for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim?s website at www.maxim integrated .com. general description the max3000e/max3001e/max3002?ax3012 8-channel l evel translators provide the level shifting nec- essary to allow data transfer in a multivoltage system.externally applied voltages, v cc and v l , set the logic lev- els on either side of the device. logic signals present onthe v l side of the device appear as a higher voltage logic signal on the v cc side of the device, and vice-versa. the max3000e/max3001e/max3002/max3003 use anarchitecture specifically designed to be bidirectional without the use of a directional pin. the max3000e/max3001e/max3002/max3004?ax3012 feature an en input that, when low, reduces the v cc and v l supply currents to < 2?. the max3000e/max3001e also have ?5kv esd protection on the i/o v cc side for greater protection in applications that route si gnals externally. the max3000e operates at a guaranteed datarate of 230kbps. the max3001e operates at a guaranteed data rate of 4mbps. the max3002?ax3012 operate at a guaranteed data rate of 20mbps over the entire specified operating voltage range. the max3000e/max3001e/max3002?ax3012 accept v l voltages from +1.2v to +5.5v and v cc voltages from +1.65v to +5.5v, making them ideal for data transferbetween low-voltage asics/plds and higher voltage systems. the max3000e/max3001e/max3002� max3012 are available in 20-bump ucsp�, 20-pin tqfn (5mm x 5mm), and 20-pin tssop packages. applications cmos logic-level translationcellphones spi� and microwire� level translation low-voltage asic level translation smart card readers cellphone cradles portable pos systems portable communication devices low-cost serial interfaces gps telecommunications equipment features ? guaranteed data rate options 230kbps (max3000e)4mbps (max3001e) 20mbps (max3002?ax3012) ? bidirectional level translation without using adirectional pin (max3000e/max3001e/max3002/ max3003) ? unidirectional level translation(max3004?ax3012) ? operation down to +1.2v on v l ? ?5kv esd protection on i/o v cc lines (max3000e/max3001e) ? ultra-low 0.1? supply current in shutdown ? low quiescent current (< 10?) ? ucsp, tqfn, and tssop packages +1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators max3000emax3001e max3002� max3012 +1.8v +3.3v +1.8v system controller +3.3v system data data gnd v l v cc i/o v cc_ i/o v l_ en typical operating circuit ucsp is a trademark of maxim integrated products, inc. spi is a trademark of motorola, inc. microwire is a trademark of national semiconductor. pin configurations and functional diagrams appear at end of data sheet. note: all devices operate over the -40? to +85? operating temperature range. ordering information continued at end of data sheet. part temp range pin-package max3000e eup -40? to +85? 20 tssop max3000eebp-t -40? to +85? 4 x 5 ucsp ordering information 19-2672; rev 5; 8/08 max3000e/max3001e/ max3002Cmax3012 downloaded from: http:/// available
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators absolute maximum ratings stresses beyond those listed under ?bsolute maximum 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. (all voltages referenced to gnd.)v cc ...........................................................................-0.3v to +6v v l........................................................................................... -0.3v to +6v i/o v cc_ ......................................................-0.3v to (v cc + 0.3v) i/o v l_ ...........................................................-0.3v to (v l + 0.3v) en, en a/b ...............................................................-0.3v to +6v short-circuit duration i/o v l_ , i/o v cc_ to gnd .......continuous continuous power dissipation (t a = +70?) 20-pin tssop (derate 7.0mw/? above +70?) .........559mw 20-bump ucsp (derate 10mw/? above +70?) .......800mw 20-pin 5mm x 5mm tqfn (derate 20.0mw/�c above +70�c) .....................................1667mw operating temperature ranges MAX3001EAUP ..............................................-40? to +125? max300_ee_p .................................................-40? to +85? max30_ _e_p ..................................................-40? to +85? junction temperature ......................................................+150? storage temperature range .............................-65? to +150? lead temperature (soldering, 10s) .................................+300? electrical characteristics(v cc = +1.65v to +5.5v, v l = +1.2v to v cc , en = v l (max3000e/max3001e/max3002/max3004?ax3012), en a/b = v l or 0 (max3003), t a = t min to t max . typical values are at v cc = +1.65v, v l = +1.2v, and t a = +25?.) (notes 1, 2) parameter symbol conditions min typ max units power supplies v l supply range v l 1.2 v cc v v cc supply range v cc 1.65 5.50 v i/o v cc _ = 0, i/o v l _ = 0 or i/o v cc _ = v cc , i/o v l _ = v l , max3000e/max3002?ax3012 0.1 10 supply current from v cc i qvcc i/o v cc _ = 0, i/o v l _ = 0 or i/o v cc _ = v cc , i/o v l _ = v l , max3001e 0.1 50 ? i/o v cc _ = 0, i/o v l _ = 0 or i/o v cc _ = v cc , i/o v l _ = v l , max3000e/max3002?ax3012 0.1 10 supply current from v l i qvl i/o v cc _ = 0, i/o v l _ = 0 or i/o v cc _ = v cc , i/o v l _ = v l , max3001e 0.1 50 ? t a = +25 c, en = 0, max3000e/max3001e/max3002/max3004?ax3012 0.1 2 v cc shutdown supply current i shdn-vcc t a = +25 c, en a/b = 0, max3003 0.1 2 ? t a = +25 c, en = 0, max3000e/max3001e/max3002/max3004?ax3012 0.1 2 v l shutdown supply current i shdn-vl t a = +25 c, en a/b = 0, max3003 0.1 2 ? max3000e/max3001e/max3002Cmax3012 2 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators electrical characteristics (continued)(v cc = +1.65v to +5.5v, v l = +1.2v to v cc , en = v l (max3000e/max3001e/max3002/max3004?ax3012), en a/b = v l or 0 (max3003), t a = t min to t max . typical values are at v cc = +1.65v, v l = +1.2v, and t a = +25?.) (notes 1, 2) parameter symbol conditions min typ max units t a = +25 c, en = 0, max3000e/max3001e/max3002/max3004?ax3012 0.1 2 i/o v cc _ three-state output leakage current t a = +25 c, en a/b = 0, max3003 0.1 2 ? i/o v l _ three-state output leakage current en a/b = 0, max3003 0.1 2 ? i/o v l _ pulldown resistance during shutdown en = 0,max3000e/max3001e/max3002/ max3004?ax3012 4.59 8.30 k e n or en a/b inp ut leakag e c ur rent t a = +25 c1 � a logic-level thresholds i/o v l _ input-voltage high threshold v ihl 2/3 x v l v i/o v l _ input-voltage low threshold v ill 1/3 x v l v i/o v cc _ input-voltage high threshold v ihc 2/3 x v cc v i/o v cc _ input-voltage low threshold v ilc 1/3 x v cc v en, en a/b input-voltage highthreshold v ih v l - 0.4 v en, en a/b input-voltage lowthreshold v il 0.4 v i/o v l _ output-voltage high v ohl i/o v l _ source current = 20?, i/o v cc _ v cc - 0.4v v l - 0.4 v i/o v l _ output-voltage low v oll i/o v l _ sink current = 20?, i/o v cc _ 0.4v 0.4 v i/o v cc _ output-voltage high v ohc i/o v cc_ source current = 20?, i/o v l _ v l - 0.4v v cc - 0.4 v i/o v cc _ output-voltage low v olc i/o v cc sink current = 20?, i/o v l _ 0.4v 0.4 v esd protection i/o v cc _ human body model,max3000e/max3001e ?5 kv max3000e/max3001e/max3002Cmax3012 maxim integrated 3 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators timing characteristics(v cc = +1.65v to +5.5v, v l = +1.2v to v cc , en = v l (max3000e/max3001e/max3002/max3004?ax3012), en a/b = v l or 0 (max3003), t a = t min to t max . typical values are at v cc = +1.65v, v l = +1.2v, and t a = +25?.) (notes 1, 2) parameter sym b o l conditions min typ max units r s = 50 , c vcc = 50p f, m ax 3000e , fi g ur es 1a, 1b 400 800 1200 r s = 50 , c vcc = 50p f, m ax 3001e , fi g ur es 1a, 1b 25 50 i/o v cc _ rise time t rvcc r s = 50 , c vcc = 50p f, m ax 3002�m ax 3012, fi g ur es 1a, 1b 15 ns r s = 50 , c vcc = 50p f, m ax 3000e , fi g ur es 1a, 1b 400 800 1200 r s = 50 , c vcc = 50p f, m ax 3001e , fi g ur es 1a, 1b 25 50 i/o v cc _ fall time t fvcc r s = 50 , c vcc = 50p f, m ax 3002�m ax 3012, fi g ur es 1a, 1b 15 ns r s = 50 , c vl = 50p f, m ax 3000e , fi g ur es 2a, 2b 400 800 1200 r s = 50 , c vl = 50p f, m ax 3001e , fi g ur es 2a, 2b 25 50 i/o v l _ rise time t rvl r s = 50 , c vl = 15p f, m ax 3002�m ax 3012, fi g ur es 2a, 2b 15 ns r s = 50 , c vl = 50p f, m ax 3000e , fi g ur es 2a, 2b 400 800 1200 r s = 50 , c vl = 50p f, m ax 3001e , fi g ur es 2a, 2b 25 65 i/o v l _ fall time t fvl r s = 50 , c vl = 15p f, m ax 3002�m ax 3012, fi g ur es 2a, 2b 15 ns r s = 50 , c vcc = 50p f, m ax 3000e , fi g ur es 1a, 1b 1000 r s = 50 , c vcc = 50p f, m ax 3001e , fi g ur es 1a, 1b 50 propagation delay(driving i/o v l _) i/o vl-vcc r s = 50 , c vcc = 50p f, m ax 3002�m ax 3012, fi g ur es 1a, 1b 20 ns r s = 50 , c vl = 50p f, m ax 3000e , fi g ur es 2a, 2b 1000 r s = 50 , c vl = 50p f, m ax 3001e , fi g ur es 2a, 2b 50 propagation delay(driving i/o v cc _) i/o vcc-vl r s = 50 , c vl = 15p f, m ax 3002�m ax 3012, fi g ur es 2a, 2b 20 ns note 1: all units are 100% production tested at t a = +25?. limits over the operating temperature range are guaranteed by design and not production tested. note 2: for normal operation, ensure that v l < v cc . during power-up, v l > v cc does not damage the device. max3000e/max3001e/max3002Cmax3012 4 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators timing characteristics (continued)(v cc = +1.65v to +5.5v, v l = +1.2v to v cc , en = v l (max3000e/max3001e/max3002/max3004?ax3012), en a/b = v l or 0 (max3003), t a = t min to t max . typical values are at v cc = +1.65v, v l = +1.2v, and t a = +25?.) (notes 1, 2) parameter sym b o l conditions min typ max units r s = 50 , c vcc = 50p f, c vl = 50p f, m ax 3000e 500 r s = 50 , c vcc = 50p f, c vl = 50p f, m ax 3001e 10 channel-to-channel skew t skew r s = 50 , c vcc = 50p f, c vl = 15p f, m ax 3002�m ax 3012 5 ns r s = 50 , c v c c = 50p f, c v l = 50p f, ? t a = + 20�c , max3000e (n ote 3) 800 r s = 50 , c vcc = 50p f, c vl = 50p f, ? t a = + 20�c , m ax 3001e ( n ote 3) 30 part-to-part skew t ppskew r s = 50 , c vcc = 50p f, c vl = 15p f, ? t a = + 20�c , m ax 3002�m ax 3012 ( n ote 3) 10 ns propagation delay fromi/o v l _ to i/o v cc_ after en t en - vcc c vcc = 50p f, m ax 3000e /m ax 3001e , m ax 3002�m ax 3012, fi g ur e 3 2� s c vl = 50p f, m ax 3000e /m ax 3001e / m ax 3002/m ax 3004�m ax 3012, fi g ur e 4 2 propagation delay fromi/o v cc_ to i/o v l _ after en t en - vl c vl = 15p f, m ax 3003, fi g ur e 4 2 ? r s = 50 , c vcc = 50p f, c vl = 50p f, m ax 3000e 230 kbps r s = 50 , c vcc = 50p f, c vl = 50p f, m ax 3001e 4 maximum data rate r s = 50 , c vcc = 50p f, c vl = 15p f, m ax 3002�m ax 3012 20 mbps note 3: v cc from device 1 must equal v cc of device 2; v l from device 1 must equal v l of device 2. max3000e/max3001e/max3002Cmax3012 maxim integrated 5 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators timing characteristics?ax3002?ax3012(v cc = +1.65v to +5.5v, v l = +1.2v to v cc , en = v l (max3002/max3004?ax3012), en a/b = v l or 0 (max3003), t a = t min to t max. ) (notes 1, 2) parameter sym b o l conditions min typ max units +1.2v v l v cc +3.3v i/o v cc _ rise time t rvcc 15 ns i/o v cc _ fall time t fvcc 15 ns i/o v l _ rise time t rvl 15 ns i/o v l _ fall time t fvl 15 ns i/o vl-vcc driving i/o v l _1 5 propagation delay i/o vcc-vl driving i/o v cc _1 5 ns channel-to-channel skew t skew each translator equally loaded 5n s maximum data rate 20 mbps +2.5v v l v cc +3.3v i/o v cc _ rise time t rvcc 8.5 ns i/o v cc _ fall time t fvcc 8.5 ns i/o v l _ rise time t rvl 8.5 ns i/o v l _ fall time t fvl 8.5 ns i/o vl-vcc driving i/o v l _ 8.5 propagation delay i/o vcc-vl driving i/o v cc _ 8.5 ns channel-to-channel skew t skew each translator equally loaded 10 ns maximum data rate 35 mbps +1.8v v l v cc +2.5v i/o v cc _ rise time t rvcc 10 ns i/o v cc _ fall time t fvcc 10 ns i/o v l _ rise time t rvl 10 ns i/o v l _ fall time t fvl 10 ns i/o vl-vcc driving i/o v l _1 5 propagation delay i/o vcc-vl driving i/o v cc _1 0 ns channel-to-channel skew t skew each translator equally loaded 5 ns maximum data rate 30 mbps max3000e/max3001e/max3002Cmax3012 6 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators typical operating characteristics (t a = +25?, unless otherwise noted.) 20001500 1000 500 0 -40 10 - 1 5 3 56 08 5 max3000e/01e/02-12 toc03 temperature ( c) v l supply current ( a) v l supply current vs. temperature (driving i/o v cc , v cc = 3.3v, v l = 1.8v) data rate = 20mbps data rate = 4mbps data rate = 230kbps 0 2000 60004000 8000 10,000 1.5 2.5 3.0 2.0 3.5 4.0 4.5 5.0 5.5 max3000e/01e/02-12 toc02 supply voltage (v) v cc supply current ( a) v cc supply current vs. supply voltage (driving i/o v l , v l = 1.8v) data rate = 230kbps data rate = 4mbps data rate = 20mbps 0 100 200 300 400 500 600 1.5 2.5 2.0 3.0 3.5 4.0 4.5 5.0 5.5 v l supply current vs. supply voltage (driving i/o v l , v l = 1.8v) max3000e/01e/02-12 toc01 supply voltage (v) v l supply current ( a) data rate = 20mbps data rate = 4mbps data rate = 230kbps 0 500 15001000 2000 2500 -40 10 -15 35 60 85 max3000e/01e/02-12 toc04 temperature ( c) v cc supply current ( a) v cc supply current vs. temperature (driving i/o v cc , v cc = 3.3v, v l = 1.8v) data rate = 20mbps data rate = 4mbps data rate = 230kbps 0 20 40 60 80 100 10 40 50 20 30 60 70 80 90 100 max3000e/01e/02-12 toc05 capacitive load (pf) v l supply current ( a) v l supply current vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) data rate = 20mbps data rate = 4mbps data rate = 230kbps 0 20001000 40003000 60005000 7000 10 30 40 20 50 60 70 80 90 100 max3000e/01e/02-12 toc06 capacitive load (pf) v cc supply current ( a) v cc supply current vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) data rate = 20mbps data rate = 4mbps data rate = 230kbps max3000e/01e/02-12 toc07 capacitive load (pf) rise/fall time (ns) 90 80 70 60 50 40 30 20 500 1000 1500 2000 0 10 100 t hl max3000e rise/fall time vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) data rate = 230kbps t lh max3000e/max3001e/max3002Cmax3012 maxim integrated 7 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators typical operating characteristics (continued) (t a = +25?, unless otherwise noted.) 0 10 20 30 40 50 60 10 30 20 40 50 60 70 80 90 100 max3000e/01e/02-12 toc08 capacitive load (pf) rise/fall time (ns) max3001e rise/fall time vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) t hl t lh data rate = 4mbps 86 4 2 0 10 30 20 40 50 max3000e/01e/02-12 toc09 capacitive load (pf) rise/fall time (ns) max3002?ax3012 rise/fall time vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) t lh t hl data rate = 20mbps 0 500 1000 1500 2000 10 20 60 80 100 max3000e/01e/02-12 toc10 capacitive load (pf) rise/fall time (ns) max3000e rise/fall time vs. capacitive load on i/o v l (driving i/o v cc , v cc = 3.3v, v l = 1.8v) 30 40 50 70 90 t lh t hl data rate = 230kbps 0 10 20 30 40 50 60 10 30 20 40 50 60 70 80 90 100 max3000e/01e/02-12 toc11 capacitive load (pf) rise/fall time (ns) max3001e rise/fall time vs. capacitive load on i/o v l (driving i/o v cc , v cc = 3.3v, v l = 1.8v) t hl t lh data rate = 4mbps 43 2 1 0 10 20 15 25 30 max3000e/01e/02-12 toc12 capacitive load (pf) rise/fall time (ns) max3002?ax3012 rise/fall time vs. capacitive load on i/o v l (driving i/o v cc , v cc = 3.3v, v l = 1.8v) t lh t hl data rate = 20mbps 0 100 200 300 400 500 10 40 50 20 30 60 70 80 90 100 max3000e/01e/02-12 toc13 capacitive load (pf) propagation delay (ns) data rate = 230kbps t phl t plh max3000e propagation delay vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) max3000e/max3001e/max3002Cmax3012 8 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators typical operating characteristics (continued) (t a = +25?, unless otherwise noted.) 0 100 200 300 400 500 600 10 30 20 40 50 60 70 80 90 100 max3000e/01e/02-12 toc16 capacitive load (pf) propagation delay (ns) max3000e propagation delay vs. capacitive load on i/o v l (driving i/o v cc , v cc = 3.3v, v l = 1.8v) t phl t plh data rate = 230kbps 0 3 96 12 15 max3000e/01e/02-12 toc17 capacitive load (pf) propagation delay (ns) 10 30 20 40 50 max3001e propagation delay vs. capacitive load on i/o v l (driving i/o v cc , v cc = 3.3v, v l = 1.8v) t plh t phl data rate = 4mbps 0 1 32 4 5 max3000e/01e/02-12 toc18 capacitive load (pf) propagation delay (ns) 10 20 15 25 30 max3002?ax3012 propagation delay vs. capacitive load on i/o v l (driving i/o v cc , v cc = 3.3v, v l = 1.8v) t plh t phl data rate = 20mbps 1 s/div max3000e rail-to-rail driving (driving i/o v l , v cc = 3.3v, v l = 1.8v, cv cc = 50pf, data rate = 230kbps) gnd i/o v l_ 1v/div gnd max3000e/01e/02-12 toc19 i/o v cc_ 2v/div 40ns/div max3001e rail-to-rail driving (driving i/o v l , v cc = 3.3v, v l = 1.8v, cv cc = 50pf, data rate = 4mbps) gnd i/o v l_ 1v/div gnd max3000e/01e/02-12 toc20 i/o v cc_ 2v/div 10ns/div max3002?ax3012 rail-to-rail driving (driving i/o v l , v cc = 3.3v, v l = 1.8v, cv cc = 50pf, data rate = 20mbps) gnd i/o v l_ 1v/div gnd max3000e/01e/02-12 toc21 i/o v cc_ 2v/div 0 10 5 2015 25 30 10 30 20 40 50 max3000e/01e/02-12 toc14 capacitive load (pf) propagation delay (ns) max3001e propagation delay vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) t phl t plh data rate = 4mbps 0 42 86 10 12 10 20 15 25 30 max3000e/01e/02-12 toc15 capacitive load (pf) propagation delay (ns) max3002?ax3012 propagation delay vs. capacitive load on i/o v cc (driving i/o v l , v cc = 3.3v, v l = 1.8v) t phl t plh data rate = 20mbps max3000e/max3001e/max3002Cmax3012 maxim integrated 9 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators pin description pin tssop ucsp tqfn name function 1 b1 19 i/o v l 1 input/output 1, referenced to v l 2a 12 0 v l logic input voltage, +1.2v v l v cc . bypass v l to gnd with a 0.1? capacitor. 3 a2 1 i/o v l 2 input/output 2, referenced to v l 4 b2 2 i/o v l 3 input/output 3, referenced to v l 5 a3 3 i/o v l 4 input/output 4, referenced to v l 6 b3 4 i/o v l 5 input/output 5, referenced to v l 7 a4 5 i/o v l 6 input/output 6, referenced to v l 8 b4 6 i/o v l 7 input/output 7, referenced to v l 9 a5 7 i/o v l 8 input/output 8, referenced to v l 10 b5 8 en enable input. if en is pulled low, i/o v cc 1 to i/o v cc 8 are in three-state, while i/o v l 1 to i/o v l 8 have internal 6k pulldown resistors. drive en high (v l ) for normal operation. 11 c5 9 gnd ground 12 d5 10 i/o v cc 8 input/output 8, referenced to v cc 13 c4 11 i/o v cc 7 input/output 7, referenced to v cc 14 d4 12 i/o v cc 6 input/output 6, referenced to v cc 15 c3 13 i/o v cc 5 input/output 5, referenced to v cc 16 d3 14 i/o v cc 4 input/output 4, referenced to v cc 17 c2 15 i/o v cc 3 input/output 3, referenced to v cc 18 d2 16 i/o v cc 2 input/output 2, referenced to v cc 19 d1 17 v cc v cc input voltage, +1.65v v cc +5.5v. bypass v cc to gnd with a 0.1? capacitor. 20 c1 18 i/o v cc 1 input/output 1, referenced to v cc � � ep ep exposed pad. connect to gnd. max3000e/max3001e/max3002 max3000e/max3001e/max3002Cmax3012 10 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators pin description (continued) pin tssop ucsp tqfn name function 1b 11 9 i/o v l 1a input/output 1a, referenced to v l 2a 12 0 v l logic input voltage, +1.2v v l v cc . bypass v l to gnd with a 0.1? capacitor. 3a 21 i/o v l 2a input/output 2a, referenced to v l 4b 22 i/o v l 3a input/output 3a, referenced to v l 5a 33 i/o v l 4a input/output 4a, referenced to v l 6b 34 i/o v l 1b input/output 1b, referenced to v l 7a 45 i/o v l 2b input/output 2b, referenced to v l 8b 46 i/o v l 3b input/output 3b, referenced to v l 9a 57 i/o v l 4b input/output 4b, referenced to v l 10 b5 8 en a/b enable input. if en a/b is pulled low, channels 1b through 4b are active, and channels1a through 4a are in three-state. if en a/b is driven high to v l , channels 1a through 4a are active, and channels 1b through 4b are in three-state. 11 c5 9 gnd ground 12 d5 10 i/o v cc 4b input/output 4b, referenced to v cc 13 c4 11 i/o v cc 3b input/output 3b, referenced to v cc 14 d4 12 i/o v cc 2b input/output 2b, referenced to v cc 15 c3 13 i/o v cc 1b input/output 1b, referenced to v cc 16 d3 14 i/o v cc 4a input/output 4a, referenced to v cc 17 c2 15 i/o v cc 3a input/output 3a, referenced to v cc 18 d2 16 i/o v cc 2a input/output 2a, referenced to v cc 19 d1 17 v cc v cc input voltage, +1.65v v cc +5.5v. bypass v cc to gnd with a 0.1? capacitor. 20 c1 18 i/o v cc 1a input/output 1a, referenced to v cc � � ep ep exposed pad. connect to gnd. max3003 max3000e/max3001e/max3002Cmax3012 maxim integrated 11 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators pin description (continued) name function (note 1) v cc v cc input voltage, +1.65v < v cc < +5.5v. bypass v cc to gnd with a 0.1? capacitor. v l logic input voltage, +1.2v v l v cc . bypass v l to gnd with a 0.1? capacitor. gnd ground en (max3004) enable input. if en is pulled low, ov cc 1?v cc 8 are in three-state, while iv l 1?v l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3005) enable input. if en is pulled low, iv cc 1 and ov cc 2?v cc 8 are in three-state, while ov l 1 and iv l 2?v l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3006) enable input. if en is pulled low, iv cc 1, iv cc 2, and ov cc 3?v cc 8 are in three-state, while ov l 1, ov l 2, and iv l 3?v l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3007) enable input. if en is pulled low, iv cc 1, iv cc 2, iv cc 3, and ov cc 4?v cc 8 are in three-state, while ov l 1, ov l 2, ov l 3, and iv l 4?v l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3008) enable input. if en is pulled low, iv cc 1?v cc 4 and ov cc 5?v cc 8 are in three-state, while ov l 1?v l 4 and iv l 5?v l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3009) enable input. if en is pulled low, iv cc 1?v cc 5, ov cc 6, ov cc 7, and ov cc 8 are in three-state, while ov l 1?v l 5, iv l 6, iv l 7, and iv l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3010) enable input. if en is pulled low, iv cc 1?v cc 6, ov cc 7, and ov cc 8 are in three-state, while ov l 1?v l 6, iv l 7, and iv l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3011) enable input. if en is pulled low, iv cc 1?v cc 7 and ov cc 8 are in three-state, while ov l 1?v l 7 and iv l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. en (max3012) enable input. if en is pulled low, iv cc 1?v cc 8 are in three-state, while ov l 1?v l 8 have 6k pulldown resistors. drive en high (v l ) for normal operation. iv l 1?v l 8 inputs referenced to v l , numbers 1 to 8 ov l 1?v l 8 outputs referenced to v l , numbers 1 to 8 iv cc 1?v cc 8 inputs referenced to v cc , numbers 1 to 8 ov cc 1?v cc 8 outputs referenced to v cc , numbers 1 to 8 max3004?ax3012note 1: for specific pin numbers, see the pin configurations . max3000e/max3001e/max3002Cmax3012 12 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators ______________________________________________ test circuits/timing diagrams max3000e/max3001e/ max3002/max3003 source r s i/o v l en v l v cc i/o v cc c vcc i/o vl-vcc i/o vl-vcc i/o v cc i/o v l 90%50% 10% 90% 50% 10% t rise/fall 3ns t fvcc t rvcc source r s i/o v l en v l v cc i/o v cc c vl max3000e/max3001e/ max3002/max3003 i/o vcc-vl i/o vcc-vl i/o v l i/o v cc 90%50% 10% 90% 50% 10% t rise/fall 3ns t fvl t rvl figure 1a. driving i/o v l figure 1b. timing for driving i/o v l figure 2a. driving i/o v cc figure 2b. timing for driving i/o v cc max3000e/max3001e/max3002Cmax3012 maxim integrated 13 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators _________________________________ test circuits/timing diagrams (continued) source en i/o v cc i/o v l c vcc v l en i/o v l i/o v cc t' en-vcc v l v l v cc 0 0 source en i/o v cc i/o v l c vcc v l en i/o v l i/o v cc v cc 2 t" en-vcc v l v l v cc 00 0 t en-vcc is whichever is larger between t' en-vcc and t" en-vcc max3000e/max3001e/ max3002/max3003 max3000e/max3001e/ max3002/max3003 v cc 2 figure 3. propagation delay from i/o v l to i/o v cc after en source en i/o v cc i/o v l c vl v cc en i/o v l i/o v cc t' en-vl v l v l v cc 00 0 source en i/o v cc i/o v l c vl v cc en i/o v l i/o v cc t" en-vl v l v l v cc 00 0 t en-vl is whichever is larger between t' en-vl and t" en-vl max3000e/max3001e/ max3002/max3003 max3000e/max3001e/ max3002/max3003 v l 2 v l 2 figure 4. propagation delay from i/o v cc to i/o v l after en max3000e/max3001e/max3002Cmax3012 14 maxim integrated downloaded from: http:///
detailed description the max3000e/max3001e/max3002?ax3012 logic-level translators provide the level shifting necessary to allow data transfer in a multivoltage system. externally applied voltages, v cc and v l , set the logic levels on either side of the device. logic signals present on thev l side of the device appear as a higher voltage logic signal on the v cc side of the device, and vice-versa. the max3000e/max3001e/max3002/max3003 arebidirectional level translators allowing data translation in either direction (v l ? v cc ) on any single data line. these devices use an architecture specificallydesigned to be bidirectional without the use of a direc- tion pin. the max3004?ax3012 unidirectional level translators level shift data in one direction (v l v cc or v cc v l ) on any single data line. the max3000e/max3001e/ max3002?ax3012 accept v l from +1.2v to +5.5v. all devices have v cc ranging from +1.65v to +5.5v, making them ideal for data trans-fer between low-voltage asics/plds and higher volt- age systems. the max3000e/max3001e/max3002/max3004� max3012 feature an output enable mode that reduces v cc supply current to less than 2?, and v l supply current to less than 2? when in shutdown. themax3000e/max3001e have ?5kv esd protection on the v cc side for greater protection in applications that route signals externally. the max3000e operates at aguaranteed data rate of 230kbps; the max3001e oper- ates at a guaranteed data rate of 4mbps and the max3002?ax3012 are guaranteed with a data rate of 20mbps of operation over the entire specified operating voltage range. level translation for proper operation, ensure that +1.65v v cc +5.5v, +1.2v v l +5.5v, and v l v cc . during power-up sequencing, v l v cc does not damage the device. during power-supply sequencing, when v cc is floating and v l is powering up, up to 10ma current can be sourced to each load on the v l side, yet the device does not latch up. the maximum data rate also depends heavily on the load capacitance (see the typical operating characteristics ), output impedance of the driver, and the operational voltage range (see the timing characteristics table). input driver requirements the max3001e/max3002?ax3012 architecture isbased on a one-shot accelerator output stage. see figure 5. accelerator output stages are always in three- state except when there is a transition on any of thetranslators on the input side, either i/o v l or i/o v cc . when there is such a transition, the accelerator stagesbecome active, charging (discharging) the capacitances at the i/os. due to its bidirectional nature, both stages become active during the one-shot pulse. this can lead to some current feeding into the external source that is driving the translator. however, this behavior helps to speed up the transition on the driven side. for proper full-speed operation, the output current of a device that drives the inputs of the max3000e/ max3001e/max3002?ax3012 should meet the fol- lowing requirements: � max3000e (230kbps): i > 1ma, r drv < 1k � max3001e (4mbps): i > 10 7 x v x (c + 10pf) � max3002?ax3012 (20mbps): i > 10 8 x v x (c + 10pf) where i is the driver output current, v is the logic-supplyvoltage (i.e., v l or v cc ) and c is the parasitic capaci- tance of the signal line. enable output mode (en, en a/b) the max3000e/max3001e/max3002 and the max3004�max3012 feature an en input, and the max3003 has an en a/b input. pull en low to set the max3000e/ max3001e/max3002/max3004?ax3012s?i/o v cc 1 through i/o v cc 8 in three-state output mode, while i/o v l 1 through i/o v l 8 have internal 6k pulldown resistors. drive en to logic-high (v l ) for normal operation. the max3003 is intended for bus multiplexing or bus switch-ing applications. drive en a/b low to place channels 1b through 4b in active mode, while channels 1a through 4a are in three-state mode. drive en a/b to logic-high (v l ) to enable channels 1a through 4a, while channels 1b through 4b remain in three-state mode. ?5kv esd protection as with all maxim devices, esd-protection structuresare incorporated on all pins to protect against electro- static discharges encountered during handling and assembly. the i/o v cc lines have extra protection against static discharge. maxim? engineers havedeveloped state-of-the-art structures to protect these pins against esd of ?5kv without damage. the esd structures withstand high esd in all states: normal operation, three-state output mode, and powered down. after an esd event, maxim? e versions keep working without latchup, whereas competing products can latch and must be powered down to remove latchup. +1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators max3000e/max3001e/max3002Cmax3012 maxim integrated 15 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators esd protection can be tested in various ways. thei/o v cc lines of the max3000e/max3001e are char- acterized for protection to ?5kv using the humanbody model. esd test conditions esd performance depends on a variety of conditions.contact maxim for a reliability report that documents test setup, test methodology, and test results. human body model figure 7a shows the human body model and figure 7bshows the current waveform it generates when dis- charged into a low impedance. this model consists of a 100pf capacitor charged to the esd voltage of interest, which is then discharged into the test device through a 1.5k resistor. machine model the machine model for esd tests all pins using a200pf storage capacitor and zero discharge resis- tance. its objective is to emulate the stress caused by contact that occurs with handling and assembly during manufacturing. of course, all pins require this protec- tion during manufacturing, not just inputs and outputs. therefore, after pcb assembly, the machine model is less relevant to i/o ports. p one-shot v cc v l i/o v l i/o v cc 6k 6k i/o v cc_ to i/o v l_ path i/o v l_ to i/o v cc_ path n one-shot p one-shot n one-shot figure 5. max3001e/max3002?ax3012 simplified functional diagram (1 i/o line) 0 v th_in / 6k -(v s - v th_in ) / 6k i in v th_in v s v in where v s = v cc or v l figure 6. typical i in vs. v in max3000e/max3001e/max3002Cmax3012 16 maxim integrated downloaded from: http:///
applications information power-supply decoupling to reduce ripple and the chance of transmitting incor-rect data, bypass v l and v cc to ground with a 0.1? capacitor. to ensure full ?5kv esd protection, bypassv cc to ground with a 1? capacitor. place all capaci- tors as close to the power-supply inputs as possible. i 2 c level translation for i 2 c level translation for i 2 c applications, please refer to the max3372e?ax3379e/max3390e?ax3393edatasheet. unidirectional vs. bidirectional level translator the max3000e/max3001e/max3002/max3003 bidi-rectional translators can operate as a unidirectional device to translate signals without inversion. the max3004?ax3012 unidirecitional level translators, level-shift data in one direction (v l v cc or v cc v l) on any single data line (see the ordering information .) these devices provide the smallest solution (ucsppackage) for unidirectional level translation without inversion. +1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators max3000e/max3001e/max3002Cmax3012 maxim integrated 17 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators high- voltage dc source device under test r c 1m r d 1500 charge-current- limit resistor discharge resistance storage capacitor c s 100pf figure 7a. human body esd test model 100% 90% 36.8% t rl t dl time current waveform peak-to-peak ringing (not drawn to scale) 10% 0 0 amperes i p i r figure 7b. human body current waveform part en en a/b tx/rx* data rate esd protection (kv) max3000e � 8/8 230kbps ? 15 max3001e � 8/8 4mbps ? 15 max3002 � 8/8 ** � 2 max3003 � 8/8 ** � 2 max3004 � 8/0 ** � 2 max3005 � 7/1 ** � 2 max3006 � 6/2 ** � 2 max3007 � 5/3 ** � 2 max3008 � 4/4 ** � 2 max3009 � 3/5 ** � 2 max3010 � 2/6 ** � 2 max3011 � 1/7 ** � 2 max3012 � 0/8 ** � 2 selector guide * t x = v l v cc ; r x = v cc v l ** see table 1. v l ? v cc (v) max3002?ax3012 guaranteed data rate (mbps) 1.2 ? 5.5 40 1.2 ? 3.3 20 2.5 ? 3.3 35 1.8 ? 2.5 30 1.2 ? 2.5 20 1.2 ? 1.8 20 table 1. data rate max3000e/max3001e/max3002Cmax3012 18 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators max3000e/ max3001e/max3002 v l v cc en i/o v l 1 i/o v l 2 i/o v l 3 i/o v l 4 i/o v l 5 i/o v l 6 i/o v l 7 i/o v l 8 i/o v cc 8 i/o v cc 7 i/o v cc 6 i/o v cc 5 i/o v cc 4 i/o v cc 3 i/o v cc 2 i/o v cc 1 gnd max3000e/max3001e/max3002 functional diagram max3000e/max3001e/max3002Cmax3012 maxim integrated 19 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators max3003 v l v cc en a/b i/o v l 1a i/o v l 2a i/o v l 3a i/o v l 4a i/o v l 1b i/o v l 2b i/o v l 3b i/o v l 4b i/o v cc 4b i/o v cc 3b i/o v cc 2b i/o v cc 1b i/o v cc 4a i/o v cc 3a i/o v cc 2a i/o v cc 1a gnd max3003 functional diagram max3000e/max3001e/max3002Cmax3012 20 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators max3000e/max3001e/max3002 max3004?ax3012 20 ucsp (bottom view) max3003 20 ucsp (bottom view) i/o v cc 2 v cc i/o v cc 4i/o v cc 6 i/o v cc 3 i/o v cc 1i / o v cc 5i/o v cc 7 i/o v l 3 i/o v l 1i / o v l 5i/o v l 7 i/o v l 2 v l i/o v l 4i/o v l 6 i/o v cc 8 gnd en i/o v l 8 1 ba c d 2345 i/o v cc 4a v cc i/o v cc 2b i/o v cc 4b i/o v cc 1b i/o v cc 1a i/o v cc 3b gnd i/o v l 1b i/o v l 1a i/o v l 3b en a/b i/o v l 4a v l i/o v l 2b i/o v l 4b i/o v cc 2a i/o v cc 3a i/o v l 3a i/o v l 2a 1 ba c d 345 2 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l i/o v l 1 i/o v l 2 i/o v l 3 i/o v l 4 i/o v l 5 i/o v l 6 i/o v l 7 i/o v l 8 en top view 1211 9 10 i/o v cc 8 i/o v cc 7 i/o v cc 6 i/o v cc 5 i/o v cc 4 i/o v cc 3 i/o v cc 2 v cc i/o v cc 1 gnd max3000e/max3001e/max3002 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l i/o v l 1a i/o v l 2a i/o v l 3a i/o v l 4a i/o v l 1b i/o v l 2b i/o v l 3b i/o v l 4b en a/b 1211 9 10 i/o v cc 4b i/o v cc 3b i/o v cc 2b i/o v cc 1b i/o v cc 4a i/o v cc 3a i/o v cc 2a v cc i/o v cc 1a gnd max3003 tssop 2019 18 17 v l i/o v l 1a i/o v cc 1a v cc 16 i/o v cc 2a 1312 11 14 15 i/o v cc 2b *exposed paddle i/o v cc 1b i/o v cc 4a i/o v cc 3a i/o v cc 3b 4 3 2 1 i/o v l 1b i/o v l 4a i/o v l 3a i/o v l 2a 5 i/o v l 2b 67 8 9 i/o v l 3b i/o v l 4b en a/b i/o v cc 4b 10 gnd top view 5mm ? 5mm thin qfn max3003 2019 18 17 v l i/o v l 1 i/o v cc 1 v cc 16 i/o v cc 2 1312 11 14 15 i/o v cc 6 *exposed paddle i/o v cc 5 i/o v cc 4 i/o v cc 3 i/o v cc 7 4 3 2 1 i/o v l 5 i/o v l 4 i/o v l 3 i/o v l 2 5 i/o v l 6 67 8 9 i/o v l 7 i/o v l 8 en gnd 10 i/o v cc 8 5mm ? 5mm thin qfn max3000e/max3001e/ max3002 pin configurations max3000e/max3001e/max3002Cmax3012 maxim integrated 21 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l i v l 1 i v l 2 i v l 3 i v l 4 i v l 5 i v l 6 i v l 7 i v l 8 en top view 1211 9 10 o v cc 8 o v cc 7 o v cc 6 o v cc 5 o v cc 4 o v cc 3 o v cc 2 v cc o v cc 1 gnd max3004 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 i v l 2 i v l 3 i v l 4 i v l 5 i v l 6 i v l 7 i v l 8 en 1211 9 10 o v cc 8 o v cc 7 o v cc 6 o v cc 5 o v cc 4 o v cc 3 o v cc 2 v cc i v cc 1 gnd max3005 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 i v l 3 i v l 4 i v l 5 i v l 6 i v l 7 i v l 8 en 1211 9 10 o v cc 8 o v cc 7 o v cc 6 o v cc 5 o v cc 4 o v cc 3 i v cc 2 v cc i v cc 1 gnd max3006 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 o v l 3 i v l 4 i v l 5 i v l 6 i v l 7 i v l 8 en 1211 9 10 o v cc 8 o v cc 7 o v cc 6 o v cc 5 o v cc 4 i v cc 3 i v cc 2 v cc i v cc 1 gnd max3007 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 o v l 3 o v l 4 i v l 5 i v l 6 i v l 7 i v l 8 en 1211 9 10 o v cc 8 o v cc 7 o v cc 6 o v cc 5 i v cc 4 i v cc 3 i v cc 2 v cc i v cc 1 gnd max3008 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 o v l 3 o v l 4 o v l 5 i v l 6 i v l 7 i v l 8 en 1211 9 10 o v cc 8 o v cc 7 o v cc 6 i v cc 5 i v cc 4 i v cc 3 i v cc 2 v cc i v cc 1 gnd max3009 tssop pin configurations (continued) max3000e/max3001e/max3002Cmax3012 22 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 o v l 3 o v l 4 o v l 5 o v l 6 i v l 7 i v l 8 en 1211 9 10 o v cc 8 o v cc 7 i v cc 6 i v cc 5 i v cc 4 i v cc 3 i v cc 2 v cc i v cc 1 gnd max3010 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 o v l 3 o v l 4 o v l 5 o v l 6 o v l 7 i v l 8 en 1211 9 10 o v cc 8 i v cc 7 i v cc 6 i v cc 5 i v cc 4 i v cc 3 i v cc 2 v cc i v cc 1 gnd max3011 tssop 2019 18 17 16 15 14 13 12 3 4 5 6 7 8 v l o v l 1 o v l 2 o v l 3 o v l 4 o v l 5 o v l 6 o v l 7 o v l 8 en 1211 9 10 i v cc 8 i v cc 7 i v cc 6 i v cc 5 i v cc 4 i v cc 3 i v cc 2 v cc i v cc 1 gnd max3012 tssop top view pin configurations (continued) ordering information (continued) * future product?ontact factory for availability. -t = tape-and-reel package. part temp range pin-package max3001e eup -40? to +85? 20 tssop max3001eebp-t* -40? to +85? 4 x 5 ucsp max3001eetp -40? to +85? 20 tqfn MAX3001EAUP -40? to +125? 20 tssop max3002 eup -40? to +85? 20 tssop max3002ebp-t* -40? to +85? 4 x 5 ucsp max3002etp -40? to +85? 20 tqfn max3003 eup -40? to +85? 20 tssop max3003ebp-t* -40? to +85? 4 x 5 ucsp max3003etp -40? to +85? 20 tqfn max3004 eup -40? to +85? 20 tssop max3004ebp-t* -40? to +85? 4 x 5 ucsp max3005 eup -40? to +85? 20 tssop max3005ebp-t* -40? to +85? 4 x 5 ucsp max3006 eup -40? to +85? 20 tssop max3006ebp-t* -40? to +85? 4 x 5 ucsp part temp range pin-package max3007 eup -40? to +85? 20 tssop max3007ebp-t* -40? to +85? 4 x 5 ucsp max3008 eup -40? to +85? 20 tssop max3008ebp-t* -40? to +85? 4 x 5 ucsp max3009 eup -40? to +85? 20 tssop max3009ebp-t* -40? to +85? 4 x 5 ucsp max3010 eup -40? to +85? 20 tssop max3010ebp-t* -40? to +85? 4 x 5 ucsp max3011 eup -40? to +85? 20 tssop max3011ebp-t* -40? to +85? 4 x 5 ucsp max3012 eup -40? to +85? 20 tssop max3012ebp-t* -40? to +85? 4 x 5 ucsp chip information transistor count: 1184process: bicmos max3000e/max3001e/max3002Cmax3012 maxim integrated 23 downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators package type package code document no. 20 tssop u20-3 21-0066 20 tqfn t2055-4 21-0140 4 x 5 ucsp b20-1 21-0095 package information for the latest package outline information and land patterns, go to www.maxim-ic.com/packages . max3000e/max3001e/max3002Cmax3012 24 maxim integrated downloaded from: http:///
+1.2v to +5.5v, ?5kv esd-protected, 0.1?, 35mbps, 8-channel level translators revision history revision number revision date description pages changed 4 12/06 added tqfn packages 1, 2, 3, 10, 11, 15, 16, 21, 23?6 5 8/08 changed pin description and package drawing 1, 10, 11, 23 max3000e/max3001e/max3002Cmax3012 downloaded from: http:/// ���� �0�d�[�l�p���,�q�w�h�j�u�d�w�h�g�������������5�l�r���5�r�e�o�h�v�����6�d�q���-�r�v�h�����&�$���������������8�6�$�������������������������������� maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circuit patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. the parametric values (min and max limits) shown in the electrical characteristics table are guaranteed. other parametric values quoted in this data sheet are provided for guidance. ? �������� maxim integrated the maxim logo and maxim integrated are trademarks of maxim integrated products, inc.
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