AIC6186 0.5a dual usb high-side power switch analog integrations corporation si-soft research center ds-6186g-01 20120209 3a1, no.1, li-hsin rd. i, science park, hsinchu 300, taiwan, r.o.c. tel: 886-3-5772500 fax: 886-3-5772510 www.analog.com.tw 1 ? features ? 2.7v to 6.5v input voltage range ? 0.5a dual continuous load current ? +/-20% current limit accuracy ? 85m ? high-side p-mosfet switch ? 20? open-drain over-current flag output ? 80ua quiescent supply current ? 150c thermal shutdown protection ? short circuit current fold-back protection ? 2.3v under voltage lockout ? soft start prevents large inrush current ? 9ms error flag delay time (AIC6186d) ? reverse current blocking ? enable active-high or active-low version ? applications ? usb power management. ? notebook pcs ? battery-charger circuit. ? description the AIC6186 integrates dual 85m ? high-side power switches for self-powered and bus-powered universal serial bus (usb) applications. it operates with inputs ranging from 2.7v to 6.5v, making it ideal for both 3 v and 5v systems. the protection includes current limiting with fold-back, short circuit and thermal shutdown under over-current occurs. fault current is limited to typically 0.65a in accordance with the usb power requirements. the AIC6186 is ideal for any system wh ere current limiting and power control are desired. guaranteed minimum output rise time limits inrush current during hot plug-in as well as minimizing emi and prevents the voltage at upstream port from dropping excessively. ? typical application circuit AIC6186
AIC6186 2 ? ordering information packin g type tr: tape & reel tb: tube packaging type s8: sop-8 g: green package control polarity 0: active low 1: active high fault flag response delay time d: delay 9ms example: AIC6186d-0gs8tr ? delay 9ms, active low version, in sop-8 green package & taping & reel packing type pin configuration sop -8 top vi ew gnd outa outb flgb flga ctlb ctla 1 3 4 2 8 6 5 7 a ic6186x-xxxxxx i n o ? absolute maximum ratings supply voltage (v in ) 7.0v fault flag voltage (v flg ) 7.0v control input (v ctl ) -0.3v ~7v operating temperature range -40 ? c~85 ? c junction temperature 150 ? c storage temperature range -65? c ~ 150 ? c lead temperature (soldering, 10sec) 260 ? c thermal resistance, ja (junction to ambient) sop-8 160 ? c/w (assume no ambient airflow, no heatsink) thermal resistance, jc (junction to case) sop-8 ?..?????????? 40 ? c /w absolute maximum ratings are those values beyond which the life of a device may be impaired.
AIC6186 3 ? electrical characteristics (v in = 5v, c in =1uf, c out =1uf, t a =25 ? c, unless otherwise specified.) (note 1) parameters conditions min. typ. max. unit supply voltage 2.7 6.5 v supply current switch on, out=open switch off, out=open 80 0.2 160 2 ? a en input threshold 0.8 1.3 1.8 v control input current v ctl =logic ?0? v ctl =logic ?1? 0.01 0.01 0.1 0.1 ? a switch on resistance 85 m ? output turn-on rise time r l = 10 ? each output 1000 2500 ? s output turn-off fall time r l = 10 ? each output 0.7 20 ? s output leakage current switch off, r l =0 ? 0.5 1 ? a current limit threshold 0.52 0.65 0.8 a short circuit current fold-back v out =0v 0.38 a over current flag response delay from fault condition to flg assertion 4 9 ms over temperature shutdown threshold t j increasing t j decreasing 150 120 ? c error flag output resistance i sink =1 ma 20 ? error flag off current v flg = 5v 0.01 1 ? a uvlo threshold v in increasing v in decreasing 1.8 2.3 2.1 2.65 v note 1: specifications are production tested at t a =25 ? c. specifications over the -40 ? c to 85 ? c operating temperature range are assured by design, characterization and correlation with statistical quality controls (sqc).
AIC6186 4 ? typical performance characteristics fig. 1 on resistance vs. supply voltage fig. 2 on resistance vs. temperature fig. 3 on-state supply current vs. supply voltage fig. 4 on-state supply current vs. temperature fig. 5 current limit vs. supply voltage fig. 6 current limit vs. temperature
AIC6186 5 ? typical performance characteristics (continued) fig. 7 flag delay time vs. supply voltage fig. 8 flag delay time vs. temperature fig. 9 control input voltage vs. supply voltage fig. 10 uvlo threshold voltage vs. temperature fig. 11 rising time vs. temperature
AIC6186 6 ? block diagram ? pin descriptions pin 1: ctla - controls the turn-on/turn-off of channel a mosfet with ttl as a control input. active high for AIC6186d-1 and active low for AIC6186d-0. pin 2: flga - an active-low and open-drained fault flag output for channel a. flga is an indicator for current limit or thermal shutdown when ctla is active. pin 3: flgb - an active-low and open-drained fault flag output for channel b. flgb is an indicator for current limit or thermal shutdown when ctlb is active. pin 4: ctlb - controls the turn-on/turn-off of channel b mosfet with ttl as a control input. active high for AIC6186d-1 and active low for AIC6186d-0. pin 5: outb - channel b mosfet switch output. pin 6: gnd - power ground. pin 7: in - power supply input. pin 8: outa - channel a mosfet switch output.
AIC6186 7 ? application information ? flag output an error flag is an open-drained output of an n-channel mosfet. flag output is pulled low to signal the following fault conditions: input under voltage, output current limit, and thermal shutdown. the current limit flag response delay time is 9ms. ? current limit the current limit threshold is preset internally. it protects the output mosfet switches from damage resulting from undesirable short circuit conditions or excess inrush current, which is often encountered during hot plug-in. the error flag signals when any current limit conditions occur. ? thermal shutdown when temperature of AIC6186 exceeds 150 ? c for any reasons, the thermal shutdown function turns mosfet switch off and signals the error flag. a hysteresis of 30 ? c prevents the mosfets from turning back on until the chip temperature drops below 120 ? c. ? enable control enable must be driven logic high or logic low for a clearly defined input. floating the input may cause unpredictable operation. ? under-voltage lockout uvlo (under voltage lockout ) prevents the output mosfet from turning on until input voltage exceeds 2.3v typically. afte r the switch turns on, if the input voltage drops below 2.1v typically, uvlo shuts off the output mosfet. ? supply filtering a 1 ? f bypass capacitor from usb in to gnd, located near the device, is strongly recommended to control supply transients. without a bypass capacitor, an output short may cause sufficient ringing on the input (from supply lead inductance) to damage internal control circuitry. ? transient requirements usb supports dynamic attachment (hot plug-in) of peripherals. a current surge is caused by the input capacitance of downstream device. ferrite beads are recommended in series with all power and ground connector pins. ferrite beads reduce emi and limit the inrush current during hot-attachment by filtering high-frequency signals. ? short circuit transient bulk capacitance provides the short-term transient current needed during a hot-attachment event. a 10? f/10v ceramic capacitor mounted close to downstream connector each port should provide transient drop protection. ? printed circuit layout the power circuitry of usb printed circuit boards requires a customized layout to maximize thermal dissipation and to minimize voltage drop and emi.
AIC6186 8 ? typical application circuit + d + d - gnd vb us overcurrent in ou t a gnd ct l a flga flgb ctlb outb ai c6 186 usb gn d on/off 4.5 0 v t o 5. 25v up st re am vbus 100 ma m ax data d+ d- gnd vb us 0. 01 ? f 100 ? f * + data 0. 01 ? f 10 0 ? f * data 1 ? f 10 k 10k 5.0v vcc ferrite b ead overcurrent vin d+ d- gnd vbus aic1722 out i n gn d + 1 ? f c in 10? f c out + 33 ? f, 16v tantalum, or 100 ? f, 10v electrolytic bold line indicate high- current traces on/off two-port self-powered hub
AIC6186 9 ? physical dimensions (unit:mm) ? sop-8 package outline drawing note: information provided by aic is believed to be accurate and reli able. however, we cannot assume responsibility for use of any ci rcuitry other than circuitry entirely embodied in an aic product; nor for any infringement of patents or other rights of third parties that may re sult from its use. we reserve the right to change the circuitr y and specifications without notice. life support policy: aic does not authorize any aic product for us e in life support devices and/or systems. life support device s or systems are devices or systems which, (i) are intended for surgical implant into the body or (ii) support or sustain life, and whose failur e to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a signi ficant injury to the user. a l view b 0.25 seating plane section a-a base metal gauge plane with plating a1 b c d e aa h e h x 45 see view b note: 1. refer to jedec ms-012aa. 2. dimension "d" does not include mold flash, protrus ions or gate burrs. mold flas h, protrusion or gate bur rs shall not exceed 6 mil per side . 3. dimension "e" does not i nclude inter-lead flash or protrusions. 4. controlling dimensi on is millimeter, converted inc h dimensions are no t necessarily exact. h l d e h e c b a1 0.50 0.25 0.40 0 1.27 8 1.27 bsc 4.80 5.80 3.80 0.33 0.19 0.10 5.00 6.20 4.00 0.51 0.25 0.25 s y m b o l a sop-8 millimeters 1.35 min. 1.75 max.
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