1/4 Structure Silicon Monolithic Integrated Circuit Function Synchronous Rectifier Step-down DC-DC Converter Product BU9006GUZ Function - Input voltage range 2.5V ~ 4.5V - Output voltage range 0.95 V ~ 4.5V(REF input voltage range 0.5V~VIN) - Current mode control - Integrated output FET synchronous rectifier step-down DC-DC converter - Switching frequency 2.0MHz typ. - Maximum output current 750mA (Switching regulator part) - Maximum output current 1200mA (Bypass switch part) - PchFET on resistance at bypass mode: (70mohm) typ. - 1.6mm x 1.6mm, t=0.4mm MAX, WLCSP Absolute Maximum rating (Ta=25c) Item Symbol Rating Unit Maximum input power supply voltage VIN 7 V Pd 0.48(*1) W Topr -35 ~ +85 C Tstg -55 ~ +125 C Tjmax +125 C Power dissipation Operating temperature range Storage temperature range Junction temperature (*1) When mounted on the specified PCB (50 mm x 58 mm ). Deducted by 4.8m W/c when used over Ta=25c. Operating range (Ta=25c) Item Symbol Power supply voltage VIN REV. A Rating Min. Typ. Max. 2.5 - 4.5 Unit V Condit ion 2/4 Electrical characteristics (unless otherwise specified IN=3.6[v], Ta=25[c]) Item Symbol Rating Min. Typ. Max. Unit Condition [Switching regulator part] Output voltage 1 VOUT1 1.15 1.20 1.25 V REFIN=0.60 V Output voltage 2 VOUT2 1.45 1.50 1.55 V REFIN=0.75 V Tss - 40 70 usec fosc 1.5 2.0 2.5 MHz RonP RonN - 300 250 500 450 mΩ mΩ RBYP - 70 120 mΩ IAMPIN - 0 500 nA RSHDN VSHDNH VSHDNL RHP VHPH VHPL 0.5 1.4 0 0.5 1.4 0 1 1 - 2 VIN 0.4 2 VIN 0.4 MΩ V V MΩ V V Uvth Uvhy 1.95 70 2.2 90 2.45 110 V mV IIN - 0 10 uA [Soft start part] Soft start time [Oscillator circuit] Switching frequency [Driver part] PchFET on resistance NchFET on resistance [Bypass switch part] On resistance [Error Amp part] REF input bias current [Control pin part] SHDN pin pull down resistor SHDN pin control Operation voltage Non operation HP pin pull down resistor HP pin control Operation Non operation voltage 【UVLO】 Release voltage threshold Hysteresis [Circuit current] Circuit current at shutdown * No design for durability against radiation REV. A SHDN=0V 3/4 Block diagram IN IN VREF UVLO TSD OUT OUT SLOPE CURRENT SENSE + + - + CLAMP DRIVER/ CONTROL LOGIC + LX IN GND REF HP OSC SHDN External dimention/Pin layout 9006 1 2 3 GND HP REF LX SHDN IN IN OUT OUT A LOT No. B C Pin layout (TOP VIEW) Pin number/name/function Pin nr Name A1 GND Function GND pin A2 HP Bypass switch on pin A3 REF Reference voltage input pin B1 LX Inductor connection pin B2 SHDN B3 IN C1 IN C2 OUT C3 OUT REV. A Shutdown pin Power supply input pin Output pin 4/4 Operation Notes 1) Absolute maximum ratings An excess in the absolute maximum rating, such as supply voltage, temperature range of operating conditions, etc., can break down the devices, thus making impossible to identify breaking mode, such as a short circuit or an open circuit. If any over rated values will expect to exceed the absolute maximum ratings, consider adding circuit protection devices, such as fuses. 2) GND voltage The potential of GND pin must be minimum potential in all condition. As an exception, the circuit design allows voltages up to -0.3 V to be applied to the IC pin. 3) Thermal design Use a thermal design that allows for a sufficient margin in light of the power dissipation (Pd) in actual operating conditions. 4) Inter-pin shorts and mounting errors Use caution when positioning the IC for mounting on printed circuit boards. The IC may be damaged if there is any connection error or if pins are shorted together. 5) Actions in strong electromagnetic field Use caution when using the IC in the presence of a strong electromagnetic field as doing so may cause the IC to malfunction. 6) Mutual impedance Power supply and ground wiring should reflect consideration of the need to lower mutual impedance and minimize ripple as much as possible (by making wiring as short and thick as possible or rejecting ripple by incorporating inductance and capacitance). 7) Thermal shutdown Circuit (TSD Circuit) This model IC has a built-in TSD circuit. This circuit is only to cut off the IC from thermal runaway, and has not been design to protect or guarantee the IC. Therefore, the user should not plan to activate this circuit with continued operation in mind. 8) Regarding input pin of the IC This monolithic IC contains P+ isolation and P substrate layers between adjacent elements in order to keep them isolated. P-N junctions are formed at the intersection of these P layers with the N layers of other elements, creating a parasitic diode or transistor. For example, as shown in the figures below, the relation between each potential is as follows: When GND > Pin A and GND > Pin B, the P-N junction operates as a parasitic diode. When GND > Pin B, the P-N junction operates as a parasitic transistor. Parasitic diodes can occur inevitable in the structure of the IC. The operation of parasitic diodes can result in mutual interference among circuits, operational faults, or physical damage. Accordingly, methods by which parasitic diodes operate, such as applying a voltage that is lower than the GND (P substrate) voltage to an input pin, should not be used. 9) Mounting Condition As mounting condition to the substrate may cause the affect to the electrical character of IC. The design margin for the shift value as mount is required, considering the evaluation result for IC to mount the substrate you will use. 10) External Components The IC evaluation with the external components you will use is required to check the margin within all operating condition. Because some external inductors and capacitors change its character drastically depending on the DC current, DC voltage, temperature, and so on. REV. A Notice Notes No copying or reproduction of this document, in part or in whole, is permitted without the consent of ROHM Co.,Ltd. The content specified herein is subject to change for improvement without notice. The content specified herein is for the purpose of introducing ROHM's products (hereinafter "Products"). If you wish to use any such Product, please be sure to refer to the specifications, which can be obtained from ROHM upon request. Examples of application circuits, circuit constants and any other information contained herein illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production. Great care was taken in ensuring the accuracy of the information specified in this document. However, should you incur any damage arising from any inaccuracy or misprint of such information, ROHM shall bear no responsibility for such damage. The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. 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