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general description the max5005/max5006/MAX5007 are low-dropout (ldo), micropower linear voltage regulators with an integrated microprocessor (?) reset circuit for use with usb peripheral devices. each device is available with a fixed +3.3v output voltage and can deliver up to 150ma load current. each device features ?5kv tran- sient voltage suppression (tvs) as well as precision 1.5k ? data-line termination resistors for usb digital sig- nals making them ideal for use with usb peripherals. the max5005/max5006/MAX5007 include an internal reset circuit that enables the usb microcontroller 100ms after the ldo regulator output voltage reaches regulation. reset outputs are available in push-pull (active-low or active-high) and open-drain (active-low) options. the max5005/max5006/MAX5007 are optimized for use with a 1? ceramic output capacitor. each device includes thermal shutdown protection, output short-cir- cuit protection, and output to input reverse leakage pro- tection. these devices also include an active-low manual reset input. the max5005 features an open-drain reset output, the max5006 features an active-low push-pull reset output, and the MAX5007 features an active-high push-pull reset output. each device is available in a space-saving 10-pin ?ax package. applications usb peripherals hand-held instruments features ? integrated 15kv transient voltage suppressors for d+ and d- data lines ? pin selectable internal d+ and d- termination resistors (1.5k ? 5%) ? integrated microprocessor reset circuit with 100ms (min) timeout ? 3.3v output with 3% accuracy ? 25a quiescent current at full load ? small 1f output capacitor ? output to input reverse leakage protection ? thermal and short-circuit protection ? 10-pin max package max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset ________________________________________________________________ maxim integrated products 1 1 2 3 4 5 10 9 8 7 6 out gnd mr reset/(reset) d- gnd d+ in max5005 max5006 MAX5007 max top view enr selr () for MAX5007 only. pin configuration ordering information 19-2035; rev 1; 11/02 part temp range pin- package reset output max5005 _cub* 0? to +70? 10 ?ax op en- d r ai n low max5006 _cub* 0? to +70? 10 ?ax push-pull low MAX5007 _cub* 0? to +70? 10 ?ax push-pull high * insert ??for a 7.5% reset threshold and ??for a 12.5% reset threshold. d+ v bus v cc rst d+ d- d+ d- c in c out 1 f 1 f ceramic in reset (reset) mr enr 3.3v usb controller usb port gnd gnd 27 ? 27 ? d- gnd ( ) for MAX5007 only max5005 max5006 MAX5007 out 5v 3.3v selr t ypical operating circuit for pricing, delivery, and ordering information, please contact maxim/dallas direct! at 1-888-629-4642, or visit maxim? website at www.maxim-ic.com.
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 2 _______________________________________________________________________________________ absolute maximum ratings electrical characteristics (v in = +5v, i out = 0, c out = 2.2?, t a = 0? to +70?, unless otherwise noted. typical specifications are at t a = +25?.) (note 1) stresses beyond those listed under ?bsolute maximum ratings?may cause permanent damage to the device. these are stress rating s only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specificatio ns is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. in to gnd .................................................................-0.3v to +6v d+, d- to gnd..........................................................-0.3v to +6v mr to gnd ..............................................-0.3v to (v out + 0.3v) reset, reset to gnd, push-pull............-0.3v to (v out + 0.3v) reset to gnd, open-drain.....................................-0.3v to +6v out, selr, enr to gnd .........................................-0.3v to +6v maximum current to any pin (except in, out, d+, d-)............................................. 20ma short-circuit duration ....................................................indefinite continuous power dissipation (t a = +70?) 10-pin ?ax (derate 5.6mw/? above +70?) ...........444mw thermal resistance ( ja ) ...............................................180?/w operating temperature range...............................0? to +70? junction temperature ......................................................+150? storage temperature range .............................-65? to +150? lead temperature (soldering, 10s) .................................+300? parameter symbol conditions min typ max units input voltage range v in i load = 100ma 4.0 5.5 v supply current i gnd measured at gnd 25 50 ? regulator guaranteed output current i out 150 ma output voltage v out v in = 4.0v to 5.5v, i out = 0 to 100ma 3.2 3.3 3.4 v i load = 10ma 20 30 dropout voltage (note 2) ? v do i load = 150ma 300 400 mv output current limit v in = 5.5v 165 350 ma input reverse leakage current v in = 0, v out = 5.5v 1 a startup response time rising edge of v in to v out r l = 500 ? 500 ? thermal shutdown temperature t j shdn 160 o c thermal shutdown hysteresis ? t j shd n 20 o c reset circuit max500_acub 2.92 3.05 3.18 reset threshold (note 3) v th max500_bcub 2.75 2.89 3.01 v reset timeout period t rp 100 200 300 ms v out to reset delay t rd 75 ? v il 0.2 x v out mr input voltage v ih 0.8 x v out v mr minimum input pulse width 1 s mr glitch rejection 120 ns mr to reset delay 500 ns mr pullup resistance to out 10 25 45 k ? v il connects r term to d- 0.2 x v out selr input voltage v ih connects r term to d+ 0.8 x v out v
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset _______________________________________________________________________________________ 3 electrical characteristics (continued) (v in = +5v, i out = 0, c out = 2.2?, t a = 0? to +70?, unless otherwise noted. typical specifications are at t a = +25?.) (note 1) note 1: all devices are 100% tested at t a = +25 c. limits over temperature are guaranteed by characterization and not production tested. note 2: dropout voltage is defined as v in - v out when v out is 2% below the value of v out for v in = v out + 1v. note 3: specification is guaranteed to ? limit. parameter symbol conditions min typ max units selr input current selr = gnd or out -1 1 a v il r term enabled 0.2 x v out enr input voltage v ih r term disabled 0.8 x v out v enr input current enr = gnd or out -1 1 a v out > 1.0v, i sink = 50 a, reset asserted 0.3 open-drain reset output low voltage (max5005) v ol v out > 2.7v, i sink = 3.2ma, reset asserted 0.4 v open-drain reset output leakage current (max5005) i lkg reset not asserted -1.0 1.0 a v out = 1.0v, i sink = 50 a, reset asserted 0.3 v ol v out > v th(min) , i sink = 3.2ma, reset asserted 0.4 push-pull reset output voltage (max5006) v oh v out > v th(max) , i source = 500 a, reset not asserted 0.8 x v out v v ol v out > v th(max) , i sink = 3.2ma, reset not asserted 0.4 push-pull reset output voltage (MAX5007) v oh v out = 1.0v, i source = 150 a, reset asserted 0.8 x v out v usb options and transient suppression d+/d- r term impedance enr = gnd, selr = gnd or out 1425 1500 1575 ? d+/d- input leakage current v enr = v out = 3.3v -1 1 a enr = out 5.5 d+ to d- capacitance 1mhz, 100mvp-p signal applied at d+ and d-, v out = 3.3v unpowered 24 pf enr = out 40 d+, d- capacitance to gnd 1mhz, 100mvp-p signal applied at d+ and d-, v out = 3.3v unpowered 47 pf esd trigger voltage dv/dt < 1v/ns, v d+ or v d- > 3.6v 3.6 5 v surge trigger voltage dv/dt < 2v/ s, v d+ or v d- > 3.6v 3.6 16 v clamping voltage 6a, pulse width = 200ns to 40 s16v surge current 16v, pulse width = 200ns to 40 s 6a human body model mil-std-883 16 contact discharge iec1000-4-2 (en61000-4-2) 8 d+/d- to gnd esd air discharge iec1000-4-2 (en61000-4-2) 15 kv
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 4 _______________________________________________________________________________________ 22.0 23.5 23.0 22.5 24.0 24.5 25.0 25.5 26.0 26.5 27.0 3.5 4.0 4.5 5.0 5.5 ground-pin current vs. supply voltage max5005-7 toc01 supply voltage (v) ground-pin current ( a) i out = 150ma i out = 0 250 0 110 100 maximum pulse duration vs. reset threshold overdrive 50 max5005-7 toc02 reset threshold overdrive, v th - v out (mv) pulse duration ( s) 100 150 200 reset occurs above this line 0 50 25 75 100 125 150 175 200 225 250 275 300 030609 0 120 150 dropout voltage vs. load current max5005-7 toc03 load current (ma) dropout voltage (mv) 45 15 75 105 135 110 -60 -50 -40 -20 -30 -10 0 0.01 0.1 power-supply rejection ratio vs. frequency max5005-07 toc04 frequency (khz) psrr (db) -5 -15 -25 -35 -45 -55 c out = 1 f 3.25 3.28 3.27 3.26 3.29 3.30 3.31 3.32 3.33 3.34 3.35 3.5 4.0 4.5 5.0 5.5 output voltage vs. supply voltage max5005-7 toc05 supply voltage (v) output voltage (v) i out = 150ma i out = 0 0 75 50 25 100 125 150 060 45 15 30 75 90 105 120 135 150 region of stable c out esr vs. load current max5005-7 toc06 load current (ma) c out esr ( ? ) c out = 4.7 f c out = 1 f stable region below the curve 200 s/div output noise max5005-7 toc07 v out 1mv/div t ypical operating characteristics (v in = +5v, i out = 0, c out = 2.2?, unless otherwise noted.)
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset _______________________________________________________________________________________ 5 t ypical operating characteristics (continued) (v in = +5v, i out = 0, c out = 2.2?, unless otherwise noted.) 1.0ms/div load-transient response 3.3v 3.3v max5005-7 toc10a i load v out 50mv/div v out 50mv/div c out = 2.2 f c out = 1.0 f 20ma 0v 100 s/div line-transient response 5.25v 4.75v 3.3v max5005-7 toc11b v in 200mv/div v out 50mv/div i out = 10ma c out = 1 f load-transient response max5005-7 toc10b 1.0ms/div 20ma 3.3v 3.3v i load v out 50mv/div c out = 10 f c out = 4.7 f v out 50mv/div 0v 100 s/div line-transient response 4.75v 3.3v max5005-7 toc11a v in 200mv/div 5.25v v out 50mv/div i out = 10ma c out = i f 50ms/div turn-on/turn-off response max5005-7 toc08 v in 5v/div reset 5v/div r l = 1k ? v out 5v/div 1ms/div startup response max5005-7 toc09 v in 5v/div v out 1v/div r l = 1k ? 0.01 1 100 tvs peak power vs. pulse width max5005-7 toc12 pulse width ( s) peak power (w) 1000 100 1 10 0.1 10 d+ or d- with respect to ground
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 6 _______________________________________________________________________________________ pin description pin name description 1in regulator input. supply voltage ranges from +4.0v to +5.5v. bypass with a 1 f ceramic capacitor to ground. 2d+ d+ esd/transient suppression input. connect directly to usb port d+ data input. selr high and enr low connects d+ to out through a 1.5k ? resistor. 3, 9 gnd ground. this pin also functions as a heatsink. solder to large pads or the circuit board ground plane to maximize thermal dissipation. 4d- d- esd/transient suppression input. connect directly to usb port d- data input. selr low and enr low connects d- to out through a 1.5k ? resistor. 5 selr usb full-speed/low-speed termination resistor select. logic high connects the termination resistor to d+ for full-speed peripherals. logic low connects the termination resistor to d- for low- speed peripherals. an internal 1.5k ? resistor connects to out when enr is low. 6 enr usb termination resistor enable. when reset is not asserted, enr low enables the termination resistor connection. enr high or a reset disables the termination resistor connection. reset active-low reset output. reset remains low while v out is below the reset threshold or while mr is held low. reset remains low for the duration of the reset timeout period after the reset conditions are terminated. (max5005/max5006 only) 7 reset active-high reset output. reset remains high while v out is below the reset threshold or while mr is held low. reset remains high for the duration of the reset timeout period after the reset conditions are terminated. (MAX5007 only) 8 mr active-low manual reset input. a logic low forces a reset. reset remains asserted for the duration of the reset timeout period after mr transitions from low to high. leave unconnected or connect to out if not used. mr has an internal pullup resistor of 25k ? to out. 10 out voltage regulator output. fixed +3.3v. sources up to 150ma. bypass with a 1 f (min) capacitor for full rated performance.
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset _______________________________________________________________________________________ 7 detailed description the max5005/max5006/MAX5007 are usb applica- tion-specific, low-dropout, low-quiescent current linear regulators with an integrated ? reset circuit (see figure 1). the devices drive loads up to 150ma and are available with a fixed output voltage of +3.3v. features include 1.5k ? d+ and d- termination resistors and ?5kv transient voltage suppression (tvs) in accordance with iec1000-4-2 (en61000-4-2) air discharge method and milstd883c- method 3015-6 making the max5005/max5006/MAX5007 ideal for use with usb peripheral devices. the internal reset circuit monitors the regulator output voltage and asserts a reset signal when the output is typically -7.5% out of regulation for max500_acub and -12.5% out of regula- tion for max500_bcub. reset circuit the reset supervisor circuit is fully integrated in the max5005/max5006/MAX5007, and uses the same ref- erence voltage as the regulator. two supply tolerance reset thresholds, typically -7.5% and -12.5%, are avail- able for each type of device. 7.5% reset: reset does not assert until the regulator output voltage is at least -3.6% out of tolerance and always asserts before the regulator output voltage is -11.5% out of tolerance. 12.5% reset: reset does not assert until the regulator output voltage is at least -8.8% out of tolerance and always asserts before the regulator output voltage is -16.7% out of tolerance. reset output the max5005/max5006/MAX5007 ? supervisory cir- cuits assert a reset during power-up, power-down, and in 4.0v to 5.5v reverse current protection current limit protection esd/ surge protection ldo error amp 200ms reset timeout thermal protection reset comparator low speed full speed usb termination driver gnd d+ 1.23v tvs selr enr gnd tvs ( ) for MAX5007 only. 1.5k ? 1.5k ? 25k ? out 3.3v mr d- out out max5005 max5006 MAX5007 reset/(reset) v ref figure 1. functional diagram
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 8 _______________________________________________________________________________________ brownout conditions. reset is guaranteed to be logic high or low depending on the device chosen (see ordering information ). reset or reset asserts when v out is below the reset threshold and remains assert- ed for at least 100ms minimum after v out rises above the reset threshold. reset or reset also asserts when mr is pulled low. selr and enr when reset is not asserted a logic high to selr con- nects a 1.5k ? termination resistor from d+ to out for full speed usb peripherals and a logic low connects a 1.5k ? termination resistor from d- to out for low-speed peripherals. logic low on enr enables the selected termination resistor connection and logic high disables the selected termination resistor connection. an assert- ed reset always disconnects the termination resistors. d+ and d- d+ and d- include transient voltage suppressors rated at ?5kv (see usb ?5kv transient voltage suppression section). the proprietary tvs shunt circuit passes no data through the max5005/max5006/MAX5007, thereby eliminating delays associated with series protection cir- cuits. d+ and d- have only 1? of leakage current and a typical input capacitance of 40pf at 1mhz. manual reset input many ?-based products require manual reset capabil- ity, allowing the operator, a test technician, or external logic circuitry to initiate a reset. a logic low on mr asserts a reset while the regulator output voltage is still within tolerance. reset remains asserted while mr is low and for the reset timeout period (100ms minimum) after mr returns high. the mr input has an internal pullup of 25k ? (typ) to out. drive this input with ttl/cmos logic levels or with open-drain/collector outputs. connect a normally open momentary switch from mr to gnd to create a manual reset function; external debounce circuitry is not required. if mr is driven from long cables or the device is used in a noisy environment, connect a 0.1? capacitor from mr to gnd to provide additional noise immunity. for proper operation, ensure that the voltage on mr is not greater than a diode drop above v out . output to input reverse leakage protection an internal circuit monitors the input and output volt- ages. when the output voltage is greater than the input voltage, the internal pass transistor and parasitic diodes turn off, and out powers the device. there is no leakage path from out to in. therefore, the output can be powered from an auxiliary supply such as a backup battery without any need for additional blocking diodes. current limit the max5005/max5006/MAX5007 include a current limiter that monitors and controls the pass transistor? gate voltage, limiting the output current to 350ma (typ). for design purposes, consider the current limit to be 160ma (min) to 600ma (max). the output can be short- ed to ground for an indefinite period without damaging the part. thermal protection when the junction temperature exceeds t j = +160?, an internal thermal sensor signals the shutdown logic, turning off the pass transistor and allowing the ic to cool. the thermal sensor turns the pass transistor on again after the ic? junction temperature decreases by 20?, resulting in a pulsed output during continuous thermal overload conditions. thermal overload protec- tion is designed to protect the max5005/max5006/ MAX5007 in the event of fault conditions. for continu- ous operation, do not exceed the absolute maximum junction temperature rating of t j = +150?. operating region and power dissipation the max5005/max5006/MAX5007? maximum power dissipation depends on the thermal resistance of the case and circuit board, the temperature difference between the die junction and the ambient air, and the rate of airflow. the power dissipation across the device is p = i out (v in - v out ). the maximum power dissipa- tion is: p max = (t j - t a ) / ( ja ) where t j - t a is the temperature difference between the die junction and the surrounding air, ja is the ther- mal resistance of the package from junction to ambient. the max5005/max5006/MAX5007? ground pin (gnd) performs the dual function of providing an electrical connection to the system ground and channeling heat away. connect gnd to the system ground using a large pad or ground plane. for optimum performance, minimize trace inductance to d+, d-, and gnd. applications information capacitor selection and regulator stability for stable operation over the full temperature range and with load currents up to 150ma, use a 1? (min) output capacitor. to reduce noise and improve load transient response, stability, and power-supply rejec- tion, use large output capacitor values such as 10?.
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset _______________________________________________________________________________________ 9 note that some ceramic dielectrics exhibit large capac- itance and esr variation with temperature. with dielectrics such as z5u and y5v, it may be necessary to use 2.2? or more to ensure stability at temperatures below -10?. with x7r or x5r dielectrics, 1? should be sufficient at all operating temperatures. also, for high-esr tantalum capacitors, 2.2? or more may be needed to maintain stability. a graph of the region of stable c out esr vs. load current is shown in the typical operating characteristics . to improve power-supply rejection and transient response use a 1? capacitor between in and gnd. negative-going v out transients these devices are relatively immune to short-duration, negative-going v out transients. the typical operating characteristics section shows a graph of the maximum pulse duration vs. reset threshold overdrive for which reset is not asserted. the graph was produced using negative going output transients starting at v out and ending below the reset threshold by the magnitude indicated (reset threshold overdrive). the graph shows the maximum pulse width that a negative going v out transient can typically have without triggering a reset pulse. as the amplitude of the transient increases (i.e., goes further below the reset threshold), the maxi- mum allowable pulse width decreases. typically, a v out transient that goes only 10mv below the reset threshold and lasts for 75? will not trigger a reset pulse. usb 15kv transient voltage suppression the universal serial bus (usb) simplifies interconnectiv- ity between peripheral devices and personal comput- ers. usbs offer high-speed data communication rates (up to 12mbps) using only two lines (d+ and d-). cmos based usb peripherals that utilize deep submi- cron technologies are more susceptible to electrostatic discharge (esd) failure due to shorter channel lengths, shallower drain/source junctions, and lightly doped drain structures. the max5005/max5006/MAX5007 incorporate a proprietary transient voltage suppression (tvs) circuit for use with submicron devices. the tvs design complies with iec-1000-4-2 level 4 (en61000-4-2) ?5kv air discharge and ?kv contact discharge as well as mil std 883c-method 3015-6 level 3. the tvs circuit handles up to 11a of surge current. the tvs/esd structure is directly coupled to the output of the ldo regulator. tvs surge test information figure 2 shows the test circuit used to generate the 8/40? short circuit waveform of figure 3. figures 4, 5, and 6 show the actual surge current i/v characteristics with various capacitive loads. esd performance the max5005/max5006/MAX5007 are characterized to the following limits on d+, d-, and in: ?5kv using the human body model ?kv using the contact discharge method specified in iec 1000-4-2 (en61000-4-2) 15kv using the air-gap discharge method speci- fied in iec 1000-4-2 (en61000-4-2). note that in order to achieve the above esd levels on in, a ceramic 1? ceramic capacitor should be con- nected from in to gnd. esd test conditions esd performance depends on several conditions. contact maxim for a reliability report that documents test setup, methodology, and results. human body model figure 7 shows the human body model, and figure 8 shows the current waveform it generates when dis- charged into 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. esd transmission line pulsing figure 9 shows the test circuit used for transmission line pulsing conditions. the 200ns pulsewidth has a rise time of 4ns. figure 10 shows the current vs. voltage characteristics for various output capacitance values.
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 10 ______________________________________________________________________________________ tvs device under test high voltage 2 f 4kv 80 h 200k ? 20 ? 0.2 f leakage relay jennings relay rf3d-26s d+/d- figure 2. surge current test circut 10 2 0 4 6 8 12 246 0810 16 14 18 12 20 voltage (v) 8/40 s pulse width c out = 0 d+ or d- to gnd current (a) figure 4. surge current i/v characteristic (c out = 0) 10 2 0 4 6 8 12 246 0810 16 14 18 12 voltage (v) 8/40 s pulse width c out = 1 f d+ or d- to gnd current (a) figure 5. surge current i/v characteristic (c out = 1?) 10 2 0 4 6 8 12 246 0810 16 14 18 12 voltage (v) 8/40 s pulse width c out = 10 f d+ or d- to gnd current (a) figure 6. surge current i/v characteristic (c out = 10?) i p 100% 50% t 1 8 s t 2 40 s time 0 0 amperes figure 3. test circuit surge current waveform (short-circuit load)
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset ______________________________________________________________________________________ 11 r l l 10m ? device t pw = 200ns t rise = 4ns scope v in zo = 50 ? figure 9. transmission line pulsing setup for esd i/v characteristics 1 0 4 3 2 6 5 7 46 02 8101 21416 voltage (v) current (a) 200ns pulse width d+ or d- to gnd c out = 1 f figure 11. transmission line pulsing i/v characteristic (c out = 1?) 1 0 4 3 2 6 5 7 46 02 8101 21416 voltage (v) current (a) 200ns pulse width d+ or d- to gnd c out = 0 figure 10. transmission line pulsing i/v characteristic (c out = 0) charge-current limit resistor discharge resistance storage capacitor c s 100pf r c 1m ? r d 1500 ? high- voltage dc source device under test figure 7. human body esd test model i p 100% 90% 36.8% t rl time t dl current waveform peak-to-peak ringing (not drawn to scale) i r 10% 0 0 amperes figure 8. human body model current waveform
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 12 ______________________________________________________________________________________ chip information transistor count: 890 process: bicmos 1 0 4 3 2 6 5 7 46 02 8101 21416 voltage (v) current (a) 200ns pulse width d+ or d- to gnd c out = 10 f figure 12. transmission line pulsing i/v characteristic (c out = 10?)
max5005/max5006/MAX5007 150ma usb ldo regulators with 15kv tvs and p reset 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. maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 ____________________ 13 2002 maxim integrated products printed usa is a registered trademark of maxim integrated products. 10lumax.eps package outline, 10l umax/usop 1 1 21-0061 i rev. document control no. approval proprietary information title: top view front view 1 0.498 ref 0.0196 ref s 6 side view bottom view 0 0 6 0.037 ref 0.0078 max 0.006 0.043 0.118 0.120 0.199 0.0275 0.118 0.0106 0.120 0.0197 bsc inches 1 10 l1 0.0035 0.007 e c b 0.187 0.0157 0.114 h l e2 dim 0.116 0.114 0.116 0.002 d2 e1 a1 d1 min -a 0.940 ref 0.500 bsc 0.090 0.177 4.75 2.89 0.40 0.200 0.270 5.05 0.70 3.00 millimeters 0.05 2.89 2.95 2.95 - min 3.00 3.05 0.15 3.05 max 1.10 10 0.60.1 0.60.1 ?0 .500.1 h 4x s e d2 d1 b a2 a e2 e1 l l1 c gage plane a2 0.030 0.037 0.75 0.95 a1 package information (the package drawing(s) in this data sheet may not reflect the most current specifications. for the latest package outline info rmation go to www.maxim-ic.com/packages .)

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