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| MIC79110 Micrel MIC79110 Simple 1.2A Linear Li-Ion Battery Charger General Description The Micrel MIC79110 is a simple and accurate lithium ion battery charger. Featuring a built-in pass transistor, precision programmable current limiting (5%), and precision voltage termination (1.5% over temperature) all in a very small package, the MIC79110 packs full functionality into a small space. Other features of the MIC79110 include two independent end-of-charge indications, including a digital indication that is programmable with a resistor-to-ground and an analog current output that is proportional to the output current, allowing for monitoring of the actual charging current. Additional features include very low dropout (500mV over the temperature range), thermal shutdown, and reverse polarity protection. In the event the input voltage to the charger is disconnected, the MIC79110 also provides minimal reverse-current and reversed-battery protection. Available in both fixed 4.2V and adjustable outputs, the MIC79110 is offered in the leadless 3mm x 3mm MLF-10 with an operating junction temperature range of -40C to +125C. Features * Input voltage range: 2.5V to 16V * High output voltage accuracy of 0.75% over -5C to +60C and 1.5% over temperature * Current Limit 5% accurate from -5C Tj + 125C * Programmable End-of-Charge Flag * Analog output proportional to output current * Adjustable and Fixed 4.2V Output * Low dropout voltage of 500mV at 700mA load, over temperature * 1.2A output current * Excellent line and load regulation specifications * Reverse current and reverse battery protection * Thermal shutdown and current limit protection * Tiny 3mm x 3mm MLFTM-10 package * Junction Temperature Range: -40C to +125C Applications * * * * * * * * * * Cellular phones PDAs Digital cameras Camcorders MP3 players Notebook PCs Portable Meters Cradle chargers Car chargers Battery packs Typical Application 10k MIC79110 VIN SHUTDOWN ENABLE VIN SD REOC RSET BAT SNS DEOC ACHG GND 1k 4.2VBAT 4.2V Li-Ion Cell 4k 167 MLF and MicroLeadFrame is a trademark of Amkor Technology. Micrel, Inc. * 1849 Fortune Drive * San Jose, CA 95131 * USA * tel + 1 (408) 944-0800 * fax + 1 (408) 474-1000 * http://www.micrel.com July 2004 1 M9999-072004 MIC79110 Micrel Ordering Information Part Number MIC79110-4.2BML MIC79110BML Voltage 4.2V ADJ Marking L942 L9AA Junction Temp. Range -40C to +125C -40C to +125C Package 10-lead 3mm x 3mm MLFTM 10-lead 3mm x 3mm MLFTM Pin Configuration SD 1 RSET 2 SNS 3 BAT 4 VIN 5 10 GND 9 REOC 8 DEOC 7 ACHG 6 VIN SD 1 RSET 2 ADJ 3 BAT 4 VIN 5 10 GND 9 REOC 8 DEOC 7 ACHG 6 VIN 3mm x 3mm Fixed Output 3mm x 3mm Adjustable Output Pin Description Pin Number 1 2 3 3 4 5, 6 7 8 Pin Name SD RSET SNS ADJ BAT VIN ACHG DEOC Pin Function Shutdown Input. Logic High = Off; Logic Low = On Current limit: Sets constant current limit threshold via an external resistor to ground. IRSET = (0.2V/RSET) x 1000 (Fixed voltage only): Sense output, connect directly to battery (Adjustable voltage only): Feedback input. Battery Terminal. Connect to single-cell lithium-ion battery. Input supply pin. Analog Charge Indicator Output: Current source output equal to 1/1000th of the output current. Digital End-of-Charge Output: N-Ch open drain output. Low indicates charging, a current that is higher than the programmed current set by REOC is charging the battery. When the current drops to less than the current set by REOC, the output goes high impedance, indicating end-of-charge. End-of-Charge Set: Sets end-of-charge current threshold via an external resistor to ground. IEOC = (0.2V/REOC) x 1000 Ground 9 10 REOC GND MICxxxx/xxxx X-2 DRAFT Rev m/03-A Month 2003 MIC79110 Micrel Absolute Maximum Ratings (1) Input Supply Voltage (VIN) .................................. 0V to 18V Shutdown Input Voltage (V) ................................ 0V to 18V Output Voltage (ADJ) .................................................... 10V Power Dissipation .................................... Internally Limited Junction Temperature .............................. -40C to +125C Operating Ratings (2) Input Supply Voltage ........................................ 2.5V to 16V Shutdown Input Voltage (V) .................................. 0V to 7V Output Voltage (ADJ) ................................................... 9.6V Junction Temperature Range (TJ) ........... -40C to +125C JA (MLFTM-10) ........................................................ 60C JC (MLFTM-10) ......................................................... 2C Electrical Characteristics TA = 25C with VIN = VOUT + 1V; ILOAD = 100A ; CBATT = 10F; SD = 0V; RSET=1k. Bold values indicate -40C < TJ < +125C; unless otherwise specified. Parameter Output Voltage Accuracy Condition Variation from VOUT = 4.2V; TJ = -5C to +60C; ILoad = 50mA Min -0.75 -1.5 ADJ Pin Voltage Accuracy Line Regulation Load Regulation Dropout Voltage(3) VIN = Vout + 1V to 16V @ ILOAD = 50mA ILOAD = 0.1mA to 1A ILOAD = 100mA, Rset = 167 ILOAD = 700mA, Rset = 167 Ground Current ILOAD = 10mA, Rset = 167 ILOAD = 700mA, Rset = 167 VIN Pin Current Shutdown Pin Current Shutdown Input Threshold SD = VIN SD = 5.2V, VBAT = 0 Logic High, regulator off Logic Low, regulator on Shutdown Hysteresis Current Limit Accuracy(4, 5) VOUT = 0.9 x VNOM; IOUT = 1.2A, RSET = 167, TJ = -40C to +85C VOUT = 0.9 x VNOM; IOUT = 0.1A, RSET = 2k RSET shorted to ground, VBAT = 0.9 x VNOM VIN = High impedance or ground REOC = 4kW Current Falling REOC = 4kW Current Rising IDEOC = 5mA, IBAT = 700mA Logic High = VIN = 16V VIN = +5V REOC shorted to ground IBAT = 50mA IBAT = 1.2A, TJ = -40C to +85C Notes: 1. Exceeding the absolute maximum rating may damage the device. 2. The device is not guaranteed to function outside its operating rating. Typ Max +0.75 +1.5 Unit % % V %/V % 0.5955 -0.1 0.6 0.6045 +0.1 0.3 160 375 2 24 120 0.1 1.1 0.9 60 -5 -20 0.1 1.25 1.65 4.2 +5 +20 1.2 2.5 20 250 550 3 35 300 5 mV mV mA mA A A V V mV % % A A A Current Limit Setpoint Range(5) Maximum Current Limit VBAT Reverse Current IEOC (6, 7) IEOC (6, 7) DEOC Logic-Low Voltage DEOC Leakage Current DEOC On Resistance REOC Maximum Current Limit ISOURCE(8) Digital End-of-Charge (DEOC) Output 35 30 50 40 50 70 0.74 0.1 150 0.5 1.0 190 2.0 65 70 95 100 0.95 mA mA mA mA V A mA Analog Charge Indicator (ACHG) Output 45 800 46 950 55 1150 A A July 2004 3 M9999-072004 MIC79110 Micrel 3. Dropout Voltage is defined as the input to output differential at which the output voltage drops 2% below its nominal value measured at 1V differential. For outputs below 2.5V, dropout voltage is the input-to-output voltage differential with the minimum input voltage 2.5V. Minimum input operating voltage is 2.5V. 4. Vnom denotes the nominal output voltage. 5. IRSET = (0.2V/RSET) * 1000 6. Output Current IEOC when Digital End-of-Charge output goes high impedance. Currents greater than IEOC, the DEOC output is low, currents lower than IEOC, DEOC is high impedance. 7. IEOC = (0.2V/REOC) * 1000 8. ISOURCE is the current output from ACHG pin. A resistor to ground from the ACHG pin will program a voltage that is proportional to the output current. Block Diagram VIN Current Limit Sense BAT SNS + DEOC SD Thermal Shutdown Current Limit Set VREF End of Charge Detect RSET ACHG REOC GND MIC79110 Block Diagram M9999-072004 4 July 2004 MIC79110 Micrel -90 -80 -70 PSRR (dB) -60 -50 -40 -30 -20 -10 V IN PSRR BATTERY VOLTAGE (V) 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 0 Dropout Characteristics GROUND CURRENT (mA) 60 50 40 30 20 10 0 0 Battery Current vs. Ground Current IBAT = 0A 0mA 250mA 500mA 50mA IBAT = 1.2A = VOUT+1V 1 10 100 FREQUENCY (kHz) 1000 0 0.1 VOUT = 4.2V 1 2 3 4 SUPPLY VOLTAGE (V) 5 200 400 600 800 1000 1200 BATTERY CURRENT (mA) 80 Ground Current vs. Temperature GROUND CURRENT (mA) GROUND CURRENT (mA) 75 70 65 60 55 50 45 ISET = 1.2A 40 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) 5.5 5.3 5.1 4.9 4.7 4.5 Ground Current vs. Temperature 0.8 Battery Voltage vs. Temperature ACCURACY (%) VOUT = 4.2V 0.7 I =0A BAT 0.6 0.5 0.4 0.3 0.2 0.1 0 -40 -20 0 20 40 60 80 100 120 TEMPERATURE (C) 4.3 4.1 3.9 3.7 I = 0A BAT 3.5 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) 3.5 GROUND CURRENT (mA) 3.0 2.5 2.0 1.5 1.0 0.5 0 0 Ground Current vs. Supply Voltage GROUND CURRENT (mA) IBAT=0A 60 50 40 30 20 10 0 0 Ground Current vs. Supply Voltage DROPOUT VOLTAGE (mV) IBAT=1.2A 800 700 600 500 400 300 200 100 0 0 Dropout Voltage VOUT=4.2V 1 2 3 4 SUPPLY VOLTAGE (V) 5 1 2 3 4 SUPPLY VOLTAGE (V) 5 0.2 0.4 0.6 0.8 1 1.2 BATTERY CURRENT (A) 35 Dropout Voltage vs. Temperature IBAT=0A 1.15 1.10 Shutdown Threshold vs. Temperature BATTERY VOLTAGE (V) 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 0 Battery Current vs. Battery Voltage DROPOUT VOLTAGE (mV) 30 25 20 15 10 5 SHUTDOWN (V) 1.05 1.00 0.95 0.90 -40 -20 0 20 40 60 80 100 120 TEMPERATURE (C) R SET = 165k 0 -40 -20 0 20 40 60 80 100 120 TEMPERATURE (C) 0.2 0.4 0.6 0.8 1 1.2 1.4 BATTERY CURRENT (A) July 2004 5 M9999-072004 MIC79110 Micrel 4.5 BATTERY VOLTAGE (V) 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 0 Battery Current vs. Battery Voltage R BATTERY CURRENT (A) 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 Battery Current vs. RSET DEOC THRESHOLD (mA) = 2k VIN = VOUT+1V VOUT = 4.2V SET VIN = VOUT+1V VOUT = 4.2V 1000 900 800 700 600 500 400 300 DEOC Threshold vs. REOC 100 200 300 400 500 600 BATTERY CURRENT (mA) RSET (k) 200 100 04 3.5 3 2.5 2 1.5 1 0.5 0 REOC (k) 0 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45 Reverse Current vs. Battery Voltage 14 REVERSE CURRENT (A) DEOC Hysteresis BATTERY CURRENT (A) 50 45 40 35 30 25 20 15 10 5 0 -40 -20 0 20 40 60 80 100 120 TEMPERATURE (C) 0.50 Battery Current 505 504 503 502 501 500 RSET = 40 499 -5 5 15 25 35 45 TEMPERATURE (C) 55 10 8 6 4 2 00 1 2 3 4 5 6 7 8 9 10 BATTERY VOLTAGE (V) HYSTERESIS (mV) 12 VIN=0V VRSET=0V REVERSE BATTERY CURRENT (A) Reverse Battery Current vs. Temperature 9 8 7 6 5 4 3 2 1 0 -40 -20 0 20 40 60 80 100 120 TEMPERATURE (C) M9999-072004 6 July 2004 MIC79110 Micrel Line Transient VIN = 3.6V Input Voltage (5V/div) 16V VIN=3.6V 5V 1.2A Load Transient VIN = 3.6V Load Current (500mA/div) 100A VIN=3.6V Output Voltage (500mV/div) TIME (20s/div.) Output Voltage (200mV/div) TIME (100s/div.) Shutdown Transient Battery Current Enable Transient TIME (100s/div.) Battery Switch (1V/div) Shutdown (2V/div) IBAT (500mA/div) VBAT (1V/div) TIME (200s/div.) July 2004 7 M9999-072004 MIC79110 Micrel Constant Output Voltage/Current Charging The MIC79110 features constant voltage and constant current output to correctly charge lithium-ion batteries. The constant voltage is either 4.2V or adjustable. The constant current is set by the Rset pin and is constant down to around 300mV. Since Rset can be set below 500mA, the minimum output current is set at 500mA for output voltages below 100mV. This minimum voltage starts the charging process in lithium-ion batteries. If the output current is too low, the battery will not begin charge. MIC79110 V-I Curve Application Information Detailed Description The MIC79110 forms a complete charger for 1-cell Lithiumion batteries. It includes precision voltage control (0.75% over temperature) to optimize both cell performance and cycle life. All are compatible with common 4.2V Lithium-ion chemistries. Voltages other than 4.2V can be obtained with the adjustable version. Other features include current limit, end-of-charge flag and end-of-charge current limit using an external resistor. The shutdown pin enables low quiescent current when not charging. Current Limit Mode MIC79110 features an internal current limit that is set by the Rset pin with a resistor-to-ground. The maximum current is calculated by the following equation: IRset = (0.2/Rset) x 1000 Using a 167 Rset resistor will achieve the maximum current limit for the MIC79110 at 1.2 amperes. End of Charge REOC pin is connected to a resistor-to-ground. This resistor is used to set the end of charge current for the lithium ion battery as follows: IREOC = (0.2/REOC) x 1000 Using a 4k REOC resistor will set the end-of-charge current at 50mA. IReoc should be set at 10% of the battery's rated current. Digital End-of Charge Output This pin is the output of an open drain. When tied high to the supply using a resistor, the output will toggle high or low depending on the output current of Ibat. - Low state indicates that the Ibat current is higher than the programmed current set by REOC. - High state indicates that the Ibat current is lower than the programmed current set by REOC. The output goes high impedance indicating end-ofcharge. Analog-End-Of-Charge Output The ACHG pin provides a small current that is proportional to the charge current. The ratio is set at 1/1000th of the output current. Shutdown The SD pin serves as a logic input (active low) to enable the charger. Built-in hysteresis for the shutdown pin is 50mV over temperature. Reverse Polarity Protection In the event that VBAT > VIN and the shutdown pin is active low, there is reverse battery current protection built in. The current is limited to less than 10A over temperature. I Current Standard V-I Curve Standard V-I Curve 0.7V I Current IMAX = (0.2/RSET)x1000 500mA MIC79110 V-I Curve Lithium Ion Batteries Lithium-ion batteries are charged in two stages to reach full capacity. The first stage charges the battery with maximum charge current until 90% of the battery cell's voltage limit is reached. The second stage tops off the charge with constant voltage charge as the charge current slowly decreases. End of charge is reached when the current is less than 3% of the rated current. A third stage will occasionally top off with charge with constant voltage charge if the battery voltage drops below a certain threshold. Voltage/Cell Charge Current Stage 1 Max. charge current is applied until the cell voltage limit is reached Stage 2 Max. cell voltage is reached Charge current starts to drop as full charge is approached Stage 3 Occasional topping charge about 1 per 500h 1.25/5 CURRENT VOLTAGE (A/V) .... 1.00/4 0.75/3 0.50/2 Terminate charge when current < 3% of rated current 0.25/1 .... 1 2 3 TIME (hrs) All lithium-ion batteries take approximately 3 hours to charge with the second stage taking twice as long as the first stage. Some chargers claim to be fast chargers by skipping the second stage and just charges the battery until the cell voltage is reached. This only charges the battery to 70% 8 July 2004 M9999-072004 MIC79110 capacity. An increase in the charge current during stage 1 does not shorten the total charge time. It will only shorten the time for stage 1 to complete and lengthen the time in stage 2. The lithium-ion loses charge due to aging whether it is used or not. Do not store the batteries at full charge and high heat because it will accelerate the aging process. Try and store with 40% charge and in a cool environment. Lithium-Ion Safety Precautions Every lithium ion battery pack should have a safety board which monitors the charge and discharge of the pack and prevents dangerous occurrences. The specifications of these safety boards are dictated by the cell manufacturer and may include the following: * Reverse polarity protection * Charge temperature must not be charged when temperature is lower than 0C or above 45C. Micrel * Charge current must not be too high, typically below 0.7C * Discharge current protection to prevent damage due to short circuits. * Protection circuitry for over voltage applied to the battery terminals. * Overcharge protection circuitry to stop charge when the voltage per cell rises above 4.3V. * Over discharge protection circuitry to stop discharge when the battery voltage falls below 2.3V (varies with manufacturer). * Thermal shutdown protection for the battery if the ambient temperature is above 100C. Start Charging Lithium-Ion Battery Standby Mode Do not charge 1 Shutdown Pin 0 Deoc Flag is High Stop Charge Charging Monitor Ibat Deoc Flag is Low Continue Charge Stop Charge Current Limit Irset Ibat Ieoc Stop Charge End of Charge >4.3V Battery Voltage <125C >125C Die Temperature July 2004 9 M9999-072004 MIC79110 Simple Charger - External Trigger to Reset Charge Cycle reset Reset charge cycle. Micrel External Trigger to Reset Charge Cycle Reset 1 - VIN steps up to a voltage greater than VBAT. 2 - SD held low by CSD until active high DEOC pulls shutdown low. 3 - Deoc releases SD, resistor pull-up from SD pin'vo VIN pulls VSD to VIN. 4 - An external signal applied to the gate of the external NCH pulls SD pin-to-ground. 5 - Ibattery is near zero (2 to 4A) because VIN is below VBAT and the reverse shutoff circuit is turning the charge to the battery off. 6 - IBAT is decreased as VBAT approaches VBAT set voltage. IBAT decreases below the DEOC threshold and DEOC is released high allowing VSD to go high 7 - External NCH turns part on, after a small delay IBAT turns on. 8 - Active high DEOC pin goes high because of reverse shutoff. DEOC remains high until IBAT exceeds DEOC threshold, then goes low. 9 - IBAT decreases below (see #5) DEOC threshold. 10 - Active low DEOC is high because VIN is below VBAT and reverse shutoff holds DEOC comparator off. As VIN increases above VBAT, the reverse voltage shutoff turns off, DEOC comparator becomes active. While IBAT is below DEOC threshold DEOC active low goes low, when IBAT exceeds DEOC threshold IBAT goes high. 11 - Legitimate Activation of active low DEOC until SD shuts down part and DEOC AL (active low) goes high. SD RSET 200 GND REOC 2k VSENSE DEOC VBAT VIN ACHG VIN 1M CDELAY 0.1F The VIN voltage steps up to a voltage greater than VBAT. When Vin is below Vbat, the Ibat current is near zero and the reverse shutoff circuit is turning the charge to the battery off. The IBAT slowly increases as VIN rises above VBAT. DEOC is pulled low when the Ibat current is above the Ieoc current set by REOC. When the DEOC is low, the shutdown pin is also forced low and helps discharge CSD. When the VBAT reaches the set voltage, the Ibat begins to slowly drop. When the Ibat is less than the IEOC threshold, the DEOC output goes high impedance, indicating end-of-charge. When an external signal is applied to the gate, the external NCH pulls the SD and DEOC pins to ground. This restarts the charging process. Vin VSD Vbat set voltage Vbat SD threshold 1 2 2 3 Vgate 6 4 7 5 Ibattery 8 Active high DEOC pin 9 10 Active low DEOC pin 9 M9999-072004 10 July 2004 MIC79110 Auto Top Off Charger - Application Circuit Top-Off-Charger with Internal Reset - Application Circuit SD RSET 2k VSENSE DEOC VBAT R1 3M VIN ACHG VIN VIN R2 1M LI-ion Battery Micrel SD RSET 200 ohms GND REOC GND REOC 2k 200 ohms VSENSE DEOC VBAT R1 3meg VIN ACHG VIN R2 1meg LI-ion Battery VIN Lithium-Ion batteries will begin to lose their charge over time. The MIC79110 can be configured to automatically recharge the battery if the voltage drops below a certain voltage. This minimum voltage is set by a resistor divider at the battery and connected to the SD pin. When the battery voltage falls below the minimum voltage, the SD pin is pulled low to start the normal charging process. Battery charging Self discharge This circuit is similar to the auto top off charger circuit mentioned above except that the DEOC pin is externally triggered to restart the charging cycle. It still uses the same resistor divider to set the minimum battery voltage before the lithium-ion needs to be recharged. Auto-Shutdown Using Shutdown Pin VIN R1 CIN SD R2 GND COUT VIN VOUT VBAT 4.2 V VBat min VBattery Deoc trip IBattery Vs The shutdown pin on the MIC79110 can be used to automatically shutdown the battery charger when the input voltage rises above a safe operating voltage. To keep the part from heating up and entering thermal shutdown, we can connect the shutdown pin to VIN using a resistor divider. Use the following equation to setup the maximum VIN. VIN (MAX) VSD = R1 R2 +1 R1 VBat min=0.975V( R2 +1) R2=1meg VBat min 1 R1=( 0.975 -1) R 2 Vbat set (4.2V) The MIC79110 can be connected to a wall wart with a rectified DC voltage and protected from over voltages at the input. Vbat 4 2 3 1 SD Voltage Vbat low set by divider. 1 - SD not held low by active high DEOC because DEOC Comparator's inputs do not common-mode to ground. Divider holds SD low so part can start. 2 - SD held low by divider 3 - SD held low by active high DEOC 4 - Divider voltage above SD threshold and DEOC open 5 - Divider voltage drops below SD threshold and charging begins again. July 2004 11 M9999-072004 MIC79110 Micrel Package Information 0.85 +0.15 --0.05 3.00 BSC. 1.50 BSC. 0.48 typ. 0.01 +0.04 --0.01 0.23 +0.07 --0.05 1 2 3 0.20 dia 3.00 BSC. 5.0 1.60 +0.15 --0.15 0.80 +0.15 --0.15 PIN 1 ID 1.50 BSC. 1 +0.15 2 1.15 --0.15 3 2.30 +0.15 --0.15 0.50 BSC. 0.40 +0.15 --0.05 TOP BOTTOM SEATING PLANE TERMINAL TIP 0.23 +0.07 --0.05 0.01 +0.04 --0.01 0.50 BSC. TERMINAL TIP ODD TERMINAL SIDE 0.50 BSC. EVEN TERMINAL SIDE MICREL, INC. 1849 FORTUNE DRIVE TEL SAN JOSE, CA 95131 WEB USA + 1 (408) 944-0800 FAX + 1 (408) 474-1000 http://www.micrel.com The information furnished by Micrel in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer. Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product can reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. A Purchaser's use or sale of Micrel Products for use in life support appliances, devices or systems is at Purchaser's own risk and Purchaser agrees to fully indemnify Micrel for any damages resulting from such use or sale. (c) 2004 Micrel, Incorporated. M9999-072004 12 July 2004 |
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