BL8095 24V/1.2A Asynchronous Buck Converter in SOT23-6 DESCRIPTION FEATURES The BL8095 is a high efficiency current-mode asynchronous, 24V/1.2A buck converter. Its input voltage ranges from 4V to 24V and it provides an adjustable regulated output voltage from 0.810V to 5.5V while delivering up to 1.2A of output current. The switching frequency is set to 1.4MHz, which works with a inductor as small as 4.7uH. And the BL8095 will automatically switch between PFM and PWM mode based on the load current, thus to enhance the converter efficiency at light load. APPLICATIONS BL8095 consists of many protection blocks such as UVLO, input voltage over voltage protection to stand much higher input voltage spike, thermal protection and output short circuit protection. The BL8095 is available in the tiny SOT23-6 package. TYPICAL APPLICATION and PIN OUT 10nF VIN 5 SW VOUT 5V/1.2A 4.7μH 6 LC2325 BL8095 25V 10μF 4 82K EN FB GND 3 6.3V 22μF 16K 2 SW VIN EN 6 5 4 HBYW CA 1 2 3 BST GND FB YW: Date code, Year and Week being assembled SOT23-6 www.belling.com.cn Security Camera Consumer Electronic Device for automobile Portable DVD ADSL Modem, WLAN router Other 12V or double cell Li-ion battery powered device LOW CURRENT CONSUMPTION BST 1 VIN 12V Adjustable Output Voltage, Vfb=0.810V Output current is up to 1.2A Range of operation input voltage: 4-24V Input voltage UVLO: 3.7V (voltage decreasing) Input Overvoltage Protection @26V Withstand input voltage spike >30V Operating current at zero load: 0.8mA (typ.) Line regulation: 0.1%/V (typ.) Load regulation: 10mV (typ.) High efficiency, up to 90% Environment Temperature: -20C~85C 1 BL8095 MARK and ORDERING INFORMATION Mark Explanation SW VIN EN 6 5 4 Ordering Information HBYW CA CA : Product Code YW: Date code 1 2 3 BST GND FB Product ID BL8095CB6TR Devices per reel 3000 SOT23-6 PINOUT DESCRIPTION PIN # 1 2 3 NAME BST GND FB 4 EN 5 6 VIN SW DESCRIPTION High side power transistor gate drive boost input Ground. Feedback input with reference voltage set to 0.810V Enable input. Setting it to high level or connecting to Vin via a resistor may turn on the chip, while setting it to ground level will turn off the chip. Power input, the input capacitor should be placed as close to VIN and GND pin as possible Power switching node to connect inductor BLOCK DIAGRAM EN BST VIN + UVLO & Thermal shutdown REG &REF Current Sense - + EA + COMP network Σ - FB PWM Logic OSC Slope Comp GND www.belling.com.cn 2 DRIVER SW BL8095 ABSOLUTE MAXIMUM RATING Parameter Value Max Input Voltage Max Operating Junction Temperature(Tj) Ambient Temperature(Ta) SOT23-6 (JC) Package Thermal Resistance SOT23-6 (JA) Storage Temperature(Ts) Lead Temperature & Time ESD (HBM) 30V 125C -20C – 85C 110C / W 220C / W -40C - 150C 260C, 10S >2000V Note: Exceed these limits to damage to the device. Exposure to absolute maximum rating conditions may affect device reliability. RECOMMENDED WORK CONDITIONS Parameter Value Input Voltage Range Output Voltage Range Operating Junction Temperature(Tj) 4V - 24V 0.81 – 5.5V -20C –125C ELECTRICAL CHARACTERISTICS (VIN=12V, TA=25C) Symbol Parameter VDD Input Voltage Range VOUT Output Voltage Range Conditions 0.81 Feedback Voltage Vin=12V, Ven=5V VUVLO UVLO Voltage Vin H-->L, Iout=0.5A Iq 0.790 0.810 Max Unit 24 V 5.5 V 0.830 V 3.7 Feedback Leakage current Quiescent Current Typ 4 Vref Ifb Min Active, Vfb=1V, No Switching Shutdown, Vin=8V V 0.1 0.4 uA 0.6 1.0 mA 6 10 uA LnReg Line Regulation Vin=5V to 12V 0.1 %/V LdReg Load Regulation Iout=0.1 to 1.2A 0.02 %/A Switching Frequency Ven=3V, Vin=12V Fsoc RdsonH High side Switch Rdson Isw=200mA Ilimit Peak Inductor Current Limit Vin=12V, Vout=5V Venh EN High Threshold 1.0 1.4 1.8 MHz 250 350 mohm 1.5 2 1 1.5 A 3 V 0.5 V Venl EN Low Threshold Vovp Input Over-Voltage Protection Ven=3V 26 V TSD Over Temperature Proection Hystersis=40C 150 C www.belling.com.cn 3 BL8095 TYPICAL PERFORMANCE CHARACTERISTICS (Vin=12V, Vout=5.0V, L=4.7uH, Cin=10uF, Cout=22uF, TA=25C, unless otherwise stated) Switching waveform Vin=12V, Iout=0.5A Switching waveform Vin=12V, Iout=1A (CH1=Vin, CH2=Vout, CH3=SW, CH4=Isw) (CH1=Vin, CH2=Vout, CH3=SW, CH4=Isw) www.belling.com.cn 4 BL8095 Switching waveform Vin=24V, Iout=0.5A Switching waveform Vin=24V, Iout=1A (CH1=Vin, CH2=Vout, CH3=SW, CH4=Isw) (CH1=Vin, CH2=Vout, CH3=SW, CH4=Isw) Load Transient Response Load Transient Response Vin=12V, Iout=0.12 - 1A Vin=24V, Iout=0.12 - 1A (CH1=Vin, CH2=Vout, CH4=Isw) (CH1=Vin, CH2=Vout, CH4=Isw) FUNCTIONAL DECRIPTIONS Loop Operation The BL8095 is a wide input range, high-efficiency, DC-to-DC step-down switching regulator, capable of delivering up to 1.2A of output current, integrated with a 250m MOSFET, with external schottky diode. It uses a PWM current-mode control scheme. An error amplifier integrates error between the FB signal and the internal reference voltage. The output of the integrator is then compared to the sum of a current-sense signal and the slope compensation ramp. This operation generates a PWM signal that modulates the duty cycle of the power MOSFETs to achieve regulation for output voltage. Current Limit There is a cycle-by-cycle current limit on the high-side MOSFET of 1.5A(typ). When the current flowing out of SW exceeds this limit, the high-side MOSFET turns off and the external schottky diode rectifier turns on. Unlike the traditional method of current limiting by limiting the voltage at the internal compensation node, which usually has large variation due to duty cycle variance, this type of peak current limiting scheme provides a relatively more accurate limit for output current, thereby lowering the requirements for system design. Light Load Operation Traditionally, a fixed current mode constant frequency PWM DC-DC regulator always switches even when the output load is small. When energy is shuffling back and forth through the power MOSFETs, power is lost due to the finite www.belling.com.cn 5 BL8095 RDSONs of the MOSFETs and parasitic capacitances. At light load, this loss is prominent and efficiency is therefore very low. BL8095 employs a proprietary control scheme that improves efficiency in this situation by enabling the device into a power save mode during light load, thereby extending the range of high efficiency operation. COMPONENT SELECTRION When setting up the BL8095 for different output voltage, please use following recommended component value for the best performance. VOUT (V) 5 3.3 2.5 COUT (F) 22 22 22 L (H) 6.8 - 10 4.7 - 10 3.3 - 10 THERMAL CONSIDERATION BL8095 is high efficiency Buck converter, which means it consumes very few power when converting the high voltage to low voltage. However, when output power is very large, like 5V/1.2A, the output power is as high as 6W, a heat dissipation path is strongly recommended to be routed on PCB. BL8095 is in SOT23-6 package. The heat is conducted out via Pin 2 (GND), so the heat dissipation route on PCB should be connected to the Pin 2 of the chip. PACKAGE OUTLINE Package SOT23-6 Devices per reel Package specification: www.belling.com.cn 6 3000 Unit mm