ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 1 G606 global mixed-mode technology inc. smart high-current power switch features �?�� ultra low ron mosfet only 33m ? ? ? ? �?�� continuous 6a current power switch �?�� v cc input voltage from 7v to 30v �?�� mosfet input voltage 2v to 20v �?�� programmable soft start for mosfet turn on �?�� very low quiescent current only 180a at v cc = 20v �?�� switch off current only 1a �?�� small, 8-pin sop package applications �?�� desktop and notebook computers �?�� smart battery packs �?�� lan servers �?�� industrial controls �?�� central office telecom equipment general description the G606 is a high-current power switch with logic- level compatible on/off control. the G606 has built in a power n-channel mosfet, which can handle 6a con- tinuous current, with 33m ? on-resistance. the drain-to-source voltage rating of the mosfet is 20v. the mosfet can be turned on and off with a ttl logic level control signal, which is applied to the on/off pin of G606. the vcc input voltage range of G606 is from 7v to 30v. thus, it is possible to operate G606 directly from the adaptor or battery for the note- book applications. to tailor the turn-on time of the mosfet, G606 provides a sst (soft start) pin to limit the surge current. by choosing an appropriate capaci- tance value, the turn-on surge current can be adjusted the G606 is available in a small, 8-pin sop sur- face-mount package. ordering information part* temp. range pin-package G606 -40c to +85c 8-sop pin configuration typical operating circuit vcc 8 6 5 1 2 3 4 sw_s sst gnd 8pin sop G606 7 gnd sw_d sw_d on/off c out 0.1f r l c in 0.1f u1 G606 2 3 5 4 6 7 8 1 sw_s vcc gnd gnd sw_d sw_d sw_s c byp 0.1f c sst 0.1f v in v out v cc off on G606 on off sst 7~30v 0~7v on/off vcc 8 6 5 1 2 3 4 sw_s sst gnd 8pin sop G606 7 gnd sw_d sw_d on/off vcc 8 6 5 1 2 3 4 sw_s sst gnd 8pin sop G606 7 gnd sw_d sw_d on/off vcc 8 6 5 1 2 3 4 sw_s sst gnd 8pin sop G606 7 gnd sw_d sw_d on/off c out 0.1f r l c in 0.1f u1 G606 2 3 5 4 6 7 8 1 sw_s vcc gnd gnd sw_d sw_d sw_s c byp 0.1f c sst 0.1f v in v out v cc off on G606 on off sst 7~30v 0~7v on/off
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 2 G606 global mixed-mode technology inc. absolute maximum ratings v cc .to gnd..???????..?.??....?-0.3v to +40v v sw-d to v sw-s ????????..?.?.?..-0.3v to +25v on/ off to gnd???.?......???..??.?0.7v to +7v output short-circuit duration???.???.??..infinite v sst to gnd??????????...??.-0.3v to +15v junction temperature??????????.?..+150c continuous power dissipation (t a =+25c) sop-8???????????????????..1.0w ja (1) ????????????.????..125c /watt note (1) : see recommended minimum footprint recommend operating conditions supply voltage (v cc )?????.???...+7v to +30v switch input voltage (v sw-d )??????+0v to +20v operating temperature range ???.-40c to +85c storage temperature range????-65c to +160c esd rating??????????.?..?????.2kv electrical characteristics (v cc = 15v, c byp , c in , c sst , c out = 0.1f, t a =25c, unless otherwise noted.) (note1) parameter symbol conditions min typ max units i cc_on switch on, v on/ off = 5v, no load 53 v cc input supply current i cc_off switch off, v on/ off = 0v, no load 0.053 a v ih switch into on status 3.1 on/ off input enable threshold v il switch into off status 3.0 v i ih v on/ off = 5v 7 on/ off input enable current i il v cc = 15v v on/ off = 0v 7 na v cc 14.6v v cc -0.06 v on/ off = 5v v cc > 14.6v 14.4 sst voltage v sst v on/ off = 0v 7v v cc 30v 0.007 0.1 v v cc = 15v, v sw-d = 5v, i out = 6a 34 switch resistance r ds (on) v cc = 15v, v sw-d = 3.3v, i out = 6a 33 m ? v sw-d = 5v 2 output turn-on rise time t r v sw-d = 3.3v 1.4 v sw-d = 5v 0.7 output turn-off fall time t f v sw-d = 3.3v 0.8 v sw-d = 5v 2.7 t on v sw-d = 3.3v 2.5 ms v sw-d = 5v 4 propagation delay time t off c sst = 0.1f, c out = 0.1f v cc = 12v, i out = 6a (see note 2) v sw-d = 3.3v 3 s note 1: limits is 100% production tested at t a =25c. low duty pulse technique are used during test to maintain junction temperature as close to ambient as possible. note 2: output rise/fall time & propagation delay time test waveform. test circuits and voltage waveforms pin description pin no. pin name pin function 1 sw_s switch output pin. 2 sst adjust soft start slope of gate. 3 vcc battery voltage input. 4 on/ off control switch on or off. 5,6 gnd ground pin. 7,8 sw_d switch input pin. v out i out c l 90% 10% t r t f gnd rise/fall time (v out ) v out v dd gnd 50% 90% t off t on 10% v in gnd v out voltage waveforms 50% load circuit v on/off v out i out c l 90% 10% t r t f gnd rise/fall time (v out ) v out v dd gnd 50% 90% t off t on 10% v in gnd v out voltage waveforms 50% load circuit v on/off
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 3 G606 global mixed-mode technology inc. typical performance characteristics (v cc = +15v, v in =5v, c byp , c in , c sst , c out = 0.1f, t a =25c, unless otherwise noted.) input supply current i cc_on vs. v cc input supply current i cc_off vs. v cc sst high level (v sst_high ) vs. v cc sst low level (v sst_low ) vs. v cc on/off input enable current (i il ) vs. v cc on/off input enable current (i ih ) vs. v cc 0 100 200 300 400 500 600 7 10131619222528 vcc input voltage (v) input supply current i cc_on (a) icc_on @ta=-40 icc_on @ta=25 icc_on @ta=85 -1.00 -0.80 -0.60 -0.40 -0.20 0.00 0.20 0.40 0.60 0.80 1.00 7 10131619222528 vcc input voltage (v) input supply current i cc_off (a) icc_off @ ta= -40 icc_off @ ta= 25 icc_off @ ta= 85 v on/off =5v v on/off =0v -10 -8 -6 -4 -2 0 2 4 6 8 10 7 10131619222528 vcc input voltage (v) on/off input enable current i ih (na) iih @ ta=-40 iih @ ta= 25 iih @ ta= 85 v on/off =5v -10 -8 -6 -4 -2 0 2 4 6 8 10 7 10131619222528 vcc input voltage (v) on/off input enable current i il (na) iil @ ta=-40 iil @ ta= 25 iil @ ta= 85 v on/off =0v 5 6 7 8 9 10 11 12 13 14 15 16 7 10131619222528 v cc input voltage sst high level voltage v sst_high (v) vsst_high @ ta=-40 vsst_high @ ta=25 vsst_high @ ta=85 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 7 10131619222528 input voltage v cc (v) sst low level voltage v sst_low (v) vsst_low @ ta=-40 vsst_low @ ta=25 vsst_low @ ta=85 v on/off =0v
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 4 G606 global mixed-mode technology inc. typical performance characteristics (continued) input supply current i cc_on vs. t a on/off input enable current (i ih ) vs. t a sst high level (v sst_high ) vs. t a sst low level (v sst_low ) vs. t a input supply current i cc_off vs. t a on/off input enable current (i il ) vs. t a 0 100 200 300 400 500 600 700 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 ambient temperature t a (c) input s upply current i cc_on (a) icc_on @ vcc=7v icc_on @ vcc=9v icc_on @ vcc=12v icc_on @ vcc=15v icc_on @ vcc=19v icc_on @ vcc=24v icc_on @ vcc=28v icc_on @ vcc=30v v on/off =5v -1.00 -0.80 -0.60 -0.40 -0.20 0.00 0.20 0.40 0.60 0.80 1.00 -40-30-20-10 0 1020304050607080 ambient temperature t a (c) input s upply current i cc_off (a) icc_off @ vcc=7v icc_off @ vcc=9v icc_off @ vcc=12v icc_off @ vcc=15v icc_off @ vcc=19v icc_off @ vcc=24v icc_off @ vcc=28v icc_off @ vcc=30v -10 -8 -6 -4 -2 0 2 4 6 8 10 -40-30-20-10 0 1020304050607080 ambient temperature t a (c) on/off input enable current iih (na) iih @ vcc=7v iih @ vcc=9v iih @ vcc=12v iih @ vcc=15v iih @ vcc=19v iih @ vcc=30v -10 -8 -6 -4 -2 0 2 4 6 8 10 -40-30-20-10 0 1020304050607080 ambient temperature t a (c) on/off input enable current iil (na) iil @ vcc=7v iil @ vcc=9v iil @ vcc=12v iil @ vcc=15v iil @ vcc=19v iil @ vcc=30v v on/off =0v v on/off =5v 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 -40-30-20-10 0 1020304050607080 ambient temperature (c) sst high level voltage v sst_high (v) vsst_high @ vcc=7v vsst_high @ vcc=9v vsst_high @ vcc=12v vsst_high @ vcc=15v vsst_high @ vcc=20v vsst_high @ vcc=24v vsst _ high @ vcc=30v 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 -40-30-20-10 0 1020304050607080 ambient temperature (c) sst lo w level voltage v sst_low (v) vsst_low@ vcc=7v vsst_low@ vcc=9v vsst_low@ vcc=12v vsst_low@ vcc=15v vsst_low@ vcc=19v vsst_low@ vcc=30v v on/off =0v v on/off =0v
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 5 G606 global mixed-mode technology inc. typical performance characteristics (continued) (c sst = 0.1f, c out = 0.1f, v sw = 3.3v, i out = 6a) (c sst = 0.1f, c out = 0.1f, v sw = 5.0v, i out = 6a) (c sst = 0.1f, c out = 0.1f, v sw = 3.3v, i out = 6a) on/off input threshold voltage (v ih & v il ) vs. v c c power on /off response time (v cc =12v) power on /off response time (v cc =30v) power on /off response time (v cc =30v) source current vs. v cc power on /off response time (v cc =12v) (c sst = 0.1f, c out = 0.1f, v sw = 5.0v, i out = 6a) 0 50 100 150 200 250 300 350 400 7 8 9 10111213141516 sst voltage source current isource isource @ ta= -40 isource @ ta= 25 isource @ ta= 85 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4.0 7 10131619222528 v cc input voltage v ih & v il voltage (v) vih @ ta=-40 vil @ ta=-40 vih @ ta=25 vil @ ta= 25 vih @ ta=85 vil @ ta= 85 v cc =19v
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 6 G606 global mixed-mode technology inc. typical performance characteristics (continued) power on /off response time (v cc =30v) power on /off response time (v cc =12v) power on /off response time (v cc =12v) (c sst = 0.1f, c out = 1f, v sw = 5.0v, i out = 6a) (c sst = 0.1f, c out = 1f, v sw = 3.3v, i out = 6a) (c sst = 0.1f, c out = 1f, v sw = 3.3v, i out = 6a) (c sst = 0.1f, c out = 1f, v sw = 5.0v, i out = 6a) (c sst = 1f, c out = 0.1f, v sw = 5.0v, i out = 6a) (c sst = 1f, c out = 0.1f, v sw = 3.3v, i out = 6a) power on /off response time (v cc =30v) power on /off response time (v cc =30v) power on /off response time (v cc =30v)
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 7 G606 global mixed-mode technology inc. typical performance characteristics (continued) r ja =125c/w when mounted on a minimum pad switch on-resistance vs. sst to sw_s voltage differential recommand minimun footprint i out = 6a 20 30 40 50 60 70 80 90 100 110 120 4 6 8 10 12 14 16 18 20 sst to sw_s voltage differential vsst-vsw_s (v) switch on-resistance rds(on) (m ) rds @ tj = -40 rds @ tj= 25 rds @ tj= 85
ver 0.2 preliminary jul 26, 2002 tel: 886-3-5788833 http://www.gmt.com.tw 8 G606 global mixed-mode technology inc. package information note: 1. package body sizes exclude mold flash and gate burrs 2. dimension l is measured in gage plane 3. tolerance 0.10mm unless otherwise specified 4. controlling dimension is millimeter converted inch dimensions are not necessarily exact. dimension in mm dimension in inch symbol min. nom. max. min. nom. max. a 1.35 1.60 1.75 0.053 0.063 0.069 a1 0.10 ----- 0.25 0. 004 ----- 0. 010 a2 ----- 1.45 ----- ----- 0. 057 ----- b 0.33 ----- 0.51 0. 013 ----- 0. 020 c 0.19 ----- 0.25 0. 007 ----- 0. 010 d 4.80 ----- 5.00 0. 189 ----- 0. 197 e 3.80 ----- 4.00 0. 150 ----- 0. 157 e ----- 1.27 ----- ----- 0. 050 ----- h 5.80 ----- 6.20 0. 228 ----- 0. 244 l 0.40 ----- 1.27 0. 016 ----- 0. 050 y ----- ----- 0.10 ----- ----- 0. 004 0o ----- 8o 0o ----- 8o taping specification gmt inc. does not assume any res ponsibility for use of any circuitry described, no circuit patent licenses are implied and gmt inc. reserves the right at any t ime without notice to change said circuitry and specifications. d e h 7 (4 x ) a1 a2 a e b y c l d e h d e h 7 (4 x ) a1 a2 a e b y c l c l feed direction typical sop package orientation feed direction typical sop package orientation
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