ACE517C 2A Low Consumption Linear Regulator Description ACE517C is a series of low power consumption, low dropout voltage regulator with a typical dropout voltage of 1.0V at 2A load current. ACE517C can provide output value in the range of 1.1V~5.0V in 0.1V steps. It also can customized on command. Other than every voltage version can be used as an adjustable voltage version, with which desired voltage can be achieved by setting the values of two external resistors of the application circuitry. ACE517C has well load transient response and good temperature characteristic, And it uses trimming technique to guarantee output voltage accuracy within±2%. ACE517C series is available in standard packages ofSOT-223 and TO-252 Features • Low Power Consumption:2.0uA (Typ.) • Maximum output current : 2A • Maximum input voltage: 18V • Line regulation: 0.2% (Typical) • Output Voltage Range:1.1V~5.0V (customized on command in 0.1V steps) • Highly Accurate:±2%(±1% customized) • Typical Dropout Voltage:[email protected] (Vout=3.3V) • Operation environment Temperature: -40 ~85℃ Applications • Battery Charger • Battery Powered equipment • Post Regulators for Switching Supplies • Reference Voltage Source Regulation after Switching Power Absolute Maximum Rating Parameter Value Max Input Voltage 20V Operating Junction Temperature(Ta) 125℃ Ambient Temperature(Ta) -40~85℃ Package Thermal Resistance SOT-223 20℃/W TO-252 20℃/W Storage Temperature(Ts) - 40 to 150℃ Lead Temperature & Time 260℃,10S Note: Exceed these limits to damage to the device. Exposure to absolute maximum rating conditions may affect device reliability. VER 1.2 1 ACE517C 2A Low Consumption Linear Regulator Typical Application Note: Input capacitor (Cin=1uF) and Output capacitor (Cout=1uF) are recommended In all application circuit. ceramic capacitor is recommended. ELECTRICAL CHARACTERISTICS Dropout Voltage vs Output Current Iout(mA) Packaging Type SOT-223 1 2 TO-252 3 1 2 SOT-223 SOT-252 Description 1 1 VSS/ADJ 2 2 VOUT 3 3 VDD 3 Recommended work conditions Parameter Value Input Voltage Range Max. 18V Ambient Temperature -40 ~ 85 OC VER 1.2 2 ACE517C 2A Low Consumption Linear Regulator Ordering information ACE517C XX XX + H Halogen - free Pb - free XM: SOT-223 YM : SOT-252 Output Voltage :Ex:1.8V=18……5.0V=50 Electrical Characteristics Test conditions: Cin=1uF, Cout=1uF, TA=25℃, unless otherwise specified. Parameter Symbol Input Voltage Vin Output Voltage Vout Maximum Output Current Iout (Max.) Input-Output Voltage Differential(note3) Dropout Voltage Line Regulation (note1) △Vout △Vin●Vout Line Regulation (note1,2) △VOUT Quiescent Current Output Voltage Temperature Coefficient Iq △Vout △T●Vout Thermal Resistance junction to case θJC Conditions Min Typ VOUT *0.98 Vin-Vout=1.7V Vin-Vout=1.4V Vin-Vout=1 V Vout<1.5V 1.5V≦Vout<2.0V Vout≧2.0V Vout<1.5V Iout≦1.5A 1.5V≦Vout<2.0V Vout≧2.0V Iout =10mA Set Vout+1V≦Vin≦18V Vout<1.5V 1mA≦Iout≦ 1.5V≦Vout<2.0V 1.5A Vout≧2.0V Mum Unit 18 VOUT *1.02 V 2 V A 1000 800 1600 1300 950 mV 0.1 0.3 %/V 40 20 10 60 40 30 mV Vin= Set Vout+1V 2.0 5.0 uA Iout =100mA 200 SOT-223 20 TO-252 12 ppm/℃ ℃/W Note1: Line Regulation and Load Regulation in Table1 are tested under constant junction temperature. Note2: When load current varies between 0~2A and Vin-Vout ranges from 1V~18V at constant junction temperature, the parameter is satisfied the criterion in table. Note3: Dropout Voltage is the voltage difference between the input and output pin when the input voltage is minimum to maintain the lowest spec output voltage. VER 1.2 3 ACE517C 2A Low Consumption Linear Regulator Block Diagram Typical Performance Characteristic Dropout Voltage & Load Current Iout(mA) Iq vs. Vin Voltage Vin(V) VER 1.2 4 ACE517C 2A Low Consumption Linear Regulator Typical Performance Characteristic Line Regulation Vin(V) Vout Voltage vs. Temperature T(℃) Line Transient Response Iout=10 mA , Vin4.3V to 5.3V Load Regulation Iout(A) Vout Voltage vs. Iout Current Iout(A) Load Transient Response Vin=5V,Iout=0.1A to 1A VER 1.2 5 ACE517C 2A Low Consumption Linear Regulator DETAILED DESCRIPTION ACE517C is a series of low dropout voltage and low power consumption regulator. Its application circuitry requires minimum number of external components. Both fixed voltage and adjustable voltage application circuits need input and output capacitors to assure output voltage stability. Any desired output voltage from fixed voltage to 18V can be achieved by assigning proper values to two external resistors in its application circuitry (as shown in Fig.3, as R1, R2 are the two external resistors.). ACE517C uses trimming technique to assure the accuracy of output value within ±2%, at the same time, temperature compensation is elaborately considered in this chip, which makes ACE517C’s temperature coefficient within 100ppm/℃ TYPICAL APPLICATION ACE517C has fixed voltage and adjustable voltage application mode, Fig.4 shows their typical application circuitry. A 1uF ceramic capacitor connected between input and GND as bypass capacitor and a 1uF ceramic capacitor between output and GND are recommended for all application. Using a bypass capacitor (CAdj) between the adjust terminal and ground can improve ripple rejection. The bypass capacitor prevents ripple from being amplified in case the output voltage is increased. The impedance of CAdj should be less than the resistance of R1 to prevent ripple from being amplified at any frequency. As R1 is normally in the range of 1KΩ~10KΩ, the value of CAdj should satisfy the following condition: 1/(2 * FrequencyRipple *Cadj)<R1 A 0.1µF ceramic capacitor is recommended. EXPLANATION The output voltage of adjustable application satisfies this followed equation: Vout=VRef× (1+R2/R1)+IAdj×R2. The second term IAdj×R2 can be ignored since the adjustable pin current IAdj (~ 2µA) is much less than the current through R1 (~1mA). The value of R1 is preferred in the range of 1KΩ~10KΩ and the value of VRef is the output voltage of typical fixed voltage application circuit. VER 1.2 6 ACE517C 2A Low Consumption Linear Regulator Packing Information SOT-223 VER 1.2 7 ACE517C 2A Low Consumption Linear Regulator Packing Information SOT-252 VER 1.2 8 ACE517C 2A Low Consumption Linear Regulator Notes ACE does not assume any responsibility for use as critical components in life support devices or systems without the express written approval of the president and general counsel of ACE Electronics Co., LTD. As sued herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and shoes 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. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. ACE Technology Co., LTD. http://www.ace-ele.com/ VER 1.2 9