XC6204,XC6205 Series Datasheet by Torex Semiconductor Ltd

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XC6204/XC6205 Series
300mA/150mA High Speed LDO Regulators with ON-OFF Control
GENERAL DESCRIPTION
The XC6204/XC6205 series are highly precise, low noise, positive voltage LDO regulators manufactured using CMOS
processes. The series achieves high ripple rejection and low dropout and consists of a standard voltage source, an error
correction, current limiter and a phase compensation circuit plus a driver transistor.
Output voltage is selectable in 0.05V steps within a range of 0.9V ~ 6.0V.
The series is also compatible with low ESR ceramic capacitors which give added output stability. This stability can be
maintained even during load fluctuations due to the excellent transient response of the series.
The current limiter's foldback circuit also operates as a short protect for the output current limiter and the output pin.
The CE function enables the output to be turned off, resulting in greatly reduced power consumption.
A
PPLICATIONS
Smart phones / Mobile phones
Portable game consoles
Digital still cameras / Camcorders
Digital audio equipments
Reference voltage sources
Multi-function power supplies
TYPICAL APPLICATION CIRCUIT
FEATURES
Maximum Output Current
:
150mA
300mA(XC6204 E to H type)
Dropout Voltage : 200mV @ 100mA
60mV @ 30mA
Operating Voltage : 2V ~ 10V
Output Voltage Range
:
1.8V ~ 6.0V (XC6204)
0.9V ~ 1.75V (XC6205)
Highly Accurate : ±2%, ±1%
Low Power Consumption
: 70μA (TYP.)
Standby Current : 0.1μA (MAX.)
High Ripple Rejection
: 70dB@10kHz (XC6204)
60dB@10kHz (XC6205)
Low ESR Capacitor Compatible
: Ceramic capacitor
Operating Ambient Temperature
: -40~ 85
Packages : SOT-25, SOT-89-5, USP-6B
Environmentally Friendly
:
EU RoHS Compliant, Pb Free
TYPICAL PERFORMANCE
CHARACTERISTICS
ETR03004-010
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XC6204
/
XC6205 Series
XC6204/6205 A, B, E, F Type XC6204/6205 C, D, G, H Type
CE OPERATIONAL STATE
H ON
L OFF
H= High Level
L= Low Level
DESIGNATOR ITEM SYMBOL DESCRIPTION
A 150mA
Active High, pull-down resistor built-in (*2)(Semi-Custom)
B 150mA
Active High, no pull-down resistor built-in (Standard)
C 150mA
Active Low, pull-up resistor built-in (*2)(Semi-Custom)
D 150mA
Active Low, no pull-up resistor built-in (Semi-Custom)
E 300mA(*1) Active High, pull-down resistor built-in (*2) (Semi-Custom)
F 300mA(*1) Active High, no pull-down resistor built-in (Standard)
G 300mA(*1) Active Low, pull-up resistor built-in (*2) (Semi-Custom)
(*1) Type of Regulator
(CE pin Logic)
H 300mA(*1) Active Low, no pull-up resistor built-in (Semi-Custom)
09 ~ 17 XC6205
②③ Output Voltage 18 ~ 60 XC6204 e.g. VOUT=2.0V→②=2, =0
2(*4) 0.1V increments, ±2% accuracy
e.g. VOUT=2.8V, ±2%→②=3, =8, =2
1(*3) 0.1V increments, ±1% accuracy
e.g. VOUT=3.0V, ±1%→②=3, =0, =1
A(*4) 0.05V increments, ±2% accuracy
e.g. VOUT=2.85V, ±2%→②=2, =8, =A
Output Voltage
Accuracy
B(*3) 0.05V increments, ±1% accuracy
e.g. VOUT=3.85V, ±1%→②=3, =8, =B
MR SOT-25 (3,000/Reel)
MR-G SOT-25 (3,000/Reel)
DR USP-6B (3,000/Reel)
DR-G USP-6B (3,000/Reel)
PR SOT-89-5 (1,000/Reel)
⑤⑥-(*5) Packages
(Order Unit)
PR-G SOT-89-5 (1,000/Reel)
PIN NUMBER
SOT-25 SOT-89-5 USP-6B PIN NAME FUNCTIONS
1 4 1 VIN Input
2 2 5 VSS Ground
3 3 6 CE
ON/OFF Control
4 1 2, 4 NC No Connection
5 5 3 VOUT Output
CE OPERATIONAL STATE
H OFF
L ON
PIN CONFIGURATION PIN ASSIGNMENT
USP-6B
(BOTTOM VIEW)
XC6204/XC6205①②③④⑤⑥-⑦
PRODUCT CLASSIFICATION
Ordering Information
SOT-25
(TOP VIEW)
SOT-89-5
(TOP VIEW)
FUNCTIONS
VSS 5
NC 4
CE 6 1 VIN
2 NC
3 VOUT
(*1) E to H types are compatible to 300mA of XC6204 series. (XC6205 can not draw 300mA depending on output voltage.)
(*2) With the pull-up resistor or pull-down resistor built-in types, the supply current during operation will increase by VIN / 300k (TYP.)
(*3) Output voltage range of the ±1 accuracy product is 2.95V to 6.0V.
(*4) Output voltage accuracy of the VOUT1.5V is ±30mV.
(*5) The “-G” suffix denotes Halogen and Antimony free as well as being fully EU RoHS compliant.
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3/51
XC6204/XC6205
Series
PARAMETER SYMBOL RATINGS UNITS
Input Voltage VIN 12.0 V
Output Current IOUT 500* mA
Output Voltage VOUT VSS-0.3VIN+0.3 V
CE Input Voltage VCE VSS-0.3VIN+0.3 V
250
SOT-25 600(PCB mounted)*2
120
USP-6B 1000(PCB mounted)*2
500
Power Dissipation
SOT-89-5
Pd
1300(PCB mounted)*2
mW
Operating Ambient Temperature Topr -40 ~ +85
Storage Temperature Tstg -55 ~ +125
BLOCK DIAGRAM
A
BSOLUTE MAXIMUM RATINGS
*Diodes shown in the above circuit are protective diodes.
Ta= 25
1) XC6204, XC6205 Series B, D, F, H Type 2) XC6204, XC6205 Series C, G Type
3) XC6204, XC6205 Series A, E Type
(*1)IOUT=Pd/(VIN-VOUT)
(*2) The power dissipation figure shown is PCB mounted and is for reference only. Please refer to page 42~44 for details.
4/51
XC6204
/
XC6205 Series
Ta = 25 -40<Ta< 85
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage
(2% products) ×0.98 ×1.02 ×0.97 ×1.03
Output Voltage
(1% products)
VOUT(E) IOUT = 30mA
×0.99
VOUT(T)
×1.01 ×0.98
VOUT(T)
×1.02
V 1
Maximum Output Current IOUTMAX - 150 - - 150 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 - 30 80 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(A type) VIN = VCE = VOUT(T)+1.0V 50 80 120 50 90 145
Supply Current
(B type)
IDD
VIN = VCE = VOUT(T)+1.0V 40 70
100 40 80 120
μA2
Standby Current ISTBY VIN = VOUT(T)+1.0V, VCE = VSS - 0.01 0.10 - 0.05 1.00 μA2
Line Regulation UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA - 0.01 0.20 - 0.05 0.30 %/V 1
Input Voltage VIN - 2 - 10 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 - - - -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz 30 - - - - μVrms 3
Power Supply
Rejection Ratio PSRR VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
IOUT = 50mA, f=10kHz - 70 - - - - dB 4
Current Limiter Ilim VIN = VOUT(T)+1.0V, VCE = VIN - 300 - - 280 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+1.0V, VCE = VIN - 50 - - 60 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN 1.7 - VIN
CE “Low” Voltage VCEL - - - 0.25 - - 0.20
V 1
CE “High” Current
(A type) VIN = VCE = VOUT(T)+1.0V 3.2 - 20.0 3.0 - 25.0
CE “High” Current
(B type)
ICEH
VIN = VCE = VOUT(T)+1.0V -0.10 - 0.10 -0.15 - 0.15
CE “Low” Current ICEL VIN = VOUT(T)+1.0V, VCE = VSS -0.10 - 0.10 -0.15 - 0.15
μA2
ELECTRICAL CHARACTERISTICS
XC6204A, B Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. 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.
V
IN1=The input voltage when VOUT1 appears as input voltage is gradually decreased.
(*5) The values for -40Ta85 are designed values.
Tameramre Chaladenshcs TOIREX
5/51
XC6204/XC6205
Series
Ta = 25 -40<Ta< 85
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage
(2% products) ×0.98 ×1.02 ×0.97 ×1.03
Output Voltage
(1% products)
VOUT(E) IOUT = 30mA
×0.99
VOUT(T)
×1.01 ×0.98
VOUT(T)
×1.02
V 1
Maximum Output Current IOUTMAX - 150 - - 150 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 - 30 80 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(C type) VIN = VOUT(T)+1.0V, VCE = VSS 50 80 120 50 90 145
Supply Current
(D type)
IDD
VIN = VOUT(T)+1.0V, VCE = VSS 40 70
100 40 80 120
μA2
Standby Current ISTBY VIN = VCE = VOUT(T)+1.0V - 0.01 0.10 - 0.05 1.00 μA2
Line Regulation UVOUT
UVINVOUT
VOUT(T)+1.0V VIN10V
IOUT = 30mA - 0.01 0.20 - 0.05 0.30 %/V 1
Input Voltage VIN - 2 - 10 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 - - - -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz 30 - - - - μVrms 3
Power Supply
Rejection Ratio PSRR VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz - 70 - - - - dB 4
Current Limiter Ilim VIN = VOUT(T)+1.0V, VCE = VSS - 300 - - 280 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+1.0V, VCE = VSS - 50 - - 60 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN 1.7 - VIN
CE “Low” Voltage VCEL - - - 0.25 - - 0.20
V 1
CE “High” Current ICEH VIN = VCE = VOUT(T)+1.0V -0.10 - 0.10 -0.15 - 0.15
CE “Low” Current
(C type) VIN = VOUT(T)+1.0V, VCE = VSS -20.0 - -3.2 -25.0 - -3.0
CE “Low” Current
(D type)
ICEL
VIN = VOUT(T)+1.0V, VCE = VSS -0.10 - 0.10 -0.15 - 0.15
μA2
ELECTRICAL CHARACTERISTICS (Continued)
XC6204C, D Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. the output voltage when “VOUT (T)+1.0V” is provided at the VIN pin while maintaining a
certain IOUT value).
(*4) Vdif=VIN1-VOUT1
V
OUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input.
V
IN1=The input voltage when VOUT1 appears as input voltage is gradually decreased.
(*5) The values for -40Ta85 are designed values.
Temperanle 0mm AVOUT AVOUT
6/51
XC6204
/
XC6205 Series
Ta = 25
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage
(2% products) VOUT(E) IOUT = 30mA E-0 V 1
Maximum Output Current IOUTMAX VIN = VOUT(T)+1.0V
When VOUT2.0V, VIN = 3.0V 300 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(E type) VIN = VCE = VOUT(T)+1.0V 50 80 120
Supply Current
(F type)
IDD
VIN = VCE = VOUT(T)+1.0V 40 70
100
μA2
Standby Current ISTBY VIN = VOUT(T)+1.0V, VCE = VSS - 0.01 0.10 μA2
Line Regulation UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA - 0.01 0.20 %/V 1
Input Voltage VIN - 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz 30 - μVrms 3
Power Supply
Rejection Ratio PSRR VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz - 70 - dB 4
Current Limiter Ilim VIN = VOUT(T)+1.0V, VCE = VIN - 380 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+1.0V, VCE = VIN - 50 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN
CE “Low” Voltage VCEL - - - 0.25 V 1
CE “High” Current
(E type) VIN = VCE = VOUT(T)+1.0V 3.2 - 20.0
CE “High” Current
(F type)
ICEH
VIN = VCE = VOUT(T)+1.0V -0.10 - 0.10
μA2
CE “Low” Current ICEL VIN = VOUT(T)+1.0V, VCE = VSS -0.10 - 0.10 μA2
ELECTRICAL CHARACTERISTICS (Continued)
XC6204E, F Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. the output voltage when “VOUT (T)+1.0V” is provided at the VIN pin while maintaining a
certain IOUT value).
(*4) Vdif=VIN1-VOUT1
V
OUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input.
V
IN1=The input voltage when VOUT1 appears as input voltage is gradually decreased.
Avom Temperature Cmmucs Avom TOIREX
7/51
XC6204/XC6205
Series
Ta = 25
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage
(2% products) VOUT(E) IOUT = 30mA E-0 V 1
Maximum Output Current IOUTMAX VIN = VOUT(T)+1.0V
When VOUT2.0V, VIN = 3.0V 300 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(G type) VIN = VOUT(T)+1.0V, VCE = VSS 50 80 120
Supply Current
(H type)
IDD
VIN = VOUT(T)+1.0V, VCE = VSS 40 70 100
μA2
Standby Current ISTBY VIN = VCE =VOUT(T)+1.0V - 0.01 0.10 μA2
Line Regulation UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA - 0.01 0.20 %/V 1
Input Voltage VIN - 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz 30 - μVrms 3
Power Supply
Rejection Ratio PSRR VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz - 70 - dB 4
Current Limiter Ilim VIN = VOUT(T)+1.0V, VCE = VSS - 380 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+1.0V, VCE = VSS - 50 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN
CE “Low” Voltage VCEL - - - 0.25 V 1
CE “High” Current ICEH VIN = VCE = VOUT(T)+1.0V -0.10 - 0.10
CE “Low” Current
(G type) VIN = VOUT(T)+1.0V, VCE = VSS -20.0 - -3.2
CE “Low” Current
(H type)
ICEL
VIN = VOUT(T)+1.0V, VCE = VSS -0.10 - 0.10
μA2
ELECTRICAL CHARACTERISTICS (Continued)
XC6204G, H Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. the output voltage when “VOUT (T)+1.0V” is provided at the VIN pin while maintaining a
certain IOUT value).
(*4) Vdif=VIN1-VOUT1
V
OUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input.
V
IN1=The input voltage when VOUT1 appears as input voltage is gradually decreased.
8/51
XC6204
/
XC6205 Series
Ta = 25
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage(*5) VOUT(E) IOUT = 30mA ×0.98 VOUT(T) ×1.02 V 1
Maximum Output Current IOUTMAX 150 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(A type)
VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V 50 80 120
Supply Current
(B type)
IDD VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V 40 70
100
μA 2
Standby Current ISTBY VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V - 0.01 0.10 μA 2
Line Regulation
UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA, VCE = VIN
When VOUT0.95V, 2.0VVIN10V
- 0.01 0.20 %/V 1
Input Voltage VIN - 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz - 30 - μVrms 3
Power Supply
Rejection Ratio PSRR
VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
When VOUT1.5V, VIN =2.5V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz
- 65 - dB 4
Current Limiter Ilim VIN = VOUT(T)+2.0V, VCE = VIN - 300 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+2.0V, VCE = VIN - 50 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN
CE “Low” Voltage VCEL - - - 0.25 V 1
CE “High” Current
(A type)
VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V 3.2 - 20.0
CE “High” Current
(B type)
ICEH VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V -0.10 - 0.10
CE “Low” Current ICEL VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V -0.10 - 0.10
μA 2
ELECTRICAL CHARACTERISTICS (Continued)
XC6205A, B Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
However, when VOUT0.95V, VIN=2.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. the output voltage when “VOUT (T)+1.0V” is provided at the VIN pin while maintaining a
certain IOUT value).
(*4) Vdif=VIN1-VOUT1
V
OUT1=A voltage equal to 98% of the output voltage whenever an amply stabilized IOUT {VOUT(T)+1.0V} is input.
V
IN1=The input voltage when VOUT1 appears as input voltage is gradually decreased.
(*5) When VOUT(T)1.45V, MIN.VOUT (T)-30mV, MAX.VOUT (T)+30mV
TOIREX
9/51
XC6204/XC6205
Series
Ta = 25
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage(*5) VOUT(E) IOUT = 30mA ×0.98 VOUT(T) ×1.02 V 1
Maximum Output Current IOUTMAX 150 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(C type)
VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V 50 80 120
Supply Current
(D type)
IDD VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V 40 70
100
μA 2
Standby Current ISTBY VIN = VCE =VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V - 0.01 0.10 μA 2
Line Regulation
UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA, VCE = VSS
When VOUT0.95V, 2.0VVIN10V
- 0.01 0.20 %/V 1
Input Voltage VIN - 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz - 30 - μVrms 3
Power Supply
Rejection Ratio PSRR
VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
When VOUT1.5V, VIN =2.5V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz
- 65 - dB 4
Current Limiter Ilim VIN = VOUT(T)+2.0V, VCE = VSS - 300 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+2.0V, VCE = VSS - 50 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN
CE “Low” Voltage VCEL - - - 0.25 V 1
CE “High” Current ICEH VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V -0.10 - 0.10
CE “Low” Current
(C type)
VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V -20.0 - -3.2
CE “Low” Current
(D type)
ICEL VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V -0.10 - 0.10
μA 2
ELECTRICAL CHARACTERISTICS (Continued)
XC6205C, D Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
However, when VOUT0.95V, VIN=2.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. 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) When VOUT(T)1.45V, MIN.VOUT(T)-30mV, MAX.VOUT(T)+30mV
10/51
XC6204
/
XC6205 Series
Ta = 25
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage(*5) VOUT(E) IOUT = 30mA ×0.98 VOUT(T) ×1.02 V 1
Maximum Output Current(*6) IOUTMAX VIN = E-5 E-4 mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(E type)
VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = VCE = 2.0V 50 80 120
Supply Current
(F type)
IDD VIN = VCE =VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V 40 70
100
μA 2
Standby Current ISTBY VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V - 0.01 0.10 μA 2
Line Regulation
UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA, VCE = VIN
When VOUT0.95V, 2.0VVIN10V
- 0.01 0.20 %/V 1
Input Voltage VIN - 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz - 30 - μVrms 3
Power Supply
Rejection Ratio PSRR
VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
When VOUT1.5V, VIN =2.5V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz
- 65 - dB 4
Current Limiter Ilim VIN = VOUT(T)+2.0V, VCE = VIN - 380 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+2.0V, VCE = VIN - 50 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN
CE “Low” Voltage VCEL - - - 0.25 V 1
CE “High” Current
(E type)
VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V 3.2 - 20.0
CE “High” Current
(F type)
ICEH VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V
-0.10 - 0.10
CE “Low” Current ICEL VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V -0.10 - 0.10
μA 2
ELECTRICAL CHARACTERISTICS (Continued)
XC6205E, F Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
However, when VOUT0.95V, VIN=2.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. 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) When VOUT(T)1.45V, MIN.VOUT(T)-30mV, MAX.VOUT(T)+30mV
(*6) Refer to “Specification & Condition by Series”
Temperature Cmmucs TOIREX
11/51
XC6204/XC6205
Series
Ta = 25
PARAMETER SYMBOL CONDITIONS MIN. TYP. MAX. UNITS CIRCUIT
Output Voltage(*5) VOUT(E) IOUT = 30mA ×0.98 VOUT(T) ×1.02 V 1
Maximum Output Current(*6) IOUTMAX VIN = E-5 E-4 - - mA 1
Load Regulation UVOUT 1mAIOUT100mA - 15 50 mV 1
Vdif1 IOUT = 30mA E-1
Dropout Voltage Vdif2 IOUT = 100mA E-2 mV 1
Supply Current
(G type)
VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V 50 80 120
Supply Current
(H type)
IDD VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V 40 70
100
μA 2
Standby Current ISTBY VIN = VCE =VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V - 0.01 0.10 μA 2
Line Regulation
UVOUT
UVINVOUT
VOUT(T)+1.0VVIN10V
IOUT = 30mA, VCE = VSS
When VOUT0.95V, 2.0VVIN10V
- 0.01 0.20 %/V 1
Input Voltage VIN - 2 - 10 V -
Output Voltage
Temperature Characteristics
UVOUT
UTo p r VOUT
IOUT = 30mA
-40℃≦Topr85 - 100 -
ppm/
1
Output Noise en IOUT = 10mA
300Hz~50kHz - 30 - μVrms 3
Power Supply
Rejection Ratio PSRR
VIN = {VOUT(T)+1.0}V+1.0Vp-pAC
When VOUT1.5V, VIN =2.5V+1.0Vp-pAC
IOUT = 50mA, f = 10kHz
- 65 - dB 4
Current Limiter Ilim VIN = VOUT(T)+2.0V, VCE = VSS - 380 - mA 1
Short-circuit Current Ishort VIN = VOUT(T)+2.0V, VCE = VSS - 50 - mA 1
CE “High” Voltage VCEH - 1.6 - VIN
CE “Low” Voltage VCEL - - - 0.25 V 1
CE “High” Current ICEH VIN = VCE = VOUT(T)+1.0V
When VOUT0.95V, VIN = VCE = 2.0V -0.10 - 0.10
CE “Low” Current
(G type)
VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V -20.0 - -3.2
CE “Low” Current
(H type)
ICEL VIN = VOUT(T)+1.0V, VCE = VSS
When VOUT0.95V, VIN = 2.0V -0.10 - 0.10
μA 2
ELECTRICAL CHARACTERISTICS (Continued)
XC6205G, H Type
NOTE:
(*1) Unless otherwise stated, VIN=VOUT(T)+1.0V
However, when VOUT0.95V, VIN=2.0V
(*2) VOUT(T)=Specified output voltage
(*3) VOUT(E)=Effective output voltage (i.e. 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.
V
IN1=The input voltage when VOUT1 appears as input voltage is gradually decreased.
(*5) When VOUT(T)1.45V, MIN.VOUT(T)-30mV, MAX.VOUT(T)+30mV
(*6) Refer to “Specification & Condition by Series”
SYM BOL E—O OUTPUT VOLTAGE
12/51
XC6204
/
XC6205 Series
SYMBOL E-0 E-1 E-2
OUTPUT VOLTAGE
(V)
(2% products)
DROPOUT VOLTAGE 1 (mV)
IOUT=30mA
DROPOUT VOLTAGE 2 (mV)
IOUT=100mA
Vdif 1 Vdif 2
VOUT Ta = 25 -40℃≦Top r 85 Ta = 25 -40℃≦To pr 85
VOUT (T)
MIN. MAX. TYP. MAX. TYP. MAX. TYP. MAX. TYP. MAX.
1.80 1.764 1.836 200 210 210 230 300 400 340 480
1.85 1.813 1.887 200 210 210 230 300 400 340 480
1.90 1.862 1.938 120 150 130 170 280 380 320 460
1.95 1.911 1.989 120 150 130 170 280 380 320 460
2.00 1.960 2.040 80 120 90 140 240 350 280 430
2.05 2.009 2.091 80 120 90 140 240 350 280 430
2.10 2.058 2.142 80 120 90 140 240 330 280 410
2.15 2.107 2.193 80 120 90 140 240 330 280 410
2.20 2.156 2.244 80 120 90 140 240 330 280 410
2.25 2.205 2.295 80 120 90 140 240 330 280 410
2.30 2.254 2.346 80 120 90 140 240 310 280 390
2.35 2.303 2.397 80 120 90 140 240 310 280 390
2.40 2.352 2.448 80 120 90 140 240 310 280 390
2.45 2.401 2.499 80 120 90 140 240 310 280 390
2.50 2.450 2.550 70 100 80 120 220 290 260 370
2.55 2.499 2.601 70 100 80 120 220 290 260 370
2.60 2.548 2.652 70 100 80 120 220 290 260 370
2.65 2.597 2.703 70 100 80 120 220 290 260 370
2.70 2.646 2.754 70 100 80 120 220 290 260 370
2.75 2.695 2.805 70 100 80 120 220 290 260 370
2.80 2.744 2.856 70 100 80 120 220 270 260 350
2.85 2.793 2.907 70 100 80 120 220 270 260 350
2.90 2.842 2.958 70 100 80 120 220 270 260 350
2.95 2.891 3.009 70 100 80 120 220 270 260 350
3.00 2.940 3.060 60 90 70 110 200 270 240 350
3.05 2.989 3.111 60 90 70 110 200 270 240 350
3.10 3.038 3.162 60 90 70 110 200 250 240 330
3.15 3.087 3.213 60 90 70 110 200 250 240 330
3.20 3.136 3.264 60 90 70 110 200 250 240 330
3.25 3.185 3.315 60 90 70 110 200 250 240 330
3.30 3.234 3.366 60 90 70 110 200 250 240 330
3.35 3.283 3.417 60 90 70 110 200 250 240 330
3.40 3.332 3.468 60 90 70 110 200 250 240 330
3.45 3.381 3.519 60 90 70 110 200 250 240 330
3.50 3.430 3.570 60 90 70 110 200 250 240 330
3.55 3.479 3.621 60 90 70 110 200 250 240 330
3.60 3.528 3.672 60 90 70 110 200 250 240 330
3.65 3.577 3.723 60 90 70 110 200 250 240 330
3.70 3.626 3.774 60 90 70 110 200 250 240 330
3.75 3.675 3.825 60 90 70 110 200 250 240 330
3.80 3.724 3.876 60 90 70 110 200 250 240 330
3.85 3.773 3.927 60 90 70 110 200 250 240 330
3.90 3.822 3.978 60 90 70 110 200 250 240 330
3.95 3.871 4.029 60 90 70 110 200 250 240 330
ELECTRICAL CHARACTERISTICS (Continued)
Voltage Chart
XC6204 series Note: For the XC6204E, F, G, H type, see the item “Ta=25” only.
PARAMETER
SETTING
OUTPUT VOLTAGE (V)
SYMBOL E-u OUTPUT VOLTAGE TOIREX
13/51
XC6204/XC6205
Series
SYMBOL E-0 E-1 E-2
OUTPUT VOLTAGE
(V)
(2% products)
DROPOUT VOLTAGE 1 (mV)
IOUT=30mA
DROPOUT VOLTAGE 2 (mV)
IOUT=100mA
Vdif 1 Vdif 2
VOUT Ta = 2 5 -40℃≦Topr85 Ta = 25 -40℃≦Top r85
VOUT(T)
MIN. MAX. TYP. MAX. TYP. MAX. TYP. MAX. TYP. MAX.
4.00 3.920 4.080 60 80 70 100 180 230 220 310
4.05 3.969 4.131 60 80 70 100 180 230 220 310
4.10 4.018 4.182 60 80 70 100 180 230 220 310
4.15 4.067 4.233 60 80 70 100 180 230 220 310
4.20 4.116 4.284 60 80 70 100 180 230 220 310
4.25 4.165 4.335 60 80 70 100 180 230 220 310
4.30 4.214 4.386 60 80 70 100 180 230 220 310
4.35 4.263 4.437 60 80 70 100 180 230 220 310
4.40 4.312 4.488 60 80 70 100 180 230 220 310
4.45 4.361 4.539 60 80 70 100 180 230 220 310
4.50 4.410 4.590 60 80 70 100 180 230 220 310
4.55 4.459 4.641 60 80 70 100 180 230 220 310
4.60 4.508 4.692 60 80 70 100 180 230 220 310
4.65 4.557 4.743 60 80 70 100 180 230 220 310
4.70 4.606 4.794 60 80 70 100 180 230 220 310
4.75 4.655 4.845 60 80 70 100 180 230 220 310
4.80 4.704 4.896 60 80 70 100 180 230 220 310
4.85 4.753 4.947 60 80 70 100 180 230 220 310
4.90 4.802 4.998 60 80 70 100 180 230 220 310
4.95 4.851 5.049 60 80 70 100 180 230 220 310
5.00 4.900 5.100 50 70 60 90 160 210 200 290
5.05 4.949 5.151 50 70 60 90 160 210 200 290
5.10 4.998 5.202 50 70 60 90 160 210 200 290
5.15 5.047 5.253 50 70 60 90 160 210 200 290
5.20 5.096 5.304 50 70 60 90 160 210 200 290
5.25 5.145 5.355 50 70 60 90 160 210 200 290
5.30 5.194 5.406 50 70 60 90 160 210 200 290
5.35 5.243 5.457 50 70 60 90 160 210 200 290
5.40 5.292 5.508 50 70 60 90 160 210 200 290
5.45 5.341 5.559 50 70 60 90 160 210 200 290
5.50 5.390 5.610 50 70 60 90 160 210 200 290
5.55 5.439 5.661 50 70 60 90 160 210 200 290
5.60 5.488 5.712 50 70 60 90 160 210 200 290
5.65 5.537 5.763 50 70 60 90 160 210 200 290
5.70 5.586 5.814 50 70 60 90 160 210 200 290
5.75 5.635 5.865 50 70 60 90 160 210 200 290
5.80 5.684 5.916 50 70 60 90 160 210 200 290
5.85 5.733 5.967 50 70 60 90 160 210 200 290
5.90 5.782 6.018 50 70 60 90 160 210 200 290
5.95 5.831 6.069 50 70 60 90 160 210 200 290
6.00 5.880 6.120 50 70 60 90 160 210 200 290
ELECTRICAL CHARACTERISTICS (Continued)
Voltage Chart (Continued)
XC6204 series (Continued) Note: For the XC6204E, F, G, H type, see the item “Ta=25” only.
PARAMETER
SETTING
OUTPUT VOLTAGE (V)
14/51
XC6204
/
XC6205 Series
SYMBOL E-0 SYMBOL E-0
OUTPUT VOLTAGE
(V)
(1% products)
OUTPUT VOLTAGE
(V)
(1% products)
VOUT VOUT
V
OUT(T)
MIN. MAX.
VOUT(T)
MIN. MAX.
2.95 2.921 2.980 4.55 4.505 4.596
3.00 2.970 3.030 4.60 4.554 4.646
3.05 3.020 3.081 4.65 4.604 4.697
3.10 3.069 3.131 4.70 4.653 4.747
3.15 3.119 3.182 4.75 4.703 4.798
3.20 3.168 3.232 4.80 4.752 4.848
3.25 3.218 3.283 4.85 4.802 4.899
3.30 3.267 3.333 4.90 4.851 4.949
3.35 3.317 3.384 4.95 4.901 5.000
3.40 3.366 3.434 5.00 4.950 5.050
3.45 3.416 3.485 5.05 5.000 5.101
3.50 3.465 3.535 5.10 5.049 5.151
3.55 3.515 3.586 5.15 5.099 5.202
3.60 3.564 3.636 5.20 5.148 5.252
3.65 3.614 3.687 5.25 5.198 5.303
3.70 3.663 3.737 5.30 5.247 5.353
3.75 3.713 3.788 5.35 5.297 5.404
3.80 3.762 3.838 5.40 5.346 5.454
3.85 3.812 3.889 5.45 5.396 5.505
3.90 3.861 3.939 5.50 5.445 5.555
3.95 3.911 3.990 5.55 5.495 5.606
4.00 3.960 4.040 5.60 5.544 5.656
4.05 4.010 4.091 5.65 5.594 5.707
4.10 4.059 4.141 5.70 5.643 5.757
4.15 4.109 4.192 5.75 5.693 5.808
4.20 4.158 4.242 5.80 5.742 5.858
4.25 4.208 4.293 5.85 5.792 5.909
4.30 4.257 4.343 5.90 5.841 5.959
4.35 4.307 4.394 5.95 5.891 6.010
4.40 4.356 4.444 6.00 5.940 6.060
4.45 4.405 4.494
4.50 4.455 4.545
ELECTRICAL CHARACTERISTICS (Continued)
Voltage Chart (Continued)
XC6204 series, 1% products
Note:±1% output voltage accuracy products are available for the XC6204E~H type from VOUT=2.95V.
PARAMETER
SETTING
OUTPUT VOLTAGE (V)
PARAMETER
SETTING
OUTPUT VOLTAGE (V)
SYMBOL E-| E-2 DROPOUT DROPOUT Y SYMBOL 8-1 SUPPLY CURRENT SYMBOL E—4 MAXIMUM OUTPUT TOIREX
15/51
XC6204/XC6205
Series
SYMBOL E-0 E-1 E-2
OUTPUT VOLTAGE
(V)
DROPOUT
VOLTAGE1 (mV)
IOUT=30mA
DROPOUT
VOLTAGE 2 (mV)
IOUT=100mA
Ta = 25
VOUT Vdif 1 Vdif 2
VOUT (T)
MIN. MAX. TYP. MAX. TYP. MAX.
0.90 0.870 0.930 1050 1100 1150 1200
0.95 0.920 0.980 1050 1100 1150 1200
1.00 0.970 1.030 1000 1100 1050 1200
1.05 1.020 1.080 1000 1100 1050 1200
1.10 1.070 1.130 900 1000 950 1100
1.15 1.120 1.180 900 1000 950 1100
1.20 1.170 1.230 800 900 850 1000
1.25 1.220 1.280 800 900 850 1000
1.30 1.270 1.330 700 800 750 900
1.35 1.320 1.380 700 800 750 900
1.40 1.370 1.430 600 700 650 800
1.45 1.420 1.480 600 700 650 800
1.50 1.470 1.530 500 600 550 700
1.55 1.519 1.581 500 600 550 700
1.60 1.568 1.632 400 500 500 600
1.65 1.617 1.683 400 500 500 600
1.70 1.666 1.734 300 400 400 500
1.75 1.715 1.785 300 400 400 500
SYMBOL S-1 S-2 S-3
SUPPLY CURRENT
(μA)
PRODUCT SERIES
MIN. MAX.
CE “H” CURRENT
(μA)
CE “L” CURRENT
(μA)
XC6205A 52.0 115.0 18.0 -0.1
XC6205B 42.0 95.0 0.1 -0.1
XC6205C 52.0 115.0 0.1 -18.0
XC6205D 42.0 95.0 0.1 -0.1
SYMBOL E-5 E-4
INPUT VOLTAGE
(V)
MAXIMUM OUTPUT
CURRENT
(mA)
SPECIFIED
OUTPUT VOLTAGE
(V) VIN MIN.
0.900.95 2.5 260
1.001.05 2.5 260
1.101.15 2.6 270
1.201.25 2.7 290
1.301.35 2.8
1.401.45 2.9
1.501.75 3.0
300
ELECTRICAL CHARACTERISTICS (Continued)
Voltage Chart (Continued)
XC6205 series
Specification Chart b
y
Series
Specification & Condition by Series
* VOUT(T)=Specified output voltage
PARAMETER
SETTING
OUTPUT VOLTAGE (V)
VIN Vouv CE Vss Cm CL —— 1n F vw GEE 2:5,: _. mm vow anlage Reference V55 TOFFEE c vm=~1w vouFI u~n av mu CM=10u F(cemm\d.CI=1 flu Haemrmc) 1o ESR(Q) SYAELE REGION 01 0 01 o 20 40 so 80 100 Iow(mA)
16/51
XC6204
/
XC6205 Series
VOUT 0.9V ~ 1.2V 1.25V ~ 1.75V
CL 4.7μF 2.2μF
TYPICAL APPLICATION CIRCUIT
< Low ESR Capacitors >
With the XC6204/05 series, a stable output voltage is achievable even if used with a low ESR capacitor 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 1μF. Also, please connect an input capacitor (CIN) of 0.1μF between the VIN pin and the
VSS pin in order to ensure a stable power input.
OPERATIONAL EXPLANATION
Output voltage control with the XC6204/6205 series:
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 & 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.
Recommended output capacitor values
<Current Limiter, Short-Circuit Protection>
The XC6204/05 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. However, when the input/output voltage
differential is quite small, this current will be about 200mA.
xcszosaos: ‘01”:va cw=1 Tuflummm) cm Tuszmmcv a F 3 O > m E :2 5 00 2.0 40 6,0 80 10.0 mm Voltage W (V) XCSZDSWQQ “251053151 WWWMW. WW 3 Em A Jdlg A g 3 S Z > o g :5 ‘5 > g > 2 3 .5 5 7 a. E a 2 g TIME (Aouseddw) TME (museum) OTES ON USE TOIREX
17/51
XC6204/XC6205
Series
NOTES ON USE
1. Please use this IC within the stated maximum ratings. 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 strengthen 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. 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.
<CE Pin>
The IC's internal circuitry can be shutdown via the signal from the CE pin with the XC6204/05 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 XC6204/05B type is ' 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 if a voltage between 0.25V and 1.5V is input.
<Minimum Operating Voltage>
In order to stabilize the IC's operations, an input voltage of more than 2.0V is needed. Should the input voltage be less
than 2.0V, the output voltage may not be regulated correctly. (Please refer to Input Voltage vs. Output Voltage
characteristics below.)
When VIN is less than 2.0V, the CE pin remains in stand-by mode.
When VIN rises above 2.0V, the power supply will turn ON.
The input power supply will begin to rise after a few hundred msec.
(Please also refer to the transient response characteristics.)
Enable Response Time Turn-ON Response Time
OPERATIONAL EXPLANATION (Continued)
Input Voltage vs. Output Voltage
' VIN Vour J» CE I Vss ' RL __ mm L w 7'77 7,1 (A) V'" WW7 OPEN Vss 7'77 VIN Vow ‘ ’ buF‘DmA VIN Vow lieu—Wm V1Wounn+1anc+L0wa CE Vourmélfiv Vss V1N=2.5VDC+1.0Vp—9Ac lC-rarwcj v“
18/51
XC6204
/
XC6205 Series
Circuit 1
TEST CIRCUITS
Circuit 2
Circuit 3
Circuit 4
*TEST CIRCUIT VCE(CE Pin Voltage)
ACTIVE
XC6204/XC6205ABEF Type・・・・・・VCEVIN
XC6204/05CDGH Type・・・・・・VCEVSS
STANDBY
XC6204/05ABEF Type・・・・・・VCEVSS
XC6204/05CDGH Type・・・・・・VCEVIN
CIN=1.0μF
(
Ceramic
)
CL=1.0μF
(Ceramic)
CIN=1.0μF
(
Ceramic
)
CL=1.0μF
(Ceramic)
CL=1.0μF
(Ceramic)
X66204x1 82 Vtu=2 av cwcm u u r (mummy Output Vottagewom (V) 00 u 50 100 150 200 250 300 350 Output CunentzlouT (mA) XCGZOAXZSZ Vtu=u 5v cupcm a u F (caramel Output Voltagezvour (V) U 50 100 150 200 250 300 350 Output CurrentzlouT (mA) XCGZOAXSOZ Vtu=t ov cupcm a u F (caramel 4 o :50 m: __ 4m: 10 Output VoltageNOUT (V) U 50 100 150 200 250 300 350 Output CuvrenlzlouT (mA) Output VollageNoUT (V) Output Voltagezvour (V) Output Vollage VouT (V) XC6204X1 82 Topr=25 “c cm=CL=1 mt F(aelamtc7 25 20 1.5 7 10. 05 00 u 50 100 150 200 250 300 350 Output Current louT tht XC6204><252 tupr="25" “c="" swam="" o="" u="" f="" twamtct="" u="" 50="" 150="" 150="" zud="" 250="" 300="" 35!)="" output="" currentzlour="" (ma)="" xc6204x302="" tupr="25" “c="" swam="" o="" u="" f="" twamtct="" 4="" o="" 30="" p="" \l="" vtu="33v" _="" anuv="" i="" 20="" 7*="" wn="7DV" i="" a="" .="" my="" 10="" ’="" o="" u="" 50="" 150="" 150="" zud="" 250="" 300="" 35!)="" output="" cunentlour="" (ma)="" toirex="">
19/51
XC6204/XC6205
Series
TYPICAL PERFORMANCE CHARACTERISTICS
XC6204
(1) Output Voltage vs. Output Current
Output Voltaae‘Vom (V) Output VottageVour (V) Output Voltage VOUT (V) XC6204X502 was nv stream 0 V F \uevamtm u so 100 150 200 250 300 350 Output Current: IOUT (mA) X06204“ 82 Togt‘25 °c cwcm n u r (tevamtc) IouT=0mA 1 mA 30mA 100mA 1.3 1a 2.3 Input Voltage VIN (V) XC6204X252 Topr=25 ‘c CM=CL=I o u Fmevarnm IOUT=0mA 1 mA SOmA 100mA 20. 2.5 3 o InputVoltageNtN (V) Output VottageVour (V) Output Vottage VouT (V) Output Vottage:Vout (V) XCGZDAXSUZ “.1525 ”c CIN=CL=1 w Ftuvamtm u so 100 150 200 250 300 350 Output Current: low (M) X06204“ 82 an=25 ‘c ctn=ct=1 flu F(neramtc) 190 185 tau ‘1 75 IOUT=DmA 1mA 1 70 30mA 165 3 A 5 6 7 a 9 10 tnput Voltage VIN (V) XC6204X252 was ‘c cm=ct=t flu F(ueramtc) 2 50 2 55 2 an 2 ‘5 |0UT=OmA 1 mA 2 40 SOmA 235 3 A 5 s 7 a 9 10 Input Vottager (V)
20/51
XC6204
/
XC6205 Series
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(1) Output Voltage vs. Output Current (Continued)
(2) Output Voltage vs. Input Voltage
Output Vo)tage Vow (V) Output Vonage1V0UT (V) Dropout Vauage Vutt (V) XC5204x302 Toads ‘c cw=ct=t ounwamm) IouT=UmA 1mA BDmA 100mA 25 30 4 10 us 05 04 02 00 Input Voltager (V) XC5204x502 35 Toads ‘c Cm=m=t uu rtwamm 5 5 0 Input Vo)tage:Vtu (V) X06204x182 55 Cw-CL-I n u r (cemmm TonflS ”c — 25 “c 40 ”C / g; 0 so 100 150 Output Cunent )our (mA) 200 Output Votage VOUT (V) Output Voltage'VOUT (V) XC6204X302 155:2!) “c CW=CL=I uu Nursing) 3.10 a 05 3 DD 2 95 IouT=0mA 1mA 2 9° SOmA 2 55 4 5 6 7 8 9 10 Input Voltager (V) XC6204X502 Tow:25 "C Cm=CL=I nu Fmerarmc) 5.10 5 05 5 no 4 95 IouT=0mA mm 4 DD 30mA 4.85 4 5 5 7 8 9 10 Input Voltagezwu (V) XCSZO4X252 mum“ DuFlcernmtc) 1 u E 3 u 5 > Topr=85 “c 8: o 5 — 25 ”0 g .40 °c o 3 o 4 § // e o 2 a o n 0 so 100 «so 200 Output Current )our (mA) TOIREX
21/51
XC6204/XC6205
Series
(2) Output Voltage vs. Input Voltage (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(3) Dropout Voltage vs. Output Current
XCSZO4X302 We”. Duflcemmc) 1n 3 g as 3 Tupr=35°c o: as 7 25°C g 40°C 3 04 a // 9 02 a % on u 50 100 150 200 mm Currentlouv (mA) X06204B182 100 3 5 an o e E an a 5 AU _> 3 = 20 m n o 2 4 e 8 1o \nput VallageMN (V) X06204E5302 100 7i 5 an 8 E so 2 8 AU _> n. 3 20 a: o 2 4 e 8 1o |npu| VoltageMN (V) XCSZO4X502 CM-CL-I n u r (cemmm 1n 3 2 DB ; Topr=as"c " i 25"0 E 05 «we a 3 04 / 9. / 9 02 D on u 50 100 150 200 Output Current.\0uT 1mm X062043252 100 3 5 an o 2 E so a S 40 _> 3 = 2a m o o 2 4 e a 10 Input Voltage Vm (V) X06204E5502 100 3 5 an o 2 E an a 5 AD 2‘ 3 = 20 m D 2 4 e Inpul VollageMN (V) 8 10
22/51
XC6204
/
XC6205 Series
(3) Dropout Voltage vs. Output Current (Continued)
(4) Supply Current vs. Input Voltage
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
* Since the operation of this IC is only guaranteed from VIN=2.0V and above, it is essential that when using with
applications where VOUT=2.0V or less, the difference between VIN and VOUT be at least equal to 2V – VOUT(T).
Output Vomage Vow (V) Oukpuk Voltage Vow (V) Supply Currenl loo (VA) X66200) 32 mm av omcm n u r (my...) (so 1235 150 Iow=va mm 175 mm 100m (70 -5o -25 a 25 50 75 100 Ammem TemperatureIopr ( “0) X66204x302 vm:4nv EM: mountain“) 310 ans 3m) loUY=0mA m 295 MM IDOMA 220 .50-25 0 25 50 75 100 Ambient Temperature Topr (“9) XCEZO4B182 Vm-zsv 100 SD 30 70 ED so 50-25 0 25 50 75 100 Ammem Temperalure Topr ( “0) Output Vomage Vow (V) Oukpuk Voltage Vow (V) Supply Currenl loo (VA) X66204x252 VM:3 sv CM-CL-I auFlcemmlc> n a: c N o- m :2 2m 50 -25 a 25 50 75 100 Ammam TemperatureJopr ( “0) XCGZMXBOZ V)N:4 uv Cm=CI=1fluFtcemmc> w a m a) o) o N u- 290 50 -25 a 25 50 75 (00 Ambient Temperature Topr1°C) XCEZO4B252 Vw-f: 5v 1m) 2 3 5‘ 2 so 50-25 0 25 50 75 100 Amman) Temperature Tapr( °C) TOIREX
23/51
XC6204/XC6205
Series
(5) Output Voltage vs. Ambient Temperature
(6) Supply Current vs. Ambient Temperature
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
Supply Current Inn (y A) I Input VollageMN (V) an an so 70 an 50 XCSZO4B302 mm W -50 -25 0 25 50 75 100 AmmamTemperaIure.Topr1“(2) X06204x1 82 mA [Fihfiusec on r (mam) InputVohage Output Vonage Time (40‘: sec/div) 156 1.86 184 152 1.80 175 176 Oulpul Voltage Vour (v) Supply Current Inn (y A) XC62045502 mm av 100 an so 70 an so -50-25 a 25 50 75100 Ambient TemperatureJepr (“(2) XC6204x162 IouYZ343mAJVrfl=§u$€c 5 CL-1flnFmgmmm ”a 195 s Inpquonage 134 g > 181 % E a 180 3 = E." Oulpulvohage I75 5 176 Tune (40“ sec/div)
24/51
XC6204
/
XC6205 Series
(7) CE Pin Threshold Voltage vs. Ambient Temperature
(8) Input Transient Response
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(6) Supply Current vs. Ambient Temperature (Continued)
XC6204xxx2
0.00
0.50
1.00
1.50
2.00
-50 -25 0 25 50 75 100
Ambient Temperature:Topr ()
Threshold Voltage:V
CEH
,V
CEL
"H" Level V olta
e
VIN= VOUT+1VRL=100
CIN=CL=1.0uF(Ceramic)
"L" Level Voltage
XC6204xxx2
lnput Vollage.VlN (V) lnput Vollage.VlN (V) lnpul VoltageNlN (V) X06204x1 82 low: on n: was 5 cm OuF nevimlc) 1 as 4 1.35 g 3 lnputvaltage 184 g > 2 192 g g o l 1.30 2 = o 1 15 g Guam Voltage 0 .1 1 76 Time (40‘: sec/div) XC6204x252 louFJOmA nclhfiusec 6 c.. OuFKmvimlc) 2 55 5 2.55 g 4 Inpm Voltage 2 54 :2, > 3 2 52 g g 2 2.50 2 = l 2 as g cmpulvoltage o n 2 46 Time (40‘: sec/div) X06204X302 A‘ “5“:5“ sec 6 nuFloelalmr.) 308 5 :me 3 F 4 lnputVultage 3,04 3 >, 3 3.02 8: 3 o 2 3 on 3 a 5- ‘ Output Voltage 298 5 o I 296 Time (40“ sec/div) lnput VollageNlN (V) lnput Vollage:VlN (V) lnpul VoltageNlN (V) a: m ; w m a XC6204X252 lour11mA Wtfifiuwc cm on Hum-mm) lnpul voltage Output Vallaua Time (4w sec/div) XC6204x252 louY:1011mA (Hts 14 sec 0:0memm 6 Lllt( 7 lnrlul Venus: Output Volllge Tune (4024 sec/div) XC6204X302 loutfimmk (FHu 58: cm H u r (oelamlc) lnpm Voltage output Voltage Time (40 ll sec/div) 258 256; 254 g > 252 g g o 2503 = 45% 2 o 246 256 256 254 252 250 245 246 308 we 3'04 3.02 300 2,98 256 Output Voltage Vour (V) Oulpul VoltageVVouT (V) TOIREX
25/51
XC6204/XC6205
Series
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(8) Input Transient Response (Continued)
lnpul VoltageNlN (V) InputVolkage'VIN (V) Output Voltage‘VouT (V) XC6204X302 lawman t-cttzau 58: cm u u r (oelamlc) 1 .85 150 175 1 .70 1 .65 150 3 08 we 3 F InputVoltage 3'04 3 >, 3.02 8: 3 o 3 on 3 3 5- 2,98 3 Output Vollaue 0 256 Time (40 u sec/div) XCSZOAXSDZ toumomx tFfl=5n sac CL—Wufloelamtc) 5-08 5 06 9 Inpmvallage 5 04 § > 5 oz ‘3) 2 5.00 g it Output Voltage 4 93 5 4'96 Time (40 u sec/div) XC6204XW82 V *2 EV‘ |lcl1:5lnsc cm. -IDMF(LeGmIm 250 0 t W H E u pu 0 age 200 E P 150 g ‘5 100 g 5 Output Current 50 5 E = o o Tlme (20}! sec/div) Output VollageNour (V) Input Voltage Vm (V) u! 185 1.50 1.75 170 165 1.50 lout=toumA.u=tt=5u see c -l nu F(oevamlc) |npu| Vultage Oulpm Voltage Tlme (muses/div) X66204x1 82 V 7 BVJltflziusfl: clN=IUuF cu zurtcmmlc) Output Voltage Output Current Tlme (zou sec/div) 508 5.06 504 502 5.00 498 4,96 250 200 150 100 50 Outpul Voltage VouT (V) Output Currenmoul (mA)
26/51
XC6204
/
XC6205 Series
(8) Input Transient Response (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(9) Load Transient Response
XC6204x502
2
3
4
5
6
7
8
Tim e (40μsec/div)
Input Voltage:V
IN
(V)
4.96
4.98
5.00
5.02
5.04
5.06
5.08
Output Voltage: V
OUT
(V)
     IOUT=30mA、tr=tf=5usec
CL=1.0uF(ceramic
)
Out
p
ut Volta
g
e
Input Voltage
OumutVollageNouHV) Ou|pul Voltage'VouT (V) Output Vonagewnur (V) XC6204X182 XC6204X182 W: 31111:":5 W: W sum 135 WW, "”1”;ij 250 1 35 mm; CL=22uF 5 ”5 150 8 g ”5 150 g E g = 1 70 100 E E 1 7° 100 g - 0 011mm swam 5 3. 1 55 Ouxpm Currem ~ 1 55 50 5 5 50 g a a s O S 1 so 0 o 1 50 0 Time (20 u sec/dw) T1me (20 u sec/div) X06204x182 X66204x182 Emma,” W231”: finiac 1 as CNN “mmmm 250 1 55 mm W CL=22uF(wmmmv 250 o I xv n 2 A A 1 50 “9“ ° age 200 g i, 150 Oulputvollaga 200 E 2 0 1— 175 150 E f; ‘75 15° 5 E 3 g 1 70 100 g E ‘70 100 E > 3 U — o I we m1 0 1 55 ompmcurrem 50 a g 155 H D H 50 .5 ._ 3 n. a - 1 so 0 o o 150 a 6 Time (20 u seddw) T1me (20 u sec/div) XC6204x252 XC6204X252 V1 ArjIVZSAluc VWZJ 5V1|VZIVZ5AI$BC 255 cmmw mam» 250 255 C1N=1nuF CL=22uF(wmmmv 250 Outpuwcuage 2 A Out mvmta e A 2 50 200 g a 250 p g 200 E p ’5 V 2 45 150 5 E 245 150 g 2A0 00 E 8‘ 'E 1 g :5. 240 100 2 o > ‘5 2 35 omwmuflm 50 ‘5 E 2 35 OutpuKCurrenl 50 9 a. 3- = s = 9 2 so a o O 2 so a 5 Time (20 u sec/div) T1me (20 u sec/div) TOIREX
27/51
XC6204/XC6205
Series
(9) Load Transient Response (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
Oulpul Voltage:Vour (V) Output VottageNour (V) Output Vottagewuur (V) XCSZOAXZSZ 2.55 250 2.45 2.40 2.35 230 2.55 2.50 245 2.40 2.35 2.30 3.05 3.00 295 2.90 2.85 2.80 vm 5V. tr=tt=5 u sec cm=c 1 cu r (alarms) Output Vuttage Output Current Time (20 u sec/div) XC6204x252 V)N:3 5v. tctrzs u no Ctmmn Du rtwamm Output Vnttage Output Currenl Time (20 )1 sec/div! XC6204x302 V)N:4 oV. (arcs u no Ctmmn Du rtwamm Output Vottage Output Current Time (muses/div) 250 w o e or o m o u 250 N o o u- o 8 o u! o o 250 200 150 100 50 8 0 Output Currentztour (mA) Output Current lour (mA) Output Currenl'lour th) Output Vottage VouT (V) Output VottageVour (V) Output Voltage Vour (V) XC6204x252 2.55 2.50 245 2.40 2.35 2.30 2.55 2.50 245 2.40 2.35 2.30 3.05 300 2.95 2.90 2.85 250 V)N:3 5V. tctrzs u no cw=1 nu r ct=z ztt rtwamm Output Vottage Output Current Time (muses/div) XC6204X252 Wm 5V. mks): is; Cw=1 nu; q: u themm Output Vattag. Output Currem Ttme (20 u sec/div) XCSZOAXBOZ vw» Cw:1 011 F. Ck V. tr=tr=5u sec 2 u 5 tcstamtc) Oulput Voltage Output Current Time (20 usec/dw) 250 200 150 100 50 0 250 200 150 100 50 250 200 150 100 50 Output Current tour (mA) Output Currentzlour (mA) Output Current:tour (mA)
28/51
XC6204
/
XC6205 Series
(9) Load Transient Response (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
Output VoltageNour (V) Output VottageNour (V) Output VoltageNour (V) XC6204X302 uurteeramtc) a 05 250 Out ulVoha e 2 3 00 p g 200 E 2 95 150 5 E 290 100 g 3 2 85 Output Current 50 g = 2 so 0 0 Time (zousec/div) XC6204X302 V)N:4 w tr:I1:5uuc 3 05 cttsm-I uurteuemur 250 o t tV )t Ii 3 0° upu 0 age 200 E 2 95 150 53 E 290 100 t 5 2 35 Output Current 50 i s 2 so 0 0 Time (Zouseddw) XC6204X502 UV‘ 5uiec 505 DuHoemmm) 250 2 5 00 Output thtage 200 E 495 150 5 E 490 100 E 8 4 55 Output Curem 50 5 9 z 4 so a 0 Time (zou sec/div) Output Vattage Vour (V) Output Vottage Vour (V) Output Voltage VOUT (V) 305 300 295 290 285 280 305 300 295 290 285 280 505 500 495 490 485 430 XC6204X302 Vw:4 wt 5am: cum nuF Cl 2nF
29/51
XC6204/XC6205
Series
(9) Load Transient Response (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
Output Vottage VouT (V) Output Vo)tage:Vour (V) 5.05 5.00 495 4.90 4.85 4.80 5.05 5.00 495 4.90 4.85 4.80 )nput Voltagezvm (V) XC6204x502 VtN:6 oV. tcttzs u no cuscm Du thvamw) Output Vonage Output Current Twme (ZDuseddiv) XC6204X502 w. mks): is; u u Ftwemm output Votlage Output Cunem Time (20 u sec/div) X06204x1 82 Input Voltage Output Vollage 1m (20): sec/div) 250 200 150 100 50 25 20 15 10 50 0 0 0 0 Ou|pu| VouageVom (V) Output Currenl'lour (tnA) Output Current lour (mA) Output VottageNuur (V) Output Vonage:V0ur(V) 5.05 5.00 495 4.90 4.85 4.80 5.05 5.00 495 4.90 4.85 4.80 Input Voltageth (V) XC6204X502 mm W. mks): is; CvN=1 nu F u: zu Ftwemm Output Vonage Output Current Tme (20): sec/div) XC6204x502 VtN:6 oV. tcttzs u no CVN=1 nu F Cl=2 zu thvamw) Output Vuuagu Output Current Time (zousec/div) X06204x1 82 to Vw=0<2 av.="" c="" m4.="" t-c5u="" sec="" t="" a="" u="" r="" (oevamlc)="" input="" voltage="" output="" vollage="" 1m="" (20):="" sec/div)="" 250="" 200="" 150="" 100="" 50="" 250="" 200="" 150="" 100="" 50="" outputvotlage="" vour="" (v)="" output="" currenlzlom="" (ma)="" output="" currenl'lom="" (ma)="">
30/51
XC6204
/
XC6205 Series
(9) Load Transient Response (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(10) Turn-On Response Time
X06204x182 X06204x252 \outmamklpwsec \wt:1mA.n=5usec 4 V1N=0<28v,cl=1auf’oevamlm 4="" vw=""><35v, =1omf’oevamlc7="" a="" 2="" 4="" e="" a="" 2="" mmvmue="" 4="" 3="" z="" inquoitage="" _="" 2="" p="" g="" 1»="" z="" :1="" e="" 8="" f)="" a="" a="" g="" as="" 0="" 3=""> :1 up In a: 2 g g g 3 ,2 g o 72 g i 2 § 3 ompuwenage 2 > g Dmpmvollage 5 E. 3 = 9. 5 2 — -4 1 a -4 1 3 o 5 o 5 0 1m (20;: sec/div) 1m (20;: sec/div) X06204X252 X06204X252 \ouv:30mA. ":51 sec \outmamA. [F511 sec 4 V1N=0<35v,cl=1anf’oevamm) 5="" 4="" v1n=""><35v,cl=1anf'oevamm) ;="" 2="" \npmvmuge="" 4="" é="" ;="" 2="" lnpu!vullage="" 4="" é="" ;="" a="" g="" 5="" eu="" 0="" 3=""> in U 3 > :1 m :1 m g 3 g 3 o ,2 g o 72 g i ompuwenage 2 S i ompuwenage 2 § 3. 3' 3. 3' 5 -4 1 g 5 -4 1 g o o 5 o 5 0 1m (20;: sec/div) 1m (20;: sec/div) X06204X302 X06204X302 \wt:1mA.lF5usec \UUT:30mA.n=5usec 4 vw=a<¢w =wuf’oevamlc7="" v1n=""><¢w,cl=1anf’oevamnc) 5="" 4="" 5="" g="" 2="" [="" inpuivonage—="" 4="" 3="" g="" 2="" i="" inpmvquge—="" 4="" §="" e="" g="" e="" s="" a;="" 0="" 3=""> Z 0 a g m a: a m g g E 3 g .2 OmpuIVDMagsi 2 E g ,2 0u|pulVoHagei 2 g — U > = .. 3 - a. 2 g. = a 5 A 1 5 E .4 1 % o o .6 0 xi 0 Tune (2014 sec/div) 11m (20;: sec/div) TOIREX
31/51
XC6204/XC6205
Series
(10) Turn-On Response Time
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
lnpul Voltage'VlN (V) Input Vollage: N (V) CE lnpulVoltageNcE (V) N ‘ a N L (b XC6204X302 mutton-«A. t-c5ll sec VlN=0<¢ av.="" cm="" all="" noevamtcl="" i="" input="" vonage="" —="" output="" vallage="" —="" tlme="" (20;:="" sec/div)="" x06204x502="" ma.="" (f511="" sec="" vln=""><6 av="" c="" a="" l="" r="" (celamlc)="" input="" voltage="" 011“)th="" voivase="" tlme="" (20p="" sec/div)="" x06204x1="" 82="" 71m="" (:5="" u="" sec="" 0“="" r="" \oemmlm="" ce="" input="" voltage="" output="" voltage="" tlme(20l1="" sec/dlv)="" n="" w="" a="" outpul="" vollage‘vout="" (v)="" 10="" 5="" oulpul="" voltagevour="" (v)="" omputvaltage2vour="" (v)="" lnputvallagenln="" [v)="" lnpul="" voltage="" vin="" (v)="" ce="" lnpulvoltagence="" (v)="" xcgzoaxsoz="" |0ln:1ma‘="" afsiiwi:="" vin=""><6 w.="" cm="" 0a="" flcemmlcl="" 10="" time="" (20="" )1="" sec/dlv)="" a="" g="" inpulvollage="" p="" 8="" 5=""> w 3 Dulpmvoltage ‘ f, > 2 E = o 0 Time (20 )1 sec/dlv) XC6204X502 10 a E lnputVottaga 5 s 3 a: m E outputvoltaqe 4 g E 2 ‘5 O 0 Tlme (muses/div) XCGZO4X182 VI rzawo ’IOMA‘AFSIIWC vcE «2mm. OuFlcemmlcl 4 5 4 3 CE Input Voltage ‘5 3 2 a) a, .‘E 2 ‘6 > Ompulvollage 1 a 0 O
32/51
XC6204
/
XC6205 Series
(10) Turn-On Response Time (Continued)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(11) Enable Response Time
(These characteristics will not be affected by the nature of the CE pin's logic)
CE lnpuIVoltagezvcE (V) CE lnpuIVoltagezvcE (V) CE lnpuIVoltagezvcE (V) X06204x1 82 V vs av, Iou 100M (FSIJW «2 av. =( 044 neemmie) CE Inpui Voltage Output Vonage Time (20 )4 sec/dlv) XCGZOAXZSZ VI 3 5v, lowzam ":51ch 4 ve «a 5V.CL=1 on neemme) 2 I CE Input Voltage — o ,2 / ompm Vonege .4 .s Time (20 )4 sec/dlv) XCGZOAXSOZ w Io 1m ":51ch 4 w. c . OuFmerzmic) 2 I CE | — npm Voltage 0 ,2 f / ompm Vonege .4 .s Time (20 )4 sec/dlv) 5 ompui VoiiageNour (V) ompui VoiiageNour (V) ompui VoiiageNour (V) XCGZOAXZSZ 5M |0w:1mA( (FSIJW 4 «35V. =(oi4neemiie) S 3 2 CElnpmVoltagei 2 % o g o 3 .2 a g- Outpul Voltage )4) .4 o J .5 Time (20 )4 sec/dlv) XCGZOAXZSZ v... sv,ieuv:1aam4)cspsee 4 vs «35V. =(oi4neemiie) 5 9 I I 2 4 g CE Imzm Voltage % o 3 g o 3 .2 2 a g- Outpul Voltage )4) .4 1 o .5 0 Time (20 )4 sec/dlv) X06204x302 vm av, Iowflflmk AFSIJW 4 vee=u-4nv.u.(oi4neemiie) 5 9 E 2 / CElnpmVoitagei 4 2 % o 3 g o 3 .2 2 a g- OlmauKVulIaga )4) .4 1 o .5 0 Time (20 )4 sec/dlv) ompui VoiiageNour (V) ompui VoiiageNour (V) ompui VoiiageNour (V) TOIREX
33/51
XC6204/XC6205
Series
(11) Enable Response Time (Continued)
(These characteristics will not be affected by the nature of the CE pin's logic)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
XCGZOAXSOZ qu av,lou¥:100mA( (:5 11 sec VCE=D<4 w="" (21:1="" nu="" fmevammy="" 4="" 9="" e="" 2="" i="" cempmvonage—="" 2="" %="" o="" g="" f="" o=""> 72 5 g- OutputVulIaga m .4 o 46 Time (20 u sec/div) XC6204X502 CE Input Vouagchs (V) Rlpple Rejemlon Rate'RR (d8) V. 3 av, Iom=zom ":5 a see «a w. cm on mama CE (upmVauaga Ompu! Voltage 'nme (zou sec/div) XC5204X182 90 001 5 43 é 3? a) a, s 2E s (a o o w 3% E 62 a: E 4E i 2‘s O o w:2 EVDch svw: Iuw=snmh cm ouFmelzmc) 01 1 1D Ripple Frequency i (kHz) 100 CE lnpulVoltageNcE (V) CE lnpulVoltageNcE (V) Rlpple Rejectlon Rate RR (d8) XCGZOAXSOZ vw:5 w Iom:1mA‘Ar:5usec vcE=u«6 w. cm on Flcemmm) CE Inpm Vuuage ompm Voltage Time (20 u sec/div) XCGZOAXSOZ 90 vm:5 av, Iowdam (:5 u we vcE=u«6 w. cm 0a Fmemmm) c: Inpuwnlmge Oulpm chsge Time (20 u sec/div) X06204x252 01 (o 53 E 5? a) a; 1‘! 46 > s 22 o o (o 53 E 5? a) a; 1‘! 46 > s 22 o o Vwfl 5vnc~o 5Vp-w huv=WmA cm nu Fmevamm) I 10 100 Ripple Frequency:f(kHz) (000
34/51
XC6204
/
XC6205 Series
(11) Enable Response Time (Continued)
(These characteristics will not be affected by the nature of the CE pin's logic)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
(12) Ripple Rejection Rate
Rlpple Rejectlon Rate RR (as) 90 X06204x302 mm ovwa 5Vv-vw Iaur=50mA cm on Ftwvamle) 0 1 1 10 100 1000 Rlpple FrequencmkHz) Rlpple Rejectlon Rate RR (as) XC6204X502 was ovum 5Vp-w nuY=WmA cm flu Floevamm) D 1 I 10 100 1000 Rlpple FrequencyflkHz) TOIREX
35/51
XC6204/XC6205
Series
XC6204x302
0.01
0.1
1
10
0.1 1 10 100
f(kHz)
出力雑音密(μV/
(12) Ripple Rejection Rate (Continued)
(13) Output Noise Density
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6204 (Continued)
Ripple Frequency: f (kHz)
Output Noise Density: (μV / Hz)
IOUT=10mA , CL=1.0μF (ceramic)
XC6205X092 VIN=2 av Cum 0 u Fmemmc) cm 7 u Ftcetamm a S ,, o s :I =r%= g Topr:40: n. 7: . 5’ V 5 7 we g :3 07 = O (J 6 0 40 so 120 150 :00 Output Current tour (mA) XC6205x092 mm 1 2 cwourtnmmm.cumnmmu g 1 0 S o u a 3 WWW g: u e 25%: E 85°C > 0'4 2 5 o 2 O 0 D U 100 200 300 400 Output CmrenmoUT (mA) X06205K092 Tnpr=25°c 1 2 CW oustcmmctmunwmm H1 0 a S u a a > % 0,6 g g u 4 E E U 2 VIN=2 UV 0 D 0 o 100 200 300 40:: Output Currentzlom (mA) X06205x1 52 vw:z 5v 1 6 CIN=1UuFloevamml ct=22mmamm E ,_ 1.5 8 ? Tovr=4D°E o’- t A _ 2w :3“ we > :31 3 = o 1 2 o 40 80 120 160 200 Output Currenclom 1mA) X06205X152 vw:25v 1 a own (In Unelamtc}. Cu; 7Ml’kcemmtc? A 1 e > ’5 1 4 o 1 Z Tppr=40°c i 1 o 25‘9 a BS‘C % u s 3 U a g o 4 3 o a z 0 D 0 100 200 300 400 Output Current'lOUT (mA) XC6205x1 52 ”W251: cw 0n FKcnramtc) CL=2 IMchlvamtc) 7’3 W 7 suv‘ 10 0v 2 5V fl Vw=2 ov / | o 100 200 300 400 Output Current IOUT (mA) N o a: Oulput Vollaae'VOUT (V) a co
36/51
XC6204
/
XC6205 Series
XC6205
(1) Output Voltage vs. Output Current
(2) Output Voltage vs. Output Current (Current Limit)
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
annlfi'c cw DMFKcerErmc‘ cm: YuFl‘emmt) ompm Vulcage v our (V) u 5 1 u 1 5 2 u 25 mm“ Voltage VIN 1v) tuppzsc own umcmmy OL=Z zumm-m 17 mm: S16 .m ,_ 30m 315 =mnmA > 5,14 E €13 > :12 ‘5 °11 70 ID 15 20 \npul Vuuage VIN 1V) Ema nunmm) quwmmm» proul Vnnage vaw w) o 40 so 120 130 200 Output Curran IOUT (mm ”was: cmm nmwmm cm 7117(cemmlcy 095 090 055 08:) Output Voltage V our (VD o 75 2 4 6 B m 12 mm Vanage VIN (v) manta: emu Ouitoemmcy cL=2 Qufloeramc) 1 50 A170 (V VI 8&3 130 N 0 Output Vauage 5 1 on 2 4 s a 10 12 Input Vonage vw {V} min Duflcemmm) (1:2 2MF(c=ramvcr Dlnpcu! vacage vaw (v‘ a o A A 5 g. on m a M .~. as m o o n 40 so ‘20 160 200 Ouxpu: Cunem IOUT (mA) TOIE'EX
37/51
XC6204/XC6205
Series
(3) Output Voltage vs. Input Voltage
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6205 (Continued)
XC6205x092 XC6205x092
XC6205x152 XC6205x152
XC6205x152 XC6205x152
(4) Dropout Voltage VS. Output Current
Sunp‘y Current | ss 01A) 80 70 so 50 4o 30 20 1o 0 Supp‘y Current I ss um) Oumul vmage v ouT (V) a a o _. d o a XC6205X092 Tow! we 25%: .4n'c 30 D 0 0,5 1 0 1 5 2.0 2 5 Input Voltage vw M xcezosmsz 0 D U 5 1.0 L5 2 0 2 5 Inpul Vouage vm (w XCBZDSXOQZ 720 10 40 70 Ambxenl Temperature Tnpr1°c) 100 xcezosxosz 80 i a, 70 w E F,// 3 SD ##l o ,rz— g m»: m : 25°C— (/7 5° 4m: no | I 2 3 4 s s 7 a 9 1o Inpm VolKage VIN (V) x06205x152 90 ‘5 so a. m // 2 7o .1 .— " " : ,____._ 3 3 Tow! 55‘s— :- 60 25“) 3 .mr = m 50 _ 40 2 3 4 5 e 7 a e 10 Input Voltage vw (V) XC5205x152 we”, 1 7 C\N=‘ OuFloemmc) Cl=2 ZuFlmramc) Sta ,_ 3 0 >15 a: E :14 E 513 1'2 .50 .20 10 40 70 Ian Amhxent Temperature Tuprfc)
38/51
XC6204
/
XC6205 Series
(5) Supply Current vs. Input Voltage
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6205 (Continued)
(6) Output Voltage vs. Ambient Temperature
OutputVollage (V) yum av 30 so m 20 Supp‘y Current Iss mm 750 720 1o 40 70 100 Ambient Tampeamxe Top! (”CV vw=vomuv ammo ow DMFKaerammD cm nrmenmm o a 05 w-ngn- vouage 3 100 o S u? "LW‘ Vunage nmmm Vanaga v can VCELW) .0 o o 750 725 u 25 50 75 100 Ammem Temperalure Tour (‘0) X06205x092 w .nv emu nunwammm mnwmm) 1 00 n 95 OuIDu| Vonaae D 50 use Oumm Cumnl 080 075 u 70 Tvme (40 u sec/dlv) Output Current (mA) Supply Omen! 1 35 1mm Oulpu‘ Vollage (V) 100 vw-z sv 80 so 4o 20 1 00 0,95 0,90 0 as D 30 0'75 om 720 1 u 41: 7o Ambwen! Temperaxure Tupr (“(2) XCGZOSXOQZ vw=z nv cmm amummm cL=4 mrmemmm Oumm Vollzge cuwm eumm Tlme Mousse/div) wu 300 250 200 150 100 Output 0mm (mA) 50 TOIREX
39/51
XC6204/XC6205
Series
(7) Supply Current vs. Ambient Temperature
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6205 (Continued)
(8) CE Pin Threshold Voltage vs. Ambient Temperature
XC6205x092 XC6205x152
XC6205xxx2
(9) Load Transient Response
Outpul Volage (V) lnpul leige m Input Vo‘tage (V) X06205“ 52 VIN-2 5v Cm=L0uF1nenm1CLCL=2 unommm} 1 60 1.55 ompmvomgt 1.50 145 mm Cumnl 1 A0 135 1 30 11me<40usecmm xcszoexdqz="" €1.24="" “mammal="" 4="" 2="" 5="" w:="" mu»="" 2="" 2="" d="" u="" 1="" 5="" cum="" velar="" .2="" i="" n="" w.="" 4="" jam="" ’="" °="" 5="" won-a="" -6="" '="" d="" 0="" time="" (no="" u="" secldm="" wout="|mA£L=4" vurtoemmm="" 4="" i="" 1="" 2="" input="" leaue="" a="" 1="" 1="" 2="" 1="" 0="" amp“="" vullaqa="" 1="" 0="" 9="" u="" o="" s="" _1="" 0="" 7="" time="" (adusec/dnl)="" output="" cunem="" (ma)="" 0mm="" von-go="" (v)="" output="" voltage="" m="" inpm="" va="" 3.="" (v)="" \npul="" voltage="" (v)="" ompm="" valtage="" (v)="" 160="" 135="" 1.30="" -15="" 400="" 1.55="" 150="" 145="" 140="" xc6205x1="" 52="" vm="2" 5v="" c1n="mmcmmm1cL=2" zufmenmm)="" 250="" own="" was.="" 8="" a="" cum.="" em.“="" 8="" 3="" a="" a="" (mum="" curem="" mm)="" o="" s="" t1me="" (aflusecldw)="" xcgzosxisz="" cmzmmmm="" 3="" a="" mum="" war="" 2="" 5="" a="" 2="" 20="" §="" m."="" m...="" g=""> 1.5 5 2 10 S I IOV‘V- ImA WM— 0 5 1m ‘ o 0 TIM («114de 1ouT=1oumA£La mum.» 1 mmwnag. 1 1 3 § 1 o g Ou|pulVoIlIle .2 0.9 g 0 0.8 0.7 Time Houses/div)
40/51
XC6204
/
XC6205 Series
(9) Load Transient Response (Continued)
(10) Input Transient Response 1
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6205 (Continued)
XC6205x092 XC6205x092
(11) Input Transient Response 2
\nput Vo‘taae (V) mpm Voltage (V) mm mam» m RR (as) wou1=1mA.CL=z ZMFlcenrmC] A 1 a 3 mpulvol'aia 1 7 2 1 5 Output Vol.1” 1 1 5 D 1 4 .1 1 a Time Mousec/div) VIN=2VDV1 CL=4 7“ F1c=lamlfl 4 | 2.5 as In»... may. 2 2 D o 1.5 0mm" Vnflii9 -2 LD .4 '(m' 33:: o 5 / m... -6 ' an Time (Aousecldw; mm: svncm sku: Iouv-lnmA CL-IYuHanme) B) so 10 so so 40 30 20 lo a o m n I 1 no mo Ripple Frequency HkHz) Outpul Voltage (v) Ompul Vollage (v) | Input Voltage (V) "W Valane (V) Rlpph Equation Rm RR (as) 5.0 2.5 001 IOUT=IanA CL=2 Znficemmm) lap-u Van-n: E a: a: E a 0mm Vallage 2 § 5 Tlme “Ousec/div) vm:2 5v. CL:2 unummc) 3.0 c2 mam Vanna 2.5 A 2 2.0 3 Omplfl valmga 2 T: 1 5 > I a 1.0 3 mm: mm 30m“ - 0.5 / mum ' u 0 Tune Houses/din mm svncm SVpcAC low-MA (1.1 ZuFmtnme) 0.1 1 In 100 my. Frpquaucy v mm TOIE'EX
41/51
XC6204/XC6205
Series
(11) Input Transient Response 2 (Continued)
(13) Ripple Rejection Rate
(12) Enable Response Time
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
XC6205 (Continued)
XC6205x152 XC6205x152
XC6205B092 XC6205x152
XC6205x092 XC6205x152
SOT-25 Power D E on 400 Fewer Dissipation vs. Ambient temperature ( 85°C )
42/51
XC6204
/
XC6205 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: 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
2. Power Dissipation vs. Ambient temperature(85℃)
Board Mount ( Tjmax=125)
Ambient
Temperature
()
Power
Dissipation
Pd (mW)
Thermal
Resistance
(/W
25 600
85 240
166.67
Evaluation Board (Unit: mm)
Pd vs Ta
0
100
200
300
400
500
600
700
25 45 65 85 105 125
Ambient Temperature Ta(℃)
Power Dissipation PdmW
SOT-896 Power siEtion 40.0 28.9 Through-hole: 5 x 0.8 Diameter Evaluation Board ( 2. Power Dissipation vs. Ambient temperature ( 85°C ) Board Mount ( ijax=125°C) Ambient Thermal Power . Temperature . . . Resistance Dissipation (°C) Pd (mW) (“C/WEI 25 1300 85 520 76.92 TOIREX
43/51
XC6204/XC6205
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.
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: 5 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 1300
85 520
76.92
28.9
40.0
2.5
Pd vs Ta
0
200
400
600
800
1000
1200
1400
25 45 65 85 105 125
Ambient Temperature Ta(℃)
Power Dissipation PdmW
2. Power Dissipation vs. Ambient temperature Board Mount (Tj max = 125°C) 40.0 23.9 28.5 40.0 1% Ambient Temperaturel] °C[| Power Dissipation Pdfl mWD Thermal Resistance 25 1000 85 400 100.00 PdvsTa 1200
44/51
XC6204
/
XC6205 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
2. Power Dissipation vs. Ambient temperature
Board Mount (Tj max = 125)
Ambient Temperature(℃ Power Dissipation PdmW Thermal Resistance(/W)
25 1000
85 400
100.00
Pd vs Ta
0
200
400
600
800
1000
1200
25 45 65 85 105 125
Ambient Temperature Ta(℃)
Power Dissipation PdmW
Evaluation Board (Unit: mm)
E in o H10 2 TOIREX w k mm :9 04 m, w ‘ a ‘ j ‘ .USP-GB
45/51
XC6204/XC6205
Series
PACKAGING INFORMATION
SOT-25
USP-6B
SOT-89-5
Φ1.0
1.6 +0.15
-0.2
4.5±0.1
2.5±0.10.8 MIN
4.35 MAX
0.42±0.06 0.42±0.060.47±0.06
(0.1)
1.5±0.1
1.5±0.1 1.5±0.1
0.4+0.03
-0.02
0.4+0.03
-0.02
123
0.8 MIN
4
5
0.42±0.06 0.42±0.06 0.42±0.06
2
0.3) 0.4)
1.8) 0.4)
1.6)
1.7)
46/51
XC6204
/
XC6205 Series
PACKAGING INFORMATION (Continued)
USP-6B Reference Pattern Layout USP-6B Reference Metal Mask Design
[IUD L, M, N, P_ E, F, H, K_ A, B, C, D— V, X, Y, Z. TOIREX
47/51
XC6204/XC6205
Series
MARK PRODUCT SERIES
4 XC6204xxxxxx
MARK
OUTPUT VOLTAGE 100mV INCREMENTS OUTPUT VOLTAGE 50mV INCREMENTS
VOLTAGE =0.1~3.0V VOLTAGE =3.1~6.0V
VOLTAGE =0.15
3.05V VOLTAGE =3.15
6.05V
PRODUCT SERIES
V A E L XC6204Axxxxx
X B F M XC6204Bxxxxx
Y C H N XC6204Cxxxxx
Z D K P XC6204Dxxxxx
V A E L XC6204Exxxxx
X B F M XC6204Fxxxxx
Y C H N XC6204Gxxxxx
Z D K P XC6204Hxxxxx
MARK OUTPUT VOLTAGE (V) MARK OUTPUT VOLTAGE (V)
0 3.1 3.15 F 1.6 4.6 1.65 4.65
1 3.2 3.25 H 1.7 4.7 1.75 4.75
2 3.3 3.35 K 1.8 4.8 1.85 4.85
3 3.4 3.45 L 1.9 4.9 1.95 4.95
4 3.5 3.55 M 2.0 5.0 2.05 5.05
5 3.6 3.65 N 2.1 5.1 2.15 5.15
6 3.7 3.75 P 2.2 5.2 2.25 5.25
7 3.8 3.85 R 2.3 5.3 2.35 5.35
8 3.9 3.95 S 2.4 5.4 2.45 5.45
9 4.0 4.05 T 2.5 5.5 2.55 5.55
A 4.1 4.15 U 2.6 5.6 2.65 5.65
B 4.2 4.25 V 2.7 5.7 2.75 5.75
C 4.3 4.35 X 2.8 5.8 2.85 5.85
D 4.4 4.45 Y 2.9 5.9 2.95 5.95
E 4.5 4.55 Z 3.0 6.0 3.05 6.05
MARKING RULE
SOT-25, SOT-89-5
[XC6204]
represents product series
represents type of regulator
represents output voltage
represents production lot number
0 to 9, A to Z, reversed character of 0 to 9 and A to Z repeated. (G, I, J, O, Q, W excluded)
① ② ③
123
54
524
123
SOT-25
(TOP VIEW)
SOT-89-5
(TOP VIEW)
48/51
XC6204
/
XC6205 Series
MARK
PRODUCT SERIES
0 4 XC6204xxxxDx
MARK TYPE PRODUCT SERIES
A CE pin: High Active, Pull-Down Resistor Built-In XC6204AxxxDx
B CE pin: High Active,
No Pull-Down Resistor Built-In
XC6204BxxxDx
C CE pin: High Active, Pull-Up Resistor Built-In XC6204CxxxDx
D CE pin: Low Active, No Pull-Up Resistor Built-In XC6204DxxxDx
E CE pin: High Active, Pull-Down Resistor Built-In XC6204ExxxDx
F CE pin: High Active
, No Pull-Down Resistor Built-In
XC6204FxxxDx
Z CE pin: Low Active, Pull-Up Resistor Built-In XC6204GxxxDx
H CE pin: Low Active, No Pull-Up Resistor Built-In XC6204HxxxDx
MARK VOLTAGEV PRODUCT SERIES
3 3.X XC6204x3xxDx
5 5.X XC6204x5xxDx
MARK
VOLTAGE (V) PRODUCT SERIES
MARK
VOLTAGE (V) PRODUCT SERIES
0 X.0 XC6204xx0xDx A X.05 XC6204xx0ADx
1 X.1 XC6204xx1xDx B X.15 XC6204xx1ADx
2 X.2 XC6204xx2xDx C X.25 XC6204xx2ADx
3 X.3 XC6204xx3xDx D X.35 XC6204xx3ADx
4 X.4 XC6204xx4xDx E X.45 XC6204xx4ADx
5 X.5 XC6204xx5xDx F X.55 XC6204xx5ADx
6 X.6 XC6204xx6xDx H X.65 XC6204xx6ADx
7 X.7 XC6204xx7xDx K X.75 XC6204xx7ADx
8 X.8 XC6204xx8xDx L X.85 XC6204xx8ADx
9 X.9 XC6204xx9xDx M X.95 XC6204xx9ADx
USP-6B
①② represents product series
represents type of regulator
represents integer of the output voltage
represents decimal number of output voltage
represents production lot number
0 to 9, A to Z repeated. (G, I, J, O, Q, W excluded)
Note: No character inversion used.
MARKING RULE (Continued)
[XC6204]
USP-6B
(TOP VIEW)
⑤ ⑥
② ③
1
2
3
6
5
4
EDD F: F. H, K, V_ X_ Y, Z, TOIREX
49/51
XC6204/XC6205
Series
MARK PRODUCT SERIES
5 XC6205xxxxxx
MARK
OUTPUT VOLTAGE
100mV INCREMENTS
OUTPUT VOLTAGE
50mV INCREMENTS
PRODUCT SERIES
V E XC6205Axxxxx
X F XC6205Bxxxxx
Y H XC6205Cxxxxx
Z K XC6205Dxxxxx
V E XC6205Exxxxx
X F XC6205Fxxxxx
Y H XC6205Gxxxxx
Z K XC6205Hxxxxx
MARK OUTPUT VOLTAGE (V) MARK OUTPUT VOLTAGE (V)
8 0.9 0.95 D 1.4 1.45
9 1.0 1.05 E 1.5 1.55
A 1.1 1.15 F 1.6 1.65
B 1.2 1.25 H 1.7 1.75
C 1.3 1.35
[XC6205]
SOT-25, SOT-89-5
represents type of regulator
represents product series
represents output voltage
represents production lot number
0 to 9, A to Z, reversed character of 0 to 9 and A to Z repeated. (G, I, J, O, Q, W excluded)
MARKING RULE
(
Continued
)
① ② ③
123
54
524
123
SOT-25
(TOP VIEW)
SOT-89-5
(TOP VIEW)
50/51
XC6204
/
XC6205 Series
MARK
PRODUCT SERIES
0 5 XC6205xxxxDx
MARK TYPE PRODUCT SERIES
A CE pin: High Active with Pull-Down Resistor Built-In XC6205AxxxDx
B CE pin:
High Active with No Pull-Down Resistor Built-In
XC6205BxxxDx
C CE pin: Low Active with Pull-Up Resistor Built-In XC6205CxxxDx
D CE pin: Low Active with No Pull-Up Resistor Built-In XC6205DxxxDx
E CE pin: High Active with Pull-Down Resistor Built-In XC6205ExxxDx
F CE pin:
High Active with No Pull-Down Resistor Built-In
XC6205FxxxDx
Z CE pin: Low Active with Pull-Up Resistor Built-In XC6205GxxxDx
H CE pin: Low Active with No Pull-Up Resistor Built-In XC6205HxxxDx
MARK VOLTAGE (V) PRODUCT SERIES
3 3.X XC6205x3xxDx
5 5.X XC6205x5xxDx
MARK OUTPUT VOLTAGE (V) MARK OUTPUT VOLTAGE (V)
0 X.0 XC6205xx0xDx A X.05 XC6205xx0ADx
1 X.1 XC6205xx1xDx B X.15 XC6205xx1ADx
2 X.2 XC6205xx2xDx C X.25 XC6205xx2ADx
3 X.3 XC6205xx3xDx D X.35 XC6205xx3ADx
4 X.4 XC6205xx4xDx E X.45 XC6205xx4ADx
5 X.5 XC6205xx5xDx F X.55 XC6205xx5ADx
6 X.6 XC6205xx6xDx H X.65 XC6205xx6ADx
7 X.7 XC6205xx7xDx K X.75 XC6205xx7ADx
8 X.8 XC6205xx8xDx L X.85 XC6205xx8ADx
9 X.9 XC6205xx8xDx M X.95 XC6205xx9ADx
USP-6B
represents decimal point of output voltage
①② represents product series
represents type of voltage regulator
represents integer of output voltage
represents production lot number
0 to 9, A to Z repeated (G, I, J, O, Q, W excluded)
*No character inversion used.
[XC6205]
MARKING RULE
(
Continued
)
USP-6B
(TOP VIEW)
⑤ ⑥
② ③
1
2
3
6
5
4
TOREX SEMICONDUCTOR LTD. TOIREX
51/51
XC6204/XC6205
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 datacheet 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 datacheet.
3. Please ensure suitable shipping controls (including fail-safe designs and aging
protection) are in force for equipment employing products listed in this datacheet.
4. The products in this datacheet 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 datacheet 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 datacheet may be copied or reproduced without the
prior permission of TOREX SEMICONDUCTOR LTD.

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