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AIC1733 500mA, Low Dropout Linear Regulator with Shutdown FEATURES Active Low Shutdown Control. Very Low Quiescent Current. Very Low Dropout Voltage of 650mV at 500mA Output Current (3.0V Output Version) 1.5V, 1.8V, 2.5V, 2.8V, 3.0V, 3.3V Output Voltage. Short Circuit and Thermal Protection. 2% Output Tolerance. Miniature Package: SOT-23-5 DESCRIPTION AIC1733 is a 500mA low noise, low dropout linear regulator, and is housed in small SOT-23-5 package. The device is in the "ON" state when the SHDN pin is set to logic high level. An internal P-MOSFET pass transistor is used to achieve 650mV low dropout voltage at 500mA load current. It offers high precision output voltage of 2%. The quality of low quiescent current and low dropout voltage makes this device ideal for battery power applications. The internal reverse bias protection eliminates the requirement for a reverse voltage protection diode. The high ripple rejection and low noise of AIC1733 provide enhanced performance for critical applications. The noise bypass pin can be connected an external capacitor to reduce the output noise level. APPLICATIONS PDA DSC Notebook Pagers Personal Communication Equipment Cordless Telephones Portable Instrumentation Portable Consumer Equipment Battery Powered Systems TYPICAL APPLICATION CIRCUIT VIN CIN 1F GND VIN + VOUT + VOUT COUT 1F SHDN BP CBP AIC1733 0.1F V SHDN Low Noise Low Dropout Linear Regulator Analog Integrations Corporation Si-Soft Research Center 3A1, No.1, Li-Hsin Rd. I , Science Park , Hsinchu 300, Taiwan , R.O.C. TEL: 886-3-5772500 FAX: 886-3-5772510 www.analog.com.tw DS-1733P-03 092304 1 AIC1733 ORDERING INFORMATION AIC1733-XXXXXX PACKING TYPE TR: TAPE & REEL BG: BAG PACKAGE TYPE V: SOT-23-5 C: COMMERCIAL P: LEAD FREE COMMERCIAL OUTPUT VOLTAGE 15: 1.5V 18: 1.8V 25: 2.5V 28: 2.8V 30: 3.0V 33: 3.3V (Of a unit of 0.1V within the voltage range from 1.5V to 3.3V, additional voltage versions for this product line may be available on demand with prior consultation with AIC.) Example: AIC1733-18CVTR 1.8V Version, in SOT-23-5 Package & Tape & Reel Packing Type AIC1733-18PVTR 1.8V Version, in SOT-23-5 Lead Free Package & Tape & Reel Packing Type PIN CONFIGURATION SOT-23-5 (CV) TOP VIEW 1: VIN 2: GND 3: SHDN 4: BP 5: VOUT 5 4 1 2 3 * SOT-23-5 Marking Part No. AIC1733-15CV AIC1733-18CV AIC1733-25CV AIC1733-28CV AIC1733-30CV AIC1733-33CV Marking EE15 EE18 EE25 EE28 EE30 EE33 Part No. AIC1733-15PV AIC1733-18PV AIC1733-25PV AIC1733-28PV AIC1733-30PV AIC1733-33PV Marking EE15P EE18P EE25P EE28P EE30P EE33P 2 AIC1733 ABSOLUTE MAXIMUM RATINGS Supply Voltage ................................................................................................12V ...............................................................................12V ............................................................................5V ...............................................................-40C~85C 125C ...................................................................-65C~150C 260C SOT-23-5 ........................................130C /W SOT-23-5 ........................................220C /W Shutdown Terminal Voltage Noise Bypass Terminal Voltage Operating Temperature Range Maximum Junction Temperature Storage Temperature Range Lead Temperature (Soldering, 10 sec) Thermal Resistance (Junction to Case) Thermal Resistance Junction to Ambient (Assume no ambient airflow, no heatsink) Absolute Maximum Ratings are those values beyond which the life of a device may be impaired. TEST CIRCUIT Refer to TYPICAL APPLICATION CIRCUIT. 3 AIC1733 ELECTRICAL CHARACTERISTICS (CIN=1F, COUT=4.7F, TJ=25C, unless otherwise specified) PARAMETER Quiescent Current Standby Current GND Pin Current Continuous Output Current Output Current Limit Output Voltage Tolerance Temperature Coefficient Line Regulation Load Regulation VIN = VOUT(TYP) + 1V to 7V VIN = VOUT + 1.2V (Vout 2.5V) VIN = VOUT + 1.8V (Vout 2.4V) IOUT = 0.1~500mA 3.0VVOUT3.3V 2.5VVOUT2.9V IL=500mA 2.0VVOUT2.4V 1.5VVOUT1.9V TEST CONDITIONS IOUT = 0mA, VIN = 3.6~7V VIN = 3.6~7V, output OFF IOUT = 0.1~500mA VIN = 5V VIN = 5V, VOUT = 0V VIN = 5V, no load SYMBOL MIN. IQ ISTBY IGND IOUT IIL VOUT TC VLIR VLOR 500 -2 50 3 20 650 780 1100 1400 1.23 0.46 600 2 150 10 40 1050 1180 1500 1800 30 TYP. 40 MAX. 55 0.1 50 500 UNIT A A A mA mA % ppm/C mV mV Dropout Voltage VDROP mV Noise Bypass Terminal Voltage Output Noise CBP = 0.1F, f = 1KHz,VIN = 5V f = 1KHz, Ripple = 0.5VP-P, CBP = 0.1F VREF n V V Hz dB Ripple Rejection RR 55 4 AIC1733 ELECTRICAL CHARACTERISTICS PARAMETER (Continued) SYMBOL MIN. TYP. MAX. UNIT A V 0.6 300 V S TEST CONDITIONS SHUTDOWN TERMINAL SPECIFICATIONS Shutdown Pin Current Shutdown Pin Voltage (ON) Shutdown Pin Voltage (OFF) Shutdown Exit Delay Time THERMAL PROTECTION Thermal Shutdown Temperature TSD 155 C Output ON Output OFF CBP = 0.1F, COUT = 1F, IOUT=30mA I SHDN V SHDN (ON) V SHDN (OFF) t 1.6 0.1 Note 1: Specifications are production tested at TA=25C. Specifications over the -40C to 85C operating temperature range are assured by design, characterization and correlation with Statistical Quality Controls (SQC). TYPICAL PERFORMANCE CHARACTERISTICS 60 50 700 1.5V 3.3V 600 500 AIC1733-33 T=80C T=50C Quiescent current (A) 40 30 20 10 VDROP (mV) 400 300 200 100 T=200C T=-40C 0 0 1 2 3 4 5 6 7 0 0 50 100 150 200 250 300 350 400 450 500 VIN (V) Fig. 1 Quiescent Current vs. VIN ILOAD (V) Fig. 2 VDROP vs. ILOAD 5 AIC1733 TYPICAL PERFORMANCE CHARACTERISTICS 44.0 43.5 800 (Continued) Ground Current (A) 43.0 42.5 42.0 41.5 41.0 40.5 40.0 39.5 39.0 0 50 100 150 200 250 300 350 400 450 500 3.3V 1.5V Short Circuit Current (mA) 700 600 500 400 300 200 100 0 0 1 2 3 4 5 6 7 3.3V 1.5V VIN=5V T=25C ILOAD (V) Fig. 3 Ground Current vs. ILOAD 1.50 1.48 1.46 Input Voltage(V) Fig. 4 Input Voltage vs. Short Circuit Current 45 AIC1733-15 44 AIC1733-33 Ground Current (A) 43 42 41 40 500mA VDROP (V) 1.44 1.42 1.40 1.38 300mA 39 1.36 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 -40 150mA -20 0 20 40 60 80 100 Temperature (C) Fig. 5 VDROP vs. Temperature 46 Temperature (C) Fig. 6 Ground Current vs. Temperature 840 44 1.5V 3.3V 800 Quiescent Current (V) Current Limit (mA) 760 720 680 42 40 VIN=7V VIN=5V VIN=6V 38 640 600 560 36 -40 -20 0 20 40 60 VIN=5V 80 100 -40 -20 0 20 40 60 80 100 Temperature (C) Fig. 7 Quiescent vs. Temperature Temperature (C) Fig. 8 Current Limit vs. Temperature 6 AIC1733 TYPICAL PERFORMANCE CHARACTERISTICS 1.60 1.58 1.56 3.50 3.45 (Continued) AIC1733-33 Output Voltage (V) 1.54 1.52 1.50 1.48 1.46 1.44 1.42 1.40 -40 Output Voltage (V) AIC1733-15 3.40 3.35 3.30 3.25 3.20 VIN=5V VIN=5V -20 0 20 40 60 80 100 3.15 3.10 -40 -20 0 20 40 60 80 100 Temperature (C) Fig. 9 VOUT vs. Temperature Temperature (C) Fig. 10 VOUT vs. Temperature COUT=4.7F CBP=0.1F VOUT VOUT COUT=1F CBP=0.1F IOUT=180mA IOUT=120mA IOUT=120mA IOUT=180mA Fig. 11 Load Transient Response Fig. 12 Load Transient Response IOUT=30mA CBP=0.1F,COUT=1F VOUT IOUT=30mA CBP=0.1F COUT=4.7F VOUT VSHDN VSHDN Fig. 13 Shutdown Exit Time Fig. 14 Shutdown Exit Time 7 AIC1733 TYPICAL PERFORMANCE CHARACTERISTICS IOUT=30mA CBP=0.1F,COUT=10F VOUT Vin=VOUT+1V (Continued) Vin=VOUT+2V VSHDN VOUT=3.3V CIN=1F, COUT=1F CBP=0.1F Iout=50mA Fig. 15 Shutdown Exit Time Fig. 16 Line Transient Response Vin=VOUT+2V Vin=VOUT+2V Vin=VOUT+1V Vin=VOUT+1V VOUT=3.3V CIN=1F, COUT=4.7F CBP=0.1F Iout=50mA VOUT=1.5V CIN=1F, COUT=1F CBP=0.1F Iout=50mA Fig. 17 Line Transient Response Fig. 18 Line Transient Response Vin=VOUT+2V Vin=VOUT+1V VOUT=1.5V CIN=1F, COUT=4.7F CBP=0.1F IIout=50mA Fig. 19 Line Transient Response 8 AIC1733 BLOCK DIAGRAM VIN Current Limiting BP VREF 1.23V Power Shutdown - Error Amp. + Thermal Limiting VOUT SHDN GND PIN DESCRIPTIONS Power supply input pin. Bypass with a 1F capacitor to GND PIN 2 : GND - Ground pin. PIN 3 : SHDN - Active-Low shutdown input pin. PIN 1 : VIN - Noise bypass pin. An external bypass capacitor connected to BP pin reduces noises at the output. PIN 5 : VOUT - Output pin. Sources up to 500 mA. PIN 4 : BP DETAILED DESCRIPTIONS OF TECHNICAL TERMS DROPOUT VOLTAGE (VDROP) The dropout voltage is defined as the difference between the input voltage and output voltage at which the output voltage drops 100mV. Below this value, the output voltage will fall as the input voltage reduces. It depends on the load current and junction temperature. LINE REGULATION Line regulation is the ability of the regulator to maintain a constant output voltage as the input voltage changes. The line regulation is specified as the input voltage changes from VIN = VOUT + 1V to VIN = 7V and IOUT = 1mA. LOAD REGULATION Load regulation is the ability of the regulator to maintain a constant output voltage as the load current changes. A pulsed measurement with an input voltage set to VIN = VOUT + VDROP can minimize temperature effects. The load regulation is specified by the output current ranging from 0.1mA to 500mA. 9 AIC1733 CURRENT LIMIT (IIL) AIC1733 includes a current limiting, which monitors and controls the maximum output current if the output is shorted to ground. This can protect the device from being damaged. THERMAL PROTECTION Thermal sensor protects device when the junction temperature exceeds TJ= +155C. It signals shutdown logic, turning off pass transistor and allowing IC to cool down. After the IC's junction temperature cools by 15C, the thermal sensor will turn the pass transistor back on. Thermal protection is designed to protect the device in the event of fault conditions. For a continuous operation, do not exceed the absolute maximum junction-temperature rating of TJ= 150C, or damage may occur to the device. APPLICATION INFORMATION INPUT-OUTPUT CAPACITORS Linear regulators require input and output capacitors to maintain stability. Input capacitor at 1F with a 4.7uF aluminum electrolytic output capacitor is recommended. To avoid oscillation, ceramic capacitor is rejected. NOISE BYPASS CAPACITOR 0.1F bypass capacitor at BP pin reduces output voltage noise. And the BP pin has to connect a capacitor to GND. POWER DISSIPATION The maximum power dissipation of AIC1733 depends on the thermal resistance of its case and circuit board, the temperature difference between the die junction and ambient air, and the rate of airflow. The rate of temperature rise is greatly affected by the mounting pad configuration on the PCB, the board material, and the ambient temperature. When the IC mounting with good thermal conductivity is used, the junction temperature will be low even when large power dissipation applies. The power dissipation across the device is P = IOUT (VIN-VOUT). The maximum power dissipation is: PMAX = (TJ - TA) (RJB + RBA) Where TJ-TA is the temperature difference between the die junction and the surrounding air, RJB is the thermal resistance of the package, and RBA is the thermal resistance through the PCB, copper traces, and other materials to the surrounding air. As a general rule, the lower temperature is, the better reliability of the device is. So the PCB mounting pad should provide maximum thermal conductivity to maintain low device temperature. GND pin performs a dual function of providing an electrical connection to ground and channeling heat away. Therefore, connecting the GND pin to ground with a large pad or ground plane would increase the power dissipation and reduce the device temperature 10 AIC1733 PHYSICAL DIMENSIONS SOT-23-5 (unit: mm) D SYMBOL A A1 A2 b c D E E1 MIN 0.95 0.05 0.90 0.30 0.08 2.80 2.60 1.50 MAX 1.45 0.15 1.30 0.50 0.22 3.00 3.00 1.70 0.95 BSC 1.90 BSC E E1 L L1 e e1 0.25 c A2 A A1 b e e1 L L1 0 0.30 0.60 0.60 REF 8 Note: Information provided by AIC is believed to be accurate and reliable. However, we cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in an AIC product; nor for any infringement of patents or other rights of third parties that may result from its use. We reserve the right to change the circuitry and specifications without notice. Life Support Policy: AIC does not authorize any AIC product for use in life support devices and/or systems. Life support devices or systems are devices or systems which, (I) are intended for surgical implant into the body or (ii) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 11 |
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