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5 ________________________________________________________________ maxim integrated products 1 gnd out in 1 6 cdelay 5 v cc en max16052 max16053 sot23 top view 2 34 �`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�` �[�m�|�? dc-dc converter dc-dc converter in en out gnd cdelay v cc in v cc en out gnd cdelay out in en 12v 0.9v max16052 max16052 �`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�` �`�`�`�`�`�`�`�` �?�o ?�+�?
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5 2 _______________________________________________________________________________________ absolute maximum ratings electrical characteristics (v cc = 2.25v to 28v, v en = v cc , t a = t j = -40c to +125c, unless otherwise specified. typical values are at v cc = 3.3v and t a = +25c.) (note 1) stresses beyond those listed under absolute 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. (all voltages referenced to gnd.) v cc .........................................................................-0.3v to +30v out (push-pull, max16053) ......................-0.3v to (v cc + 0.3v) out (open-drain, max16052)................................-0.3v to +30v en, in .........................................................-0.3v to (v cc + 0.3v) cdelay....................................................................-0.3v to +6v input/output current (all pins)..........................................20ma continuous power dissipation (t a = +70c) 6-pin sot23 (derate 8.7mw/c above +70c)..........695.7mw operating temperature range .........................-40c to +125c junction temperature ......................................................+150c storage temperature range .............................-65c to +150c lead temperature (soldering, 10s) .................................+300c soldering temperature (reflow) .......................................+260c parameter symbol conditions min typ max units supply operating voltage range v cc 2.25 28 v undervoltage lockout uvlo v cc falling (note 2) 1.8 2 v v cc = 3.3v 18 37 v cc = 12v 23 45 max16052, no load v cc = 28v 38 61 v cc = 3.3v 22 47 v cc = 12v 29 57 v cc supply current i cc max16053, no load v cc = 28v 44 71 a in threshold voltage v th v in rising, 2.25v v cc 28v 0.491 0.500 0.509 v hysteresis v hyst v in falling 5 mv input current i in v in = 0 or 28v -110 +25 +110 na cdelay cdelay charge current i cd v cdelay = 0v 200 250 300 na cdelay threshold v tcd v cdelay rising 0.95 1.00 1.05 v v cc 2.25v, i sink = 200a 15 60 cdelay pulldown resistance r cdelay v cc 3.3v, i sink = 1ma 15 60 en en low voltage v il 0.5 v en high voltage v ih 1.4 v en leakage current i leak v en = 0 or 28v -110 +20 +110 na out v cc 1.2v, i sink = 90a 0.2 v cc 2.25v, i sink = 0.5ma 0.3 out low voltage (open-drain or push-pull) v ol v cc > 4.5v, i sink = 1ma 0.4 v v cc 2.25v, i source = 500a 0.8 x v cc out high voltage (push-pull, max16053) v oh v cc 4.5v, i source = 800a 0.9 x v cc v out leakage current (open-drain, max16052) i lkg output not asserted low, v out = 28v 150 na
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5 _______________________________________________________________________________________ 3 note 1: all devices are production tested at t a = +25c. limits over temperature are guaranteed by design. note 2: when v cc falls below the uvlo threshold, the outputs deassert (out goes low). when v cc falls below 1.2v, the output state cannot be determined. note 3: during the initial power-up, v cc must exceed 2.25v for at least 0.5ms before out can go high. parameter symbol conditions min typ max units timing max16052, 100k pullup resistor, c cdelay = 0 30 max16053, c cdelay = 0 30 s max16052, 100k pullup resistor, c cdelay = 0.047f 190 v cc = 3.3v, v in rising, v in = v th + 25mv max16053, c cdelay = 0.047f 190 ms max16052, 100k pullup resistor, c cdelay = 0 30 t delay v cc = 12v, v in rising, v in = v th + 25mv max16053, c cdelay = 0 30 v cc = 3.3v, v in falling, v in = v th - 30mv 18 in to out propagation delay t dl v cc = 12v, v in falling, v in = v th - 30mv 18 s v cc = 2.25v, v in = 0.525v, c cdelay = 0 0.5 startup delay (note 3) v cc = 12v, v in = 12v, c cdelay = 0 0.5 ms en minimum input pulse width t mpw 1s en glitch rejection 100 ns v cc = 3.3v 250 max16052, 100k pullup resistor v cc = 12v 300 v cc = 3.3v 350 en to out delay t off from device enabled to device disabled max16053 v cc = 12v 400 ns v cc = 3.3v 14 max16052, 100k pullup resistor, c cdelay = 0 v cc = 12v 14 v cc = 3.3v 14 max16053, c cdelay = 0 v cc = 12v 14 s max16052, 100k pullup resistor, c cdelay = 0.047f 190 en to out delay t prop from device disabled to device enabled max16053, c cdelay = 0.047f 190 ms electrical characteristics (continued) (v cc = 2.25v to 28v, v en = v cc , t a = t j = -40c to +125c, unless otherwise specified. typical values are at v cc = 3.3v and t a = +25c.) (note 1)
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5 4 _______________________________________________________________________________________ v cc v th + 25mv v th - v hyst v th v ih v ih v ih v il t prop t dl t delay t off t prop v ol v oh t < t mpw t > t mpw in en out v uvlo t < t prop 5% v ih v il �d�2�/�! �n�b�y�2�7�1�6�3�0�n�b�y�2�7�1�6�4���?�d�)�d �d�e�f�m�b�z �>�! �1�*
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5 _______________________________________________________________________________________ 5 supply current vs. supply voltage max16052/53 toc01 v cc (v) i cc ( a) 24 20 16 12 8 4 3 6 12 9 15 18 21 24 27 30 33 0 028 max16052 v in = 0v supply current vs. temperature max16052/53 toc02 temperature ( c) i cc ( a) 110 95 65 80 -10 5 20 35 50 -25 8 12 16 20 24 28 32 36 40 44 4 -40 125 max16052 v cc = 12v v cc = 3.3v v cc = 2.25v v cc = 5v v cc = 28v in threshold voltage vs. temperature max16052/53 toc03 in threshold voltage (mv) 498.5 499.0 499.5 500.0 500.5 501.0 501.5 502.0 498.0 temperature ( c) 110 95 65 80 -105 203550 -25 -40 125 out delay vs. c cdelay max16052/53 toc04 c cdelay (nf) out delay (ms) 900 800 600 700 200 300 400 500 100 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 0 0 1000 output low voltage vs. sink current max16052/53 toc05 i sink (ma) output low voltage (v) 4.0 3.5 0.5 1.0 2.0 2.5 1.5 3.0 0.5 1.0 1.5 2.0 2.5 0 0 4.5 v cc = 28v v cc = 12v v cc = 5v v cc = 3.3v v cc = 2.25v output high voltage vs. source current max16052/53 toc06 i source (ma) output high voltage (v) 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 5 10 15 20 25 30 0 0 4.5 v cc = 12v v cc = 28v v cc = 2.25v v cc = 5v v cc = 3.3v �`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�` �`�`�`�`�`�`�`�` �?�o ?�+���v (v cc = 3.3v and t a = +25c, unless otherwise noted.)
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5 6 _______________________________________________________________________________________ �`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�` �`�`�`�`�`�`�` �?�o ?�+���v�)�?�* (t a = +25c, unless otherwise noted.) maximum transient duration vs. input overdrive max16052/53 toc07 input overdrive (mv) maximum transient duration ( s) 100 10 50 100 150 200 250 300 0 1 1000 reset occurs above this curve enable turn-on delay (max16053) max16052/53 toc08 10 s/div en 2v/div out 2v/div enable turn-off delay (max16053) max16052/53 toc09 400ns/div en 2v/div out 2v/div
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5 _______________________________________________________________________________________ 7 �`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�`�` �`�`�`�`�`�`�`�`�`�`�`�` �[�m�?
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