Technology ACE1117 1A Positive Voltage Regulators Description ACE1117 series of high performance low dropout voltage regulators are designed for applications that require efficient conversion and fast transient response. In addition, ACE1117 is designed to be stable under conditions where Cin and Cout are not present. However, it is recommended to include Cin and Cout in the system design as this will speed up the transient response and increase the PSRR rating. Features ● Low Dropout Performance. ● Low Quiescent Current: 3mA (Typ.) ● Guaranteed 1A Output Current. ● Wide input Supply Voltage Range. ● Stable operation without Cin and Cout. ● Over-temperature and Over-current Protection ● Fixed or Adjustable Output Voltage. ● Rugged 2KV ESD withstand capability. ● Available in SOT-223 and TO-252 Packages. ● RoHS Compliant and 100% Lead (Pb)-Free Application ● Active SCSI Terminators ● High Efficiency Linear Regulators ● 5V to 3.3V Linear Regulators ● Motherboard Clock Supplies Absolute Maximum Ratings Parameter Symbol Input voltage Junction temperature Thermal Resistance Junction to Ambient Storage temperature VIN TJ θJA TS Max Unit 9 V O -40 to 130 C O 60 C/W - 40 to 150 OC Packaging Type SOT-223 1 2 3 TO-252 1 2 3 Pin Symbol 1 ADJ/GND 2 Vout 3 Vin VER 1.3 1 Technology ACE1117 1A Positive Voltage Regulators Ordering information Selection Guide ACE1117 XX XX + H Halogen - free Pb - free XM : SOT-223 YM : TO-252 Output Voltage : 1.5 / 1.8V / 2.5V / 3.3V….. 5.0V / Default: Adjustable Version Electrical Characteristics VIN.MAX≦8V, VIN.MAX-VOUT=1.5V, IOUT=10mA, CIN=10uF, COUT=22uF, TA=25℃, unless otherwise specified. Parameter Symbol Test Conditions Min Typ Mum Unit Output Voltage (1) VO ACE1117-15 ACE1117-18 ACE1117-25 ACE1117-33 ACE1117-50 1.470 1.764 2.450 3.234 4.900 1.5 1.8 2.5 3.3 5.0 1.530 1.836 2.550 3.366 5.100 V Reference Voltage (1) (ADJ. Voltage Version) VREF (VIN-VOUT)=1.5V IOUT=10mA (-2%) 1.250 (+2%) V Line Regulation (1) VSR VOUT+1.5V<VIN<8V IOUT=10mA 0.3 (1) Load Regulation % VLR (VIN-VOUT)=1.5V 10mA≦IOUT≦1A 0.5 % Quiescent Current (2) IQ Fixed Output Version 3 mA Adjust Pin Current IADJ 65 uA Adjust Pin Current Change △IADJ VOUT+1.5V<VIN<8V 10mA≦IOUT≦1A 14 uA Dropout Voltage (3) VD IOUT=1A 1.3 V Minimum Load Current IO 0.4 mA Current Limit ICL 1.8 A Temperature Coefficient TC 0.07 %/℃ Thermal Protection OTP 175 ℃ RMS Output Noise VN TA=25℃, 10Hz≦f≦100kHz 0.003 %VO Ripple Rejection Ratio RA f=120Hz, COUT=22uF (Tantalum), (VIN-VOUT)=3V, IOUT=10mA 55 dB VER 1.3 2 Technology ACE1117 1A Positive Voltage Regulators Note1: Low duty cycle pulse testing with which TJ remains unchanged. 2: The IQ of ACE1117-1.5 is 1.2mA (Typ.) 3: The dropout voltage is the input/output differential at which the circuit ceases to regulate against further reduction in input Typical Application Adjustable Voltage Regulator Vin>=3.0V ACE1117 Vin Vout=1.5V Vout ADJ Cin 10uF R1 124ohm Cout 22uF R2 24.9ohm VOUT=VREF * (1+R2/R1)+IADJ * R2 ACE1117-3.3 Fixed Voltage Regulator Application Hints The typical Linear regulator would require external capacitors to ensure stability. However, ACE1117 is designed in such a way that these external capacitor can be omitted if the PCB layout is tight and system noise is not very high. For better transient and PSRR performance, the Input and Output capacitors are still recommended. Input Capacitor An input capacitor of 10μF is recommended. Ceramic or Tantalum can be used. The value can be increased without upper limit. VER 1.3 3 Technology ACE1117 1A Positive Voltage Regulators Output Capacitor An output capacitor of 22uF is recommended for better transient and PSRR performance. It should be placed no more than 1 cm away from the VOUT pin, and connected directly between VOUT and GND pins. The value may be increased without upper limit. Thermal Considerations It is important that the thermal limit of the package is not exceeded. The ACE1117 has built-in thermal protection. When the thermal limit is exceeded, the IC will enter protection, and VOUT will be pulled to ground. The power dissipation for a given application can be calculated as following: The power dissipation (PD) is PD = IOUT * [VIN – VOUT] The thermal limit of the package is then limited to PD(MAX) = [TJ – TA]/ΘJA where TJ is the junction temperature, TA is the ambient temperature, and ΘJA is around 180°C/W for ACE1117. ACE1117 is designed to enter thermal protection at 175°C. For example, if TA is 25°C then the maximum PD is limited to about 0.83W. In other words, if IOUT(MAX) = 500mA, then [VIN – VOUT] can not exceed 1.66V. (Ref. SOT-223 without heat sink.) Typical Performance Characteristic Reference Voltage vs Junction Temperature Junction Temperature (℃) Output Voltage vs Junction Temperature Junction Temperature (℃) VER 1.3 4 Technology Dropout Voltage vs Output Current Output Current (mA) Liine Transients ACE1117 1A Positive Voltage Regulators PSRR vs Frequency Frequency (Hz) Load Transients Short Transient Response VER 1.3 5 Technology ACE1117 1A Positive Voltage Regulators Packing Information SOT-223 VER 1.3 6 Technology ACE1117 1A Positive Voltage Regulators Packing Information TO-252 VER 1.3 7 Technology ACE1117 1A Positive Voltage Regulators 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 1.3 8