unisonic technologies co., ltd uc5301 preliminary cmos ic www.unisonic.com.tw 1 of 6 copyright ? 2011 unisonic technologies co., ltd qw-r502-602.a switched-capacitor voltage inverters �? description the utc uc5301 is an unregulated charge-pump voltage inverter. it can be used to generate a negative supply from positive input. input voltages varying from +1.8v to +5v can be inverted into a -1.8v ~ -5v output supply. the device can be operated on a 0.45ma typical current from supplies 3.3v, which meets the r equirements of battery-powered and board level voltage conversion applications. the utc uc5301 can deliver 25ma output current with a voltage drop of 250mv. the parts are over-temperat ure protected. the utc uc5301 is generally used in cell phones, pda s , and other portable equipments, small lcd panels, handy-terminals. �? features * operating voltage range: 1.8v ~ 5v * inverts input supply voltage * 25ma output current with a voltage drop of 250mv * quiescent current 0.45ma from supplis 3.3v * voltage conversion efficiency up to 99% * only two capacitors needed * over-temperature circuit * 2kv esd rating �? ordering information ordering number lead free halogen free package packing UC5301L-S08-R uc5301g-s08-r sop-8 tape reel UC5301L-S08-R (1)packing type (2)package type (1) r: tape reel (2) s08: sop-8 (3) g: halogen free, l:lead free (3)lead free
uc5301 preliminary cmos ic unisonic technologies co., ltd 2 of 6 www.unisonic.com.tw qw-r502-602.a �? pin configuration �? pin description pin no. pin name description 1,6,7 nc not internally connected 2 cp+ flying capacitor?s positive terminal 3 gnd ground 4 cp- flying capacitor?s negative terminal 5 out inverting charge-pump output 8 in power-supply positive voltage input �? block diagram
uc5301 preliminary cmos ic unisonic technologies co., ltd 3 of 6 www.unisonic.com.tw qw-r502-602.a �? absolute maximum rating (t a =25c unless otherwise specified.) parameter symbol ratings unit in to gnd voltage v in -0.3v ~ +5.5v v out to gnd voltage v out -5.5v ~ +0.3v v c1+ to gnd voltage v c+ -0.3v ~ (v in +0.3v) v c1- to gnd voltage v c- (v out -0.3v) ~ +0.3v v out output current i out 100ma ma operating temperature t opr -40c ~ 85c c out short circuit to gnd indifinite storage temperature t s -65c ~ 150c c junction temperature t j 150c c reflow temperature (soldering, 10sec) 260c c esd rating hbm v esd 2000v v notes: 1.absolute maximum ratings are those values beyond which the device could be permanently damaged. 1. absolute maximum ratings are stress ratings only and functional device operation is not implied. 2.human body model is a 100pf c apacitor discharged through a 1.5k ? resistor into each pin. �? thermal data parameter symbol ratings unit junction to ambient ja 160 c/w �? electrical characteristics (v in =+3.3v/5.0v, c1 = c2 = c3= 1f, t a = -40 ~ 85c unless otherwise specified. typical values is at t a =25c.) parameter symbol test conditions min typ max unit input voltage v in r load =10k ? 1.8 5 v v in =+3.3v t a =25c 0.42 0.5 supply current i q v in =+5.0v t a =25c 0.9 ma v in =3.3v 252 295 330 charge pump frequency f sw v in =5.0v 290 khz v in =3.3v i load =5ma 8.3 9.6 output resistance(note) r out v in =5.0v i load =5ma 8.8 ? v in =3.3v i load =5ma 13 v in =3.3v i load =25ma 55 v in =5.0v i load =5ma 23 output ripple v ripple v in =5.0v i load =25ma 96 mv p-p voltage conversion efficiency v in =3.3v/5.0v no load 99 % v in =3.3v i load =5ma 93 % power efficiency v in =5.0v i load =10ma 90 % note: capacitor contribution (esr component plus (1/f sw ) ? c) is approximately 20% of output.
uc5301 preliminary cmos ic unisonic technologies co., ltd 4 of 6 www.unisonic.com.tw qw-r502-602.a �? detailed description four switches (s1, s2, s3, and s4) incorporated in the de vice, which are switched in a sequence to inverter the input supply voltage. the external capacitors determine the energy transfer and storage. the course of voltage conversion is show in figure. 1. when s1 and s3 ar e closed, c1 charges to the supply voltage vin. during this time interval, switches s2 and s4 are open. in the second time interval, s1 and s3 are open; at the same time, s2 and s4 are closed, c1 is charging c2. after a number of cycles, the voltage across c2 will be pumped to vin. since the anode of c2 is connected to ground, the output at the cathode of c2 equals - (v in ) under o load current condition. the utc uc5301 is mainly to generate a negative supply voltage. the input supply voltage is varying from1.8v to 5v. the output characteristics of this circuit can be approx imated by an ideal voltage source in series with a resistance. the voltage source equals - (v in ). the output resistance, r out , is a function of the on re sistance of the internal mosf et switches, the oscillator frequency, the capacitance and the esr of both c1 and c2. since the switch ing current charging and discharging c1 is approximately twice as the output current, the effect of the esr of the pumping capacitor c1 will be multiplied by four in the output resistance. t he output capacitor c2 is charging and discharging at a current approximately equal to the output current, therefore, this esr term onl y counts once in the output resistance. the value of r out is approximately calculated in the following equation: c2 c1 1 osc sw out esr 4esr c f 2 2r r + + + ? (r sw is the sum of the on resist ance of the internal mosfet switches shown in figure 1.) lower output resistance is dependent on hig her capacitance and lower esr capacitors.
uc5301 preliminary cmos ic unisonic technologies co., ltd 5 of 6 www.unisonic.com.tw qw-r502-602.a �? application information table 1. low-esr capacitor manufacturers production method manufacturer series avx x7r surface-mount ceramic matsuo x7r capacitor selection proper selection of external capacitor in applications is critical to keep the lowest output resist ance; the capacitors should be with low esr (table 1). minimizing the char ge-pump capacitor?s esr minimizes the total output resistance because the charge-pum p output resistance is a function of c1?s and c2?s esr. flying capacitor (c1) increasing the flying capacitor?s value reduces the outpu t resistance. above a certain point, increasing c1?s capacitance has a negligible effect because the output resistance becomes dominated by the internal switch resistance and capacitor esr. output capacitor (c2) increasing the output capacitor?s val ue reduces the output ripple voltage. de creasing its esr reduces both output resistance and ripple. lower capacitance values can be used with light loads if higher out put ripple can be tolerated. the peak-to-peak ripple is determined by the following equations: v riple = c2 l osc l esr 2xi c2 f i + + the output voltage drop is the load cu rrent times the output resistance, and the power efficiency is calculated as: = ) (v i r i r i r i p p in q out 2 l l 2 l l 2 l n i out + + = (i q (v in ) is the quiescent power loss of the ic device, and i l 2 r out is the conversion loss associated with the switch on-resistance, the two external capacitors and their esr s .) input bypass capacitor (c3) input bypass capacitor is used to bypass the incoming supply to reduce its ac impedance and the impact of the utc uc5301 ?s switching noise. the value of a bypass capacitor is recommended to be equal to the c1. voltage inverter the device is mainly for application as a charge-pump vo ltage inverter (figure 2). less external capacitors are required. (c1, c2 and a bypass capacitor, if necessary.) layout and grounding for a better noise performance, a good layout is necessary. therefore, it?s best to mount all components as close together as possible, keep traces short to minimize parasitic inductance and capacitance and use a ground plane.
uc5301 preliminary cmos ic unisonic technologies co., ltd 6 of 6 www.unisonic.com.tw qw-r502-602.a �? typical operating circuit �? typical application circuit utc assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all utc products described or contained herein. utc products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. the information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice.
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