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innovative power tm - 1 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. act8846 advanced pmu for multi-core application processors features integrated power supplies ? four dc/dc step-down (buck) regulators ? 2 x 2.8a, 2 x 1.5a ? five low-noise ldos ? 2 x 150ma, 3 x 350ma ? three low-input voltage ldos ? 1 x 150ma, 2 x 350ma ? one low iq keep-alive ldo ? backup battery charger system control and interface ? four general purpose i/o with pwm drivers ? i 2 c serial interface ? interrupt controller system management ? reset interface and sequencing controller ? power on reset ? soft / hard reset ? watchdog supervision ? multiple sleep modes ? thermal management subsystem applications ? tablet pc ? mobile internet devices (mid) ? e-books ? personal navigation devices ? smart phones general description the act8846 is a complete, cost effective, and highly-efficient activepmu tm power management solution optimized for the power, voltage sequencing and control requirements of rockchip rk31x8 application processor family. the act8846 features four fixed-frequency, current-mode, synchronous pwm step-down converters that achieve peak efficiencies of up to 97%. these regulators operate with a fixed frequency of 2.25mhz, minimizing noise in sensitive applications and allowing the use of small external components. these buck regulators supply up to 2.8a of output current and can fully satisfy the power and control requirements of the multi-core application processor. dynamic voltage scaling (dvs) is supported either by dedicated control pins, or through i2c interface to optimize the energy-per- task performance for the processor. this device also include eight low-noise ldos (up to 350ma per ldo), one always-on ldo and an integrated backup battery charger to provide a complete power system for the processor. the power sequence and reset controller provides power-on reset, sw-initiated reset, and power cycle reset for the processor. it also features the watchdog supervisory function. multiple sleep modes with autonomous sleep and wake-up sequence control are supported. the thermal management and protection subsystem allows the host processor to manage the power dissipation of the pmu and the overall system dynamically. the pmu provides a thermal warning to the host processor when the temperature reaches a certain threshold such that the system can turn off some of the non-essential functions, reduce the cl ock frequency and etc to manage the system temperature. the act8846 is available in a compact, pb-free and rohs-compliant tqfn66-48 package. rev 1, 15-may-13
act8846 rev 1, 15-may-13 innovative power tm - 2 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. table of contents general info rmation ........................................................................................................... .......................... p. 01 functional block diagram ...................................................................................................... ...................... p. 03 ordering in formation .......................................................................................................... .......................... p. 04 pin config uration ............................................................................................................. ............................ p. 04 pin descrip tions .............................................................................................................. ............................. p. 05 absolute maxi mum ratings ...................................................................................................... ................... p. 07 i 2 c interface electrical characteristics ........................................................................................ ................ p. 08 global regist er map ........................................................................................................... ......................... p. 09 register and bit descriptions ................................................................................................. ..................... p. 11 system control electric al characteristics ..................................................................................... ............... p. 17 step-down dc/dc electric al characteristics .................................................................................... .......... p. 18 low-noise ldo electric al characteristics ...................................................................................... ............. p. 19 low-input voltage ldo electr ical charac teristics .............................................................................. ......... p. 20 low-power (always-on) ldo el ectrical characteristics .......................................................................... ... p. 21 pwm led driver electric al characteristics ..................................................................................... ............ p. 21 typical performance characteristics?????????????????????????????..p. 22 system control information .................................................................................................... ..................... p. 28 interfacing with the rockchi p rk31x8 proces sors .......................................................................... p. 2 8 control si gnals ............................................................................................................... .................. p. 29 push-button control ........................................................................................................... .............. p. 30 control s equences ............................................................................................................. .............. p. 30 watch-dog s upervisi on ......................................................................................................... .......... p. 31 software-initiat ed power cycle ................................................................................................ ........ p. 31 functional de scription ........................................................................................................ ......................... p. 32 i 2 c interf ace ................................................................................................................... .................. p. 32 housekeeping functions ........................................................................................................ .......... p. 32 thermal prot ection ............................................................................................................ ............... p. 32 step-down dc/d c regulators .................................................................................................... ................ p. 33 general description .......................................................................................................................... p. 3 3 100% duty cycl e operat ion ..................................................................................................... ........ p. 33 operating mode ............................................................................................................................... . p. 33 synchronous re ctification ..................................................................................................... ........... p. 33 soft-start .................................................................................................................... ...................... p. 33 compensation .................................................................................................................. ................ p. 33 configuration options ....................................................................................................................... p. 33 ok[ ] and output f ault interrupt .............................................................................................. ......... p. 34 pcb layout cons iderations ..................................................................................................... ........ p. 34 low-noise, low-dropout linear regulators ................................................................................................ p. 35 general description .......................................................................................................................... p. 3 5 output curr ent limit .......................................................................................................... ............... p. 35 compensation .................................................................................................................. ................ p. 35 configuration options ....................................................................................................................... p. 35 ok[ ] and output f ault interrupt .............................................................................................. ......... p. 35 pcb layout cons iderations ..................................................................................................... ........ p. 35 always-on ld o (reg13) ......................................................................................................... ................... p. 36 general description .......................................................................................................................... p. 3 6 reverse-current protection .................................................................................................... ......... p. 36 typical application ........................................................................................................... ................ p. 36 pwm led dr ivers ............................................................................................................... ......................... p. 37 pwm frequence selection ....................................................................................................... ....... p. 37 pwm duty cycl e select ion ...................................................................................................... ........ p. 37 tqfn66-48 package out line and dime nsions ...................................................................................... ..... p. 38 revision hi story .............................................................................................................. ............................. p. 39
act8846 rev 1, 15-may-13 innovative power tm - 3 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. functional block diagram
act8846 rev 1, 15-may-13 innovative power tm - 4 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. pin configuration top view thin - qfn (tqfn66-48) ordering information c 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. d : push button 10s shut down function is supported in act8846qm468 only. part number v out1 v out2 v out3 v out4 v out5 v out6 v out7 v out8 v out9 v out10 v out11 v out12 v out13 ACT8846QM460-T adjustable 1.0v 1. 0v 3.0v 1.0v 1.2v 1.8v 3.3v 3.3v 3.3v 1.8v 2.8v 1.8v package pins temperature range tqfn66-48 48 -40c to +85c active 8846qm date code part number v out1 v out2 v out3 v out4 v out5 v out6 v out7 v out8 v out9 v out10 v out11 v out12 v out13 act8846qm468-t d adjustable 1.0v 1.0v 3.0v 1.0v 1.2v 1.8v 3.3v 3. 3v 3.3v 1.8v 2.8v 1.8v
act8846 rev 1, 15-may-13 innovative power tm - 5 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. pin descriptions pin name description 1, 2 sw3 switch node for reg3. 3 gp3 power ground for reg3. connect gp14, gp2, gp3, and ga together at a single point as close to the ic as possible. 4 out10 reg10 output. bypass it to ground with a 2.2f capacitor. 5 out11 reg11 output. bypass it to ground with a 2.2f capacitor. 6 inl3 power input for reg10, reg11 and reg12. 7 out12 reg12 output. bypass it to ground with a 2.2f capacitor. 8 vselr2 output voltage selection for reg2. drive to logic low to select default output voltage. drive to logic high to select secondary output voltage. 9 npbstat active-low open-drain push-button stat us output. npbstat is asserted low whenever the npbin is pushed, and is high-z otherwise. 10 gp2 power ground for reg2. connect gp14, gp 2, gp3, and ga together at a single point as close to the ic as possible. 11, 12 sw2 switch node for reg2. 13, 14 vp2 power input for reg2. bypass to gp2 with a high quality ceramic capacitor placed as close to the ic as possible. 15 out2 output voltage sense for reg2. 16 pwren power enable input for reg3. pwren is functional only when pwrhld is driven high. drive pwren to a logic high to turn on the reg3. drive pwren to a logic low to turn off the reg3. 17 refbp reference bypass. connect a 0.047 f ceramic capacitor from refbp to ga. this pin is discharged to ga in shutdown. 18 inl2 power input for reg8, reg9. 19 out9 reg9 output. bypass it to ground with a 2.2f capacitor. 20 ga analog ground. 21 out4 output voltage sense for reg4. 22 out8 reg8 output. bypass it to ground with a 2.2f capacitor. 23 sda data input for i 2 c serial interface. data is read on the rising edge of scl. 24 scl clock input for i 2 c serial interface. 25 vp4 power input for reg4. bypass to gp14 with a high quality ceramic capacitor placed as close to the ic as possible.
act8846 rev 1, 15-may-13 innovative power tm - 6 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. pin descriptions cont?d pin name description 26 sw4 switch node for reg4. 27 gp14 power ground for reg1 and reg4. connect gp14, gp2, gp3, and ga together at a single point as close to the ic as possible. 28 sw1 switch node for reg1. 29 fb1 output feedback sense for reg1. for the adjustable output voltage options, connect this pin to the center of the output feedback resistor divider for voltage setting, connect this pin to the output directly to regulate the output voltage at 1.2v. 30 vp1 power input for reg1. bypass to gp14 with a high quality ceramic capacitor placed as close to the ic as possible. 31 npbin master enable input. drive npbin to ga through a 50k ? resistor for 32ms to enable the ic. drive npbin to ga through a 50k ? resistor for 10 seconds to disable the ic. 1 drive npbin directly to ga to assert a manual-reset condition. 32 pwrhld power hold input, enable input for re g1, reg2, reg4, reg5, reg6, reg8 and reg10. pwrhld is internally pulled down to ga through a 900k ? resistor. 33 nrsto open-drain reset output. 34 nirq open-drain interrupt output. 35 gpio6 general purpose i/o #6. configured as pwm le d driver output for up to 6ma current with programmable frequency and duty cycle. see the pwm led drive section for more information. 36 gpio5 general purpose i/o #5. configured as pwm le d driver output for up to 6ma current with programmable frequency and duty cycle. see the pwm led driver section for more information. 37 out13 reg13 output. bypass it to ground with a 0.47f capacitor. 38 out7 reg7 output. bypass it to ground with a 2.2f capacitor. 39 gpio4 general purpose i/o #4. configured as pwm le d driver output for up to 6ma current with programmable frequency and duty cycle. see the pwm led driver section for more information. 40 out6 reg6 output. bypass it to ground with a 2.2f capacitor. 41 inl1 power input for re g5, reg6, reg7. 42 out5 reg5 output. bypass it to ground with a 2.2f capacitor. 43 gpio3 general purpose i/o #3. configured as pwm le d driver output for up to 6ma current with programmable frequency and duty cycle. see the pwm led drier section for more information. 44 gpio2 general purpose i/o #2. configured as vselr4 for voltage selection of reg4. drive to logic low to select default output voltage. drive to logic high to select secondary output voltage. 45 gpio1 general purpose i/o #1. configured as vselr 3 for voltage selection of reg3. drive to logic low to select default output voltage. drive to logic high to select secondary output voltage. 46 out3 output voltage sense for reg3. 47,48 vp3 power input for reg3. bypass to gp3 with a high quality ceramic capacitor placed as close to the ic as possible. ep ep exposed pad. must be soldered to ground on pcb. 1 : only for act8846qm468.
act8846 rev 1, 15-may-13 innovative power tm - 7 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. absolute maximum ratings c parameter value unit inl1, inl2, inl3 to ga; vp1, sw1, fb1 to gp14; vp2, sw2, out2 to gp2; vp3, sw3, out3 to gp3; vp4, sw4, out4 to gp14 -0.3 to 6 v gp14, gp2, gp3 to ga -0.3 to + 0.3 v out10, out11, out12 to ga -0.3 to inl3 + 0.3 v junction to ambien t thermal resistance 21 c/w operating ambient temperature range -40 to 85 c operating junction temperature -40 to 125 c storage temperature -55 to 150 c lead temperature (soldering, 10 sec) 300 c out8, out9, gpio1, gpio2, gpio3, gp io4, gpio5, gpio6, vselr2, npbin, nrsto, nirq, npbstat, pwren, pw rhld, refbp, scl, sda to ga -0.3 to inl2 + 0.3 v out5, out6, out7, out13 to ga -0.3 to inl1 + 0.3 v 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.
act8846 rev 1, 15-may-13 innovative power tm - 8 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. figure 1: i 2 c compatible serial bus timing (v inl2 = 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 inl2 = 3.1v to 5.5v, t a = -40oc to 85oc 0.35 v scl, sda input high v inl2 = 3.1v to 5.5v, t a = -40oc to 85oc 1.55 v sda leakage current 1 a sda output low i ol = 5ma 0.35 v 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 scl leakage current 1 a
act8846 rev 1, 15-may-13 innovative power tm - 9 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. block address bits d7 d6 d5 d4 d3 d2 d1 d0 sys 0x00 name nbatlevmsk nbatstat vbatdat reserved batlev[3] batlev[2] batlev[1] batlev[0] default c 0 r r r 0 1 0 0 sys 0x01 name ntmsk tstat reserved reserved reserved reserved reserved reserved default c 0 r 0 0 0 0 0 0 reg1 0x12 name on reserved reserved reserved reserved phase nfltmsk ok default c 1 1 0 0 1 0 0 r reg2 0x20 name reserved reserved vset0[5] vset0[4] vset0[3] vset0[2] vset0[1] vset0[0] default c 0 0 0 1 0 0 0 0 reg2 0x21 name reserved reserved vset1[5] vset1[4] vset1[3] vset1[2] vset1[1] vset1[0] default c 0 0 0 1 0 0 0 0 reg2 0x22 name on reserved reserved reserved reserved phase nfltmsk ok default c 1 1 0 0 1 0 0 r reg3 0x30 name reserved reserved vset0[5] vset0[4] vset0[3] vset0[2] vset0[1] vset0[0] default c 0 0 0 1 0 0 0 0 reg3 0x31 name reserved reserved vset1[5] vset1[4] vset1[3] vset1[2] vset1[1] vset1[0] default c 0 0 0 1 0 0 0 0 reg3 0x32 name on reserved reserved reserved reserved phase nfltmsk ok default c 1 1 0 1 1 1 0 r reg4 0x40 name reserved reserved vset0[5] vset0[4] vset0[3] vset0[2] vset0[1] vset0[0] default c 0 0 1 1 0 1 1 0 reg4 0x41 name reserved reserved vset1[5] vset1[4] vset1[3] vset1[2] vset1[1] vset1[0] default c 0 0 1 1 0 1 1 0 reg4 0x42 name on reserved reserved reserved reserved phase nfltmsk ok default c 1 1 0 0 1 1 0 r reg5 0x50 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 0 1 0 0 0 0 reg5 0x51 name on reserved reserved reserved reserved dis nfltmsk ok default c 1 1 0 0 1 1 0 r reg6 0x58 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 0 1 1 0 0 0 reg6 0x59 name on reserved reserved reserved reserved dis nfltmsk ok default c 0 1 0 0 1 1 0 r reg7 0x60 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 1 0 0 1 0 0 reg7 0x61 name on reserved reserved reserved reserved dis nfltmsk ok default c 0 1 0 0 1 1 0 r reg8 0x68 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 1 1 1 0 0 1 reg8 0x69 name on reserved reserved reserved reserved dis nfltmsk ok default c 0 1 0 0 1 1 0 r global register map c : default values of act8846qm468-t.
act8846 rev 1, 15-may-13 innovative power tm - 10 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. block address bits d7 d6 d5 d4 d3 d2 d1 d0 reg9 0x70 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 1 1 1 0 0 1 reg9 0x71 name on reserved reserved reserved reserved dis nfltmsk ok default c 0 1 0 0 1 1 0 r reg10 0x80 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 1 1 1 0 0 1 reg10 0x81 name on reserved reserved reserved reserved dis nfltmsk ok default c 0 1 0 0 1 1 0 r reg11 0x90 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 1 0 0 1 0 0 reg11 0x91 name on reserved reserved reserved reserved dis nfltmsk ok default c 1 1 0 0 1 1 0 r reg12 0xa0 name reserved reserved vset[5] vset[4] vset[3] vset[2] vset[1] vset[0] default c 0 1 1 1 0 1 0 0 reg12 0xa1 name on reserved reserved reserved reserved dis nfltmsk ok default c 0 1 0 0 1 1 0 r reg13 0xb1 name on reserved reserved reserved reserved reserved reserved reserved default c 1 0 0 0 0 0 0 0 pb 0xc0 name pbamsk pbdmsk reserved reserved reserved reserved wdsren wdpcen default c 0 0 0 0 0 0 0 0 pb 0xc1 name intadr [7] intadr [6] intadr [5] intadr [4] intadr [3] intadr [2] intadr [1] intadr [0] default c r r r r r r r r pb 0xc2 name pbastat pbdstat pbdat reserved reserved reserved reserved reserved default c r r r r r r r r pb 0xc3 name reserved reserved reserved offsys offsysclr reserved reserved sipc default c 0 0 0 0 0 0 0 0 pb 0xc5 name reserved reserved reserved reserved reserved reserved pcstat srstat default c 0 0 0 0 0 0 r r gpio6 0xe3 name pwm6en fre6[2] fre6[1] fre6[0] duty6[3] duty6[2] duty6[1] duty6[0] default c 0 0 0 0 0 0 0 0 gpio5 name pwm5en fre5[2] fre5[1] fre5[0] duty5[3] duty5[2] duty5[1] duty5[0] default c 0 0 0 0 0 0 0 0 gpio3 0xf4 name pwm3en fre3[2] fre3[1] fre3[0] duty3[3] duty3[2] duty3[1] duty3[0] default c 1 1 0 1 0 1 1 1 gpio4 0xf5 name pwm4en fre4[2] fre4[1] fre4[0] duty4[3] duty4[2] duty4[1] duty4[0] default c 0 0 0 0 0 0 0 0 0xe4 global register map cont?d c : default values of act8846qm468-t.
act8846 rev 1, 15-may-13 innovative power tm - 11 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. register and bit descriptions block address bit name access description sys 0x00 [7] nbatlevmsk r/w battery voltage level interrupt ma sk. set this bit to 1 to unmask the interrupt. see the programmable battery voltage monitor section for more information sys 0x00 [6] nbatstat r battery voltage status. value is 1 when batlev interrupt is generated, value is 0 otherwise. sys 0x00 [5] vbatdat r battery voltage monitor real time status. value is 1 when vbat < batlev, value is 0 otherwise. sys 0x00 [4] - r/w reserved. sys 0x00 [3:0] batlev r/w battery voltage detect threshold. defines the batlev voltage threshold. see the programmable battary 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/w reserved. 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] vset0 r/w primary output voltage selection. valid when vsel is driven low. see the output voltage programming section for more information reg2 0x21 [7:6] - r reserved. reg2 0x21 [5:0] vset1 r/w secondary output voltage selection. valid when vsel is driven high. 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. reg3 0x30 [7:6] - r reserved. reg3 0x30 [5:0] vset0 r/w primary output voltage selection. valid when vsel is driven low. see the output voltage programming section for more information
act8846 rev 1, 15-may-13 innovative power tm - 12 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. register and bit descriptions cont?d block address bit name access description reg3 0x31 [7:6] - r reserved. reg3 0x31 [5:0] vset1 r/w secondary output voltage selection. valid when vsel is driven high. 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 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. reg3 0x32 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble 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 [7:6] - r reserved. reg4 0x40 [5:0] vset0 r/w primary output voltage selection. valid when vsel is driven low. see the output voltage programming section for more information reg4 0x41 [7:6] - r reserved. reg4 0x41 [5:0] vset1 r/w secondary output voltage selection. valid when vsel is driven high. see the output voltage programming section for more information. reg4 0x42 [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 0x42 [6:3] - r reserved. reg4 0x42 [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. reg4 0x42 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg4 0x42 [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 disa ble 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 0x58 [7:6] - r reserved. reg6 0x58 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg6 0x59 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator.
act8846 rev 1, 15-may-13 innovative power tm - 13 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. register and bit descriptions cont?d block address bit name access description reg6 0x59 [6:3] - r reserved. reg6 0x59 [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 0x59 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg6 0x59 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg7 0x60 [7:6] - r reserved. reg7 0x60 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg7 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. reg7 0x61 [6:3] - r reserved. reg7 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. reg7 0x61 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg7 0x61 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg8 0x68 [7:6] - r reserved. reg8 0x68 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg8 0x69 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg8 0x69 [6:3] - r reserved. reg8 0x69 [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 0x69 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg8 0x69 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg9 0x70 [7:6] - r reserved. reg9 0x70 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg9 0x71 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg9 0x71 [6:3] - r reserved. reg9 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. reg9 0x71 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg9 0x71 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg10 0x80 [7:6] - r reserved.
act8846 rev 1, 15-may-13 innovative power tm - 14 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. register and bit descriptions cont?d block address bit name access description reg10 0x80 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg10 0x81 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg10 0x81 [6:3] - r reserved. reg10 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. reg10 0x81 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg10 0x81 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg11 0x90 [7:6] - r reserved. reg11 0x90 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg11 0x91 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg11 0x91 [6:3] - r reserved. reg11 0x91 [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. reg11 0x91 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg11 0x91 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg12 0xa0 [7:6] - r reserved. reg12 0xa0 [5:0] vset r/w output voltage selection. see the output voltage programming section for more information. reg12 0xa1 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg12 0xa1 [6:3] - r reserved. reg12 0xa1 [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. reg12 0xa1 [1] nfltmsk r/w regulator fault mask control. set bit to 1 enable fault-interrupts, clear bit to 0 to disa ble fault-interrupts. reg12 0xa1 [0] ok r regulator power-ok status. value is 1 when output voltage exceeds the power-ok threshold, value is 0 otherwise. reg13 0xb1 [7] on r/w regulator enable bit. se t bit to 1 to enable the regulator, clear bit to 0 to disable the regulator. reg13 0xb1 [6:0] - r reserved. pb 0xc0 7 npbamsk r/w npbin assertion interrupt control. set this bit to 1 to generate an interrupt when npbin is asserted. pb 0xc0 6 npbdmsk r/w npbin de-assertion interrupt cont rol. set this bit to 1 to generate an interrupt wh en npbin is de-asserted. pb 0xc0 [5:2] - r reserved. pb 0xc0 1 wdsren r/w watchdog soft-reset enable. set this bit to 1 to enable watchdog function. when the watchdog timer expires, the pmu commences a soft-reset routine. this bit is automatically reset to 0 when entering sleep mode.
act8846 rev 1, 15-may-13 innovative power tm - 15 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. register and bit descriptions cont?d block address bit name access description pb 0xc0 [5:2] - r reserved. pb 0xc0 1 wdsren r/w watchdog soft-reset enable. set this bit to 1 to enable watchdog function. when the watchdog timer expires, the pmu commences a soft-reset routine. this bit is automatically reset to 0 when entering sleep mode. pb 0xc0 0 wdpcen r/w watchdog power-cycle enable. set this bit to 1 to enable watchdog function. when watchdog timer expires, the pmu commence a power cycle. this bit is automatically reset to 0 when entering sleep mode. pb 0xc1 [7:0] intadr r interrupt address. it holds the addr ess of the block that triggers the interrupt. this byte defaults to 0xff and is automatically set to 0xff after being read. bit 7 is the msb while bit 0 is the lsb. pb 0xc2 7 pbastat r npbin assertion interrupt status. t he value of this bit is 1 if the npbin assertion interrupt is triggered. pb 0xc2 6 pbdstat r npbin de-assertion interrupt status. the value of this bit is 1 if the npbin de-assertion interrupt is triggered. pb 0xc2 5 pbastat r npbin status bit. this bit contai ns the real-time status of the npbin pin. the value of this bit is 1 if npbin is asserted, and is 0 if npbin is de-asserted. pb 0xc2 [4:0] - r reserved. pb 0xc3 [7:5] - r reserved. pb 0xc3 [4] offsys r/w global off control. set offsysclr[ ] to 1 first, then set this bit to 1 to turn off all outputs. pb 0xc3 [3] offsysclr r/w global off control state clear bit. set bit to 1, then set offsys [ ] to 1 to turn off all outputs. pb 0xc3 [2:1] - r reserved. pb 0xc3 0 sipc r/w software initiated power cycle. when this bit is set, the pmu commences a power cycle after 8ms delay. pb 0xc5 [7:2] - r reserved. pb 0xc5 1 pcstat r/w power-cycle flag. the value of this bit is 1 after a power cycle. this bit is automatically cleared to 0 after read. pb 0xc5 0 srstat r/w soft-reset flag. the value of this bit is 1 after a soft-reset. this bit is automatically cleared to 0 after read.
act8846 rev 1, 15-may-13 innovative power tm - 16 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. register and bit descriptions cont?d block address bit name access description gpio6 0xe3 [7] pwm6en r/w pwm function e nable. set 1 to enable pwm function of gpio6. gpio6 0xe3 [6:4] fre6 r/w pwm frequency selection bits for gpio6. see the table 6 for code to frequency cross. gpio6 0xe3 [3:0] duty6 r/w duty cycle selection bits for gpio6. see the table 7 for code to duty cross. gpio5 0xe4 [7] pwm5en r/w pwm function e nable. set 1 to enable pwm function of gpio5. gpio5 0xe4 [6:4] fre5 r/w pwm frequency selection bits for gpio5. see the table 6 for code to frequency cross. gpio5 0xe4 [3:0] duty5 r/w duty cycle selection bits for gpio5. see the table 7 for code to duty cross. gpio3 0xf4 [7] pwm3en r/w pwm function e nable. set 1 to enable pwm function of gpio3. gpio3 0xf4 [6:4] fre3 r/w pwm frequency selection bits for gpio3. see the table 6 for code to frequency cross. gpio3 0xf4 [3:0] duty3 r/w duty cycle selection bits for gpio3. see the table 7 for code to duty cross. gpio4 0xf5 [7] pwm4en r/w pwm function e nable. set 1 to enable pwm function of gpio4. gpio4 0xf5 [6:4] fre4 r/w pwm frequency selection bits for gpio4. see the table 6 for code to frequency cross. gpio4 0xf5 [3:0] duty4 r/w duty cycle selection bits for gpio4. see the table 7 for code to duty cross.
act8846 rev 1, 15-may-13 innovative power tm - 17 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. system control electr ical characteristics (v inl2 = 3.6v, t a = 25c, unless otherwise specified.) parameter test conditions min typ max unit input voltage range 3.0 5.5 v uvlo threshold voltage v inl2 rising 2.6 2.8 3.0 v uvlo hysteresis v inl2 hysteresis 200 mv operating supply current all regulator s enabled but no load 0.6 1.2 ma shutdown supply current all regulators disabled except reg13 10 20 a oscillator frequency 2.0 2.25 2.5 mhz logic high input voltage 1 1.4 v logic low input voltage 0.4 v low level output voltage nirq, nrsto, isink = 5ma 0.3 v thermal shutdown temperature temperature rising 160 c thermal shutdown hysteresis 20 c leakage current v[nirq] = v[nrsto] = 4.2v 1 a nrsto delay 100 2 ms c : pwrhld, pwren, vselr2, gpio1, gpio2 are logic inputs. 2 : typical value shown. actual value may vary fr om (t-1ms) x 85% to t x 115%, where t = 100ms.
act8846 rev 1, 15-may-13 innovative power tm - 18 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. step-down dc/dc electrical characteristics (v vp1 = v vp2 = v vp3 = v vp4 = 3.6v, t a = 25c, unless otherwise specified.) parameter conditions min typ max unit operating voltage range 2.7 5.5 v uvlo threshold input volt age rising 2.5 2.6 2.7 v uvlo hysteresis input voltage falling 100 mv standby supply current v out = 103%, regulator enabled 72 100 a shutdown current v vp = 5.5v, regulator disabled 0 2 a v out 1.0v, i out = 10ma -1% v nom c 1% v v out < 1.0v, i out = 10ma -10 10 mv line regulation v vp = max (v nom 1 +1v, 3.2v) to 5.5v 0.15 %/v load regulation reg2/3 i out = 10ma to imax 2 1.00 %/a power good threshold v out rising 93 %v nom power good hysteresis v out falling 2 %v nom switching frequency v out 20% of v nom 2 2.25 2.5 mhz v out = 0v 550 khz soft-start period 400 s minimum on-time 75 ns reg1 and reg4 maximum output current 1.5 a current limit 1.8 2.2 2.7 a pmos on-resistance i sw = -100ma 0.11 ? nmos on-resistance i sw = 100ma 0.08 ? sw leakage current v vp = 5.5v, v sw = 0 or 5.5v 0 2 a input capacitor 4.7 f output capacitor 33 f power inductor 1.0 2.2 3.3 h reg2 and reg3 maximum output current 2.8 a current limit 3.5 4.2 a pmos on-resistance i sw = -100ma 0.07 ? nmos on-resistance i sw = 100ma 0.08 ? sw leakage current v vp = 5.5v, v sw = 0 or 5.5v 0 2 a input capacitor 10 f output capacitor 44 f power inductor 0.5 1 2.2 h output voltage accuracy load regulation reg1/4 i out = 10ma to imax 2 1.70 %/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.
act8846 rev 1, 15-may-13 innovative power tm - 19 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. low-noise ldo electri cal characteristics (v inl1 = v inl2 = 3.6v, c out5 = c out6 = c out7 = c out8 = c out9 = 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 2.5 5.5 v v out 1.0v, i out = 10ma -1 v nom c 1 % v out < 1.0v, i out = 10ma -10 10 mv line regulation v inl = max (v out + 0.5v, 3.6v) to 5.5v 0.5 mv load regulation i out = 1ma to imax 2 0.1 v/a power supply rejection ratio f = 1khz, i out = 20ma, v out = 1.2v 75 db f = 10khz, i out = 20ma, v out = 1.2v 65 supply current per output regulator enabled 25 a regulator disabled 0 2 soft-start period v out = 3.0v 140 s power good threshold v out rising 92 % power good hysteresis v out falling 3.5 % 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 ? ldo rated at 150ma (reg5 & reg6) dropout voltage e i out = 80ma, v out > 3.1v 140 280 mv maximum output current 150 ma current limit f v out = 95% of regulation voltage 180 ma recommend output capacitor 2.2 f ldo rated at 350ma (reg7, reg8 & reg9) dropout voltage e i out = 160ma, v out > 3.1v 140 280 mv maximum output current 350 ma current limit f v out = 95% of regulation voltage 400 ma recommend output capacitor 2.2 f output voltage accuracy
act8846 rev 1, 15-may-13 innovative power tm - 20 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. low-input voltage ldo elec trical characteristics (v inl3 = 3.6v, c out10 = c out11 = c out12 = 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 1.7 5.5 v v out 1.0v, i out = 10ma -1 v nom c 1 % v out < 1.0v, i out = 10ma -10 10 mv line regulation v inl = max (v out + 0.5v, 3.6v) to 5.5v 0.5 mv load regulation i out = 1ma to imax 2 0.1 v/a power supply rejection ratio f = 1khz, i out = 20ma, v out = 1.2v 50 db f = 10khz, i out = 20ma, v out = 1.2v 40 supply current per output regulator enabled 22 a regulator disabled 0 2 soft-start period v out = 3.0v 100 s power good threshold v out rising 92 % power good hysteresis v out falling 3.5 % 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 ? ldo rated at 150ma (reg10) dropout voltage e i out = 80ma, v out > 3.1v 100 200 mv maximum output current 150 ma current limit f v out = 95% of regulation voltage 180 ma recommend output capacitor 2.2 f ldo rated at 350ma (reg11 & reg12) dropout voltage e i out = 160ma, v out > 3.1v 100 200 mv maximum output current 350 ma current limit f v out = 95% of regulation voltage 400 ma recommend output capacitor 2.2 f output voltage accuracy
act8846 rev 1, 15-may-13 innovative power tm - 21 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. low-power(always-on) ldo el ectrical characteristics (v inl1 = 3.6v, c out13 = 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 reg13 ? v nom = 1.8v operating voltage range 2.5 5.5 v output voltage accuracy -3 v nom c 3 % line regulation v inl1 = max (v out + 0.2v, 2.5v) to 5.5v 13 mv supply current from v inl1 5 a maximum output current 50 ma recommend output capacitor 0.47 f pwm led driver electric al characteristics (v inl2 = 3.6v, t a = 25c, unless otherwise specified.) parameter test conditions min typ max unit output current 100% duty cycle 6 10 16 ma output low voltage feed in with 6ma 0.35 v leakage current sinking from 5.5v source 1 a pwm frequency fre[2:0] = 000 0.25 hz pwm duty adjustment duty[3:0] = 0000 to 1111 6.26 100 %
act8846 rev 1, 15-may-13 innovative power tm - 22 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. typical performanc e characteristics (t a = 25c, unless otherwise specified.) startup of vin/out13 startup of npbin/out5/nrsto startup of out4/out5/out11/out3/ out1/out2 temperature (c) -40 -20 0 20 40 60 80 100 140 120 act8846-001 v ref vs. temperature v ref (v) 1.200 1.196 1.192 1.188 1.184 1.204 act8846-002 frequency vs. temperature frequency (mhz) 2.320 2.300 2.280 2.260 2.240 2.220 2.200 2.180 2.340 2.360 temperature (c) -40 -20 0 20 40 60 80 100 140 120 ch1 ch2 ch1 ch2 ch3 ch1 ch2 ch3 ch4 act8846-003 act8846-004 act8846-005 ch1: v npbin , 2v/div ch2: v out5 , 500mv/div ch3: v nrsto , 1v/div time: 20ms/div ch1: v vin , 2v/div ch2: v out13 , 1v/div time: 500s/div ch1: v out4 , 2v/div ch2: v out5 , 1v/div ch3: v out11 , 2v/div ch4: v out3, 1v/div ch5: v out1, 1v/div ch6: v out2, 1v/div time: 2ms/div ch5 ch6
act8846 rev 1, 15-may-13 innovative power tm - 23 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. typical performance ch aracteristics cont?d (t a = 25c, unless otherwise specified.) sleep of pwren/out3 shutdown of pwrhld/out3/out2/out1 shutdown of pwrhld/out4/out5/out11 ch1 ch2 ch1 ch2 ch3 ch1 ch2 ch3 ch4 act8846-007 act8846-006 act8846-008 ch1: v pwren , 2v/div ch2: v out3 , 1vv/div time: 1ms/div ch1: v pwrhld , 2v/div ch2: v out3 , 1v/div ch3: v out2 , 1v/div ch4: v out1 , 1v/div time: 1ms/div ch1: v pwrhld , 2v/div ch2: v out4 , 2v/div ch3: v out5 , 1v/div ch4: v out11 , 2v/div time: 1ms/div npbin and npbstat ch1 ch2 act8846-009 ch1: v npbin , 2v/div ch2: v npbstat , 2v/div time: 10ms/div ch4 shutdown of pwrhold and nrsto ch1 ch2 act8846-010 ch1: v pwrhold , 2v/div ch2: v nrsto , 2v/div time: 2ms/div
act8846 rev 1, 15-may-13 innovative power tm - 24 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. typical performance ch aracteristics cont?d (t a = 25c, unless otherwise specified.) reg1 efficiency vs. output current v in = 3.6v v in = 4.0v v in = 5.0v v out = 1.2v 100 80 60 40 20 0 efficiency (%) output current (ma) 0 1 10 10000 1000 100 act8846-011 reg3 efficiency vs. output current output current (ma) 0 1 10 10000 1000 100 100 80 60 40 20 0 efficiency (%) v out = 1.1v v in = 3.6v v in = 4.0v v in = 5.0v act8846-013 reg4 efficiency vs. output current 100 80 60 40 20 0 efficiency (%) output current (ma) 0 1 10 10000 1000 100 v out = 1.1v v in = 3.6v v in = 4.0v v in = 5.0v act8846-014 reg2 efficiency vs. output current output current (ma) 0 1 10 10000 1000 100 efficiency (%) v out = 1.2v v in = 3.6v v in = 4.0v v in = 5.0v act8846-012 100 80 60 40 20 0
act8846 rev 1, 15-may-13 innovative power tm - 25 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. typical performance ch aracteristics cont?d (t a = 25c, unless otherwise specified.) reg10 @ 10ma vs. temperature temperature (c) -40 -20 0 20 40 60 80 100 140 120 1.200 1.195 1.190 1.185 1.180 1.205 v out (v) act8846-018 reg5/6 dropout voltage vs. i out output current (ma) 0 50 100 150 200 250 dropout voltage (mv) 400 350 300 250 200 150 100 50 0 act8846-017 v out10 @ 150ma vs. temperature temperature (c) -40 -20 0 20 40 60 80 100 140 120 1.186 1.182 1.178 1.174 1.170 v out (v) act8846-016 reg5 v out vs. i out dropout voltage (v) 1.200 1.160 1.120 1.080 1.040 1.000 output current (ma) 0 40 80 120 160 200 act8846-015 reg6 v out vs. i out output current (ma) 0 40 80 120 160 200 dropout voltage (v) 1.200 1.160 1.120 1.080 1.040 1.000 act8846-019 reg7/8/9 dropout voltage vs. i out dropout voltage (mv) 400 300 200 100 0 output current (ma) 0 50 100 150 200 250 300 350 400 act8846-020
act8846 rev 1, 15-may-13 innovative power tm - 26 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. typical performance ch aracteristics cont?d (t a = 25c, unless otherwise specified.) reg8 v out vs. i out output current (ma) 0 50 100 150 200 250 300 350 output voltage (v) 1.860 1.820 1.780 1.740 1.700 1.900 act8846-021 reg6 output voltage vs. output current output voltage (v) 1.180 1.160 1.140 1.120 1.100 1.200 1.220 1.240 act8846-026 reg10 dropout voltage vs. i out output current (ma) 0 50 100 150 200 dropout voltage (mv) 250 200 150 100 50 0 act8846-022 reg11 dropout voltage vs. i out dropout voltage (mv) 250 200 150 100 50 0 output current (ma) 0 100 200 300 400 act8846-023 reg12 dropout voltage vs. i out output current (ma) 0 100 200 300 400 dropout voltage (mv) 250 200 150 100 50 0 act8846-024 reg5 output voltage vs. output current output current (ma) 0 40 80 120 160 200 output voltage (v) 0.980 0.960 0.940 0.920 0.900 1.000 1.020 1.040 act8846-025 output current (ma) 0 40 80 120 160 200
act8846 rev 1, 15-may-13 innovative power tm - 27 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. typical performance ch aracteristics cont?d (t a = 25c, unless otherwise specified.) reg7 output voltage vs. output current output voltage (v) 1.800 1.780 1.760 1.740 1.720 1.700 1.820 1.840 output current (ma) 0 50 100 150 200 250 300 350 act8846-027 reg9 output voltage vs. output current output current (ma) 0 50 100 150 200 250 300 350 output voltage (v) 3.300 3.280 3.260 3.240 3.220 3.200 3.320 3.340 act8846-029 reg8 output voltage vs. output current output voltage (v) 3.300 3.280 3.260 3.240 3.220 3.200 3.320 3.340 act8846-028 output current (ma) 0 50 100 150 200 250 300 350 reg10 output voltage vs. output current output voltage (v) 3.300 3.280 3.260 3.240 3.220 3.200 3.320 3.340 output current (ma) 0 40 80 120 160 200 act8846-030 reg11 output voltage vs. output current output voltage (v) 1.800 1.780 1.760 1.740 1.720 1.700 1.820 1.840 output current (ma) 0 50 100 150 200 250 300 350 act8846-031 reg12 output voltage vs. output current output voltage (v) 2.800 2.780 2.760 2.740 2.720 2.700 2.820 2.840 act8846-032 output current (ma) 0 50 100 150 200 250 300 350
act8846 rev 1, 15-may-13 innovative power tm - 28 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. the act8846 is optimized for the rockchip rk31x8 processors, supporting both the power domains as well as the signal interface. the following paragraphs describe how to design act8846 with the rk31x8 processors. while the act8846 supports many possible configurations for powerin g these processors, one of the most common configurations is detailed in this datasheet. in general, this document refers to the act8846 pin names and functions. however, in cases where the description of interconnections between these devices benefits by doing so, both the act8846 pin names and the rk31x8 processors pin names are provided. when this is done, the rk31x8 pin names are located after the act8846 pin names, and are italicized and located inside parentheses. for example, pwren ( gpiox ) refers to the logic signal applied to the act8846's pwren input, identifying that it is driven from the rk31x8's gpiox output. system control information interfacing with the rockchip rk31x8 processors table 1: act8846 and rockchip rk31x8 power domains table 2: act8846 and rockchip rk31x8 power mode act8846 regulator power domain default voltage max current power up order on/off @ sleep type reg1 vcc_ddr adjustable 1.5a 5 on dc/dc step down reg2 vdd_log 1.0v 2.8a 5 on dc/dc step down reg3 vdd_arm 1.0v 2.8a 4 off dc/dc step down reg4 vcc_io 3.0v 1.5a 1 on dc/dc step down reg5 vdd_10 1.0v 150ma 2 on low-noise ldo reg6 vdd_jetta1v2 1.2v 150ma / off low-noise ldo reg7 vcc18_cif 1.8v 350ma / off low-noise ldo reg8 vcca_33 3.3v 350ma / off low-noise ldo reg9 vcc_tp 3.3v 350ma / off low-noise ldo reg10 vcc_jetta3v3 3.3v 150ma / off low input-voltage ldo reg11 vcc18_io 1.8v 350ma 3 on low input-voltage ldo reg12 vcc28_cif 2.8v 350ma / off low input-voltage ldo reg13 vdd_rtc 1.8v 50ma 0 on always-on ldo power mode control state power domain state quiescent current all on pwrhld is asserted, pwren is asserted all regulators on 0.6ma shutdown pwrhld is de-asserted, pwren is de-asserted, vinl2 > 2.6v reg13 is on, all other regula- tors are off. 10a all off pwrhld is de-asserted, pwren is de-asserted, vinl2 < 2.2v all regulators off. 5a
act8846 rev 1, 15-may-13 innovative power tm - 29 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. table 3: act8846 and rk31x8 signal interface c act8846 direction rockchip rk31x8 pwren gpio6_b1 scl i2c1_scl sda i2c1_sda vselr2 gpio0_d7 gpio1/vselr3 gpio0_d6 nrsto npor nirq gpio6_a4 npbstat gpio6_a2 pwrhld gpio6_b0 note: typical connections shown, actual connections may vary. control signals enable inputs the act8846 features a variety of control inputs, which are used to enable and disable outputs depending upon the desired mode of operation. pwrhld is a logic inputs, while npbin is a unique, multi-function input. npbin multi-function input the act8846 features the npbin multi-function pin, which combines syst em enable/disable control with a hardware reset function. select either of the two pin functions by asserting this pin, either through a direct connection to ga as manual reset input, or through a 50k ? resistor to ga for 32ms to enable the ic, or through a 50k ? resistor to ga for 10s to disable the ic 1 , as shown in figure 2. manual reset function the second major function of the npbin input is to provide a manual-reset input for the processor. to manually-reset the processor, drive npbin directly to ga through a low impedance (less than 2.5k ? ). an internal timer detects the duration of the mr event: short press / soft-reset: d if the manual reset button is asserted for less than 4s e /10s 1 , act8846 commences a soft-reset operation where nrsto immediately asserts low, then remains asserted low until the npbin input is de-asserted and the reset time-out period expires. a status bit, srstat[ ] , is set after a soft-reset event. the srstat[ ] bit is automatically cleared to 0 after read. after short press, set wdsren[ ] to 1 about 1s after nrsto de-assert then clear wdsren[ ] for properly shutdown sequence. long press / power-cycle: if the manual reset button is asserted for more than 4s e /10s 1 , act8846 commences a power cycle routine in which case all regulators are turned off and then turned back on. a status bit, pcstat[ ], is set after the power cycle. the pcstat[ ] bit is automatically cleared to 0 after read. npbstat output npbstat is an open-drain output that reflects the state of the npbin input; npbstat is asserted low whenever npbin is asserted, and is high-z otherwise. this output is typically used as an interrupt signal to the processor, to initiate a software-programmable routine such as operating mode selection or to open a menu. connect npbstat to an appropriate supply voltage through a 10k ? or greater resistor. figure 2: npbin input 1 : only for act8846qm468. d : soft-reset function is disabled in act8846qm460 and act8846qm468. e : only for act8846qm460.
act8846 rev 1, 15-may-13 innovative power tm - 30 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. nrsto output nrsto is an open-drain output which asserts low upon startup or when manual reset is asserted via the npbin input. when asserted on startup, nrsto remains low until reset time-out period expires. when asserted due to manual-reset, nrsto immediately asserts low, then remains asserted low until the npbin input is de-asserted and the reset time-out period expires. connect a 10k ? or greater pull-up resistor from nrsto to an appropriate voltage supply. 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 an appropriate voltage supply. nirq is typi cally used to drive the interrupt input of the system processor. many of the act8846'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. push-button control the act8846 is designed to initiate a system enable sequence when the npbin multi-function input is asserted for 32ms. once this occurs, a power-on sequence commences, as described below. the power-on sequence must complete and the microprocessor must take control (by asserting pwrhld) before npbin is de-asserted. if the microprocessor is unable to complete its power-up routine successfully before the user releases the push-button, the act8846 automatically shuts the system down. this provides protection against accidental or momentary assertions of the push- button. if desired, longer ?push-and-hold? times can be implemented by simply adding an additional time delay before asserting pwrhld. control sequences the act8846 features a variety of control sequences that are optimiz ed for supporting system enable and disable, as well as sleep mode of the rockchip rk31x8 processors. enabling/disabling sequence a typical enable sequence is initiated whenever the npbin is asserted low for 32ms via 50k ? resistance. the power control diagram is shown in figure 3. during the boot sequence, the microprocessor must assert pwrhld ( gpio6_b0 ) to ensure that the system remains powered after npbin is released. once the power-up routine is completed, the system remains enabled after the push-button is released as long as pwrhld is asserted high. if the processor does not assert pwrhld before the user releases the push-button, the boot-up sequence is terminated and all regulators are disabled. th is provides protection against "false-enable", when the push-button is accidentally depressed, a nd also ensures that the system remains enabled only if the processor successfully completes the boot-up sequence. as with the enable sequence, a typical disable sequence is initiated when the user presses the push-button, which interrupts the processor via the npbstat output. after system is turned on, the processor may shut down the system by setting offsysclr[ ] to 1 then setting offsys[ ] to 1, or by pulling pwrhld to logic low. the user could force shut down act8846 anytime by pressing the power on push-button for 10 seconds even when software crashes. 1 sleep mode sequence the act8846 supports rk31x8 processor?s sleep mode operation. once a successful power- up routine has been completed, sleep mode may be initiated through a variety of software-controlled mechanisms. sleep mode is typically initiated when the user presses the push-button during normal operation. pressing the push-button asserts the npbin input, which asserts the npbstat output, which interrupts the processor. in response to this interrupt the processor should disable reg6, reg7, reg8, reg9, reg10 and reg12 via i 2 c, then de-assert pwren( gpio6_b1 ), disabling reg3. pwrhld should remain asserted during sleep mode so that reg1, reg2, reg4, reg5, and reg11 remain enabled. the act8846 wakes up from sleep mode when either the push-button and/or pwren ( gpio6_b1 ) is asserted. in either case, reg3 is enable which allow the system to resume normal operation. 1 : only for act8846qm468.
act8846 rev 1, 15-may-13 innovative power tm - 31 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. watch-dog supervision 1 the act8846 features a watchdog supervisory function. an internal watchdog timer of 4s is unmasked by setting either wdsren[ ] or wdpcen [ ] bit to one. once enabled, the watchdog timer is reset whenever there is i2c activity for the pmu. in the case where the system software stops responding and that there is no i2c transactions for 4s, the watchdog timer expires. as a result, the pmu either perform a soft-reset or power cycle, depending on whether wdsren [ ] or wdpcen [ ] is set. software-initiated power cycle act8846 supports software-initiated power cycle. once the sipc[ ] bit is set, the pmu waits for 8ms and then initiate a power cycle to restart the entire system. figure 3: power control sequence 1 : watch-dog is not supported in act8846qm468.
act8846 rev 1, 15-may-13 innovative power tm - 32 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. i 2 c interface the act8846 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 act8846, and i 2 c read-byte commands are used to read the act8846?s internal registers. the act8846 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. housekeeping functions programmable battery voltage monitor the act8846 features a programmable battery- voltage monitor, which monitors the voltage at inl2 (which should be connected directly to the battery) and compares it to a programmable threshold voltage. the vbatmon comparator is designed to be immune to noise resulting from switching, load transients, etc. the batmon comparator is disable by default; to enable it, set the batlev[3:0] register to one of the value in table 4. note that there is a 200mv hysteresis between the rising and falling threshold for the comparator. the vbatdat [ - ] bit reflects the output of the batmon comparator. the value of vbatdat[ ] is 1 when v inl2 < batlev; value is 0 otherwise. the vbatmon comparator can generate an interrupt when v inl2 is lower than batlev[ ] voltage. the interrupt is masked by default by can be unmasked by setting vbatmsk[ ] = 1. table 4: batlev falling threshold thermal protection the act8846 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), act8846 can generate an interrupt when the die temperature reaches 120c (typ). thermal protection if the act8846 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). functional description batlev[3:0] batlev falling threshold 0000 2.5 0001 2.6 0010 2.7 0011 2.8 0100 2.9 0101 3.0 0110 3.1 0111 3.2 1000 3.3 1001 3.4 1010 3.5 1011 3.6 1100 3.7 1101 3.8 1110 3.9 1111 4.0
act8846 rev 1, 15-may-13 innovative power tm - 33 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. general description reg1, reg2, reg3, and reg4 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 2.25mhz, minimizing noise in sensitive applications and allowing the use of small external components. additionally, reg1, reg2, reg3, and reg4 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. 100% duty cycle operation reg1, reg2, reg3, and reg4 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, reg3, and reg4 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, reg3, and reg4 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, reg3, and reg4 include internal 400 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, reg3, and reg4 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 10 f ceramic capacitor is recommended for each regulator in most applications. output capacitor selection reg1, reg2, reg3, and reg4 were designed to take advantage of the benefits of ceramic capacitors, namely small size and very-low esr. reg1, reg2, reg3 and reg4 are designed to operate with 33uf or 44uf output capacitor over most of their output voltage ranges, although more capacitance may be desired depending on the duty cycle and load step requirements. two of the most common dielectrics are y5v and x5r. whereas y5v dielectrics are inexpensive and can provide high capacitance in small packages, their capacitance varies greatly over their voltage and temperature ranges and are not recommended for dc/dc applications. x5r and x7r dielectrics are more suitable for output capacitor applications, as their characteristics are more stable over their operating ranges, and are highly recommended. inductor selection reg1, reg2, reg3, and reg4 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 2.2 h or 1 h inductors. choose an inductor with a low dc- resistance, and avoid inductor saturation by choosing inductors with dc ratings that exceed the maximum output current by at least 30%. configuration options output voltage programming figure 4: out1 output voltage programming step-down dc/dc regulators
act8846 rev 1, 15-may-13 innovative power tm - 34 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. figure 4 shows the feedback network necessary to set the output voltage for reg1 when using the adjustable output voltage option. connect the fb1 pin to the output directly to regulate the output voltage at 1.2v. select components as follows: set r fb2 = 51k ? , then calculate r fb1 using the following equation: where v fb1 is 1.2v. finally choose c ff using the following equation: by default, reg2, reg3 and reg4 power up and regulate to their default output voltages. for reg2, reg3 and reg4, the output voltage is selectable by setting corresponding vselr# pin that when vselr# is low, output volt age is programmed by vset0[ ] bits, and when vselr# is high, output voltage is programmed by vset1[ ] bits. also, once the system is enabled, each regulator's output voltage may be independently programmed to a different value. program the output voltages via the i 2 c serial interface by writing to the regulator's vset0[ ] register if vsel r# is low or vset1[ ] register if vselr# is high as shown in table 5. enable / disable control during normal operation, each buck may be enabled or disabled via the i 2 c interface by writing to that regulator's on[ ] bit. ok[ ] and output fault interrupt each dc/dc features a power-ok status bit 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 7% below the programmed regulation voltage, that regulator's ok[ ] bit will be 0. if a dc/dc's nfltmsk[ - ] bit is set to 1, the act8846 will interrupt the processor if that dc/dc's output voltage falls below the power-ok threshold. in this case, nirq will assert low and remain asserted until either the regulator is turned off or back in regulation, and the ok[ ] bit has been read via i 2 c. pcb layout considerations high switching frequencies and large peak currents make pc board layout an important part of step-down dc/dc converter design. a good design minimizes excessive emi on the feedback paths and voltage gradients in the ground plane, both of which can result in instability or regulation errors. step-down dc/dcs exhibit discontinuous input current, so the input capacitors should be placed as close as possible to the ic, and avoiding the use of via if possible. the inductor, input filter capacitor, and output filter capacitor should be connected as close together as possible, with short, direct, and wide traces. the ground nodes for each regulator's power loop should be connected at a single point in a star- ground configuration, and this point should be connected to the backside ground plane with multiple via. the output node for each regulator should be connected to its corresponding outx pin through the shortest possible route, while keeping sufficient distance from switching nodes to prevent noise injection. finally, the exposed pad should be directly connected to the backside ground plane using multiple via to achieve low electrical and thermal resistance. ? ? ? ? ? ? ? ? ? = 1 v v r r 1 fb 1 out 2 fb 1 fb 1 fb 6 ff r 10 1 c ? = 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: regx/vset[ ] output voltage setting (1) (2)
act8846 rev 1, 15-may-13 innovative power tm - 35 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. low-noise, low-dropou t linear regulators general description act8846 features eight low-noise, low-dropout linear regulators (ldos) that supply up to 350ma. three of these ldos (reg10, reg11, and reg12) supports extended input voltage range down to 1.7v. each ldo has been optimized to achieve low noise and high-psrr. output current limit each ldo contains current-limit circuitry featuring a current-limit fold-back function. during normal and moderate overload conditions, the regulators can support more than their rated output currents. during extreme overload conditions, however, the current limit is reduced by approximately 30%, reducing power dissipation within the ic. compensation the ldos are internally compensated and require very little design effort, simply select input and output capacitors according to the guidelines below. input capacitor selection each ldo requires a small ceramic input capacitor to supply current to suppo rt fast transients at the input of the ldo. bypassing each inl pin to ga with 1 f. high quality ceramic capacitors such as x7r and x5r dielectric types are strongly recommended. output capacitor selection each ldo requires a small 2.2 f ceramic output capacitor for stability . fo r best performance, each output capacitor should be connected directly between the output and ga pins, as close to the output as possible, and with a short, direct connection. high quality ceramic capacitors such as x7r and x5r dielectric types are strongly recommended. configuration options output voltage programming by default, each ldo powers up and regulates to its default output voltage. once the system is enabled, each output voltage may be independently programmed to a different value by writing to the regulator's vset[ - ] register via the i 2 c serial interface as shown in table 5. enable / disable control during normal operation, each ldo may be enabled or disabled via the i 2 c interface by writing to that ldo's on[ ] bit. output discharge each of the ldos features an optional output discharge function, which discharges the output to ground through a 1.5k ? resistance when the ldo is disabled. this feature may be enabled or disabled by setting dis[ - ]; set dis[ - ] to 1 to enable this function, clear dis[ - ] to 0 to disable it. ok[ ] and output fault interrupt each ldo features a power-ok status bit that can be read by the system mi croprocessor via the interface. if an output voltage is lower than the power-ok threshold, typically 11% below the programmed regulation voltage, the value of that regulator's ok[ - ] bit will be 0. if a ldo's nfltmsk[ - ] bit is set to 1, the act8846 will interrupt the processor if that ldo's output voltage falls below the power-ok threshold. in this case, nirq will assert low and remain asserted until either the regulator is turned off or back in regulation, and the ok[ - ] bit has been read via i 2 c. pcb layout considerations the act8846?s ldos provide good dc, ac, and noise performance over a wide range of operating conditions, and are relatively insensitive to layout considerations. when designing a pcb, however, careful layout is necessary to prevent other circuitry from degrading ldo performance. a good design places input and output capacitors as close to the ldo inputs and output as possible, and utilizes a star-ground configuration for all regulators to prevent noise-coupling through ground. output traces should be routed to avoid close proximity to noisy nodes, particularly the sw nodes of the dc/dcs. refbp is a noise-filtered reference, and internally has a direct connection to the linear regulator controller. any noise injected onto refbp will directly affect the outputs of the linear regulators, and therefore special care should be taken to ensure that no noise is injected to the outputs via refbp. as with the ld o output capacitors, the refbp bypass capacitor should be placed as close to the ic as possible, with short, direct connections to the star-ground. avoid the use of via whenever possible. noisy nodes, such as from the dc/dcs, should be routed as far away from refbp as possible.
act8846 rev 1, 15-may-13 innovative power tm - 36 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. general description reg13 is an always-on, low-dropout linear regulator (ldo) that is optimized for rtc and backup-battery applications. reg13 features low- quiescent supply current, current-limit protection, and reverse-current protection, and is ideally suited for always-on power supply applications, such as for a real-time clock, or as a backup-battery or super-cap charger. reverse-current protection reg13 features internal circuitry that limits the reverse supply current to less than 1a when the input voltage falls below the output voltage, as can be encountered in backup-battery charging applications. reg13's 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. typical application voltage regulators reg13 is ideally suited for always-on voltage- regulation applications, such as for real-time clock and memory keep-alive applications. this regulator requires only a small ceramic capacitor with a minimum capacitance of 0.47 f for stability. for best performance, the output capacitor should be connected directly between the output and ga, with a short and direct connection. figure 5: typical application of rtc ldo backup battery charging reg13 features a constant current-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. always-on ldo (reg13)
act8846 rev 1, 15-may-13 innovative power tm - 37 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. the gpio3, the gpio4, the gpio5, and the gpio6 are configured as pwm le d drivers, which could support up to 6ma current with programmable frequency and duty cycle. set pwm#en[ ] bit to ?1? to enable pwm function of gpio#. pwm frequence selection each led driver may be independently programmed to a different frequency by writing to the gpio?s fre[2:0] register via the i 2 c serial interface as shown in table 6. table 6: fre#[ ] pwm frequency setting pwm duty cycle selection each led driver may be independently programmed to a different duty cycle by writing to the gpio?s duty[3:0] register via the i 2 c serial interface as shown in table 7. table 7: duty#[ ] pwm frequency setting pwm led drivers fre#[2:0] pwm frequency [hz] 000 0.25 001 0.5 010 1 011 2 100 128 101 256 duty#[3:0] pwm duty cycle [%] 0000 6.25 0001 12.5 0010 18.75 0011 25 0100 31.25 0101 37.5 0110 43.75 0111 50 1000 56.25 1001 62.5 1010 68.75 1011 75 1100 81.25 1101 87.5 1110 93.75 1111 100
act8846 rev 1, 15-may-13 innovative power tm - 38 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. tqfn66-48 package outline and dimensions symbol dimension in millimeters dimension in inches min max min max a 0.700 0.800 0.032 0.036 a1 0.200 ref 0.008 ref b 0.150 0.250 0.006 0.010 d 6.00 0.24 e 6.00 d2 4.15 4.40 0.166 0.176 e2 4.15 4.40 0.166 0.176 e 0.400 bsc 0.016 bsc l 0.300 0.500 0.012 0.020 r 0.300 0.012 0.24 a2 0.000 0.000 0.050 0.002
act8846 rev 1, 15-may-13 innovative power tm - 39 - www.active-semi.com copyright ? 2013 active-semi, inc. active-semi proprietary D for authorized recipients and customers activepmu tm is a trademark of active-semi. i 2 c tm is a trademark of nxp. revision history revision date description rev 0 21 feb 2013 added tpcs. changed p/n from act8846qm433 to act8846qm460. updated the top view on p4. updat ed the table 1, table 2 and figure 3. changed rk3066 to rk31x8. updated global register map. rev pra 11 jul 2012 initial release. rev 1 15 may 2013 updated npbin function on p6, p29 and p30. add p/n act8846qm468. updated note of act8846qm468 fo r watch-dog function on p31. updated pod on p38. 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.
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