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? 2002 microchip technology inc. ds21662b-page 1 features ? extremely low supply current: 80 a(max) very low dropout voltage: 140mv (typ) @ 150ma high output voltage accuracy: 0.4% (typ) standard or custom output voltages power-saving shutdown mode reference bypass input for ultra low-noise operation fast shutdown response time: 60 sec (typ) over-current protection space-saving 5-pin sot-23a package pin compatible upgrades for bipolar regulators applications battery operated systems portable computers medical instruments instrumentation cellular / gsm / phs phones linear post-regulator for smps pagers device selection table package type general description the tc2014, tc2015 and tc2185 are high accuracy (typically 0.4%) cmos upgrades for older (bipolar) low drop-out regulators, such as the lp2980. total sup- ply current is typically 55 a; 20 to 60 times lower than in bipolar regulators. the devices? key features include ultra low noise oper- ation (plus bypass reference), very low dropout voltage ? typically 45mv for the tc2014, 90mv for the tc2015, and 140mv for the tc2185, at full load ? and fast response to step changes in load. supply current is reducedto0.5 a (max) and v out falls to zero when the shutdown input is low. the devices also incorporate over-current protection. the tc2014, tc2015, and tc2185 are stable with an output capacitor of only 1 f and have a maximum out- put current of 50ma, 100ma and 150ma, respectively. for higher output versions, see the tc1107, tc1108, and tc1173 (i out = 300ma) data sheets. part number package junction temperature range tc2014-xxvct 5-pin sot-23a * ? 40c to +125c tc2015-xxvct 5-pin sot-23a * ? 40c to +125c tc2185-xxvct 5-pin sot-23a * ? 40c to +125c note 1: *5-pin sot-23a is equivalent to eiaj sc-74a. 2: xx indicates output voltages. available output voltages: 1.8, 2.7, 2.8, 2.85, 3.0, 3.3 other output voltages are available. please contact microchip technology inc. for details. tc201 4 tc201 5 tc218 5 1 3 4 5 2 bypass gnd v out v in shdn top view 5-pin sot-23a tc2014/2015/2185 50ma, 100ma, 150ma cmos ldos with shutdown and reference bypass
tc2014/2015/2185 ds21662b-page 2 ? 2002 microchip technology inc. typical application related literature application notes: 765, 766 and 776 article: "microchip's cmos ldos exhibit excel- lent stability while offering the advantages of low-value ceramic capacitors" 1 f 470pf reference bypass cap (optional) shutdown control (from power control lo g ic) tc2014 tc2015 tc2185 v in 1 2 34 5 v in v out bypass shdn gnd v out 1 f
? 2002 microchip technology inc. ds21662b-page 3 tc2014/2015/2185 1.0 electrical characteristics absolute maximum ratings* input voltage ......................................................... 6.5v output voltage ............................. (? 0.3) to (v in +0.3) operating temperature ................ ? 40c < t j <125c storage temperature ....................... ? 65c to +150c maximum voltage on any pin ...... v in +0.3vto?0.3v *stresses beyond those listed under ?absolute maxi- mum ratings? may cause permanent damage to the device. these are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. tc2014/2015/2185 electrical specifications electrical characteristics: v in =v r +1v,i l =100 a, c l =3.3 f, shdn >v ih ,t a = 25c, unless otherwise specified. boldface type specifications apply for junction temperature of -40c to +125c. symbol parameter min typ max units test conditions v in input operating voltage 2.7 ? 6.0 v note 1 i outmax maximum output current 50 100 150 ? ? ? ? ? ? ma tc2014 tc2015 tc2185 v out output voltage v r -2.0% v r 0.4% v r +2.0% v note2 tcv out v out temperature coefficient ? ? 20 40 ? ? ppm/c note 3 ? v out / ? v in line regulation ? 0.05 0.5 % (v r +1v)< v in < 6v ? v out /v out load regulation -1.5 -2.5 0.5 0.5 0.5 0.5 % tc2014;tc2015 i l =0.1matoi outmax tc2185 i l = 0.1ma to i outmax (note 4) v in -v out dropout voltage ? ? ? ? 2 45 90 140 ? 70 140 210 mv (note 5) i l =100 a i l =50 a tc2015; tc2185 i l =100 a tc2185 i l =150 a i in supply current ? 55 80 a shdn =v ih ,i l =0 i insd shutdown supply current ? 0.05 0.5 a shdn =0v psrr power supply rejection ratio ?55?dbf re 1khz(withbypass) i outsc output short circuit current ? 160 300 ma v out =0v ? v out / ? p d thermal regulation ? 0.04 ? v/w note 6, note 7 en output noise ? 200 ? nv/ hz i l =i outmax ,f=10khz 470pf from bypass to gnd t r response time, (note 8) (from shutdown mode) ?60?secv in =4v,i l =30ma, c in =1f,c out =10f note 1: the minimum v in has to meet two conditions: v in =2.7vandv in =v r +v dropout . 2: v r is the regulator output voltage setting. for example: v r = 1. 8v, 2. 7v, 2. 8v, 2. 85 v, 3 .0 v, 3 .3 v. 3: tcv out =(v outmax -v outmin )x10 -6 v out x ? t 4: regulation is measured at a constant junction temperature using low duty cycle pulse testing. load regulation is tested over a load range from 1.0ma to the maximum specified output current. changes in output voltage due to heating effects are covered by the thermal regulation specification. 5: dropout voltage is defined as the input to output differential at which the output voltage drops 2% below its nominal value at a 1v differential. 6: thermal regulation is defined as the change in output voltage at a time t after a change in power dissipation is applied, excluding load or line regulation effects. specifications are for a current pulse equal to i max at v in = 6v for t = 10msec. 7: the maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junction tem- perature and the thermal resistance from junction-to-air (i.e. t a ,t j , ja ). 8: time required for v out to reach 95% of v r (output voltage setting), after v shdn is switched from 0 to v in .
tc2014/2015/2185 ds21662b-page 4 ? 2002 microchip technology inc. 2.0 pin descriptions the descriptions of the pins are described in table 2-1. table 2-1: pin function table shdn input v ih shdn input high threshold 60 ? ? %v in v in = 2.5v to 6.0v v il shdn input low threshold ? ? 15 %v in v in = 2.5v to 6.0v tc2014/2015/2185 electrical specifications (continued) electrical characteristics: v in =v r +1v,i l =100 a, c l =3.3 f, shdn >v ih ,t a = 25c, unless otherwise specified. boldface type specifications apply for junction temperature of -40c to +125c. symbol parameter min typ max units test conditions note 1: the minimum v in has to meet two conditions: v in =2.7vandv in =v r +v dropout . 2: v r is the regulator output voltage setting. for example: v r = 1.8v, 2.7v, 2.8v, 2.85v, 3.0v, 3.3v. 3: tcv out =(v outmax -v outmin )x10 -6 v out x ? t 4: regulation is measured at a constant junction temperature using low duty cycle pulse testing. load regulation is tested over a load range from 1.0ma to the maximum specified output current. changes in output voltage due to heating effects are covered by the thermal regulation specification. 5: dropout voltage is defined as the input to output differential at which the output voltage drops 2% below its nominal value at a 1v differential. 6: thermal regulation is defined as the change in output voltage at a time t after a change in power dissipation is applied, excluding load or line regulation effects. specifications are for a current pulse equal to i max at v in = 6v for t = 10msec. 7: the maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junction tem- perature and the thermal resistance from junction-to-air (i.e. t a ,t j , ja ). 8: time required for v out to reach 95% of v r (output voltage setting), after v shdn is switched from 0 to v in . pin no. (5-pin sot-23a) symbol description 1v in unregulated supply input. 2 gnd ground terminal. 3 shdn shutdown control input. the regulator is fully enabled when a logic high is applied to this input. the regulator enters shutdown when a logic low is applied to this input. during shutdown, output voltage falls to zero, and sup- ply current is reduced to 0.5 a(max). 4 bypass reference bypass input. connecting a 470pf to this input further reduces output noise. 5v out regulated voltage output.
? 2002 microchip technology inc. ds21662b-page 5 tc2014/2015/2185 3.0 detailed description the tc2014, tc2015 and tc2185 are precision fixed output voltage regulators. (if an adjustable version is desired, please see the tc1070, tc1071, or tc1187 data sheets.) unlike bipolar regulators, the tc2014, tc2015 and tc2185 supply current does not increase with load current. in addition, v out remains stable and within regulation at very low load currents (an important consideration in rtc and cmos ram battery back-up applications). figure 3-1 shows a typical application circuit. the reg- ulator is enabled any time the shutdown input (shdn ) is at or above v ih , and shutdown (disabled) when shdn is at or below v il . shdn maybecontrolledbya cmos logic gate or i/o port of a microcontroller. if the shdn input is not required, it should be connected directly to the input supply. while in shutdown, supply current decreases to 0.05 a(typical)andv out falls to zero volts. figure 3-1: typical application circuit 3.1 bypass input a 470pf capacitor connected from the bypass input to ground reduces noise present on the internal refer- ence, which in turn significantly reduces output noise. if output noise is not a concern, this input may be left unconnected. larger capacitor values may be used, but the result is a longer time period to rated output voltage when power is initially applied. 3.2 output capacitor a1 f (min) capacitor from v out to ground is required. the output capacitor should have an effective series resistance of 0.01 ? to 5 ? for v out 2.5v, and 0.05 ? . to 5 ? for v out <2.5v.a1 f capacitor should be con- nected from v in togndifthereismorethan10inches of wire between the regulator and the ac filter capacitor or if a battery is used as the power source. aluminum electrolytic or tantalum capacitor types can be used. (since many aluminum electrolytic capacitors freeze at approximately -30c, solid tantalum are recommended for applications operating below -25c.) when operat- ing from sources other than batteries, supply-noise rejection and transient response can be improved by increasing the value of the input and output capacitors and employing passive filtering techniques. 1? shutdown control (to cmos logic or tie to v in if unused) tc2014 tc2015 tc2185 v in battery v out bypass shdn gnd v out 1? 470pf reference bypass cap (optional)
tc2014/2015/2185 ds21662b-page 6 ? 2002 microchip technology inc. 4.0 thermal considerations 4.1 power dissipation the amount of power the regulator dissipates is prima- rily a function of input voltage, output voltage and output current. the following equation is used to calculate worst case power dissipation: equation 4-1: the maximum allowable power dissipation (equation 4-2) is a function of the maximum ambient temperature (t amax ), the maximum allowable die tem- perature (125 c) and the thermal resistance from junc- tion-to-air ( ja ). the 5-pin sot-23a package has a ja of approximately 220c/watt when mounted on a typical two layer fr4 dielectric copper clad pc board. equation 4-2: equation 4-1 can be used in conjunction with equation 4-2 to ensure regulator thermal operation is within limits. for example: maximum allowable power dissipation: in this example, the tc2014 dissipates a maximum of only 26.7m ? ; far below the allowable limit of 318m ? .in a similar manner, equation 4-1 and equation 4-2 can be used to calculate maximum current and/or input voltage limits. 4.2 layout considerations the primary path of heat conduction out of the package is via the package leads. therefore, layouts having a ground plane, wide traces at the pads, and wide power supply bus lines combine to lower ja and, therefore, increase the maximum allowable power dissipation limit. p d (v in ?v outmin )i loadmax where: p d = worst case actual power dissipation v in max = maximum voltage on v in v out min = minimum regulator output voltage i load max = maximum output (load) current p dmax = t jmax -t amax ja where all terms are previously defined. given: v inmax = 3.0v +10% v outmin =2.7v?2.5% i loadmax =40ma t jmax =125c t amax =55c find: 1. actual power dissipation 2. maximum allowable dissipation actual power dissipation: p d =(v inmax ?v outmin )i loadmax = [(3.0 x 1.1) ? (2.7 x .975)]40 x 10 ?3 =26.7m ? p dmax = t jmax -t amax ja 125 - 55 220 = = 318m ?
? 2002 microchip technology inc. ds21662b-page 7 tc2014/2015/2185 5.0 typical characteristics note: the graphs and tables provided following this note are a statistical summary based on a limited number of samples and are provided for informational purposes only. the performance characteristics listed herein are not tested or guaranteed. in some graphs or tables, the data presented may be outside the specified operating range (e.g., outside specified power supply range) and therefore outside the warranted range. -100 -80 -60 -40 -20 0 10 100 1k 10k 100k 1m f (hz) c out = 1 f ceramic i out = 100ma c bypass = 0.01 f ceramic v inac = 100mv p-p v indc = 4v v outdc = 3v psrr (db) power supply rejection ratio psrr (db) -100 -80 -60 -40 -20 0 frequency (hz) 10 100 1k 10k 100k 1m c out = 10 f ceramic i out = 150ma c bypass = 0.01 f ceramic v inac = 100mv p-p v indc = 4v v outdc = 3v power supply rejection ratio -100 -80 -60 -40 -20 0 10 100 1k 10k 100k 1m frequency (hz) psrr (db) c out = 1 f ceramic i out = 150ma c bypass = 0.01 f ceramic v inac = 100mv p-p v indc = 4v v outdc = 3v power supply rejection ratio -100 -80 -60 -40 -20 0 fre q uenc y ( hz ) 10 100 1k 10k 100k 1m psrr (db) c out = 10 f tantalum i out = 150ma v inac = 100mv p-p v indc = 4v v outdc = 3v power supply rejection ratio -100 -80 -60 -40 -20 0 psrr (db) c out = 10 f tantalum i out = 150ma c bypass = 0.01 f ceramic v inac = 100mv p-p v indc = 4v v outdc = 3v power supply rejection ratio 10 100 1k 10k 100k 1m frequency (hz) frequency (khz) c out = 10 f c out = 1 f 0.001 0.01 0.1 1 10 0.01 0.1 1 10 100 1000 noise (mv/ hz) output noise
tc2014/2015/2185 ds21662b-page 8 ? 2002 microchip technology inc. 5.0 typical characteristics (continued) v in = 2.8v 65.00 63.00 61.00 59.00 57.00 55.00 53.00 -45 5 55 105 155 tem p erature ( ?c ) idd (ma) v out = 1.8v i dd vs. temperature 2.5 2.55 2.6 2.65 2.7 2.75 2.8 2.85 2.9 -50 -35 -20 -5 10 25 40 55 70 85 100 115 130 145 i out = 0.1ma v out = 2.8v v in = 6.5v v in = 3.8v v in = 6.0v tem p erature ( ? c ) v out (v) output voltage vs. temperature -50 -35 -20 -5 10 25 40 55 70 85 100 115 130 145 tem p erature ( ? c ) v out (v) v in = 6.5v v in = 6.0v v in = 2.8v i out = 0.1ma v out = 1.8v 1.9 1.86 1.84 1.82 1.8 1.78 1.76 1.74 1.72 1.88 1.7 output voltage vs. temperature 1.7 1.72 1.74 1.76 1.78 1.8 1.82 1.84 1.86 1.88 1.9 0 15 30 45 60 75 90 105 120 135 150 v in = 2.8v i load (ma) v out (v) output voltage vs. output current 0.000 0.020 0.040 0.060 0.080 0.100 0.120 0.140 0.160 0 50 100 150 t = 130 c t = -45 c t = 25 c i load (ma) dov (v) v out = 1.8v dropout voltage vs. i load 2.7 3.2 3.7 4.2 4.7 5.2 5.7 6.2 6.7 v out (v) v in (v) 1.7 1.72 1.74 1.76 1.78 1.8 1.82 1.84 1.86 1.88 1.9 temp = +130?c temp = -45?c temp = +25?c i out = 0.1ma v out = 1.8v ouptut voltage vs. supply voltage
? 2002 microchip technology inc. ds21662b-page 9 tc2014/2015/2185 5.0 typical characteristics (continued) 3.5 4 4.5 5 5.5 6 6.5 7 temp = +130 ? c temp = -45 ? c temp = +25 ? c 2.5 2.55 2.6 2.7 2.75 2.8 2.85 2.9 2.65 i out = 0.1ma v out = 2.8v v out (v) v in (v) output voltage vs. supply voltage 150ma load 100ma load current 100mv / div v in = 3.0v v out = 2.8v c in = 1 f ceramic c out = 10 f ceramic frequency = 10khz v out load transient response 100ma 150ma v out 100mv/div v in = 3.105v v out = 3.006v c in = 1 f ceramic c out = 10 f ceramic r load = 20 ? load transient response in dropout mode 150ma load 100ma load current 100mv/div v in = 3.8v v out = 2.8v c in = 1 f ceramic c out = 1 f ceramic frequency = 1khz v out load transient response 6v 4v input voltage 50mv / div 2v / div v out v out = 2.8v c out = 1 f ceramic c byp = 470pf i out = 100ma line transient response shutdown delay v in = 4.0v v out = 3.0v c out = 10 f c byp = 0.01 f i out = 100ma v shdn v out
tc2014/2015/2185 ds21662b-page 10 ? 2002 microchip technology inc. 5.0 typical characteristics (continued) out v shdn v v in = 4.0v v out = 3.0v c out = 10 f c byp = 0.01 f i out = 100ma shutdown wake up time
? 2002 microchip technology inc. ds21662b-page 11 tc2014/2015/2185 6.0 packaging information 6.1 package marking information 1 & 2 = part number code + temperature range and voltage 3 represents year and 2-month period code 4 represents lot id number (v) tc2014 code tc2015 code tc2185 code 1.8 pa ra ua 2.5 pb rb ub 2.7 pc rc uc 2.8 pd rd ud 2.85 pe re ue 3.0 pf rf uf 3.3 pg rg ug 5-pin sot-23a
tc2014/2015/2185 ds21662b-page 12 ? 2002 microchip technology inc. 6.2 taping information 6.3 package dimensions component taping orientation for 5-pin sot-23a (eiaj sc-74a) devices package carrier width (w) pitch (p) part per full reel reel size 5-pin sot-23a 8 mm 4 mm 3000 7 in carrier tape, number of components per reel and reel size user direction of feed device marking pin 1 standard reel component orientation tr suffix device (mark right side up) w p .071 (1.80) .059 (1.50) .122 (3.10) .098 (2.50) .075 (1.90) ref. .020 (0.50) .012 (0.30) pin 1 .037 (0.95) ref. .122 (3.10) .106 (2.70) .057 (1.45) .035 (0.90) .006 (0.15) .000 (0.00) .024 (0.60) .004 (0.10) 10 max. .010 (0.25) .004 (0.09) sot-23a-5 dimensions: inches (mm)
? 2002 microchip technology inc. ds21662b-page 13 tc2014/2015/2185 sales and support data sheets products supported by a preliminary data sheet may have an errata sheet describing minor operational differences and recom- mended workarounds. to determine if an errata sheet exists for a particular device, please contact one of the following: 1. your local microchip sales office 2. the microchip corporate literature center u.s. fax: (480) 792-7277 3. the microchip worldwide site (www.microchip.com) please specify which device, revision of silicon and data sheet (include literature #) you are using. new customer notification system register on our web site (www.microchip.com/cn) to receive the most current information on our products.
tc2014/2015/2185 ds21662b-page 14 ? 2002 microchip technology inc. notes:
? 2002 microchip technology inc. ds21662b-page 15 tc2014/2015/2185 information contained in this publication regarding device applications and the like is intended through suggestion only and may be superseded by updates. it is your responsibility to ensure that your application meets with your specifications. no representation or warranty is given and no liability is assumed by microchip technology incorporated with respect to the accuracy or use of such information, or infringement of patents or other intellectual property rights arising from such use or otherwise. use of microchip?s products as critical com- ponents in life support systems is not authorized except with express written approval by microchip. no licenses are con- veyed, implicitly or otherwise, under any intellectual property rights. trademarks the microchip name and logo, the microchip logo, filterlab, k ee l oq ,microid, mplab,pic,picmicro,picmaster, picstart, pro mate, seeval and the embedded control solutions company are registered trademarks of microchip tech- nology incorporated in the u.s.a. and other countries. dspic, economonitor, fansense, flexrom, fuzzylab, in-circuit serial programming, icsp, icepic, microport, migratable memory, mpasm, mplib, mplink, mpsim, mxdev, picc, picdem, picdem.net, rfpic, select mode and total endurance are trademarks of microchip technology incorporated in the u.s.a. serialized quick turn programming (sqtp) is a service mark of microchip technology incorporated in the u.s.a. all other trademarks mentioned herein are property of their respective companies. ? 2002, microchip technology incorporated, printed in the u.s.a., all rights reserved. printed on recycled paper. microchip received qs-9000 quality system certification for its worldwide headquarters, design and wafer fabrication facilities in chandler and tempe, arizona in july 1999 and mountain view, california in march 2002. the company?s quality system processes and procedures are qs-9000 compliant for its picmicro ? 8-bit mcus, k ee l oq ? code hopping devices, serial eeproms, microperipherals, non-volatile memory and analog products. in addition, microchip?s quality system for the design and manufacture of development systems is iso 9001 certified.
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