 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| 1 xc6204_6205 etr0304_002.doc cmos low power consumption dropout voltage : 60mv @ 30ma 200mv @ 100ma maximum output current : 150ma (300ma=xc6204 e to h type) highly accurate : 2% output voltage range : 1.8v ~ 6.0v (xc6204) 0.9v ~ 1.75v (xc6205) low esr capacitor compatible general description the xc6204/6205 series are highly precise, low noise, positive voltage ldo regulators manufactured using cmos processes. the series achieves high ripple rejection and low dropout and consists of a standard voltage source, an error correction, current lim iter and a phase compensation circuit plus a driver transistor. output voltage is selectable in 50mv steps within a range o f 0.9v ~ 6.0v. the series is also compatible with low esr ceramic capacitors which give added output stability. this stability can be maintained even during load fluctuations due to the excellent transient response of the series. the current limiter's foldback circ uit also operates as a short protect for the output current limiter and the output pin. the ce function enables t he output to be turned off, resulting in greatly reduced power consumption. a pplications mobile phones cordless phones cameras, video recorders portable games portable av equipment reference voltage battery powered equipment typical application circuit features maximum output current : : 150ma (300ma=xc6204 e to h typ.) dropout voltage : 200mv(i out = 100ma) operating voltage : 2v ~ 10v output voltage range : 1.8v ~ 6.0v (xc6204) (50mv steps) 0.9v ~ 1.75v (xc6205) (50mv steps) highly accurate : 2% low power consumption : 70 a (typ.) standby current : less than 0.1 a (typ.) high ripple rejection : 70db (10khz) (xc6204) 60db (10khz) (xc6205) operational temperature range : -40 ~ 85 low esr capacitor compatible : ceramic capacitor typical performance characteristics
2 xc6204/6205 series pin number sot-25 sot-89-5 usp-6b pin name function 1 4 1 v in input 2 2 5 v ss ground 3 3 6 ce on/off control 4 1 2, 4 nc no connection 5 5 3 v out output xc6204/6205 a, b, e, f series ce operational state h on l off xc6204/6205 c, d, g, h series ce operational state h off l on h= high level l= low level pin configuration pin assignment *the dissipation pad for the usp-6b package should be solder-plated in recommended mount pattern and metal masking so as to enhance mounting strength and heal release. if the pad needs to be connected to other pins, it should be connected to the v ss pin. usp-6b (bottom view) sot-25 (top view) sot-89-5 (top view) functions vss 5 nc 4 ce 6 1 vin 2 nc 3 vout 3 xc6204/6205 series designator description symbol description a / e : high active, pull-down resistor built-in b / f : high active, no pull-down resistor built-in c / g : low active, pull-up resistor built-in (*1) type of regulator (ce pin logic) d / h : low active, no pull-up resistor built-in output voltage 09 ~ 60, : e.g. v out =2.0v ? =2, =0 2 : 100mv increments, 2% accuracy e.g. v out =3.8v, 2% =3, =8, =2 1 (*2) : 100mv increments, 1% accuracy e.g. v out =3.0v, 1% =3, =0, =1 a : 50mv increments, 2% accuracy e.g. v out =3.85v, 2% =3, =8, =a output voltage accuracy b (*2) : 50mv increments, 1% accuracy e.g. v out =3.05v, 1% =3, =0, =b m : sot-25 (sot-23-5) d : usp-6b package p : sot-89-5 r : embossed tape, standard feed device orientation l : embossed tape, reverse feed xc6204/6205 ????? note : *1: e to h types are compatible to 300ma of xc6204 series. *2: output voltage range of the 1 accuracy product is 3.0v to 6.0v. product classification selection guide the following options for the ce pin logic and internal pull-up/down are available: high active + no pull-down resistor built-in (standard) high active + 300k pull-down resistor built-in 4 xc6204/6205 series packaging information sot-25 usp-6b sot-89-5 2.9+0.2 5-0.4 +0.1 -0.05 1.9+0.2 0.95 0.95 0~0.1 0.15 -0.05 +0.1 min 0.2 1.1+0.1 1.0~1.3 2.8+0.2 1.6 -0.1 +0.2 5 xc6204/6205 series mark product series 4 xc6204xxxxxx mark output voltage 100mv increments output voltage 50mv increments voltage =0.1~3.0v voltage =3.1~6.0v voltage =0.15 3.05v voltage =3.15 6.05v product series v a e l xc6204axxxxx x b f m xc6204bxxxxx y c h n xc6204cxxxxx z d k p xc6204dxxxxx mark output voltage (v) mark output voltage (v) 0 3.1 3.15 f 1.6 4.6 1.65 4.65 1 3.2 3.25 h 1.7 4.7 1.75 4.75 2 3.3 3.35 k 1.8 4.8 1.85 4.85 3 3.4 3.45 l 1.9 4.9 1.95 4.95 4 3.5 3.55 m 2.0 5.0 2.05 5.05 5 3.6 3.65 n 2.1 5.1 2.15 5.15 6 3.7 3.75 p 2.2 5.2 2.25 5.25 7 3.8 3.85 r 2.3 5.3 2.35 5.35 8 3.9 3.95 s 2.4 5.4 2.45 5.45 9 4.0 4.05 t 2.5 5.5 2.55 5.55 a 4.1 4.15 u 2.6 5.6 2.65 5.65 b 4.2 4.25 v 2.7 5.7 2.75 5.75 c 4.3 4.35 x 2.8 5. 8 2.85 5.85 d 4.4 4.45 y 2.9 5.9 2.95 5.95 e 4.5 4.55 z 3.0 6.0 3.05 6.05 marking rule sot-25, sot-89-5 [xc6204] represents product series represents type of regulator represents output voltage represents production lot number 0 9, a to z repeated. (g, i, j, o, q, w excepted) 123 54 524 123 sot-25 (top view) sot-89-5 (top view) 6 xc6204/6205 series mark product series 0 4 xc6204xxxxdx mark type product series a ce pin, high active, pull-down resistor built-in xc6204axxxdx b ce pin, high active, no pull-down resistor built-in xc6204bxxxdx c ce pin, high active, pull-up resistor built -in xc6204cxxxdx d ce pin, low active, no pull- up resistor bu ilt-in xc6204dxxxdx mark voltage v product series 3 3.x xc6204x3xxdx 5 5.x xc6204x5xxdx mark voltage (v) product series mark voltage (v) product series 0 x.0 xc6204xx0xdx a x.05 xc6204xx0adx 1 x.1 xc6204xx1xdx b x.15 xc6204xx1adx 2 x.2 xc6204xx2xdx c x.25 xc6204xx2adx 3 x.3 xc6204xx3xdx d x.35 xc6204xx3adx 4 x.4 xc6204xx4xdx e x.45 xc6204xx4adx 5 x.5 xc6204xx5xdx f x.55 xc6204xx5adx 6 x.6 xc6204xx6xdx h x.65 xc6204xx6adx 7 x.7 xc6204xx7xdx k x.75 xc6204xx7adx 8 x.8 xc6204xx8xdx l x.85 xc6204xx8adx 9 x.9 xc6204xx9xdx m x.95 xc6204xx9adx usp-6b ? represents product series represents type of regulator represents integer of the output voltage represents decimal number of output voltage represents production lot number 0 to 9, a to z repeated. (g, i, j, o, q, w excepted) note: no character inversion used. marking rule (continued) [xc6204] usp-6b (top view) 1 2 3 6 5 4 7 xc6204/6205 series mark product series 5 xc6205xxxxxx mark output voltage 100mv increments output voltage 50mv increments product series v e xc6205axxxxx x f xc6205bxxxxx y h xc6205cxxxxx z k xc6205dxxxxx mark output voltage (v) mark output voltage (v) 8 0.9 0.95 d 1.4 1.45 9 1.0 1.05 e 1.5 1.55 a 1.1 1.15 f 1.6 1.65 b 1.2 1.25 h 1.7 1.75 c 1.3 1.35 [xc6205] sot-25, sot-89-5 represents type of regulator represents product series represents output voltage represents production lot number 0 to 9, a to z, reversed character of 0 to 9 and a to z repeated. (g, i, j, o, q, w excepted) marking rule ( continued ) 123 54 524 123 sot-25 (top view) sot-89-5 (top view) 8 xc6204/6205 series mark product series 0 5 xc6205xxxxdx mark type product series a ce pin: high active with pull-down resistor built-in xc6205axxxdx b ce pin: high active with no pull-down resistor built-in xc6205bxxxdx c ce pin: low active with pull- up resistor bu ilt-in xc6205cxxxdx d ce pin: low active with no pu ll-up resistor built-in xc6205dxxxdx mark voltage (v) product series 3 3.x xc6205x3xxdx 5 5.x xc6205x5xxdx mark output voltage (v) mark output voltage (v) 0 x.0 xc6205xx0xdx a x.05 xc6205xx0adx 1 x.1 xc6205xx1xdx b x.15 xc6205xx1adx 2 x.2 xc6205xx2xdx c x.25 xc6205xx2adx 3 x.3 xc6205xx3xdx d x.35 xc6205xx3adx 4 x.4 xc6205xx4xdx e x.45 xc6205xx4adx 5 x.5 xc6205xx5xdx f x.55 xc6205xx5adx 6 x.6 xc6205xx6xdx h x.65 xc6205xx6adx 7 x.7 xc6205xx7xdx k x.75 xc6205xx7adx 8 x.8 xc6205xx8xdx l x.85 xc6205xx8adx 9 x.9 xc6205xx8xdx m x.95 xc6205xx9adx usp-6b represents decimal point of output voltage ? represents product series represents type of voltage regulator represents integer of output voltage represents production lot number 0 to 9, a to z repeated (g, i, j, o, q, w excepted) *no character inversion used. [xc6205] marking rule ( continued ) usp-6b (top view) 1 2 3 6 5 4 9 xc6204/6205 series parameter symbol ratings units input voltage v in 12.0 v output current i out 500 ma output voltage v out v ss -0.3 v in +0.3 v ce input voltage v ce v ss -0.3 v in +0.3 v sot-25 250 usp-6b 100 power dissipation sot-89-5 pd 500 mw operational temperature range topr -40 ~ +85 storage temperature range tstg -55 ~ +125 block diagram a bsolute maximum ratings diodes shown in the above circuit are protective diodes. ta = 2 5 10 xc6204/6205 series ta = 2 5 -40 < ta < 85 ( *7 ) parameter symbol conditions min. typ. max. min. typ. max. units circuit output voltage (2% products) (*3) 0.98 1.02 0.97 1.03 output voltage (1% products) (*3) vout(e) i out = 30ma 0.99 v out(t) 1.01 0.98 v out(t) 1.02 v 1 maximum output current i outmax - 150 - - 150 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 - 30 80 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (a series) v in = v ce = v out(t)+ 1.0v 50 80 120 50 90 145 supply current (b series) i dd v in = v ce = v out(t)+ 1.0v 40 70 100 40 80 120 a 2 standby current istby v in = v out(t )+1.0v, v ce = v ss - 0.01 0.10 - 0.05 1.00 a2 line regulation �u v out �u v in ? v out v out(t) +1.0v Q v in Q 10v i out = 30ma - 0.01 0.20 - 0.05 0.30 %/v 1 input voltage v in - 2 - 10 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - - - - ppm/ 1 output noise en i out = 10ma 300hz~50khz 30 - - - - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac i out = 50ma, f=10khz - 70 - - - - db 4 current limiter ilim v in = v out(t)+ 1.0v, v ce = v in - 300 - - 280 - ma 1 short-circuit current ishort v in = v out(t)+ 1.0v, v ce = v in - 50 - - 60 - ma 1 ce ?high? voltage v ceh - 1.6 - v in 1.7 - v in ce ?low? voltage v cel - - - 0.25 - - 0.20 v 1 ce ?high? current (a series) v in = v ce = v out(t)+ 1.0v 3.2 - 20.0 3.0 - 25.0 ce ?high? current (b series) i ceh v in = v ce = v out(t)+ 1.0v -0.10 - 0.10 -0.15 - 0.15 ce ?low? current i cel v in = v out(t)+ 1.0v, v ce = v ss -0.10 - 0.10 -0.15 - 0.15 a 2 electrical characteristics xc6204a, b series note: *1 : unless otherwise stated, v in =v out(t)+ 1.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. *7 : the values for -40 Q topr Q 85 are designed values. 11 xc6204/6205 series ta = 2 5 -40 < ta < 85 ( *7 ) parameter symbol conditions min. typ. max. min. typ. max. units circuit output voltage (2% products) (*3) 0.98 1.02 0.97 1.03 output voltage (1% products) (*3) v out(e) i out = 30ma 0.99 v out(t) 1.01 0.98 v out(t) 1.02 v 1 maximum output current i outmax - 150 - - 150 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 - 30 80 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (c series) v in = v out(t)+ 1.0v, v ce = v ss 50 80 120 50 90 145 supply current (d series) i dd v in = v out(t)+ 1.0v, v ce = v ss 40 70 100 40 80 120 a 2 standby current istby v in = v ce = v out(t)+ 1.0v - 0.01 0.10 - 0.05 1.00 a2 line regulation �u v out �u v in ? v out v out (t)+1.0v Q v in Q 10v i out = 30ma - 0.01 0.20 - 0.05 0.30 %/v 1 input voltage v in - 2 - 10 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - - - - ppm/ 1 output noise en i out = 10ma 300hz~50khz 30 - - - - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac i out = 50ma, f = 10khz - 70 - - - - db 4 current limiter ilim v in = v out(t)+ 1.0v, v ce = v ss - 300 - - 280 - ma 1 short-circuit current ishort v in = v out(t)+ 1.0v, v ce = v ss - 50 - - 60 - ma 1 ce ?high? voltage v ceh - 1.6 - v in 1.7 - v in ce ?low? voltage v cel - - - 0.25 - - 0.20 v 1 ce ?high? current i ceh v in = v ce = v out(t)+ 1.0v -0.10 - 0.10 -0.15 - 0.15 ce ?low? current (c series) v in = v out(t)+ 1.0v, v ce = v ss -20.0 - -3.2 -25.0 - -3.0 ce ?low? current (d series) i cel v in = v out(t)+ 1.0v, v ce = v ss -0.10 - 0.10 -0.15 - 0.15 a 2 electrical characteristics (continued) xc6204c, d series note: *1 : unless otherwise stated, v in = vout(t)+ 1.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. *7 : the values for -40 Q topr Q 85 are designed values. 12 xc6204/6205 series ta = 2 5 parameter symbol conditions min. typ. max. units circuit output voltage (2% products) (*3) v out(e) i out = 30ma e-0 v 1 maximum output current i outmax v in = v out(t)+ 1.0v when v out Q 2.0v, v in = 3.0v 300 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (e series) v in = v ce = v out(t)+ 1.0v 50 80 120 supply current (f series) i dd v in = v ce = v out(t)+ 1.0v 40 70 100 a 2 standby current istby v in = v out(t)+ 1.0v, v ce = v ss - 0.01 0.10 a2 line regulation �u v out �u v in ? v out v out(t)+ 1.0v Q v in Q 10v i out = 30ma - 0.01 0.20 %/v 1 input voltage v in - 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - ppm/ 1 output noise en i out = 10ma 300hz~50khz 30 - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac i out = 50ma, f = 10khz - 70 - db 4 current limiter ilim v in = v out(t)+ 1.0v, v ce = v in - 380 - ma 1 short-circuit current ishort v in = v out(t)+ 1.0v, v ce = v in - 50 - ma 1 ce ?high? voltage v ceh - 1.6 - v in ce ?low? voltage v cel - - - 0.25 v 1 ce ?high? current (e series) v in = v ce = v out(t)+ 1.0v 3.2 - 20.0 ce ?high? current (f series) i ceh v in = v ce = v out(t)+ 1.0v -0.10 - 0.10 a 2 ce ?low? current i cel v in = v out(t)+ 1.0v, v ce = v ss -0.10 - 0.10 a 2 electrical char a cteristics (continued) xc6204e, f series note: *1 : unless otherwise stated, v in =v out(t)+ 1.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. 13 xc6204/6205 series ta = 2 5 parameter symbol conditions min. typ. max. units circuit output voltage (2% products) (*3) v out(e) i out = 30ma e-0 v 1 maximum output current i outmax v in = v out(t)+ 1.0v when v out Q 2.0v, v in = 3.0v 300 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (g series) v in = v out(t)+ 1.0v, v ce = v ss 50 80 120 supply current (h series) i dd v in = v out(t)+ 1.0v, v ce = v ss 40 70 100 a 2 standby current istby v in = v ce = v out(t)+ 1.0v - 0.01 0.10 a2 line regulation �u v out �u v in ? v out v out(t)+ 1.0v Q v in Q 10v i out = 30ma - 0.01 0.20 %/v 1 input voltage v in - 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - ppm/ 1 output noise en i out = 10ma 300hz~50khz 30 - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac i out = 50ma, f = 10khz - 70 - db 4 current limiter ilim v in = v out(t)+ 1.0v, v ce = v ss - 380 - ma 1 short-circuit current ishort v in = v out(t)+ 1.0v, v ce = v ss - 50 - ma 1 ce ?high? voltage v ceh - 1.6 - v in ce ?low? voltage v cel - - - 0.25 v 1 ce ?high? current i ceh v in = v ce = v out(t)+ 1.0v -0.10 - 0.10 ce ?low? current (g series) v in = v out(t)+ 1.0v, v ce = v ss -20.0 - -3.2 ce ?low? current (h series) i cel v in = v out(t)+ 1.0v, v ce = v ss -0.10 - 0.10 a2 electrical characteristics (continued) xc6204g, h series note: *1 : unless otherwise stated, v in =v out (t)+1.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. 14 xc6204/6205 series ta = 2 5 parameter symbol conditions min. typ. max. units circuit output voltage (*3) (*7) v out(e) i out = 30ma 0.98 v out(t) 1.02 v 1 maximum output current i outmax 150 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (a series) v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v 50 80 120 supply current (b series) i dd v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v 40 70 100 a 2 standby current istby v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v - 0.01 0.10 a 2 line regulation �u v out �u v in ? v out v out(t)+ 1.0v Q v in Q 10v i out = 30ma, v ce = v in when v out Q 0.95v, 2.0v Q v in Q 10v - 0.01 0.20 %/v 1 input voltage v in - 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - ppm/ 1 output noise en i out = 10ma 300hz~50khz - 30 - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac when v out Q 1.5v, v in =2.5v+1.0vp-pac i out = 50ma, f = 10khz - 65 - db 4 current limiter ilim v in = v out(t)+ 2.0v, v ce = v in - 300 - ma 1 short-circuit current ishort v in = v out(t)+ 2.0v, v ce = v in - 50 - ma 1 ce ?high? voltage v ceh - 1.6 - v in ce ?low? voltage v cel - - - 0.25 v 1 ce ?high? current (a series) v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v 3.2 - 20.0 ce ?high? current (b series) i ceh v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v -0.10 - 0.10 ce ?low? current i cel v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v -0.10 - 0.10 a 2 electrical characteristics (continued) xc6205a, b series note: *1 : unless otherwise stated, v in =v out(t)+ 1.0v however, when v out Q 0.95v, v in =2.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. *8 : when v out(t) Q 1.45v, min. ? v out (t)- 30mv max. ? v out (t)+ 30mv 15 xc6204/6205 series ta = 2 5 parameter symbol conditions min. typ. max. units circuit output voltage (*3) (*7) v out(e) i out = 30ma 0.98 v out(t) 1.02 v 1 maximum output current i outmax 150 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (c series) v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v 50 80 120 supply current (d series) i dd v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v 40 70 100 a 2 standby current istby v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v - 0.01 0.10 a 2 line regulation �u v out �u v in ? v out v out(t)+ 1.0v Q v in Q 10v i out = 30ma, v ce = v ss when v out Q 0.95v, 2.0v Q v in Q 10v - 0.01 0.20 %/v 1 input voltage v in - 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - ppm/ 1 output noise en i out = 10ma 300hz~50khz - 30 - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac when v out Q 1.5v, v in =2.5v+1.0vp-pac i out = 50ma, f = 10khz - 65 - db 4 current limiter ilim v in = v out(t)+ 2.0v, v ce = v ss - 300 - ma 1 short-circuit current ishort v in = v out(t)+ 2.0v, v ce = v ss - 50 - ma 1 ce ?high? voltage v ceh - 1.6 - v in ce ?low? voltage v cel - - - 0.25 v 1 ce ?high? current i ceh v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v -0.10 - 0.10 ce ?low? current (c series) v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v -20.0 - -3.2 ce ?low? current (d series) i cel v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v -0.10 - 0.10 a 2 electrical characteristics (continued) xc6205c, d series note: *1 : unless otherwise stated, v in =v out(t)+ 1.0v however, when v out Q 0.95v, v in =2.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. *7 : when v out(t) Q 1.45v, min. ? v out (t)- 30mv max. ? v out (t)+ 30mv 16 xc6204/6205 series ta = 2 5 parameter symbol conditions min. typ. max. units circuit output voltage (*3) (*7) v out(e) i out = 30ma 0.98 v out(t) 1.02 v 1 maximum output current (*8) i outmax v in = e-5 e-4 ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (e series) v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = v ce = 2.0v 50 80 120 supply current (f series) i dd v in = v ce = v out(t) +1.0v when v out Q 0.95v, v in = v ce = 2.0v 40 70 100 a 2 standby current istby v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v - 0.01 0.10 a 2 line regulation �u v out �u v in ? v out v out(t)+ 1.0v Q v in Q 10v i out = 30ma, v ce = v in when v out Q 0.95v, 2.0v Q v in Q 10v - 0.01 0.20 %/v 1 input voltage v in - 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - ppm/ 1 output noise en i out = 10ma 300hz~50khz - 30 - vrms 3 ripple rejection rate psrr v in = {v out(t) +1.0}v+1.0vp-pac when v out Q 1.5v, v in =2.5v+1.0vp-pac i out = 50ma, f = 10khz - 65 - db 4 current limiter ilim v in = v out(t)+ 2.0v, v ce = v in - 380 - ma 1 short-circuit current ishort v in = v out(t)+ 2.0v, v ce = v in - 50 - ma 1 ce ?high? voltage v ceh - 1.6 - v in ce ?low? voltage v cel - - - 0.25 v 1 ce ?high? current (e series) v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v 3.2 - 20.0 ce ?high? current (f series) i ceh v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v -0.10 - 0.10 ce ?low? current i cel v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v -0.10 - 0.10 a 2 electrical characteristics (continued) xc6205e, f series note: *1 : unless otherwise stated, v in =v out(t)+ 1.0v however, when v out Q 0.95v, v in =2.0v *2 : v out(t)= specified output voltage *3 : v out (e)=effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. *7 : when v out(t) Q 1.45v, min. ? v out (t)- 30mv max. ? v out (t)+ 30mv *8 : refer to ?specification & condition by series? 17 xc6204/6205 series ta = 2 5 parameter symbol conditions min. typ. max. units circuit output voltage (*3) (*7) v out(e) i out = 30ma 0.98 v out(t) 1.02 v 1 maximum output current (*8) i outmax v in = e-5 e-4 - - ma 1 load regulation �u v out 1ma Q i out Q 100ma - 15 50 mv 1 vdif1 i out = 30ma e-1 dropout voltage (*4) vdif2 i out = 100ma e-2 mv 1 supply current (g series) v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v 50 80 120 supply current (h series) i dd v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v 40 70 100 a 2 standby current istby v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v - 0.01 0.10 a 2 line regulation �u v out �u v in ? v out v out(t)+ 1.0v Q v in Q 10v i out = 30ma, v ce = v ss when v out Q 0.95v, 2.0v Q v in Q 10v - 0.01 0.20 %/v 1 input voltage v in - 2 - 10 v - output voltage temperature characteristics �u v out �u to p r ? v out i out = 30ma -40 Q topr Q 85 - 100 - ppm/ 1 output noise en i out = 10ma 300hz~50khz - 30 - vrms 3 ripple rejection rate psrr v in = {v out(t)+ 1.0}v+1.0vp-pac when v out Q 1.5v, v in =2.5v+1.0vp-pac i out = 50ma, f = 10khz - 65 - db 4 current limiter ilim v in = v out(t)+ 2.0v, v ce = v ss - 380 - ma 1 short-circuit current ishort v in = v out(t)+ 2.0v, v ce = v ss - 50 - ma 1 ce ?high? voltage v ceh - 1.6 - v in ce ?low? voltage v cel - - - 0.25 v 1 ce ?high? current i ceh v in = v ce = v out(t)+ 1.0v when v out Q 0.95v, v in = v ce = 2.0v -0.10 - 0.10 ce ?low? current (g series) v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v -20.0 - -3.2 ce ?low? current (h series) i cel v in = v out(t)+ 1.0v, v ce = v ss when v out Q 0.95v, v in = 2.0v -0.10 - 0.10 a 2 electrical characteristics (continued) xc6205g, h series note: *1 : unless otherwise stated, v in =v out (t)+1.0v however, when v out Q 0.95v, v in =2.0v *2 : v out(t)= specified output voltage *3 : v out(e)= effective output voltage (i.e. the output voltage when ?v out (t)+ 1.0v? is provided at the v in pin while maintaining a certain i out value). *4 : vdif={v in1 (*6) -v out1 (*5) } *5 : v out1 =a voltage equal to 98% of the output voltage whenever an amply stabilized i out {v out(t)+ 1.0v} is input. *6 : v in1 =the input voltage when v out1 appears as input voltage is gradually decreased. *7 : when v out(t) Q 1.45v, min. ? v out (t)- 30mv max. ? v out (t)+ 30mv *8 : refer to ?specification & condition by series? 18 xc6204/6205 series symbol e-0 e-1 e-2 output voltage (v) (2% products) dropout voltage 1 (mv) i out =30ma dropout voltage 2 (mv) i out =100ma vdif 1 vdif 2 v out ta = 2 5 -40 Q to p r Q 85 ta = 2 5 -40 Q to p r Q 85 v out (t) min. max. typ. max. typ. max. typ. max. typ. max. 1.80 1.764 1.836 200 210 210 230 300 400 340 480 1.85 1.813 1.887 200 210 210 230 300 400 340 480 1.90 1.862 1.938 120 150 130 170 280 380 320 460 1.95 1.911 1.989 120 150 130 170 280 380 320 460 2.00 1.960 2.040 80 120 90 140 240 350 280 430 2.05 2.009 2.091 80 120 90 140 240 350 280 430 2.10 2.058 2.142 80 120 90 140 240 330 280 410 2.15 2.107 2.193 80 120 90 140 240 330 280 410 2.20 2.156 2.244 80 120 90 140 240 330 280 410 2.25 2.205 2.295 80 120 90 140 240 330 280 410 2.30 2.254 2.346 80 120 90 140 240 310 280 390 2.35 2.303 2.397 80 120 90 140 240 310 280 390 2.40 2.352 2.448 80 120 90 140 240 310 280 390 2.45 2.401 2.499 80 120 90 140 240 310 280 390 2.50 2.450 2.550 70 100 80 120 220 290 260 370 2.55 2.499 2.601 70 100 80 120 220 290 260 370 2.60 2.548 2.652 70 100 80 120 220 290 260 370 2.65 2.597 2.703 70 100 80 120 220 290 260 370 2.70 2.646 2.754 70 100 80 120 220 290 260 370 2.75 2.695 2.805 70 100 80 120 220 290 260 370 2.80 2.744 2.856 70 100 80 120 220 270 260 350 2.85 2.793 2.907 70 100 80 120 220 270 260 350 2.90 2.842 2.958 70 100 80 120 220 270 260 350 2.95 2.891 3.009 70 100 80 120 220 270 260 350 3.00 2.940 3.060 60 90 70 110 200 270 240 350 3.05 2.989 3.111 60 90 70 110 200 270 240 350 3.10 3.038 3.162 60 90 70 110 200 250 240 330 3.15 3.087 3.213 60 90 70 110 200 250 240 330 3.20 3.136 3.264 60 90 70 110 200 250 240 330 3.25 3.185 3.315 60 90 70 110 200 250 240 330 3.30 3.234 3.366 60 90 70 110 200 250 240 330 3.35 3.283 3.417 60 90 70 110 200 250 240 330 3.40 3.332 3.468 60 90 70 110 200 250 240 330 3.45 3.381 3.519 60 90 70 110 200 250 240 330 3.50 3.430 3.570 60 90 70 110 200 250 240 330 3.55 3.479 3.621 60 90 70 110 200 250 240 330 3.60 3.528 3.672 60 90 70 110 200 250 240 330 3.65 3.577 3.723 60 90 70 110 200 250 240 330 3.70 3.626 3.774 60 90 70 110 200 250 240 330 3.75 3.675 3.825 60 90 70 110 200 250 240 330 3.80 3.724 3.876 60 90 70 110 200 250 240 330 3.85 3.773 3.927 60 90 70 110 200 250 240 330 3.90 3.822 3.978 60 90 70 110 200 250 240 330 3.95 3.871 4.029 60 90 70 110 200 250 240 330 electrical characteristics (continued) voltage chart xc6204 series note: for the xc6204e, f, g, h series, see the item ?ta=25 ? only. parameter setting output voltage (v) 19 xc6204/6205 series symbol e-0 e-1 e-2 output voltage (v) (2% products) dropout voltage 1 (mv) i out =30ma dropout voltage 2 (mv) i out =100ma vdif 1 vdif 2 v out ta = 2 5 -40 Q topr Q 85 ta = 2 5 -40 Q to p r Q 85 v out(t) min. max. typ. max. typ. max. typ. max. typ. max. 4.00 3.920 4.080 60 80 70 100 180 230 220 310 4.05 3.969 4.131 60 80 70 100 180 230 220 310 4.10 4.018 4.182 60 80 70 100 180 230 220 310 4.15 4.067 4.233 60 80 70 100 180 230 220 310 4.20 4.116 4.284 60 80 70 100 180 230 220 310 4.25 4.165 4.335 60 80 70 100 180 230 220 310 4.30 4.214 4.386 60 80 70 100 180 230 220 310 4.35 4.263 4.437 60 80 70 100 180 230 220 310 4.40 4.312 4.488 60 80 70 100 180 230 220 310 4.45 4.361 4.539 60 80 70 100 180 230 220 310 4.50 4.410 4.590 60 80 70 100 180 230 220 310 4.55 4.459 4.641 60 80 70 100 180 230 220 310 4.60 4.508 4.692 60 80 70 100 180 230 220 310 4.65 4.557 4.743 60 80 70 100 180 230 220 310 4.70 4.606 4.794 60 80 70 100 180 230 220 310 4.75 4.655 4.845 60 80 70 100 180 230 220 310 4.80 4.704 4.896 60 80 70 100 180 230 220 310 4.85 4.753 4.947 60 80 70 100 180 230 220 310 4.90 4.802 4.998 60 80 70 100 180 230 220 310 4.95 4.851 5.049 60 80 70 100 180 230 220 310 5.00 4.900 5.100 50 70 60 90 160 210 200 290 5.05 4.949 5.151 50 70 60 90 160 210 200 290 5.10 4.998 5.202 50 70 60 90 160 210 200 290 5.15 5.047 5.253 50 70 60 90 160 210 200 290 5.20 5.096 5.304 50 70 60 90 160 210 200 290 5.25 5.145 5.355 50 70 60 90 160 210 200 290 5.30 5.194 5.406 50 70 60 90 160 210 200 290 5.35 5.243 5.457 50 70 60 90 160 210 200 290 5.40 5.292 5.508 50 70 60 90 160 210 200 290 5.45 5.341 5.559 50 70 60 90 160 210 200 290 5.50 5.390 5.610 50 70 60 90 160 210 200 290 5.55 5.439 5.661 50 70 60 90 160 210 200 290 5.60 5.488 5.712 50 70 60 90 160 210 200 290 5.65 5.537 5.763 50 70 60 90 160 210 200 290 5.70 5.586 5.814 50 70 60 90 160 210 200 290 5.75 5.635 5.865 50 70 60 90 160 210 200 290 5.80 5.684 5.916 50 70 60 90 160 210 200 290 5.85 5.733 5.967 50 70 60 90 160 210 200 290 5.90 5.782 6.018 50 70 60 90 160 210 200 290 5.95 5.831 6.069 50 70 60 90 160 210 200 290 6.00 5.880 6.120 50 70 60 90 160 210 200 290 electrical characteristics (continued) voltage chart (continued) xc6204 series ( continued ) note: for the xc6204e , f , g , h series , see the item ?ta=25 ? onl y . parameter setting output voltage (v) 20 xc6204/6205 series symbol e-0 symbol e-0 output voltage (v) (1% products) output voltage (v) (1% products) v out v out v out (t) min. max. v out (t) min. max. 2.95 2.921 2.980 4.55 4.505 4.596 3.00 2.970 3.030 4.60 4.554 4.646 3.05 3.020 3.081 4.65 4.604 4.697 3.10 3.069 3.131 4.70 4.653 4.747 3.15 3.119 3.182 4.75 4.703 4.798 3.20 3.168 3.232 4.80 4.752 4.848 3.25 3.218 3.283 4.85 4.802 4.899 3.30 3.267 3.333 4.90 4.851 4.949 3.35 3.317 3.384 4.95 4.901 5.000 3.40 3.366 3.434 5.00 4.950 5.050 3.45 3.416 3.485 5.05 5.000 5.101 3.50 3.465 3.535 5.10 5.049 5.151 3.55 3.515 3.586 5.15 5.099 5.202 3.60 3.564 3.636 5.20 5.148 5.252 3.65 3.614 3.687 5.25 5.198 5.303 3.70 3.663 3.737 5.30 5.247 5.353 3.75 3.713 3.788 5.35 5.297 5.404 3.80 3.762 3.838 5.40 5.346 5.454 3.85 3.812 3.889 5.45 5.396 5.505 3.90 3.861 3.939 5.50 5.445 5.555 3.95 3.911 3.990 5.55 5.495 5.606 4.00 3.960 4.040 5.60 5.544 5.656 4.05 4.010 4.091 5.65 5.594 5.707 4.10 4.059 4.141 5.70 5.643 5.757 4.15 4.109 4.192 5.75 5.693 5.808 4.20 4.158 4.242 5.80 5.742 5.858 4.25 4.208 4.293 5.85 5.792 5.909 4.30 4.257 4.343 5.90 5.841 5.959 4.35 4.307 4.394 5.95 5.891 6.010 4.40 4.356 4.444 6.00 5.940 6.060 4.45 4.405 4.494 4.50 4.455 4.545 electrical characteristics (continued) voltage chart (continued) xc6204 series, 1% products note: 1% output voltage accuracy products are availabl e for the xc6204e~h series from vout=2.95v. parameter setting output voltage (v) parameter setting output voltage (v) 21 xc6204/6205 series symbol e-0 e-1 e-2 output voltage (v) dropout voltage1 (mv) i out =30ma dropout voltage 2 (mv) i out =100ma ta = 2 5 v out vdif 1 vdif 2 v out (t) min. max. typ. max. typ. max. 0.90 0.870 0.930 1050 1100 1150 1200 0.95 0.920 0.980 1050 1100 1150 1200 1.00 0.970 1.030 1000 1100 1050 1200 1.05 1.020 1.080 1000 1100 1050 1200 1.10 1.070 1.130 900 1000 950 1100 1.15 1.120 1.180 900 1000 950 1100 1.20 1.170 1.230 800 900 850 1000 1.25 1.220 1.280 800 900 850 1000 1.30 1.270 1.330 700 800 750 900 1.35 1.320 1.380 700 800 750 900 1.40 1.370 1.430 600 700 650 800 1.45 1.420 1.480 600 700 650 800 1.50 1.470 1.530 500 600 550 700 1.55 1.519 1.581 500 600 550 700 1.60 1.568 1.632 400 500 500 600 1.65 1.617 1.683 400 500 500 600 1.70 1.666 1.734 300 400 400 500 1.75 1.715 1.785 300 400 400 500 symbol s-1 s-2 s-3 supply current ( a) product series min. max. ce ?h? current ( a) ce ?l? current ( a) xc6205a 52.0 115.0 18.0 -0.1 xc6205b 42.0 95.0 0.1 -0.1 xc6205c 52.0 115.0 0.1 -18.0 xc6205d 42.0 95.0 0.1 -0.1 symbol e-5 e-4 input voltage (v) maximum output current (ma) specified output voltage (v) v in min. 0.90 0.95 2.5 260 1.00 1.05 2.5 260 1.10 1.15 2.6 270 1.20 1.25 2.7 290 1.30 1.35 2.8 1.40 1.45 2.9 1.50 1.75 3.0 300 electrical characteristics (continued) voltage chart (continued) xc6205 series specification chart b y series specification & condition by series * v out(t)= specified output voltage parameter setting output voltage (v) 22 xc6204/6205 series v out 0.9v ~ 1.2v 1.25v ~ 1.75v cl 4.7 f 2.2 f typical application circuit < low esr capacitors > with the xc6204/05 series, a stable output voltage is achi evable even if used with a low esr capacitor as a phase compensation circuit is built-in. in order to ensure the effectiveness of the phase compensation, we suggest that an output capacitor (c l ) is connected as close as possible to the output pin (v out ) and the v ss pin. please use an output capacito r with a capacitance value of at least 1 f. also, please connect an input capacitor (c in ) of 0.1 f between the v in pin and the v ss pin in order to ensure a stable power input. operational explanation output voltage control with the xc6204/6205 series: the voltage divided by resistors r1 & r2 is compared with the internal reference voltage by the error amplifier. the p-channel mosfet, which is connected to the v out pin, is then driven by the subsequent output si gnal. the output voltage at the v out pin is controlled & stabilized by a system of negative feedback. the current limit circuit and short prot ect circuit operate in relation to the level of output current. further, the ic's internal circuitry can be shutdown via the ce pin's signal. recommended output capacitor values 23 xc6204/6205 series 24 xc6204/6205 series notes on use circuit 1 1. please use this ic within the stated absolute maximum ratings. the ic is liable to malfunction should the ratings be exceede d. 2. where wiring impedance is high, operat ions may become unstable due to noise and/or phase lag depending on output current. please strengthen v in and v ss wiring in particular. 3. please wire the input capacitor (c in ) and the output capacitor (c l ) as close to the ic as possible. test circuits circuit 2 circuit 3 circuit 4 25 xc6204/6205 series typical performance characteristics xc6204 (1) output voltage vs. output current 26 xc6204/6205 series typical performance characteristics (continued) xc6204 (continued) (1) output voltage vs. out put current (continued) (2) output voltage vs. input voltage 27 xc6204/6205 series (2) output voltage vs. i nput voltage (continued) typical performance characteristics (continued) xc6204 (continued) (3) dropout voltage vs. output current 28 xc6204/6205 series (3) dropout voltage vs. output current (continued) (4) supply current vs. input voltage typical performance characteristics (continued) xc6204 (continued) * since the operation of this ic is only guaranteed from v in =2.0v and above, it is essential that when using with applications where v out =2.0v or less, the difference between v in and v out be at least equal to 2v ? v out(t). 29 xc6204/6205 series (5) output voltage vs. ambient temperature (6) supply current vs. ambient temperature typical performance characteristics (continued) xc6204 (continued) 30 xc6204/6205 series (7) ce pin threshold voltage vs. ambient temperature (8) input transient response typical performance characteristics (continued) xc6204 (continued) (6) supply current vs. ambi ent temperature (continued) 31 xc6204/6205 series typical performance characteristics (continued) xc6204 (continued) (8) input transient response (continued) 32 xc6204/6205 series xc6204x502 2 3 4 5 6 7 8 time (40 sec/div.) 4.96 4.98 5.00 5.02 5.04 5.06 5.08 iout=1ma, tr=tf=5usec cl=1.0ufceramic) output voltage input voltage input voltage: vin (v) output voltage: vout (v) (8) input transient response (continued) typical performance characteristics (continued) xc6204 (continued) (9) load transient response xc6204x502 2 3 4 5 6 7 8 time (40 sec/div.) 4.96 4.98 5.00 5.02 5.04 5.06 5.08 iout=30ma, tr=tf=5usec cl=1.0uf(ceramic) output voltage input voltage output voltage: vout (v) input voltage: vin (v) xc6204x502 2 3 4 5 6 7 8 time (40 sec/div.) 4.96 4.98 5.00 5.02 5.04 5.06 5.08 iout=100ma, tr=tf=5usec cl=1.0ufceramic) output voltage input voltge output voltage: vout (v) input voltage: vin (v) 33 xc6204/6205 series (9) load transient response (continued) typical performance characteristics (continued) xc6204 (continued) 34 xc6204/6205 series (9) load transient response (continued) typical performance characteristics (continued) xc6204 (continued) 35 xc6204/6205 series (9) load transient response (continued) typical performance characteristics (continued) xc6204 (continued) 36 xc6204/6205 series (9) load transient response (continued) typical performance characteristics (continued) xc6204 (continued) (10) turn-on response time 37 xc6204/6205 series (10) turn-on response time typical performance characteristics (continued) xc6204 (continued) 38 xc6204/6205 series (10) turn-on response time (continued) typical performance characteristics (continued) xc6204 (continued) (11) enable response time (these characteristics will not be affe cted by the nature of the ce pin's logic) 39 xc6204/6205 series (11) enable response time (continued) (these characteristics will not be affe cted by the nature of the ce pin's logic) typical performance characteristics (continued) xc6204 (continued) 40 xc6204/6205 series (11) enable response time (continued) (these characteristics will not be affected by the nature of the ce pin's logic) typical performance characteristics (continued) xc6204 (continued) (12) ripple rejection rate 41 xc6204/6205 series (12) ripple rejection rate (continued) (13) output noise density typical performance characteristics (continued) xc6204 (continued) 42 xc6204/6205 series xc6205 (1) output voltage vs. output current (2) output voltage vs. output current (current limit) typical performance characteristics (continued) 43 xc6204/6205 series (3) output voltage vs. input voltage typical performance characteristics (continued) xc6205 (continued) xc6205x092 xc6205x092 xc6205x152 xc6205x152 xc6205x152 xc6205x152 (4) dropout voltage vs. output current 44 xc6204/6205 series (5) supply current vs. input voltage typical performance characteristics (continued) xc6205 (continued) (6) output voltage vs. ambient temperature 45 xc6204/6205 series (7) supply current vs. ambient temperature typical performance characteristics (continued) xc6205 (continued) (8) ce pin threshold voltage vs. ambient temperature xc6205x092 xc6205x152 xc6205xxx2 (9) load transient response 46 xc6204/6205 series (9) load transient response (continued) (10) input transient response 1 typical performance characteristics (continued) xc6205 (continued) xc6205x092 xc6205x092 (11) input transient response 2 47 xc6204/6205 series (11) input transient response 2 (continued) (13) ripple rejection rate (12) enable response time typical performance characteristics (continued) xc6205 (continued) xc6205x152 xc6205x152 xc6205b092 xc6205x152 xc6205x092 xc6205x152 |
Price & Availability of XC6204B332
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |