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  ? semiconductor components industries, llc, 2011 january, 2011 ? rev. 9 1 publication order number: nis5112/d nis5112 electronic fuse the nis5112 is an integrated switch utilizing a high side n ? channel fet driven by an internal charge pump. this switch features a sensefet ? which allows for current sensing using inexpensive chip resistors instead of expensive, low impedance current shunts. it is designed to operate in 12 v systems and includes a robust thermal protection circuit. features ? integrated power device ? power device thermally protected ? no external current shunt required ? enable/timer pin ? adjustable slew rate for output voltage ? 9 v to 18 v input range ? 30 m  typical ? internal charge pump ? esd ratings: human body model (hbm); 4000 v ? these are pb ? free devices typical applications ? hard drives figure 1. block diagram current limit source dv/dt gnd enable/timer thermal latch voltage regulator charge pump current limit enable/ timer voltage slew rate 8 v cc overvoltage clamp 4 5, 6, 7 31 2 soic ? 8 nb case 751 device package shipping ? ordering information marking diagram nis5112d1r2g soic ? 8 latch off (pb ? free) 2500 tape & reel nis5112d2r2g soic ? 8 auto ? retry (pb ? free) 2500 / tape & reel ?for information on tape and reel specifications, including part orientation and tape sizes, please refer to our tape and reel packaging specification brochure, brd8011/d. http://onsemi.com 1 8 x = l for thermal latch off = h for thermal auto ? retry a = assembly location y = year ww = work week  = pb ? free package (note: microdot may be in either location) 112x ayww   1 8
nis5112 http://onsemi.com 2 table 1. functional pin description pin function description 3 enable/timer a high level signal on this pin allows the device to begin operation. connection of a capacitor will delay turn on for timing purposes. a low input signal inhibits the operation. 1 ground negative input voltage to the device. this is used as the internal reference for the ic. 4 i limit a resistor between this pin and the source pin sets the current limit level. 5,6,7 source source of power fet, which is also the switching node for the load. 2 dv/dt a capacitor from this pin to ground programs the slew rate of the output at turn on. this capacitor is discharged by an internal discharge circuit when the device is disabled via the enable pin. 8 v cc positive input voltage to the device. table 2. maximum ratings (maximum ratings are those, that, if exceeded, may cause damage to the device. electrical characteristics are not guaranteed over this range) rating symbol value unit input voltage, operating, steady ? state (input+ to input ? ) transient (conditions 1 ms) v in ? 0.3 to 18 ? 0.3 to 25 v drain voltage, operating, steady ? state (drain to input ? ) transient (conditions 1 ms) v dd ? 0.3 to 18 ? 0.3 to 25 v drain current, peak (internally clamped) i dpk 25 a drain current, continuous (t a =25 c), (note 2) i davg 5.3 a thermal resistance, junction ? to ? air 0.5 in 2 copper 1.0 in 2 copper q ja 120 110 c/w c/w thermal resistance, junction ? to ? lead (pin 8) q jl 27 c/w power dissipation (t a = 25 c) (note 1) p max 1.0 w operating temperature range (note 2) t j ? 40 to 175 c nonoperating temperature range t j ? 55 to 175 c lead temperature, soldering (10 sec) t l 260 c stresses exceeding maximum ratings may damage the device. maximum ratings are stress ratings only. functional operation above t he recommended operating conditions is not implied. extended exposure to stresses above the recommended operating conditions may af fect device reliability. 1. mounted on fr ? 4 board, 1 in sq pad, 1 oz coverage. 2. actual maximum junction temperature is limited by an internal protection circuit and will not reach the absolute maximum temp erature as specified.
nis5112 http://onsemi.com 3 table 3. electrical characteristics (unless otherwise noted: v cc = 12 v, r limit = 56  t j = 25 c) characteristics symbol min typ max unit power fet delay time (enabling of chip to beginning of conduction (10% of ipk)) t dly ? 5.0 ? ms charging time (beginning of conduction to 90% of v out ) c dv/dt = 1  f, c load = 1000  f t chg ? 64 ? ms on resistance (i d = 2 a, t j = ? 20 c) (note 3) (i d = 2 a, t j = 25 c) (i d = 2 a, t j = 100 c) (note 3) r dson ? 23.5 28 37 27.5 32 43.5 m  off state output voltage (v in = 12 v dc , enable low, v dc , t j = ? 20 c) (note 3) (v in = 12 v dc , enable low, t j = 25 c) (v in = 12 v dc , enable low, t j = 100 c) (note 3) v off ? ? ? ? ? ? 120 120 200 mv output capacitance (v ds = 12 v dc , v gs = 0 v dc , f = 10 khz) ? 396 ? pf thermal latch shutdown temperature (note 3) t sd 125 135 145 c thermal hysteresis (auto retry only) (note 3) t hyst ? 40 ? c enable/timer enable voltage (turn ? on) (r load = 2 k, t j = ? 20 c) (note 3) (r load = 2 k, t j = 25 c) (r load = 2 k, t j = 100 c) (note 3) v enon 2.45 2.5 2.7 ? ? ? ? ? ? v enable voltage (turn ? off) (r load = 2 k, t j = ? 20 c) (note 3) (r load = 2 k, t j = 25 c) (r load = 2 k, t j = 100 c) (note 3) v enoff ? ? ? ? ? ? 1.8 1.9 2.0 v charging current (current sourced into timing cap) (t j = ? 20 c) (note 3) (t j = 25 c) (t j = 100 c) (note 3) i charge 67 70 71 80 83 84 90 92 96  a overvoltage clamp output clamping voltage (v cc = 18 v, t j = ? 20 c) (note 3) (v cc = 18 v, t j = 25 c) (v cc = 18 v, t j = 100 c) (note 3) v clamp 14 14 13 15.5 15 14.5 17 16.2 16 v current limit short circuit current limit, (r extilimit = 56  , t j = ? 20 c) (note 3) (r extilimit = 56  , t j = 25 c) (r extilimit = 56  , t j = 100 c) (note 3) i lim ? ss 2.05 2.0 1.7 2.7 2.5 2.3 3.2 3.0 2.7 a overload current limit, (note 3) (r extilimit = 56  , t j = ? 20 c) (r extilimit = 56  , t j = 25 c) (r extilimit = 56  , t j = 100 c) i lim ? ol 3.7 3.5 3.4 4.6 4.4 4.3 5.5 5.3 5.2 a dv/dt circuit slew rate (c dv/dt = 1  f) dv/dt 0.130 0.15 0.170 v/ms charging current (current sourced into dv/dt cap) (t j = ? 20 c) (note 3) (t j = 25 c) (t j = 100 c) (note 3) i dv/dt 67 70 71 80 83 84 90 92 96  a max capacitor voltage v max ? ? v cc v total device bias current (device operational, load open, v in = 12 v) i bias ? 1.45 2.0 ma minimum operating voltage v min ? ? 9.0 v 3. verified by design.
nis5112 http://onsemi.com 4 figure 2. current limit adjustment 100 10 1 0 10 100 1000 r extilimit (  ) i limit (a) i limit _ss i limit _ol 140 120 40 0 100 1000 time (ms) power (w) 1/2 in 2 , 1 oz copper, double sided board t a = 25 c figure 3. overload vs. shutdown time 10000 10 1 100 80 60 20 figure 4. typical application circuit source current limit enable/ timer gnd dv/dt enable gnd +12 v load nis5112 1  f enable signal is compatible with open collector devices as well as most families. 56  (typical operating conditions: v in = 12 v, r ilimit = 56  , c dv/dt = 1  f)
nis5112 http://onsemi.com 5 load current figure 5. turn ? on waveforms for a resistive load of 10  (c dv / dt = 1  f) input voltage slew rate = 0.14 v/ms output voltage figure 6. turn ? on waveforms for a load capacitance of 3,300  f (c dv / dt = 1  f) slew rate = 0.14 v/ms load current (i = c dv/dt) output voltage input voltage
nis5112 http://onsemi.com 6 figure 7. turn ? on waveforms for an overvoltage condition (10  resistive load) load current input voltage v out regulated at 15 v figure 8. current waveforms for overload, short circuit and thermal shutdown 10 ms/div (2 v/div) (1 a/div)
nis5112 http://onsemi.com 7 device operation basic operation this device is a self ? protected, resettable, electronic fuse. it contains circuits to monitor the input voltage, output current, die temperature, turn ? on di/dt and turn ? on dv/dt, as well as an enable/timer function. on application of the input voltage, the device will apply the input voltage to the load based on the restrictions of the controlling circuits. the dv/dt of the output voltage can be programmed by the addition of a capacitor to the dv/dt pin, or if left open, the output current will be limited by the internally controlled di/dt. the device will remain on as long as the temperature does not exceed the 135 c limit that is programmed into the chip. the current limit circuit does not shut down the part but will reduce the conductivity of the fet to maintain a constant current as long as it remains at the set level. the input overvoltage clamp also does not shut down the part, but will limit the output voltage to 15 v in the event that the input exceeds that level. the device can be turned on and off by the enable/timer function, which can also be used to reset the device after a thermal fault if the thermal latch version is chosen. an internal charge pump provides bias for the gate voltage of the internal n ? channel power fet and also for the current limit circuit. the remainder of the control circuitry operates between the input voltage (v cc ) and ground. dv/dt this circuit is comprised of an operational amplifier and current source as shown in figure 9. the enable circuit controls a fet that keeps the slew ? rate capacitor discharged any time the device is disabled. when the enable pin is released (low ? to ? high transition) or when power is applied with the ena ble pin in a high state, the dv/dt capacitor begins to charge due to the 80  a in the current source. the amplifier controls the output voltage and tracks the voltage on the dv/dt cap scaled by a factor of 2. the output voltage will continue to ramp higher until it reaches the input voltage, or until the 15 v clamp limits it. the equation for the output slew rate is dv/dt = (i/c dv/dt ) x 2. where: i ? is 80  a (internal current source) c dv/dt ? is the desired dv/dt capacitor value. the dv/dt ramp begins with a small step of about 200 mv. this step causes a current surge into the output load capacitance which can be seen in figure 6. the peak level of this surge will be limited to the overload level of the current limit. figure 9. dv/dt circuit ? + enable source dv/dt r r 80  a overvoltage clamp the overvoltage clamp consists of an amplifier and reference. it monitors the output voltage and if the output voltage exceeds 15 v, the gate drive of the main fet is reduced to limit the output. this is intended to allow operation through transients while protecting the load. if an overvoltage condition exists for many seconds, the device may overheat due to the voltage drop across the fet combined with the load current. in this event, the thermal protection circuit would shut down the device. enable/timer the enable/timer pin can function either as a direct enable pin, or as a time delay. in the enable mode, an open collector device is connected to this pin. when the device is in its low impedance mode, this pin is low and the operation of the chip is disabled. if a time delay is required, a capacitor is added to this pin. if a capacitor is added without an open collector device, the turn on will be delayed from the time at which the uvlo voltage is reached. if an open collector device is also used, the delay will start from the time that it goes into its high impedance state. the capacitor is charged by an internal current source of 80  a (typical). the nominal trip voltage of the comparator is 2.5 v and was designed to be compatible with most logic families. in general, logic gates can be tied directly to this pin, but it is recommended that this be tested.
nis5112 http://onsemi.com 8 there is an inherent delay in the turn on of the electronic fuse, due to the method of gate drive used. the gate of the power fet is charged through a high impedance resistor, and from the time that the gate starts charging until the time that it reaches its threshold voltage, there will be no conduction. once the gate reaches its threshold voltage, the output current will begin a controlled ramp up phase. this delay will be added to any timing delay due to the enable/timer circuit. figure 10 shows a simplified diagram of the enable/timer circuit. figure 10. simplified schematic diagram of the enable/timer circuit ? + enabled 2.5 v 80  a enable/ timer thermal protection circuit the temperature limit circuit senses the temperature of the power fet and removes the gate drive if the maximum level is exceeded. the nis5112 device has two different thermal limit versions, auto ? retry and latch off. auto ? retry version the device will shut down when the thermal limit threshold is reached (t j = 135 c, typical) and will not turn back on until the die temperature reduces down to 95 c (40 c hysteresis, typical). it will keep auto ? retrying until the fault condition is removed or power is turned ? off. latch ? off version for the latch ? off version, the device will shut down when the thermal limit threshold is reached (t j = 135 c, typical) and will remain off until power is reset.
nis5112 http://onsemi.com 9 package dimensions soic ? 8 nb case 751 ? 07 issue aj seating plane 1 4 5 8 n j x 45  k notes: 1. dimensioning and tolerancing per ansi y14.5m, 1982. 2. controlling dimension: millimeter. 3. dimension a and b do not include mold protrusion. 4. maximum mold protrusion 0.15 (0.006) per side. 5. dimension d does not include dambar protrusion. allowable dambar protrusion shall be 0.127 (0.005) total in excess of the d dimension at maximum material condition. 6. 751 ? 01 thru 751 ? 06 are obsolete. new standard is 751 ? 07. a b s d h c 0.10 (0.004) dim a min max min max inches 4.80 5.00 0.189 0.197 millimeters b 3.80 4.00 0.150 0.157 c 1.35 1.75 0.053 0.069 d 0.33 0.51 0.013 0.020 g 1.27 bsc 0.050 bsc h 0.10 0.25 0.004 0.010 j 0.19 0.25 0.007 0.010 k 0.40 1.27 0.016 0.050 m 0 8 0 8 n 0.25 0.50 0.010 0.020 s 5.80 6.20 0.228 0.244 ? x ? ? y ? g m y m 0.25 (0.010) ? z ? y m 0.25 (0.010) z s x s m  1.52 0.060 7.0 0.275 0.6 0.024 1.270 0.050 4.0 0.155  mm inches  scale 6:1 *for additional information on our pb ? free strategy and soldering details, please download the on semiconductor soldering and mounting techniques reference manual, solderrm/d. soldering footprint* on semiconductor and are registered trademarks of semiconductor components industries, llc (scillc). scillc reserves the right to mak e changes without further notice to any products herein. scillc makes no warranty, representation or guarantee regarding the suitability of its products for an y particular purpose, nor does scillc assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including wi thout limitation special, consequential or incidental damages. ?typical? parameters which may be provided in scillc data sheets and/or specifications can and do vary in different application s and actual performance may vary over time. all operating parameters, including ?typicals? must be validated for each customer application by customer?s technical experts. scillc does not convey any license under its patent rights nor the rights of others. scillc products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the scillc product could create a sit uation where personal injury or death may occur. should buyer purchase or use scillc products for any such unintended or unauthorized application, buyer shall indemnify and hold scillc and its of ficers, employees, subsidiaries, af filiates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, direct ly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that scillc was negligent regarding the design or manufacture of the part. scillc is an equal opportunity/affirmative action employer. this literature is subject to all applicable copyright laws and is not for resale in any manner. nis5112/d sensefet is a registered trademark of semiconductor components industries, llc (scillc). publication ordering information n. american technical support : 800 ? 282 ? 9855 toll free usa/canada europe, middle east and africa technical support: phone: 421 33 790 2910 japan customer focus center phone: 81 ? 3 ? 5773 ? 3850 literature fulfillment : literature distribution center for on semiconductor p.o. box 5163, denver, colorado 80217 usa phone : 303 ? 675 ? 2175 or 800 ? 344 ? 3860 toll free usa/canada fax : 303 ? 675 ? 2176 or 800 ? 344 ? 3867 toll free usa/canada email : orderlit@onsemi.com on semiconductor website : www.onsemi.com order literature : http://www.onsemi.com/orderlit for additional information, please contact your local sales representative


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