XC6219A332MR

XC6219 Series ETR0307_010a 300mA High Speed LDO Regulators with ON/OFF Switch ■GENERAL DESCRIPTION The XC6219 series are highly accurate, low noise, CMOS LDO Voltage Regulators. Offering low output noise, high ripple rejection ratio, low dropout and very fast turn-on times, the XC6219 series is ideal for today’s cutting edge mobile phone. Internally the XC6219/XC6211 includes a reference voltage source, error amplifiers, driver transistors, current limiters and phase compensators. The XC6219/XC6211’s current limiters' foldback circuit also operates as a short protect for the output current limiter and. the output pin. The output voltage is set by laser trimming. Voltages are selectable in 50mV steps within a range of 0.9V to 5.0V. The XC6219 series is also fully compatible with low ESR ceramic capacitors, reducing cost and improving output stability. This high level of output stability is maintained even during frequent load fluctuations, due to the excellent transient response performance and high PSRR achieved across a broad range of frequencies. The CE function allows the output of regulator to be turned off, resulting in greatly reduced power consumption. ■FEATURES ■APPLICATIONS Maximum Output Current : 150mA (VOUT1.8V, A~D type) 300mA (VOUT>1.3V, E~H type) Dropout Voltage : 200mV @ 100mA Operating Voltage Range : 2.0V ~ 6.0V Output Voltage Range : 0.9V ~ 5.0V (0.05V steps) Highly Accuracy : +2% (VOUT>1.5V) +30mV (VOUT≦1.5V) +1% (VOUT≧3.0V) Low Power Consumption : 25μA (TYP.) Standby Current : Less than 0.1μA (TYP.) High Ripple Rejection : 65dB @10kHz Operating Ambient Temperature : -40℃ ~ 85℃ : Ceramic capacitor compatible Low ESR Capacitor : SOT-25 Ultra Small Packages SOT-89-5 USP-6B Environmentally Friendly : EU RoHS Compliant, Pb Free ●Smart phones / Mobile phones ●Portable games ●Digital still cameras / Camcorders ●Reference voltage sources ●Multi-function power supplies ■TYPICAL APPLICATION CIRCUIT ●XC6219 series ■TYPICAL PERFORMANCE CHARACTERISTICS ●Ripple Rejection Rate XC6219x302 1 VIN 2 VSS 3 CE VOUT VIN=4.0V, DC+1Vp-pAC IOUT=50mA, CL=1uF (ceramic) 5 CL 1μF NC 4 CIN 1μF SOT-25 1/29 XC6219 Series ■PIN CONFIGURATION VOUT NC 5 4 1 2 3 VIN VSS CE VOUT VSS VIN 5 2 4 CE 6 1 VIN VSS 5 2 NC 1 2 3 NC VSS CE SOT-25 (TOP VIEW) * The dissipation pad for the USP-6B package should be solder-plated in recommended mount pattern and metal masking so as to enhance mounting strength and hear release. If the pad needs to be connected to other pins, it should be connected to the VSS pin. 3 VOUT NC 4 SOT-89-5 USP-6B (TOP VIEW) (BOTTOM VIEW) ■PIN ASSIGNMENT SOT-25 1 2 3 4 5 PIN NUMBER SOT-89-5 4 2 3 1 5 USP-6B 1 5 6 2, 4 3 PIN NAME FUNCTIONS VIN VSS CE NC VOUT Power Input Ground ON / OFF Control No Connection Output ■FUNCTION TYPE A,E PIN NAME CE TYPE B,F SIGNAL STATUS L Stand-by H Active OPEN Stand-by TYPE C,G PIN NAME CE PIN NAME CE SIGNAL STATUS L Stand-by H Active OPEN Undefined state SIGNAL STATUS L Active H Stand-by OPEN Undefined state TYPE D,H SIGNAL STATUS L Active H Stand-by OPEN Stand-by PIN NAME CE *If XC6219 B,D,F,H types are used with the CE pin opened, the IC goes into “Undefined state”. The CE pin voltage should be fixed in low or high for stable operation. 2/29 XC6219 Series ■PRODUCT CLASSIFICATION ●Ordering Information XC6219 ①②③④⑤⑥-⑦(*1) DESIGNATOR ITEM SYMBOL ① CE Pin Logic A B C D E F G H ②③ Output Voltage 09～50 2(*3) 1(*2) ④ Output Voltage Accuracy A(*3) B(*2) ⑤⑥-⑦ (*1) (*2) (*3) Packages (Order Unit) MR-G PR-G DR-G DESCRIPTION 150mA, Active high, pull-down resistor built in (Semi-custom) 150mA, Active high , no pull-down resistor built in (Standard) 150mA, Active low, pull-up resistor built in (Semi-custom) 150mA, Active low, no pull-up resistor built in (Semi-custom) 300mA, Active high, pull-down resistor built in (Semi-custom) 300mA, Active high, no pull-down resistor built in (Standard) 300mA, Active low, pull-up resistor built in (Semi-custom) 300mA, Active low, no pull-up resistor built in (Semi-custom) e.g. ②=3, ③=0, → 3.0V 0.1V increments, ±2% accuracy e.g. ②=2, ③=8, ④=2 → 2.80V, ±2% 0.1V increments, ±1% accuracy e.g. ②=3, ③=0, ④=1 → 3.00V, ±1% 0.05V increments, ±2% accuracy e.g. ②=2, ③=8, ④=A → 2.85V, ±2% 0.05V increments, ±1% accuracy e.g. ②=3, ③=0, ④=B → 3.05V, ±1% SOT-25 (3,000/Reel) SOT-89-5 (1,000/Reel) USP-6B (3,000/Reel) The “-G” suffix denotes Halogen and Antimony free as well as being fully EU RoHS compliant. Output voltage of the ±1% accuracy product is 3.0V or more. Output voltage accuracy of the VOUT≦1.5V is ±30mV. 3/29 XC6219 Series ■BLOCK DIAGRAM XC6219 series Type B,D,F,H XC6219 series Type A,E XC6219 series Type C,G *Diode inside the circuit are an ESD protection diode and a parasitic diode. ■ABSOLUTE MAXIMUM RATINGS Ta=25℃ PARAMETER SYMBOL RATINGS UNITS Input Voltage Output Current Output Voltage CE Pin Voltage VIN IOUT VOUT VCE 7 500(*1) VSS - 0.3 ~ VIN + 0.3 VSS - 0.3 ~ VIN + 0.3 250 600 (PCB mounted)(*2) 500 1300 (PCB mounted)(*2) 120 1000 (PCB mounted)(*2) - 40 ~ + 85 - 55 ~ + 125 V mA V V SOT-25 Power Dissipation SOT-89 Pd USP-6B Operating Ambient Temperature Storage Temperature Topr Tstg mW ℃ ℃ All voltages are described based on the VSS pin. (*1) IOUT≦Pd/（VIN-VOUT） (*2) The power dissipation figure shown is PCB mounted and is for reference only. Please refer to page 24~26 for details. 4/29 XC6219 Series ■ELECTRICAL CHARACTERISTICS ●XC6219 Type A,B PARAMETER Ta=25℃ SYMBOL CONDITIONS (2%) Output Voltage (*6) MIN. VOUT(T)(*2) Output Voltage (*5) VOUT(E) (*3) IOUT=30mA ×0.98 VOUT(T)(*2) (1%) Maximum Output Current Load Regulation Dropout Voltage (*4) ×0.99 Supply Current ×1.02 VOUT(T)(*2) VOUT(T)(*2) - - 1.8V≦VOUT(T)≦5.0V 240 - - ∆VOUT 1mA≦IOUT≦100mA - 15 50 Vdif1 IOUT=30mA - E-1 Vdif2 IOUT=100mA - E-2 IOUTMAX IDD VCE=VIN=VOUT(T)+1.0V VOUT≦0.95V, VIN=VCE=2.0V ISTB VIN=VOUT(T)+1.0V、VCE=VSS VOUT≦0.95V, VIN=2.0V UNITS CIRCUIT V ① mA ① mV ① mV ① μA ② ×1.01 150 (Type B) Stand-by Current MAX. VOUT(T)(*2) VOUT(T)(*2) 0.9V≦VOUT(T)≦1.75V Supply Current (Type A) TYP. - 28 55 - 25 50 - 0.01 0.10 μA ② - 0.01 0.20 %/V ① 2 - 6 V - - ±100 - ppm/℃ ① - E-3 - dB ④ - 300 mA ① mA ① VOUT(T)+1.0V≦VIN≦6.0Ｖ Line Regulation ∆VOUT/ (∆VIN・VOUT) VOUT≦0.95V, 2.0V≦VIN≦6.0V IOUT=30mA VOUT≦1.75V, IOUT=10mA Input Voltage Output Voltage Temperature Characteristics Power Supply Rejection Ratio VIN ∆VOUT/ (∆Topr・VOUT) IOUT=30mA -40℃≦Topr≦85℃ VIN=[VOUT(T)+1.0]V+1.0Vp-pAC PSRR VOUT≦1.5, VIN=2.5V+1.0Vp-pAC IOUT=50mA、f=10kHz VIN=VOUT(T)+2.0V、VCE=VIN Current Limiter Ilim 0.9V≦VOUT(T)≦1.75V VIN=VOUT(T)+1.0V、VCE=VIN 1.8V≦VOUT(T)≦5.0V VIN=VOUT(T)+1.0V、 VCE=VIN 240 300 - - 50 - Short Circuit Current ISHORT CE ‘High’ Level Voltage VCEH - 1.6 - VIN V ① CE ‘Low’ Level Voltage VCEL - - - 0.25 V ① -0.10 - 5.0 μA ② μA ② VOUT≦1.75V, VIN=VOUT(T)+2.0V CE ‘High’ Level Current (Type A) CE ‘High’ Level Current ICEH VIN=VCE=VOUT(T)+1.0V VOUT≦0.95V, VIN=VCE=2.0V (Type B) CE ‘Low’ Level Current ICEL VIN=VOUT(T)+1.0V、VCE=VSS VOUT≦0.95V, VIN=2.0V -0.10 - 0.10 -0.10 - 0.10 (*1) Unless otherwise stated, VIN=VOUT(T)+1.0V. If VOUT is less than 0.95V, VIN= 2.0V. (*2) VOUT(T) = Specified output voltage (*3) VOUT(E) = Effective output voltage The output voltage when "VOUT(T)+1.0V" is provided at the VIN pin while maintaining a certain IOUT value. (*4) Vdif={VIN1-VOUT1 } VOUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input. VIN1=The Input Voltage when VOUT1 appears as Input Voltage is gradually decreased. （*5）If VOUT(T) is less than 1.45V, VOUT(T) -30mV (MIN.), VOUT(T) + 30mV (MAX.) （*6）Only for the VOUT(T) is more than 3.0V products. 5/29 XC6219 Series ■ELECTRICAL CHARACTERISTICS ●XC6219 Type C,D PARAMETER Ta=25℃ SYMBOL CONDITIONS (2%) Output Voltage (*6) VOUT(E) (*3) IOUT=30mA (1%) Maximum Output Current Load Regulation Dropout Voltage (*4) Supply Current ×0.99 MAX. UNITS CIRCUIT V ① mA ① mV ① mV ① μA ② VOUT(T)(*2) VOUT(T)(*2) ×1.02 VOUT(T)(*2) VOUT(T)(*2) ×1.01 150 - - 1.8V≦VOUT(T)≦5.0V 240 - - ∆VOUT 1mA≦IOUT≦100mA - 15 50 Vdif1 IOUT=30mA - E-1 Vdif2 IOUT=100mA - E-2 VIN=VOUT(T)+1.0V - 28 55 - 25 50 - 0.01 0.10 μA ② - 0.01 0.20 %/V ① 2 - 6 V - - ±100 - ppm/℃ ① - E-3 - dB ④ - 300 mA ① mA ① IOUTMAX IDD VOUT≦0.95V, VIN=2.0V VCE=VSS (Type D) Stand-by Current ×0.98 VOUT(T)(*2) TYP. 0.9V≦VOUT(T)≦1.75V Supply Current (Type C) MIN. VOUT(T)(*2) Output Voltage (*5) ISTB VIN=VOUT(T)+1.0V、VCE=VIN VOUT≦0.95V, VIN=VCE=2.0V VOUT(T)+1.0V≦VIN≦6.0Ｖ Line Regulation ∆VOUT/ (∆VIN・VOUT) VOUT≦0.95V, 2.0V≦VIN≦6.0V IOUT=30mA VOUT≦1.75V, IOUT=10mA Input Voltage Output Voltage Temperature Characteristics Power Supply Rejection Ratio VIN ∆VOUT/ (∆Topr・VOUT) IOUT=30mA -40℃≦Topr≦85℃ VIN=[VOUT(T)+1.0]V+1.0Vp-pAC PSRR VOUT≦1.5, VIN=2.5V+1.0Vp-pAC IOUT=50mA、f=10kHz VIN=VOUT(T)+2.0V、VCE=VSS Current Limiter Ilim 0.9V≦VOUT(T)≦1.75V VIN=VOUT(T)+1.0V、VCE=VSS 1.8V≦VOUT(T)≦5.0V VIN=VOUT(T)+1.0V、 VCE=VIN 240 300 - - 50 - Short Circuit Current ISHORT CE ‘High’ Level Voltage VCEH - 1.6 - VIN V ① CE ‘Low’ Level Voltage VCEL - - - 0.25 V ① -0.10 - 0.10 μA ② -5.0 - 0.10 μA ② -0.10 - 0.10 CE ‘High’ Level Current ICEH VOUT≦1.75V, VIN=VOUT(T)+2.0V VCE=VIN=VOUT(T)+1.0V VOUT≦0.95V, VCE=VIN=2.0V CE ‘Low’ Level Current (Type C) CE ‘Low’ Level Current ICEL VIN=VOUT(T)+1.0V,VCE=VSS VOUT≦0.95V, VIN=2.0V (Type D) (*1) Unless otherwise stated, VIN=VOUT(T)+1.0V. If VOUT is less than 0.95V, VIN= 2.0V. (*2) VOUT(T) = Specified output voltage (*3) VOUT(E) = Effective output voltage The output voltage when "VOUT(T)+1.0V" is provided at the VIN pin while maintaining a certain IOUT value. (*4) Vdif={VIN1-VOUT1 } VOUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input. VIN1=The Input Voltage when VOUT1 appears as Input Voltage is gradually decreased. （*5）If VOUT(T) is less than 1.45V, VOUT(T) -30mV (MIN.), VOUT(T) + 30mV (MAX.) （*6）Only for the VOUT(T) is more than 3.0V products. 6/29 XC6219 Series ■ELECTRICAL CHARACTERISTICS Ta=25℃ ●XC6219 Type E,F PARAMETER SYMBOL CONDITIONS (2%) Output Voltage (*6) MIN. VOUT(T)(*2) Output Voltage (*5) VOUT(E) (*3) IOUT=30mA ×0.98 VOUT(T)(*2) (1%) Maximum Output Current ×0.99 IOUTMAX VIN=E-5 (*7) TYP. MAX. ×1.02 VOUT(T)(*2) VOUT(T)(*2) E-4 - UNITS CIRCUIT V ① mA ① VOUT(T)(*2) VOUT(T)(*2) ×1.01 - Load Regulation ∆VOUT 1mA≦IOUT≦100mA - 15 50 mV ① Load Regulation2 ∆VOUT2 1mA≦IOUT≦300mA - - 100 mV ① Vdif1 IOUT=30mA - E-1 Vdif2 IOUT=100mA - E-2 mV ① μA ② Dropout Voltage (*4) Supply Current (Type E) Supply Current IDD VCE=VIN=VOUT(T)+1.0V VOUT≦0.95V, VCE=VIN=2.0V (Type F) Stand-by Current ISTB VIN=VOUT(T)+1.0V、VCE=VSS VOUT≦0.95V, VCE=VIN=2.0V - 28 55 - 25 50 - 0.01 0.10 μA ② - 0.01 0.20 %/V ① 2 - 6 V - - ±100 - ppm/℃ ① - 70 - dB ④ - 380 - mA ① - 50 - mA ① VOUT(T)+1.0V≦VIN≦6.0Ｖ Line Regulation ∆VOUT/ (∆VIN・VOUT) VOUT≦0.95V, 2.0V≦VIN≦6.0V IOUT=30mA VOUT≦1.75V, IOUT=10mA Input Voltage Output Voltage Temperature Characteristics Power Supply Rejection Ratio VIN ∆VOUT/ (∆Topr・VOUT) IOUT=30mA -40℃≦Topr≦85℃ VIN=[VOUT(T)+1.0]V+1.0Vp-pAC PSRR VOUT≦1.5, VIN=2.5V+1.0Vp-pAC IOUT=50mA、f=10kHz VIN=VOUT(T)+2.0V、VCE=VIN Current Limiter Ilim 0.9V≦VOUT(T)≦1.75V VIN=VOUT(T)+1.0V、VCE=VIN 1.8V≦VOUT(T)≦5.0V VIN=VOUT(T)+1.0V、 VCE=VIN Short Circuit Current ISHORT CE ‘High’ Level Voltage VCEH - 1.6 - VIN V ① CE ‘Low’ Level Voltage VCEL - - - 0.25 V ① -0.10 - 5.0 μA ② -0.10 - 0.10 -0.1 - 0.1 μA ② VOUT≦1.75V, VIN=VOUT(T)+2.0V CE ‘High’ Level Current (Type E) CE ‘High’ Level Current ICEH VIN=VCE=VOUT(T)+1.0V VOUT≦0.95V, VIN=VCE=2.0V (Type F) CE ‘Low’ Level Current ICEL VIN=VOUT(T)+1.0V、VCE=VSS VOUT≦0.95V, VIN=2.0V (*1) Unless otherwise stated, VIN=VOUT(T)+1.0V. If VOUT is less than 0.95V, VIN= 2.0V. (*2) VOUT(T) = Specified output voltage (*3) VOUT(E) = Effective output voltage The output voltage when "VOUT(T)+1.0V" is provided at the VIN pin while maintaining a certain IOUT value. (*4) Vdif={VIN1-VOUT1 } VOUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input. VIN1=The Input Voltage when VOUT1 appears as Input Voltage is gradually decreased. （*5）If VOUT(T) is less than 1.45V, VOUT(T) -30mV (MIN.), VOUT(T) + 30mV (MAX.) （*6）Only for the VOUT(T) is more than 3.0V products. （*7）Please refer to the “Voltage Chart” table. 7/29 XC6219 Series ■ELECTRICAL CHARACTERISTICS Ta=25℃ ●XC6219 Type G,H PARAMETER SYMBOL CONDITIONS MIN. Output Voltage (*5) VOUT(T)(*2) (2%) ×0.98 Output Voltage (*6) VOUT(E) (*3) IOUT=30mA VOUT(T)(*2) (1%) Maximum Output Current ×0.99 IOUTMAX VIN=E-5 (*7) TYP. MAX. VOUT(T)(*2) ×1.02 VOUT(T)(*2) VOUT(T)(*2) E-4 - UNITS CIRCUIT V ① mA ① VOUT(T)(*2) ×1.01 - Load Regulation ∆VOUT 1mA≦IOUT≦100mA - 15 50 mV ① Load Regulation2 ∆VOUT2 1mA≦IOUT≦300mA - - 100 mV ① Vdif1 IOUT=30mA - E-1 Vdif2 IOUT=100mA - E-2 mV ① VCE=VIN=VOUT(T)+1.0V - 28 55 μA ② - 25 50 - 0.01 0.10 μA ② - 0.01 0.20 %/V ① 2 - 6 V - - ±100 - ppm/℃ ① - 70 - dB ④ - 380 - mA ① - 50 - mA ① - 1.6 - VIN V ① - - - 0.25 V ① -0.10 - 0.10 μA ② -5.0 - 0.10 μA ② -0.10 - 0.10 Dropout Voltage (*4) Supply Current (Type G) Supply Current IDD VCE=VSS (Type H) Stand-by Current VOUT≦0.95V, VIN=2.0V ISTB VIN=VOUT(T)+1.0V、VCE=VIN VOUT≦0.95V, VCE=VIN=2.0V VOUT(T)+1.0V≦VIN≦6.0Ｖ Line Regulation ∆VOUT/ (∆VIN・VOUT) VOUT≦0.95V, 2.0V≦VIN≦6.0V IOUT=30mA VOUT≦1.75V, IOUT=10mA Input Voltage Output Voltage Temperature Characteristics Power Supply Rejection Ratio VIN ∆VOUT/ (∆Topr・VOUT) IOUT=30mA -40℃≦Topr≦85℃ VIN=[VOUT(T)+1.0]V+1.0Vp-pAC PSRR VOUT≦1.5, VIN=2.5V+1.0Vp-pAC IOUT=50mA、f=10kHz VIN=VOUT(T)+2.0V、VCE=VSS Current Limiter Ilim 0.9V≦VOUT(T)≦1.75V VIN=VOUT(T)+1.0V、VCE=VSS 1.8V≦VOUT(T)≦5.0V Short Circuit Current ISHORT CE ‘High’ Level Voltage VCEH CE ‘Low’ Level Voltage VCEL CE ‘High’ Level Current ICEH VIN=VOUT(T)+1.0V、 VCE=Vss VOUT≦1.75V, VIN=VOUT(T)+2.0V VCE=VIN=VOUT(T)+1.0V VOUT≦0.95V, VCE=VIN=2.0V CE ‘Low’ Level Current (Type G) CE ‘Low’ Level Current ICEL VIN=VOUT(T)+1.0V、VCE=VSS VOUT≦0.95V, VIN=2.0V (Type H) (*1) Unless otherwise stated, VIN=VOUT(T)+1.0V. If VOUT is less than 0.95V, VIN= 2.0V. (*2) VOUT(T) = Specified output voltage (*3) VOUT(E) = Effective output voltage The output voltage when "VOUT(T)+1.0V" is provided at the VIN pin while maintaining a certain IOUT value. (*4) Vdif={VIN1-VOUT1 } VOUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input. VIN1=The Input Voltage when VOUT1 appears as Input Voltage is gradually decreased. （*5）If VOUT(T) is less than 1.45V, VOUT(T) -30mV (MIN.), VOUT(T) + 30mV (MAX.) （*6）Only for the VOUT(T) is more than 3.0V products. （*7）Please refer to the “Voltage Chart” table. 8/29 XC6219 Series ■ELECTRICAL CHARACTERISTICS (Continued) ●Voltage Chart SYMBOL E-0 E-1 PARAMETER OUTPUT VOLTAGE OUTPUT VOLTAGE (2%) (1%) (V) (V) VOUT VOUT MIN MAX MIN MAX 0.90 0.870 0.930 - - 0.95 0.920 0.980 - - 1.00 0.970 1.030 - - 1.05 1.020 1.080 - - 1.10 1.070 1.130 - - 1.15 1.120 1.180 - - 1.20 1.170 1.230 - - 1.25 1.220 1.280 - - 1.30 1.270 1.330 - - 1.35 1.320 1.380 - - 1.40 1.370 1.430 - - 1.45 1.420 1.480 - - 1.50 1.470 1.530 - - 1.55 1.519 1.581 - - 1.60 1.568 1.632 - - 1.65 1.617 1.683 - - 1.70 1.666 1.734 - - 1.75 1.715 1.785 - - 1.80 1.764 1.836 - - 1.85 1.813 1.887 - - 1.90 1.862 1.938 - - 1.95 1.911 1.989 - - 2.00 1.960 2.040 - - 2.05 2.009 2.091 - - 2.10 2.058 2.142 - - 2.15 2.107 2.193 - - 2.20 2.156 2.244 - - 2.25 2.205 2.295 - - 2.30 2.254 2.346 - - 2.35 2.303 2.397 - - 2.40 2.352 2.448 - - 2.45 2.401 2.499 - - 2.50 2.450 2.550 - - 2.55 2.499 2.601 - - 2.60 2.548 2.652 - - 2.65 2.597 2.703 - - 2.70 2.646 2.754 - - 2.75 2.695 2.805 - - 2.80 2.744 2.856 - - 2.85 2.793 2.907 - - 2.90 2.842 2.958 - - 2.95 2.891 3.009 - - E-3 Power DROPOUT DROPOUT VOLTAGE1 (mV) VOLTAGE2 (mV) (IOUT=30mA) (IOUT=100mA) Ta=25℃ Ta=25℃ Ta=25℃ Vdif1 Vdif2 PSRR OUTPUT VOLTAGE VOUT(T) E-2 TYP MAX TYP MAX 1100 1110 1150 1200 1000 1010 1050 1100 900 910 950 1000 800 810 850 900 700 710 750 800 600 610 650 700 500 510 550 600 400 410 500 550 300 310 400 450 200 210 300 400 120 150 280 380 Supply Rejection Ratio TYP 65 350 330 80 120 240 310 70 290 70 100 220 270 9/29 XC6219 Series ■ELECTRICAL CHARACTERISTICS (Continued) ●Voltage Chart SYMBOL E-0 E-1 PARAMETER OUTPUT VOLTAGE OUTPUT VOLTAGE (2%) (1%) (V) (V) VOUT VOUT 10/29 MIN MAX MIN MAX 3.00 2.940 3.060 2.970 3.030 3.05 2.989 3.111 3.020 3.081 3.10 3.038 3.162 3.069 3.131 3.15 3.087 3.213 3.119 3.182 3.20 3.136 3.264 3.168 3.232 3.25 3.185 3.315 3.218 3.283 3.30 3.234 3.366 3.267 3.333 3.35 3.283 3.417 3.317 3.384 3.40 3.332 3.468 3.366 3.434 3.45 3.381 3.519 3.416 3.485 3.50 3.430 3.570 3.465 3.535 3.55 3.479 3.621 3.515 3.586 3.60 3.528 3.672 3.564 3.636 3.65 3.577 3.723 3.614 3.687 3.70 3.626 3.774 3.663 3.737 3.75 3.675 3.825 3.713 3.788 3.80 3.724 3.876 3.762 3.838 3.85 3.773 3.927 3.812 3.889 3.90 3.822 3.978 3.861 3.939 3.95 3.871 4.029 3.911 3.990 4.00 3.920 4.080 3.960 4.040 4.05 3.969 4.131 4.010 4.091 4.10 4.018 4.182 4.059 4.141 4.15 4.067 4.233 4.109 4.192 4.20 4.116 4.284 4.158 4.242 4.25 4.165 4.335 4.208 4.293 4.30 4.214 4.386 4.257 4.343 4.35 4.263 4.437 4.307 4.394 4.40 4.312 4.488 4.356 4.444 4.45 4.361 4.539 4.405 4.494 4.50 4.410 4.590 4.455 4.545 4.55 4.459 4.641 4.504 4.595 4.60 4.508 4.692 4.554 4.646 4.65 4.557 4.743 4.603 4.696 4.70 4.606 4.794 4.653 4.747 4.75 4.655 4.845 4.702 4.797 4.80 4.704 4.896 4.752 4.848 4.85 4.753 4.947 4.801 4.898 4.90 4.802 4.998 4.851 4.949 4.95 4.851 5.049 4.900 4.999 5.00 4.900 5.100 4.950 5.050 E-3 Power DROPOUT DROPOUT VOLTAGE1 (mV) VOLTAGE2 (mV) (IOUT=30mA) (IOUT=100mA) Ta=25℃ Ta=25℃ Ta=25℃ Vdif1 Vdif2 PSRR OUTPUT VOLTAGE VOUT(T) E-2 TYP MAX TYP MAX Supply Rejection Ratio TYP 270 90 200 250 60 50 70 80 180 230 70 160 210 XC6219 Series ■ELECTRICAL CHARACTERISTICS (Continued) ●Specification & Condition by Series SYMBOL CONDITION, RATINGS OUTPUT VOLTAGE (V) E-5 INPUT VOLTAGE (V) E-4 MAX. OUTPUT CURRENT (mA) VIN MIN 0.90～0.95 2.5 260 1.00～1.05 2.5 260 1.10～1.15 2.6 270 1.20～1.25 2.7 290 1.30～1.35 2.8 1.40～1.45 2.9 1.50～1.95 3.0 2.00～6.00 VOUT(T)+1.0 300 * VOUT(T)=Nominal output voltage 11/29 XC6219 Series ■TEST CIRCUITS Circuit ① ceramic ceramic Circuit ② Circuit ③ VIN CE CIN=1.0uF ceramic (ｾﾗﾐｯｸ) VOUT VSS ceramic VCE F.F.T CL=1.0uF (ｾﾗﾐｯｸ) IOUT=10mA Circuit ④ ceramic *TEST CIRCUIT VCE (CE Pin Voltage) ACTIVE XC6219 Type A,B,E,F: VCE=VIN XC6219 Type C,D,G,H: VCE=VSS STANDBY XC6219 Type A,B,E,F: VCE=VSS XC6219 Type C,D,G,H: VCE=VIN 12/29 XC6219 Series ■OPERATIONAL EXPLANATION The voltage divided by resistors R1 & R2 is compared with the internal reference voltage by the error amplifier. The P-channel MOSFET, which is connected to the VOUT pin, is then driven by the subsequent output signal. The output voltage at the VOUT pin is controlled and 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 CE pin's signal With the XC6219 series, a stable output voltage is achievable even if used with low ESR capacitors as a phase compensation circuit is built-in. 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 connect an input capacitor (CIN) of 1.0μF between the VIN pin and the VSS pin in order to ensure a stable power input. Stable phase compensation may not be ensured if the capacitor runs out capacitance when depending on bias and temperature. In case the capacitor depends on the bias and temperature, please make sure the capacitor can ensure the actual capacitance. The XC6219 series 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 CE pin with the XC6219 series. In shutdown mode, output at the VOUT pin will be pulled down to the VSS level via R1 & R2. The operational logic of the IC's CE pin is selectable (please refer to the selection guide). Note that as the standard XC6219B type's regulator 1 and 2 are both ' High Active/No Pull-Down', operations will become unstable with the CE pin open. Although the CE pin is equal to an inverter input with CMOS hysteresis, with either the pull-up or pull-down options, the CE pin input current will increase when the IC is in operation. We suggest that you use this IC with either a VIN voltage or a VSS voltage input at the CE pin. If this IC is used with the correct specifications for the CE pin, the operational logic is fixed and the IC will operate normally. However, supply current may increase as a result of through current in the IC's internal circuitry. ■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. Where wiring impedance is high, operations may become unstable due to noise and/or phase lag depending on output current. Please keep the resistance low between VIN and VSS wiring in particular. 3. Please wire the input capacitor (CIN) and the output capacitor (CL) as close to the IC as possible. 4. The IC is controlled with constant current start-up. Start-up sequence control is requested to draw a load current after even nominal output voltage rising up the output voltage. 5. Torex places an importance on improving our products and their reliability. We request that users incorporate fail-safe designs and post-aging protection treatment when using Torex products in their systems. 13/29 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (1) Output Voltage vs. Output Current XC6219x182 XC6219x182 Topr=85℃ 25℃ -40℃ XC6219x252 XC6219x252 Topr=85℃ 25℃ -40℃ XC6219x302 XC6219x302 Topr=85℃ 25℃ -40℃ 14/29 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (2) Output Voltage vs. Input Voltage XC6219x182 XC6219x182 XC6219x252 XC6219x252 XC6219x302 XC6219x302 15/29 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (3) Dropout Voltage vs. Output Current XC6219x252 XC6219x182 XC6219x302 (4) Supply Current vs. Input Voltage XC6219x182 16/29 XC6219x252 Topr=85℃ Topr=85℃ 25℃ 25℃ -40℃ -40℃ XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (4) Supply Current vs. Input Voltage (Continued) XC6219x302 Topr=85℃ 25℃ -40℃ (5) Output Voltage vs. Ambient Temperature XC6219x182 XC6219x252 XC6219x302 17/29 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (6) Supply Current vs. Ambient Temperature XC6219x182 XC6219x302 18/29 XC6219x252 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (7) Input Transient Response XC6219x182 XC6219x182 XC6219x252 XC6219/11x252 XC6219x182 XC6219/11x252 XC6219x252 XC6219/11x252 XC6219x252 19/29 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (7) Input Transient Response (Continued) XC6219x302 XC6219/11x302 XC6219x302 XC6219x302 (8) Load Transient Response XC6219x182 20/29 XC6219x182 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (8) Load Transient Response (Continued) XC6219x182 VIN=2.8V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) XC6219x252 VIN=3.5V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) XC6219x302 VIN=4.0V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) XC6219x252 VIN=3.5V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) XC6219x252 VIN=3.5V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) XC6219x302 VIN=4.0V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) 21/29 XC6219 Series ■TYPICAL PERFORMANCE CHARACTERISTICS (Continued) (8) Load Transient Response (Continued) XC6219x302 VIN=4.0V, trr=tf=5use CL=1μF (ceramic), CL=1uF (ceramic) (9) Ripple Rejection Rate XC6219x182 VIN=2.8V, DC+1Vp-pAC IOUT=50mA, CL=1uF (ceramic) XC6219x302 VIN=4.0V, DC+1Vp-pAC IOUT=50mA, CL=1uF (ceramic) 22/29 XC6219x252 VIN=3.5V, DC+1Vp-pAC IOUT=50mA, CL=1uF (ceramic) XC6219 Series ■PACKAGING INFORMATION ●SOT-25 ●USP-6B 0.2MIN 1.3MAX 1.1±0.1 1.6 +0.2 -0.1 2.8±0.2 ●SOT-89-5 ●USP-6B Reference Pattern Layout ●USP-6B Reference Metal Mask Design 23/29 XC6219 Series ● SOT-25 Power Dissipation Power dissipation data for the SOT-25 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: Metal Area : 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) 2. Power Dissipation vs. Ambient Temperature（85℃） Board Mount ( Tjmax=125℃) Ambient Temperature (℃) Power Dissipation Pd (mW) Thermal Resistance (℃/W） 25 85 600 240 166.67 Pd vs Ta Power Dissipation Pd（mW） 700 600 500 400 300 200 100 0 25 24/29 45 65 85 Ambient Temperature Ta（℃） 105 125 XC6219 Series ● SOT-89-5 Power Dissipation Power dissipation data for the SOT-89-5 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. Ambient: Natural convection Soldering: Lead (Pb) free Board Dimensions: Metal Area : 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: 5 x 0.8 Diameter 40.0 Mount on a board 2.5 Condition: 28.9 1. Measurement Condition Evaluation Board (Unit: mm) Power Dissipation vs. Ambient Temperature（85℃） 2. Board Mount ( Tjmax=125℃) Ambient Temperature (℃) Power Dissipation Pd (mW) Thermal Resistance (℃/W） 25 85 1300 520 76.92 Pd vs Ta Power Dissipation Pd（mW） 1400 1200 1000 800 600 400 200 0 25 45 65 85 Ambient Temperature Ta（℃） 105 125 25/29 XC6219 Series ● USP-6B Power Dissipation Power dissipation data for the USP-6B 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: 40 x 40 mm (1600 mm2 in one side) Metal Area: 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) 2. Power Dissipation vs. Ambient Temperature Board Mount (Tj max = 125℃) Ambient Temperature（℃） Power Dissipation Pd（mW） 25 1000 85 400 100.00 Pd vs Ta Power Dissipation Pd（mW） 1200 1000 800 600 400 200 0 25 26/29 45 65 85 Ambient Temperature Ta（℃） 105 Thermal Resistance(℃/W) 125 XC6219 Series ■MARKING RULE ●SOT-25, SOT-89-5 5 ① 1 ① represents product series 4 ② MARK PRODUCT SERIES L XC6219xxxxxx ③ ④ 2 ② represents type of regulator 3 MARK SOT-25 (TOP VIEW) VOUT 100mV INCREMENTS VOUT:0.1~3.0V ③ ① 1 4 2 SOT-89-5 (TOP VIEW) 3 PRODUCT SERIES VOUT:3.1~6.0V VOUT:0.15~3.05V VOUT:3.15~6.05V V X Y Z V X Y Z ④ 2 ② 5 VOUT 50mV INCREMENTS A B C D A B C D E F H K E F H K L M N P L M N P XC6219Axxxxx XC6219Bxxxxx XC6219Cxxxxx XC6219Dxxxxx XC6219Exxxxx XC6219Fxxxxx XC6219Gxxxxx XC6219Hxxxxx ③ represents output voltage MARK 0 1 2 3 4 5 6 7 8 9 A B C D E OUTPUT VOLTAGE (V) 0.9 1.0 1.1 1.2 1.3 1.4 1.5 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 0.95 1.05 1.15 1.25 1.35 1.45 1.55 3.15 3.25 3.35 3.45 3.55 3.65 3.75 3.85 3.95 4.05 4.15 4.25 4.35 4.45 4.55 MARK F H K L M N P R S T U V X Y Z OUTPUT VOLTAGE (V) 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 4.6 4.7 4.8 4.9 5.0 - 1.65 1.75 1.85 1.95 2.05 2.15 2.25 2.35 2.45 2.55 2.65 2.75 2.85 2.95 3.05 4.65 4.75 4.85 4.95 - ④ represents production lot number 0 to 9, A to Z reverse character of 0 to 9, A to Z repeated (G, I, J, O, Q, W excluded) 27/29 XC6219 Series ■MARKING RULE (Continued) ●USP-6B ①② represents product series MARK ① ② 1 9 PRODUCT SERIES XC6219xxxxDx ③ represents type of regulator USP-6B (TOP VIEW) MARK TYPE PRODUCT SERIES A B C D E F Z H High Active, pull-down resistor built-in (semi-custom) High Active, no pull-down resistor built-in (standard) Low Active, pull-up resistor built-in (semi-custom) Low Active, no pull-up resistor built-in (semi-custom) High Active, pull-down resistor built-in (semi-custom) High Active, no pull-down resistor built-in (standard) Low Active, pull-up resistor built-in (semi-custom) Low Active, no pull-up resistor built-in (semi-custom) XC6219AxxxMx XC6219BxxxMx XC6219CxxxMx XC6219DxxxMx XC6219ExxxDx XC6219FxxxDx XC6219GxxxDx XC6219HxxxDx ④ represents product series MARK VOLTAGE (V) PRODUCT SERIES 3 5 3.X 5.X XC6219x3xxDx XC6219x5xxDx PRODUCT SERIES SYMBOL VOLTAGE PRODUCT SERIES ⑤ represents output voltage MARK VOLTAGE 0 1 2 3 4 5 6 7 8 9 X.0 X.1 X.2 X.3 X.4 X.5 X.6 X.7 X.8 X.9 XC6219xx0xDx XC6219xx1xDx XC6219xx2xDx XC6219xx3xDx XC6219xx4xDx XC6219xx5xDx XC6219xx6xDx XC6219xx7xDx XC6219xx8xDx XC6219xx9xDx ⑥ represents production lot number 0 to 9, A to Z repeated (G, I, J, O, Q, W excluded) * No character inversion used. 28/29 A B C D E F H K L M X.05 X.15 X.25 X.35 X.45 X.55 X.65 X.75 X.85 X.95 XC6219xx0ADx XC6219xx1ADx XC6219xx2ADx XC6219xx3ADx XC6219xx4ADx XC6219xx5ADx XC6219xx6ADx XC6219xx7ADx XC6219xx8ADx XC6219xx9ADx XC6219 Series 1. The products 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. We assume no responsibility for any infringement of patents, patent rights, or other rights arising from the use of any information and circuitry in this datasheet. 3. Please ensure suitable shipping controls (including fail-safe designs and aging protection) are in force for equipment employing products listed in this datasheet. 4. The products in this datasheet are not developed, designed, or approved for use with such equipment whose failure of malfunction can be reasonably expected to directly endanger the life of, or cause significant injury to, the user. (e.g. Atomic energy; aerospace; transport; combustion and associated safety equipment thereof.) 5. Please use the products listed in this datasheet within the specified ranges. Should you wish to use the products under conditions exceeding the specifications, please consult us or our representatives. 6. We assume no responsibility for damage or loss due to abnormal use. 7. All rights reserved. No part of this datasheet may be copied or reproduced without the prior permission of TOREX SEMICONDUCTOR LTD. 29/29