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| data sheet n pd60308 ips7081(r)(s)pbf intelligent power high side switch features ? over temperature shutdown (with auto-restart) ? short circuit protection (current limit) ? active clamp ? open load detection from power ground ection escription )pbf is a five terminal intelligent power ? logic ground isolated ? esd protection ? ground loss prot ? status feedback d the ips7081(r)(s switch (ips) with built in s hort circuit, over-temperature, esd protection, inductive load capability and diagnostic feedback. the output current is limited at ilim value. current limitation is activate d until the thermal protection acts. the over-temperature pr otection turns off the device if the junction temperatur e exceeds tshutdown. it will automatically restart after the junction has cooled 7c below tshutdown. a diagnostic pin is provided for status feedback of short circuit, ov er-temperature and open load detection. the double level shifter circuitry allows large offsets between the logi c ground and the load. product summary rds(on) 70m ? max. vclamp 70v i limit 5a (typ.) open load 3v package to220 d2pak d-pak IPS7081PBF ips7081spbf ips7081rpbf typical connection out(5) control dg(4) rin vcc(3) load +bat input signal v diag in(2) gnd(1) rdg pull-up resistor for open load off detection 15k +5v www.irf.com 1 downloaded from: http:///
ips7081(r)(s) absolute maximum ratings absolute maximum ratings indicate sustained limits beyond wh ich damage to the device may occur. all voltage parameters are referenced to ground lead. (tambient =25c unless otherwise specified). symbol parameter min. max. units vout maximum output voltage vcc-65 vcc+0.3 voffset maximum logic ground to load ground offset vcc-65 vcc+0.3 vin maximum input voltage -0.3 5.5 vcc max. maximum vcc voltage ? 65 vcc cont. maximum continuous vcc voltage ? 35 v iin max. maximum in current -1 10 idg max. maximum diagnostic output current -1 10 ma vdg maximum diagnostic output voltage -0.3 5.5 v maximum power dissipation (internally limited by thermal protection) pd rth=50c/w ? 2.5 w isd cont. maximum continuous diode current (rth=50c/w) ? 2.2 a esd1 electrostatic discharge voltage (human body) 100pf, 1500 ? ? 4 esd2 electrostatic discharge volt age (machine model) c=200pf,r=0 ? ,l=10h ? 0.5 kv tj max. max. storage & operating temperature junction temperature -40 +150 c thermal characteristics symbol parameter typ. max. units rth1 thermal resistance junction to ambient d-pak std. footprint 70 ? rth2 thermal resistance junction to am bient d-pak 1 sqrt. footprint 50 ? rth3 thermal resistance junction to case d-pak / to220 / d2pak 3 ? rth1 thermal resistance juncti on to ambient to220 free air 60 ? c/w recommended operating conditions these values are given for a quick desi gn. for operation outside these conditions , please consult the application notes. symbol parameter min. max. units vih high level input voltage 4 5.5 vil low level input voltage -0.3 0.9 iout continuous drain current, tamb= 85c, tj=125c, vin=5v, rth=50c/w ? 2.3 a rin recommended resistor in series with in pin 4 10 rdgs recommended resistor in series with dg pin 10 20 rol recommended pull-up resistor for open load detection 5 100 k ? www.irf.com 2 downloaded from: http:/// ips7081(r)(s) static electrical characteristics max. units test conditions tj=25c, vcc=14v (unless otherwise specified) symbol parameter min. typ. on state resistance tj=25c ? 55 70 , vin=5v iout=2a on state resistance tj=150c ? 100 130 vin=5v, iout=2a rds(on) ? 60 80 m ? on state resistance tj=25c, vcc=6.5v vin=5v, iout=2a vcc op. 6 ? 35 operating voltage range v clamp 1 vcc to out clamp voltage 1 65 70 ? iout=30ma (see fig. 1) v clamp 2 vcc to out clamp voltage 2 ? 70 75 iout=2a (see fig. 1) vf body diode forward voltage ? 1 1.35 v io 2.5a ut= icc off supply current when off ? 2.5 10 a v v, vout=0v in=0 icc on ? 2.5 3.5 ma v supply current when on vin=5 iout@0v v 0v output leakage current ? 2.5 10 out= iout@6v utput leakage current 20 ? vout=6v o ? idg leakage ? 10 a v 5.5v diagnostic output leakage current ? dg= vdgl low level diagnostic output voltage ? 0.2 0.3 idg=1.6ma vih input high threshold voltage ? 2.5 3.5 vil input low threshold voltage 1 2 ? in hys input hysteresis 0.15 0.5 1 uv high under voltage high threshold voltage ? 5 5.9 uv low under voltage low threshold voltage 3.4 4.5 ? uv hys u 1.5 v ndervoltage hysteresis 0.1 0.5 iin on in a v v put current when device is on ? 40 80 in=5 s hing e cc=14v, resistive load=6 ? , vin=5v, tj=25c in. typ. max. units test conditions witc lectrical characteristics v symbol parameter m tdon turn-on delay time ? 16 45 tr1 rise time to vout=vcc-5v ? 10 40 s rise time to vout=0.9 x vcc ? 20 100 tr2 dv/dt (on) t ? 0.8 3 v/s urn on dv/dt eon t ? 100 ? j urn on energy tdoff turn-off delay time ? 25 50 tf f 7.5 25 all time to vout=0.1 x vcc ? s dv/dt (off) t 1.6 3 v/s urn off dv/dt ? eoff t ? j s g. 3 urn off energy ? 25 ee fi tdiag vout to vdiag propagation delay ? 15 ? s see fig. 4 and fig. 12 www.irf.com 3 downloaded from: http:/// ips7081(r)(s) protection characteristics symbol parameter min. typ. max. units test conditions ilim internal current limit 2 7 10 a vout=0v tsd+ over temperature high threshold 150 (1) 165 ? tsd- over temperature low threshold ? 158 ? c see fig. 2 vsc short-circuit detection voltage (2) 2 3 4 vopen load open load detection threshold v 2 3 4 (1 d b (2 to t tabl g c out dg pin ) guarantee y design ) reference vcc ruth e operatin onditions in normal h h h normal l l l open load h h h open load (3) h l h short circuit to imiting) l gnd h l (l short circuit to l gnd l l over-temperature h l (cycling) l over-temperature l l l (3 ull-up t and v ) with a p resistor connected between the outpu cc. lead assignments 3- vcc 1 2 3 4 5 a d2pa c d-p k - k 3- vc 1 2 3 4 5 to220 1- gn 2- in 3- vc 4- dg 5- ou d c t www.irf.com 4 downloaded from: http:/// ips7081(r)(s) functional block diagram all values are typical 150k ? in v cc out 66v driver i limit 75v i sense - + charge pump tj 165c level sh ifter 158c 2.5v 2.0v 6v dg 6v gnd 3v + - 3v - + short circuit 75v vcc-gnd >uv 30 ? open load gnd protection loss www.irf.com 5 downloaded from: http:/// ips7081(r)(s) vds ids vin vcc vds clamp t clamp see application notes to evaluate power dissipation t j ilim tsd+ tsd- iout vin limiting thermal cycling figure 1 C active clamp waveforms figure 2 C protection timing diagram vin vds vout 90% 10% 90% 10% td on tr1 td off tf vcc-5v tr2 vih vil vd g vcc vout vin vcc - vsc vol tdiag blanking diag on blanking diag off figure 4 C diagnostic delay definition figure 3 C switching times definition www.irf.com 6 downloaded from: http:/// ips7081(r)(s) www.irf.com 7 figure 6 C max. output current (a) vs load inductance (h) load inductance (h) iout, output current (a) vclam p vin in vcc out r l 0.10 0.0001 0.001 0.01 0.1 1 10 1.00 10.00 100.00 100 zth, transient thermal impedance (c/w) time (s) figure 8 C transient thermal impedance (c/w) vs time (s) 0.1 1 10 1 1e+6 e+2 1e+3 1e+4 1e+5 0 150 figure 7 C max. ouput current (a) vs ambient temperature (c) rth=50c/w tamb, ambient temperature (c) ids, cont. output current (a) -50 0 50 100 2 4 6 8 10 iout 0v 5v 14v + - vout rem : during active clamp, vload is negative d g gnd figure 5 C active clamp test circuit downloaded from: http:/// ips7081(r)(s) www.irf.com 8 0 10 20 30 40 50 60 70 80 0123456 tdiag on tdiag off tj, junction temperature (c) figur j (c) rds(on), drain-to-source on resistance output current (a) blanking me ( s) output current (a) vs junction temperature (c) tj, junction temperature (c) 50% 100% 150% 200% -50 0 50 100 150 0 500 1000 1500 0123456 eon eoff iout, output current (a) eon, eoff, switching energy (j) figure 10 C switching energy (j) vs output current (a) i limit (a) 0 2 4 6 8 10 -50 0 50 100 150 figure 9 Ci limit (a) ti figure 12 C diagnosis blanking time ( s) vs (normalized) e 11 - normalized rds(on) (%) vs t downloaded from: http:/// ips7081(r)(s) www.irf.com 9 1.e+0 1.e+1 1.e+2 1.e+3 1.e+4 0 5 10 15 20 25 30 35 icc on icc off 1.e+0 1.e+1 1.e+2 1.e+3 1.e+4 -50 0 50 100 150 icc on icc off icc on/ icc off, supply current (a) icc on/ icc off, supply current (a) vcc, power supply voltage (v) figure 13 C s vcc (v) tj ) , junction temperature (c figure 14 C icc on/ icc off (a) vs tj (c) icc on/ icc off (a) v downloaded from: http:/// ips7081(r)(s) www.irf.com 10 case outline C to220 C 5 leads downloaded from: http:/// ips7081(r)(s) case outline C d2pak C 5 leads www.irf.com 11 downloaded from: http:/// ips7081(r)(s) tape and reel C d2pak C 5 leads www.irf.com 12 downloaded from: http:/// ips7081(r)(s) case outline C dpak C 5 leads www.irf.com 13 downloaded from: http:/// ips7081(r)(s) tape & reel C dpak C 5 leads 233 kansas st., el segundo, california 90245 tel: (310) 252-7105 data and specifications subj ect to change without notice. to220, dpak and d2pak are msl1 qualified. this product has been designed and qualified for the automotive [q100] market. 06/02/2007 ir world headquarters: www.irf.com 14 downloaded from: http:/// |
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