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1/25 xc6209/6212 series high speed ldo regulator, low esr cap. compatible, output on/off control general description the xc6209/xc6212 series are highly precise, low noise, positive voltage ldo regulators manufactured using cmos processes. the series achieves high ripple rejection and low drop out and consists of a voltage reference, an error amplifier, a current limiter and a phase compensation circuit plus a driver transistor. output voltage is selectable in 50mv increments within a range of 0.9v ~ 6.0v. the series is also compatible with low esr ceramic capacitors which give added output stability. this stabili ty can be maintained even during load fluctuations due to the excellent transient response of the series . the current limiter's foldback circuit also operates as a short protect for the out put current limiter and the output pin. the ce function enables t he output to be turned off, resulting in greatly reduced power consumption. etr0306-003 applications mobile phones, cordless phones wireless communication equipment portable games cameras, video recorders portable av equipment reference voltage battery powered equipment typical application circuit typical performance characteristics features maximum output current : 150ma (300ma=xc6209e to h types) dropout voltage : 60mv @ 30ma 200mv @ 100ma minimum operating voltage : 2.0~10.0v output voltage range : 0.9v ~ 6.0v (50mv increment) highly accurate : 2% (v out >1.5v) 30mv (v out Q 1.5v) low power consumption : 25 a (typ.) stand-by current : less than 0.1 a (typ.) highly ripple rejection : 70db (10khz) operating temperature range : -40 ~ +85 low esr capacitor : cera mic capacitor compatible process : cmos built-in circuit : current limit circuit ultra small packages : sot-25 usp-6b (xc6209) sot-89-5 (xc6209)
2/25 xc6209/6212 series type ce operational state h on a, b, e, f series l off h off c, d, g, h series l on h=high level l=low level pin configuration [ xc6209 ] [ xc6212 ] *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 heat release. vss 5 nc 4 ce 6 1 vin 2 nc 3 vout usp-6b ( bottom view ) pin number xc6209 xc6212 sot-25 sot-89-5 usp-6b sot-25 pin name function 1 4 1 3 v in input 2 2 5 2 v ss ground 3 3 6 4 ce on/off control 4 1 2,4 5 nc no connection 5 5 3 1 v out output pin assignment functions
3/25 xc6209/6212 series designator description symbol description a/e : high active (pull-down resistor built-in, semi-custom) b/f : high active (no pull-down resistor built-in, standard) c/g : low active (pull-up re sistor built-in, semi-custom) (*1) type of regulator ce pin logic d/h : low active (no pull-up resistor built-in, standard) output voltage 09~60 : e.g. 20:2.0v, 30:3.0v, 2 : 100mv increments, 2% accuracy (*2) e.g. =2, =8, =2 2.80v, 2% 1 : 100mv increments, 1% accuracy (*2) e.g. =2, =8, =1 2.80v, 1% a : 50mv increments, 2% accuracy (*2) e.g. =2, =8, =a 2.85v, 2% output voltage accuracy b : 50mv increments, 1% accuracy (*2) e.g. =2, =8, =b 2.85v, 1% m : sot-25 (sot-23-5) p : sot-89-5 (for xc6209 series only) packages d : usp-6b (for xc6209 series only) r : embossed tape, standard feed device orientation l : embossed tape, reverse feed 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+ 2m pull-down resistor built-in (semi-custom) low active + no pull-up resistor built-in (semi-custom) low active + 2m pull-up resistor built-in (semi-custom) note: *with the pull-up resistor or pull-down resistor built-i n types, the supply current during operation will increase by v in / 2m (typ.). ordering information (*1) maximum output current of e to h series depend on the setting voltage. (*2) within 30mv (v out Q 1.5v) xc6209/12 ?????
4/25 xc6209/6212 series *note: within the range of i out =pd / (v in ? v out ) parameter symbol ratings units input voltage v in 12.0 output current i out 500 * ma output voltage v out v ss - 0.3 ~ v in + 0.3 ce input voltage v ce v ss - 0.3 ~ v in + 0.3 sot-25 250 sot-89-5 500 power dissipation usp-6b pd 100 mw operating temperature range topr -40 ~ +85 storage temperature range tstg -55 ~ +125 block diagram a bsolute maximum ratings ta = 2 5
5/25 xc6209/6212 series parameter symbol conditions min. typ. max. units circuit 2% accuracy (*7) 0.98 v out(t) 1.02 output voltage v out(e) i out =30ma 1% accuracy (*8) 0.99 v out(t) 1.01 v 1 maximum output current i outmax 150 - - ma 1 load regulation v out 1ma< i out < 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 (v out < 0.95v)=(v in =v ce =2.0v) - 28 55 supply current (b series) i dd v in =v ce =v out(t)+ 1.0v (v out < 0.95v)=(v in =v ce =2.0v) 25 50 a 2 standby current istby v in =v out(t)+ 1.0v, v ce =v ss (v out < 0.95v)=(v in =2.0v) - 0.01 0.10 a 2 line regulation v out v in ? v out v out(t)+ 1.0v< v in < 10v (v out < 0.95v)=(2.0v< v in < 10v) i out =30ma (v out < 1.75v)=(i out =10ma) - 0.01 0.20 /v 1 input voltage v in 2 - 10 v - output voltage temperature characteristics v out topr ? v out i out =30ma -40 < topr< 85 - 100 - ppm / 1 ripple rejection rate psrr v in ={v out(t)+ 1.0}v+1.0vp-pac, (v out < 1.5v)=(v in =2.5v+1. 0vp-pac ) , i out =50ma, f=10khz - 70 - db 4 current limiter i lim v in =v out(t)+ 1.0v, v ce =v in , ( v out< 1.75v )=( v in= v out(t)+ 2.0v ) - 300 - ma 1 short-circuit current ishort v in =v out(t)+ 1.0v, v ce =v in , ( v out< 1.75v )=( v in= v out(t)+ 2.0v ) - 50 - ma 1 ce "high" level voltage v ceh 1.6 - v in v 1 ce "low" level voltage v cel - - 0.25 v 2 ce "high" level current (a series) i ceh v in =v ce =v out(t)+ 1.0v (v out < 0.95v)=(v in =v ce =2.0v) 0.60 - 5.0 a 2 ce "high" level current (b series) i ceh v in =v ce =v out(t)+ 1.0v (v out < 0.95v)=(v in =v ce =2.0v) -0.10 0.10 ce "low" level current i cel v in = vout(t)+ 1.0v, v ce =v ss (v out< 0.95v)=(v in =2.0v) -0.10 - 0.10 a 2 electrical characteristics note : * 1: unless otherwise stated, v in =v out(t)+ 1.0v. if v out is less than 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: if v out(t) is less than 1.45v, v out(t) -30mv (min.), v out(t) + 30mv (max.) * 8: only for the v out(t) more than 3.0v products. ta = 2 5 xc6209/6212a, b series
6/25 xc6209/6212 series parameter symbol conditions min. typ. max. units circuit 2% accuracy (*7) 0.98 v out(t) 1.02 output voltage v out(e) i out =30ma 1% accuracy (*8) 0.99 v out(t) 1.01 v 1 maximum output current i outmax v in =e-4 e-3 - - ma 1 load regulation v out 1ma< i out < 100ma - 15 50 mv 1 load regulation 2 v out2 1ma< i out < 300ma - - 100 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 - 28 55 supply current (f series) i dd v in =v ce =v out(t)+ 1.0v 25 50 a 2 standby current istby v in =v out(t)+ 1.0v, v ce =v ss - 0.01 0.10 a 2 line regulation v out v in ? v out v out(t)+ 1.0v< v in < 10v i out =30ma (v out < 1.75v)=(i out =10ma) - 0.01 0.20 /v 1 input voltage v in 2 - 10 v - output voltage temperature characteristics v out topr ? v out i out =30ma -40 < topr< 85 - 100 - ppm / 1 ripple rejection rate psrr v in ={v out(t)+ 1.0}v+1. 0vp-pac, ( v out< 1.5v )= v in =2.5v+1. 0vp-pac, i out =50ma, f=10khz - 70 - db 4 current limiter i lim v in =v out(t)+ 1.0v, v ce =v in , ( v out< 1.75v )= v in= v out(t)+ 2.0v - 380 - ma 1 short-circuit current ishort v in = v out(t)+ 1.0v, v ce =v in , ( v out< 1.75v )= v in= v out(t)+ 2.0v - 50 - ma 1 ce "high" level voltage v ceh 1.6 - v in v 1 ce "low" level voltage v cel - - 0.25 v 2 ce "high" level current (e series) i ceh v in =v ce =v out(t)+ 1.0v 0.60 - 5.0 a 2 ce "high" level current (f series) i ceh v in =v ce =v out(t)+ 1.0v -0.10 0.10 a 2 ce "low" level current i cel v in =v out(t)+ 1.0v, v ce =v ss -0.10 - 0.10 a 2 electrical characteristics (continued) note : * 1: unless otherwise stated, v in =v out(t)+ 1.0v. if v out is less than 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: if v out(t) is less than 1.45v, v out(t) -30mv (min.), v out(t) + 30mv (max.) * 8: only for the v out(t) more than 3.0v products. ta = 2 5 xc6209/6212e,f series
7/25 xc6209/6212 series symbol e-0 e-1 e-2 output voltage (v) (2%) dropout voltage 1 (mv) (i out =30ma) dropout voltage 2 (mv) (i out =100ma) v out vdif1 vdif2 vdif1 vdif2 v out(t) min max typ max typ max 0.90 0.870 0.930 0.95 0.920 0.980 1100 1110 1150 1200 1.00 0.970 1.030 1.05 1.020 1.080 1000 1010 1050 1100 1.10 1.070 1.130 1.15 1.120 1.180 900 910 950 1000 1.20 1.170 1.230 1.25 1.220 1.280 800 810 850 900 1.30 1.270 1.330 1.35 1.320 1.380 700 710 750 800 1.40 1.370 1.430 1.45 1.420 1.480 600 610 650 700 1.50 1.470 1.530 1.55 1.519 1.581 500 510 550 600 1.60 1.568 1.632 1.65 1.617 1.683 400 410 500 550 1.70 1.666 1.734 1.75 1.715 1.785 300 310 400 450 1.80 1.764 1.836 1.85 1.813 1.887 200 210 300 400 1.90 1.862 1.938 1.95 1.911 1.989 120 150 280 380 2.00 1.960 2.040 2.05 2.009 2.091 350 2.10 2.058 2.142 2.15 2.107 2.193 2.20 2.156 2.244 2.25 2.205 2.295 330 2.30 2.254 2.346 2.35 2.303 2.397 2.40 2.352 2.448 2.45 2.401 2.499 80 120 240 310 2.50 2.450 2.550 2.55 2.499 2.601 2.60 2.548 2.652 2.65 2.597 2.703 2.70 2.646 2.754 2.75 2695 2.805 290 2.80 2.744 2.856 2.85 2.793 2.907 2.90 2.842 2.958 2.95 2.891 3.009 70 100 220 3.00 2.940 3.060 3.05 2.989 3.111 270 3.10 3.038 3.162 3.15 3.087 3.213 3.20 3.136 3.264 3.25 3.185 3.315 3.30 3.234 3.366 3.35 3.283 3.417 3.40 3.332 3.468 3.45 3.381 3.519 3.50 3.430 3.570 3.55 3.479 3.621 60 90 200 250 dropout voltage voltage accuracy 2% products electrical characteristics (continued) ta = 2 5 o c setting output voltage parameter
8/25 xc6209/6212 series symbol e-0 e-1 e-2 output voltage (v) (2%) dropout voltage 1 (mv) (i out =30ma) dropout voltage 2 (mv) (i out =100ma) v out vdif1 vdif2 vdif1 vdif2 v out(t) min max typ max typ max 3.60 3.528 3.672 3.65 3.577 3.723 3.70 3.626 3.774 3.75 3.675 3.825 3.80 3.724 3.876 3.85 3.773 3.927 3.90 3.822 3.978 3.95 3.871 4.029 90 200 250 4.00 3.920 4.080 4.05 3.969 4.131 4.10 4.018 4.182 4.15 4.067 4.233 4.20 4.116 4.284 4.25 4.165 4.335 4.30 4.214 4.386 4.35 4.263 4.437 4.40 4.312 4.488 4.45 4.361 4.539 4.50 4.410 4.590 4.55 4.459 4.641 4.60 4.508 4.692 4.65 4.557 4.743 4.70 4.606 4.794 4.75 4.655 4.845 4.80 4.704 4.896 4.85 4.753 4.947 4.90 4.802 4.998 4.95 4.851 5.049 60 80 180 230 5.00 4.900 5.100 5.05 4.949 5.151 5.10 4.998 5.202 5.15 5.047 5.253 5.20 5.096 5.304 5.25 5.145 5.355 5.30 5.194 5.406 5.35 5.243 5.457 5.40 5.292 5.508 5.45 5.341 5.559 5.50 5.390 5.610 5.55 5.439 5.661 5.60 5.488 5.712 5.65 5.537 5.763 5.70 5.586 5.814 5.75 5.635 5.865 5.80 5.684 5.916 5.85 5.733 5.967 5.90 5.782 6.018 5.95 5.831 6.069 6.00 5.880 6.120 50 70 160 210 *the input voltage 2.0v (min.) is needed to operate the se ries. when the output voltage is less than 2.0v, 2.0v-v out(t) of dropout voltage is needed at minimum. setting output voltage parameter dropout voltage (continued) volta g e accurac y 2% p roducts electrical characteristics (continued) ta = 2 5 o c
9/25 xc6209/6212 series symbol e-0 symbol e-0 output voltage (v) (1%) output voltage (v) (1%) v out v out v out(t) min max v out(t) min max 3.00 2.970 3.030 4.55 4.505 4.596 3.05 3.020 3.081 4.60 4.554 4.646 3.10 3.069 3.131 4.65 4.604 4.697 3.15 3.119 3.182 4.70 4.653 4.747 3.20 3.168 3.232 4.75 4.703 4.798 3.25 3.218 3.283 4.80 4.752 4.848 3.30 3.267 3.333 4.85 4.802 4.899 3.35 3.317 3.384 4.90 4.851 4.949 3.40 3.366 3.434 4.95 4.901 5.000 3.45 3.416 3.485 5.00 4.950 5.050 3.50 3.465 3.535 5.05 4.000 5.101 3.55 3.515 3.586 5.10 4.049 5.151 3.60 3.564 3.636 5.15 4.099 5.202 3.65 3.614 3.687 5.20 4.148 5.252 3.70 3.663 3.737 5.25 5.198 5.303 3.75 3.713 3.788 5.30 5.247 5.353 3.80 3.762 3.838 5.35 5.297 5.404 3.85 3.812 3.889 5.40 5.346 5.454 3.90 3.861 3.939 5.45 5.396 5.505 3.95 3.911 3.990 5.50 5.445 5.555 4.00 3.960 4.040 5.55 5.495 5.606 4.05 4.010 4.091 5.60 5.544 5.656 4.10 4.059 4.141 5.65 5.594 5.707 4.15 4.109 4.192 5.70 5.643 5.757 4.20 4.158 4.242 5.75 5.963 5.808 4.25 4.208 4.293 5.80 5.742 5.858 4.30 4.257 4.343 5.85 5.792 5.909 4.35 4.307 4.394 5.90 5.841 5.959 4.40 4.356 4.444 5.95 5.891 6.010 4.45 4.405 4.494 6.00 5.940 6.060 4.50 4.455 4.545 symbol e-4 e-3 . input voltage (v) maximum output current (ma) setting 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 ~ 1.95 3.0 2.00 ~ 6.00 v out(t) + 1.0 300 * v out(t): setting output voltage value output voltage voltage accuracy 1% products * common values for a to h series, but available only for v out R 2.9v products parameter setting output voltage parameter setting output voltage conditions conditions, spec electrical characteristics (continued)
10/25 xc6209/6212 series 1 please use this ic within the stated absolute maximum ratings. the ic is liable to malfunction should the ratings be exceeded. 2 where wiring impedance is high, operations may becom e 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. operational explanation output voltage control with the xc6209/6212 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 signal. the output voltage at the v out pin is controlled & stabilized by a system of negative feedback. the current limit circuit and short pr otect 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. with the xc6209/6212 series, a stable output voltage is achiev able even if used with low esr capacitors 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 capacitor 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. stable phase compensation may not be ensured if the capacitor runs out capacitance when depending on bias and temperature. in case the capacitor depends on the bi as and temperature, please make sure the capacitor can ensure the actual capacitance. the xc6209/6212 series includes a combination of a fixed cu rrent limiter circuit & a foldback circuit, which aid the operations of the current limiter and circuit protection. when the load curr ent reaches the current limit level, the fixed current limiter circuit operates and output voltage drops. as a re sult of this drop in output voltage, the foldback circuit operates, output voltage drops further and output current decreases. when the ou tput pin is short ed, a current of about 50ma flows. the ic's internal circuitry can be shutdown via the signal from the ce pin with the xc6209/6212 series. in shutdown mode, output at the v out pin will be pulled down to the v ss level via r1 & r2. the operational logic of the ic's ce pin is selectable (please refer to the selection guide). note that as the standard xc6209b type is ' high active/no pull down', operations will become unstable with the ce pin open. although the ce pin is equal to an inverter input with cmos hysteresis, with either the pull-up or pull-down options , the ce pin input current will increase when the ic?s in operation. we suggest that you use this ic with either a vin voltage or a v ss voltage input at the ce pin. if this ic is used with the correct specifications fo r the ce pin, the ic will operate normally. however, supply current may increase as a result of through current in the ic's internal circuitry notes on use
11/25 xc6209/6212 series test circuits circuit circuit circuit circuit
12/25 xc6209/6212 series typical performance characteristics (1) output voltage vs. output current xc6209/12 b302 xc6209/12 b302 xc6209/12 f302 xc6209/12 f302 xc6209/12 b122 xc6209/12 b122
13/25 xc6209/6212 series typical performance characteristics (continued) (1) output voltage vs. out put current (continued) xc6209/12 f122 xc6209/12 f122 xc6209/12 f302 xc6209/12 f302 xc6209/12 f122 xc6209/12 f122 (2) output voltage vs. input voltage
14/25 xc6209/6212 series typical performance characteristics (continued) xc6209/12 b302 xc6209/12 f302 (3) dropout voltage vs. output current xc6209/12 b122 xc6209/12 f122 xc6209/12 f302 xc6209/12 f122 (4) supply current vs. input voltage supply current iss ( a) su pp l y current iss (
15/25 xc6209/6212 series typical performance characteristics (continued) (5) output voltage vs. ambient temperature (6) supply current vs. ambient temperature (7) p-ch driver transistor characteristics supply current iss ( a) supply current iss ( a) ambient temperature topr ( ) ambient temperature topr ( ) ambient temperature topr ( ) ambient temperature topr ( )
16/25 xc6209/6212 series typical performance characteristics (continued) (8) input transient response
17/25 xc6209/6212 series typical performance characteristics (continued) (9) load transient response
18/25 xc6209/6212 series typical performance characteristics (continued) (9) load transient response (continued)
19/25 xc6209/6212 series typical performance characteristics (continued) (10) ripple rejection rate
20/25 xc6209/6212 series packaging information sot-25 usp-6b sot-89-5
21/25 xc6209/6212 series recommended mount pattern usp-6b recommended metal mask design usp-6b
22/25 xc6209/6212 series 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 0.9 3.9 0.95 3.95 s 2.4 5.4 2.45 5.45 9 1.0 4.0 1.05 4.05 t 2.5 5.5 2.55 5.55 a 1.1 4.1 1.15 4.15 u 2.6 5.6 2.65 5.65 b 1.2 4.2 1.25 4.25 v 2.7 5.7 2.75 5.75 c 1.3 4.3 1.35 4.35 x 2.8 5.8 2.85 5.85 d 1.4 4.4 1.45 4.45 y 2.9 5.9 2.95 5.95 e 1.5 4.5 1.55 4.55 z 3.0 6.0 3.05 - sot-25 & sot-89-5 represents product series mark product series 9 xc6209xxxxxx represents type of regulator mark v out 100mv increments v out 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 xc6209axxxxx x b f m xc6209bxxxxx y c h n xc6209cxxxxx z d k p xc6209dxxxxx v a e l xc6209exxxxx x b f m xc6209fxxxxx y c h n xc6209gxxxxx z d k p xc6209hxxxxx represents integer of the output voltage represents production lot number 0 to 9, a to z reversed character of 0 to 9 and a to z repeated 123 54
23/25 xc6209/6212 series mark product series 0 9 xc6209axxxdx mark type product series a ce pin, high active pull-down resistor built in xc6209a xxxdx b ce pin, high active no pull-down resistor built in xc6209b xxxdx c ce pin, low active pull-up resistor built in xc6209c xxxdx d ce pin, low active no pull-up resistor built in xc6209d xxxdx mark voltage (v) product series 3 3.x xc6209 x 3 xxdx 5 5.x xc6209 x 5 xxdx mark voltage (v) product series mark voltage (v) product series 0 x.0 xc6209xx0xdx a x.05 xc6209xx0adx 1 x.1 xc6209xx1xdx b x.15 xc6209xx1adx 2 x.2 xc6209xx2xdx c x.25 xc6209xx2adx 3 x.3 xc6209xx3xdx d x.35 xc6209xx3adx 4 x.4 xc6209xx4xdx e x.45 xc6209xx4adx 5 x.5 xc6209xx5xdx f x.55 xc6209xx5adx 6 x.6 xc6209xx6xdx h x.65 xc6209xx6adx 7 x.7 xc6209xx7xdx k x.75 xc6209xx7adx 8 x.8 xc6209xx8xdx l x.85 xc6209xx8adx 9 x.9 xc6209xx9xdx m x.95 xc6209xx9adx usp-6b , represents product series represents type of regulator represents integer of 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) usp-6b (top view)
24/25 xc6209/6212 series mark product series 9 xc6212xxxmx mark vout 100mv increments vout 50mv increments v out =0.1~3.0v v out =3.1~6.0v v out =0.15~3.05v v out =3.15~6.05v product series v a e l xc6209axxx mx x b f m xc6209bxxx mx y c h n xc6209cxxx mx z d k p xc6209dxxx mx mark output voltage (v) mark output voltage (v) 0 - 3.10 - 3.15 f 1.60 4.60 1.65 4.65 1 - 3.20 - 3.25 h 1.70 4.70 1.75 4.75 2 - 3.30 - 3.35 k 1.80 4.80 1.85 4.85 3 - 3.40 - 3.45 l 1.90 4.90 1.95 4.95 4 - 3.50 - 3.55 m 2.00 5.00 2.05 5.05 5 - 3.60 - 3.65 n 2.10 5.10 2.15 5.15 6 - 3.70 - .3.75 p 2.20 5.20 2.25 5.25 7 - 3.80 - 3.85 r 2.30 5.30 2.35 5.35 8 0.90 3.90 0.95 3.95 s 2.40 5.40 2.45 5.45 9 1.00 4.00 1.05 4.05 t 2.50 5.50 2.55 5.55 a 1.10 4.10 1.15 4.15 u 2.60 5.60 2.65 5.65 b 1.20 4.20 1.25 4.25 v 2.70 5.70 2.75 5.75 c 1.30 4.30 1.35 4.35 x 2.80 5.80 2.85 5.85 d 1.40 4.40 1.45 4.45 y 2.90 5.90 2.95 5.95 e 1.50 4.50 1.55 4.55 z 3.00 6.00 3.05 - [xc6212] represents product series 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) sot-25 (sot-23-5) (top view) represents type of regulator represents output voltage marking rule ( continued ) sot-25 (sot-23-5) 123 54
25/25 xc6209/6212 series 1. the products and product specifications cont ained herein are subject to change without notice to improve performance characteristic s. consult us, or our representatives before use, to confirm that the inform ation in this catalog is up to date. 2. we assume no responsibility for any infri ngement of patents, pat ent rights, or other rights arising from the use of any info rmation and circuitry in this catalog. 3. please ensure suitable shipping controls (including fail-safe designs and aging protection) are in force for equipment employing products listed in this catalog. 4. the products in this catalog are not developed, designed, or approved for use with such equipment whose failure of malfunction ca n be reasonably expected to directly endanger the life of, or cause significant injury to, the user. (e.g. atomic energy; aerospace; transpor t; combustion and associated safety equipment thereof.) 5. please use the products listed in this catalog within the specified ranges. should you wish to use the products under conditions exceeding the specifications, please consult us or our representatives. 6. we assume no responsibility for damage or loss due to abnormal use. 7. a ll rights reserved. no part of this cata log may be copied or reproduced without the prior permission of torex semiconductor ltd.

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