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rev.2.00 jan 30, 2007 page 1 of 23 HA16158P/fp pfc & pwm control ic rej03f0147-0200 rev.2.00 jan 30, 2007 description the ha16158 is a power supply controller ic combining an ac-dc converter switching controller for power factor correction and an off-line power supply switching controller . the pfc (power factor correction) section employs average current mode pwm and the off-line power supply control section employs peak current mode pwm. the ha16158 allows the operating frequency to be varied with a single timing resistance, enabling it to be used for a variety of applications. the pfc operation can be turned on and off by an external control signal. use of this on/off function makes it possible to disable pfc operation at a low line voltage, or to perform remote control operation from the transformer secondary side. the pwm controller includes a power-saving function that reduces the operating frequency to a maximum of 1/64 in the standby state, greatly decreasing switching loss. the pfc section and pwm section are each provided with a soft start control pin, enabling a soft start time to be set easily. features ? supply voltage vcc: 24 v ? operating junction temperature tjopr: ?40 c to +125 c ? vref output voltage vref: 5.0 v 2% ? uvlo start threshold vh: 16.0 v 1.0 v ? uvlo shutdown threshold vl: 10.0 v 0.6 v ? pfc output maximum duty cycle dmax-pfc: 95% typ. ? pwm output maximum duty cycle dmax-pwm: 45% typ. ? synchronized pfc and pwm timing ? pfc function on/off control ? pwm power-saving function (frequency reduced to maximum of 1/64) ? pwm overvoltage latch protection circuit ? soft start control circuits for both pfc and pwm ? package lineup: sop-16/dilp-16
HA16158P/fp rev.2.00 jan 30, 2007 page 2 of 23 pin arrangement (top view) 1 2 3 4 5 6 7 8 pwm-cs pwm-comp pwm-ss pfc-ss pfc-eo pfc-fb iac rt 16 15 14 13 12 11 10 9 gnd pwm-out pfc-out vcc pfc-on vref cao pfc-cs pin functions pin no. pin name pin functions 1 gnd ground 2 pwm-out power mos fet driver output (pwm control) 3 pfc-out power mos fet driver output (pfc control) 4 vcc supply voltage 5 pfc-on pfc function on/off signal input 6 vref reference voltage 7 cao average current control error amplifier output 8 pfc-cs pfc control current sense signal input 9 rt operating frequency setting timing resistance connection 10 iac multiplier reference current input 11 pfc-fb pfc control error amplifier input 12 pfc-eo pfc control error amplifier output 13 pfc-ss pfc control soft start time setting capacitance connection 14 pwm-ss pwm control soft start ti me setting capacitance connection 15 pwm-comp pwm control voltage feedback 16 pwm-cs pwm control current sense signal input
HA16158P/fp rev.2.00 jan 30, 2007 page 3 of 23 block diagram 12 8 10 pfc- eo multiplier uvlo gain selector 1 15 gnd iac pfc-cs rt cao 9 4 vcc 7 oscillator oscillator vref oscillator oscillator pfc-fb f/64 divider pwm control logic vref good pfc control logic 11 pfc- fb vth: 2.80v vtl : 2.60v vth: 3.80v vtl : 3.40v 2.5v pfc-ovp pfc on/off v-amp c-amp c-limit pfc-clk (pwm-clk/2) 1.0a ? 0.25v ? 0.5v rmo 3.3k 5 pfc- on vth: 1.50v vtl : 1.20v vth: 2.40v vtl : 1.50v 16 vref 6 vref 3 pfc- out pwm- cs 14 pwm- ss pwm- comp ovp latch vref vref 3.5v vref vref 25 25 1.0a 2 pwm- out 1.7v 1.4v 2ra ra 1v 4.0v pfc-fb b+ supervisor 13 pfc- ss
HA16158P/fp rev.2.00 jan 30, 2007 page 4 of 23 absolute maximum ratings (ta = 25 c) item symbol ratings unit note power supply voltage vcc 24 v pfc-out output current (peak) ipk-out1 1.0 a 3 pwm-out output current (peak) ipk-out2 1.0 a 3 pfc-out output current (dc) idc-out1 0.1 a pwm-out output current (dc) idc-out2 0.1 a vi-group1 ?0.3 to vcc v 4 pin voltage vi-group2 ?0.3 to vref v 5 cao pin voltage vcao ?0.3 to veoh-ca v pfc-eo pin voltage vpfc-eo ?0.3 to veoh-pfc v pfc-on pin voltage vpfc-on ?0.3 to 7 v rt pin current irt 50 a iac pin current iiac 1 ma pfc-cs pin voltage vi-cs ?1.5 to 0.3 v vref pin current io-ref ?20 ma vref pin voltage vref ?0.3 to vref v operating junction temperature tj-opr ?40 to +125 c 6 storage temperature tstg ?55 to +150 c notes: 1. rated voltages are with reference to the gnd (sgnd, pgnd) pin. 2. for rated currents, inflow to the ic is indicated by (+), and outflow by (?). 3. shows the transient current when driving a capacitive load. 4. group1 is the rated voltage for the following pins: pfc-out, pwm-out 5. group2 is the rated voltage for the following pins: pfc-fb, pwm-cs, pwm-comp, iac, pfc-ss, pwm-ss, rt 6. HA16158P (dilp): ja = 120 c/w ha16158fp (sop): ja = 120 c/w this value is based on actual measurements on a 10% wiring density glass epoxy circuit board (40 mm 40 mm 1.6 mm).
HA16158P/fp rev.2.00 jan 30, 2007 page 5 of 23 electrical characteristics (ta = 25 c, vcc = 12 v, rt = 200 k ? ) item symbol min typ max unit test conditions start threshold vh 15.0 16.0 17.0 v shutdown threshold vl 9.4 10.0 10.6 v uvlo hysteresis dv uvl 5.2 6.0 6.8 v start-up current is 160 220 280 a vcc = 14.8v is temperature stability dis/dta ? ?0.3 ? %/ c * 1 operating current icc 5.5 7.0 8.5 ma iac = 0a, cl = 0f shunt zenner voltage vz 25.5 27.5 29.5 v icc = 14ma vz temperature stability dvz/dta ? ?4 ? mv/ c icc = 14ma * 1 supply latch current ilatch 180 250 320 a vcc = 9v output voltage vref 4.9 5.0 5.1 v isource = 1ma line regulation vref-line ? 5 20 mv isource = 1ma, vcc = 12v to 23v load regulation vref-load ? 5 20 mv isource = 1ma to 20ma vref temperature stability dvref ? 80 ? ppm/ c ta = ?40 to 125 c *1 fpwm 117 130 143 khz measured pin: pwm-out initial accuracy fpfc 58.5 65 71.5 khz measured pin: pfc-out fpwm temperature stability dfpwm/dta ? 0.1 ? %/ c ta = ?40 to 125 c * 1 fpwm voltage stability fpwm(line) ?1.5 +0.5 +1.5 % vcc = 12v to 18v ramp peak voltage vramp-h ? 3.6 4.0 v pfc * 1 ramp valley voltage vramp-l ? 0.65 ? v pfc * 1 ct peak voltage vct-h ? 3.2 ? v pwm * 1 ct valley voltage vct-l 1.50 1.60 ? v pwm * 1 oscillator rt voltage vrt 0.85 1.00 1.15 v measured pin: rt pfc on voltage von-pfc 1.4 1.5 1.6 v pfc off voltage voff-pfc 1.1 1.2 1.3 v pfc on-off hysteresis dvon-off 0.2 0.3 0.4 v input current ipfc-on ? 0.1 1.0 a pfc-on = 2v pfc ovp set voltage vovps-pfc 2.65 2.80 2.95 v input pin: pfc-fb pfc ovp reset voltage vovpr-pfc 2.45 2.60 2.75 v input pin: pfc-fb pfc ovp hysteresis dvovp 0.10 0.20 0.30 v b+ good voltage vb-good 2.25 2.40 2.55 v measured pin: pfc-fb supervisor b+ fail voltage vb-fail 1.4 1.5 1.6 v measured pin: pfc-fb latch threshold voltage vlatch 3.76 4.00 4.24 v input pin: pwm-ss ovp latch latch reset voltage vcc-res 6.1 7.1 8.1 v power saving on voltage von-save 1.53 1.70 1.87 v measured pin: pwm-comp power saving for pwm minimum frequency at light load fpwm-min ? 2 ? khz pwm-comp = 1.5v measured pin: pwm-out * 1 note: 1. reference values for design.
HA16158P/fp rev.2.00 jan 30, 2007 page 6 of 23 electrical characteristics (cont.) (ta = 25 c, vcc = 12 v, rt = 200 k ?) item symbol min typ max unit test conditions soft start time tss-pwm ? 4.2 ? ms pwm-ss = 0v to vct-h * 1 source current iss-pwm ?20.0 ?25.0 ?30.0 a measured pin: pwm-ss soft start for pwm high voltage vh-ss 3.25 3.5 3.75 v measured pin: pwm-ss soft start time tss-pfc ? 5.7 ? ms pfc-ss = vref to vramp-i * 1 soft start for pfc source current iss- pfc +20.0 +25.0 +30.0 a measured pin: pfc-ss pwm current sense delay to output td-cs ? 210 300 ns pwm-eo = 5v, pwm-cs = 0 to 2v threshold voltage vlm1 ?0.45 ?0.50 ?0.55 v pfc-on = 2v threshold voltage vlm2 ?0.22 ?0.25 ?0.28 v pfc-on = 4v pfc current limit delay to output td-lm ? 280 500 ns pfc-cs = 0 to ?1v feedback voltage vfb-pfc 2.45 2.50 2.55 v pfc-eo = 2.5v input bias current ifb-pfc ?0.3 0 0.3 a measured pin: pfc-fb open loop gain av-pfc ? 65 ? db * 1 high voltage veoh-pfc 5.0 5.7 6.4 v pfc-fb = 2.3v, pfc-eo: open low voltage veol-pfc ? 0.1 0.3 v pfc-fb = 2.7v, pfc-eo: open source current isrc-pfc ? ?90 ? a pfc-fb = 1.0v, pfc-eo: 2.5v * 1 sink current isnk-pfc ? 90 ? a pfc-fb = 4.0v, pfc-eo: 2.5v * 1 pfc-v amp transconductance gm-pfcv 150 200 250 a/v pfc-fb = 2.5v, pfc-eo: 2.5v minimum duty cycle dmin-pfc ? ? 0 % cao = 4.0v maximum duty cycle dmax-pfc 90 95 98 % cao = 0v rise time tr-pfc ? 30 100 ns cl = 1000pf fall time tf-pfc ? 30 100 ns cl = 1000pf peak current ipk-pfc ? 1.0 ? a cl = 0.01 f * 1 vol1-pfc ? 0.05 0.2 v iout = 20ma vol2-pfc ? 0.5 2.0 v iout = 200ma low voltage vol3-pfc ? 0.03 0.7 v iout = 10ma, vcc = 5v voh1-pfc 11.5 11.9 ? v iout = ?20ma pfc-out high voltage voh2-pfc 10.0 11.0 ? v iout = ?200ma minimum duty cycle dmin-pwm ? ? 0 % pwm-comp = 0v maximum duty cycle dmax-pwm 42 45 49 % pwm-comp = vref rise time tr-pwm ? 30 100 ns cl = 1000pf fall time tf-pwm ? 30 100 ns cl = 1000pf peak current ipk-pwm ? 1.0 ? a cl = 0.01 f * 1 vol1-pwm ? 0.05 0.2 v iout = 20ma vol2-pwm ? 0.5 2.0 v iout = 200ma low voltage vol3-pwm ? 0.03 0.7 v iout = 10ma, vcc = 5v voh1- pwm 11.5 11.9 ? v iout = ?20ma pwm-out high voltage voh2- pwm 10.0 11.0 ? v iout = ?200ma note: 1. reference values for design.
HA16158P/fp rev.2.00 jan 30, 2007 page 7 of 23 electrical characteristics (cont.) (ta = 25 c, vcc = 12 v, rt = 200 k ? ) item symbol min typ max unit test conditions input offset voltage vio-ca ? 7 ? mv * 1 open loop gain av-ca ? 65 ? db * 1 high voltage veoh-ca 5.0 5.7 6.4 v low voltage veol-ca ? 0.1 0.3 v source current isrc-ca ? ?90 ? a cao = 2.5v * 1 sink current isnk-ca ? 90 ? a cao = 2.5v * 1 pfc-camp transconductance gm-pfcc 150 200 250 a/v * 1 iac pin voltage viac 0.7 1.0 1.3 v iac = 100 a imo-offset1 ?67 ?90 ?113 a iac = 0a, pfc-on = 2v terminal offset current imo-offset2 ?60 ?80 ?100 a iac = 0a, pfc-on = 4v imo1 ? ?20 ? a pfc-eo = 2v, iac = 100 a * 1, 2 output current (pfc-on = 2.0v) imo2 ? ?60 ? a pfc-eo = 4v, iac = 100 a * 1, 2 imo3 ? ?5 ? a pfc-eo = 2v, iac = 100 a * 1, 2 output current (pfc-on = 4.0v) imo4 ? ?15 ? a pfc-eo = 4v, iac = 100 a * 1, 2 iac/multiplier pfc-cs resistance rmo ? 3.3 ? k ? * 1 threshold voltage for k = 0.05 vk-h 3.60 3.80 4.00 v measured pin: pfc-on threshold voltage for k = 0.25 vk-l 3.20 3.40 3.60 v measured pin: pfc-on gain selector vk hysteresis dvk 0.30 0.40 0.50 v * 1 notes: 1. reference values for design. 2. imo1 to imo4 are defined as: imo = (pfc-cs pin current) ? (imo-offset) i mo = k {i ac (v eo ? 1v)} pfc-c amp k v eo iac pfc-cs ? 0.5v ? 0.25v vref imo i ac 3.3k pfc-c limit pfc-cs terminal current ? + ? + ? + imo-offset
HA16158P/fp rev.2.00 jan 30, 2007 page 8 of 23 timing diagram 1. start-up timing vref vref 4.5v 2.4v(vb-good) 2.4v(vb-good) 1.5v(vb-fail) 1.5v(vb-fail) over current ? 0.5v(vlm) pfc-cs pfc-ss pfc-out pwm-out pwm-ss pfc-fb (supervise b+) 3.6v(vramp-h) 3.6v(vramp-h) 1.6v(vct-l) 1.6v(vct-l) soft start soft start normal operation normal operation
HA16158P/fp rev.2.00 jan 30, 2007 page 9 of 23 2. pwm ovp latch 4v(vlatch) 7.1v(vcc-res) 16v(vh) 3.5v(vh-ss) 10v(vl) abnormal dc output recovery 0v(dc-out shut down) latching term for pwm latching term for pwm dc-out vcc pwm-ss pwm-out pfc-out
HA16158P/fp rev.2.00 jan 30, 2007 page 10 of 23 3. pwm power saving 1.7v eout terminal voltage detection is performed pulse-by-pulse. frequency down: f/64 maximum rt eout pwm-out pfc-out
HA16158P/fp rev.2.00 jan 30, 2007 page 11 of 23 functional description 1. uvl circuit the uvl circuit monitors the vcc voltage and halts operation of the ic in the event of a low voltage. the voltage for detecting vcc has a hysteresis characteristic, with 16.0 v as the start threshold and 10.0 v as the shutdown threshold. when the ic has been halted by the uvl circuit, control is performed to fix driver circuit output low and halt vref output and the oscillator. vcc vref v_ct (internal signal) pwm-reset (internal signal) pwm-out pfc-out pfc-dt (internal signal) pfc-ramp (internal signal) 16.0v 10.0v 4.5v 4.5v figure 1
HA16158P/fp rev.2.00 jan 30, 2007 page 12 of 23 2. soft start circuit (for pwm control) this function gradually increases the pulse width of the pwm-out pin from a 0% duty cycle at start-up to prevent a sudden increase in the pulse width that may cause problems such as transient stress on external parts or overshoot of the secondary-side output voltage. the soft start time can easily be set with a single external capacitance. v_ct (internal signal) pwm-ss comp. out (internal signal) pwm-out 3.2v 1.6v v_pwm-ss figure 2 soft start time tss-pwm is determined by pwm-ss pin conn ection capacitance css-pwm and an internal constant, and can be estimated using the equation shown below. soft start time tss-pwm is the time until the pwm-ss pin voltage reaches upper-end voltage 3.2 v of the ic-internal ct voltage waveform after vref starts up following uvlo release. soft start time tss-pwm when css-pwm is 3.3 nf is given by the following equation. tss-pwm = * iss-pwm: pwm-ss pin source current, 25 a typ. 4.2 [ms] = css-pwm vct-h iss-pwm 33 [nf] 3.2 [v] 25 [ a]
HA16158P/fp rev.2.00 jan 30, 2007 page 13 of 23 3. soft start circuit (for pfc control) this function gradually increases the pulse width of the pfc-out pin from a 0% duty cycle at start-up to prevent a sudden increase in the pulse width that may cause problems such as transient stress on external parts or overshoot of the pfc output voltage (b+ voltage). the soft start time can easily be set with a single external capacitance. v_ramp (internal signal) pfc-ss comp. out (internal signal) pfc-out 3.4v v_pfc-ss figure 3 soft start time tss-pfc is determined by pfc-ss pin connectio n capacitance css-pfc and an internal constant, and can be estimated using the equation shown below. soft start time tss-pfc is the time until the pfc-ss pin voltage reaches lower-end voltage 0.65 v of the ic-internal ramp voltage waveform after vref starts up following uvlo release. soft start time tss-pfc when css-pfc is 3.3 nf is given by the following equation. tss-pfc = * iss-pfc: pfc-ss pin sink current, 25 a typ. 5.7 [ms] = css-pfc (vref ? vramp-l) iss-pwm 33 [nf] (5 ? 0.65) 25 [ a] in addition, when you do not use a soft start function, please ground this terminal.
HA16158P/fp rev.2.00 jan 30, 2007 page 14 of 23 4. pfc on/off function on/off control of the pfc function can be performed using the pfc-on pin. if an ac voltage that has undergone primary rectification and has been divided by an external resistance is input, it is possible to halt pfc operation in the event of a low input voltage. on/off control is also possible by using a logic signal. when the pfc function is turned on/off by using the pfc-on pin, however, the pfc-ss pin cannot be reset. therefore, a soft start is not operated at the start-up by the pfc-on pin. the figure below illustrates an example of circuit for simultaneous reset of the pfc-ss pin and pwm-ss pin. pfc-ss on/off signal pwm-ss pfc-on vref figure 4 example of circuit configur ation to turn on/off pfc & pwm functions this ic also incorporates a function that automatically detects a 100 v system or 200 v system ac voltage at the pfc- on pin, and switches multiplier gain and the pfc-cs comparison voltage. these functions simplify the design of a power supply compatible with worldwide input.
HA16158P/fp rev.2.00 jan 30, 2007 page 15 of 23 3.8v 156vac 140vac 3.4v pfc on period 1.2v 49vac 62vac 0vac 0v off on 0.25 0.05 ? 0.25 ? 0.50 1.5v a c voltage vac pfc status (internal signal) multiplier gain (internal signal) pfc-ss compare voltage (internal signal) pfc-on 5 pfc-on pfc-on(dc) = 2 ? em / ? r2 / (r1 + r2) = 2 ? 2 ? vac / ? r2 / (r1 + r2) pfc-on/off control multiplier gain switching 1.5v 1.2v r2 12k ? r1 720k ? c1 2.2 f pfc-on(dc) rec+ 3.8v 3.4v pfc-cs compare voltage switching em figure 5
HA16158P/fp rev.2.00 jan 30, 2007 page 16 of 23 5. power saving in standby state (for pwm control) when the output load is light, as in the standby stat e, the operating frequency of the pwm control section is automatically decreased in order to reduce switching loss. standby detection is performed by monitoring the pwm-comp voltage, and the operating frequency is decreased to a maximum of 1/64 of the reference frequency determined by an external timing resistance. as standby detection is performed on a reference frequency pulse-by-pulse basis, the frequency varies gently according to the output load. f/64 1.7v f pwm-comp pwm-out power saving peripheral circuit ? + 9 rt pwm-out 2 16 pwm-comp 15 oscillator ? + pwm logic f/64 divider reset driver r s q pwm-cs vref 1.7v power saving figure 6
HA16158P/fp rev.2.00 jan 30, 2007 page 17 of 23 6. overvoltage latch protection (for pwm control) this is a protection function that halts pwm-out and pf c-out if the secondary-side pwm output voltage is abnormally high. overvoltage signal input is shared with the pwm-ss pin. when this pin is pulled up to 4.0 v or higher, the control circuit identifies an overvoltage error and halts pwm-out and pfc-out. the power supply is turned off, and the latch is released when the vcc voltage falls to 7.1 v or below. vref pwm-ss 3.5v 4.0v pwm-out pfc-out overvoltage latch protection peripheral circuit 14 pwm-ss pfc-out pwm-out vref ? + 7.1v ? + 4.0v vcc vcc pfc-fb 2.4v 1.5v q r s figure 7
HA16158P/fp rev.2.00 jan 30, 2007 page 18 of 23 7. operating frequency the operating frequency is adjusted by timing resinstance rt. adjustment examples are shown in the graph below. the operating frequency fpwm in the pwm section is determined by the rt. the operating frequency fpfc in the pfc section is half the value of fpwm. the operating frequency in the pwm section can be es timated using the approximate equation shown below. rt = 200 k ? : fpwm = 130 [khz] 2.60 10 10 rt fpfc = = 65 [khz] fpwm 2 this is only an approximate equation, and the higher the frequency, the greater will be the degree of error of the approximate equation due to the effects of the delay time in the internal circuit, etc. when the operating frequency is adjusted, it is essential to confirm operation using the actual system. 1000 100 10 10 100 rt (k ? ) fpwm, fpfc (khz) 1000 fpfc fpwm figure 8
HA16158P/fp rev.2.00 jan 30, 2007 page 19 of 23 characteristic curves power supply current vs. power supply voltage characteristics 10.0 8.0 6.0 4.0 2.0 0.0 8.0 10.0 12.0 14.0 16.0 vcc (v) icc (ma) 18.0 1.0 0.8 0.6 0.4 0.2 0.0 0.0 4.0 2.0 8.0 6.0 10.012.014.016.018.0 icc (ma) vcc (v) standby current vs. power supply voltage characteristics ta = 25 c ta = 25 c
HA16158P/fp rev.2.00 jan 30, 2007 page 20 of 23 vref output voltage vs. ambient temperature characteristics 5.20 5.15 5.10 5.05 5.00 4.95 4.85 4.90 4.80 ? 50 ? 25 25 05075100 ta ( c) vref (v) 125 140 120 100 80 60 40 ? 50 ? 25 25 05075100 ta ( c) frequency (khz) 125 iref = 1ma operating frequency vs. ambient temperature characteristics 160 r t = 200k ? fpwm fpfc
HA16158P/fp rev.2.00 jan 30, 2007 page 21 of 23 uvl start-up voltage vs. ambient temperature characteristics uvl shutdown voltage vs. ambient temperature characteristics 20.0 14.0 19.0 18.0 17.0 16.0 15.0 13.0 14.0 12.0 ? 50 ? 25 25 0 50 75 100 ta ( c) vh (v) 125 13.0 12.0 11.0 10.0 9.0 7.0 8.0 6.0 ? 50 ? 25 25 0 50 75 100 ta ( c) vl (v) 125
HA16158P/fp rev.2.00 jan 30, 2007 page 22 of 23 application circuit example cao vcc ct 3000p 36k vref rec+ t1 1.5mh q1 b+ out gnd (385v dc) + rec ? pwm-res pfc-dt pfc-ovp ramp 27.5v 270p i ac i mo iac i mo = k {i ac (v eo ? 1v)} pfc-c amp ocp supervisor gain selector power saving for pwm 750k k v eo 3.3k 0.082 (5w) gnd 1m 1.02m 100 pfc -cs pfc -eo 0.68 0.015 1m 1k pfc -fb pfc -on 20k rt 200k 0.47 from vrb1(b+monitor1) vref pfc-c limit ? + ? + + ? + ? + b+ low pfc-off circuit ground 2.5v 2.80v 2.60v 3.80v 3.40v r q k = 0.20 s ocp r pwm-res ovp latch soft start q s h uvlo 10v 16v l vref good vref good vref good vref good gate driver 1.0a(peak) gate driver 1.0a(peak) uvl in out 5v vref generator 5v internal bias ? + ? k = 0.05 2.40v 1.50v + ? 1.5v 1.2v 0.1 18.6k 1200p 720k 4.4 + ? pwm stop pfc stop + ? pwm -cs r 2r 1.4v 0.66 (1w) to q1 gate to main trans from pfc-out to pfc-fb unit r: ? c: f + ? 7.1v 25 a vref ramp vref vcc qs r q s r + ? + ? 4.0v + ? 1.7v + ? vref pwm -ss pfc -ss pwm -comp pwm -out pfc -out 0.1 q2 1000p 2200p 330 (450v) 240 vref vref vref 620 + 56 20v 500k vrb1 3.3k 51k(5w) from auxiliary 65khz 3.4v 1.6v 3.2v 0.65v 130khz oscillator 770ns 15.4 s 7.7 s 3.85 s h l r q s ? 0.5v ? 0.25v 0.033 25 a 1v f/64 divider ct 2.5k 3.5v 0.47 200
HA16158P/fp rev.2.00 jan 30, 2007 page 23 of 23 package dimensions package code jedec jeita mass (reference value) dp-16 conforms conforms 1.07 g 6.30 19.20 16 9 8 1 1.3 20.00 max 7.40 max 7.62 0.25 + 0.13 ? 0.05 2.54 0.25 0.48 0.10 0.51 min 2.54 min 5.06 max 0 ? 15 1.11 max as of january, 2003 unit: mm f e 1 y xm p *3 *2 *1 8 9 16 index mark b z a h e d terminal cross section p 1 1 c b b c detail f 1 1 l l a 0.80 0.15 1.27 7.50 8.00 0.42 0.34 a 1 10.5 max nom min dimension in millimeters symbol reference 2.20 0.90 0.70 0.50 0.20 5.5 0.20 0.10 0.00 0.50 0.40 0.27 0.22 0.17 7.80 8 0 0.12 1.15 10.06 l 1 z h e y x c b p a 2 e d b 1 c 1 e l a note) 1. dimensions"*1 (nom)"and"*2" do not include mold flash. 2. dimension"*3"does not include trim offset. e p-sop16-5.5x10.06-1.27 0.24g mass[typ.] fp-16da prsp0016dh-a renesas code jeita package code previous code
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any of the foregoing applications shall indemnify and hold harmless renesas technology corp., its affiliated companies and their officers, dir ectors, and employees against any and all damages arising out of such applications. 9. you should use the products described herein within the range specified by renesas, especially with respect to the maximum rating, operating supply voltage range, movement power voltage range, heat radiation characteristics, installation and other product characteristics. renesas sha ll have no liability for malfunctions or damages arising out of the use of renesas products beyond such specified ranges. 10. although renesas endeavors to improve the quality and reliability of its products, ic products have specific characteristic s such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. please be sure to implement safety measures to guard against the poss ibility of physical injury, and injury or damage caused by fire in the event of the failure of a renesas product, such as safety design for hardware and software includin g but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other applicable measures. among others, sinc e the evaluation of microcomputer software alone is very difficult, please evaluate the safety of the final products or system manufactured by you. 11. in case renesas products listed in this document are detached from the products to which the renesas products are attached or affixed, the risk of accident such as swallowing by infants and small children is very high. you should implement safety measures so that renesas products may not be easily detached from your products. renesas shall have no liability for damages arising out of such detachment. 12. this document may not be reproduced or duplicated, in any form, in whole or in part, without prior written approval from r enesas. 13. please contact a renesas sales office if you have any questions regarding the information contained in this document, renes as semiconductor products, or if you have any other inquiries. sales strategic planning div. nippon bldg., 2-6-2, ohte-machi, chiyoda-ku, tokyo 100-0004, japan http://www.renesas.com refer to " http://www.renesas.com/en/network " for the latest and detailed information. renesas technology america, inc. 450 holger way, san jose, ca 95134-1368, u.s.a tel: <1> (408) 382-7500, fax: <1> (408) 382-7501 renesas technology europe limited dukes meadow, millboard road, bourne end, buckinghamshire, sl8 5fh, u.k. tel: <44> (1628) 585-100, fax: <44> (1628) 585-900 renesas technology (shanghai) co., ltd. unit 204, 205, aziacenter, no.1233 lujiazui ring rd, pudong district, shanghai, china 200120 tel: <86> (21) 5877-1818, fax: <86> (21) 6887-7898 renesas technology hong kong ltd. 7th floor, north tower, world finance centre, harbour city, 1 canton road, tsimshatsui, kowloon, hong kong tel: <852> 2265-6688, fax: <852> 2730-6071 renesas technology taiwan co., ltd. 10th floor, no.99, fushing north road, taipei, taiwan tel: <886> (2) 2715-2888, fax: <886> (2) 2713-2999 renesas technology singapore pte. ltd. 1 harbour front avenue, #06-10, keppel bay tower, singapore 098632 tel: <65> 6213-0200, fax: <65> 6278-8001 renesas technology korea co., ltd. kukje center bldg. 18th fl., 191, 2-ka, hangang-ro, yongsan-ku, seoul 140-702, korea tel: <82> (2) 796-3115, fax: <82> (2) 796-2145 renesas technology malaysia sdn. bhd unit 906, block b, menara amcorp, amcorp trade centre, no.18, jalan persiaran barat, 46050 petaling jaya, selangor darul ehsan, malaysia tel: <603> 7955-9390, fax: <603> 7955-9510 renesas sales offices ? 2007. renesas technology corp., all rights reserved. printed in japan. colophon .7.0

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