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  HV9930 features x constant output current led driver x steps output voltage up or down x low emi x variable frequency operation x internal 8.0 - 200v linear regulator x input and output current sensing x input current limit x enable & pwm dimming applications x rgb backlight applications x battery powered led lamps x other low voltage ac/dc or dc/dc led drivers general description the HV9930 is a variable frequency pwm controller ic, designed to control an led lamp driver using a low-noise boost-buck (?uk) topology. the HV9930 uses a patent-pending hysteretic current-mode control to regulate both the input and output currents. this enables superior input surge immunity without the necessity for complex loop compensation. input current control enables current limiting during startup, input under-voltage and output overload conditions. the HV9930 provides a low-frequency pwm dimming input that can accept an external control signal with a duty cycle of 0 - 100% and a high dimming ratio. the HV9930 based led driver is ideal for led lamps and rgb backlight applications with low voltage dc inputs. the HV9930 based led lamp drivers can achieve effciency in excess of 80%. typical application circuit hysteretic boost-buck (?uk) led driver ic vin gate cs1 gnd vdd pwmd cs2 ref hv993 0 vdc l 1 l 2 c 1 q 1 d 1 c 2 d 2 - vo + c3 d 3 r s1 r cs1 r d c d r cs2 r s2a r s2b r ref1 r ref2 supertex inc. supertex inc.  1235 bordeaux drive, sunnyvale, ca 94089  t el: 408-222-8888  www .supertex.com
2 HV9930 ordering information device 8-lead soic 4.90 x 3.90mm body 1.75mm height (max) 1.27mm pitch HV9930 HV9930lg-g -g indicates package is rohs compliant (green) absolute maximum ratings parameter value v in to gnd -0.5v to +200v v dd to gnd -0.3v to +12.0v cs1, cs2, pwmd, gate, ref to gnd -0.3v to (v dd + 0.3v) junction temperature range -40c to +150c storage temperature range -65c to +150c continuous power dissipation (t a = +25c) 630mw stresses beyond those listed under absolute 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 specifcations is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. pin confguration vin cs1 gnd ga te ref cs2 vdd pwmd 1 2 3 4 8 7 6 5 sym parameter min typ max units conditions input v indc input dc supply voltage range * 8.0 - 200 v dc input voltage i insd shut-down mode supply current * - 0.5 1.0 ma pwmd connected to gnd internal regulator v dd internally regulated voltage - 7.0 7.5 9.0 v v in = 8.0 - 200v, i dd(ext) = 0, gate open i dd(ext) v dd current available for external circuitry 1 - - - 1.0 ma v in = 8.0 - 200v uvlo v dd undervoltage lockout threshold - 6.45 6.70 6.95 v v dd rising ?uvlo v dd undervoltage lockout hysteresis - - 500 - mv --- v dd(ext) steady state external voltage which can applied at the vdd pin - - - 12 v --- electrical characteristics (the * denotes the specifcations which apply over the full operating ambient temperature range of -40c < t a < +125c, otherwise the specifcations are at t a = 25c, v in = 12v, unless otherwise noted) 8-lead soic (lg) (top view) y = last digit of year sealed ww = week sealed l = lot number = ?green? packaging yww h9930 llll 8-lead soic (lg) product marking thermal resistance package ja 8-lead soic 128 o c/w note: 1. also limited by package power dissipation limit, whichever is lower . package may or may not include the following marks: si or supertex inc.  1235 bordeaux drive, sunnyvale, ca 94089  t el: 408-222-8888  www .supertex.com
3 HV9930 sym parameter min typ max units conditions reference v ref ref pin voltage * 1.212 1.25 1.288 v ref bypassed with a 0.1f capacitor to gnd, i ref = 0, v dd = 7.5v, pwmd = 5.0v, v in = open v refline line regulation of reference voltage - 0 - 20 mv ref bypassed with a 0.1f capacitor to gnd, i ref = 0, v dd = 7.0 -12v, pwmd = 5.0v, v in = open v refload load regulation of reference voltage - 0 - 25 mv ref bypassed with a 0.1f capacitor to gnd; i ref = 0 - 500a; v dd = 7.5v; pwmd = 5.0v, v in = open pwm dimming v pwmd(lo) pwmd input low voltage * - - 0.8 v v in = 10 - 200v v pwmd(hi) pwmd input high voltage * 2.0 - - v v in = 10 - 200v r pwmd pwmd pull-down resistance - 50 100 150 k? v pwmd = 5.0v gate i source gate short circuit current, sourcing - 0.165 - - a v gate = 0v, v dd = 7.5v, v in = open i sink gate sinking current - 0.165 - - a v gate = v dd , v dd = 7.5v, v in = open t rise gate output rise time - - 30 50 ns c gate = 500pf, v dd = 7.5v, v in = open t fall gate output fall time - - 30 50 ns c gate = 500pf, v dd = 7.5v, v in = open input current sense comparator v turnon1 voltage required to turn gate on * 90 105 120 mv cs2 = 200mv; cs1 increasing; gate goes low to high v turnoff1 voltage required to turn gate off * 0 20 40 mv cs2 = 200mv; cs1 decreasing; gate goes high to low t d1,on delay to output (turn-on) - - 80 150 ns cs2 = 200mv; cs1 = 50mv to 200mv step t d1,off delay to output (turn-off) - - 80 150 ns cs2 = 200mv; cs1 = 50mv to -100mv step output current sense comparator v turnon2 voltage required to turn gate on * 90 105 120 mv cs1 = 200mv; cs2 increasing; gate goes low to high v turnoff2 voltage required to turn gate off * 0 20 40 mv cs1 = 200mv; cs2 decreasing; gate goes high to low t d2,on delay to output (turn-on) - - 80 150 ns cs1 = 200mv; cs2 = 50mv to +200mv step t d2,off delay to output (turn-off) - - 80 150 ns cs1 = 200mv; cs2 = 50mv to -100mv step electrical characteristics (cont.) (the * denotes the specifcations which apply over the full operating ambient temperature range of -40c < t a < +125c, otherwise the specifcations are at t a = 25c, v in = 12v, unless otherwise noted) supertex inc.  1235 bordeaux drive, sunnyvale, ca 94089  t el: 408-222-8888  www .supertex.com
4 HV9930 functional block diagram regulator 100mv 7.5v vin cs1 cs2 pwmd gate vdd ref gnd 1.25v HV9930 input comparator output comparator power topology the HV9930 is optimized to drive a continuous conduction mode (ccm) boost-buck dc/dc converter topology com - monly referred to as ?uk converter (see typical application circuit on page 1). this power converter topology offers nu - merous advantages useful for driving high-brightness light emitting diodes (hb led). these advantages include step- up or step-down voltage conversion ratio and low input and output current ripple. the input and the output inductors can also share a common core. the output load is decoupled from the input voltage with a capacitor making the driver in - herently failure-safe for the output load. the HV9930 offers a simple and effective control technique for use with a boost-buck led driver. it uses two hysteretic mode controllers C one for the input and one for the output. the outputs of these two hysteretic comparators are and together, and used to drive the external fet. this control scheme gives accurate current control and constant output current in the presence of input voltage transients without the need for complicated loop design. input voltage regulator the HV9930 can be powered directly from its vin pin that takes a voltage from 8 to 200v. when a voltage is applied at the vin pin, the HV9930 tries to maintain a constant 7.5v (typ) at the vdd pin. the regulator also has a built in under- voltage lockout which shuts off the ic if the voltage at the vdd pin falls below the uvlo threshold. the vdd pin must be bypassed by a low esr capacitor (0.1f) to provide a low impedance path for the high fre - quency current of the output gate driver. the ic can also be operated by supplying a voltage at the vdd pin greater than the internally regulated voltage. this will turn off the internal linear regulator and the ic will func - tion by drawing power from the external voltage source con - nected to the vdd pin. in case of input transients that reduce the input voltage be - low 8.0v (like cold crank condition in an automotive system), the vin pin of the HV9930 can be connected to the drain of the mosfet through a diode. since the drain of the fet is at a voltage equal to the sum of the input and output voltag - es, the ic will still be operational when the input goes below 8.0v. in these cases, a larger capacitor is needed to the vdd pin to supply power to the ic when the mosfet is on. reference an internally trimmed voltage reference of 1.25v ( 3%) is provided at the ref pin. the reference can supply a maxi - mum output current of 1.0ma to drive external circuitry.this reference can be used to set the current thresholds of the two comparators as shown in the typical application circuit. current comparators the HV9930 features two identical comparators with a built- in 100mv hysteresis. when the gate is low, the inverting terminal is connected to 100mv and when the gate is high, it is connected to gnd. one comparator is used for the input current control and the other for the output current control. functional description supertex inc.  1235 bordeaux drive, sunnyvale, ca 94089  t el: 408-222-8888  www .supertex.com
5 HV9930 the input side hysteretic controller is in operation only dur - ing start-up and overload conditions. this ensures that the input current never exceeds the designed value. during nor- mal operation, the input current will be less than the pro- grammed current and hence, the output of the input side comparator will be high. the output of the and gate will then be dictated by the output current controller. the output side hysteretic comparator will be in operation during the steady state operation of the circuit. this com - parator turns the mosfet on and off based on the led current. the use of these comparators in a boost-buck topology is a patent-pending technique, which eliminates the need for compensation components. pwm dimming pwm dimming can be achieved by applying a signal at the pwm pin. when the pwmd pin is pulled high, the gate driver is enabled and the circuit operates normally. when the pwmd pin is left open or connected to gnd, the gate driver is disabled and the external mosfet turns off. the ic is designed so that the signal at the pwmd pin inhibits the driver only and the ic need not go through the entire start- up cycle each time ensuring a quick response time for the output current. the fying capacitor in the ?uk converter (c1) is initially charged to the input voltage vdc (through diodes d1 and d2). when the circuit is turned on and reaches steady state, the voltage across c1 will be v dc + v o . in the absence of diode d2, when the circuit is turned off, capacitor c1 will discharge through the leds and the input voltage source vdc. thus, during pwm dimming, if capacitor c1 has to be charged and discharged each cycle, the transient response of the circuit will be limited. by adding diode d2, the volt - age across capacitor c1 is held at v dc + v o even when the circuit is turned off enabling the circuit to return quickly to its steady state (and bypassing the start-up stage) upon being enabled. application information over-voltage protection over-voltage protection can be added by splitting the output side resistor r s2 into two components, and adding a zener diode d3. when there is an open led condition, the diode d3 will clamp the output voltage and the zener diode current will be regulated by the sum of r s2a and r cs2 . damping circuit the ?uk converter is inherently unstable when the output current is being controlled. an uncontrolled input current will lead to an un-damped oscillation between l1 and c1 caus - ing excessively high voltages across c1. to prevent these oscillations, a damping circuit consisting of rd and cd is ap - plied across the capacitor c1. this damping circuit will help to stabilize the circuit and help in the proper operation of the HV9930 based ?uk converter. design and operation of the boost-buck con - verter for details on the design for a boost-buck converter using the HV9930 and the calculation of the damping components, please refer to application notes an-h51 and an-h58. design example the choice of the resistor dividers to set the input and output current levels is illustrated by means of the design example given below. the parameters of the power circuit are: v in,min = 9.0v v in,max = 16v v o = 28v i o = 0.35a f s,min = 300khz using these parameters, the values of the power stage in - ductors and capacitor can be computed as (see application note an-h51 for details): l1 = 82h l2 = 150h c1 = 0.22f the input and output currents for this design are: i in,max = 1.6a i in = 0.21a i o = 350ma i o = 87.5ma output current limits the current sense resistor (r cs2 ), combined with the other resistors (r s2 & r ref2 ), determines the output current limits. supertex inc.  1235 bordeaux drive, sunnyvale, ca 94089  t el: 408-222-8888  www .supertex.com
6 HV9930 pin description pin # name description 1 vin this pin is the input of a 8.0 - 200v voltage regulator. 2 cs1 this pin is used to sense the input and output currents of the boost-buck converter. it is the non-inverting input of the internal comparators. 3 gnd ground return for all the internal circuitry. this pin must be electrically connected to the ground of the power train. 4 gate this pin is the output gate driver for an external n-channel power mosfet. 5 pwmd when this pin is left open or pulled to gnd, the gate driver is disabled. pulling the pin to a voltage greater than 2.4v will enable the gate drive output. 6 vdd this is a power supply pin for all internal circuits. it must be bypassed to gnd with a low esr capacitor to gnd. 7 cs2 this pin is used to sense the input and output currents of the boost-buck converter. it is the non-inverting input of the internal comparators. 8 ref this pin provides accurate reference voltage. it must be bypassed with a 0.01 - 0.1f capacitor to gnd. the current sense resistor (r cs1 ), combined with the other resistors (r s1 & r ref1 ), determines the input current limits. the resistors can be chosen using the following equations: i x r cs = 1.1875v x (r s /r ref ) - 0.0625v (1) i x r cs = 0.085v x (r s /r ref ) + 0.085v (2) where i is the current (either i o or i in ) and i is the peak-to- peak ripple in the current (either i o or i in ). for the input side, the current level used in the equations should be larger than the maximum input current so that it does not interfere with the normal operation of the circuit. the peak input current can be computed as: i in,pk = i in,max + (i in /2) = 1.706a (3) assuming a 30% peak-to-peak ripple when the converter is in input current limit mode, the minimum value of the input current will be: i lin,min = 0.85 x i in,lin (4) setting: i lin,min = 1.05 x i in,pk (5) the current level to limit the converter can then be com - puted. i in,lin = (1.05/0.85) x i inpk = 2.1a (6) using i o = 0.35a and i o = 0.0875a in (1) and (2), r cs2 = 1.43 r s2 /r ref2 = 0.475 before the design of the output side is complete, over voltage protection has to be included in the design. for this applica - tion, choose a 33v zener diode. this is the voltage at which the output will clamp in case of an open led condition. for a 350mw diode, the maximum current rating at 33v works out to about 10ma. using a 2.5ma current level during open led conditions, and assuming the same r s2 /r ref2 ratio, r cs2 + r s2a = 120 choose the following values for the resistors: r cs2 = 1.43, 1/4w, 1% r ref2 = 10k, 1/8w, 1% r s2a = 100, 1/8w, 1% r s2b = 4.64k, 1/8w, 1% the current sense resistor needs to be at least a 1/4w, 1% resistor. similarly, using i in = 2.1a and i in = 0.3 x i in = 0.63a in (1) and (2), r s1 /r ref1 = 0.382 r cs1 = 0.187 p rcs1 = i 2 in,lim x r cs1 = 0.825w choose the following values for the resistors: r cs1 = parallel combination of three 0.56, 1/2w, 5% r ref1 = 10k, 1/8w, 1% r s1 = 3.82k, 1/8w, 1% supertex inc.  1235 bordeaux drive, sunnyvale, ca 94089  t el: 408-222-8888  www .supertex.com
7 (the package drawing(s) in this data sheet may not refect the most current specifcations. for the latest package outline information go to http://www.supertex.com/packaging.html .) HV9930 doc.# dsfp-HV9930 c030311 8-lead soic (narrow body) package outline (lg) 4.90x3.90mm body, 1.75mm height (max), 1.27mm pitch 1 8 seating plane gauge plane l l1 l2 e e1 d e b a a2 a1 seating plane a a to p v iew side v iew vi ew b vi ew b 1 note 1 (index area d/2 x e1/2) vi ew a-a h h note 1 symbol a a1 a2 b d e e1 e h l l1 l2 1 dimension (mm) min 1.35* 0.10 1.25 0.31 4.80* 5.80* 3.80* 1.27 bsc 0.25 0.40 1.04 ref 0.25 bsc 0 o 5 o nom - - - - 4.90 6.00 3.90 - - - - max 1.75 0.25 1.65* 0.51 5.00* 6.20* 4.00* 0.50 1.27 8 o 15 o jedec registration ms-012, variation aa, issue e, sept. 2005. * this dimension is not specifed in the jedec drawing. drawings are not to scale. supertex doc. #: dspd-8solgtg, version i041309. note: 1. this chamfer feature is optional. a pin 1 identifer must be located in the index area indicated. the pin 1 identifer can be: a molded mark/identifer; an embedded metal marker; or a printed indicator. supertex inc. does not recommend the use of its products in life support applications, and will not knowingly sell them for use in such appl ications unless it receives an adequate ?product liability indemnification insurance agreement.? supertex inc. does not assume responsibility for use of devices described, and limits its liability to the replacement of the devices determined defective due to workmanship. no responsibility is assumed for possible omissions and inaccuracies. circuitry and specifications are subject to change without notice. for the latest product specifications refer to the supertex inc. (website: http//www .supertex.com) ?201 1 supertex inc. a ll rights reserved. unauthorized use or reproduction is prohibited. supertex inc. 1235 bordeaux drive, sunnyvale, ca 94089 t el: 408-222-8888 www .supertex.com


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