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| unisonic technologies co., ltd ub6054 preliminary cmos ic www.unisonic.com.tw 1 of 13 copyright ? 2012 unisonic technologies co., ltd qw-r502-867.a one-cell standalone linear lithium battery charger �? description utc ub6054 is a complete, constant current and constant voltage linear charger for single cell lithium-ion batteries. its small size and ability to regulate low charge currents make utc ub6054 especially well-suited for portable applications using low capacity rechargeable lithium-ion coin cells. furthermore, utc ub6054 is specifically designed to work within usb power specifications. no external sense resistor is needed, and no blocking diode is required due to the internal mosfet architecture. the charge voltage is fixed at 4.2v, and t he charge current can be programmed externally with a single resistor. utc ub6054 automatically terminates a charge cycle when the charge current drops to 1/10th the programmed value after the final float voltage is reached. �? features * programmable charge current up to 500ma. * no external mosfet, sense resistor or blocking diode required. * complete linear charger in thinsot package for single cell / coin cell lithium-lon batteries. * constant current / constant voltage operation with thermal regulation to maximize charge rate without risk of overheating. * charges single cell li-lon batteries directly form usb port. * preset 4.2v charge voltage with high accuracy about 1.2%. * automatic recharge. * 2.9v trickle charge threshold. * 20a supply current in shutdown mode. * available in a sot-25 pacakage. * charge status output pin. �? ordering information ordering number package packing lead free halogen free UB6054L-AF5-R ub6054g-af5-r sot-25 tape reel note: xx: output voltage, refer to marki ng information. ub6054g-xx-af5-r (1)packing type (2)package type (3)output voltage code (1) r: tape reel (2) af5: sot-25 (3) xx: refer to marking information (4) g: halogen free, l: lead free (4)halogen free
ub6054 preliminary cmos ic unisonic technologies co., ltd 2 of 13 www.unisonic.com.tw qw-r52-867.a �? marking information �? pin configuration �? pin description pin no. pin name description 1 chrg open-drain charge status output. when the batte ry is charging, the chrg pin is pulled low by an internal n-channel mosfet. when the charge cycle is completed, a weak pull-down of approximately 20ua is conn ected to the chrg pin, indicating an ?ac present? condition. 2 gnd ground. 3 bat charge current output. provides charge curr ent to the battery and regulates the final float voltage to 4.2v. 4 v cc positive input supply voltage. provides power to the charger. v cc can range from 4.25v to 6.5v and should be bypassed with at least a 1 f capacitor. 5 prog charge current program, charge current monitor and shutdown pin. ub6054 preliminary cmos ic unisonic technologies co., ltd 3 of 13 www.unisonic.com.tw qw-r52-867.a �? block diagram ma va ca 0.5ua v ref msd trikle 1.25v 1.0v 0.1v 1ua v cc rechg sleep uvlo bat 4.1v bat v cc 3.8v logic v cc chrg prog gnd bat ta 120 t die ub6054 preliminary cmos ic unisonic technologies co., ltd 4 of 13 www.unisonic.com.tw qw-r52-867.a �? absolute maximum rating parameter symbol ratings unit input supply voltage v cc -0.3 ~ +7.0 v prog voltage v prog -0.3 ~ +7.0 v bat voltage v bat -0.3 ~ +7.0 v chrg voltage v chrg -0.3 ~ +7.0 v bat short-circuit duration continuous thermal resistance, junction-to-ambient ja 250 /w bat pin current i bat 500 ma prog pin current i prog 500 a maximum junction temperature t j 125 operating ambient temperature range t opr -40 ~ +85 storage temperature t stg -65 ~ +125 notes: 1. absolute maximum ratings are those values beyond which the device could be permanently damaged. absolute maximum ratings are stress ratings only and functional device oper ation is not implied. 2. pulse ( sec) noise exceeding the above input voltage (gnd+7.0v) may cause damage to the ic. ub6054 preliminary cmos ic unisonic technologies co., ltd 5 of 13 www.unisonic.com.tw qw-r52-867.a �? electrical characteristics (v cc =5v, t a =25 , unless otherwise specified) parameter symbol test conditions min typ max unit input supply voltage v cc 4.5 6.0 v input supply current i cc charge mode (note 1), r prog =10k 300 2000 a standby mode (charge terminated) 200 500 a shutdown mode(r prog not connected, v cc ub6054 preliminary cmos ic unisonic technologies co., ltd 7 of 13 www.unisonic.com.tw qw-r52-867.a �? operation(cont.) 4. charge status indicator (chrg) the charge status output has three different states: strong pull-down (~10ma), weak pull-down (~20 a) and high impedance. the strong pull-down state indicates that the utc ub6054 is in a charge cycle. once the charge cycle has terminated, the pin state is determined by undervoltage lockout conditions. a weak pull-down indicates that v cc meets the uvlo conditions and the utc ub6054 is ready to charge. high impedance indicates that the utc ub6054 is in undervoltage lockout mode: either v cc is less than 100mv above the bat pin voltage or insufficient voltage is applied to the v cc pin. 5. thermal limiting an internal thermal feedback loop reduces the programmed charge current if the die temperature attempts to rise above a preset value of approximately 120 . this feature protects the utc ub6054 from excessive temperature and allows the user to push the limits of the power handling capability of a given circuit board without risk of damaging the utc ub6054 . the charge current can be set according to typical (not worst-case) ambient temperature with the assurance that the charger will automatically reduce the current in worst-case conditions. 6. undervoltage lockout (uvlo) an internal undervoltage lockout circuit monitors the input voltage and keeps the charger in shutdown mode until v cc rises above the undervoltage lockout threshold. the uvlo circuit has a built-in hysteresis of 120mv. furthermore, to protect against reverse current in the power mosfet, the uvlo circuit keeps the charger in shutdown mode if v cc falls to within 30mv of the battery voltage. if the uvlo comparator is tripped, the charger will not come out of shutdown mode until v cc rise 100mv above the battery voltage. ub6054 preliminary cmos ic unisonic technologies co., ltd 8 of 13 www.unisonic.com.tw qw-r52-867.a �? application information stability considerations the constant-voltage mode feedback loop is stable without an output capacitor provided a battery is connected to the charger output. with no battery present, an output c apacitor is recommended to reduce ripple voltage. when using high value, low esr ceramic capacitors, it is recommended to add a 1w resistor in series with the capacitor. no series resistor is needed if tantalum capacitors are us ed. in constant-current mode, the prog pin is in the feedback loop, not the battery. the constant-current mode stability is affected by the impedance at the prog pin. with no additional capacitance on the prog pin, the charger is stable with program resistor values as high as 20k ? . however, additional capacitance on this node reduces the maximum allowed program resistor thus it should be avoided. average, rather than instantaneous, charge current may be of interest to the user. for example, if a switching power supply operating in low current mode is conn ected in parallel with the battery, the average current being pulled out of the bat pin is typically of more interest than the instantaneous current pulses. in such a case, a simple rc filter can be used on the prog pin to measure the average battery current as shown in figure 1. a 10k ? resistor has been added between the prog pin and the filter capacitor to ensure stability. utc ub6054 r prog c filter gnd prog 10k charge current monitor circuitry fig1. isolating capacitive load on prog pin thermal limiting an internal thermal feedback loop reduces the programmed charge current if the die temperature attempts to rise above a preset value of approximately 120c. this feature protects the utc ub6054 from excessive temperature and allows the user to push the limits of the power handling capability of a given circuit board without risk of damaging the utc ub6054 . the charge current can be set according to typical (not worst-case) ambient temperature with the assurance that the charger will automatically reduce the current in worst-case conditions. the conditions that cause the utc ub6054 to reduce charge current through thermal feedback can be approximated by considering the power dissipated in the ic. nearly all of this power dissipation is generated by the internal mosfet. this is calculated to be approximately: ( ) bat bat cc d i v v p ? = where pd is the power dissipated, v cc is the input supply voltage, vbat is the battery voltage and ibat is the charge current. the approximate ambient temperature at wh ich the thermal feedback begins to protect the ic is: ja d a p c t ? = o 120 ( ) ja bat bat cc a i v v c t ? ? = o 120 moreover, when thermal feedback reduces the charge curr ent, the voltage at the prog pin is also reduced proportionally as discussed in the operation section. it is important to remember that utc ub6054 applications do not need to be designed for worst-case thermal conditions since the ic will automatically reduce power dissipation when the junction temperature r eaches approximately 120c. ub6054 preliminary cmos ic unisonic technologies co., ltd 9 of 13 www.unisonic.com.tw qw-r52-867.a �? application information(cont.) thermal considerations because of the small size of the thinsot package, it is very important to use a good thermal pc board layout to maximize the available charge current. the thermal path for the heat generated by the ic is from the die to the copper lead frame, through the package leads, (especially the ground lead) to the pc board copper. the pc board copper is the heat sink. the footprint copper pads should be as wide as possible and expand out to larger copper areas to spread and dissipate the heat to the surrounding ambient. feed-through vias to inner or backside copper layers are also useful in improving the overall thermal performance of the charger. other heat sources on the board, not related to the charger, must also be considered when designing a pc board layout because they will affect overall temperature rise and the maximum charge current. the following table lists thermal resistance for several different board sizes and copper areas. all measurements were taken in still air on 3/32" fr-4 board with the device mounted on topside. table 1 measured thermal resistance on 2-layer board (note 1) copper area board area thermal resistance ( ja ) junction-to-ambient topside backside 2500mm 2 2500mm 2 2500mm 2 125c/w 1000mm 2 2500mm 2 2500mm 2 125c/w 225mm 2 2500mm 2 2500mm 2 130c/w 100mm 2 2500mm 2 2500mm 2 135c/w 50mm 2 2500mm 2 2500mm 2 150c/w note: 1. each layer uses one ounce copper table 2 measured thermal resistance on 4-layer board (note 1) copper area (each side) board area thermal resistance ( ja ) junction-to-ambient 2500mm 2 (note 2) 2500mm 2 80c/w notes: 1. top and bottom layers use two ounce copper, inner layer use one ounce copper 2. 10,000mm 2 total copper area increasing thermal regulation current reducing the voltage drop across the internal mosfet can significantly decrease the power dissipation in the ic. this has the effect of increasing the current delivered to the battery during thermal regulation. one method is by dissipating some of the power through an external component, such as a resistor or diode. while this application delivers more energy to the battery and reduces charge time in thermal mode, it may actually lengthen charge time in voltage mode if v cc becomes low enough to put the utc ub6054 into dropout. figure 2 shows how this circuit can result in dropout as rcc becomes large. this tec hnique works best when rcc values are minimized to keep component size small and avoid dropout. remember to choose a resistor with adequate power handling capability. fig2. a circuit to maximize thermal mode charge current ub6054 preliminary cmos ic unisonic technologies co., ltd 10 of 13 www.unisonic.com.tw qw-r52-867.a �? application information(cont.) v cc bypass capacitor many types of capacitors can be used for input bypassing. however, caution must be exercised when using multilayer ceramic capacitors. because of the self-resonant and high q characteristics of some types of ceramic capacitors, high voltage transients can be generated under some start-up conditions, such as connecting the charger input to a live power source. adding a 1 w resistor in series with an x5r ceramic capacitor will minimize start-up voltage transients. charge current soft-start the utc ub6054 includes a soft-start circuit to minimize the inrush current at the start of a charge cycle. when a charge cycle is initiated, the charge current ramps from ze ro to the full-scale current over a period of approximately 50ms. this has the effect of minimizing the transient current load on the power supply during start-up. chrg status output pin the chrg pin can provide an indication that the input vo ltage is greater than the undervoltage lockout threshold level. a weak pull-down current of approximately 20ma indicates that sufficient voltage is applied to v cc to begin charging. when a discharged battery is connected to the c harger, the constant current portion of the charge cycle begins and the chrg pin pulls to ground. the chrg pin can si nk up to 10ma to drive an led that indicates that a charge cycle is in progress. when the battery is nearing fu ll charge, the charger enters the constant-voltage portion of the charge cycle and the charge current begins to drop. when the charge current drops below 1/10 of the programmed current, the charge cycle ends and the strong pu ll-down is replaced by the 20ma pull-down, indicating that the charge cycle has ended. if the input voltage is removed or drops below the undervoltage lockout threshold, the chrg pin becomes high impedance. figure 3 shows that by using two different value pull-up resistors, a microprocessor can detect all three states from this pin. to detect when the utc ub6054 is in charge mode, force the digital output pin (out) high and measure the voltage at the chrg pin. the n-channel mosfet will pull the pin voltage low even with the 2k ? pull-up resistor. once the charge cycle te rminates, the n-channel mosfet is turned off and a 20ma current source is connected to the chrg pin. the in pin will then be pulled high by the 2k ? pull-up resistor. to determine if there is a weak pull-down current, the out pin should be forced to a high impedance state. the weak current source will pull the in pin low through the 800k ? resistor; if chrg is high impedance, the in pin will be pulled high, indicating that the part is in a uvlo state. fig3. using a microprocessor to determine chrg state ub6054 preliminary cmos ic unisonic technologies co., ltd 11 of 13 www.unisonic.com.tw qw-r52-867.a �? application information(cont.) reverse polarity input voltage protection in some applications, protection from reverse polarity voltage on v cc is desired. if the supply voltage is high enough, a series blocking diode can be used. in other cases, where the voltage drop must be kept low a pchannel mosfet can be used. fig4. low loss input reverse polarity protection usb and wall adapter power the utc ub6054 allows charging from both a wall adapter and a usb port. figure 5 shows an example of how to combine wall adapter and usb power inputs. a p-channel mosfet, mp1, is used to prevent back conducting into the usb port when a wall adapter is present and a schottk y diode, d1, is used to prevent usb power loss through the 1k ? pull-down resistor. typically a wall adapter can supply more current than the 500ma-limited usb port. therefore, an n-channel mosfet, mn1, and an extra 10k ? program resistor are used to increase the charge current to 600ma when the wall adapter is present. fig5. combining wall adapter and usb power ub6054 preliminary cmos ic unisonic technologies co., ltd 12 of 13 www.unisonic.com.tw qw-r52-867.a �? typical application circuit prog bat v cc d1 mp1 1k 5v wall adapter 500ma ichg usb power 400ma ichg i bat mn1 1f + li-ion battery 2.5k 10k gnd 100ma/ 500ma c utc ub6054 fig1. usb/wall adapter power li-ion charger utc ub6054 2k 5v 1f gnd prog bat v cc chrg 330 led mn1 + li-ion battery shdn fig2. full featured single cell li-ion charger ub6054 preliminary cmos ic unisonic technologies co., ltd 13 of 13 www.unisonic.com.tw qw-r52-867.a �? typical application circuit(cont.) utc ub6054 prog bat v cc 2k + li-ion battery 0.25 1f gnd 5v 500ma fig3. 500ma li-ion charger with external power dissipation fig4. basic li-ion charger with reverse polarity input protection 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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