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| AIC1563 Versatile DC/DC Converter FEATURES 3V to 30V Input Voltage Operation. Internal 2A Peak Current Switch. 1.5A Continuous Output Current. Bootstrapped Driver. High Side Current Sense Capability. High Efficiency (up to 90%). Internal 2% Reference. Low Quiescent Current at 1.6mA. Frequency Operation from 100Hz to 100KHz. DESCRIPTION The AIC1563 is a monolithic control circuit containing the primary functions required for DC to DC converters and highside-sensed constant current source. The device consists of an internal temperature compensated reference, comparator, controlled duty cycle oscillator with an active current sense circuit, bootstrapped driver, and high current output switch. This device is specifically designed to construct a constant current source for battery chargers with a minimum number of external components. Bootstrapped driver can drive the NPN output switch to saturation for higher efficiency and less heat dissipation. The AIC1563 can deliver 1.5A continuous current without requiring a heat sink. APPLICATIONS Constant Current Source for Battery Chargers. Saver for Cellular phones. Step-Down DC-DC Converter Module. TYPICAL APPLICATION CIRCUIT R1 1K D2 1N1418 R2 120 3C 1F 220H L D1 1N5821 + 220F DC DE CF 470pF CT GND BOOST IS VCC FB RA 5.6K RB 33K CO C5 10F D3 1N5819 (%) *RS IO 100 V IN = 16V, V O= 12V + 90 VIN + 220F C1 V IN= 16V, V O= 8V 80 70 0 0.5 1 1.5 2 AIC1563 *IO=300mV/RS Efficiency vs Output Current Io (A ) Analog Integrations Corporation DS-1563-01 Jan 30, 01 4F, 9, Industry E. 9th Rd, Science Based Industrial Park, Hsinchu Taiwan, ROC TEL: 886-3-5772500 FAX: 886-3-5772510 www.analog.com.tw 1 AIC1563 AIC1563 ORDERING INFORMATION AIC1563 XX PACKAGE TYPE N: PLASTIC DIP S: SMALL OUTLINE TEMPERATURE C: 0C~+70C ORDER NUMBER AIC1563CN (PLASTIC DIP) AIC1563CS (PLASTIC SO) PIN CONFIGURATION TOP VIEW DC 1 DE 2 CF 3 GND 4 8 BOOST 7 IS 6 VCC 5 FB ABSOLUTE MAXIMUM RATINGS Supply Voltage .......................................................................................................... 30V Comparator Input Voltage Range .................................................................. -0.3V~30V Switch Collector Voltage ............................................................................................ 30V Switch Emitter Voltage .............................................................................................. 30V Switch Collector to Emitter Voltage ........................................................................... 30V Driver Collector Voltage ............................................................................................. 30V Switch Current ........................................................................................................... 2A Power Dissipation and Thermal Characteristics DIP Package Ta= 25C ........................................................................ 1.0W Thermal Resistance .................................................. 100C/W SO Package Ta= 25C .................................................................... 625mW Thermal Resistance .................................................. 160C/W Operating Junction Temperature ........................................................................... 125C ............................................................... 0~70C Operating Ambient Temperature Range Storage Temperature Range ................................................................... - 65C ~ 150C TEST CIRCUIT R1 VCC 1K 50mA Current Source 1A Current Source 4.55V @VCC=5V DC DE 3 2V/0V IDISCHG/ ICHG 4 GND CF BOOST 8 IS VCC FB 7 6 5 1.275V 1.225V 4.75V 1 2 VCC AIC1563 CT 1nF 2 AIC1563 AIC1563 ELECTRICAL CHARACTERISTICS (VCC= 5V, Ta=25C, unless otherwise specified.) PARAMETER Oscillator Charging Current Discharge Current Voltage Swing Discharge to Charge Current Ratio Current Limit Sense Voltage Output Switch Saturation Voltage, Emitter Follower Connection Saturation Voltage IDE=1.0A; VBOOST =VDC = VCC IDC=1.0A; IBOOST =50mA, (Forced 20) ISC =1.0A; VCE=5.0V VCE=30V VCE(SAT) 1.5 1.8 V 5.0VVCC30V 5.0VVCC30V PIN 3 VIS =VCC ICHG IDISCHG VOSC IDISCHG / ICHG 10 100 25 150 0.6 6.0 40 200 A A V TEST CONDITIONS SYMBOL MIN. TYP. MAX. UNIT ICHG=IDISCHG VCC - VIS 250 300 350 mV VCE (SAT) 0.4 0.7 V DC Current Gain Collector Off-State Current Comparactor Threshold Voltage hFE IC(OFF) 35 120 10 nA Ta=25C 0C Ta 70C VFB 1.225 1.21 1.25 1.275 1.29 V V mV/V Threshold Voltage Line Regulation Input Bias Current Supply Current 3.0VVCC30V REGLINE 0.1 0.3 VIN=0V VIS =VCC, pin 5>VFB 5.0V VCC 30V CT=1nF PIN 2=GND Remaining pins open IIB ICC 0.4 1.6 1 3 A mA 3 AIC1563 AIC1563 TYPICAL PERFORMANCE CHARACTERISTICS Output Switch ON-OFF Time vs Oscillator Timing Capacitor tON-OFF, Output Switch ON-OFF Time (S) VCC=5V VIS =VCC PIN 5=GND ON -TIME 1000 Standby Supply Current vs Supply Voltage 2 ICC, Supply Current (mA) 1.6 100 1.2 CT = 1nF VIS = VCC PIN 2 =GND 0.8 10 OFF-TIME 0.4 1 0.1 1 10 100 0 CT, Oscillator Timing Capacitor (nF) 0 5 10 15 20 25 30 VCC, Supply Voltage (V) VFB, Threshold Voltage vs Temperature 1.3 IS Threshold Voltage vs Temperature 350 VFB, Threshold Voltage (mV) VFB, Threshold Voltage (V) 1.28 VCC = 5V, CT = 1nF, PIN 2 = GND 340 330 320 310 300 290 280 270 260 250 0 VCC = 5V, CT = 1nF, PIN 2 = GND 1.26 1.24 1.22 1.2 0 10 20 30 40 50 60 70 80 10 20 30 40 50 60 70 80 Temperature (C) Temperature (C) Emmiter Follower Configuration Output Switch Saturation Voltage vs Emmiter Current 1.8 0.8 Common Emitter Configuration Output Switch Saturation Voltage vs Collector Current VCC = 5V PIN 7 = VCC PIN 2, 3, 5 = GND VCE(SAT), Saturation Voltage (V) 1.7 1.6 1.5 1.4 1.3 1.2 0 VCE(SAT), Saturation Voltage (V) VCC = 5V PIN 1, 7, 8 = VCC PIN 3, 5 = GND 0.6 0.4 0.2 Forced Beta = 20 0 0.5 IE, Emitter Current (A) 1 1.5 0 0.5 IC, Collector Current (A) 1 1.5 4 AIC1563 AIC1563 BLOCK DIAGRAM DC 1 Q2 Q1 DE 2 80 7 QS R 8 BOOST IS Is CT Oscillator CF 3 Comparator 1.25V Reference Voltage GND 4 + 6 VCC - 5 FB PIN DESCRIPTIONS PIN 1: DC PIN 2: DE PIN 3: CF - 2A switch collector. - Darlington switch emitter. - Oscillator timing capacitor. PIN 5: FB PIN 7: IS - Feedback comparator inverting input. - Highside current sense input. VCC - VIS=300mV. PIN 6: VCC - Power supply input. PIN 4: GND - Power ground. PIN 8: BOOST-Bootstrapped driver collector. APPLICATION INFORMATIONS DESIGN FORMULA TABLE CALCULATION t ON t OFF STEP-DOWN VOUT + VF VIN(MIN) - VSAT - VOUT 1 FMIN STEP-UP VOUT + VF - VIN(MIN) VIN(MIN) - VSAT 1 FMIN 4 x 10 tON 2IOUT(MAX) ( t ON + t OFF ) t OFF -5 (tON + tOFF) MAX CT IC (SWITCH) RS L(MIN) Co ( 4x10 tON 2IOUT(MAX) 0.3/IC(SWITCH) VIN(MIN) - VSAT - VOUT )tON(MAX) IC(SWITCH) IC ( SWITCH) (t ON + t OFF ) 8V RIPPLE (P - P ) ( -5 0.3/ IC (SWITCH) VIN(MIN) - VSAT )tON(MAX) IC(SWITCH) IOUT tON VRIPPLE(P - P) 5 AIC1563 AIC1563 VSAT = Saturation voltage of the output switch. = Forward voltage of the ringback rectifier VF The following power supply characteristics must be chosen: VIN VOUT IOUT FMIN - Minimum desired switching frequency at selected values for VIN and IOUT. - Nominal input voltage. - Desired output voltage, VOUT = 1.25 (1 + RB/RA) VRIPPLE (P-P) - Desired peak-to-peak output ripple voltage. In practice, the calculated value will need to be increased due to the capacitor equivalent series resistance and board layout. The ripple voltage should be kept to a low value since it will directly affect the line and load regulation. - Desired output current. APPLICATION EXAMPLES VIN 12~15V C1 13F + R1 D1 1N4148 120 0.5W L1 220H + D2 1N5819 R2 1K 0.33 1W *RS C4 220F D4 1N5819 D3 1N4148 R5 1K R8 470 ZD1 9.1V BATTERY 3~5 CELLS + C7 100F LED1 RED R9 1K LED2 GREEN R10 1K 1 2 3 C4 470pF 4 DC DE CF GND BOOST 8 C3 1F + R3 100K R7 150K IS 7 6 VCC FB 5 *Fast Charge Current =(0. 3/RS) Ampere 1 2 3 4 VBT GND VREF 8 R4 51K C6 0.1F + C5 4.7F VDD 7 6 5 TIMER VOUT MODE LED AIC1563 AIC1761/1766 Fig. 1 Simplified Battery Charge Circuit for Ni-Cd/ Ni-MH Battery 1K R2 C3 1F D2 R1 VIN 11V~15V 220H *L1 C4 220F 8 + 0.33/1W RS D3 R15 300K R16 91K *BATTERY Thermistor 1N5819 R6 20/5W 100K + R5 C5 C6 4.7F 0.1F Q2 D468 R7 270 YELLOW 1 PEAK DSW 16 R12 1N5821 D1 1N4148 + 680 R8 2 VBT 3 DIS 4 VTS 120/0.5W 1 + C1 10F C2 470pF 2 DC DE BOOST IS VCC 7 6 RX C7 RY 0.1F R9 200K R10 50K 3 CF 4 GND 5 VCC 6 ADJ 7 SEL3 8 TMR 220K LED2 14 R13 680 GREEN LED1 13 R14 RED GND 12 680 SEL1 11 SEL2 10 ICON 15 FB 5 AIC1563 78L05 R4 470 3904 Q1 C8 100F C9 0.1F + 100K R11 MODE 9 *Iron Powder Core ** 3~5 NiMH/ NiCd Cells Note: Charge Current: 0.3V/RS Ampere Safety Timer=80 min. T/t=1C/min. AIC1781 Fig. 2 Battery Charge Circuit for Fluctuating Charging Current Applications 6 AIC1563 AIC1563 APPLICATION EXAMPLES (CONTINUED) D3 R1 470 D2 1N4148 8 VIN 8V~25V + RS 0.22 7 6 5 C3 1N4148 L1 300H D1 1N5819 R2 390K C2 1000pF RB RA 1K 3K + 5V/1A C4 470F + 1F 1 2 3 4 BOOST IS VCC FB DC DE CF GND C1 100F AIC1563 When VIN>15V, Then, R1=1K R3 2.2M Line Regulation Load Regulation Short Circuit Current VIN = 10V~20V @ IO=1A VIN = 15V, @ IO=100mA~1A VIN =15V, @ RL = 0.1 Fig. 3 Step-Down Converter 40mV 20mV 1.3A D1 5V 1N5819 C3 + 1F 8 1 2 3 4 C2 470pF AIC1563 L1 300H D1 1N5819 + 12V/1A C4 470F VIN 16V~25V + RS 0.22 BOOST IS VCC FB DC DE CF GND 7 6 5 RB RA 1K 13K C1 100F Fig. 4 Step-Down Converter with External 5V Bootstrap 7 AIC1563 AIC1563 APPLICATION EXAMPLES (CONTINUED) 200H L R1 150 8 BOOST RS 0.22 VIN + C1 7 IS 6 VCC 100F 5 FB DC 1 DE 2 CF 3 GND 4 CT AIC1563 RA 2.2K RB 47K 680pF D1 VOUT 1N5819 + 200F C0 28V/200mA Line Regulation Load Regulation VIN = 8V~16V @ IO=200mA VIN = 12V, @ IO=80mA~200mA Fig. 5 Step-Up Converter 100mV 40mV L R1 8 RS VIN + C1 7 6 5 BOOST IS VCC FB A RA RB DC DE CF GND 1 2 3 4 CT R2 Q1 D1 VOUT C0 + Fig. 6 Step-Up Converter with External NPN Switch 8 AIC1563 AIC1563 APPLICATION EXAMPLES (CONTINUED) 1 2 L D1 1N5819 100H CT 600pF 3 4 DC DE CF GND BOOST IS VCC 8 7 6 5 + C1 100F RS 0.26 VIN 4.5V~6V FB AIC1563 953 RB RB 8.2K VOUT -12V/100mA + C0 470F Line Regulation Load Regulation VIN = 4.5V~6V @ IO=100mA VIN = 5V, @ IO=10mA~100mA Fig.7 Inverting Converter 20mV 100mV PHYSICAL DIMENSIONS 8 LEAD PLASTIC SO (unit: mm) D SYMBOL A H E MIN 1.35 0.10 0.33 0.19 4.80 3.80 5.80 0.40 MAX 1.75 0.25 0.51 0.25 5.00 4.00 6.20 1.27 A1 B C D E e A C A1 e H L L 1.27(TYP) B 9 AIC1563 AIC1563 8 LEAD PLASTIC DIP (unit: mm) D SYMBOL A1 E1 MIN 0.381 2.92 0.35 0.20 9.01 7.62 6.09 -- 2.92 MAX -- 4.96 0.56 0.36 10.16 8.26 7.12 10.92 3.81 A2 b C E D E C A2 A1 L E1 e eB L 2.54 (TYP) eB b e 10 |
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