SL9500M33SE

SL9500 Series Low Dropout Regulators Description SL9500 Series is high accuracy,very low quiescent current,low-dropout linear regulator able to provide 500mA load current. SL 9500 Series features very fast response against line voltage transient and load current transient, and ensures no overshoot voltage during the LDO start up and short circuit recovery. SL9500 Series integrated short circuit protection, current limiting protection and thermal protection function. By putting the EN pin down to turn on shuntdown mode. Features ⚫ Wide Input Voltage Range: 1.8V~6V ⚫ Maximum Output Current: 500mA ⚫ Standard Fixed Output Voltage Options: 1.2V,1.8V,2.5V,2.8V,3V,3.3V,3.6V,etc ⚫ Low Quiescent Current: 800nA ⚫ PSRR=60dB@1KHz ⚫ Low Dropout: 130mV @ 100mA ⚫ Low Output Voltage Accuracy: ±2% ⚫ Short Circuit Protection ⚫ Current Limiting Protection ⚫ Thermal Shutdown Protection ⚫ Available Packages: SOT-23, SOT-23-3, SOT-89, SOT-23-5,DFN1x1-4L and SOT-89-5 Applications ⚫ Battery-Powered Equipment ⚫ Smoke Detector and Sensor ⚫ Micro Controller Applications Typical Application Circuit www.slkormicro.com 1 Rev.1 -- 09 November 2017 SL9500 Series Pin Distribution SOT-23 SOT-89 SOT-23-3 3.VIN 2.VIN 3.VIN 1.GND 2.VOUT 1.GND 2.VIN 3.VOUT SOT-23-5 4. NC 5. VOUT 1.GND SOT-89-5 DFN1x1-4L 4. NC 5. VOUT 4.VIN 3.EN 2.VOUT GND 2.GND 1.VIN 2.GND 3.EN 1.VOUT (Bottom View) 1.VIN 2.GND 3.EN Functional Pin Description Pin Name Pin Function VIN Power Input Voltage GND Ground EN Chip Enable (Active High). Note that this pin is high impedance NC NO Connected VOUT Output Voltage Ordering Information SL9500 Package Type SA:SOT-23 SQ:SOT-89 SC:SOT-23-3 SE:SOT-23-5 DE:DFN1x1-4L SR: SOT-89-5 Output Voltage 12 : 1.2V 18 : 1.8V 25 : 2.5V 28 : 2.8V 30 : 3.0V 33 : 3.3V 36 : 3.6V Output current tap M : 500mA www.slkormicro.com 2 Rev.1 -- 09 November 2017 SL9500 Series Ordering Information Continue Orderable Device Package Reel Package Qty (inch) (PCS) Eco Plan Note MSL Level Marking Code SL9500M12SA SL9500M18SA SL9500M25SA SL9500M28SA SOT-23 7 3000 RoHS & Green MSL1 SL9500M30SA 9500 -XX XX:Output Voltage e.g. 3.0:3.0V SL9500M33SA SL9500M36SA SL9500M12SQ SL9500M18SQ SL9500M25SQ SL9500M28SQ SOT-89 7/13 1000/3000 RoHS & Green MSL1 9500 -XX SL9500M30SQ XX:Output Voltage SL9500M33SQ e.g. 3.0:3.0V SL9500M36SQ SL9500M12SC SL9500M18SC SL9500M25SC SL9500M28SC SOT-23-3 7 3000 RoHS & Green MSL3 9500 -XX SL9500M30SC XX:Output Voltage e.g. 3.0:3.0V SL9500M33SC SL9500M36SC www.slkormicro.com 3 Rev.1 -- 09 November 2017 SL9500 Series SL9500M12SE SL9500M18SE SL9500M25SE SL9500M28SE SOT-23-5 7 3000 RoHS & Green MSL3 9500 -XX SL9500M30SE XX:Output Voltage e.g. 3.0:3.0V SL9500M33SE SL9500M36SE SL9500M12DE SL9500M18DE DXX SL9500M25DE SL9500M28DE DFN1x1-4L 7 1000 RoHS & Green MSL1 SL9500M30DE SL9500M33DE D:Product Code e.g. D: PJ9500 Series XX:Output Voltage e.g. 30:30V SL9500M36DE SL9500M12SR SL9500M18SR SL9500M25SR SL9500M28SR SOT-89-5 7/13 1000/3000 RoHS & Green MSL1 9500 -XX SL9500M30SR XX:Output Voltage e.g. 3.0:3.0V SL9500M33SR SL9500M36SR www.slkormicro.com 4 Rev.1 -- 09 November 2017 SL9500 Series Function Block Diagram www.slkormicro.com 5 Rev.1 -- 09 November 2017 SL9500 Series Absolute Maximum Ratings Note1 Ratings at 25℃ ambient temperature unless otherwise specified. Parameter Value Unit VIN -0.3 ~ 6 V VEN -0.3 ~ 6 V -0.3 ~ 5 V 500 mA SOT-23 300 mW SOT-89 400 mW SOT-23-3 250 mW SOT-23-5 250 mW DFN1x1-4L 250 mW SOT-89-5 400 mW SOT-23 330 °C/W SOT-89 250 °C/W SOT-23-3 400 °C/W SOT-23-5 400 °C/W DFN1x1-4L 400 °C/W SOT-89-5 250 °C/W Operating Ambient Temperature -40 ~ +125 °C Storage temperature range -40 ~ +150 °C Lead Temperature 300°C,10S -- HBM 4 KV CDM 200 V VIN,VEN to GND Voltage VOUT to VIN Voltage Maximum Load Current Power Dissipation Thermal Resistance,Junction-to-Ambient ESD Voltage Note1: Exceed these limits to damage to the device. Exposure to absolute maximum rating conditions may affect. Recommended Operating Conditions Parameter Supply Voltage Maximum Output Current Operating Ambient Temperature www.slkormicro.com 6 Value Unit 1.8~6 V 500 mA -40 ~ +125 °C Rev.1 -- 09 November 2017 SL9500 Series Electrical Characteristics VIN=VOUT+1V, CIN=1µF, COUT=1µF, TA=25℃ , unless otherwise noted.) Parameter Input Voltage Test Conditions VIN Output Voltage Accuracy Quiescent Current Maximum Output Current Dropout Symbol Voltage Note Min. Typ. Max. Unit 1.8 -- 6 V ∆VOUT VIN=5V, IOUT=10mA -2 -- +2 % IQ VIN=5.0V, IOUT=0A -- 800 -- nA -- 500 -- mA VIN=0.98*VOUT, IOUT=100mA VOUT≥2.8V -- 120 -- mV VIN=0.98*VOUT, IOUT=100mA 1.8≤VOUT＜2.8V -- 160 -- mV VIN=0.98*VOUT, IOUT=100mA VOUT=1.5V -- 190 -- mV VIN=0.98*VOUT, IOUT=100mA VOUT=1.2V -- 280 -- mV IOUT_Max VDROP Line Regulation ∆VLINE VIN=(VOUT+2V)~7V, IOUT=1mA -- 1 3 mV Load Regulation ∆VLOAD VOUT=4V, IOUT=1~200mA -- 0.1 0.2 mV/mA Short Circuit Current ISHORT -- 120 150 mA -- 700 -- mA Current Limit ILIMIT VEN=VIN VOUT Short to GND VIN=VOUT+1V EN Input Logic Low VIL -- -- 0.9 V Threshold Logic High VIH 1.1 -- -- V -- 60 -- dB -- 66 Shutdown, Temp increasing -- 129 -- °C Reset, Temp decreasing -- 105 -- °C Power Supply Rejection Rate PSRR VIN=5V, IOUT=10mA,f=1 KHz VIN= 5V, IOUT= 300mA, Output Noise Voltage eN f=10Hz to100KHz, -- μVRMS (VOUT=3.3V), COUT=1μF Thermal Shutdown Temperature Thermal Reset Temperature TSHDN Note:The dropout voltage difference is the voltage difference between the input and output, where the output voltage is 2% lower than its nominal value. www.slkormicro.com 7 Rev.1 -- 09 November 2017 SL9500 Series Typical Electrical Curves TA=25°C, (unless otherwise noted) Line transient Line transient VIN=5V to 3.5V IOUT=1mA VIN=3.5V to 5V IOUT=1mA Load transient Load transient VIN=4V IOUT=100mA to 0mA VIN=4V IOUT=0mA to 100mA Power-on waveform Power-off waveform 2V/div 2V/div VIN 2V/div VIN 2V/div VOUT VOUT IOUT VOUT=3.3V,VIN=5V,IOUT=0mA VOUT=3.3V,VIN=5V,IOUT=100mA Time(200μs/div) www.slkormicro.com 100mA/div Time(400μs/div) 8 Rev.1 -- 09 November 2017 PSRR(dB) SL9500 Series Frequency(Hz) www.slkormicro.com 9 Rev.1 -- 09 November 2017 SL9500 Series Functional Description Input Capacitor A 1μF ceramic capacitor is recommended to connect between VIN and GND pins to decouple input power supply glitch and noise. The amount of the capacitance may be increased without limit. This input capacitor must be located as close as possible to the device to assure input stability and less noise. For PCB layout, a wide copper trace is required for both VIN and GND. The input capacitor should be at least equal to, or greater than, the output capacitor for good load transient performance。 Output Capacitor An output capacitor is required for the stability of the LDO. The recommended output capacitance is from 1μF to 10μF, Equivalent Series Resistance (ESR) is from 5mΩ to 500mΩ, and temperature characteristics are X7R or X5R. Higher capacitance values help to improve load/line transient response. The output capacitance may be increased to keep low undershoot/overshoot. Place output capacitor as close as possible to OUT and GND pins. ON/OFF Input Operation The SL9500 EN pin is internally held low by a 1-MΩ resistor to GND. The PJ9500 is turned on by setting the EN pin higher than VIH threshold, and is turned off by pulling it lower than VIL threshold. If this feature is not used, the EN pin should be tied to IN pin to keep the regulator output on at all time. Low Quiescent Current Cellular phone baseband internal digital circuits typically operate all the time. That requires LDO stays on at all times. However, in the standby mode, the microprocessor consumes only around 100~300μA. Since the phone stays in standby for the longest percentage of time, using a 0.8μA quiescent current LDO, instead of 100μA, saves 99.2μA and can substantially extends the battery standby time. The SL9500, consuming only 0.8μA quiescent current, provides great power saving in portable and low power applications. Current Limit Protection When output current at the OUT pin is higher than current limit threshold or the OUT pin is short-circuiting to GND, the current limit protection will be triggered and clamp the output current to a pre-set level to prevent over-current and to protect the regulator from damage due to overheating. Thermal Overload Protection The 9500 has internal thermal protection. When the temperature is too high, such as a short circuit in the output pins or a device with a very large load current and a large voltage drop, the internal thermal protection circuit will be triggered, which will shut down the power supply MOSFET and prevent LDO damage. Once the excessive thermal conditions are eliminated and the temperature of the device drops, the thermal protection circuit will restore control of the power MOSFET and allow the LDO device to enter normal operation www.slkormicro.com 10 Rev.1 -- 09 November 2017 SL9500 Series Package Outline SOT-23 Dimensions in mm www.slkormicro.com 11 Rev.1 -- 09 November 2017 SL9500 Series Package Outline SOT-89 Dimensions in mm www.slkormicro.com 12 Rev.1 -- 09 November 2017 SL9500 Series Package Outline SOT-23-3 Dimensions in mm 1.6 2.8 ±0.1 10 0.127 +0.05/-0.02 ±0.1 ±0.1 2.92 12 R0.15MAX 0.95±0.1 0.35±0.05 R0.15MAX 0.06 12 ± 0.05 0.65 ±0.1 1.1 ±0.1 10 www.slkormicro.com 13 Rev.1 -- 09 November 2017 SL9500 Series Package Outline SOT-23-5 Dimensions in mm 2.92 ±0.1 1.6 2.8 ±0.1 ± 0.1 10 0.127 +0.05/-0.02 1.9±0.1 12 R0.15MAX 0.95 ±0.1 0.35±0.05 R0.15MAX 0.06 12 ± 0.05 0.65 ±0.1 1.1 ±0.1 10 www.slkormicro.com 14 Rev.1 -- 09 November 2017 SL9500 Series Package Outline DFN1x1-4L Dimensions in mm 0.625 BSC 1±0.05 0.25±0.05 1±0.05 05 0. 0. 5± 0. 05 5± 0. PIN1 PIN 1 0.225±0.05 TOP VIEW 0.125 BSC +0.05 0.5±0.05 BOTTOM VIEW SIDE VIEW www.slkormicro.com 15 Rev.1 -- 09 November 2017 SL9500 Series Package Outline SOT-89-5 Dimensions in mm www.slkormicro.com 16 Rev.1 -- 09 November 2017