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| eup9261 ds9261 ver2.4 jan. 2007 1 li-ion/polymer one cell protector description the eup9261 series are lithium-i on/lithium polymer rechargeable batte ry protection ics incorporating high-accuracy voltage detection circuit and delay circui t. the eup9261 series are suitable for protection of single-cell lithium-ion/lithium polymer battery pa cks from overcharge, overdischarge and overcurrent. features �z absolute maximum rating of 30v for the charger connection pins(vm and co) �z highly accurate voltage detector????.overchar ge detection (topt=+25c) 25mv (topt=-5 to 55c) 30mv overcharge hysteresis 25mv overdischarge detection 50mv overcurrent 1 detection 15mv overcurrent 2 detection 100mv �z variety of detector?????????? overc harge detection 3.9v-4.4v step of 5mv overcharge hysteresis 0.0v-0.4v *1 step of 50mv overdischarge detection 2.0v-3.0v step of 10mv overdischarge hysteresis 0.0v-0.7v *2 step of 100mv overcurrent 1 detection 0.03v-0.3v step of 10mv overcurrent 2 detection 0.5v *1 overcharge release voltage=over detec tion voltage-overcharge hysteresis voltage *2 overdischarge release voltage = overdischarge detection voltage-overdischarge hysteresis voltage. �z delay times internally gene rated. accuracy : 30%. (overcharge: t cu , overdischarge: t dl , overcurrent 1: t lov1 , overcurrent 2: t lov2 ) �z three-step overcurrent detection circuit is included.(ove rcurrent 1,overcurrent 2 and load short ? circuiting) �z charger detection function and abnormal c harge current detection function, included. �z 0v-battery charge option: acceptable/unacceptable. �z low current consumption �? operation: 3.0a typ. 6a max. �? power-down 0.1a max. �z dp pin??????????????...at v ss level, delay circuit is disabled. tie a 300k ? resistor to v ss, delay time of all items expect s hort-circuit can be reduced. �z wide operating temperature range: -40c to + 85c. �z small package: sot-23-6, stdfn-6(2mm*2mm) �z rohs compliant and 100% lead (pb)-free applications �z lithium-ion rechargeable battery packs. �z lithium polymer rechargeable battery packs.
eup9261 ds9261 ver2.4 jan. 2007 2 block diagram figure1. eup9261 ds9261 ver2.4 jan. 2007 3 pin configurations packa g e t yp e pin confi g urations sot-23-6 stdfn-6 pin description pin sot-23-6 stdfn6 description do 1 3 do fet gate control pin for discharge (cmos output) vm 2 2 vm voltage detection pin between vm and vss (overcurrent detection pin) co 3 1 co fet gate control pin for charge(cmos output) dp 4 6 pin for reduce output delay time and for delay time measurement v dd 5 5 v dd positive power input pin v ss 6 4 v ss negative power input pin eup9261 ds9261 ver2.4 jan. 2007 4 absolute maximum ratings �? input voltage between v dd and v ss -------------------------------------------------- v ss -0.3 v to v ss +12 v �? input pin voltage for vm -------------------------------------------------------------- v dd -30 v to v dd +0.3 v �? output pin voltage for co ------------------------------------------------------------- v vm -0.3 v to v dd +0.3 v �? output pin voltage for do --------------------------------------------------------------- v ss -0.3 v to v dd +0.3 v �? power dissipation sot-23-6 ---------------------------------------------------------------------------- 250mw �? operating temperature range --------------------------------------------------------------------- -40c to +85c �? storage temperature range --------------------------------------------------------------------- -55c to +125c �? esd susceptibility hbm (human body mode) ------------------------------------------------------------------------------- >1kv mm (machine mode) --------------------------------------------------------------------------------------- >200v eup9261 ds9261 ver2.4 jan. 2007 5 ordering information order number package type markin g operating temperature range eup9261ajvir1 sot-23-6 bj ?? ?? -40c to 85c eup9261ajvir0 sot-23-6 bj ?? ?? -40c to 85c EUP9261BJVIR1 sot-23-6 bt ?? ?? -40c to 85c eup9261bjvir0 sot-23-6 bt ?? ?? -40c to 85c eup9261bovir1 sot-23-6 bo ?? ?? -40c to 85c eup9261bovir0 sot-23-6 bo ?? ?? -40c to 85c eup9261bqvir1 sot-23-6 bq ?? ?? -40c to 85c eup9261bqvir0 sot-23-6 bq ?? ?? -40c to 85c eup9261bpvir1 sot-23-6 bp ?? ?? -40c to 85c eup9261bpvir0 sot-23-6 bp ?? ?? -40c to 85c eup9261bbvir1 sot-23-6 bb ?? ?? -40c to 85c eup9261bbvir0 sot-23-6 bb ?? ?? -40c to 85c eup9261bfvir1 sot-23-6 bf ?? ?? -40c to 85c eup9261bfvir0 sot-23-6 bf ?? ?? -40c to 85c eup9261bjsir1 stdfn-6 ?????? b t -40c to 85c eup9261 ???? ?? ?? ?? ?? lead free code 1:lead free 0:lead packing r: tape& reel operating temperature range i: industry standard package type v: sot-23-6, s: stdfn-6 model no. eup9261 ds9261 ver2.4 jan. 2007 6 application circuit figure2. symbol parts purpose recommend min. max. remarks fet1 n channel mosfet charge control -- -- -- threshold voltage overdischarge detection voltage *1 gate to source withstand voltage charge voltage*2 fet2 n channel mosfet discharge control -- -- -- threshold voltage overdischarge detection voltage *1 gate to source withstand voltage charge voltage*2 r1 resistor esd protection for power fluctuation 470 ? 300 ? 1k ? resistance should be as small as possible to avoid lowering of the overcharge detection accuracy caused by vdd pin current. *3 c1 capacitor for power fluctuation 0.1 � f 0.022 � f1.0 � f install a capacitor of 0.022 � f or higher between vdd and vss. *4 r2 resistor protection for reverse connection of a charger 2k ? 300 ? 4k ? select a resistance as large as possible to prevent current when a charger is reversely connected. *5 *1 if the threshold voltage of an eft is lo w, the fet may not cut the charging current. if an fet with a threshold voltage equal to or higher than the overdischarge detection voltage is used, discharging may be stop ed before overdischarge is detected. *2 if the withstand voltage between the gate and source is lower than the charger voltage, the fet may destroy. *3 if r1 has a high resistance, the voltage between vdd and vss may exceed the absolute maximum rating when a charger is connected reversely since the current flows from the charger to the ic. insert a resistor of 300 ? or higher as r1 for esd protection. *4 if a capacitor of less than 0.022 � f is installed as c1,do may oscillate when load short-circuiting is detected. be sure to install a capacitor of 0.022 � f or higher as c1. *5 if r2 has a resistance higher than 4k ? , the charging current may not be cut when a high-voltage charger is connected. remark the dp pin should be open. caution the above connection diagram and constant will not guarantee successful operation. perform through evaluation using the actual application to set the constant. eup9261 ds9261 ver2.4 jan. 2007 7 product name list model no. overcharge detection voltage[v cu ] overcharge hysteresis voltage[v hc ] overdischarge detection voltage [v dl ] overdischarge hysteresis voltage [v hd ] overcurrent 1 detection voltage [v iov1 ] 0v battery charge function eup9261aj 4.325 v 0.25v 2.5v 0.4v 0.150v unavailable eup9261bj 4.28 0.2v 3.0v 0v 0.080v available eup9261bo 4.28 0.2v 2.3v 0v 0.040v available eup9261bq 4.28 0.2v 2.9v 0.1v 0.030v available eup9261bp 4.35 0.2v 2.3v 0.7v 0.200v available eup9261bb 4.28 0.3v 2.3v 0.1v 0.125v available eup9261bf 4.28 0.2v 2.8v 0v 0.050v available model no. overcharge detection delay time overdischarge detection delay time overcurrent 1 detection delay time eup9261aj 1.3s 175ms 12ms eup9261bj 1.3s 175ms 12ms eup9261bo 1.3s 175ms 12ms eup9261bq 1.3s 175ms 12ms eup9261bf 1.3s 175ms 12ms eup9261bp 144ms 40ms 20ms eup9261bb 144ms 40ms 20ms note: it is possible to change the detection voltages of the produc t other than above. the delay times can also be changed with in the range listed bellow. for details, please contact our sales office. eup9261 ds9261 ver2.4 jan. 2007 8 electrical characteristics (1 ) except detection delay time (25c) (ta=25c unless otherwise specified) symbol parameter remark min typ max unit measurement circuit detection voltage ----- v cu -0.025 v cu v cu +0.025 v cu overcharge detection voltage v cu =3.9 v to 4.4 v, 5 mv step ta = -5c to 55c *1 v cu -0.030 v cu v cu +0.030 v 1 v hc overcharge hysteresis voltage v hc =0.0v to 0.4v, 50mv step ----- v hc -0.025 v hc v hc +0.025 v 1 v dl overdischarge detection voltage v dl =2.0 v to 3.0 v, 10 mv step ----- v dl -0.050 v dl v dl +0.050 v 2 v hd overdischarge hysteresis voltage v hd =0.0v to 0.7v, 100mv step ----- v hd -0.050 v hd v hd +0.050 v 2 v iov1 overcurrent 1 detection voltage v iov1 =0.05v to 0.3v,10mv step ----- v iov1 -0.015 v iov1 v iov1 +0.015 v 2 v iov2 overcurrent 2 detection voltage ----- 0.4 0.5 0.6 v 2 v short load short-circuiting detection voltage ----- 0.7 1 1.3 v 2 v cha charge detection voltage ----- -1.3 -1.0 -0.7 v 2 input voltage, operation voltage v dsop1 operation voltage between v dd and v ss internal circuit operating voltage 1.5 -- 8 v --- v dsop2 operation voltage between v dd and v m internal circuit operating voltage 1.5 -- 28 v --- current consumption i ope current consumption in normal operation v dd =3.5 v, v vm =0 v 1.0 3.0 6.0 a 2 i pdn current consumption at power down v dd =v vm =1.5 v -- -- 0.1 a 2 output resistance r coh co pin h resistance v co =3.0v,v dd =3.5v v vm =0 v 2.5 5 10 k ? 4 r col co pin l resistance v co =0.5 v, v dd = 4.5v, v vm =0 v 2.5 5 10 k ? 4 r doh do pin h resistance v do =3.0 v, v dd =3.5v, v vm =0 v 2.5 5 10 k ? 4 r dol do pin l resistance v do =0.5v v dd =v vm =1.8 v 2.5 5 10 k ? 4 vm internal resistance r vmd internal resistance between vm and vdd v dd =1.8 v, v vm =0 v 100 300 900 k ? 3 r vms internal resistance between vm and vss v dd =3.5 v, v vm =1.0 v 15 35 60 k ? 3 0v battery charging function v 0cha 0v battery charge starting charger voltage 0v battery charging available 1.2 -- -- v 2 v 0inh 0v battery charge inhibition battery voltage 0v battery charging unavailable -- -- 0.5 v 2 *1. since products are not screened at low and high temperature, the spec ification for this temperat ure range is guaranteed by design not tested in production. eup9261 ds9261 ver2.4 jan. 2007 9 electrical characteristics (2) except detection delay time (-40c to +85c* 1 ) (ta= -40c to +85c* 1 unless otherwise specified) symbol parameter remark min typ max unit measurement circuit detection voltage v cu overcharge detection voltage vcu=3.9 v to 4.4 v, 5 mv step ----- v cu -0.055 v cu v cu +0.040 v 1 v hc overcharge hysteresis voltage v hc =0.0v to 0.4v, 50mv step ----- v hc -0.030 v hc v hc +0.030 v 1 v dl overdischarge detection voltage v dl =2.0 v to 3.0 v, 10 mv step ----- v dl -0.080 v dl v dl +0.080 v 2 v hd overdischarge hysteresis voltage v hd =0.0v to 0.7v, 100mv step ----- v hd -0.050 v hd v hd +0.050 v 2 v iov1 overcurrent 1 detection voltage v iov1 =0.05v to 0.3v,10mv step ----- v iov1 -0.025 v iov1 v iov1 +0.025 v 2 v iov2 overcurrent 2 detection voltage ----- 0.37 0.5 0.63 v 2 v short load short-circuiting detection voltage ----- 0.5 1 1.5 v 2 v cha charge detection voltage ----- -1.5 -1.0 -0.5 v 2 input voltage, operation voltage v dsop1 operation voltage between v dd and v ss internal circuit operating voltage 1.5 -- 8 v --- v dsop2 operation voltage between v dd and v m internal circuit operating voltage 1.5 -- 28 v --- current consumption i ope current consumption in normal operation v dd =3.5 v, v vm = 0 v 0.7 3.0 8.0 a 2 i pdn current consumption at power down v dd =v, v vm =1.5 v -- -- 0.1 a 2 output resistance r coh co pin h resistance v co = 3.0 v, v dd =3.5v, v vm = 0 v 1.2 5 15 k ? 4 r col co pin l resistance v co =0.5 v, v dd =4.5v, v vm = 0 v 1.2 5 15 k ? 4 r doh do pin h resistance v do =3.0 v, v dd =3.5v, v vm = 0 v 1.2 5 15 k ? 4 r dol do pin l resistance v do =0.5v, v dd =v vm = 1.8v 1.2 5 15 k ? 4 vm internal resistance r vmd internal resistance between v m and v dd v dd =1.8 v, v vm =0 v 78 300 1310 k ? 3 r vms internal resistance between v m and v ss v dd =3.5 v, v vm =1.0 v 10 35 70 k ? 3 0v battery charging function v 0cha 0v battery charge starting charger voltage 0v battery charging available 1.7 -- -- v 2 v 0inh 0v battery charge inhibition battery voltage 0v battery charging unavailable -- -- 0.3 v 2 *1.since products are not screened at low and high temperature, the specification for this te mperature range is guaranteed by design, no tested in production. eup9261 ds9261 ver2.4 jan. 2007 10 electrical characteristics (3 ) detection delay time (i) eup9261 aj, eup9261bj, eu p9261bo, eup9261 bq, eup9261bf (ii) eup9261bb, eup9261bp symbol parameter remark min. typ. max. unit measurement circuit delay time (25c) t cu overcharge detection delay time ----- 0.91 1.3 1.69 s 5 t dl overdischarge detection delay time ----- 122 175 228 ms 5 t iov1 overcurrent 1 detection delay time ----- 8.4 12 15.6 ms 5 t iov2 overcurrent 2 detection delay time ----- 2.1 3 3.9 ms 5 t short load short-circuiting detection delay time ----- 200 320 500 s 5 delay time (-40c to +85c) * 1 t cu overcharge detection delay time ----- 0.72 1.3 2.16 s 5 t dl overdischarge detection delay time ----- 97 175 291 ms 5 t iov1 overcurrent 1 detection delay time ----- 6.7 12 20 ms 5 t iov2 overcurrent 2 detection delay time ----- 1.5 3 5 ms 5 t short load short-circuiting detection delay time ----- 150 320 600 s 5 symbol parameter remark min. typ. max. unit measurement circuit delay time (25c) t cu overcharge detection delay time ----- 100 144 187 ms 5 t dl overdischarge detection delay time ----- 28 40 52 ms 5 t iov1 overcurrent 1 detection delay time ----- 14 20 26 ms 5 t iov2 overcurrent 2 detection delay time ----- 2.1 3 3.9 ms 5 t short load short-circuiting detection delay time ----- 200 320 500 s 5 delay time (-40c to +85c) * 1 t cu overcharge detection delay time ----- 80 144 240 ms 5 t dl overdischarge detection delay time ----- 22.2 40 66.6 ms 5 t iov1 overcurrent 1 detection delay time ----- 11 20 33 ms 5 t iov2 overcurrent 2 detection delay time ----- 1.5 3 5 ms 5 t short load short-circuiting detection delay time ----- 150 320 600 s 5 eup9261 ds9261 ver2.4 jan. 2007 11 measurement circuits unless otherwise specified, the output voltage levels ?h? and ?l? at co and do pins are judged by the threshold voltage (1.0 v) of the n channel fet. judge the co pin level with respect to v vm and the do pin level with respect to v ss . (1) measurement condition 1, measurement circuit 1 < overcharge detection voltage, overcharge hysteresis voltage. > the overcharge detection voltage (v cu ) is defined by the voltage between vdd and vss at which v co goes ?l? from ?h? when the voltage v1 is gradually increased from the starting condition v1=3.5v. the overcharge hysteresis voltage (v hc ) is then defined by the difference between the overcharge detection voltage (v cu ) and the voltage between vdd and vss at which v co goes ?h? from ?l? when the voltage v1 is gradually decreased. (2) measurement condition 2, measurement circuit 2 eup9261 ds9261 ver2.4 jan. 2007 12 (9) measurement condition 9, measurement circuit 5 eup9261 ds9261 ver2.4 jan. 2007 13 measurement circuit measurement circuit 1 measurement circuit 2 measurement circuit 3 measurement circuit 4 measurement circuit 5 eup9261 ds9261 ver2.4 jan. 2007 14 characteristics 1. detection/release voltage temperature characteristics overcharge detection voltage vs. temperature 4.22 4.24 4.26 4.28 4.30 4.32 4.34 -50-25 0 255075100 ta( j ) vcu(v) overcharge release voltage vs. temperature 3.92 3.94 3.96 3.98 4.00 4.02 4.04 -50 -25 0 25 50 75 100 ta( j ) vcl(v) figure3. figure4. overdischarge detection voltage vs. temperature 2.44 2.46 2.48 2.5 2.52 2.54 2.56 -50 -25 0 25 50 75 100 ta( j ) vdl(v) overdischarge release voltage vs. temperature 2.82 2.84 2.86 2.88 2.90 2.92 2.94 -50 -25 0 25 50 75 100 ta( j ) vdu(v) figure5. figure6. overcurrent1 detection voltage vs. temperature 0 0.05 0.1 0.15 0.2 0.25 0.3 -50-25 0 255075100 ta( j ) viov1(v) overcurrent 2 detection voltage temperature 0.00 0.25 0.50 0.75 1.00 1.25 1.50 -50 -25 0 25 50 75 100 ta( j ) viov2(v) figure7. figure8. eup9261 ds9261 ver2.4 jan. 2007 15 load short-circuting detection voltage vs. temperature 1.00 1.20 1.40 1.60 1.80 2.00 2.20 -50 -25 0 25 50 75 100 ta( j ) vshort(v) figure9. 2. current consumption temperature characteristics curremt consumption vs. temperature in normal mode 2.00 3.00 4.00 5.00 6.00 7.00 8.00 -50 -25 0 25 50 75 100 ta( j ) iope(ua) current consumption vs. temperature in power-down mode 0.0000 0.0100 0.0200 0.0300 0.0400 0.0500 0.0600 -50-25 0 255075100 ta( j ) ipdn(ua) figure10. figure11. 3. detection/release delay time temperature characteristics overcharge detection delay time vs.temperature 0.5 0.8 1.1 1.4 1.7 2 2.3 -50 -25 0 25 50 75 100 ta( j ) tcu(s) overdischarge detection delay time vs.temperature 80 110 140 170 200 230 260 -50 -25 0 25 50 75 100 ta( j ) tdl(ms) figure12. figure13. eup9261 ds9261 ver2.4 jan. 2007 16 overcurrent 1 detection delay time vs. temperature 5 7 9 11 13 15 17 -50 -25 0 25 50 75 100 ta( j ) tiov1(ms) overcurrent 2 detection delay time vs. temperature 0 1 2 3 4 5 6 -50 -25 0 25 50 75 100 ta( j ) tiov2(ms) figure14. figure15. load short-circuiting delaytime vs. temperature 200 300 400 500 600 700 800 -50 -25 0 25 50 75 100 ta( j ) tshort(us) figure16. eup9261 ds9261 ver2.4 jan. 2007 17 description of operation normal condition the eup9261 monitors the voltage of the battery connected between vdd and vss pin and the voltage difference between vm and vss pin to control charging and discharging. when the battery voltage is in the range from the overdischarge detection voltage (v dl ) to the overcharge detection voltage (v cu ), and the vm pin voltage is in the range from the charger detection voltage (v cha ) to the overcurrent 1 detection voltage (v iov1 ), the ic turns both the charging and discharging control fets on. this condition is called the normal condition, and in this condition charging and discharging can be carried out freely. note: when a battery is connected to the ic for the first time, the battery may not enter dischargeable state. in this case, set the vm pin voltage equal to the vss voltage or connect a charger to enter the normal condition. overcurrent condition (detection of overcurrent 1, overcurrent 2 and load short-circuiting) when the condition in which vm pin voltage is equal to or higher than the overcurrent detection voltage, condition that caused by t he excess of discharging current over a specified va lue, continues longer than the overcharge detection delay time in a battery under the normal condition, the eup9261 turns the discharging control fet off to stop discharging. this condition is called the overcurrent condition. though the vm and vss pins are shorted by the r vms resistor in the ic under the overcu rrent condition, the vm pin voltage is pulled to the vdd level by the load as long as the load is connected. the vm pin voltage returns to vss level when the load is released. the overcurrent condition returns to the normal condition when the impedance between the eb+ and eb- pin (see figure 2) becomes higher than the automatic recoverable impedance, and the ic detects that the vm pin potential is lower than t he overcurrent 1 detection voltage (v iov1 ). note: the automatic recoverable impedance changes depending on the battery voltage and overcurrent 1 detection voltage settings. overcharge condition when the battery voltage becomes higher than the overcharge detection voltage (v cu ) during charging under the normal condition and the detection continues for the overcharge detection delay time (t cu ) or longer, the eup9261 turns the charging control fet off to stop charging. this condition is called the overcharge condition. the overcharge condition is released by the following two cases ((1) and (2)): (1) when the battery voltage falls below the overcharge release voltage, which is equal to the overcharge detection voltage (v cu ) overcharge detection hysteresis voltage (v hc ), the eup9261 turns the charging control fet on and turns to the normal condition. (2) when a load is connected and discharging starts, the eup9261 turns the charging control fet on and returns to the normal condition. just after the load is connected and discharging starts, the discharging current flows through the parasitic diode in the charging control fet. at this moment the vm pin potential becomes v f -volt, the voltage for the parasitic diode, higher than vss level. when the battery voltage goes under the overcharge detection voltage (v cu ) and provided that the vm pin voltage is higher than the overcurrent 1 detection voltage, the eup9261 releases the overcharge condition. note1: if the battery is charged to a voltage higher than the overcharge detection voltage (v cu ) and the battery voltage does not fall below the overcharge detection voltage (v cu ) even when a heavy load is connected, the detection of overcurren t 1, overcurrent 2 and load short-circuiting does not wo rk. since an actual battery has the internal impedance of several dozens of m ? , the battery voltage drops immediately after a heavy load which causes overcurrent is connected, and the detection of overcurrent 1, overcurrent 2 and load short-circuiting then works. note2: when a charger is connected after the overcharge detection, the overcharge condition is not released even if the battery voltage is below the overcharge release voltage (v cl ( ? vcu ?e v hc )). the overcharge condition is released when the vm pin voltage goes over the charger detection voltage (v cha ) by removing the charger. eup9261 ds9261 ver2.4 jan. 2007 18 overdischarge condition when the battery voltage falls below the overdischarge detection voltage (v dl ) during discharging under the normal condition and the detection continues for the overdischarge detection delay time (t dl ) or longer, the eup9261 turns the discharging control fet off to stop discharging. this condition is called the overdischarge condition. when the discharging control fet turns off, the vm pin voltage is pulled up by the r vmd resistor between vm and vdd in the ic. the voltage difference between vm and vdd then falls bellow 1.3v (typ.), the current consumption is reduced to the power-down current consumption (i pdn ). this condition is called the power-down condition. the power-down condition is released when a charger is connected and the voltage difference between vm and vdd becomes 1.3v (typ.) or higher. moreover when the battery voltage becomes the overdischarge detection voltage (v dl ) or higher, the eup9261 turns the discharging fet on and returns to the normal condition. charger detection when a battery in the overdischarge condition is connected to a charger and provided that the vm pin voltage is lower than the charger detection voltage (v cha ), the eup9261 releases the overdischarge condition and turns the discharging control fet on as the battery voltage becomes equal to or higher than the overdischarge detection voltage (v dl ) since the charger detection function works. this action is called charger detection. when a battery in the overdischarge condition is connected to a charger and provided that the vm pin voltage is not lower than the charger detection voltage (v cha ), the eup9261 releases the overdischarge condition when the battery voltage reaches the overdischarge detection voltage (v dl ) overdischarge hysteresis (v hd ) or higher. abnormal charge current detection if the vm pin voltage falls below the charger detection voltage (v cha ) during charging under normal condition and it continues for the over charge detection delay time (t cu ) or longer, the charging control. fet turns off and charging stops. this action is called the abnormal charge current detection. abnormal charge current detection works when the do pin voltage is ?h? and the vm pin voltage falls below the charger detection voltage (v cha ). consequently, if an abnormal charge current flows to an over-discharged battery, the eup9261 turns the charging control fet off and stops charging after the battery voltage becomes higher than the overdischarge detection voltage which make the do pin voltage ?h?, and st ill after the overcharge detection delay time (t cu ) elapses. abnormal charge current detection is released when the voltage difference between vm pin and vss pin becomes less than charger detection voltage (v cha ). delay circuits the detection delay times are generated by dividing the approximate 3.5 khz clock with a counter. note1: the detection delay time for overcurrent 2 and load short-circuiting start when t he overcurrent 1 is detected. as soon as the overcurrent 2 or load short-circuiting is detected over the detection del ay time for overcurrent 2 or load short-circuiting after the detection of overcurrent 1, the eup9261 turns the discharging control fet off. figure17. note2: when the overcurrent is detected and it continues for longer than the overdischarge detection delay time without releasing the load, the load, the condition changes to the power-down condition when the battery voltage falls below the overdischarge detection voltage. note3: when the battery voltage falls below the overdischarge detection voltage due to the overcurrent, the eup9261 turns the discharging control fet off by the overcurrent detection. and in this case the recovery of the battery voltage is so slow that the battery volt age after the overdischarge detection delay time is still lower than the overdischarge detection voltage, the eup9261 transits to the pow er-down condition. eup9261 ds9261 ver2.4 jan. 2007 19 dp pin the dp pin is a test pin for delay time measurement and for output delay time reduction or bypass. it should be open or vdd level in the actual application. for reducing delay time, connect this pin with a 300k ? resistor to vss. an internal clock can be measured. under this condition, output delay time of over-charge, over-discharge, over-curre nt1 and over-current2 can be shorter than the setting value (delay time for over charge becomes about 1/64 of normal state). by forcing this pin to vss, output delay time circuit can be disabled. 0v battery charge function *1*2 this function is used to recharge the connected battery whose voltage is 0v due to the self-discharge. when the 0v battery charge starting charge voltage (v0cha) or higher is applied between eb+ pin and eb-pin by connecting a char ger, the charging control fet gate is fixed to vdd pin voltage. when the voltage between the gate and source of the charging control fet becomes equal to or higher than the turn-on voltage e by the charger vo ltage, the charging control fet turns on to start charging. at this time, the discharging control fet is off and the charging current flows through the internal parasitic diode in the discharging control fet. when the battery voltage becomes equal to or higher than the overdischarge release voltage (vdu), the eup9261 enters the normal condition. 0v battery charge inhibition function *1 this function inhibits the recharging when a battery which is short-circuited (0v) internally is connected. when the battery voltage is 0. 6v (typ.) or lower, the charging control fet gate is fixed to eb- pin voltage to inhibit charging. when the battery voltage is the 0v battery charge inhibition battery voltage (v0inh) or higher, charging can be performed. *1.some battery providers do not recommend charging for completely self-discharged battery. please ask battery providers before determining the 0v battery charge function. *2.the 0v battery charge function has higher priority than the abnormal charge current detection function. consequently, a product with the 0v battery charge function charges a battery forcedly and abnormal charge current cannot be detected when the battery voltage is low. eup9261 ds9261 ver2.4 jan. 2007 20 operation timing chart 1. overcharge and overdischarge detection figure18. 2. overcurrent detection figure19. note: (1) normal condition. (2) overcharge condition. (3 ) overdischarge condition. (4) overcurrent condition the charger is supposed to charge with constant current eup9261 ds9261 ver2.4 jan. 2007 21 3. charger detection figure20. 4. abnormal charge current detection figure21. note: (1) normal condition. (2) overcharge condition. (3 ) overdischarge condition. (4) overcurrent condition the charger is supposed to charge with constant current eup9261 ds9261 ver2.4 jan. 2007 22 package information sot-23-6 millimeters inches symbols min. max. min. max. a - 1.45 - 0.057 a1 0.00 0.15 0.000 0.006 b 0.30 0.50 0.012 0.020 d 2.90 0.114 e1 1.60 0.063 e 0.95 0.037 e 2.60 3.00 0.102 0.118 l 0.30 0.60 0.012 0.024 eup9261 ds9261 ver2.4 jan. 2007 23 package information stdfn-6 millimeters inches symbols min. max. min. max. a 0.50 0.60 0.020 0.024 a1 0.00 0.05 0.000 0.002 b 0.15 0.35 0.006 0.014 d 1.85 2.15 0.073 0.085 d1 1.40 0.055 e 1.85 2.15 0.073 0.085 e1 0.80 0.031 e 0.65 0.026 l 0.25 0.45 0.010 0.018 |
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