 curr_sense7 aio connect to drain of external transistor (input for open and short led detection) 29 rfb7 aio connect to source of external transistor and to resistor rset 30 gate7 aio connect to gate of external transistor 31 curr_sense8 aio connect to drain of external transistor (input for open and short led detection) 32 rfb8 aio connect to source of external transistor and to resistor rset 33 gate8 aio connect to gate of external transistor 34 rfb9 aio connect to source of external transistor and to resistor rset 35 gate9 aio connect to gate of external transistor ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 29 - 33 table 5 ? pinlist pin name type description 36 curr_sense9 aio connect to drain of external transistor (input for open and short led detection) 37 fbr aio automatic supply regulation for red led strings; if not used, leave open 38 vsync di video sync signal , note: connect to gnd in async mode 39 hsync di video sync signal or external clock input in async mode 40 cs di spi : cs ? function, i2c: connect to gnd 41 scl di spi/ i2c: serial interface clock input. 42 sda di spi/ i2c: serial interface data i/o. 43 sdo do spi: digital data output, i2c: leave open 44 fault do fault pin, open drain output. connect pull up resistor to v2_5 45 curr_sense10 aio connect to drain of external transistor (input for open and short led detection) 46 gate10 aio connect to gate of external transistor 47 rfb10 aio connect to source of external transistor and to resistor rset 48 gate11 aio connect to gate of external transistor 49 rfb11 aio connect to source of external transistor and to resistor rset 50 curr_sense11 aio connect to drain of external transistor (input for open and short led detection) 51 gate12 aio connect to gate of external transistor 52 rfb12 aio connect to source of external transistor and to resistor rset 53 curr_sense12 aio connect to drain of external transistor (input for open and short led detection) 54 gate13 aio connect to gate of external transistor 55 rfb13 aio connect to source of external transistor and to resistor rset 56 curr_sense13 aio connect to drain of external transistor (input for open and short led detection) 57 curr_sense14 aio connect to drain of external transistor (input for open and short led detection) 58 rfb14 aio connect to source of external transistor and to resistor rset 59 gate14 aio connect to gate of external transistor 60 curr_sense15 aio connect to drain of external transistor (input for open and short led detection) 61 rfb15 aio connect to source of external transistor and to resistor rset 62 gate15 aio connect to gate of external transistor 63 curr_sense16 aio connect to drain of external transistor (input for open and short led detection) 64 rfb16 aio connect to source of external transistor and to resistor rset 65 (ep) gnd s vss supply connection; add as many vias to ground plane as possible. aio?analog pin di?digital input. protected with clamp to 2.5v do?digital output. protected with clamp to 2.5v s? vss supply note: connect any unused output channel as follows: - gatex = open, rfbx = curr_sensex = gnd ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 30 - 33 9.2 package drawing mlf64 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 31 - 33 9.3 package drawing lqfp64 ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 32 - 33 10 ordering information table 6 ? ordering information part number marking package type delivery form description AS3693B1-ZMFT as3693b1 mlf64 tape and reel in dry pack package size = 9x9mm, pitch = 0.5mm, pb-free; as3693b1-zlqt as3693b1 lqfp64 tape and reel in dry pack package size = 14x14mm, pitch = 0.8mm, pb-free; ams ag technical content still valid
as3693b1 austria micro syst ems www.austriamicrosystems.com revision 1.26 / 2011-04-02 33 - 33 copyright copyright ? 1997-2006, 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. all products and companies mentioned are trademarks of their respective companies. disclaimer devices sold by austriamicrosystems ag are covered by the warranty and patent identification 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 life-sustaining equipment are specifically not recommended without additional processing by austriamicrosystems ag for each application. 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. contact information headquarters: austriamicrosystems ag business unit communications a 8141 schloss premst?tten, austria t. +43 (0) 3136 500 0 f. +43 (0) 3136 5692 info@austriamicrosystems.com for sales offices, distributors and representatives, please visit: www.austriamicrosystems.com a u s t r i a m i c r o s y s t e m s ? a leap ahead ams ag technical content still valid
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