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s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s m ay 2012 rev. 2. 1 .0 exar corporation www.exar.com 48720 kato road, fremont ca 94538, usa tel. +1 510 668- 7000 C fax. +1 510 668- 7001 general description the sp6200 and sp6201 are cmos low dropout (ldo) regulators designed to meet a broad range of applications that require accuracy, speed and ease of use. these ldos offer extremely low quiescent current which only increases slightly under load, thus providing advantages in ground current performance over bipolar ldos. the ldos handle an extremely wide load range and guarantee stability with a 1f ceramic ou tput capacitor. they have excellent low frequency power supply rejection ratio (psrr), not found in other cmos ldos and thus offer exceptional line regulation. high frequency psrr is better than 40db up to 400khz. load regulation is excellent and temperature stability is comparable to bipolar ldos. an enable feature is provided on all versions. both ldos are available in fixed & adjustable output voltage versions and come in an industry standard 5-pin sot-23 and small 2x3mm 8-pin dfn packages. a v out good indicator is provided on all fixed output versions. applications ? battery-powered systems ? medical equipments ? mp3/cd players ? digital cameras features ? 100ma/200ma output current ? sp6200 : 100ma C sp6201 : 200ma ? low dropout voltage: 160mv @ 100ma ? 2. 5v to 6.0v input voltage ? fixed and adjustable output voltage ? 2% output voltage accura cy ? ultra low ground current: ? 200a @ 200ma & 28a @ 100a load ? tight load and line regulation ? 78db psrr @ 1khz ? reset/power good output ? logic-controlled electronic enable ? unconditionally stable with 1 f ceramic capacitor ? current limit and thermal protection ? rohs compliant green/halogen free 5-pin sot23 and 8-pin dfn packages typical application diagram fig. 1 : sp6200 / sp 6201 application diagram
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 2/ 17 rev. 2.1 .0 absolute maximum ratings these are stress ratings only and functional operation of the device at these ratings or any other above those indicated in the operation sections of the specifications below is not implied. exposure to absolute maximum rating conditions for extended periods of time may affect reliability. supply input voltage (v in ) ............................... -2v to 7v output voltage (v out ) ............................ -0.6 to (v in +1v) enable input voltage (v en ) ............................... -2v to 7v storage temperature ............................ -65c to +150c power dissipation ............................... internally limited 1 lead temperature (soldering, 5 sec) ..................... 26 0c operating ratings input voltage range v in ............................. + 2. 5v to +6v enable input voltage (v en ) ................................ 0v to 6v junction temperature range .................... -40c to 1 25c thermal resistance ...................................................... sot- 23 -5 ( ja ) ............................................. 191c/w dfn-8 ( ja ) ................................................... 59c/w note 1: maximum power dissipation can be calculated using the formula: pd = (t j (max) - t a ) / ja , where t j (max) is the junction temperature, t a is the ambient temperature and ja is the junction- to -ambient thermal resistance. jc is 6c/w for this package. exceeding the maximum allowable power dissipation will result in excessive die temperature and the regulator will go into thermal shutdown mode. electrical specifications specifications with standard type are for an operating junction temperature of t j = 25c only; limits applying over the full operating junction temperature range are denoted by a ?. minimum and maximum limits are guaranteed through test, design, or statistical correlation. typical values represent the most likely parametric norm at t j = 25c, and are provided for reference purposes only. unless otherwise indicated, v in = (v out + 1v), v out = 5v for adjustable version, c in = 1.0f, c out = 1.0 f and i l = 100a, t j = 25c. parameter min. typ. max. units conditions output voltage accuracy, (v o ) - 2 2 % variation from specified v out - 3 3 ? reference voltage 1.213 1.250 1.287 v ? adjustable version only output voltage temperature coefficient 2 ( ? v o / ? t) 60 ppm/ c minimum supply voltage 2.50 2.55 2.70 3.00 2.70 2.80 2.95 3.50 v v v v i l = 100 a i l = 50ma i l = 100ma i c = 200ma line regulation, ( ? v o / v in ) 0.03 0.2 %/v ? v in = (v out + 1v) to 6v load regulation 3 ( ? v o / v o ) 0.07 0.14 0.25 0.50 % % ? ? i l = 0.1ma to 100ma, sp6200 i l = 0.1ma to 200ma, sp6201 s p6200 - 1.5v & 1.8 load reg. sp6201 - 1.5v & 1.8 load reg . 0.3 0.3 1 1 % % i l = 0.1ma to 100ma, v in = 2.95v i l = 0.1ma to 200ma, v in = 3.5v dropout voltage 4 (v in C v o ) (not applicable to voltage options below 2.7v) 0.2 4 mv i l = 100 a 7 ? 70 120 mv i l = 50ma 160 ? 160 250 mv i l = 100ma 300 ? 320 400 mv i l = 200ma, sp6201 only 500 ? shutdown quiescent current (i gnd ) 0.01 1 a ? v en 0.4v ground pin current 5 (i gnd ) 28 40 a v en 2.0 v , i l = 100 a 45 ? 110 200 a v en 2.0 v , i l = 100 m a , sp6200 only (for 1.5 & 1.8, v in = 2.95) 250 ? 200 400 a v en 2.0 v , i l = 200m a , sp6201 only (for 1.5 & 1.8, v in = 3.5) 500 ? power supply rejection ratio, (psrr) 78 db frequency = 100hz, i l = 10ma 40 frequency = 400hz, i l = 10ma current limit, (i cl ) 100 140 200 ma ? sp6200
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 3/ 17 rev. 2.1 .0 parameter min. typ. max. units conditions 300 420 600 ? sp6201 thermal limit 162 c turns on 147 turns off thermal regulation 6 (v o /p d ) 0.05 %/w output noise, (e no ) 150 vrms i l = 50ma, c l = 1 f 0.1 f from v out to adj. 10hz to 100khz enable input enable input logic - low voltage, (v il ) 0.4 v ? regulator shutdown enable input logic - high voltage, (v ih ) 1.6 v ? regulator enabled enable input current, (i il ), (i ih ) 0.01 1 a ? v il < 0.4v 0.01 1 a ? v ih > 2.0v reset not output - 2 - 4 - 6 % threshold note 2: output voltage temperature coefficient is defined as the worst case voltage change divided by the totaltemperature range. note 3: load regulation is measured at constant junction temperature using low duty cycle pulse testing. parts are tested for load regulation in the load range; from 0.1ma to 100ma, sp6200; from 0.1ma to 200ma, sp6201. changes in output voltage due to heating effects are covered by the thermal regulation specification. not applicable to output voltages less than 2.5v. note 4: dropout voltage is defined as the input to output differential at which the output voltage drops 2% below its nominal value measured at 1v differential. not applicable to output voltages less than 2.7v. note 5: ground pin current is the regulator quiescent current. the total current drawn from the supply is the sum of the load current plus the ground pin current. note 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 100ma load pulse at v in = 6v for t = 10ms. block diagrams fig. 2 : fixed voltage and adjustable regulators
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 4/ 17 rev. 2.1 .0 pin assignment fig. 3: sp6200 / sp6201 pin assignment pin description sot 23-5 name sot - 23 - 5 description in 1 power supply input gnd 2 ground terminal en 3 enable/shutdown input C cmos or ttl compatible input - logic high = enable - logic low = shutdown r st(reset not) /adj 4 reset/power good - fixed voltage option: open drain indicating that v out is good. adjustable input C adjustable voltage option: adjustable regulator feedback input. connect to a resistive voltage - divider network. out 5 regulator output voltage 8 pin dfn name dfn - 8 description nc 1 no connect v in 2 power supply input v out 3 regulator output voltage nc 4 no connect r eset /adj 5 reset/power good - fixed voltage option: open drain indicating that v out is good. adjustable input C adjustable voltage option: adjustable regulator feedback input. connect to a resistive voltage - divider network. nc 6 no connect nc 7 no connect en 8 enable/shutdown input C cmos or ttl compatible input - logic high = enable logic low = shutdown
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 5/ 17 rev. 2.1 .0 ordering information part number temperature range marking package packing quantity voltage option note 1 sp6200em5 - l - 3 - 0 - 40c t j + 125 c e30 sot - 23 - 5 bulk 3.0v halogen free sp6200em5 - l - 3 - 0/tr 2.5k/ tape & reel sp6201em5 - l - 40c t j + 125 c fadj sot - 23 - 5 bulk adjustable halogen free sp6201em5 - l/tr 2.5k/tape & reel sp6201em5 - l - 1 - 5 f15 bulk 1.5v halogen free sp6201em5 - l - 1 - 5/tr 2.5k/tape & reel sp6201em5 - l - 1 - 8 f18 bulk 1.8v halogen free sp6201em5 - l - 1 - 8/tr 2.5k/tape & reel sp6201em5 - l - 2 - 5 f25 bulk 2.5v halogen free sp6201em5 - l - 2 - 5/tr 2.5k/tape & reel sp6201em5 - l - 2 - 85 f285 bulk 2.85v halogen free sp6201em5 - l - 2 - 85/tr 2.5k/tape & reel sp6201em5 - l - 3 - 0 f30 bulk 3.0v halogen free sp6201em5 - l - 3 - 0/tr 2.5k/tape & reel sp6201em5 - l - 3 - 3 f33 bulk 3.3v halogen free sp6201em5 - l - 3 - 3/tr 2.5k/tape & reel sp6201em5 - g - 3 - 3 ubww bulk 3.3v halogen free sp6201em5 - g - 3 - 3/tr 2.5k/tape & reel sp6201em5 - l - 5 - 0 f50 bulk 5.0v halogen free sp6201em5 - l - 5 - 0/tr 2.5k/tape & reel sp6201er - l - 40c t j + 125 c a0 yww xxx dfn8 bulk adjustable halogen free sp6201er - l/tr 3k/tape & reel sp6201er - l - 1 - 8 b0 yww xxx bulk 1.8v halogen free sp6201er - l - 1 - 8/tr 3k/tape & reel sp6201er - l - 3 - 3 c0 yww xxx bulk 3.3v halogen free sp6201er - l - 3 - 3/tr 3k/tape & reel y = year C ww = work week C x xx = lot number ; when applicable.
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 6/ 17 rev. 2.1 .0 typical performance characteristics all data taken at 25c, v in = 5.5v, i o = 0.1ma, c in = c out = 1f , unless otherwise specified - schematic and bom from application information section of this datasheet. fig. 4 : dropout vs. io (sp6201 fixed 3.0v) fig. 5 : dropout vs. temp (sp6201 fixed 3.0v) fig. 6 : dropout vs. temp (sp6201 fixed 3.0v) fig. 7 : iq vs. vin (fixed 3.0v, i o =0 a) fig. 8 : i q vs. temp (sp6201 fixed 3.0v, en=vin, i o =0ua) fig. 9 : i q vs. temp (sp6201 fixed 3.0v, en=0v, i o =0ua)
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 7/ 17 rev. 2.1 .0 fig. 10 : i gnd vs. v in (sp6201 fixed 3.0v) fig. 11 : i gnd vs. i o (sp6201 fixed 3.0v) fig. 12 : v out vs. temp (fixed 3.0v) fig. 13 : v out vs. temp (fixed 3.3v) fig. 14 : v out vs. temp (adjustable) fig. 15 : v out vs. temp (adjustable)
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 8/ 17 rev. 2.1 .0 fig. 16 : v out vs. temp (adjustable) fig. 17 : v out vs. temp (adjustable) fig. 18 : line regulation (sp6201 fixed 3.0v) fig. 19 : load regulation (sp6201 fixed 3.0v) fig. 20 : current limit vs. temp (fixed 3.3v, v in =4v) fig. 21 : current limit vs. temp (fixed 3.3v, v in =4v)
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 9/ 17 rev. 2.1 .0 fig. 22 : turn on time, i o =1ma, 4v in fig. 23 : turn on time, i o =100ma, 4v in fig. 24 : turn on time, i o =300ma, 4v in fig. 25 : turn on time, i o =100ma, 7v in fig. 26 : turn off time, i o =1ma, 4v in fig. 27 : turn off time, i o =50ma, 4v in
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 10/ 17 rev. 2.1 .0 fig. 28 : turn off time, i o =100ma, 4v in fig. 29 : turn off time, i o =100ma, 7v in fig. 30 : inrush current, i o =100ma fig. 31 : inrush current, i o =100 a fig. 32 : load transient response, 100ma step, 4v in fig. 33 : load transient response, 100ma step, 7v in
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 11/ 17 rev. 2.1 .0 fig. 34 : load transient response, 200ma step, 4v in fig. 35 : load transient response, 300ma step, 4v in fig. 36 : line transient response fig. 37 : line transient response fig. 38 : power supply rejection ratio fig. 39 : power supply rejection ratio
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 12/ 17 rev. 2.1 .0 fig. 40 : power supply rejection ratio fig. 41 : power supply rejection ratio theory of operation g eneral o verview the sp6200 and sp6201 are cmos ldos designed to meet a broad range of applications that require accuracy, speed and ease of use. these ldos offer extremely low quiescent current which only increases slightly under load, thus providing advantages in ground current performance over bipolar ldos. the ldos handle an extremely wide load range and guarantee stability with a 1f ceramic output capacitor. they have excellent low frequency psrr, not found in other cmos ldos and thus offer exceptional line regulation. high frequency psrr is better than 40db up to 400khz. load regulation is excellent and temperature stability is comparable to bipolar ldos. thus, overall system accuracy is maintained under all dc and ac conditions. enable feature is provided on all versions. a vout good indicator (rsn pin) is provided in all the fixed output voltage devices. an adjustable output version is also available. current limit and thermal protection is provided internally and is well controlled. a rchitecture the sp6200 and sp6201 are only different in their current limit threshold. the sp6200 has a current limit of 140ma, while the sp6201 current limit is 420ma. the sp6201 can provide pulsed load current of 300ma. the ldos have a two stage amplifier which handles an extremely wid e load range (10a to 300ma) and guarantees stability with a 1f ceramic load capacitor. the ldo amplifier has excellent gain and thus touts psrr performance not found in other cmos ldos. the amplifier guarantees no overshoot on power up or while enabled through the en pin. the amplifier also contains an active pull down, so that when the load is removed quickly the output voltage transient is minimal; thus output deviation due to load transient is small and fairly well matched when connecting and disconnecting the load. an accurate 1.250v bandgap reference is bootstrapped to the output in fixed output versions of 2.7v and higher. this increases both the low frequency and high frequency psrr. the adjustable version also has the bandgap reference bootstrapped to the output, thus the lowest externally programmable output voltage is 2.7v. the 2.5v fixed output version has the bandgap always connected to the vin pin. unlike many ldos, the bandgap reference is not brought out for filtering by the user. this tradeoff was made to maintain good psrr at high frequency (psrr can be degraded in a system due to switching noise coupling into this pin). also, often leakages of the bypass capacitor or other components cause an error on this high impedance bandgap node. thus, this tradeoff has been made with "ease of use" in mind.
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 13/ 17 rev. 2.1 .0 p rotection current limit behavior is very well controlled, providing less than 10% variation in the current limit threshold over the entire temperature range for both sp6200 and sp6201. the sp6200 has a current limit of 140ma, while the sp6201 has a current limit of 420ma. thermal shutdown activates at 162c and deactivates at 147c. thermal shutdown is very repeatable with only a 2 to 3 degree variation from device to device. thermal shutdown changes by only 1 to 2 degrees with vin change from 4v to 7v. e nable (s hutdown n ot ) i nput the ldos are turned off by pulling the en pin low and turned on by pulling it high. if it is not necessary to shut down the ldo, the en (pin 3) should be tied to in (pin 1) to keep the regulator output on at all time. the enable threshold is 0.9v and does not change more than 100mv over the entire temperature and v in voltage range. the lot to lot variations in enable threshold are also within 100mv. shutdown current is guaranteed to be <1 a without requiring the user to pull enable all the way to 0v. standard ttl or cmos levels will transition the device from totally on to totally off. r eset n ot (v out good ) o utput an accurate v out good indicator is provided on all the fixed output version devices, pin 4 (rsn), figure 1. this is an open drain, logic output that can be used to hold a microprocessor or microcontroller in a reset condition when its power supplied by v out is 4% out of nominal regulation. a 1% hysteresis is included in the reset not function, so that false alarms are not issued as a result of ldo's output noise. the reset not function reacts in 10 to 50s. a djustable o utput v ersion the adjustable version can be programmed to any voltage from 2.7v to 6v for the industrial temperature range; 2.5v to 6v for the commercial temperature range. the output cannot be programmed below 2.5v due a headroom restriction. since the bandgap is bootstrapped to the output, the output voltage must be above the minimum bandgap supply voltage. the bandgap requires 2.7v or greater at -40c and requires 2.5v or greater at 0c. the regulator's output can be adjusted to a specific output voltage by using two external resistors, see block diagram. the resistor's set the output voltage based on the following equation: resistor values are not critical because the adj node has a high input impedance, but for best results use resistors of 470k or less. a capacitor from adj to v out pin provides improved noise performance as is shown in the following plot. fig. 42: noise performance 10hz to 100khz i nput c apacitor a small capacitor, 1f or higher, is required from v in to gnd to create a high frequency bypass for the ldo amplifier. any ceramic or tantalum capacitor may be used at the input. capacitor esr (effective series resistance) should be smaller than 3. o utput c apacitor an output capacitor is required between v out and gnd to prevent oscillation; a capacitance as low as 0.22f can fulfill stability r equirements in most applications. a 1f capacitor will ensure unconditional stability from no load to full load over the entire input voltage, output voltage and temperature range. larger capacitor values improve the
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 14/ 17 rev. 2.1 .0 regulator's transient response. the output capacitor value may be increased without limit. the output capacitor should have an esr (effective series resistance) below 5 and a resonant frequency above 1mhz. n o l oad s tability the sp6200/ sp 6201 will remain stable and in regulation with no external load (other than the internal voltage driver) unlike many other voltage regulators. this is especially important in cmos ram keep-alive applications. t hermal c onsiderations the sp6200 is designed to provide 100ma of continuous current, while the sp6201 will provide 200ma of continuous current. maximum power dissipation can be calculated based on the output current and the voltage drop across the part. to determine the maximum power dissipation in the package, use the junction- to -ambient thermal resistance of the device and the following basic equation: t j(max) is the maximum junction temperature of the die and is 125c. t a is the ambient operating. ja is the junction- to -ambient thermal resistance for the regulator and i s layout dependent. the actual power dissipation of the regulator circuit can be determined using one simple equation: substituting p d(max) for p d an d solving for the operating conditions that are critical to the application will give the maximum operating conditions for the regulator circuit. for example, if we are operating the sp6201- 3.0v at room temperature, with a sot- 23 - 5 package on a 4 layer standard board we can determine the maximum input voltage for a set output current. to prevent the device from entering thermal shutdown, maximum power dissipation cannot be exceeded. using the output voltage of 3.0v and an output current of 200ma, the maximum input voltage can be determined. ground pin current can be taken from the electrical specs table (i gnd =200a at i out =200ma). the maximum input voltage is determined as follows: solving for v in , we get: after calculations, we find that the maximum input voltage of a 3.0v application at 200ma of output current in an sot- 23 -5 package is 5.59v. d ual -s upply o peration when used in dual supply systems where the regulator load is returned to a negative supply, the output voltage must be diode clamped to ground.
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 15/ 17 rev. 2.1 .0 package specification 5 p in sot- 23
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 16/ 17 rev. 2.1 .0 8-p in dfn
s s p p 6 6 2 2 0 0 0 0 / / s s p p 6 6 2 2 0 0 1 1 1 1 0 0 0 0 m m a a / / 2 2 0 0 0 0 m m a a m m i i c c r r o o p p o o w w e e r r c c m m o o s s l l d d o o r r e e g g u u l l a a t t o o r r s s ? 2012 exar corporation 17/ 17 rev. 2.1 .0 revision history revision date description 2.0.0 0 3/28/ 20 12 reformatted data sheet includes top package marking update. 2.1.0 05/29/2012 corrected typogra phical error on page 1. for further assistan ce email: customersupport@exar.com exar technical documentation: http://www.exar.com/techdoc/default.aspx? e xar c orporation h eadquarters and s ales o ffices 48720 kato road fremont, ca 94538 C usa tel.: +1 (510) 668 - 7000 fax: +1 (510) 668 - 7030 www.exar.com notice exar corporation reserves the right to make changes to the products contained in this publication in order to improve design, performance or reliability. exar corporation assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent infringement. charts and schedules contained here in are only for illustration purposes and may vary depending upon a users specific application. while the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. exar corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. products are not authorized for use in such applications unless exar corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; (c) potential liability of exar corporation is adequately protected under the circumstances. reproduction, in part or whole, without the prior written consent of exar corporation is prohibited.

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