PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Key Features General Description n Low-Dropout Regulator Supports Input Voltages Down to 1.4V n Output Voltage Available in 0.9V,1.0V, 1.2V, 1.5V, 1.8V, 2.5V,2.8V,2.85V,3.0V,3.3V n Low Dropout Voltage:300mV@ 3A n Stable with a Ceramic Output Capacitor of 1.0uF or Higher n Low Quiescent Current n Current Limit n Over Temperature Shutdown n Short Circuit Current Protection n Low Temperature Coefficient n Standard TO-263 , TO-220 and SOP-8 (Exposed Pad) Packages n Pb-Free Package The PAM3130 is a 3A CMOS LDO regulator that features a low quiescent current, ultra low input, output, and dropout voltages, as well as over temperature protection. It is available in TO-263 , TO-220 and SOP-8(Exposed Pad) packages. The fixed output voltage of the PAM3130 is set at the factory and trimmed to ± 2.0%. The PAM3130 is stable with a ceramic output capacitor of 1.0uF or higher. This family of regulators can provide either a stand-alone power supply solution or act as a post regulator for switch mode power supplies. They are particularly well suited for applications requiring low input and output voltages. Applications n DSP, FPGA, and Microprocessor Power Supplies n 1.2V Core Voltage for DSPs n SATA Power Supply n LCD TV/ Monitors n Wireless Devices n Communication Devices n Portable Electronics n Post Regulator for SMPS Typical Application R P 10K IN OUT VIN VOUT IN PAM3130 C IN 4.7uF GND PWRGD VOUT VIN PAM3130 CO 2.2uF C1 4.7uF OUT SENSE EN GND C2 2.2uF Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 1 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Block Diagram OUT IN OUT IN OverCurrent Shutdown OverCurrent Shutdown Thermal Shutdown Thermal Shutdown EN R1 R1 AMP AMP R2 R2 GND GND Pin Configuration & Marking Information Top View TO-220 V: Voltage Code F: Internal Code A: Assembly Code T: Testing Code Y: Year W: Weekly P3130 V F AT Y W 1 2 3 Pin Number 1 2 3 Name VIN GND VOUT Function Input Ground(Heatsink) Output Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 2 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Pin Configuration & Marking Information (continued) Top View TO-263-5L V: Voltage Code F: Internal Code A: Assembly Code T: Testing Code Y: Year W: Weekly P3130 V F AT Y W 1 2 3 4 5 Pin Number Name Function 1 VIN Input 2 EN Enable Pin 3 GND Ground(Heatsink) 4 PWRGD/SENSE Power Good/Sense 5 VOUT Output Top View SOP-8(EPD) 8 7 6 V: Voltage Code F: Internal Code A: Assembly Code T: Testing Code Y: Year W: Weekly 5 P3130 V F AT Y W 1 2 3 4 Pin Number Name Function 1 GND Ground 2 VIN Input 3 EN Enable Pin 4 GND 5 PWRGD Power Good 6 SENSE Sense 7 VOUT Output 8 GND Ground Ground Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 3 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Absolute Maximum Ratings These are stress ratings only and functional operation is not implied . Exposure to absolute maximum ratings for prolonged time periods may affect device reliability . All voltages are with respect to ground . Input Voltage...............................................4.0V Output Pin Voltage.....................-0.3V to V IN +0.3V Operation Temperature Range........... -40℃ to 85℃ Operation Junction Temperature...... -40℃ to 125℃ Maximum Output Current......................P D/(V IN-V O) Storage Temperature..................... -65℃ to 150℃ Maximum Junction Temperature..................150℃ Soldering Temperature.......................300℃, 5sec Recommended Operating Conditions Junction Temperature Range.......... -40℃ to 125℃ Supply Voltage Range.......................1.4V to 3.6V Operation Temperature Range...........-40℃ to 85℃ Thermal Information Parameter Thermal Resistance (Junction to Case) Thermal Resistance (Junction to Ambient) Internal Power Dissipation Symbol θJC θJA PD Package Maximum TO-263 7 TO-220 7 SOP-8 90 TO-263 60 TO-220 50 SOP-8 11 TO-263 2800 TO-220 3000 Unit ℃/W mW Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 4 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Electrical Characteristic V IN = V O+0.5V, T A=25 OC, C IN =4.7uF, C O=2.2uF, unless otherwise noted. Parameters Input Voltage Range Output Voltage Accuracy Symbol Test Conditions VIN Vo Io=100mA IO=500mA Dropout Voltage MIN VDROP IO=3.0A Short Circuit Current ISC Output Current IO Quiescent Current IQ Ground Pin Current IGND TYP MAX UNITS Note 1 3.6 V -2 2 % Vo=0.9V 330 500 Vo=1.0V 220 400 2.5V>Vo≥1.2V 50 200 Vo≥2.5V 40 150 Vo=0.9V 500 Vo=1.0V 400 2.5V>Vo≥1.2V 350 Vo≥2.5V 300 Vo < 0.3V 1.0 3.0 Io=0mA mV A Note 2 A 150 uA 1.0 mA 0.5 1.0 %/V 0.5 2 %/A 90 Io=1mA to 3.0A Vo≤2.5V,Io=10mA Line Regulation LNR VIN =Vo+0.5V to Vo+1.5V Vo>2.5V,Io=10mA VIN =3.3V to 3.6V Load Regulation Over Temperature Shutdown Over Temperature Hysteresis Temperature Coefficient Power Supply Ripple Rejection Output Noise LDR Io=1mA to 3.0A,VIN=Vo+0.5V OTS 150 ℃ OTH 50 ℃ TC 40 ppm/℃ f=100Hz PSRR Io=100mA, Vo=1.5V f=1KHz f=10KHz Vn f=10Hz to 100kHz 55 55 dB 35 40 uVrms Note1: The minimum input voltage ( V IN(MIN)) of the PAM3130 is determined by output voltage and dropout voltage. The minimum input voltage is defined as : V IN(MIN)=V O+V drop Note 2: Output current is limited by P D, maximum I O=P D/( V IN(MAX)-V O). Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 5 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Typical Performance Characteristics 1 1 0.9 0.9 0.8 Output Voltage(V) Output Voltage(V) T A=25 OC, C IN =4.7uF, C O=2.2uF, unless otherwise noted. 1. Output Voltage vs Input Voltage Vo=0.9V Io=10mA 0.7 0.6 Io=500mA 0.5 Io=1.5A 0.4 Vo=0.9V 0.8 0.7 Io=10mA,TA=85℃ 0.6 IO=10mA,TA=25℃ 0.5 0.4 0.3 0.3 0.8 1.2 1.6 2 2.4 2.8 3.2 0.8 3.6 1.2 1.6 Vo=1.5V 3.2 3.6 2.8 3.2 3.6 1.5 Output Voltage(V) Output Voltage(V) 2.8 Vo=1.5V 1.7 1.5 1.3 1.1 Io=10mA 0.9 Io=500mA 0.7 Io=1.5A 0.5 1.3 Io=10mA,TA=25℃ 1.1 0.9 Io=10mA,TA=85℃ 0.7 0.5 0.3 0.3 0.8 1.2 1.6 2 2.4 2.8 3.2 3.6 0.8 1.2 1.6 Input Voltage(V) 2.4 Vo=2.5V 3 Output Voltage(V) 2.5 Io=10mA 2 1.5 Io=500mA 1 2 Input Voltage(V) Vo=2.5V 3 Output Voltage(V) 2.4 Input Voltage(V) Input Voltage(V) 1.7 2 2.5 2 Io=10mA,TA=25℃ 1.5 1 Io=10mA,TA=85℃ Io=1.5A 0.5 0.5 0.8 1.2 1.6 2 2.4 2.8 3.2 3.6 0.8 Input Voltage(V) 1.2 1.6 2 2.4 2.8 3.2 3.6 Input Voltage(V) Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 6 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Typical Performance Characteristics (continued) 2. Output Voltage vs Output Current Vo=0.9V 0.96 0.915 0.94 0.905 0.92 0.9 Output Voltage(V) Output Voltage(V) 3. Output Voltage vs Temperature Vo=0.9V,V IN=3.3V V IN=3.3V 0.88 V IN=1.5V 0.86 V IN=2.5V 0.84 Io=500mA 0.895 Io=10mA 0.885 0.875 0.865 0.82 0.8 0.855 0 500 1000 1500 2000 2500 3000 0 30 Output Current(mA) 120 150 Vo=1.5V,V IN=3.3V 1.52 1.52 1.5 Output Voltage(V) Output Voltage(V) 90 Temperature(℃) Vo=1.5V 1.54 60 1.5 V IN=3.3V 1.48 V IN=2.0V 1.46 V IN=2.5V 1.44 1.48 Io=10mA Io=500mA 1.46 1.44 1.42 1.42 1.4 1.4 0 500 1000 1500 2000 2500 0 3000 30 90 120 150 120 150 Temperature(℃) Output Current(mA) Vo=1.5V 2.56 60 Vo=2.5V,V IN=3.3V 2.55 2.5 2.52 Voltage(V) Output Voltage 2.54 2.5 2.48 V IN=3.6V 2.46 V IN=3.0V V IN=3.3V 2.44 2.45 Io=10mA Io=500mA 2.4 2.35 2.42 2.4 2.3 0 500 1000 1500 2000 2500 0 3000 30 60 90 Temperature(℃) Output Current(mA) Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 7 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Typical Performance Characteristics (continued) 140 90 Io=1.5A 120 Ground Current(uA) Quiescent Current(uA) 5. Ground Current vs Input Voltage 4. Quiescent Current vs Input Voltage 100 80 Io=0mA,TA=25℃ 70 Io=0mA,TA=85℃ 60 Io=500mA 100 80 60 50 Io=10mA 40 40 20 1.8 2.1 2.4 2.7 3 3.3 1.8 3.6 2.1 2.7 3 3.3 3.6 Input Voltage(V) Input Voltage(V) 350 2.4 7. Ground Current vs Temperature 6. Ground Current vs Output Current 90 V IN=3.3V,Io=10mA Ground Current(uA) Ground Current(uA) 300 250 200 V IN=3.3V 150 100 V IN=2.5V 50 V IN=2V 0 0 500 1000 85 80 V IN=2.5V,Io=10mA 75 70 65 1500 2000 2500 0 3000 30 120 150 9. Dropout Voltage vs Temperature 8. Dropout Voltage vs Output Current 450 400 400 350 350 300 Dropout Voltage Dropout Voltage(mV) 90 Temperature(℃) Output Current(mA) 450 60 Vo=2.5V 250 Vo=0.9V 200 300 250 100 150 100 50 50 150 Vo=1.5V Vo=0.9V,Io=500mA 200 Vo=1.5V,Io=500mA Vo=2.5V,Io=500mA 0 0 0 500 1000 1500 2000 2500 3000 0 Output Voltage(mA) 30 60 90 120 150 Temperature(℃) Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 8 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Typical Performance Characteristics (continued) 11. Load Transient Response 10. Ripple Rejection vs Frequency +0 -10 -20 Io DC Coupling -30 d B -40 Vo AC Coupling Io=500mA Io=100mA -50 -60 -70 -80 10 Io=1mA 20 50 100 200 500 1k 2k 5k 10k 20k 50k 100k Hz Vo=0.9V,V IN=2.5V,Vpp=1V Vo=1.5V,V IN=3.3V, Io=1mA to 3.0A +0 -10 -20 Io DC Coupling -30 d B -40 Io=500mA Io=100mA Vo AC Coupling -50 -60 Io=1mA -70 -80 10 20 50 100 200 500 1k 2k 5k 10k 20k 50k 100k Hz Vo=1.5V,V IN=2.5V,Vpp=1V Vo=1.5V,V IN=3.3V, Io=1mA to 1.0A +0 -10 Io DC Coupling -20 -30 d B Io=500mA Io=100mA -40 Vo AC Coupling -50 -60 Io=1mA -70 -80 10 20 50 100 200 500 1k 2k 5k 10k 20k 50k 100k Hz Vo=2.5V,V IN=3.3V,Vpp=0.3V Vo=1.5V,V IN=3.3V, Io=1A to 3.0A Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 9 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Typical Performance Characteristics (continued) 12. Line Transient Response V IN DC Coupling Vo AC Coupling Vo=1.5V,Io=100mA, V IN=2.0V to 3.3V Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 10 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Application Information T h e PA M 3 1 3 0 f a m i l y o f l o w - d r o p o u t ( L D O ) regulators have several features that allow them to apply to a wide range of applications. The family operates with very low input voltage (1.4V) and low dropout voltage (typically 300mV at full load), making it an efficient stand-alone power supply or post regulator for battery or switch mode power supplies. The 3A output current make the PAM3130 family suitable for powering many microprocessors and FPGA supplies. The PAM3130 family also has low output noise (typically 40μVRMS with 2.2μF output capacitor), making it ideal for use in telecom equipment. generates is: P D=(V IN-V O)I O. All integrated circuits have a maximum allowable junction temperature (T J max) above which normal operation is not assured. A system designer must design the operating environment so that the operating junction temperature (T J) does not exceed the maximum junction temperature (T J max). The two main environmental variables that a designer can use to improve thermal performance are air flow and external heatsinks. The purpose of this information is to aid the designer in determining the proper operating environment for a linear regulator that is operating at a specific power level. In general, the maximum expected power (P D(max)) consumed by a linear regulator is computed as: PDmax= (VI (avg)-VO (avg))×IO (avg)+VI (avg)×I (Q ) (1) Where: l V I (avg) is the average input voltage. l V O(avg) is the average output voltage. l I O(avg) is the average output current. l I (Q) is the quiescent current. External Capacitor Requirements A 2.2μF or larger ceramic input bypass capacitor, connected between V IN and GND and located close to the PAM3130, is required for stability. A 1.0uF minimum value capacitor from V O to GND is also required. To improve transient response, noise rejection, and ripple rejection, an additional 10μF or larger, low ESR capacitor is recommended at the output. A higher value, low ESR output capacitor may be necessary if large, fast-rise-time load transients are anticipated and the device is located several inches from the power source, especially if the minimum input voltage of 1.4 V is used. Regulator Protection For most LDO regulators, the quiescent current is insignificant compared to the average output current; therefore, the term V I(avg) xI (Q) can be neglected. The operating junction temperature is computed by adding the ambient temperature (T A) and the increase in temperature due to the regulator' s power dissipation. The temperature rise is computed by multiplying the maximum expected power dissipation by the sum of the thermal resistances between the junction and the case ( R θJC), the case to heatsink (R θCS), and t h e h e a t s i n k t o a m b i e n t ( R θSA) . T h e r m a l resistances are measures of how effectively an object dissipates heat. Typically, the larger the device, the more surface area available for power dissipation so that the object 's thermal resistance will be lower. The PAM3130 features internal current limiting, thermal protection and short circuit protection. During normal operation, the PAM3130 limits output current to about 4.5A. When current limiting engages, the output voltage scales back linearly until the over current condition ends. While current limiting is designed to prevent gross device failure, care should be taken not to exceed the power dissipation ratings of the package. If the temperature of the device exceeds 150°C, thermalprotection circuitry will shut down. Once the device has cooled down to approximately 50°C below the high temp trip point, regulator operation resumes. The short circuit current of the PAM3130 is about 1A when its output pin is shorted to ground. Thermal Information The amount of heat that an LDO linear regulator Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 11 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Ordering Information PAM3130 X X X X Output Voltage Number of Pins Package Type Pin Configuration Pin Configuration A Type Package Type Number of Pins Output Voltage F: TO-220 A: 3 090: 0.9V 1. VIN M: TO-263 B: 5 100: 1.0V 2. GND E: SOP-8 C: 8 120: 1.2V 3. VOUT 150: 1.5V B Type 180: 1.8V 1. VIN 250: 2.5V 2. EN 280: 2.8V 3. GND 285: 2.85V 4. PWRGD 300: 3.0V 5. VOUT 330: 3.3V C Type 1. VIN 2. EN 3. GND 4. SENSE 5. VOUT D Type 1. GND 2. VIN 3. EN 4. GND 5. PWRGD 6. SENSE 7. VOUT 8. GND Please consult PAM sales office or authorized Rep ./ Distributor for output voltage and package type availability . Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 12 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Ordering Information Part Number Output Voltage PAM3130AFA090 0.9V PAM3130BMB090 0.9V PAM3130CMB090 0.9V PAM3130DEC090 0.9V PAM3130AFA100 1.0V PAM3130BMB100 1.0V PAM3130CMB100 1.0V PAM3130DEC100 1.0V PAM3130AFA120 1.2V PAM3130BMB120 1.2V PAM3130CMB120 1.2V PAM3130DEC120 1.2V PAM3130AFA150 1.5V PAM3130BMB150 1.5V PAM3130CMB150 1.5V PAM3130DEC150 1.5V PAM3130AFA180 1.8V PAM3130BMB180 1.8V Marking Package Type Standard Package TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel P3130Z FATYW P3130Z FATYW P3130Z FATYW P3130Z FATYW P3130Y FATYW P3130Y FATYW P3130Y FATYW P3130Y FATYW P3130B FATYW P3130B FATYW P3130B FATYW P3130B FATYW P3130C FATYW P3130C FATYW P3130C FATYW P3130C FATYW P3130E FATYW P3130E FATYW Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 13 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Ordering Information (continued) Part Number Output Voltage PAM3130CMB180 1.8V PAM3130DEC180 1.8V PAM3130AFA250 2.5V PAM3130BMB250 2.5V PAM3130CMB250 2.5V PAM3130DEC250 2.5V PAM3130AFA280 2.8V PAM3130BMB280 2.8V PAM3130CMB280 2.8V PAM3130DEC280 2.8V PAM3130AFA285 2.85V PAM3130BMB285 2.85V PAM3130CMB285 2.85V PAM3130DEC285 2.85V PAM3130AFA300 3.0V PAM3130BMB300 3.0V PAM3130CMB300 3.0V PAM3130DEC300 3.0V Marking P3130E FATYW P3130E FATYW P3130G FATYW P3130G FATYW P3130G FATYW P3130G FATYW P3130H FATYW P3130H FATYW P3130H FATYW P3130H FATYW P3130I FATYW P3130I FATYW P3130I FATYW P3130I FATYW P3130J FATYW P3130J FATYW P3130J FATYW P3130J FATYW Package Type Standard Package TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 14 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Ordering Information (continued) Part Number Output Voltage PAM3130AFA330 3.3V PAM3130BMB330 3.3V PAM3130CMB330 3.3V PAM3130DEC330 3.3V Package Marking Type P3130K FATYW P3130K FATYW P3130K FATYW P3130K FATYW Standard Package TO-220 50Units/Tube TO-263-5L 800Units/Tape&Reel TO-263-5L 800Units/Tape&Reel SOP-8 2,500Units/Tape&Reel Please consult PAM sales office or authorized Rep ./ Distributor for output voltage and package type availability . Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 15 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Outline Dimension TO-263-5L A c2 L D L2 E L4 L1 c e b θ Dimensions(Millimeter) Symbol MIN NOM MAX A 4.40 4.60 4.80 b 0.66 0.78 0.91 L4 0.00 0.15 0.30 c 0.36 0.43 0.50 L3 1.50 REF. L1 2.29 2.54 2.79 E 9.80 10.1 10.4 c2 1.25 1.35 1.45 L2 1.27 REF. D 8.6 8.8 9.0 e 1.70 REF. L 14.6 15.2 15.8 θ 0º 4º 8º Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 16 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Outline Dimension TO-220 A c1 E L1 Dimensions(Millimeter) Symbol MIN NOM MAX A 4.40 4.60 4.80 b 0.76 0.88 1.0 D 8.60 8.80 9.00 c 0.36 0.43 0.50 E 9.80 10.1 10.4 L4 14.70 15.0 15.30 L5 6.20 6.40 6.60 c1 1.25 1.35 1.45 b1 1.17 1.32 1.47 L 13.25 13.75 14.25 e 2.54 REF. L1 2.60 2.74 2.89 ø 3.71 3.93 3.96 A1 2.60 2.70 2.80 L5 Φ L4 D A1 L e b b1 c Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 17 PAM3130 3A Low Voltage-Low Dropout CMOS Regulator Outline Dimension SOP-8 Power Analog Microelectronics , Inc www.poweranalog.com 08/2007 18