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features n 127a supply current n 2.1mhz gain bandwidth n input voltage range with 5v supply: -0.4v to 4.3v n output voltage range with 5v supply: 0.01v to 4.99v n 2.7 v/s slew rate n 0.7pa bias current n 0.1mv input offset voltage n no crossover distortion n fully specifed at 2.7v and 5v supplies n pb-free tsot-5 applications n portable/battery-powered applications n mobile communications, cell phones, pagers n adc buffer n active flters n portable test instruments n medical equipment n portable medical instrumentation general description the comlinear clc1020 is a single channel, high-performance, voltage feedback amplifer. the clc1020 provides 2.1mhz gain bandwidth product and 2.7v/s slew rate making it well suited for high-performance battery powered-systems. this comlinear high-performance amplifer also offers low input offset voltage and low bias current. the comlinear clc1020 consumes only 127a supply current and is designed to operate from a supply range of 2.7v to 5.5v (1.35 to 2.75). the input voltage range extends 400mv below the negative rail and 700mv below the positive rail. the clc1020 amplifer operates over the extended temperature range of -40c to +125c. the clc1020 is packaged in the space saving tsot-5 package. the tsot-5 package is pin compatible with the sot23-5 package. typical performance examples ordering information part number package pb-free rohs compliant operating temperature range packaging method CLC1020IST5X tsot-5 yes yes -40c to + 125c reel moisture sensitivity level for all parts is msl-1. ? ??? ???? ? ??? ??? ??? ??? ? ?????????????????? ? ? ????????? ?? ???? ???? ? ??? ?? ?? ?? ?? ? ? ? ? ?????????????????? ? ?? ??? ??? ??? ??? ??? ??? ??? ??? ??? ????????????? ?? ??????????? ???????????? ??? ??? ??? ??? ??? ? ??? ? ??? ? ????????????? ?????????????????? ? ? ?? ? ? ????? ? v in = 1vpp data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b clc 1020 ge n eral purpose, rail to rail output amplifer rail to rail amplifers exar corporation www.exar .com 48720 kato road, fremont ca 94538, usa tel. +1 510 668-7000 - f ax. +1 510 668-7001
?2009-2013 exar corporation 2/14 rev 1 b clc1020 pin confguration clc1020 pin assignments pin no. pin name description 1 +in output 2 -v s negative supply 3 -in positive input 4 out negative input 5 +v s positive supply 2 3 5 4 -in +v s out 1 -v s +in - + data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 3/14 rev 1 b absolute maximum ratings the safety of the device is not guaranteed when it is operated above the absolute maximum ratings. the device should not be operated at these absolute limits. adhere to the recommended operating conditions for proper de - vice function. the information contained in the electrical characteristics tables and typical performance plots refect the operating conditions noted on the tables and plots. parameter min max unit supply voltage 7 v input voltage range -v s -0.4v +v s v continuous output current output is protected against momentary short circuit reliability information parameter min typ max unit junction temperature 150 c storage temperature range -65 150 c lead temperature (soldering, 10s) 260 c package thermal resistance 5-lead tsot 221 c/w notes: package thermal resistance ( q ja ), jdec standard, multi-layer test boards, still air. esd protection product tsot-5 human body model (hbm) 2kv charged device model (cdm) 2kv recommended operating conditions parameter min typ max unit operating temperature range -40 +125 c supply voltage range 2 .7 5.5 v data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 4/14 rev 1 b electrical characteristics at +2.7v t a = 25c, v s = +2.7v, r f = 10k, r l =10k to v s /2, g = 2; unless otherwise noted. symbol parameter conditions min typ max units frequency domain response gbwp gain bandwidth product v out =0.2v pp , c l = 200 pf, r l = 10k, g=11 2 mhz ugbw unity gain bandwidth v out = 0.2v pp , r l = 10k, g=1 1.6 mhz bw ss -3db bandwidth v out = 0.2v pp, r l = 10k, g=2 836 khz bw ls large signal bandwidth v out = 2v pp, r l = 10k, g=2 540 khz g m gain margin g=1 22 db m phase margin g=1 82 time domain response t r , t s rise and fall time v out = 2v step, r l = 10k 840 ns t s settling time to 0.1% v out =2v pp , r l = 10k 1.6 s os overshoot v out =2v pp , r l = 10k 5.5 % sr slew rate v out =2v pp , r l = 10k 2.3 v/s distortion/noise response hd2 2nd harmonic distortion 2v pp , 10khz, r l = 10k -61 dbc hd3 3rd harmonic distortion 2v pp , 10khz, r l = 10k -70 dbc thd total harmonic distortion 2v pp , 10khz, g=1, r l = 10k 0.094 % e n input voltage noise f=100hz 54 nv/hz f=1khz 30 nv/hz f=10khz 17 nv/hz dc performance v io input offset voltage 0.53 mv dv io average drift 2.1 v/c i b input bias current 0.5 pa i os input offset current 0.1 pa psrr power supply rejection ratio dc 73 db i s supply current 111 a input characteristics r in input resistance non-inverting input 29 g c in input capacitance non-inverting 2.4 pf cmir common mode input range for v cm 50db -0.4 to 2.0 v cmrr common mode rejection ratio dc , v cm =0v to 1.7v 70.5 db output characteristics v out output voltage swing r l = 2k 0.02 to 2.63 v r l = 10k 0.01 to 2.68 v i sc short-circuit output current sourcing, v out = 0v, g=1 18 ma sinking, v out = 2.7v, g=1 58 ma notes: 1. 100% tested at 25 c data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 5/14 rev 1 b electrical characteristics at +5v t a = 25c, v s = +5v, r f = 10k, r l =10k to v s /2, g = 2; unless otherwise noted. symbol parameter conditions min typ max units frequency domain response gbwp gain bandwidth product v out =0.2v pp , c l = 200pf, r l = 10k, g=11 2.1 mhz ugbw unity gain bandwidth v out = 0.2v pp , r l = 10k, g=1 1.8 mhz bw ss -3db bandwidth v out = 0.2v pp, r l = 10k, g=2 907 khz bw ls large signal bandwidth v out = 2v pp, r l = 10k, g=2 576 hz g m gain margin g=1 18 db m phase margin g=1 90 time domain response t r , t s rise and fall time v out =2v step, r l = 10k 670 ns t s settling time to 0.1% v out =2v pp , r l = 10k 1.6 s os overshoot v out =2v pp , r l = 10k 5.9 % sr slew rate v out =4v pp , r l = 10k 2.7 v/s distortion/noise response hd2 2nd harmonic distortion v out =2v pp , 10khz, r l = 10k -67 dbc hd3 3rd harmonic distortion v out =2v pp , 10khz, r l = 10k -68 dbc thd total harmonic distortion v out =2v pp , 10khz, r l = 10k 0.057 % e n input voltage noise f=100hz 57 nv/hz f=1khz 30 nv/hz f=100khz 18 nv/hz dc performance v io input offset voltage (1) 0.1 6 mv dv io average drift 1.1 v/c i b input bias current 0.7 pa i os input offset current 0.1 pa psrr power supply rejection ratio (1) dc 60 73 db a ol open-loop gain (1) v out = v s / 2 70 122 db i s supply current (1) 127 170 a input characteristics r in input resistance non-inverting input 40 g c in input capacitance non-inverting input 2.2 pf cmir common mode input range for v cm 50db -0.3 -0.4 to 4.3 4.2 v cmrr common mode rejection ratio (1) dc , v cm = 0v to 4v 60 67 db output characteristics v out output voltage swing r l = 2k 4.93 4.96 to 0.02 0.04 v r l = 10k (1) 4.97 4.99 to 0.01 0.02 v i sc short-circuit output current sourcing, v out = 0v, g=1 30 69 ma sinking, v out = 5v, g=1 80 150 ma notes: 1. 100% tested at 25 c 250 data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 6/14 rev 1 b typical performance characteristics - continued t a = 25c, v s = +5v, r f = r g =10k, r l = 10k to v s /2, g = 2; unless otherwise noted. ?? ? ? ???????????????????? ?????? ?????? ???? ? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ???? ? ? ? ? ??? ? ??? ?????? ?? ??????? ?? ? ? ???????????????????? ?????? ?????? ?????? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ?????? ? ? ??? ? ??? ?????? ?? ??????? ?? ? ? ???????????????????? ?????? ?????? ?????? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ?????? ? ? ????? ? ??? ?????? ?? ??????? ?? ? ? ???????????????????? ?????? ?????? ???? ? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ???? ? ? ? ? ????? ? ??? ?????? ?? ??????? ?? ? ? ???????????????????? ? ? ?????? ? ? ??? ? ? ? ?????? ? ? ??? ? ? ? ??????? ? ? ??????? ? ? ??? ? ? ? ???????? ? ? ????? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ??? ? ? ?? ? ? ??? ? ? ??? ?????? ?? ? ? ??????? ? ? ??? ? ?? ? ? ???????????????????? ? ? ?????? ? ? ??? ? ? ? ?????? ? ? ??? ? ? ? ??????? ? ? ??????? ? ? ??? ? ? ? ???????? ? ? ????? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ????? ? ? ?? ? ? ??? ? ? ??? ?????? ?? ? ? ??????? ? ? ??? ? data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 7/14 rev 1 b typical performance characteristics - continued t a = 25c, v s = +5v, r f = r g =10k, r l = 10k to v s /2, g = 2; unless otherwise noted. ?? ? ? ???????????????????? ? ? ????? ? ? ????? ? ? ????? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ????? ? ? ? ??? ? ??? ?????? ?? ? ? ????? ?? ? ? ???????????????????? ? ? ?????? ? ? ??? ? ? ? ?????? ? ? ??? ? ? ? ??????? ? ? ????? ? ? ? ???????? ? ? ????? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ??? ? ? ?? ? ? ??? ? ? ??? ?????? ?? ? ? ??????? ? ? ????? ? ?? ? ? ???????????????????? ? ? ?????? ? ? ??? ? ? ? ?????? ? ? ????? ? ? ? ??????? ? ? ????? ? ? ? ???????? ? ? ????? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ????? ? ? ?? ? ? ??? ? ? ??? ?????? ?? ? ? ??????? ? ? ????? ? ?? ? ? ???????????????????? ? ? ????? ? ? ????? ? ? ????? ? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ????? ? ? ? ????? ? ??? ?????? ?? ? ? ????? ?? ? ? ???????????????????? ? ??? ???? ?? ? ??? ???? ?? ? ??? ???? ?? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ???? ?? ? ? ???????????????????? ? ??? ???? ?? ? ??? ???? ?? ?? ?? ?????? ????? ???? ??? ? ?? ???????????????????? ??????????????? ? ? ?????? ????????????????????? ???????????????????????? ???????????????????????????????? ???????????????????????????????? ???????????????????????????????? ???????????????????????????????? ???????????? ????? ???????????? ?? ???????????? ? ???????? ???????????? ? ????? data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 8/14 rev 1 b typical performance characteristics - continued t a = 25c, v s = +5v, r f = r g =10k, r l = 10k to v s /2, g = 2; unless otherwise noted. ?? ?? ?? ?? ?? ?? ??? ??? ?? ?? ?? ?? ?? ?? ?? ?? ?????????????????? ????????? ???? ????? ????? ????? ????? ???? ????? ????? ????? ????? ??? ??? ? ?? ??? ??? ? ?? ????? ???? ??? ? ?? ?????????????????? ??????????????? ?? ???? ??????? ? ? ? ????? ? ? ???? ? ?? ?? ?? ?? ?? ?? ??? ??? ?? ?? ?? ?? ?? ?? ?? ?? ?????????????????? ????????? ????? ? ? ?????? ? ? ? ???? ? ? ? ????? ? ???? ??? ??? ? ?? ??? ??? ? ?? ????? ???? ??? ? ?? ?????????????????? ??????????????? ???? ? ? ????? ?? ?? ?? ?? ?? ?? ??? ??? ?? ?? ?? ?? ?? ?? ?? ?? ?????????????????? ????????? ????? ? ? ?????? ? ? ? ???? ? ? ? ????? ? ???? ??? ??? ? ?? ??? ??? ? ?? ????? ???? ??? ? ?? ?????????????????? ??????????????? ???? ? ? ??????? ??? ??? ??? ??? ??? ??? ??? ??? ????????????? ?? ??????????? ???????????? ??? ??? ??? ??? ??? ? ??? ? ??? ? ????????????? ?????????????????? ? ? ?? ? ? ????? ? v in = 1vpp ??? ??? ??? ???? ???? ??????????????????? ? ? ?????? ? ???? ? ? ??? ??? ? ??? ? ??? ? ??? ? ??? ? ? ??????????????????? ? ??? ?? ?? ? ? ? ???? ? ? ? ???? ??? ??? ??? ???? ???? ??????????????????? ?? ????? ? ? ????? ? ??? ??? ?? ? ??? ? ?? ? ??????????????????? ? ??? ?? ?? ? ??????? ? ? ?????? ? ? ???? ?????????????????? ???????????????????? ??????????????????? ??????????????????? ??????????????????? ??????????????????? ?????????????? ???????????????????? ?????????????????????? ???????????????????? data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 9/14 rev 1 b typical performance characteristics - continued t a = 25c, v s = +5v, r f = r g =10k, r l = 10k to v s /2, g = 2; unless otherwise noted. ?? ?? ?? ?? ?? ?? ??? ??? ??? ???????????????????????????? ? ? ??????? ? ?? ?? ?? ?? ???? ??? ? ?? ??? ???????????????????????????? ??????????????? ? ? ????? ?? ?? ?? ?? ?? ?? ????????? ? ? ???? ? ? ?????? ?? ?? ?? ???? ??? ? ?? ??????????????? ? ?? ??? ? ?? ? ? ???? ? ?? ?? ?? ?? ?? ?? ????????? ? ? ???? ? ? ?????? ?? ?? ?? ????? ???? ??? ? ?? ??? ???? ??????????????? ? ? ???? ? ???? ??? ? ?? ??????? ? ? ?????????? ? ????? ??? ??? ?? ? ????????????????? ??? ?????? ????? ????? ???? ??? ? ?? ??? ??????????????? ? ? ??????? ? ????? ??? ??? ?? ? ? ????????????????? ??? ??? ?? ? ? ???????? ? ?????? ??? ????? ?? ?? ??? ???? ?????????????????? ?) ? ? ????? ? ? ??????? ? ?? ? ?? ??? ???? ?????????????????? ??????????????? ???????? ? ? ????? ? ? ???? ? ? ? ???????? ? ? ????? ? ? ???? ? ? ? ???????? ??????? s/div) . data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 10/14 rev 1 b typical performance characteristics - continued t a = 25c, v s = +5v, r f = r g =10k, r l = 10k to v s /2, g = 2; unless otherwise noted. ? ??? ????? ? ???? ??? ? ?? ???? ? ?? ??? ? ?? ?? ????? ? ??? ??????????????? ? ? ??? ? ? ?? ? ? ? ? ? ?? ? ?? ???? ? ? ????????? ??? ?? ?? ? ? ?????????? ? ?? ??? ? ? ?? ? ? ? ? ? ?? ? ?? ???? ? ? ?????????? ??? ?? ?? ? ? ???? ?? ???? ? ??? ? ??? ? ?? ??? ? ??? ???? ? ??? ??? ??? ??? ? ?????????????????? ? ? ????????? ?? ???? ???? ? ??? ?? ?? ?? ?? ? ? ? ? ?????????????????? ? ?? ??? ? ? ?? ?? ?? ?? ?? ?? ??????????????????????????????????????? ? ? ????? ? ?????????????? ? ? ? ? ??? ? ??? ? ??? ? ??????????????????????????????????????? ?????????????????? ?????????????? ? ??? ???? ? ??? ??? ??? ??? ? ?????????????????? ? ? ????? ? ?? ??? ? ?? ?? ???? ???? ? ??? ??? ??? ? ?? ?? ?? ?? ?????????????????? ???????????????? ????????????????????? ??????????????????????????? ?????????????????????????? ?????????????????????????? ?????????????????????????? ?????????????????????????? ? ? ???? ? ???? ? io vs. supply voltage v io vs. cmr 2.7v v io vs. cmr +5v data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation i n or der to determine p d , the power dissipated in the load needs to be subtracted from the total power delivered by 11/14 rev 1b application information general description the clc1020 is a single supply, general purpose, voltage- feedback amplifer fabricated on a cmos process. the clc1020 offers 2.1mhz gain bandwidth product, 2.7v/s slew rate, and only 127a supply current. it features a rail to rail output stage and is unity gain stable. the common mode input range extends to 400mv below ground and to 700mv below vs. exceeding these values will not cause phase reversal. however, if the input voltage exceeds the rails by more than 0.5v, the input esd devices will begin to conduct. the output will stay at the rail during this overdrive condition. the output stage is short circuit protected and offers soft saturation protection that improves recovery time. figures 1, 2, and 3 illustrate typical circuit confgurations for non- inverting, inverting, and unity gain topologies for dual supply applications. they show the recommended bypass capacitor values and overall closed loop gain equations. figure 4 shows the typical non-inverting gain circuit for single supply applications + - r f 0.1f 6.8f output g = 1 + ( r f /r g ) input +v s -v s r g 0.1f 6.8f r l figure 1. typical non-inverting gain circuit + - r f 0.1f 6.8f output g = - ( r f /r g ) for optimum input offset voltage set r 1 = r f || r g input +v s -v s 0.1f 6.8f r l r g r 1 figure 2. typical inverting gain circuit + - 0.1f 6.8f output g = 1 input +v s -v s 0.1f 6.8f r l figure 3. unity gain circuit + - r f 0.1f 6.8f output input +v s r g r l figure 4. single supply non-inverting gain circuit power dissipation power dissipation should not be a factor when operating under the stated 2k load condition. however, applications with low impedance, dc coupled loads should be analyzed to ensure that maximum allowed junction temperature is not exceeded. guidelines listed below can be used to verify that the particular application will not cause the device to operate beyond its intended operating range. maximum power levels are set by the absolute maximum junction rating of 150c. to calculate the junction temperature, the package thermal resistance value thetaja (? ja ) is used along with the total die power dissipation. t junction = t ambient + (? ja p d ) where t ambient is the temperature of the working environment. data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 12/14 rev 1 b the supplies. p d = p supply - p load supply power is calculated by the standard power equation. p supply = v supply i rms supply v supply = v s+ - v s- power delivered to a purely resistive load is: p load = ((v load ) rms 2 )/rload eff the effective load resistor (rload eff ) will need to include the effect of the feedback network. for instance, rload eff in figure 3 would be calculated as: r l || (r f + r g ) these measurements are basic and are relatively easy to perform with standard lab equipment. for design purposes however, prior knowledge of actual signal levels and load impedance is needed to determine the dissipated power. here, p d can be found from p d = p quiescent + p dynamic - p load quiescent power can be derived from the specifed i s values along with known supply voltage, v supply . load power can be calculated as above with the desired signal amplitudes using: (v load ) rms = v peak / 2 ( i load ) rms = ( v load ) rms / rload eff the dynamic power is focused primarily within the output stage driving the load. this value can be calculated as: p dynamic = (v s+ - v load ) rms ( i load ) rms assuming the load is referenced in the middle of the power rails or vsupply/2. the clc1020 is short circuit protected. however, this may not guarantee that the maximum junction temperature (+150c) is not exceeded under all conditions. driving capacitive loads increased phase delay at the output due to capacitive loading can cause ringing, peaking in the frequency response, and possible unstable behavior. use a series resistance, r s , between the amplifer and the load to help improve stability and settling performance. refer to figure 5. + - r f input output r g r s c l r l figure 5. addition of r s for driving capacitive loads for a given load capacitance, adjust r s to optimize the tradeoff between settling time and bandwidth. in general, reducing r s will increase bandwidth at the expense of additional overshoot and ringing. overdrive recovery an overdrive condition is defned as the point when either one of the inputs or the output exceed their specifed voltage range. overdrive recovery is the time needed for the amplifer to return to its normal or linear operating point. the recovery time varies, based on whether the input or output is overdriven and by how much the range is exceeded. the clc1020 and will typically recover in less than 5us from an overdrive condition. figure 6 shows the clc1020 in an overdriven condition. ?? ?? ?? ? ? ? ? ? ?? ?? ?? ?? ??? ????????????? ?????? s) ? ? ????????? ? ? ????? ? ? ? ???????? ???????????? ????????????? ????????????????? ?????????????? ?????? ????? ???? ????? ?????? ???? ??? ??? ??? ??? ????? ???????? ???? ?? ????????? ?????????????????????????????????????? ??????????????????????????????????????????? ??????????????????????????? ? ????????????????????????????????? data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 13/14 rev 1 b supply decoupling ? place the 6.8f capacitor within 0.75 inches of the power pin ? place the 0.1f capacitor within 0.1 inches of the power pin ? remove the ground plane under and around the part, especially near the input and output pins to reduce parasitic capacitance ? minimize all trace lengths to reduce series inductances evaluation board information the following evaluation boards are available to aid in the testing and layout of these devices: evaluation board # products ceb004 clc1020 in tsot evaluation board schematics evaluation board schematics and layouts are shown in figures 7-11. these evaluation boards are built for dual supply operation. follow these steps to use the board in a single-supply application: 1. short -vs to ground. 2. use c3 (6.8f) and c4 (0.1f), if the -v s pin of the amplifer is not directly connected to the ground plane. figure 7. ceb004 schematic figure 8. ceb004 top view figure 9. ceb004 bottom view r l + - r f 0.1f 6.8f output input +v s r g 0.1f 6.8f r l r in -v s 1 3 2 5 4 r out data sheet clc1020 gener al purpose, rail to rail output ampli ier rev 1b
?2009-2013 exar corporation 14/14 rev 1 b mechanical dimensions tsot-5 package notes: 1. all dimensions are in millimeters. 2. package length does not include interlead falsh or protrusion 3. package width does notinclude interlead falsh or protrusion. 4. lead coplanarity (bottom of leads after forming) shall be 0.10 millimeters max. 5. drawing confroms to jedec mo-193, variation aa. 6. drawing is not to scale. 2.60 3.00 2.80 1.50 1.70 5 4 1 3 0.84 0.90 0.00 0.10 1.00max 0.30 0.50 0.95bsc see detail ?a ? 0.03 0.20 detail ?a ? 0.215 0.265 0.45 0.30 0.50 gauge plane 0.25 bsc r0.150(ref) 0 ~ 8 data sheet clc1020 gener al purpose, rail to rail output amplifier rev 1b for further assistance: exar corporation headquarters and sales offces 48720 kato road tel.: +1 (510) 668-7000 fremont, ca 94538 - usa fax: +1 (510) 668-7001 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 specifc 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 signifcantly 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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