XC6420AB19MR-G

XC6420 Series ETR0352-009 150mA Small Dual LDO Regulator with ON/OFF Switch ■GENERAL DESCRIPTION The XC6420 series is a small dual CMOS LDO regulator with 2-channel 150mA outputs. The series features high speed, high accuracy, high ripple rejection and low dropout voltage. The series is capable of high density board installation by the small package of two low on-resistance regulators. Each output voltage is internally set in a range from 1.2V to 3.6V in increments of 0.05V with ±2% accuracy. The EN function controls the two regulators on/off independently. In the stand-by mode, the electric charge at the output capacitor CL is discharged via the internal switch and as a result the VOUT pin quickly returns to the VSS level. The series is also compatible with low ESR ceramic capacitors. The high level of output stability is maintained even during frequent load fluctuations, due to the excellent transient response performance. The two regulators are completely isolated so that a cross talk during load fluctuations is minimized. ■APPLICATIONS ● Smart phones / Mobile phones ● Portable game consoles ● Digital audio equipments ● Digital still cameras / Camcorders ■FEATURES Maximum Output Current Operating Voltage Range Output Voltage Dropout Voltage Low Power Consumption Stand-by Current Ripple Rejection EN Function Protection Circuit Output Capacitor Operating Ambient Temperature Packages Environmentally Friendly ■TYPICAL PERFORMANCE CHARACTERISTICS Ripple Rejection XC6420(VOUT=1.8V) VIN=3.0V+0.5Vp- pAC, Ta=25℃ CIN=0.1μF(ceramic), CL =1.0μF(ceramic) Ripple Rejection Rate : RR (dB) ■TYPICAL APPLICATION CIRCUITS : 150mA : 1.6V～5.5V : 1.2V～3.6V (±2%) 0.05V increments : 190mV ＠IOUT=150mA (VOUT=3.3V) : 55μA / ch (TYP.) : 0.1μA : 75dB@1kHz : Active High CL High Speed Auto Discharge : Current Limit 250mA (TYP.) Short Circuit 50mA (TYP.) : 1.0μF Ceramic Capacitor : -40℃~+85℃ : SOT-26 USPN-6 USP-6B04 : EU RoHS Compliant, Pb Free 100 80 60 40 IOUT=0.1mA IOUT=1mA 20 IOUT=30mA IOUT=100mA 0 0.1 1 10 100 1000 Ripple Frequency : f (kHz) 1/26 XC6420 Series ■PIN CONFIGURATION ■PIN ASSIGNMENT PIN NUMBER SOT-26 USPN-6 USP-6B04 1 2 3 4 5 6 3 2 1 6 4 5 6 5 4 2 3 1 PIN NAME FUNCTIONS EN1 VIN EN2 VOUT2 VSS VOUT1 ON/OFF Control 1 Power Input ON/OFF Control 2 Output 2 Ground Output 1 ■PIN FUNCTION ASSIGNMENT PIN NAME SIGNAL STATUS L Stand-by EN H Active OPEN Stand-by ※ H = High Level 、 L = Low Level ※An internal pull-down resister maintains the EN pin voltage to be low. 2/27 XC6420 Series ■ PRODUCT CLASSIFICATION ●Ordering Information XC6420①②③④⑤⑥-⑦(*1) DESIGNATOR ITEM SYMBOL ①② Type AB ③④ Output Voltage 01～ See the chart below MR-G SOT-26 (3,000pcs/Reel) 7R-G USPN-6 (5,000pcs/Reel) DR-G USP-6B04 (5,000pcs/Reel) ⑤⑥-⑦ (*1) Packages (Order Unit) (*1) DESCRIPTION Refer to Selection Guide The “-G” suffix denotes Halogen and Antimony free as well as being fully EU RoHS compliant. Selection Guide TYPE CURRENT LIMITTER EN PULL-DOWN RESISTOR CL DISCHARGE AB Yes Yes Yes 3/27 XC6420 Series DESIGNATOR ③④ ③④ VR1(V) VR2(V) ③④ VR1(V) VR2(V) ③④ VR1(V) VR2(V) 01 1.20 1.20 34 2.80 3.00 67 2.75 2.75 02 1.20 1.50 35 2.80 3.30 68 2.50 1.80 03 1.20 2.50 36 1.20 3.60 69 1.80 1.35 04 1.20 2.85 37 3.60 1.20 70 1.30 2.30 05 1.20 3.00 38 1.20 2.80 71 3.10 1.80 06 1.20 3.30 39 3.30 2.00 72 3.00 2.60 07 1.50 1.50 40 3.00 3.30 73 1.80 2.90 08 1.50 1.80 41 3.30 3.30 74 3.30 2.20 09 1.50 2.50 42 1.30 1.50 75 1.20 1.40 10 1.50 2.85 43 2.60 2.80 76 1.90 3.00 11 1.50 3.00 44 3.10 3.30 77 2.00 2.70 12 1.50 3.30 45 1.50 2.60 78 2.80 1.80 13 1.80 1.80 46 2.60 3.30 14 1.80 2.50 47 3.40 3.40 15 2.85 2.85 48 2.85 2.60 16 1.80 2.85 49 3.30 1.80 17 1.80 3.00 50 1.80 1.20 18 3.00 1.80 51 3.10 3.10 19 1.80 3.30 52 1.50 3.10 20 2.50 2.50 53 3.30 2.80 21 2.50 2.80 54 3.00 2.80 22 2.50 2.85 55 3.30 3.00 23 3.30 1.50 56 3.60 3.60 24 2.50 3.00 57 3.30 3.10 25 2.50 3.30 58 3.10 3.00 26 2.85 3.00 59 3.10 2.90 27 2.85 3.30 60 3.10 2.50 28 3.00 3.00 61 3.00 2.90 29 1.20 1.80 62 3.00 2.50 30 1.30 2.80 63 1.80 1.90 31 1.50 2.80 64 1.80 1.85 32 1.80 2.80 65 1.70 1.70 33 2.80 2.80 66 2.70 2.70 For other output voltage combinations, please contact your local Torex sales office or representative. 4/27 XC6420 Series ■BLOCK DIAGRAMS * Diodes inside the circuits are ESD protection diodes and parasitic diodes. ■ABSOLUTE MAXIMUM RATINGS PARAMETER SYMBOL RATINGS UNITS Input Voltage VIN Vss-0.3～+7.0 V Output Current IOUT1+IOUT2 Output Voltage 1 / Output Voltage2 VOUT1 /VOUT2 VSS-0.3～VIN+0.3 V EN1/EN2 Input Voltage VEN1 /VEN2 VSS-0.3～+7.0 V USPN-6 mA 250 SOT-26 Power Dissipation 600 (*1) 600 (PCB mounted) (*2) Pd 100 mW 600 (PCB mounted) (*2) 600 (PCB mounted)(*2) USP-6B04 Operating Ambient Temperature Topr -40～+85 ℃ Storage Temperature Tstg -55～+125 ℃ (*1) Please use within the range of Pd > { (VIN-VOUT1)×IOUT1 + (VIN-VOUT2)×IOUT2 } (*2) This is a reference data taken by using the test board. Please refer to 22～24 for detail information of test condition. 5/27 XC6420 Series ■ELECTRICAL CHARACTERISTICS ●XC6420 series Ta=25℃ Regulator1, Regulator2 PARAMETER SYMBOL Output Voltage VOUT(E) (*2) CONDITIONS VEN =VIN, IOUT =10mA MIN. TYP. MAX. UNITS CIRCUITS VOUT(T) ×0.98 VOUT(T) (*4) VOUT(T) ×1.02 V ① (*3) Maximum Output Current IOUTMAX Load Regulation ∆VOUT Dropout Voltage Vdif Supply Current ISS Stand-by Current ISTB Line Regulation ∆VOUT/ (∆VIN・VOUT) VEN =VIN VEN =VIN 0.1mA≦IOUT≦150mA IOUT =150mA, VEN =VIN VEN =VIN IOUT =0mA (*3) 150 - - mA ① - 25 45 mV ① mV ① See “OUTPUT VOLTAGE CHART” - 55 105 μA ② VEN =VSS - 0.01 0.1 μA ② 2.5V≦VIN≦5.0V （V OUT(T)≦2.0V） VEN=VIN, IOUT =30mA VOUT(T)+0.5V≦VIN≦5.5V （V OUT(T)≧2.05V） VEN=VIN, IOUT =30mA - 0.02 0.1 %/V ① 1.6 - 5.5 V ① VEN =VIN, IOUT=10mA -40℃≦Ta≦85℃ - ±100 - ppm /℃ ① VEN =VIN VIN{VOUT(T)+1.0}+0.5Vp-pAC IOUT =30mA, f=1kHz - 75 - dB ③ Input Voltage VIN Output Voltage Temperature Characteristics (R&D Value) ∆VOUT/ (∆Topr・ VOUT) Power Supply Rejection Ratio PSRR Limit Current ILIM VEN =VIN 150 250 - mA ① Short Current ISHORT VEN =VIN VOUT=VSS - 50 - mA ① EN”H”Level Voltage VENH - 1.0 - 5.5 V ① - EN”L”Level Voltage VENL EN”H”Level Current IENH EN”L”Level Current IENL CL Discharge Resistor RDCHG - - - 0.3 V ① VEN =VIN =5.5V 2.5 6.0 9.1 μA ① VEN =VSS -0.1 - 0.1 μA ① - 300 - Ω ① VIN =5.5V, VEN =VSS V OUT =2.0V NOTE: Unless otherwise stated, VIN=VOUT(T) +1V, IOUT=1mA, CIN=CL=1.0μF. （*1）VOUT(E) : Effective output voltage （*2）Characteristics of the actual VOUT(E) by setting output voltage is shown in the voltage chart. （*3）VOUT(T): Nominal output voltage （*4）Vdif＝{VIN1－VOUT1} VIN1: The input voltage when VOUT1 appears as input voltage is gradually decreased. VOUT1: A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT{VOUT(T)+1.0V} is input. （*5）Each channel is measured when the other channel is turned off (VEN=VSS). 6/27 XC6420 Series ■OUTPUT VOLTAGE CHART NOMINAL OUTPUT VOLTAGE (V) VOUT(T) OUTPUT VOLTAGE (V) DROPOUT VOLTAGE (mV) VOUT(E) Vdif MIN. MAX. 1.200 1.176 1.224 1.250 1.225 1.275 1.300 1.274 1.326 1.350 1.323 1.377 1.400 1.372 1.428 1.450 1.421 1.479 1.500 1.470 1.530 1.550 1.519 1.600 NOMINAL OUTPUT VOLTAGE (V) VOUT(T) TYP. MAX. 560 710 530 600 OUTPUT VOLTAGE (V) DROPOUT VOLTAGE (mV) VOUT(E) Vdif MIN. MAX. TYP. MAX. 2.450 2.401 2.499 280 390 2.500 2.450 2.550 2.550 2.499 2.601 2.600 2.548 2.652 2.650 2.597 2.703 2.700 2.646 2.754 2.750 2.695 2.805 200 340 1.581 2.800 2.744 2.856 1.568 1.632 2.850 2.793 2.907 1.650 1.617 1.683 2.900 2.842 2.958 1.700 1.666 1.734 2.950 2.891 3.009 1.750 1.715 1.785 3.000 2.940 3.060 1.800 1.764 1.836 3.050 2.989 3.111 1.850 1.813 1.887 3.100 3.038 3.162 1.900 1.862 1.938 3.150 3.087 3.213 1.950 1.911 1.989 3.200 3.136 3.264 2.000 1.960 2.040 3.250 3.185 3.315 2.050 2.009 2.091 3.300 3.234 3.366 190 270 2.100 2.058 2.142 3.350 3.283 3.417 2.150 2.107 2.193 3.400 3.332 3.468 2.200 2.156 2.244 3.450 3.381 3.519 2.250 2.205 2.295 3.500 3.430 3.570 2.300 2.254 2.346 3.550 3.479 3.621 2.350 2.303 2.397 3.600 3.528 3.672 2.400 2.352 2.448 460 380 300 280 520 470 450 390 7/27 XC6420 Series ■OPERATIONAL EXPLANATION The voltage divided by resistors Rx1 & Rx2 is compared with the internal reference voltage by the error amplifier. The P-channel MOSFET connected to the VOUT pin is then driven by the subsequent output signal. The output voltage at the VOUT pin is controlled & stabilized by a system of negative feedback. The current limit circuit and short protect circuit operate in relation to the level of output current. Further, the IC's internal circuitry can be shutdown via the EN pin's signal. The XC6420 needs an output capacitor (CL) for phase compensation. In order to ensure the effectiveness of the phase compensation, we suggest that an output capacitor (CL) is connected as close as possible to the output pin (VOUT) and the VSS pin. Please use an output capacitor with a capacitance value of at least 1.0μF. Also, please place 1.0μF input capacitor CL between VIN and VSS pins for stabilizing input supply voltage. The XC6420 includes a combination of a fixed current limiter circuit & a foldback circuit, which aid the operations of the current limiter and circuit protection. When the load current reaches the current limit level, the fixed current limiter circuit operates and output voltage drops. As a result of this drop in output voltage, the foldback circuit operates, output voltage drops further and output current decreases. When the output pin is shorted, a current of about 50mA flows. The IC's internal circuitry can be shutdown via the signal from the EN pin with the XC6420 series. In shutdown mode, the series enables the electric charge at the output capacitor CL to be discharged via the internal switch between VOUT pin and VSS pin, and as a result the VOUT pin quickly returns to the VSS level. The EN pin is internally pulled down by a resistor. Please note that input current through a pull-down resistor exists. XC6420 series can quickly discharge the electric charge at the output capacitor (CL), when a low signal to the EN pin, which enables a whole IC circuit put into OFF state, is inputted via the N-channel transistor located between the VOUT pin and the VSS pin (cf. BLOCK DIAGRAM). The CL discharge resistance is set to 300Ω when VIN is 5.5V (TYP.) and VOUT is 2.0V (TYP.). Moreover, discharge time of the output capacitor (CL) is set by the CL auto-discharge resistance and the output capacitor (CL). By setting time constant of a CL auto-discharge resistance value [RDCHG] and an output capacitor value (CL) as τ(τ=C x R), the output voltage after discharge via the N channel transistor is calculated by the following formulas. V = VOUT(E) x e –t/τ, or t=τIn ( VOUT(E) / V ) V : Output voltage after discharge, VOUT(E) : Output voltage, t: Discharge time, τ: CL auto-discharge resistance RDCHG×Output capacitor (CL) value C 8/27 XC6420 Series ■NOTES ON USE 1． For temporary, transitional voltage drop or voltage rising phenomenon, the IC is liable to malfunction should the ratings be exceeded. 2. Torex places an importance on improving our products and its reliability. However, by any possibility, we would request user fail-safe design and post-aging treatment on system or equipment. 3. Where wiring impedance is high, operations may become unstable due to the noise and/or phase lag depending on output current. Please strengthen VIN and VSS wiring in particular. 4. Please wire the input capacitor (CIN) and the output capacitor (CL) as short and close to the IC as possible. 9/27 XC6420 Series ■TEST CIRCUITS ●Circuit ① VIN A EN1 IOUT1 CL =1uF (ceramic) A VOUT1 CIN =1uF (ceramic) V V IOUT2 A A VOUT2 EN2 VSS V CL=1uF (ceramic) ●Circuit ② VIN EN1 V VOUT1 CIN =1uF (ceramic) CL =1uF (ceramic) EN2 VOUT2 VSS CL =1uF (ceramic) A ●Circuit ③ CIN =1uF (ceramic) VIN EN1 VOUT1 IOUT1 CL=1uF (ceramic) A V V IOUT2 A VOUT2 EN2 VSS V CL =1uF (ceramic) 10/27 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS * EN Voltage condition: Unless otherwise stated, VEN=VIN. (1)　OutputVoltage vs. OutputCurrent XC6420(VOUT=1.2V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) VIN=2.2V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 1.4 1.2 1.0 0.8 0.6 Ta=85℃ 0.4 Ta=25℃ 0.2 1.4 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) XC6420(VOUT=1.2V) Ta=-40℃ 1.2 1.0 0.8 0.6 VIN=1.6V 0.4 VIN=2.2V VIN=2.7V 0.2 VIN=5.5V 0.0 0.0 0 50 100 150 200 250 300 OutputCurrent : IOUT (mA) 0 350 50 XC6420(VOUT=1.8V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 2.0 1.8 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 1.8 1.6 1.4 Ta=85℃ 1.2 Ta=25℃ 1.0 Ta=-40℃ 0.8 0.6 0.4 1.6 1.4 VIN=1.9V VIN=2.3V VIN=2.8V VIN=3.3V VIN=5.5V 1.2 1.0 0.8 0.6 0.4 0.2 0.2 0.0 0.0 0 50 100 150 200 250 300 OutputCurrent : IOUT (mA) 0 350 50 XC6420(VOUT=2.5V) Ta=85℃ Ta=25℃ 1.5 350 Ta=-40℃ 1.0 0.5 0.0 Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 3.0 OutputVoltage : VOUT (V) 2.5 2.0 100 150 200 250 300 OutputCurrent : IOUT (mA) XC6420(VOUT=2.5V) VIN=3.5V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 3.0 OutputVoltage : VOUT (V) 350 XC6420(VOUT=1.8V) VIN=2.8V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 2.0 100 150 200 250 300 OutputCurrent : IOUT (mA) 2.5 VIN=2.6V VIN=3V VIN=3.5V VIN=4V VIN=5.5V 2.0 1.5 1.0 0.5 0.0 0 50 100 150 200 250 300 OutputCurrent : IOUT (mA) 350 0 50 100 150 200 250 300 OutputCurrent : IOUT (mA) 350 11/27 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (1)　OutputVoltage vs. OutputCurrent XC6420(VOUT=3.6V) XC6420(VOUT=3.6V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) VIN=4.6V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 4.0 4.0 3.6 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 3.6 3.2 2.8 Ta=85℃ 2.4 Ta=25℃ 2.0 Ta=-40℃ 1.6 1.2 0.8 0.4 3.2 VIN=3.7V VIN=4.1V VIN=4.6V VIN=5.1V VIN=5.5V 2.8 2.4 2.0 1.6 1.2 0.8 0.4 0.0 0.0 0 50 100 150 200 250 300 OutputCurrent : IOUT (mA) 350 0 50 100 150 200 250 300 OutputCurrent : IOUT (mA) 350 (2)　OutputVoltage vs. InputVoltage XC6420(VOUT=1.2V) XC6420(VOUT=1.2V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 1.30 1.2 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 1.4 1.0 0.8 0.6 0.4 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 0.2 0.0 1.25 1.20 1.15 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 1.10 1.05 0.0 1.0 2.0 3.0 4.0 InputVoltage : VIN (V) 5.0 6.0 2.0 2.5 XC6420(VOUT=1.8V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 5.5 1.90 1.5 1.0 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 0.5 0.0 1.85 1.80 1.75 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 1.70 1.65 0.0 12/27 5.0 XC6420(VOUT=1.8V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 2.0 3.0 3.5 4.0 4.5 InputVoltage : VIN (V) 1.0 2.0 3.0 4.0 InputVoltage : VIN (V) 5.0 6.0 2.0 2.5 3.0 3.5 4.0 4.5 InputVoltage : VIN (V) 5.0 5.5 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (2)　OutputVoltage vs. InputVoltage XC6420(VOUT=2.5V) 3.0 Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 2.60 2.5 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) XC6420(VOUT=2.5V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 2.0 1.5 1.0 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 0.5 0.0 2.55 2.50 2.45 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 2.40 2.35 0.0 1.0 2.0 3.0 4.0 InputVoltage : VIN (V) 5.0 6.0 3.0 3.5 XC6420(VOUT=3.6V) 5.5 XC6420(VOUT=3.6V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 4.0 4.0 4.5 5.0 InputVoltage : VIN (V) Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 3.70 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 3.5 3.0 2.5 2.0 1.5 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 1.0 0.5 3.65 3.60 3.55 IOUT=1mA IOUT=10mA IOUT=30mA IOUT=100mA 3.50 3.45 0.0 0.0 1.0 2.0 3.0 4.0 InputVoltage : VIN (V) 5.0 4.0 6.0 4.5 5.0 InputVoltage : VIN (V) 5.5 (3)　DropoutVoltage vs. OutputCurrent XC6420(VOUT=1.2V) CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 0.8 0.7 0.6 0.5 ※ Below the minimum operating Voltage 0.4 0.3 0.2 Ta=85℃ Ta=25℃ 0.1 CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 0.5 Dropout Voltage : Vdif (V) Dropout Voltage : Vdif (V) XC6420(VOUT=1.8V) 0.4 0.3 0.2 Ta=85℃ 0.1 Ta=25℃ Ta=-40℃ 0.0 Ta=-40℃ 0.0 0 25 50 75 100 125 OutputCurrent : IOUT (mA) 150 0 25 50 75 100 125 OutputCurrent : IOUT (mA) 150 13/27 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (3)　DropoutVoltage vs. OutputCurrent XC6420(VOUT=2.5V) CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 0.5 Ta=85℃ 0.4 CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 0.5 Dropout Voltage : Vdif (V) Dropout Voltage : Vdif (V) XC6420(VOUT=3.6V) Ta=25℃ Ta=-40℃ 0.3 0.2 0.1 0.0 Ta=85℃ 0.4 Ta=25℃ Ta=-40℃ 0.3 0.2 0.1 0.0 0 25 50 75 100 125 OutputCurrent : IOUT (mA) 150 0 25 50 75 100 125 OutputCurrent : IOUT (mA) 150 (4)　SupplyCurrent vs. InputVoltage XC6420(VOUT=1.2V) CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 100 75 50 Ta=85℃ 25 Ta=25℃ CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 125 SupplyCurrent : ISS (μA) 125 SupplyCurrent : ISS (μA) XC6420(VOUT=1.8V) 100 75 50 Ta=85℃ 25 Ta=25℃ Ta=-40℃ Ta=-40℃ 0 0 0 1 2 3 4 InputVoltage : VIN (V) 5 0 6 1 XC6420(VOUT=2.5V) 75 50 Ta=85℃ Ta=25℃ 100 75 50 Ta=85℃ 25 Ta=25℃ Ta=-40℃ Ta=-40℃ 0 0 0 14/27 6 CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 125 SupplyCurrent : ISS (μA) SupplyCurrent : ISS (μA) 100 25 5 XC6420(VOUT=3.6V) CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 125 2 3 4 InputVoltage : VIN (V) 1 2 3 4 InputVoltage : VIN (V) 5 6 0 1 2 3 4 InputVoltage : VIN (V) 5 6 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (5)　OutputVoltage vs. AmbientTemperature XC6420(VOUT=1.2V) VIN=2.2V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 1.25 1.20 IOUT=1mA 1.15 1.90 OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 1.30 XC6420(VOUT=1.8V) IOUT=10mA IOUT=30mA VIN=2.8V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 1.85 1.80 IOUT=1mA 1.75 IOUT=10mA IOUT=30mA IOUT=100mA IOUT=100mA 1.10 -50 -25 0 25 50 75 AmbientTemperature : Ta (℃) 1.70 -50 100 XC6420(VOUT=2.5V) VIN=3.5V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 2.55 2.50 IOUT=1mA 2.45 IOUT=10mA IOUT=30mA 3.70 VIN=4.6V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 3.65 3.60 IOUT=1mA 3.55 IOUT=10mA IOUT=30mA IOUT=100mA 2.40 -50 -25 0 25 50 75 AmbientTemperature : Ta (℃) IOUT=100mA 3.50 -50 100 (6)　SupplyCurrent vs. AmbientTemperature 60 50 10 -50 VOUT=1.2V VOUT=1.8V VOUT=2.5V VOUT=3.6V -25 0 25 50 75 AmbientTemperature : Ta (℃) 1.2 EN Threshold Voltage : VEN (V) SupplyCurrent : ISS (μA) 70 20 CIN=1.0μF(ceramic), CL=1.0μF(ceramic) VIN=VOUT+1.0V, CIN=1.0μF(ceramic), CL=1.0μF(ceramic) 80 30 100 XC6420 90 40 -25 0 25 50 75 AmbientTemperature : Ta (℃) (7)　EN Threshold Voltage vs. AmbientTemperature XC6420 100 100 XC6420(VOUT=3.6V) OutputVoltage : VOUT (V) OutputVoltage : VOUT (V) 2.60 -25 0 25 50 75 AmbientTemperature : Ta (℃) 100 1.0 0.8 0.6 0.4 EN"H"LEVEL 0.2 0.0 -50 EN"L"LEVEL -25 0 25 50 75 AmbientTemperature : Ta (℃) 100 15/27 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (8)　Rising Response Time XC6420(VOUT=1.8V) VIN=0V→2.2V, tr=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) VIN=0V→2.8V, tr=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 3.0 3.0 IOUT=1mA 1.0 IOUT=30mA 2.5 2.0 IOUT=100mA 0.0 1.5 Output Voltage -1.0 1.0 -2.0 0.5 2.0 Input Voltage : VIN (V) IOUT=0.1mA Output Voltage : VOUT (V) Input Voltage : VIN (V) 2.0 3.0 Input Voltage Input Voltage 1.0 2.5 2.0 Output Voltage 0.0 1.5 -1.0 IOUT=0.1mA 1.0 IOUT=1mA -2.0 IOUT=30mA 0.5 Output Voltage : VOUT (V) 3.0 XC6420(VOUT=1.2V) IOUT=100mA -3.0 6.0 -3.0 0.0 0.0 Time (40μs/div) Time (40μs/div) XC6420(VOUT=2.5V) XC6420(VOUT=3.6V) VIN=0V→3.5V, tr=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 6.0 6.0 VIN=0V→4.6V, tr=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 6.0 IOUT=0.1mA 2.0 IOUT=1mA 4.0 IOUT=30mA 0.0 IOUT=100mA Output Voltage 3.0 -2.0 2.0 -4.0 1.0 4.0 2.0 5.0 4.0 Output Voltage 0.0 3.0 -2.0 IOUT=0.1mA 2.0 IOUT=1mA -4.0 IOUT=30mA 1.0 Output Voltage : VOUT (V) 5.0 Input Voltage Input Voltage : VIN (V) Input Voltage : VIN (V) 4.0 Output Voltage : VOUT (V) Input Voltage IOUT=100mA -6.0 -6.0 0.0 0.0 Time (40μs/div) Time (40μs/div) (9)　Input Transient Response XC6420(VOUT=1.2V) XC6420(VOUT=1.8V) 1.35 4.8 1.30 3.8 1.25 Output Voltage 1.2 1.20 0.2 1.15 IOUT=0.1mA IOUT=1mA 1.10 Input Voltage : VIN (V) Input Voltage : VIN (V) 2.2 -0.8 IOUT=100mA Time (100μs/div) 16/27 1.05 1.90 2.8 1.85 Output Voltage 1.8 1.80 0.8 1.75 IOUT=0.1mA -0.2 IOUT=30mA -1.8 1.95 Input Voltage 3.2 Output Voltage : VOUT (V) Input Voltage VIN=2.8V⇔3.8V, tr=tf=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) -1.2 IOUT=1mA IOUT=30mA IOUT=100mA Time (100μs/div) 1.70 1.65 Output Voltage : VOUT (V) 4.2 VIN=2.2V⇔3.2V, tr=tf=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (9)　Input Transient Response XC6420(VOUT=2.5V) 6.5 2.65 2.60 3.5 2.55 Output Voltage 2.5 2.50 1.5 2.45 IOUT=0.1mA IOUT=1mA 2.40 5.5 Input Voltage : VIN (V) Input Voltage : VIN (V) 4.5 0.5 3.70 4.5 3.65 Output Voltage 3.5 3.60 2.5 3.55 IOUT=0.1mA IOUT=1mA 1.5 IOUT=30mA IOUT=30mA IOUT=100mA -0.5 3.75 Input Voltage Output Voltage : VOUT (V) Input Voltage VIN=4.6V⇔5.5V, tr=tf=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) IOUT=100mA 0.5 2.35 Time (100μs/div) 3.50 Output Voltage : VOUT (V) 5.5 XC6420(VOUT=3.6V) VIN=3.5V⇔4.5V, tr=tf=5μS, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 3.45 Time (100μs/div) (10)　Load Transient Response 400 Output Voltage 1.20 300 1.15 200 Output Current 100mA 100 1.25 600 Output Voltage 1.20 450 1.15 300 Output Current 150mA 1.10 1mA 1.05 XC6420(VOUT=1.8V) 300 1.75 200 Output Current 100mA 100 Output Voltage : VOUT (V) 400 Output Voltage 1.80 1.90 500 Output Current : IOUT (mA) Output Voltage : VOUT (V) XC6420(VOUT=1.8V) 1.85 750 600 Output Voltage 1.80 450 1.75 300 Output Current 1.70 150mA 150 0.1mA 0 Time (20μs/div) IOUT=0.1mA⇔150mA, tr=tf=0.5μS, Ta=25℃ VIN=2.8V, CIN=CL=1.0μF(ceramic) 1.85 1mA 1.65 0 Time (100μs/div) IOUT=1mA⇔100mA, tr=tf=0.5μS, Ta=25℃ VIN=2.8V, CIN=CL=1.0μF(ceramic) 1.70 150 0.1mA 1.05 0 Time (20μs/div) 1.90 750 Output Current : IOUT (mA) 1.10 1.30 Output Voltage : VOUT (V) 1.25 500 Output Current : IOUT (mA) Output Voltage : VOUT (V) 1.30 XC6420(VOUT=1.2V) IOUT=0.1mA⇔150mA, tr=tf=0.5μS, Ta=25℃ VIN=2.2V, CIN=CL=1.0μF(ceramic) Output Current : IOUT (mA) XC6420(VOUT=1.2V) IOUT=1mA⇔100mA, tr=tf=0.5μS, Ta=25℃ VIN=2.2V, CIN=CL=1.0μF(ceramic) 1.65 0 Time (100μs/div) 17/27 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (10)　Load Transient Response 400 Output Voltage 2.50 300 2.45 200 Output Current 100mA 100 2.55 600 Output Voltage 2.50 450 2.45 300 Output Current 150mA 2.40 1mA 2.35 XC6420(VOUT=3.6V) XC6420(VOUT=3.6V) 400 Output Voltage 3.60 300 3.55 200 Output Current 100mA 100 3.70 Output Voltage : VOUT (V) 3.65 500 Output Current : IOUT (mA) Output Voltage : VOUT (V) 0 Time (100μs/div) IOUT=1mA⇔100mA, tr=tf=0.5μS, Ta=25℃ VIN=4.6V, CIN=CL=1.0μF(ceramic) 3.50 150 0.1mA 2.35 0 Time (20μs/div) 3.70 750 3.65 750 600 Output Voltage 3.60 450 3.55 300 Output Current 3.50 1mA 3.45 IOUT=0.1mA⇔150mA, tr=tf=0.5μS, Ta=25℃ VIN=4.6V, CIN=CL=1.0μF(ceramic) 150mA 150 Output Current : IOUT (mA) 2.40 Output Voltage : VOUT (V) 2.55 2.60 500 Output Current : IOUT (mA) Output Voltage : VOUT (V) 2.60 XC6420(VOUT=2.5V) IOUT=0.1mA⇔150mA, tr=tf=0.5μS, Ta=25℃ VIN=3.5V, CIN=CL=1.0μF(ceramic) Output Current : IOUT (mA) XC6420(VOUT=2.5V) IOUT=1mA⇔100mA, tr=tf=0.5μS, Ta=25℃ VIN=3.5V, CIN=CL=1.0μF(ceramic) 0.1mA 3.45 0 Time (20μs/div) 0 Time (100μs/div) (11)　EN Rising Respose Time XC6420(VOUT=1.2V) 3.0 3.0 IOUT=0.1mA IOUT=1mA 1.0 IOUT=30mA 2.5 2.0 IOUT=100mA 0.0 Output Voltage -1.0 1.5 1.0 -2.0 0.5 EN Input Voltage : VEN (V) 2.0 3.0 EN Input Voltage Output Voltage : VOUT (V) EN Input Voltage : VEN (V) EN Input Voltage VEN=0V→2.8V, tr=5μS, Ta=25℃ VIN=2.8V, CIN=CL=1.0μF(ceramic) 2.0 1.0 2.5 2.0 Output Voltage 0.0 1.5 -1.0 1.0 IOUT=0.1mA IOUT=1mA -2.0 0.5 IOUT=30mA -3.0 0.0 Time (40μs/div) 18/27 IOUT=100mA -3.0 Time (40μs/div) 0.0 Output Voltage : VOUT (V) 3.0 XC6420(VOUT=1.8V) VEN=0V→2.2V, tr=5μS, Ta=25℃ VIN=2.2V, CIN=CL=1.0μF(ceramic) XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (11)　EN Rising Respose Time XC6420(VOUT=2.5V) XC6420(VOUT=3.6V) VEN=0V→3.5V, tr=5μS, Ta=25℃ VIN=3.5V, CIN=CL=1.0μF(ceramic) 6.0 6.0 VEN=0V→4.6V, tr=5μS, Ta=25℃ VIN=4.6V, CIN=CL=1.0μF(ceramic) 6.0 6.0 2.0 4.0 IOUT=1mA IOUT=30mA IOUT=100mA 0.0 Output Voltage 3.0 2.0 -2.0 1.0 -4.0 5.0 4.0 2.0 4.0 Output Voltage 3.0 0.0 2.0 -2.0 IOUT=0.1mA IOUT=1mA -4.0 1.0 Output Voltage : VOUT (V) 5.0 IOUT=0.1mA EN Input Voltage : VEN (V) EN Input Voltage 4.0 Output Voltage : VOUT (V) EN Input Voltage : VEN (V) EN Input Voltage IOUT=30mA 0.0 -6.0 IOUT=100mA -6.0 Time (40μs/div) 0.0 Time (40μs/div) (12)　Ripple Rejection ( ) XC6420(VOUT=1.2V) ( ) XC6420(VOUT=1.8V) VIN=3.0V+0.5Vp-pAC, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 100 Ripple Rejection Rate : RR (dB) Ripple Rejection Rate : RR (dB) VIN=3.0V+0.5Vp-pAC, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 80 60 40 IOUT=0.1mA IOUT=1mA IOUT=30mA 20 IOUT=100mA 0 0.1 1 10 100 Ripple Frequency : f (kHz) 100 80 60 40 IOUT=0.1mA IOUT=1mA 20 IOUT=30mA IOUT=100mA 0 0.1 1000 XC6420(VOUT=2.5V) 80 60 IOUT=0.1mA IOUT=1mA IOUT=30mA IOUT=100mA 0 0.1 1 10 100 Ripple Frequency : f (kHz) VIN=4.6V+0.5Vp-pAC, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) Ripple Rejection Rate : RR (dB) Ripple Rejection Rate : RR (dB) 100 20 1000 XC6420(VOUT=3.6V) VIN=3.5V+0.5Vp-pAC, Ta=25℃ CIN=0.1μF(ceramic), CL=1.0μF(ceramic) 40 1 10 100 Ripple Frequency : f (kHz) 1000 100 80 60 40 IOUT=0.1mA IOUT=1mA 20 IOUT=30mA IOUT=100mA 0 0.1 1 10 100 Ripple Frequency : f (kHz) 1000 19/27 XC6420 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (13)　Cross Talk 1.25 400 Output Voltage(VR2 : 30mA) 1.20 300 Output Current （VR1 : 1mA⇔150mA) 1.15 200 1.10 100 1.05 3.40 500 0 Output Voltage(VR2) : VOUT(V) IOUT1=1mA⇔150mA, IOUT2=30mA, tr=tf=5μS, Ta=25℃ VIN=2.2V, CIN=CL1=CL2=1.0μF(ceramic) Output Current(VR1) : IOUT(mA) Output Voltage(VR2) : VOUT(V) 1.30 XC6420(VOUT1=3.3V, VOUT2=3.3V) IOUT1=1mA⇔150mA, IOUT2=30mA, tr=tf=5μS, Ta=25℃ VIN=4.6V, CIN=CL1=CL2=1.0μF(ceramic) 3.35 500 400 Output Voltage(VR2 : 30mA) 3.30 300 Output Current （VR1 : 1mA⇔150mA) 3.25 200 3.20 100 3.15 Output Current(VR1) : IOUT(mA) XC6420(VOUT1=1.2V, VOUT2=1.2V) 0 Time (200μs/div) Time (200μs/div) (14)　Output Noise Density XC6420(VOUT=1.8V) 100 Frequency-Range ： 0.1～100kHz Output Noise ： 35.14μVrms 10 IOUT=30mA 1 0.1 0.01 0.1 1 10 Frequency : f (kHz) 100 Output Noise Density : (μV/√Hz) XC6420(VOUT=3.3V) VIN=5.0V, Ta=25℃ CIN=CL=1.0μF(ceramic) 100 Frequency-Range ： 0.1～100kHz Output Noise ： 83.87μVrms 10 IOUT=30mA 1 0.1 0.01 0.1 20/27 VIN=2.8, Ta=25℃ CIN=CL=1.0μF(ceramic) VIN=2.2V, Ta=25℃ CIN=CL=1.0μF(ceramic) Output Noise Density : (μV/√Hz) Output Noise Density : (μV/√Hz) XC6420(VOUT=1.2V) 1 10 Frequency : f (kHz) 100 100 Frequency-Range ： 0.1～100kHz Output Noise ： 50.66μVrms 10 IOUT=30mA 1 0.1 0.01 0.1 1 10 Frequency : f (kHz) 100 XC6420 Series ■PACKAGING INFORMATION ●SOT-26 ●USPN-6 Reference Pattern Layout 0.2 0.25 6 5 4 0.65 0.25 0.25 75 .0 C0 1 0.15 0.45 2 0.45 3 0.15 ●USPN-6 Reference Metal Mask Design 0.2 0.2 6 5 4 0.5 0.2 C0 .0 0.4 ●USPN-6 5 0.1 1 0.45 2 0.45 3 0.1 21/27 XC6420 Series ■PACKAGING INFORMATION (Continued) ●USP-6B04 Reference Pattern Layout ●USP-6B04 Reference Metal Mask Design 22/27 0.94 0.4 0.18 ●USP-6B04 XC6420 Series ■PACKAGING INFORMATION (Continued) ● SOT-26 Power Dissipation Power dissipation data for the SOT-26 is shown in this page. The value of power dissipation varies with the mount board conditions. Please use this data as the reference data taken in the following condition. て 1. Measurement Condition Condition: Mount on a board Ambient: Natural convection Soldering: Lead (Pb) free Board: Dimensions 40 x 40 mm (1600 mm2 in one side) Copper (Cu) traces occupy 50% of the board area In top and back faces Package heat-sink is tied to the copper traces Material: Glass Epoxy (FR-4) Thickness: 1.6 mm Through-hole: 4 x 0.8 Diameter Evaluation Board (Unit: mm) Power Dissipation vs. Ambient Temperature Board Mount (Tj max = 125℃) Ambient Temperature（℃） Power Dissipation Pd（mW） 25 600 85 240 Thermal Resistance (℃/W) 166.67 Pd-Ta特性グラフ Pd vs. Ta Power Dissipation: Pd (mW) 許容損失Pd（mW） 2. 700 600 500 400 300 200 100 0 25 45 65 85 周囲温度Ta（℃） Ambient Temperature: Ta (℃) 105 125 23/27 XC6420 Series ■PACKAGING INFORMATION (Continued) ● USPN-6 Power Dissipation Power dissipation data for the USPN-6 is shown in this page. The value of power dissipation varies with the mount board conditions. Please use this data as the reference data taken in the following condition.. 1. Measurement Condition Condition: Mount on a board Ambient: Natural convection Soldering: Lead (Pb) free Board: 40 x 40 mm (1600 mm2) 4 Copper Layers Each layer is connected to the package heat-sink and terminal pin No.1. Each layer has approximately 800mm2 copper area. Material: Glass Epoxy (FR-4) Thickness: 1.6 mm Through-hole: 4 x 0.8 Diameter Evaluation Board (Unit: mm) 2. Power Dissipation vs. Ambient Temperature Board Mount (Tj max = 125℃) Ambient Temperature（℃） Power Dissipation Pd（mW） 25 600 85 240 Thermal Resistance (℃/W) 166.67 Power Dissipation Pd（mW） Pd vs Ta 700 600 500 400 300 200 100 0 25 24/27 45 65 85 105 Ambient TemperatureTa（℃） 125 XC6420 Series ■PACKAGING INFORMATION (Continued) ● USP-6B04 Power Dissipation Power dissipation data for the USP-6B04 is shown in this page. The value of power dissipation varies with the mount board conditions. Please use this data as the reference data taken in the following condition. 1. Measurement Condition Condition: Mount on a board Ambient: Natural convection Soldering: Lead (Pb) free Board Dimensions: 40mm×40mm（1600mm2 in one side） 1st Inner Metal Layer about 50% 2nd Inner Metal Layer about 50% 3rd Inner Metal Layer about 50% 4th Inner Metal Layer about 50% Each heat sink back metal is connected to the Inner layers respectively. Material: Glass Epoxy (FR-4) Thickness: 1.0 mm Through-hole: 4 x 0.4 Diameter Evaluation Board (Unit: mm) Power Dissipation vs. Ambient Temperature Board Mount (Tj max = 125℃) Ambient Temperature（℃） Power Dissipation Pd（mW） 25 600 85 240 Thermal Resistance (℃/W) 166.67 Pd vs Ta Power Dissipation Pd（mW） 2. 700 600 500 400 300 200 100 0 25 45 65 85 105 Ambient TemperatureTa（℃） 125 25/27 XC6420 Series ■MARKING RULE ●SOT-26 6 5 4 ① represents product series MARK PRODUCT SERIES 2 XC6420******-G ① 1 ② ③ 2 ④ ⑤ 3 SOT-26 (TOP VIEW) ②③ represents output voltage ex.) MARK ② ③ 0 1 PRODUCT SERIES XC6420**01**-G ④⑤ represents production lot number. 01 to 09, 0A to 0Z, 11 to 9Z, A1 to A9, AA to Z9, ZA to ZZ in order. (G, I, J, O, Q, W excepted) *No character inversion used. ●USPN-6/USP-6B04 ①② represents internal sequential number 1 ② 26/27 ① ③④ represents production lot number. 01 to 09, 0A to 0Z, 11 to 9Z, A1 to A9, AA to Z9, ZA to ZZ in order. (G, I, J, O, Q, W excepted) *No character inversion used. ④ 3 ③ 2 6 5 4 USPN-6 USPN-6/USP-6B04 (TOPVIEW) VIEW) (TOP XC6420 Series 1. The product and product specifications contained herein are subject to change without notice to improve performance characteristics. Consult us, or our representatives before use, to confirm that the information in this datasheet is up to date. 2. The information in this datasheet is intended to illustrate the operation and characteristics of our products. We neither make warranties or representations with respect to the accuracy or completeness of the information contained in this datasheet nor grant any license to any intellectual property rights of ours or any third party concerning with the information in this datasheet. 3. Applicable export control laws and regulations should be complied and the procedures required by such laws and regulations should also be followed, when the product or any information contained in this datasheet is exported. 4. The product is neither intended nor warranted for use in equipment of systems which require extremely high levels of quality and/or reliability and/or a malfunction or failure which may cause loss of human life, bodily injury, serious property damage including but not limited to devices or equipment used in 1) nuclear facilities, 2) aerospace industry, 3) medical facilities, 4) automobile industry and other transportation industry and 5) safety devices and safety equipment to control combustions and explosions. Do not use the product for the above use unless agreed by us in writing in advance. 5. Although we make continuous efforts to improve the quality and reliability of our products; nevertheless Semiconductors are likely to fail with a certain probability. So in order to prevent personal injury and/or property damage resulting from such failure, customers are required to incorporate adequate safety measures in their designs, such as system fail safes, redundancy and fire prevention features. 6. Our products are not designed to be Radiation-resistant. 7. Please use the product listed in this datasheet within the specified ranges. 8. We assume no responsibility for damage or loss due to abnormal use. 9. All rights reserved. No part of this datasheet may be copied or reproduced unless agreed by Torex Semiconductor Ltd in writing in advance. TOREX SEMICONDUCTOR LTD. 27/27