Power Supply IC Series for TFT-LCD Panels 5V Input Multi-channel System Power Supply IC No.10035EAT16 BD9862MUV Description The BD9862MUV is a 3ch system power supply for mobile TFT liquid crystal panels.Operable at VBAT=1.8V, CH2 & CH3 adopts the original PWM/PFM automatic switching control charge pump and realizes high efficiency in full-load range. Features 1) Input voltage range: 1.8V~4.5V (The input voltage can be 5.5V if a double charge pump is not used) 2) The step-up switching regulator has a built-in output FET (CH1) 3) There is a built-in PWM/PFM automatic switching charge pump circuit with a fixed PWM terminal (CH2,3) 4) Switching regulator oscillation frequency: MHz(typ.) 5) Charge pump oscillation frequency: 500kHz(typ.) 6) There is a built-in circuit to discontinue output (timer latch type) in the event of overload 7) Package VQFN024V4040 Applications Small & medium TFT liquid crystal displays etc. Absolute Maximum Ratings (Ta = 25C) Parameter Symbol Ratings Unit Maximum adding power supply voltage VBAT -0.3 ~ 7 V LX -0.3 ~ 18 FB1, INV1, INV2, UVLOSET, C2N, Maximum adding voltage VIN2A, CN, CP, CPOUT, REGOUT, -0.3~7 V PWM, RT ,VREF ,NON3 VIN3, C3P, Vo2, C2P, VIN2B -0.3~15.5 0.34(*1) Power dissipation Pd W 0.70(*2) Operating temperature range Topr -40 ~ +85 Storage Temperature Range Tstg -55 ~ +150 Junction temperature Tjmax +150 (*1) When used as a stand-alone IC (for Ta=25 and over), the value is reduced by 27mW/. (*2) When used for Printed Circuit Boards (glass epoxy board of 74.2mm74.2mm1.6mm) mounting for Ta=25 and over, the value is reduced by 5.6mW/. Operating Conditions(Ta=25) Ratings Parameter Symbol Unit condition MIN TYP MAX ( 1) Power Supply Voltage VBAT 1.8 - 4.5 V CH1Output Voltage Vo1 - - 15 V CH2 Output Voltage Vo2 - - 15 V CH3 Output Voltage Vo3 -15 - - V Starting capacity, adding charge pump Cflys,Cflya 0.1 0.22 - F flying capacitor Reversing capacity charge pump Cflyi 0.022 0.047 - F flying capacitor Starting charge pump Output capacitance CCPOUT 1.0 2.0 - F CCPOUT Cfly*10 Switching regulator oscillation frequency fOSC1 700 1.0 1.4 MHz RRT=82k ~180k Charge pump oscillation frequency fOSC2 350 500 700 kHz RRT=82k ~180k CH1 PowerNMOS Drain current Iidn1 - - 1.0 A (1) When using a double charge pump for starting. 5.5V when not using a double charge pump www.rohm.com 2010.03 - Rev.A 1/16 2010 ROHM Co., Ltd. All rights reserved. Technical Note BD9862MUV Electrical Characteristics (unless otherwise specified,Ta=25,VBAT=2.5V) Limits Parameter Symbol Unit Condition MIN TYP MAX Starting circuit part Output voltage Vcpout 3.7 4.2 4.7 V Iout=0~10mA VBAT Voltage to start operation Vst - - 1.8 V Soft start part CH1Soft start time Tss1 0.5 1.0 2.0 ms R =120k RT CH2 Soft start time Tss2 3.5 5.0 6.5 ms R =120k RT CH3 Soft start time Tss3 3.5 5.0 6.5 ms R =120k RT Oscillation circuit Switching regulator frequency fosc1 0.9 1.0 1.1 MHz R =120k RT Charge Pump Frequency fosc2 450 500 550 kHz R =120k RT Regulator Output Voltage VREGOUT 3.4 3.5 3.6 V Iout=0~10mA,VBAT=2.0V~4.5V PWM Comparator MAX Duty1 Dmax1 85 90 95 % MAX Duty2 Dmax2 40 45 50 % MAX Duty3 Dmax3 40 45 50 % Error amplifier INV1Threshold Voltage VINV1 0.985 1.0 1.015 V INV2Threshold Voltage VINV2 0.985 1.0 1.015 V NON3Threshold Voltage VNON3 0.985 1.0 1.015 V Making VREF as absolute value CH3 Error amplifier off set voltage Voffset -50 0 50 mV Output part(Switching Regulator NMOSFET ON Resistance RonN1 0.2 0.45 0.7 REGOUT=3.5V Leak current when NMOSFET OFF IreakN1 - - 10 A UVLOSET=0V Adding step-up charge pump Io=0~10mA,VIN2A=3.5V, Output impedance R2 - 53 90 VIN2B=10V,INV2=GND Inverted charge pump PMOS RonP3 - 20 40 Output FET VIN3=10V ON resistance NMOS RonN3 - 10 20 Control Terminal Part PWM Terminal pull down resistance RPWM 0.5 1 2 M Operation VPWMH 1.2 - VBAT V PWM Fixed mode PWM Terminal control voltage Non-operation VPWML 0 - 0.3 V PWM/PFM Auto shift mode Short circuit protection circuit Timer Latch Time Latch 110 131 150 ms R =120k RT UVLO Relief voltage threshold UVth 0.97 1.0 1.03 V Hysteresis UVhy 50 75 100 mV Circuit current VBAT=5V, Circuit current during operation IVBAT 0.4 0.8 1.6 mA UVLOSET=INV1=INV2=5V (VBAT terminal inflow current) NON3=-0.2V It is not the radiation-proof design for this product. www.rohm.com 2010.03 - Rev.A 2/16 2010 ROHM Co., Ltd. All rights reserved.