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| x CMOS Low Power Consumption x Input-Output Voltage Differential: x x x x x 140mV at 300A Maximum Output Current: 6.0mA (2.0V ) Highly Accurate: 2%(1%) Output Voltage Range: 1.5V~3.5V No Load Power Consumption: 3.2A (2.0V) SOT-23/SOT-89 Package s Applications q Battery Powered Equipment q Reference Voltage Sources q Cameras and Video Recorders q Palmtops w s Features Max. Output Current: 6.0mA (within max. power dissipation, VOUT=2.0V) Output Voltage Range: 1.5V to 3.5V in 0.1V increments Highly Accurate: Set-up Voltage 2% (1% for semi-custom products) Low power consumption: TYP 3.2A (VOUT=2.0) Output voltage temperature characteristics: TYP 100ppm/: Input stability: TYP 0.2%/V Ultra small package: SOT-23 (150mW) mini-mold SOT-89 (500mW) mini-power mold s General Description The XC62RP series are highly precise, low power consumption, positive voltage regulators, for voltage reference source, manufactured using CMOS and laser trimming technologies. SOT-23 (150mW) and SOT-89 (500mW) packages are available. s Pin Configuration VIN s Pin Assignment PIN NUMBER PIN NAME SOT-23 1 SOT-89 1 2 3 VSS VIN VOUT Ground Supply Voltage Input Output FUNCTION 3 1 VSS 2 VOUT 1 VSS 2 VIN 3 VOUT 3 2 SOT-23 (TOP VIEW) SOT-89 (TOP VIEW) s Block Diagram VIN s Absolute Maximum Ratings PARAMETER Input Voltage SYMBOL VIN IOUT VOUT RATINGS 12 50 VSS-0.3 ~ VIN+0.3 150 Pd SOT-89 Operating Ambient Temperature Storage Temperature Topr Tstg 500 -30 ~ +80 -40 ~ +125 Ta=25: UNITS V mA V Voltage Reference VOUT Output Current Output Voltage SOT-23 Continuous Total Power Dissipation VSS mW : : Note: IOUT must be less than Pd / (VIN-VOUT). s Standard Circuit XC62RP VIN VOUT CIN CL 0.1F VSS 0.1F RL w Please use with a load capacitance (CL) of less than 0.1F. s Notes on Use 1. Please use with a load capacitance, CL, of less than 0.1F and in 0.01F steps. 2. Since short-circuit protection is not built-in, the IC may be damaged by rush current should the output pin be connected to the Ground pin. 3. When the load capacitance, CL, is small, overshoot will be produced when the power is switched on. 4. As the output pin's current is only a few A, output voltage will increase should output be pulled-up by means of a resistor. s Typical Application Circuit Circuit 1 VIN VOUT A VIN V 0.1F VSS 0.1F s Typical Application Circuit Circuit 2 VIN VOUT Open VIN VSS A s Electrical Characteristics XC62RP1602 VOUT(T)=1.6V(Note1) PARAMETER Output Voltage Maximum Output Current Load Stability Input -Output Voltage Differential (Note3) Supply Current Input Stability Input Voltage Output Voltage Temperature Characteristics SYMBOL VOUT (E) (Note2) IOUT max VOUT Vdif1 Vdif2 ISS VOUT VIN * VOUT VIN VOUT Topr * VOUT IOUT=100mA -30CTopr80C 100 CONDITIONS IOUT=100A VIN=2.6V VIN=2.6V,VOUT(E) VOUT(T)x0.95 VIN=2.6V 100AIOUT300A IOUT=100A IOUT=300A VIN=2.6V IOUT=100A 2.6VVIN6.0V MIN 1.568 4.0 20 30 50 3.0 0.2 40 80 140 5.8 0.3 6.0 TYP 1.600 MAX 1.632 Ta=25: UNITS CIRCUIT V mA mV mV mV A %/V V ppm/C 1 1 1 1 1 2 1 -- 1 w XC62RP2002 VOUT(T)=2.0V(Note1) PARAMETER Output Voltage Maximum Output Current Load Stability Input -Output Voltage Differential (Note3) Supply Current Input Stability Input Voltage Output Voltage Temperature Characteristics SYMBOL VOUT (E) (Note2) IOUT max VOUT Vdif1 Vdif2 ISS VOUT VIN * VOUT VIN VOUT Topr * VOUT IOUT=100mA -30:Topr80: 100 CONDITIONS IOUT=100A VIN=3.0V VIN=3.0V,VOUT(E) VOUT(T)x0.95 VIN=3.0V 100AIOUT300A IOUT=100A IOUT=300A VIN=3.0V IOUT=100A 3.0VVIN6.0V MIN 1.960 6.0 20 30 50 3.2 0.2 40 80 140 6.2 0.3 6.0 TYP 2.000 MAX 2.040 Ta=25: UNITS CIRCUIT V mA mV mV mV A %/V V ppm/: 1 1 1 1 1 2 1 -- 1 s Electrical Characteristics XC62RP2502 VOUT(T)=2.5V(Note1) PARAMETER Output Voltage Maximum Output Current Load Stability Input -Output Voltage Differential (Note3) Supply Current Input Stability Input Voltage Output Voltage Temperature Characteristics SYMBOL VOUT (E) (Note2) IOUT max VOUT Vdif1 Vdif2 ISS VOUT VIN * VOUT VIN VOUT Topr * VOUT IOUT=100mA -30:Topr80: 100 CONDITIONS IOUT=100 A VIN=3.5V VIN=3.5V,VOUT(E) VOUT(T)x0.95 VIN=3.5V 100 AIOUT300 A IOUT=100 A IOUT=300 A VIN=3.5V IOUT=100 A 3.5VVIN6.0V MIN 2.450 8.0 20 30 50 3.5 0.2 40 80 140 6.8 0.3 6.0 TYP 2.500 MAX 2.550 Ta=25: UNITS CIRCUIT V mA mV mV mV A %/V V ppm/: 1 1 1 1 1 2 1 -- 1 w XC62RP3002 VOUT(T)=3.0V(Note1) PARAMETER Output Voltage Maximum Output Current Load Stability Input -Output Voltage Differential (Note3) Supply Current Input Stability Input Voltage Output Voltage Temperature Characteristics SYMBOL VOUT (E) (Note2) IOUT max VOUT Vdif1 Vdif2 ISS VOUT VIN * VOUT VIN VOUT Topr * VOUT IOUT=100mA -30:Topr80: 100 CONDITIONS IOUT=100 A VIN=4.0V VIN=4.0V,VOUT(E) VOUT(T)x0.95 VIN=4.0V 100 AIOUT300 A IOUT=100 A IOUT=300 A VIN=4.0V IOUT=100 A 4.0VVIN6.0V MIN 2.940 10.0 20 30 50 3.8 0.2 40 80 140 7.3 0.3 6.0 TYP 3.000 MAX 3.060 Ta=25: UNITS CIRCUIT V mA mV mV mV A %/V V ppm/: 1 1 1 1 1 2 1 -- 1 Note: 1. VOUT(T)=Specified Output Voltage . 2. VOUT(E)=Effective Output Voltage (i.e. the output voltage when "VOUT(T)+1.0V" is provided at the VIN pin while maintaining a ceratain IOUT value). 3. Vdif= {VIN1 (Note5)-VOUT1 (Note4)} 4. VOUT1= A voltage equal to 98% of the Output Voltage whenever an amply stabilised IOUT {VOUT(T)+1.0V} is input. 5. VIN1= The Input Voltage when VOUT1 appears as Input Voltage is gradually decreased. s Ordering Information XC62Rxxxxxxx a b cde f DESIGNATOR a DESCRIPTION Polarity of Output Voltage: P: + (Positive) DESIGNATOR DESCRIPTION Package Type M=SOT-23 P=SOT-89 w e b Output Voltage 15=1.5V 30=3.0V Temperature Coefficients: 0=100ppm (typical) f d Output Voltage Accuracy: 1=1.0%(Semi-custom) 2=2.0% c Device Orientation R=Embossed Tape (Orientation of Device:Right) L=Embossed Tape (Orientation of Device:Left) s Marking qNot Used. 2 4 1 2 3 4 1 3 wRepresents the integer of the Output Voltage SYMBOL VOLTAGE(V) 0.e 1.e 2.e 3.e SOT-23 (TOP VIEW) SOT-89 (TOP VIEW) A B C D eRepresents the decimal point of the Output Voltage SYMBOL A B C D E VOLTAGE(V) w.0 w.1 w.2 w.3 w.4 SYMBOL F H K L M VOLTAGE(V) w.5 w.6 w.7 w.8 w.9 rRepresents the assembly lot no. Based on internal standards (1) OUTPUT VOLTAGE vs. OUTPUT CURRENT OUTPUT VOLTAGE:VOUT(V) w OUTPUT CURRENT:IOUT(A) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(mA) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(A) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(mA) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(A) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(mA) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(A) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(mA) (2) OUTPUT VOLTAGE vs. INPUT VOLTAGE OUTPUT VOLTAGE:VOUT(V) OUTPUT VOLTAGE:VOUT(V) w INPUT VOLTAGE:VIN(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) (3) INPUT/OUTPUT VOLTAGE DIFFERENTIAL vs. OUTPUT CURRENT INPUT/OUTPUT VOLTAGE DIFF.: Vdif(mV) w OUTPUT CURRENT:IOUT(A) INPUT/OUTPUT VOLTAGE DIFF.: Vdif(mV) OUTPUT CURRENT:IOUT(A) INPUT/OUTPUT VOLTAGE DIFF.: Vdif(mV) OUTPUT CURRENT:IOUT(A) INPUT/OUTPUT VOLTAGE DIFF.: Vdif(mV) OUTPUT CURRENT:IOUT(A) (4) SUPPLY CURRENT vs. INPUT VOLTAGE SUPPLY CURRENT:ISS(A) INPUT VOLTAGE:VIN(V) SUPPLY CURRENT:ISS(A) INPUT VOLTAGE:VIN(V) SUPPLY CURRENT:ISS(A) INPUT VOLTAGE:VIN(V) SUPPLY CURRENT:ISS(A) INPUT VOLTAGE:VIN(V) (5) OUTPUT VOLTAGE vs. AMBIENT TEMPERATURE OUTPUT VOLTAGE:VOUT(V) OUTPUT VOLTAGE:VOUT(V) w AMBIENT TEMP.:Topr(:) AMBIENT TEMP.:Topr(:) OUTPUT VOLTAGE:VOUT(V) AMBIENT TEMP.:Topr(:) OUTPUT VOLTAGE:VOUT(V) AMBIENT TEMP.:Topr(:) (6) SUPPLY CURRENT vs. AMBIENT TEMPERATURE SUPPLY CURRENT:ISS(A) AMBIENT TEMP.:Topr(:) SUPPLY CURRENT:ISS(A) AMBIENT TEMP.:Topr(:) SUPPLY CURRENT:ISS(A) AMBIENT TEMP.:Topr(:) SUPPLY CURRENT:ISS(A) AMBIENT TEMP.:Topr(:) (7) INPUT TRANSIENT RESPONSE 1 OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) w INPUT VOLTAGE:VIN(V) Input Voltage Input Voltage Output Voltage Output Voltage TIME (2msec/div) TIME (2msec/div) (8) INPUT TRANSIENT RESPONSE 2 OUTPUT VOLTAGE:VOUT(V) Input Voltage Input Voltage Output Voltage Output Voltage TIME (2msec/div) TIME (2msec/div) (9) LOAD TRANSIENT RESPONSE OUTPUT VOLTAGE:VOUT(V) INPUT VOLTAGE:VIN(V) INPUT VOLTAGE:VIN(V) OUTPUT VOLTAGE:VOUT(V) OUTPUT CURRENT:IOUT(mA) OUTPUT CURRENT:IOUT(mA) Output Voltage Output Voltage Output Voltage Output Current Output Current Output Current TIME (2msec/div) TIME (2msec/div) TIME (2msec/div) (10) RIPPLE REJECTION Output Voltage Output Current TIME (2msec/div) RIPPLE REJECTION RATE:RR (dB) OUTPUT CURRENT:IOUT(mA) OUTPUT VOLTAGE:VOUT(V) RIPPLE FREQUENCY:f (kHz) OUTPUT CURRENT:IOUT(mA) OUTPUT VOLTAGE:VOUT(V) OUTPUT VOLTAGE:VOUT(V) OUTPUT VOLTAGE:VOUT(V) |
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