 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 1 - www.active-semi.com rev 3, 15-nov-12 act8600 advanced pmu for ingenic jz4760/60b/70 processors features ? optimized for ingenic jz4760, jz4760b, and jz4770 processors ? three step-down dc/dc converters ? one step-up dc/dc converter ? usb otg switch with 600ma current limit ? four low-noise ldos ? two low iq keep-alive ldos ? backup battery charger ? single-cell li+ activepath tm battery charger ? i 2 c tm serial interface ? interrupt controller ? power on reset interface and sequencing controller ? minimum external components ? 55mm tqfn55-40 package ? 0.75mm package height ? pb-free and rohs compliant general description the act8600 is a complete, cost effective, highly- efficient activepmu tm power management solution, optimized for the unique power, voltage- sequencing, and control re quirements of the ingenic jz4760, jz4760b and jz4770 processors. this device features three highly efficient step-down dc/dc converters, one step-up dc/dc converter, four low-noise, low-dropout linear regulators, and two low iq always on keep-alive linear regulators, a current limit switch for usb otg, along with a complete battery charging solution featuring the advanced activepath tm system-power selection function. the act8600 is available in a compact, pb-free and rohs-compliant tqfn55-40 package. system blo ck diagram p mu pmu pmu tm a ctive
act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 2 - www.active-semi.com table of contents general info rmation ........................................................................................................... .......................... p. 01 functional block diagram ...................................................................................................... ...................... p. 04 ordering in formation .......................................................................................................... .......................... p. 05 pin config uration ............................................................................................................. ............................ p. 05 pin descrip tions .............................................................................................................. ............................. p. 06 absolute maxi mum ratings ...................................................................................................... ................... p. 08 i 2 c interface electrical characteristics ........................................................................................ ................ p. 09 global regist er map ........................................................................................................... ......................... p. 10 register and bit descriptions ................................................................................................. ..................... p. 11 system control electric al characteristics ..................................................................................... ............... p. 16 step-down dc/dc electric al characteristics .................................................................................... .......... p. 17 step-up dc/dc electric al characteristics ...................................................................................... ............. p. 18 low-noise ldo electrical characteristics ............................................................................................ p. 19 low-iq ldo electrical characteristics ......................................................................................... ............... p. 20 otg subsystem electric al characteristics ...................................................................................... ............ p. 20 activepath tm charger electrical characteristics........................................................................................ p. 21 typical performance characterist ics??????????? ?????????????? ???......p. 23 system control information .................................................................................................... ..................... p. 34 interfacin g with the ingenic jz4770 proc essor .................................................................... .......... p. 34 control signals .................................................................................................. ............................. p. 34 power control sequences .......................................................................................... .................... p. 34 functional de scription ........................................................................................................ ......................... p. 36 i 2 c interface ................................................................................................................... ................. p. 36 in terrupt servic e routine ........................................................................................ ........................ p. 36 housekeeping functions ........................................................................................... ..................... p. 36 thermal pr otection ............................................................................................... .......................... p. 37 step-down dc/d c regulators .................................................................................................... ................ p. 38 general de scription .............................................................................................. .......................... p. 38 output current capability ........................................................................................ ....................... p. 38 100% duty cycle operation ........................................................................................ ................... p. 38 operating mode ................................................................................................... ........................... p. 38 synchronous rectification ........................................................................................ ...................... p. 38 soft-start ....................................................................................................... .................................. p. 38 compensation ............................................................................................................................... .. p. 38 configuratio n options ............................................................................................ ......................... p. 38 configurable st ep-up dc/dc .................................................................................................... .................. p. 39 general de scription .............................................................................................. .......................... p. 39 5v applications .................................................................................................. ............................. p. 39 compensation and stability ....................................................................................... ..................... p. 39 configuratio n options ............................................................................................ ......................... p. 39 low-dropout linea r regulat ors ................................................................................................. .................. p. 40 general de scription .............................................................................................. .......................... p. 40 ldo output voltage programming ................................................................................................. p. 40 enabling and disabling the ldos ................................................................................................... p. 40 po wer-o k ......................................................................................................... .............................. p. 40 inte rrupts ....................................................................................................... .................................. p. 40 opti onal ldo output discharge .................................................................................... ................. p. 40 ou tput capacito r selection ....................................................................................... ...................... p. 40 backup battery charger ........................................................................................... ...................... p. 40 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 3 - www.active-semi.com table of contents usb otg ....................................................................................................................... .............................. p. 43 general de scription .............................................................................................. .......................... p. 43 single-cell li+ activepath tm charger ......................................................................................................... p. 44 general de scription .............................................................................................. .......................... p. 44 activepath tm architecture ............................................................................................................... p. 44 system configuration optimization ................................................................................ ................ p. 44 i nput protection for chgin ....................................................................................... ...................... p. 44 battery management ............................................................................................... ....................... p. 44 c harge current pr ogramming ....................................................................................... ................. p. 45 charge input interrupts .......................................................................................... ......................... p. 45 c harge-control st ate machine ..................................................................................... .................. p. 46 thermal re gulation ............................................................................................... ......................... p. 48 charge safety timers ............................................................................................. ........................ p. 48 charge status indicator .......................................................................................... ........................ p. 48 re verse-current protection ....................................................................................... ..................... p. 48 batte ry temperature monitoring ................................................................................... .................. p. 48 tqfn55-40 package out line and dime nsions ...................................................................................... ...... p.50 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 4 - www.active-semi.com functional block diagram act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 5 - www.active-semi.com pwren nirq out10 out9 5vin vbus chgin vsys vsys bat gp4 sw3 vp3 out3 out5 out6 inl out7 out8 gp3 pin configuration top view thin - qfn (tqfn55-40) ordering information �c part number v out1 v out2 v out3 v out4 v out5 v out6 v out7 package pins temperatur e range ACT8600QJ162-T 1.2v 3.3v 1.8v 5v 2.5v 3.3v 1.2v tqfn55-40 40 -40c to +85c v out8 1.8v v out9 3.3v v out10 1.2v �c : all active-semi components are rohs compliant and with pb-free plating unless specified differently. the term pb-free means semiconductor products that are in compliance with current rohs (restriction of haza rdous substances) standards. 2 : standard product options are identified in this table. contac t factory for custom options. minimum order quantity is 12,000 u nits. act8600qj_ _ _ -t option code pin count package code product number active-semi tape and reel act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 6 - www.active-semi.com pin descriptions pin name description 1, 40 bat battery charger output. connect this pi n directly to the battery anode (+ terminal). 2 nstat active-low open-drain charger status output. nsta t has a 8ma (typ.) current limit, allowing it to directly drive an indicator led without additional external components. 3 nrsto active low open -drain rese t output. 4 refbp reference bypass. connect a 0.047 f ceramic capacitor from refbp to ga. 5 ga ground. 6 th temperature sensing input. 7 iset charge current set. program the maximum charge current by connecting a resistor (r iset ) between iset and ga. 8 chglev charge current selection input. 9 sda data input for i 2 c serial interface. data is read on the rising edge of scl. 10 scl clock input for i 2 c serial interface. 11 out8 reg8 output. bypass it to ground with a 2.2f capacitor. 12 out7 reg7 output. bypass it to ground with a 2.2f capacitor. 13 inl power input for the ldos. bypass to ga with a high quality ceramic capacitor placed as close to the ic as possible. 14 out6 reg6 output. bypass it to ground with a 2.2f capacitor. 15 out5 reg5 output. bypass it to ground with a 2.2f capacitor. 16 out3 output voltage sense for reg3. 17 vp3 power input for reg3. bypass to gp3 with a high qu ality ceramic capacitor placed as close to the ic as possible. 18 gp3 power ground for reg3. connect ga, gp12, gp3 and gp4 together at a single point as close to the ic as possible. 19 sw3 switch node for reg3. 20 gp4 power ground for reg4. connect ga, gp12 and gp3 together at a single point as close to the ic as possible. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 7 - www.active-semi.com pin descriptions cont?d pin name description 21 sw4 switch node for reg4. 22 out4 reg4 output. 23 nc no connect. 24 out2 output voltage sense for reg2. 25 vp2 power input for reg2. bypass to gp12 with a high quality ceramic capacitor placed to the ic as close as possible. 26 sw2 switch node for reg2. 27 gp12 power ground for reg1 and reg2. connect ga, gp12 and gp3 together at a single point as close to the ic as possible. 28 sw1 switch node for reg1. 29 vp1 power input for reg1. bypass to gp12 with a high quality ceramic capacitor placed to the ic as close as possible. 30 out1 output voltage sense for reg1. 31 pwren master enable pin. 32 nirq open-drain interrupt output. 33 out10 reg10 output. bypass it to ga with a 0.47 f capacitor. 34 out9 reg9 output. by pass it to ga with a 1 f capacitor. 35 5vin 5v input pin for otg switch (optio nally from out4 or external 5v source). 36 vbus usb vbus. 37 chgin power input for the battery char ger. bypass chgin to ga with a capacitor placed as close to the ic as possible. the battery charger is autom atically enabled when a valid voltage is present on chgin . 38, 39 vsys system output pins. bypass to ga with a 10 f or larger ceramic capacitor. ep ep exposed pad. must be soldered to ground on pcb. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 8 - www.active-semi.com absolute maximum ratings �c parameter value unit vp1, vp2 to gp12 vp3 to gp3 -0.3 to + 6 v bat, vsys, inl, vbus, 5vin to ga -0.3 to + 6 v chgin to ga -0.3 to + 14 v sw1, out1 to gp12 -0.3 to (v vp1 + 0.3) v sw2, out2 to gp12 -0.3 to (v vp2 + 0.3) v sw3, out3 to gp3 -0.3 to (v vp3 + 0.3) v sw4, out4 to gp4 -0.3 to + 42 v nirq, nrsto, nstat to ga -0.3 to + 6 v pwren, scl, sda, chglev, th, iset, refbp to ga -0.3 to (v vsys + 0.3) v out5, out6, out7, out8, out9 , out10 to ga -0.3 to (v inl + 0.3) v gp12, gp3, gp4 to ga -0.3 to + 0.3 v operating ambient temper ature -40 to 85 c maximum junction temperature 125 c maximum power dissipation tqfn55- 40 (thermal resistance=30c/w) 3.2 w storage temperature -65 to 150 c lead temperature (soldering, 10 sec) 300 c �c : do not exceed these limits to prevent damage to the device. exposure to absolute maximum rati ng conditions for long periods m ay affect device reliability. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 9 - www.active-semi.com figure 1: i 2 c compatible serial bus timing (v vsys = 3.6v, t a = 25c, unless otherwise specified.) i 2 c interface electrical characteristics sda scl t st t su t hd t sp t scl start condition stop condition parameter test conditions min typ max unit scl, sda input low v vsys = 3.1v to 5.5v, t a = -40oc to 85oc 0.35 v scl, sda input high v vsys = 3.1v to 5.5v, t a = -40oc to 85oc 1.55 v sda leakage current 0 1 a scl leakage current 0 1 a scl clock period, t scl 1.5 s sda data setup time, t su 100 ns sda data hold time, t hd 300 ns start setup time, t st for start condition 100 ns stop setup time, t sp for stop condition 100 ns sda output low i ol = 5ma 0.35 v act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 10 - www.active-semi.com output address bits d7 d6 d5 d4 d3 d2 d1 d0 sys 0x00 name nsyslevmsk nsysstat vsysdat reserved syslev[3] syslev[2] syslev[1] syslev[0] default �c 0 r r 0 0 0 0 0 sys 0x01 name ntmsk tstat reserved reserved reserved reserved reserved reserved default �c 0 r 0 0 0 0 0 0 reg1 0x10 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 0 0 1 1 0 0 0 reg1 0x12 name on reserved reserved reserved reserved phase nfltmsk ok default �c 1 0 0 0 0 0 0 r reg2 0x20 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 0 1 1 1 0 0 1 reg2 0x22 name on reserved reserved reserved reserved phase nfltmsk ok default �c 1 0 0 0 0 1 0 r reg3 0x30 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 0 1 0 0 1 0 0 reg3 0x32 name on reserved reserved reserved reserved phase nfltmsk ok default �c 1 0 0 0 0 0 0 r reg4 0x40 name vset[7] vset[6] vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 1 0 1 0 1 0 0 reg4 0x41 name on reserved reserved reserved reserved reserved reserved ok default �c 0 0 0 0 0 0 0 r reg5 0x50 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 1 1 1 0 0 0 1 reg5 0x51 name on reserved reserved reserved reserved dis nfltmsk ok default �c 1 0 0 0 0 1 0 r reg6 0x60 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 0 1 1 1 0 0 1 reg6 0x61 name on reserved reserved reserved reserved dis nfltmsk ok default �c 0 0 0 0 0 1 0 r reg7 0x70 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 0 0 1 1 0 0 0 reg7 0x71 name on reserved reserved reserved reserved dis nfltmsk ok default �c 0 0 0 0 0 1 0 r reg8 0x80 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default �c 0 0 1 0 0 1 0 0 reg8 0x81 name on reserved reserved reserved reserved dis nfltmsk ok default �c 0 0 0 0 0 1 0 r reg910 0x91 name on9 on10 reserved reserved reserved reserved reserved reserved default �c 1 0 0 0 0 0 0 0 apch 0xa1 name suschg reserved tottimo[1] tottimo[0] pretimo[1] pretimo[0] chglev ovpset[0] default �c 0 0 1 0 1 0 0 0 apch 0xa8 name timrstat tempstat instat chgstat timrdat tempdat indat chgdat default �c r r r r r r r r apch 0xa9 name timrtot tempin incon chgeocin timrpre tempout indis chgeocout default �c 0 0 0 0 0 0 0 0 apch 0xaa name chg_acin chg_usb cstate[0] cstate[1] reserved reserved reserved chglevstat default �c r r r r r r r r otg 0xb0 name onq1 onq2 onq3 q1ok q2ok vbusstat dbilimq3 vbusdat default �c 0 0 1 r r r 0 r otg 0xb2 name invbusr invbusf reserved reserved nfltmskq1 nfltmskq2 nvbusmsk reserved default 0 0 0 0 0 0 0 0 int name intadr7 intadr6 intadr5 intadr4 intadr3 intadr2 intadr1 intadr0 default r r r r r r r r 0xc1 global register map �c : default values of ACT8600QJ162-T. note: every reserved bit should be kept as default value act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 11 - www.active-semi.com register and bit descriptions output address bit name access description sys 0x00 [7] nsyslevmsk r/w vsys voltage level interrupt mask. set this bit to 1 to unmask the interrupt. see the programmable system voltage monitor section for more information sys 0x00 [6] nsysstat r system voltage status. value is 1 when syslev interrupt is generated, value is 0 otherwise. sys 0x00 [5] vsysdat r vsys voltage monitor real time status. value is 1 when v vsys < syslev, value is 0 otherwise. sys 0x00 [4] - r reserved. sys 0x00 [3:0] syslev r/w system voltage detect thres hold. defines the syslev voltage threshold. see the programmable system voltage monitor section for more information. sys 0x01 [7] ntmsk r/w thermal interrupt mask. set this bit to 1 to unmask the interrupt. sys 0x01 [6] tstat r thermal interrupt status. value is 1 when a thermal interrupt is generated, value is 0 otherwise. sys 0x01 [5:0] - r reserved. reg1 0x10 [7:6] - r reserved. reg1 0x10 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg1 0x12 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg1 0x12 [6:3] - r reserved. reg1 0x12 [2] phase r/w regulator phase control. set bit to 1 for the regulator to operate 180 out of phase with the oscillator, clear bit to 0 for the regulator to operate in phase with the oscillator. reg1 0x12 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg1 0x12 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg2 0x20 [7:6] - r reserved. reg2 0x20 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg2 0x22 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg2 0x22 [6:3] - r reserved. reg2 0x22 [2] phase r/w regulator phase control. set bit to 1 for the regulator to operate 180 out of phase with the oscillator, clear bit to 0 for the regulator to operate in phase with the oscillator. reg2 0x22 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg2 0x22 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 12 - www.active-semi.com register and bit descriptions cont?d output address bit name access description reg3 0x30 [7:6] - r reserved. reg3 0x30 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg3 0x32 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg3 0x32 [6:3] - r reserved. reg3 0x32 [2] phase r/w regulator phase control. set bi t to 1 for the regulator to operate 180 out of phase with the oscillator, clear bit to 0 for the regulator to operate in phase with the oscillator. reg3 0x32 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault- interrupts, clear bit to 0 to disable fault-interrupts. reg3 0x32 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg4 0x40 [7:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg4 0x41 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg4 0x41 [6:1] - r reserved. reg4 0x41 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg5 0x50 [7:6] - r reserved. reg5 0x50 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg5 0x51 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg5 0x51 [6:3] - r reserved. reg5 0x51 [2] dis r/w output discharge control. w hen activated, ldo output is discharged to ga through 1.5k ? resistor when in shutdown. set bit to 1 to enable output voltage discharge in shutdown, clear bit to 0 to disable this function. reg5 0x51 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault- interrupts, clear bit to 0 to disable fault-interrupts. reg5 0x51 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg6 0x60 [7:6] - r reserved. reg6 0x60 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg6 0x61 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg6 0x61 [6:3] - r reserved. reg6 0x61 [2] dis r/w output discharge control. w hen activated, ldo output is discharged to ga through 1.5k ? resistor when in shutdown. set bit to 1 to enable output voltage discharge in shutdown, clear bit to 0 to disable this function. reg6 0x61 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault- interrupts, clear bit to 0 to disable fault-interrupts. reg6 0x61 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 13 - www.active-semi.com register and bit descriptions cont?d output address bit name access description reg7 0x70 [7:6] - r reserved. reg7 0x70 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg7 0x71 [7] on r/w regulator enable bit. set bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg7 0x71 [6:3] - r reserved. reg7 0x71 [2] dis r/w output discharge control. w hen activated, ldo output is discharged to ga through 1.5k ? resistor when in shutdown. set bit to 1 to enable output voltage discharge in shutdown, clear bit to 0 to disable this function. reg7 0x71 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault- interrupts, clear bit to 0 to disable fault-interrupts. reg7 0x71 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg8 0x80 [7:6] - r reserved. reg8 0x80 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg8 0x81 [7] on r/w regulator enable bit. set bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg8 0x81 [6:3] - r reserved. reg8 0x81 [2] dis r/w output discharge control. w hen activated, ldo output is discharged to ga through 1.5k ? resistor when in shutdown. set bit to 1 to enable output voltage discharge in shutdown, clear bit to 0 to disable this function. reg8 0x81 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault- interrupts, clear bit to 0 to disable fault-interrupts. reg8 0x81 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg910 0x91 [7] on9 r/w reg9 enable bit. set bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg910 0x91 [6] on10 r/w reg10 enable bit. set bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg910 0x91 [5:0] - r reserved. apch 0xa1 [7] suschg r/w charge suspend control input. set bit to 1 to suspend charging, clear bit to 0 to allow charging to resume. apch 0xa1 [5:4] tottimo r/w total charge time-out selection. see the charge safety timers section for more information. apch 0xa1 [3:2] pretimo r/w precondition charge time-out selection. see the charge safety timers section for more information. apch 0xa1 [1] chglev r/w charge current selection input. see charge current programming section. apch 0xa1 [6] - r reserved. apch 0xa1 [0] ovpset r/w input over-voltage protection th reshold selection. see the input over-voltage protection section for more information. apch 0xa8 [7] timrstat 1 r/w charge time-out interrupt status. set this bit with timrpre[ ] and/or timrtot[ ] to 1 to generate an interrupt when charge safety ti mers expire, read this bit to get charge time-out interrupt status. see the charge safety timers section for more information. �c : valid only when chgin uvlo threshold act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 17 - www.active-semi.com step-down dc/dc electrical characteristics (v vp1 = v vp2 = v vp3 = 3.6v, t a = 25c, unless otherwise specified.) parameter conditions min typ max unit operating voltage range 2.7 5.5 v uvlo_vp threshold input vo ltage rising 2.5 2.6 2.7 v uvlo_vp hysteresis input voltage falling 100 mv standby supply current regulator enabled, v vsys = 3.6v 68 95 a shutdown current v vp = 5.5v, regulator disabled 0 1 a output voltage accuracy v out 1.2v, i out = 10ma -1.5% v nom �c 1.5% v line regulation v vp = max (v nom 1 + 1, 3.2v) to 5.5v 0.15 %/v load regulation i out = 10ma to imax 2 0.0017 %/ma power good threshold v out rising 93 %v nom power good hysteresis v out falling 2.5 %v nom switching frequency v out 20% of v nom 2.06 2.22 2.38 mhz v out = 0v 520 khz soft-start period v out = 3.3v 500 s minimum on-time 75 90 ns reg1 maximum output current 1.2 a current limit 1.70 2.00 2.75 a pmos on-resistance i sw1 = -100ma, v vsys = 3.6v 0.150 ? nmos on-resistance i sw1 = 100ma, v vsys = 3.6v 0.120 ? sw1 leakage current v vp1 = 5.5v, v sw1 = 0 or 5.5v 0 1 a reg2 maximum output current 1.2 a current limit 1.70 2.00 2.75 a pmos on-resistance i sw2 = -100ma, v vsys = 3.6v 0.150 ? nmos on-resistance i sw2 = 100ma, v vsys = 3.6v 0.120 ? sw2 leakage current v vp2 = 5.5v, v sw2 = 0 or 5.5v 0 1 a reg3 maximum output current 0.95 a current limit 1.10 1.45 1.85 a pmos on-resistance i sw3 = -100ma 0.150 ? nmos on-resistance i sw3 = 100ma 0.120 ? sw3 leakage current v vp3 = 5.5v, v sw3 = 0 or 5.5v 0 1 a �c : v nom refers to the nominal output voltage level for v out as defined by the ordering information section. 2 : imax maximum output current. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 18 - www.active-semi.com step-up dc/dc electrical characteristics (v vp1 = v vp2 = v vp3 = 3.6v, t a = 25c, unless otherwise specified.) parameter conditions min typ max unit operating voltage range 2.7 6 v operating supply current 0.8 1.7 ma standby supply current no switching 80 150 a shutdown current v vp = 5.5v, regulator disabled 0.1 1 a output voltage accuracy v out = 5v, i out = 10ma -3% v nom �c 3% v line regulation 0.019 %/v load regulation 0.17 %/ma power good threshold v out rising 93 %v nom power good hysteresis v out falling 7.5 %v nom switching frequency 1.032 1.110 1.188 mhz minimum on-time 80 ns minimum off-time 40 ns maximum output current v out = 5v 0.6 a current limit 1.35 a switch on-resistance i sw4 = 100ma 0.48 ? sw4 leakage current v bat = 3.6v, v sw4 = 5v, reg4 disabled 10 a �c : v nom refers to the nominal output voltage level for v out as defined by the ordering information section. act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 19 - www.active-semi.com low-noise ldo electri cal characteristics (v inl = 3.6v, c out5 = c out6 = c out7 = c out8 = 2.2f, t a = 25c, unless otherwise specified.) �c : v nom refers to the nominal output voltage level for v out as defined by the ordering information section. 2 : imax maximum output current. 3 : dropout voltage is defined as the differential voltage between input and output when the output voltage drops 100mv below the regulation voltage (for 3.1v output voltage or higher). �f : ldo current limit is defined as the output current at which th e output voltage drops to 95% of the respective regulation volt age. under heavy overload conditions the output current limit folds back by 50% (typ) parameter test conditions min typ max unit operating voltage range 2.4 5.5 v output voltage accuracy v out 1.2v, t a = 25c, i out = 10ma -1.5% v nom �c 1.5% v line regulation v inl = max (v out + 0.5v, 3.6v) to 5.5v, lowiq[ ] = [0] 0.5 mv/v load regulation i out = 1ma to imax 2 0.08 v/a power supply rejection ratio f = 1khz, i out = 20ma, v out =1.2v 80 db f = 10khz, i out = 20ma, v out =1.2v 70 supply current per output regulator enabled 24 60 a regulator disabled 0 soft-start period v out = 3.0v 100 s power good threshold v out rising 92 % power good hysteresis v out falling 4 % output noise i out = 20ma, f = 10hz to 100khz, v out = 1.2v 30 v rms discharge resistance ldo disabled, dis[ ] = 1 1.5 k ? reg5 dropout voltage �e i out = 160ma, v out > 3.1v 130 200 mv maximum output current 350 ma current limit �f v out = 95% of regulation voltage 385 550 ma stable c out5 range 2.2 20 f reg6 dropout voltage �e i out = 160ma, v out > 3.1v 130 200 mv maximum output current 350 ma current limit �f v out = 95% of regulation voltage 385 550 ma stable c out6 range 2.2 20 f reg7 dropout voltage �e i out = 160ma, v out > 3.1v 160 300 mv maximum output current 250 ma current limit �f v out = 95% of regulation voltage 275 400 ma stable c out7 range 2.2 20 f reg8 dropout voltage �e i out = 160ma, v out > 3.1v 160 300 mv maximum output current 250 ma current limit �f v out = 95% of regulation voltage 275 400 ma stable c out8 range 2.2 20 f act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 20 - www.active-semi.com low-iq ldo electrical characteristics ( v vsys = 3.6v, c out9 = c out10 = 1f, t a = 25c, unless otherwise specified.) �c : v nom refers to the nominal output voltage level for v out as defined by the ordering information section. parameter test conditions min typ max unit reg9 (vddrtc18) ? v nom = 3.3v operating voltage range v out =1.8v 2.5 5.5 v output voltage accuracy i out = 1ma -2.5 v nom �c 3.5 % line regulation v vsys = v out + 1.2v to v vsys = 5.5v 0.2 %/v supply current from vsys v vsys = v out + 1.2v 2 v vsys < v out + 0.7v 10 maximum output current 5 ma stable c out range 0.47 f reg10 (vddrtc12) ? v nom = 1.2v operating voltage range 1.7 5.5 v output voltage accuracy i out = 1ma -3.5 v nom �c 2.5 % line regulation v in = v out + 0.5v to v in = 5.5v 0.2 %/v supply current from v out9 2 a maximum output current 5 ma stable c out range 0.22 f a otg subsystem electric al characteristics (v inl = 3.6v, t a = 25c, unless otherwise specified.) parameter test conditions min typ max unit 5vin to vbus (q1) switch on resistance 5vin = 5v, i load = 100ma 0.23 ? current limit threshold 500 700 ma current limit delay 256 ms chgin to vbus (q2) switch on resistance chgin = 5v, i load = 100ma 0.34 ? current limit threshold 500 700 ma current limit delay 256 ms act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 21 - www.active-semi.com activepath tm charger electrical characteristics (v chgin = 5.0v, t a = 25c, unless otherwise specified.) parameter test conditions min typ max unit activepath chgin operating voltage range 4.35 6.0 v chgin uvlo threshold chgin voltage rising 3.1 3.5 3.9 v chgin uvlo hysteresis chgin voltage falling 0.5 v chgin ovp threshold chgin voltage rising 6.0 6.6 7.2 v chgin ovp hysteresis chgin voltage falling 0.4 v chgin supply current v chgin < v uvlo 35 70 a v chgin < v bat + 50mv, v chgin > v uvlo 100 200 a v chgin > v bat + 150mv, v chgin > v uvlo charger disabled, i vsys = 0ma 1.2 2.0 ma chgin to vsys on-resistance i vsys = 100ma 0.25 ? chgin to vsys current limit 1.5 2.25 a vbus input current limit chglev = ga, v vsys =3.6v 75 110 ma chglev = v vsys , dbilimq3[ ] = 0, v vsys =3.6v 400 450 500 vsys regulation chgin to vsys regulated voltage i vsys = 10ma 4.45 4.6 4.8 v nstat output nstat sink current v nstat = 2v 4 8 12 ma nstat leakage current v nstat = 4.2v 1 a chglev inputs chglev logic high input voltage 1.4 v chglev logic low input voltage 0.4 v chglev leakage current v chglev = 4.2v 1 a th input th pull-up current v chgin > v bat + 100mv, hysteresis = 50mv 91 100 109 a v th upper temperature voltage threshold (v thh ) hot detect ntc thermistor 2.45 2.50 2.54 v v th lower temperature voltage threshold (v thl ) cold detect ntc thermistor 0.482 0.50 0.518 v v th hysteresis upper and lower thresholds 40 mv chglev = v vsys , dbilimq3[ ] = 1. 900 vbus_uvlo threshold vbus voltage rising 3.3 4.0 4.8 v vbus_uvlo hysteresis vbus voltage falling 400 mv act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 22 - www.active-semi.com activepath tm charger electrical characteristics cont?d (v chgin = 5.0v, t a = 25c, unless otherwise specified.) parameter test conditions min typ max unit charger bat reverse leakage current v chgin = 0v, v bat = 4.2v, i vsys = 0ma, all regs are off. 15 a bat to vsys on-resistance 70 m ? iset pin voltage fast charge 1.2 v precondition 0.13 charge termination voltage t a = -20c to 70c 4.179 4.200 4.221 v t a = -40c to 85c 4.170 4.200 4.230 charge current v bat = 3.8v ac-mode -10% i chg 1 +10% ma usb-mode, chglev = ga min (75ma, i chg ) usb-mode, chglev = v vsys , dbilimq3[ ] = 0. min (450ma, i chg ) usb-mode, chglev = v vsys , dbilimq3[ ] = 1. min (900ma, i chg ) precondition charge current v bat = 2.7v ac-mode 10% i chg ma usb-mode, chglev = ga min (75ma, 10% i chg ) usb-mode, chglev = v vsys , dbilimq3[ ] = 0. 10% i chg usb-mode, chglev = v vsys , dbilimq3[ ] = 1. 10% i chg precondition threshold voltage v bat voltage rising 2.7 2.9 3.1 v precondition threshold hysteresis v bat voltage falling 150 mv end-of-charge current threshold v bat = 4.15v ac-mode, chglev = v vsys 10% i chg ac-mode, chglev = ga 10% i chg charge restart threshold v vsys - v bat , v bat falling 170 200 230 mv precondition safety timer pretimo[ ] = 10 80 min total safety timer tottimo[ ] = 10 6.5 hr thermal regulation threshold 100 c ma usb-mode, chglev = ga 45 usb-mode, chglev = v vsys 45 �c : r iset (k ? ) = 2336 (1v/i chg (ma)) - 0.205 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 23 - www.active-semi.com typical performanc e characteristics (v vsys = 3.6v, t a = 25c, unless otherwise specified.) temperature (c) -40 -20 0 20 40 60 80 act8600-001 v ref vs. temperature v ref (%) 0.80 0.40 0 -0.40 -0.80 1.20 1.60 act8600-002 frequency (%) temperature (c) -40 -20 0 20 40 60 80 0 -1 -2 -3 -4 -5 -6 act8600-003 vbat connect ch1 ch2 ch3 ch1: v bat , 2v/div ch2: v out9 , 2v/div ch3: v out10 , 1v/div time: 400s/div act8600-004 pwren sequence ch1 ch1: v pwren , 2v/div ch2: v out3 , 1v/div ch3: v out2 , 2v/div ch4: v out1, 1v/div ch5: v out5, 2v/div time: 400s/div ch2 ch3 ch4 nrsto startup sequence act8600-005 ch1: v pwren , 2v/div ch2: v out3 , 1v/div ch3: v out1 , 1v/div ch4: v nrsto , 2v/div time: 20ms/div ch1 ch2 ch3 ch4 frequency vs. temperature v bat = 3.7v ch5 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 24 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d act8600-007 q2 dropout voltage vs. i vbus q2 dropout voltage (mv) act8600-006 q1 dropout voltage vs. i vbus q1 dropout voltage (mv) 100 80 60 40 20 0 120 140 i vbus (ma) 0 50 100 150 200 250 300 350 400 450 500 i vbus (ma) 0 50 100 150 200 250 300 350 400 450 500 100 80 60 40 20 0 120 140 160 180 act8600-008 q1 quiescent current vs. 5vin voltage q1 quiescent current (a) 64 62 60 58 56 54 66 68 5vin voltage (v) 4 4.3 4.6 4.9 5.2 5.5 act8600-009 q2 quiescent current vs. chgin voltage quiescent current (a) 50 40 30 20 10 0 60 70 80 90 chgin voltage (v) 5 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 act8600-010 q1 shutdown current vs. 5vin voltage shutdown current (a) 8 7 6 5 4 3 2 5vin voltage (v) 4 4.3 4.6 4.9 5.2 5.5 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 25 - www.active-semi.com (t a = 25c, unless otherwise specified.) act8600-013 reg1 efficiency vs. output current efficiency (%) act8600-014 reg2 efficiency vs. output current 100 80 60 40 20 0 efficiency (%) 100 80 60 40 20 0 typical performance ch aracteristics cont?d v out = 1.4v v out = 3.3v v in = 3.6v act8600-015 reg3 efficiency vs. output current 100 80 60 40 20 0 efficiency (%) output current (ma) 1 10 100 1000 v out = 1.8v v in = 3.6v v in = 4.2v v in = 5.0v act8600-011 vbus voltage vs. i vbus current (supplied from 5vin) vbus voltage (v) 5.0 4.9 4.8 4.7 4.6 4.5 4.4 5.1 5.2 5.3 i vbus current (ma) 0 100 200 300 400 500 600 700 act8600-012 vbus voltage vs. i vbus (chgin supply) vbus voltage (v) 5.1 5.0 4.9 4.8 4.7 4.6 4.5 5.2 5.3 i vbus current (ma) 0 100 200 300 400 500 600 700 output current (ma) 1 10 100 10000 1000 v in = 4.2v v in = 5.0v v in = 3.6v v in = 4.2v v in = 5.0v act8600-016 reg4 efficiency vs. output current 100 80 60 40 20 0 efficiency (%) output current (ma) 1 10 100 1000 v out = 5v v in = 3.6v v in = 4.2v v in = 3.0v output current (ma) 1 10 100 10000 1000 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 26 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d reg1 output voltage vs. temperature v out1 = 1.2v i out = 100ma temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-017 output voltage (v) 1.250 1.230 1.210 1.190 1.170 1.150 temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-019 reg3 output voltage vs. temperature output voltage (v) 1.900 1.850 1.800 1.750 1.700 temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-018 reg2 output voltage vs. temperature output voltage (v) 3.400 3.350 3.300 3.250 3.200 v out3 = 1.8v i load = 100ma v out2 = 3.3v i load = 100ma act8600-020 reg1, 2 mosfet resistance r dson (m ? ) input voltage (v) 3.3 3.55 3.8 4.05 4.3 4.55 4.8 5.05 5.3 5.55 200 150 100 50 0 i load = 100ma pmos nmos act8600-021 reg3 mosfet resistance resistance (m ? ) input voltage (v) 3.3 3.8 4.3 4.8 5.3 5.8 200 150 100 50 0 250 i load = 100ma pmos nmos battery voltage (v) 3.4 3.6 3.8 4.0 4.2 4.4 act8600-022 reg4 resistance vs. battery voltage reg4 resistance (m ? ) 600 500 400 300 200 100 700 800 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 27 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d output current (ma) 0 50 100 150 200 250 300 350 act8600-023 output voltage (v) 2.500 2.480 2.460 2.440 2.420 2.400 2.520 2.540 2.560 2.580 2.600 reg5 output voltage vs. output current output current (ma) 0 50 100 150 200 250 300 350 act8600-024 output voltage (v) reg6 output voltage vs. output current 3.300 3.280 3.260 3.240 3.220 3.200 3.320 3.340 3.360 3.380 3.400 output current (ma) 0 50 100 150 200 250 act8600-025 output voltage (v) reg7 output voltage vs. output current 1.200 1.180 1.160 1.140 1.120 1.100 1.220 1.240 1.260 1.280 1.300 output current (ma) 0 50 100 150 200 250 act8600-026 output voltage (v) reg8 output voltage vs. output current 1.800 1.780 1.760 1.740 1.720 1.700 1.820 1.840 1.860 1.880 1.900 act8600-027 reg5/6 dropout voltage vs. output current dropout voltage (mv) 250 200 150 100 50 0 300 350 400 output current (ma) 0 50 100 150 200 250 300 350 output current (ma) 0 50 100 150 200 250 act8600-028 reg7/8 dropout voltage vs. output current dropout voltage (mv) 300 250 200 150 100 50 0 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 28 - www.active-semi.com 1.300 1.250 1.200 1.150 1.100 (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d reg5 output voltage vs. temperature v out = 2.5v temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-029 output voltage (v) 2.600 2.550 2.500 2.450 2.400 reg6 output voltage vs. temperature v out = 3.3v temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-030 output voltage (v) 3.400 3.350 3.300 3.250 3.200 reg8 output voltage vs. temperature temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-032 output voltage (v) 1.900 1.850 1.800 1.750 1.700 reg9 output voltage vs. temperature temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-033 output voltage (v) 3.400 3.350 3.300 3.250 3.200 reg10 output voltage vs. temperature temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-034 output voltage (v) 1.300 1.250 1.200 1.150 1.100 v out = 1.8v v out = 1.2v reg7 output voltage vs. temperature temperature (c) -40 -20 0 20 40 60 80 100 120 act8600-031 output voltage (v) v out = 1.2v v out = 3.3v act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 29 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d act8600-035 1.215 1.205 1.195 1.185 1.175 output voltage (v) output current (ma) 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 reg10 output voltage vs. output current act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 30 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d act8600-038 charge current vs. battery voltage 1000 800 600 400 200 0 charge current (ma) battery voltage (v) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 v chgin = 5v r iset = 2.4k ac mode act8600-039 charge current vs. battery voltage charge current (ma) battery voltage (v) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 350 250 200 150 100 50 0 300 400 450 chglev = 1 r iset = 2.4k dbilimq3[ ] = 0 usb mode battery voltage (v) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 act8600-040 charge current (ma) charge current vs. battery voltage 80 70 60 50 40 30 20 10 0 chglev = 0 r iset = 1.8k usb mode battery voltage (v) 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 act8600-041 charge current (ma) charge current vs. battery voltage 1000 900 800 700 600 500 400 300 200 100 0 chglev = 1 dbilimq3[ ] = 1 r iset = 2.4k usb mode act8600-036 vsys voltage vs. vsys current (usb mode) 4.7 4.6 4.5 4.4 4.3 4.2 4.1 4.8 vsys voltage (v) isys current (ma) 0 200 400 600 800 1000 act8600-037 vsys voltage (v) chgin voltage (v) 0 2 4 6 8 10 5.2 5.0 4.8 4.6 4.4 4.2 4.0 v vsys = 4.6v vsys voltage vs. chgin voltage chglev/dbq3ilim = 0 chglev/dbq3ilim[ ] = 1 chglev = 0 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 31 - www.active-semi.com (t a = 25c, unless otherwise specified.) ch1: v vsys , 2v/div ch2: v chgin , 5v/div ch3: v bat , 2v/div ch4: i chgin , 500ma/div ch5: i bat , 1a/div ch6: i vsys , 1a/div time: 40ms/div dccc and battery supplement modes act8600-042 ch3 ch4 ch1 ch2 v bat = 3.6v i vsys = 1.5a v chgin = 5v-1a typical performance ch aracteristics cont?d ch5 ch6 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 32 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d act8600-043 ch1 ch2 ch3 ch4 v bat = 3.6v i vsys = 200ma ch1: v chgin , 5v/div ch2: v vsys , 2v/div ch3: v bat , 1v/div ch4: i bat , 500ma/div time: 20ms/div chgin applied chgin removed act8600-044 ch1 ch2 ch3 ch4 ch1: v chgin , 5v/div ch2: v vsys , 2v/div ch3: v bat , 1v/div ch4: i bat , 500ma/div time: 20ms/div v bat = 3.6v i vsys = 0ma vbus applied act8600-045 ch1 ch2 ch3 ch4 vbus removed act8600-046 ch4 ch3 ch2 ch1 ch1: v vbus , 5v/div ch2: v vsys , 2v/div ch3: v bat , 2v/div ch4: i bat , 50ma/div time: 20ms/div vbus applied act8600-047 ch1 ch2 ch3 ch4 ch1: v vbus , 5v/div ch2: v vsys , 2v/div ch3: v bat , 2v/div ch4: i bat , 50ma/div time: 20ms/div vbus removed act8600-048 ch1 ch2 ch3 ch4 v bat = 3.6v i vsys = 200ma 450ma usb ch1: v vbus , 5v/div ch2: v vsys , 2v/div ch3: v bat , 1v/div ch4: i bat , 500ma/div time: 20ms/div v bat = 3.6v i vsys = 200ma 450ma usb ch1: v vbus , 5v/div ch2: v vsys , 2v/div ch3: v bat , 1v/div ch4: i bat , 200ma/div time: 20ms/div v bat = 3.6v i vsys = 40ma 75ma usb v bat = 3.6v i vsys = 40ma 75ma usb act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 33 - www.active-semi.com (t a = 25c, unless otherwise specified.) typical performance ch aracteristics cont?d act8600-049 ch1 ch2 ch3 ch4 v bat = 3.6v i vsys = 200ma dbilimq3[ ] = 1 chglev = 1 ch1: v vbus , 5v/div ch2: v vsys , 2v/div ch3: v bat , 2v/div ch4: i bat , 500ma/div time: 20ms/div vbus applied vbus removed act8600-050 ch1 ch2 ch3 ch4 ch1: v vbus , 5v/div ch2: v vsys , 2v/div ch3: v bat , 2v/div ch4: i bat , 500ma/div time: 20ms/div v bat = 3.6v i vsys = 200ma dbilimq3[ ] = 1 chglev = 1 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 34 - www.active-semi.com the act8600 is optimized for use in applications using the ingenic jz4770 processor, supporting both the power domains as well as the signal interface for these processors. the following paragraphs describe how to design act8600 with jz4770 processor. while the act8600 supports many possible configurations for powerin g these processors, one of the most common configurations is detailed in this datasheet. control signals master enable (pwren) input pwren is a logic input which turns on reg1, reg2, reg3, and reg5 when asserted. all regulators except the rtc ldos (reg9) will be turned off when pwren is de-asserted. nrsto output the power on reset pin, nrsto is an open-drain output. connect a 10k ? or greater pull-up resistor from nrsto to reg9. - the nrsto output pin is asserted low only when the reg9 voltage is below 1.67v - if reg1 is above its power-ok threshold when the reset timer (40ms) expires, nrsto is de- asserted. nirq output nirq is an open-drain out put that asserts low any time an interrupt is generated. connect a 10k ? or greater pull-up resistor from nirq to the i/o rail. nirq is typically used to dr ive the interrupt input of the system processor. many of the act8600's f unctions support interrupt- generation as a result of various conditions. these are typically masked by default, but may be unmasked via the i 2 c interface. for more information about the available fault conditions, refer to the appropriate sections of this datasheet. power control sequences when the v vsys rises above the uvlo, or reg9 rises above 93% of its default value (in the case when a charged backup battery is installed), nrsto is asserted low immediately and reg9 is enabled. reg1, reg2 and reg3 will be enabled when pwren = 1 and v vsys is above 3.45v. when reg1 reaches 93% of the default value, reg5 will be enabled, and nrsto is de-asserted after a 40ms delay. once the system is turned on, the processor may shut down the system by pulling down pwren. in that case, all of the regulators, except reg9 will be turned off (reg9 is the always on ldo). when pwren is pulled high again, out1/2/3/5 will be turned on again but nrsto remains de-asserted as long as reg9 is within regulation. system control information interfacing with the ingenic jz4770 processor table 1: act8600 and ingenic jz4770 power domains power domain act8600 channel type default voltage current capability cpu core reg1 step-down dc/dc 1.2v 1200ma io / avdaud reg2 step-down dc/dc 3.3v 1200ma mem reg3 step-down dc/dc 1.8v 950ma usb otg reg4 step-up dc/dc 5v 600ma avd reg5 ldo 2.5v 350ma general purpose reg6 ldo 1.8v 350ma general purpose reg7 ldo 1.8v 250ma general purpose reg8 ldo 1.8v 250ma vddrtc reg9 ldo 3.3v 5ma vddrtc12 reg10 ldo 1.2v 5ma act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 35 - www.active-semi.com figure 2: act8600 power sequence act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 36 - www.active-semi.com i 2 c interface the act8600 features an i 2 c interface that allows advanced programming capability to enhance overall system performance. to ensure compatibility with a wide range of system processors, the i 2 c interface supports clock speeds of up to 400khz (?fast-mode? operation) and uses standard i 2 c commands. i 2 c write-byte commands are used to program the act8600, and i 2 c read-byte commands are used to read the act8600?s internal registers. the act8600 always operates as a slave device, and is addressed using a 7-bit slave address followed by an eighth bit, which indicates whether the transaction is a read- operation or a write-operation, [1011010x]. sda is a bi-directional data line and scl is a clock input. the master device initiates a transaction by issuing a start condition, defined by sda transitioning from high to low while scl is high. data is transferred in 8-bit packets, beginning with the msb, and is clocked-in on the rising edge of scl. each packet of data is followed by an ?acknowledge? (ack) bit, used to confirm that the data was transmitted successfully. for more information regarding the i 2 c 2-wire serial interface, go to the nxp website: http://www.nxp.com. interrupt service routine the act8600 has number of interrupt trigger sources to simplify the customer inte rrupt service routine, the act8600 features a interrupt service routine function as follow: once the nirq asserts low, the cpu can read the 0xc1 byte to determine the source that asserts the interrupt. the cpu then reads the interrupt ?related bit(s) within the source located at generated the interrupt then serve it. if there are multiple interrupts and pendi ng, the cycle repeats until all the interrupts are served. the global interrupt address is shown as table 2. table 2: global interrupt address housekeeping functions programmable system voltage monitor the act8600 features a programmable system- voltage monitor, which monitors the voltage at vsys and compares it to a programmable threshold voltage. the vsysmon comparator is designed to be immune to vsys noise resulting from switching, load transients, etc. the vsysmon comparator is disable by default; to enable it, set the syslev[3:0] register to one of the value in table 3. note that there is a 200mv hysteresis between the rising and falling threshold for the comparator. the vsysdat [ - ] bit reflects the output of the vsysmon comparator. the value of vsysdat[ ] is 1 when v vsys < syslev; value is 0 otherwise. the vsysmon comparator can generate an interrupt when v vsys is lower than syslev[ ] voltage. the interrupt is masked by default by can be unmasked by setting nsyslevmsk[ ] = 1. functional description 0xc1 value interrupt source interrupt address 0x00 system 0x00 0x10 reg1 0x12 0x20 reg2 0x22 0x30 reg3 0x32 0x50 reg5 0x51 0x60 reg6 0x61 0x70 reg7 0x71 0x80 reg8 0x81 0xa0 apch 0xa8, 0xa9 0xb0 otg 0xb0, 0xb2 act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 37 - www.active-semi.com table 3: syslev falling threshold thermal protection the act8600 integrates thermal shutdown protection circuitry to prevent damage resulting from excessive thermal stress, as may be encountered under fault conditions. thermal interrupt if the thermal interrupt is unmasked (by setting ntmsk[ ] to 1), act8600 can generate an interrupt when the die temperature reaches 120c (typ). thermal protection if the act8600 die temperature exceeds 160c, the thermal protection circuitry disables all regulators and prevents the regulators from being enabled until the ic temperature drops by 20c (typ). syslev[3:0] syslev falling threshold 1000 3.3 1001 3.4 1010 3.5 1011 3.6 1100 3.7 1101 3.8 1110 3.9 1111 4.0 functional description cont?d act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 38 - www.active-semi.com general description reg1, reg2 and reg3 are fixed-frequency, current-mode, synchronous pwm step-down converters that achieves peak efficiencies of up to 97%. these regulators operate with a fixed frequency of 2.22mhz, minimizing noise in sensitive applications and allowing the use of small external components. additionally, reg1, reg2 and reg3 are available with a variety of standard and custom output voltages, and may be software-controlled via the i 2 c interface for systems that require advanced power management functions. output current capability reg1, reg2, and reg3 are capable of supplying 1200ma, 1200ma and 950ma output current, respectively. 100% duty cycle operation reg1, reg2 and reg3 are capable of operating at up to 100% duty cycle. during 100% duty cycle operation, the high-side power mosfets are held on continuously, providing a direct connection from the input to the output (through the inductor), ensuring the lowest possible dropout voltage in battery powered applications. operating mode by default, reg1, reg2, and reg3 operate in fixed-frequency pwm mode at medium to heavy loads, then transition to a proprietary power-saving mode at light loads in order to save power. synchronous rectification reg1, reg2, and reg3 each feature integrated synchronous rectifiers, maximizing efficiency and minimizing the total solution size and cost by eliminating the need for external rectifiers. soft-start reg1, reg2 and reg3 include internal 500 us soft- start ramps which limit the rate of change of the output voltage, minimizing input inrush current and ensuring that the output powers up in a monotonic manner that is independent of loading on the outputs. this circuitry is effective any time the regulator is enabled, as well as after responding to a short-circuit or other fault condition. compensation reg1, reg2 and reg3 utilize current-mode control and a proprietary internal compensation scheme to simultaneously simplify external component selection and optimize transient performance over their full operating range. no compensation design is required; simply follow a few simple guide lines described below when choosing external components. input capacitor selection the input capacitor reduces peak currents and noise induced upon the voltage source. a 4.7 f ceramic capacitor is recommended for each regulator in most applications. output capacitor selection reg1, reg2 and reg3 were designed to take advantage of the benefits of ceramic capacitors, namely small size and very-low esr. reg1, reg2 and reg3 are designed to operate with 22uf output capacitor over most of their output voltage ranges, although more capacitance may be desired depending on the duty cycle and load step requirements. inductor selection reg1, reg2, and reg3 utilize current-mode control and a proprietary internal compensation scheme to simultaneously simplify external component selection and optimize transient performance over their full operating range. these devices were optimized for operation with 3.3 h inductors, although inductors in the 2.2 h to 4.7 h range can be used. configuration options output voltage programming by default, reg1, reg2 and reg3 power up and regulate to their default output voltages. once the system is enabled, the output voltages may be modified through either the i 2 c interface by writing to the vset[ ] register. using i 2 c, the output voltage may be programmed to any voltage as shown in table 4. interrupts reg1, reg2 and reg3 may optionally interrupt the processor if their output voltages fall out regulation. enable interrupts by setting a regulator?s nfltmsk[ ] bit. step-down dc/dc regulators act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 39 - www.active-semi.com general description the step-up dc/dc is a highly efficient step-up dc/dc converter that employs a fixed frequency, current-mode, pwm architec ture. this regulator is optimized for 5v applications as well as white-led bias applications consisting of up to ten white- leds. 5v applications the boost converter is configured by default to provide a fixed 5v output voltage, without requiring external feedback resistors. contact the factory for other voltage options. in order to provide improved operation under very low duty-cycle conditions, such as when operating from a fully-charged li+ cell to 5v, the boost converter may optionally be configured to operate at half of the frequency of the buck regulators. compensation and stability the boost regulator utilizes current-mode control and an internal compensation network to optimize transient performance, ease compensation, and improve stability over a wide range of operating conditions. inductor selection reg4 is optimized for operation with inductors in the 4.7uh to 10uh range, although larger inductor values of up to 22uh can be used to achieve the highest possible efficiency. input and output capacitor selection for 5v operation, a 10uf ceramic capacitor should be connected to the input and output of out4 respectively. a larger output capacitor may be used to minimize output voltage ripple if needed. rectifier selection the boost regulator requires a schottky diode to rectify the inductor current. select a low forward voltage drop schottky diode with a forward current rating that is sufficient to support the maximum switch current of 900ma (typ) and a sufficient peak repetitive reverse voltage (vrrm) to support the output voltage. configuration options output voltage programming by default, the boost regulator powers up and regulates to its default output voltages. once the system is enabled, the output voltages may be modified through either the i 2 c interface by writing to the vset[ ] register. using i 2 c, the output voltage may be programmed to any voltage as shown in table 6. enabling the boost regulator the boost regulator feature independent enable/disable control via the i 2 c serial interface. independently enable or disable the boost by writing to the on[ ] bit for reg4. power-ok the boost regulator features a power-ok status bit (ok[ ]) that can be read by the system microprocessor via the i 2 c interface. if an output voltage is lower than the power-ok threshold, typically 6% below the programmed regulation voltage, this bit clears to 0. configurable step-up dc/dc act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 40 - www.active-semi.com general description the reg5, reg6, reg7 and reg8 are low-noise, low-dropout linear regulators (ldos) that are optimized for low noise and high-psrr operation. ldo output voltage programming the reg5, reg6, reg7 and reg8 feature independently-programmabl e output voltages that are set via the i 2 c serial interface, increasing flexibility while reducing total solution and size and cost. set the output voltage by writing to the ldo?s vset[ ] register. each ldo?s vset[ ] register provides the following output voltage options as shown in table 5. in order to ensure safe operation under over-load conditions, each ldo features current-limit circuitry with current fold-back. th e current-limit the current that can be drawn from the output, providing protection in overload conditions. for additional protection under extreme over current conditions, current-fold-back protection reduces the current- limit by approximately 50% under extreme overload conditions. enabling and disabling the ldos all ldos feature independent enable/disable control via the i 2 c serial interface. independently enable or disable each output by writing to the appropriate on[ ] bit. power-ok the reg5, reg6, reg7 and reg8 feature a power-ok status bit (ok[ ]) that can be read by the system microprocessor via the i 2 c interface. if an output voltage is lower than the power-ok threshold, typically 11% below the programmed regulation voltage, this bit clears to 0. interrupts each ldo may optionally interrupt the processor if its output voltage falls out of regulation. enable interrupts by setting a regulator?s nfltmsk[ ] bit. optional ldo output discharge the reg5, reg6, reg7 and reg8 feature optional output voltage discharge. when this feature is enabled, the ld o output is discharged to ground through a 1.5k ? resistance when the ldo is shutdown. this feature may be enabled or disabled via the i 2 c interface by writing to an ldo?s dis[ ] bit. output capacitor selection the reg5, reg6, reg7 and reg8 require just a small 2.2uf ceramic capacitor for stability. for best performance, each output capacitor should be connected directly between each output and ground, with a short and direct connection. high quality ceramic capacitors such as x7r and x5r dielectric types are strongly recommended. backup battery charger reg9 is always-on and reg10 is low-dropout linear regulators (ldo). they both feature low- quiescent supply current, and current-limit protection, and are ideally suited for always-on power supply applications, such as for a real-time clock, or as a backup-battery or super-cap charger. reg9 features internal circuitry that limits the reverse supply current to less than 1ua when the input voltage falls below the output voltage, as can be encountered in backup-battery charging applications. reg9 internal circuitry monitors the input and the output, and disconnects internal circuitry and parasitic diodes when the input voltage falls below the output voltage, greatly minimizing backup battery discharge. the always-on ldos also feature a constant cu rrent-limit, which protects the ic under output short-circuit conditions as well as provides a constant charge current. when operating as a backup battery charger. figure 3: always on ldo low-dropout line ar regulators act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 41 - www.active-semi.com table 4: vset[ ] output voltage setting of dc/d c step-down regulat ors (reg1?reg3) regx/vset[2:0] 000 001 010 011 100 101 110 111 000 0.600 0.800 1.000 1.200 1.600 2.000 2.400 3.200 001 0.625 0.825 1.025 1.250 1.650 2.050 2.500 3.300 010 0.650 0.850 1.050 1.300 1.700 2.100 2.600 3.400 011 0.675 0.875 1.075 1.350 1.750 2.150 2.700 3.500 100 0.700 0.900 1.100 1.400 1.800 2.200 2.800 3.600 101 0.725 0.925 1.125 1.450 1.850 2.250 2.900 3.700 110 0.750 0.950 1.150 1.500 1.900 2.300 3.000 3.800 111 0.775 0.975 1.175 1.550 1.950 2.350 3.100 3.900 regx/vset[5:3] table 5: vset[ ] output voltage setting of lo w-noise ldo regulators (reg5?reg8) regx/vset[2:0] 000 001 010 011 100 101 110 111 000 0.600 0.800 1.000 1.200 1.600 2.000 2.400 3.200 001 0.625 0.825 1.025 1.250 1.650 2.050 2.500 3.300 010 0.650 0.850 1.050 1.300 1.700 2.100 2.600 3.400 011 0.675 0.875 1.075 1.350 1.750 2.150 2.700 3.500 100 0.700 0.900 1.100 1.400 1.800 2.200 2.800 3.600 101 0.725 0.925 1.125 1.450 1.850 2.250 2.900 3.700 110 0.750 0.950 1.150 1.500 1.900 2.300 3.000 3.800 111 0.775 0.975 1.175 1.550 1.950 2.350 3.100 3.900 regx/vset[5:3] act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 42 - www.active-semi.com regx/vset[4:0] 000 001 010 011 100 101 110 111 00000 3.000 3.000 3.000 6.200 9.400 12.600 19.000 31.800 00001 3.000 3.000 3.100 6.300 9.500 12.800 19.400 32.200 00010 3.000 3.000 3.200 6.400 9.600 13.000 19.800 32.600 00011 3.000 3.000 3.300 6.500 9.700 13.200 20.200 33.000 00100 3.000 3.000 3.400 6.600 9.800 13.400 20.600 33.400 00101 3.000 3.000 3.500 6.700 9.900 13.600 21.000 33.800 00110 3.000 3.000 3.600 6.800 10.000 13.800 21.400 34.200 00111 3.000 3.000 3.700 6.900 10.100 14.000 21.800 34.600 regx/vset[7:5] 01000 3.000 3.000 3.800 7.000 10.200 14.200 22.200 35.000 01001 3.000 3.000 3.900 7.100 10.300 14.400 22.600 35.400 01010 3.000 3.000 4.000 7.200 10.400 14.600 23.000 35.800 01011 3.000 3.000 4.100 7.300 10.500 14.800 23.400 36.200 01100 3.000 3.000 4.200 7.400 10.600 15.000 23.800 36.600 01101 3.000 3.000 4.300 7.500 10.700 15.200 24.200 37.000 01110 3.000 3.000 4.400 7.600 10.800 15.400 24.600 37.400 01111 3.000 3.000 4.500 7.700 10.900 15.600 25.000 37.800 10000 3.000 3.000 4.600 7.800 11.000 15.800 25.400 38.200 10001 3.000 3.000 4.700 7.900 11.100 16.000 25.800 38.600 10010 3.000 3.000 4.800 8.000 11.200 16.200 26.200 39.000 10011 3.000 3.000 4.900 8.100 11.300 16.400 26.600 39.400 10100 3.000 3.000 5.000 8.200 11.400 16.600 27.000 39.800 10101 3.000 3.000 5.100 8.300 11.500 16.800 27.400 40.200 10110 3.000 3.000 5.200 8.400 11.600 17.000 27.800 40.600 10111 3.000 3.000 5.300 8.500 11.700 17.200 28.200 41.000 11000 3.000 3.000 5.400 8.600 11.800 17.400 28.600 41.400 11001 3.000 3.000 5.500 8.700 11.900 17.600 29.000 41.400 11010 3.000 3.000 5.600 8.800 12.000 17.800 29.400 41.400 11011 3.000 3.000 5.700 8.900 12.100 18.000 29.800 41.400 11100 3.000 3.000 5.800 9.000 12.200 18.200 30.200 41.400 11101 3.000 3.000 5.900 9.100 12.300 18.400 30.600 41.400 11110 3.000 3.000 6.000 9.200 12.400 18.600 31.000 41.400 11111 3.000 3.000 6.100 9.300 12.500 18.800 31.400 41.400 table 6: vset[ ] output voltage setting of dc/dc step-up regulator act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 43 - www.active-semi.com general description when the system is acting as a usb otg a- device, the otg subsystem can provide power to vbus from either 5vin via q1 or chgin via q2 as shown in the figure. if vbus is connected to a charger (either a charging port, a usb host or hub, or a pc), the battery will be charged via q3 (see single-cell li+ activepath tm charger section). 5vin to vbus (q1) q1 is a pmos switch that can provide 5v supply to vbus from 5vin pin which is typically connected to the output of the boost regulator (reg4). q1 is controlled by onq1[ ]. the current for q1 is limited at 700ma to protect the boost regulator or external source connected at 5vin from overloaded. if the current across q1 is over the limitation for mo re than 256ms, the switch is turned off automatically. a 0 to 1 transition on onq1[ ] is needed to turned q1 on again after a over-current condition. q1 may optionally interrupt the processor when there is a over-current condition. enable interrupts by setting the nfltmskq1[ ] bit. chgin to vbus (q2) q2 is a nmos switch that can power vbus from chgin. if q2 is controlled by onq2[ ] and can only be turned on if q1 is turned off. the current for q2 is lim ited at 700ma prevent the external source connected at chgin from overloaded. if the current across q2 is over the limitation for more than 256ms, the switch is turned off automatically. a 0 to 1 transition on onq2[ ] is needed to turned q2 on again after a over-current condition. q2 also features an over voltage protection function. when the voltage at chgin is above 6v, q2 is turned off automatically to avoid an over- voltage condition at vbus. q2 may optionally interrupt the processor when there is a over-current condition. enable interrupts by setting the nfltmskq2[ ] bit. figure 4: usb otg subsystem usb otg act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 44 - www.active-semi.com general description the charger features an advanced battery charger that incorporates the patent-pending activepath tm architecture for system power selection. this combination of circuits provides a complete, advanced battery-managem ent system that automatically selects the best available input supply, manages charge current to ensure system power availability, and provides a complete, high- accuracy (0.5%), thermall y regulated, full-featured single-cell linear li+ charger that can withstand input voltages of up to 12v at chgin. activepath tm architecture the activepath tm architecture performs three important functions: 1) system configuration optimization 2) input protection 3) battery-management system configuration optimization the activepath circuitry monitors the state of the input supply, the battery, and the system, and automatically reconfigures itself to optimize the power system. if a valid input supply at either chgin or vbus is present, activepath powers the system from the input while charging the battery in parallel. of the two possi ble charging sources, chgin is the preferred one over vbus to allow the battery to charge as quickly as possible, while supplying the system. if a valid input supply is not present, activepath powers the system from the battery. if the input is present and the system current requirement exceeds the capability of the input supply, activepath allows system power to be drawn from both the battery and the input supply. note that the battery will not be charged from vbus pin when vbus is supplied by the 5vin pin (through q1). input protection for chgin input over-voltage protection the activepath tm circuitry features input over- voltage protection circuitry for chgin. this circuitry disables charging when the input voltage exceeds the voltage set by ovpset[ ], but stands off the input voltage in order to protect the system. note that the adjustable ovp threshold is intended to provide the charge cycle with adjustable immunity against upward voltage transients on the input, and is not intended to allow continuous charging with input voltages above the c harger's normal operating voltage range. independ ent of the ovpset[ ] setting, the charge cycle is not allowed to continue until the input voltage falls back into the charger's normal operating voltage range (i.e. below 6.0v). in an input over-voltage condition this circuit limits v vsys to 4.6v, protecting any circuitry connected to v vsys from the over-voltage condition, which may exceed this circuitry's volt age capability. this circuit is capable of withstanding input voltages of up to 12v. table 7: input over-voltage protection setting input supply overload protection the activepath tm circuitry monitors and limits the total current drawn from the input supply to a value set by the chgin/vbus configuration and chglev inputs, as well as the resistor connected to iset. when charging from vbus pin, the input current is limited to either 75ma, when chglev is driven to a logic-low, or 450ma, when chglev is driven to a logic-high. when charging from chgin, the input current is limited to 2.25a, typically. input under voltage lockout if the input voltage applied to chgin falls below 3.5v (typ), an input un der-voltage condition is detected and the charger is disabled. once an input under-voltage condition is detected, a new charge cycle will initiate when t he input exceeds the under- voltage threshold by at least 500mv. battery management the act8600 features a full-featured, intelligent charger for lithium-based cells, and was designed specifically to provide a complete charging solution with minimum system design effort. the core of the charger is a cc/cv (constant- current/constant-voltage), linear-mode charge controller. this controller incorporates current and voltage sense circuitry, an internal 70m ? power mosfet, thermal-regulation circuitry, a full- featured state-machine that implements charge control and safety features, and circuitry that eliminates the reverse blocking diode required by conventional charger designs. single-cell li+ activepath tm charger ovpset[0] ovp threshold 0 6.6v 1 7.0v act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 45 - www.active-semi.com the charge termination voltage is highly accurate (0.5%), and features a se lection of charge safety timeout periods that pr otect the system from operation with damaged ce lls. other features include pin-programmable fast-charge current and one current-limited nstat out put that can directly drive led indicator or provide a logic-level status signal to the host microprocessor . dynamic charge current control (dccc) the act8600's activepath tm charger features dynamic charge current cont rol (dccc) circuitry, which acts to ensure that the system remains powered while operating within the maximum output capability of the power ada pter. the dccc circuitry continuously monitors vsys, and if the voltage at vsys drops by more than 200mv, the dccc circuitry automatically reduces charge current in order to prevent vsys from continuing to drop. charge current programming the act8600's activepath tm charger features a flexible charge current-programming scheme that combines the convenience of internal charge current programming with the flexibility of resistor based charge current programming. current limits and charge current programming are managed as a function of the chgin/vb us configuration and chglev pins, in combination with r iset , the resistance connected to the iset pin. when charging from chgin, the charger operates in ?ac-mode' with a charge current programmed by r iset , and charge current is given by: r iset (k ? ) = 2336 (1v/i chg (ma)) - 0.205 when charging from vbus, the charger operates in ?usb-mode?, with a maximum charge current defined by the chglev input, and q3dbilim[ ] settings as summarized in table 8. note that the actual charge current may be limited to a current lower than the programmed fast charge current due to the act8600?s internal thermal regulation loop. see the thermal regulation section for more information. charger input interrupts in order to ease input supply detection and eliminate the size and cost of external detection circuitry, the charger has the ability to generate interrupts based upon the stat us of the input supply. this function is capable of generating an interrupt when the input is connected, disconnected, or both. chgin detection an interrupt is generated any time the input supply is connected to chgin when instat[ ] bit is set to 1 and the incon[ - ] bit is set to 1, and an interrupt is generated any time the input supply is disconnected when instat[ ] bit is set to 1 and the indis[ ] bit is set to 1. the status of the input may be read at any time by reading the indat[ - ] bit, where a value of 1 indicates that the valid input (v chgin uvlo act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 47 - www.active-semi.com figure 5: typical li+ charge profile and act8600 charge states figure 6: charger state diagram a: precondition state b: fast-charge state c: top-off state d: end-of-charge state suspend precondition fast-charge end-of-charge (v chgin < v bat ) or (v chgin act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 48 - www.active-semi.com table 9: charging status indication thermal regulation the charger features an internal thermal regulation loop that monitors die temperature and reduces charging current as needed to ensure that the die temperature does not exceed the thermal regulation threshold of 100c. this feature protects against excessive junction temperature and makes the device more accommodating to aggressive thermal designs. note, however, that attention to good thermal designs is required to achieve the fastest possible charge time by maximizing charge current. charge safety timers the charger features programmable charge safety timers which help ensure a safe charge by detecting potentially damaged cells. these timers are programmable via the pretimo[1:0] and tottimo[1:0] bits, as shown in table 10 and table 11. note that in order to account for reduced charge current resulting from dc cc operation, the charge timeout periods are extended proportionally to the reduction in charge current. as a result, the actual safety period may exceed the nominal timer period. the status of the charge timers may be read at any time by reading the timrdat[ ] bit, where a value of 0 indicates that neither charge timer has expired, and a value of 1 indicates that one of the charge timers has expired. table 10: precondition safety timer setting table 11: total safety timer setting charge status indicator the charger provides a charge-status indicator output, nstat. nstat is an open-drain output which sinks current when the charger is in an active-charging state, and is high-z otherwise. nstat features an internal 8ma current limit, and is capable of directly driving a led without the need of a current-limiting resi stor or other external circuitry. to drive an led, simply connect the led between nstat pin and an appropriate supply, such as vsys. for a logic-level charge status indication, simply connect a resistor from nstat to an appropriate voltage supply. table 12: charging status indication reverse-current protection the charger includes internal reverse-current protection circuitry that eliminates the need for blocking diodes, reducing solution size and cost as well as dropout voltage relative to conventional battery chargers. when the voltage at chgin falls below v bat , the charger automatically reconfigures its power switch to minimize current drawn from the battery. battery temperature monitoring in a typical application, the th pin is connected to the battery pack's thermistor input, as shown in figure 7. the charger continuously monitors the cstate[0] cstate[1] state machine status 1 1 precondition 1 0 fast-charge/top-off 0 1 end-of-charge 0 0 suspend/disable/fault pretimo[1] pretimo[0] precondition timeout period 0 0 40 mins 0 1 60 mins 1 0 80 mins 1 1 disabled tottimo[1] tottimo[0] total timeout period 0 0 4 hrs 0 1 5 hrs 1 0 6.5 hrs 1 1 disabled state nstat precondition active fast-charge active top-off active end-of-charge high-z suspend high-z temperature fault high-z time-out fault high-z act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 49 - www.active-semi.com temperature of the battery pack by injecting a 100 a (typ) current into the thermi stor (via the th pin) and sensing the voltage at th. the voltage at th is continuously monitored, and charging is suspended if the voltage at th exceeds either of the internal v thh and v thl thresholds of 0.5v and 2.5v, respectively. the net resistance (from th to ga) required to cross the thresholds are given by: 100 a rnom khot = 0.5v rnom khot 5k ? 100 a rnom kcold = 2.5v rnom kcold 25k ? where rnom is the nominal thermistor resistance at room temperature, and khot and kcold represent the ratios of the thermistor's resistance at the desired hot and cold thresholds, respectively, to the resistance at 25c. the status of the battery temperature pin may be read at any time by reading the tempdat[ - ] bit, where a value of 1 indicates that battery temperature is within the valid range, and a value of 0 indicates that battery temperature has exceeded either of the thresholds. figure 7: simple configuration act8600 rev 3, 15-nov-12 copyright ? 2012 active-semi, inc. innovative power tm activepmu tm and activepath tm are trademarks of active-semi. i 2 c tm is a trademark of nxp. - 50 - www.active-semi.com tqfn55-40 package outline and dimensions symbol dimension in millimeters dimension in inches min max min max a 0.700 0.800 0.028 0.031 a1 0.200 ref 0.008 ref a2 0.000 0.050 0.000 0.002 b 0.150 0.250 0.006 0.010 d 4.900 5.100 0.193 0.201 e 4.900 5.100 0.193 0.201 d2 3.450 3.750 0.136 0.148 e2 3.450 3.750 0.136 0.148 e 0.400 bsc 0.016 bsc l 0.300 0.500 0.012 0.020 r 0.300 0.012 active-semi, inc. reserves the right to modify the circuitry or specifications without notice. user s should evaluate each product to make sure that it is suitable for their applicat ions. active-semi products are not intended or authorized for use as critical components in life-support dev ices or systems. active-semi, inc. does not assume any liability arising out of the use of any product or circuit described in this datasheet, nor does it convey any patent license. active-semi and its logo are trademarks of active-semi, inc. for more information on this and other products, contact sales@active-semi.com or visit http://www.active-semi.com . is a registered trademark of active-semi. |
Price & Availability of ACT8600QJ162-T
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |