LR8509 ? ? �? introduction: �? fea tures: the LR8509 is a 1.5mhz constant frequency, slope compensated current mode pwm synchronous step-down converter. high switching frequency allows the use of small surf ace mount inductors and capacitors. the internal synchronous switch increases effi ciency and eliminates the need for an external schottky diode. it is ideal for powering portable equipment which runs from a single cell lithium-ion battery. 100% duty cycle provides low dropout operation, extending battery life in portable systems. low output voltages are easily supported with the 0.6v feedback reference voltage. �z high efficiency : up to 96% �z output current: 600ma (typ.) �z 1.5mhz constant switching frequency �z no schottky diode required �z input voltage: 2.5v to 5.5v �z 0.6v reference allows low output voltage �z low dropout: 100% duty cycle �z low quiescent current: 270 a �z shutdown current: <1 a �z current mode operation for excellent line and load transient response �z built-in thermal protection �z short circuit protection �z package: sot-23-5 �? applica t ions �z cellular a nd smart phones �z personal information appliances �z wireless and dsl modems �z digit al still and video cameras �z microprocessors core supplies �z portable consumer equipments �? pin configura tion: �? order informa tion: design a tor symbol description a standard ? integer output voltage e.g.1.8v= :1, :8 adj =:, : m package sot-23- 5 1.5mhz 600ma sy nchronous ste p -dow n converter LR8509 series leshan radio comp any , ltd. 1/10 ver1.0
t abel1. pin description pin number pin name function 1 v in power input 2 v ss gr ound 3 ce chip enable pin 4 v out /fb output pin/feedback(adj version) 5 sw external inductor connection pin �? block di agram �? absolut e maximum ratings (unless otherwise specified, ta=25c) parameter symbol ratings units input v oltage v in v ss -0.3~v ss +7 v ce,sw ,fb/v out v oltage v ss -0.3~v in +0.3 v peak sw sink and sour ce current i sw max 1500 ma power dissip ation sot-23-5 pd 400 mw operatin g temperature t opr -40~+ 85 junction t emperature t j 125 s torage temperature t stg -40~+ 125 soldering t emperature & time t solder 260 , 10s leshan radio comp any, ltd. 2/10 �? marking information LR8509am: b1yw b1---8509 y---year code w---week code(1-52 week are showed by a-z and a-z)
�? electrical characteristics LR8509 series (v in =ce=3.6v , ta=25 , test circuit figure1, unless othe rwise specified) parameter symbol conditions min typ max units output v oltage v out(f) (1) i out =100ma v out 0.98 v out v out 1.02 v feedb ack voltage v fb t a =25 0.5880 0.600 0.6120 v 0 t a 85 0.5865 0.600 0.6135 -40 t a 85 0.5850 0.600 0.6150 input v oltage v in 2.5 5.5 v supply cu rrent i ss v fb =0.5v 270 400 a shut down current i shdn v ce =v ss 0.1 1.0 a feedb ack current i fb v fb =0.65v 30 na maximum output current i out 600 ma v fb line reg ulation ? v fb v in = 2.5v~5.5v 0.10 0.40 %/v output v oltage line regulation ? v out v in = 2.5v~5.5v i out =10ma 0.10 0.40 %/v output v oltage load regulation ? v load i out =1ma ~600ma 0.001 %/ma oscillator fr equency f osc v fb =0.6v or v out =100% 1.2 1.5 1.8 mhz peak inductor curre nt i pk v in =3v ,v fb =0. 5v or v out =90% 1.0 a r ds(on) of p-ch fet r pfet i sw = 100ma 0.35 0.5 ? r ds(on) of n-ch fet r nfet i sw = -100ma 0.25 0.45 ? sw leakage i ls w ce=0,v sw =0 or 5v, v in =5 v 0.01 1 a ce "high" voltage (2) v ce ?h? 1.5 v in v ce "low" vo ltage (3) v ce ?l? 0.3 v ce leakage current i ce 0.1 1 a note : 1. v out(f) :the fixed volt age version effective output voltage. 2. high voltage forcing ce above 1.5v enables the part. 3. low voltage forcing ce below 0.3v shuts down the device. in shutdown, all functions are disabled drawing <1 a supply current. do not leave ce floating. �? typical application circuits figure1 basic application circuit LR8509 a18m LR8509 am leshan radio comp any, ltd. 3/10
�? typical performance characteristics (t est figure1 above unless otherwise specified) leshan radio comp any, ltd. 4/10
typical performance characteristics (t est figure1 above unless otherwise specified) �? leshan radio comp any, ltd. 5/10
typical performance characteristics (t est figure1 above unless otherwise specified) leshan radio comp any, ltd. 6/10
�? opera tion main cont rol loop the LR8509 uses a constant frequency, current mode step-down architecture. both the main (p-channel mosfet) and synchronous (n-channel mosfet) switches are internal. during normal operation, the internal top power mosfet is turned on each cycle when the oscillator sets the rs latch, and turned off when the current comparator, i com p , reset s the rs latch. the peak inductor current at which i comp rese ts the rs latch, is controll ed by the output of error amplifier ea. when the load current increases, it causes a slight decrease in the feedback voltage, fb, relative to the 0.6v reference, which in turn, causes the ea amplifier?s output voltage to increase until the average inductor current matches the new load current. while the top mosfet is off, the bottom mosfet is turned on until either the inductor curr ent starts to reverse, as indicated by the current reversal comparator i rcmp , or the beginning of the next clock cycle. the ovdet comparator cont rols output transient overshoots by turning the main switch off and keeping it off until the fault is removed. maximum load current the LR8509 will operate wi th input voltage as low as 2.5v, however, the maximum load current decreases at lower input due to large ir drop on the main switch and synchronous rectifier. the slope compensation signal reduces the peak inductor current as a function of the duty cycle to prevent sub-harmonic osc illations at duty cycles greater than 50%.conversely the current limit increase as the dut y cycle decreases. discontinuous mode operation at light loads, the inductor current may reach zero reverse on each pulse. the bottom mosfet is turned off by the current reversal comparator, i rcmp , and the switch v oltage will ring. this is discontinuous mode operat ion, and is normal behavior for the switching regulator. at very light loads, the LR8509 will automatically skip pulses in discontinuous mode operation to maintain output regulation. slope compensation slope compensation provides stability in constant frequency architecture by preventing sub-harmonic oscillations at high duty cycles. it is accomplished internally by adding a compensating ramp to t he inductor current signal at duty cycles in excess of 50%. this slope compensated current mode pwm control provides stable switching and cycle-by-cycle current limit for excellent load and line response. dropout operation as the input supply voltage decreases to a value approaching the out put voltage, the duty cycle increases toward the maximum on-time. further reduction of the supply voltage forces the main switch to remain on for more than one cycle until reaches 100% duty cy cle. the output voltage will then be determined by the input voltage minus the voltage drop across the p-channel mosfet and the inductor. an important detail to remember is that at low inputs supply voltages, the r ds(on) of the p-channel s witch increases . therefore, the user should calculate the power dissipation when the LR8509 is used at 100% duty cycle with low input voltage. leshan radio comp any, ltd. 7/10
applica tion information the basic LR8509 applic ation circuits are shown in figure 1.external component selection is driven by the load requirement and begins with the selection of l followed by c in and c out . setting t he output voltage figure1 shows the basic application circuit with LR8509 adjustable output version. the external resistor sets the output voltage according to the following equation: t able 2.resistor select for output voltage setting v out r1 r2 1.2v 316k 316k 1.5v 316k 470k 1.8v 316k 634k 2.5v 316k 1m input cap acitor selection in continuous mode, the source current of the top mosfet is a square wave of duty cycle v out /v in . t o prevent large voltage transients, a low esr input capacitor sized for the maximum rms current must be used. the maximum rms capacitor current is given by: this formula has a maximum at v in = 2v out , wher e i rms = i out /2. this simple worst-case condition is commonly used for design because even significant deviations do not offer much relief. ceramic capacitors with x5r or x7r dielectrics are highly recommended because of their low esr and small temperature coefficients. a 4.7 f ceramic capacitor for most application is sufficient. inductor selection for most applications, the value of the inductor will fall in the range of 1 h to 4.7 h. its value is chosen based on the desired ripple current. large value inductor lower ripple current and small value inductor result in higher ripple currents. higher v in or v out also increases the ripple current as shown in the following equation: a reasonable starting point for setting ripple current is i l =240ma (40% of 600ma). the dc current rating of the in ductor should be at least equal to the maximum load current plus half the ripple current to prevent core saturation. different core materials and shapes will change the size/current and price/current relationship of an inductor. the choice of which style inductor to use often depends more on the price vs. size requirements and any radiated field/emi requirements than on what the LR8509 requires to operate. table 3 shows some typical surface mount inductors that work well in LR8509 applications. table 3.representative su rface mount inductors pa rt number value ( h) max dcr (m? ) max dc current (a) size w l h (mm 3 ) sumida cdrh 3d16 2.2 3.3 4.7 75 110 162 1.20 1.10 0.90 3.8 3.8 1.8 sumida cr43 2.2 3.3 4.7 71.2 86.2 108.7 1.75 1.44 1.15 4.5 4.0 3.5 sumida cdrh 4d18 2.2 3.3 4.7 75 110 162 1.32 1.04 0.84 4.7 4.7 2.0 leshan radio comp any, ltd. 8/10
output cap acitor selection the selection of c out is driven by the requir ed effective series resistance (esr). typically, once the esr requirement for c out has been met, the rms current rating gener ally far exceeds the i ripple requirement. the output ripple v out is determined b y : where f = operating frequency, c out = o u tput capacitance and i l = ripple current in the inductor. for a fixed output voltage, the output ripple is highest at maximum input voltage since i l in crease with input voltage. ceramic capacitors with x5r or x7r dielectrics are recommended due to their low esr and high ripple current. pcb layout guidance when laying out the prin ted circuit board, the following suggestions should be taken to ensure proper operation of the lr 8509. these items are also illustrated graphically in figure 2. 1. the power traces, in cluding the gnd trace, the sw trace and the v in trace should be kept short, direct and wide to allow large current flow. put enough multiply-layer pads when they need to change the trace layer. 2. keep the switching node, sw, away from the sensitive fb node. 3. the fb pin should di rectly connect to the feedback resistors. the resistive divider r1/r2 must be connected between the (+) plate of c out and grou nd. 4. connect the (+) plate of c in to the v in pin as closely as possible. 5. keep the (-) plate of c in and c out as close as possible. figure 2 (a) LR8509a18m suggested layout figure2(b) LR8509am suggested layout leshan radio comp any , ltd. 9/10
�? p ackaging information �z sot23-5 pa ckage outline dimensions leshan radio comp any, ltd. 10/10
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