XC9265
Series
Ultra Low Power Synchronous Step-Down PFM DC/DC Converter
ETR05053-005
■GENERAL
DESCRIPTION
☆GreenOperation
Compatible
XC9265 series are Ultra Low Power synchronous-rectification type PFM step down DC/DC converters with a built-in 0.4Ω
(TYP.) Pch driver and 0.4Ω (TYP.) Nch synchronous switching transistor, designed to allow the use of ceramic capacitor.
PFM control enables a low quiescent current, making these products ideal for battery operated devices that require high
efficiency and long battery life.
Only inductor, C
IN
and C
L
capacitors are needed as external parts to make a step down DC/DC circuit.
Operation voltage range is from 2.0V to 6.0V. This product has fixed output voltage from 1.0V to 4.0V(accuracy:
±2.0%)
in
increments of 0.05V.
During stand-by, all circuits are shutdown to reduce consumption to as low as 0.1μA(TYP.) or less.
With the built-in UVLO (Under Voltage Lock Out) function, the internal P-channel MOS driver transistor is forced OFF when
input voltage gets lower than UVLO detection voltage. Besides, XC9265 series has UVLO release voltage of 1.8V (Typ.).
The product with C
L
discharge function can discharge C
L
capacitor during stand-by mode due to the internal resistance by turning
on the internal switch between V
OUT
-GND. This enables output voltage restored to GND level fast.
■APPLICATIONS
●
●
●
●
●
●
●
Wearable Devices
Smart meters
Bluetooth units
Energy Harvest devices
Back up power supply circuits
Portable game consoles
Devices with 1 Lithium cell
■FEATURES
Input Voltage Range
Output Voltage Setting
Output Current
Driver Transistor
Supply Current
Control Method
High Speed Transient
PFM Switching Current
Function
:
:
:
:
:
:
:
:
:
2.0V~6.0V
1.0V~4.0V (±2.0%, 0.05V step increments)
200mA(XC9265A/C)
50mA(XC9265B/D)
0.4Ω (Pch Driver Tr)
0.4Ω (Nch Synchronous rectifier Switch Tr)
0.50μA @ V
OUT(T)
=1.8V (TYP.)
PFM control
50mV (V
IN
=3.6V, V
OUT
=1.8V, I
OUT
=10μA→50mA)
330mA(XC9265A/C), 180mA(XC9265B/D)
Short Protection
C
L
Discharge(XC9265C/ D)
UVLO
Ceramic Capacitor Compatible
Operation Ambient Temperature
Package
Environmentally Friendly
:
:
:
-40½+85℃
SOT-25, USP-6EL
EU RoHS compliant, Pb Free
■TYPICAL
APPLICATION CIRCUIT
■
TYPICAL PERFORMANCE
CHARACTERISTICS
●Efficiency
vs. Output Current
XC9265B181xR-G(V
OUT
=1.8V)
L=10μH(VLF302512M-100M),C
IN
=10μF(LMK107BJ106MA),
C
L
=22μF(JMK107BJ226MA)
V
IN
L
V
IN
L
X
V
OUT
100
C
IN
(Ceramic)
CE
GND
V
OUT
C
L
(Ceramic)
Efficiency : EFFI (%)
80
V
IN
=4.2V
60
V
IN
=3.6V
V
IN
=2.7V
40
20
0
0.01
0.1
1
Output Current : I
OUT
(mA)
10
100
1/32
XC9265
Series
■BLOCK
DIAGRAM
* Diodes inside the circuits are ESD protection diodes and parasitic diodes.
XC9265A and B type do not have C
L
Discharge function.
■PRODUCT
CLASSIFICATION
●Ordering
information
XC9265①②③④⑤⑥-⑦
DESIGNATOR
ITEM
SYMBOL
A
①
Product Type
B
C
D
②③
④
⑤⑥-⑦
(*1)
(*1)
DESCRIPTION
Iout=200mA Without C
L
Discharge
Iout=50mA Without C
L
Discharge
Iout=200mA With C
L
Discharge
Iout=50mA With C
L
Discharge
Output Voltage : e.g. V
OUT
=1.80V⇒②=1,
③=8
Output Voltage Range: 1.0V½4.0V (0.05V step)
Output Voltage {x.x0V} (the 2nd decimal place is “0”)
Output Voltage {x.x5V} (the 2nd decimal place is “5”)
USP-6EL (3,000pcs/Reel)
SOT-25 (3,000pcs/Reel)
Output Voltage
Output Voltage Type
Packages (Order Unit)
10
½
40
1
B
4R-G
MR-G
The “-G” suffix denotes Halogen and Antimony free as well as being fully EU RoHS compliant.
2/32
XC9265
Series
■PIN
CONFIGURATION
L
X
5
V
OUT
4
V
IN
6
NC 5
CE 4
1
V
IN
2
GND
3
CE
1 L
X
2 GND
3 V
OUT
SOT-25
(TOP VIEW)
USP-6EL
(BOTTOM VIEW)
* The dissipation pad for the USP-6EL package should be solder-plated in recommended
mount pattern and metal masking so as to enhance mounting strength and heat release.
The mount pattern should be connected to GND pin (No.2).
■PIN
ASSIGNMENT
PIN NUMBER
USP-6EL
SOT-25
1
2
3
4
5
6
5
2
4
3
-
1
PIN NAME
L
X
GND
V
OUT
CE
NC
V
IN
FUNCTIONS
Switching
Ground
Output Voltage
Chip Enable
No Connection
Power Input
■
PIN FUNCTION ASSIGNMENT
PIN
NAME
CE
SIGNAL
H
L
STATUS
Operation (All Series)
Standby (All Series)
* Please do not leave the CE pin open.
■ABSOLUTE
MAXIMUM RATINGS
Ta=25˚C
PARAMETER
V
IN
Pin Voltage
L
X
Pin Voltage
V
OUT
Pin Voltage
CE Pin Voltage
L
X
Pin Current
SOT-25
Power Dissipation
USP-6EL
Operating Ambient Temperature
Storage Temperature
* All voltages are described based on the GND.
(*1)
(*2)
SYMBOL
V
N
V
LX
V
OUT
V
CE
I
LX
RATINGS
-0.3 ~ +7.0
-0.3 ~ V
IN
+0.3 or +7.0
(*1)
-0.3 ~ V
IN
+0.3 or +7.0
(*1)
-0.3 ~ +7.0
1000
250
600 (40mm x 40mmStandard board)
(*2)
UNITS
V
V
V
V
mA
Pd
120
1000 (40mm x 40mmStandard board)
(*2)
mW
Topr
Tstg
-40 ~ +85
-55 ~ +125
˚C
˚C
The maximum value is the lower of either V
IN
+ 0.3 or +7.0.
The power dissipation figure shown is PCB mounted. Please see the power dissipation page for the mounting condition.
3/32
XC9265
Series
■ELECTRICAL
CHARACTERISTICS
●XC9265Axxx
Type, without C
L
discharge function
PARAMETER
Input Voltage
Output Voltage
SYMBOL
V
IN
V
OUT(E) (*2)
-
Resistor connected with L
X
pin.
Voltage which L
X
pin changes “L” to “H” level
while V
OUT
is decreasing.
V
CE
=V
IN
, V
OUT
=0V. Resistor connected with L
X
pin.
UVLO Release Voltage
V
UVLO(E)
Voltage which L
X
pin changes “L” to “H” level
while V
IN
is increasing.
V
CE
=V
IN
, V
OUT
=0V. Resistor connected with L
X
pin.
UVLO Hysteresis Voltage
V
HYS(E)
V
UVLO(E)
- Voltage which L
X
pin changes “H” to “L”
level while V
IN
is decreasing.
V
IN
=V
CE
=V
OUT(T)
+0.5V
(*1)
,
Supply Current
Standby Current
L
X
SW “H” Leak Current
L
X
SW “L” Leak Current
PFM Switching Current
Maximum Duty Ratio
(*3)
Efficiency
(*4)
Efficiency
(*4)
Efficiency
(*4)
LX SW “Pch”
ON Resistance
(*5)
LX SW “Nch”
ON Resistance
Output Voltage
Temperature
Characteristics
CE “High” Voltage
Iq
I
STB
I
LEAKH
I
LEAKL
I
PFM
MAXDTY
EFFI
EFFI
EFFI
R
LXP
R
LXN
Δ
OUT
/
V
(V
OUT
・Δ
Topr)
V
IN
=2.0V, if V
OUT(T)
≦1.5V
(*1)
,
V
OUT
=V
OUT(T)
+0.5V
(*1)
, L
X
=Open.
V
IN
=5.0V, V
CE
=V
OUT
=0V, L
X
=Open.
V
IN
=5.0V, V
CE
=V
OUT
=0V, V
LX
=0V.
V
IN
=5.0V, V
CE
=V
OUT
=0V, V
LX
=5.0V.
V
IN
=V
CE
=V
OUT(T)
+2.0V
(*1)
, I
OUT
=10mA.
V
IN
=V
OUT
=V
OUT(T)
×0.95V
V
IN
=V
CE
=5.0V,
V
OUT(T)
=4.0V
(*1)
, I
OUT
=30mA.
V
IN
=V
CE
=3.6V,
V
OUT(T)
=3.3V
(*1)
, I
OUT
=30mA.
V
IN
=V
CE
=3.6V,
V
OUT(T)
=1.8V
(*1)
, I
OUT
=30mA.
V
IN
=V
CE
=5.0V, V
OUT
=0V, I
LX
=100mA.
V
IN
=V
CE
=5.0V.
(*1)
Ta=25˚C
CONDITIONS
MIN.
2.0
TYP.
-
E1
MAX.
6.0
UNITS
V
V
CIRCUIT
①
②
1.65
1.8
1.95
V
②
0.11
0.15
0.24
V
②
E2
-
-
-
260
100
-
-
-
-
-
0.1
0.1
0.1
330
-
93
93
87
0.4
0.4
(*6)
1.0
1.0
1.0
400
-
-
-
-
0.65
-
μA
μA
μA
μA
mA
%
%
%
%
Ω
Ω
③
③
③
③
①
②
①
①
①
④
-
, V
CE
=1.2V
Resistor connected with L
X
pin.
-40℃≦Topr≦85℃.
V
OUT
=0V. Resistor connected with L
X
pin.
-
±100
-
ppm/℃
②
V
CEH
Voltage which L
X
pin changes “L” to “H” level while
V
CE
=0.2→1.5V.
V
OUT
=0V. Resistor connected with L
X
pin.
1.2
-
6.0
V
⑤
CE “Low” Voltage
CE “High” Current
CE “Low” Current
Short Protection
Threshold Voltage
V
CEL
I
CEH
I
CEL
V
SHORT
Voltage which L
X
pin changes “H” to “L” level while
V
CE
=1.5→0.2V.
V
IN
=V
CE
=5.0V, V
OUT
=0V, L
X
=Open.
V
IN
=5.0V, V
CE
=V
OUT
=0V, L
X
=Open.
Resistor connected with L
X
pin.
Voltage which L
X
pin changes “H” to “L” level while
V
OUT
= V
OUT(T)
+0.1V→0V
(*1)
GND
-0.1
-0.1
0.4
-
-
-
0.5
0.3
0.1
0.1
0.6
V
μA
μA
V
⑤
⑤
⑤
②
.
Unless otherwise stated, V
IN
=V
CE
=5.0V
(*1)
(*2)
V
OUT(T)
=Nominal Output Voltage
V
OUT(E)
=Effective Output Voltage
The actual output voltage value V
OUT(E)
is the PFM comparator threshold voltage in the IC.
Therefore, the DC/DC circuit output voltage, including the peripheral components, is boosted by the ripple voltage average value.
Please refer to the characteristic example.
(*3)
(*4)
(*5)
(*6)
Not applicable to the products with V
OUT(T)
< 2.15V since it is out of operational volatge range.
LX SW “Pch” ON resistance = (V
IN
– V
LX
pin measurement voltage) / 100mA
EFFI=[{ (Output Voltage)×(Output Current)] / [(Input Voltage)×(Input Current)}]×100
Designed value
4/32
XC9265
Series
■ELECTRICAL
CHARACTERISTICS (Continued)
●XC9265Bxxx
Type, without C
L
discharge function
PARAMETER
Input Voltage
Output Voltage
SYMBOL
V
IN
V
OUT(E) (*2)
-
Resistor connected with L
X
pin.
Voltage which L
X
pin changes “L” to “H” level
while V
OUT
is decreasing.
V
CE
=V
IN
, V
OUT
=0V. Resistor connected with L
X
pin.
UVLO Release Voltage
V
UVLO(E)
Voltage which L
X
pin changes “L” to “H” level
while V
IN
is increasing.
V
CE
=V
IN
, V
OUT
=0V. Resistor connected with L
X
pin.
UVLO Hysteresis Voltage
V
HYS(E)
V
UVLO(E)
- Voltage which L
X
pin changes “H” to “L”
level while V
IN
is decreasing.
V
IN
=V
CE
=V
OUT(T)
+0.5V
(*1)
,
Supply Current
Standby Current
L
X
SW “H” Leak Current
L
X
SW “L” Leak Current
PFM Switching Current
Maximum Duty Ratio
(*3)
Efficiency
(*4)
Efficiency
(*4)
Efficiency
(*4)
LX SW “Pch”
ON Resistance
(*5)
LX SW “Nch”
ON Resistance
Output Voltage
Temperature
Characteristics
CE “High” Voltage
Iq
I
STB
I
LEAKH
I
LEAKL
I
PFM
MAXDTY
EFFI
EFFI
EFFI
R
LXP
R
LXN
Δ
OUT
/
V
(V
OUT
・Δ
Topr)
V
IN
=2.0V, if V
OUT(T)
≦1.5V
(*1)
,
V
OUT
=V
OUT(T)
+0.5V
(*1)
, L
X
=Open.
V
IN
=5.0V, V
CE
=V
OUT
=0V, L
X
=Open.
V
IN
=5.0V, V
CE
=V
OUT
=0V, V
LX
=0V.
V
IN
=5.0V, V
CE
=V
OUT
=0V, V
LX
=5.0V.
V
IN
=V
CE
=V
OUT(T)
+2.0V
(*1)
, I
OUT
=10mA.
V
IN
=V
OUT
=V
OUT(T)
×0.95V
V
IN
=V
CE
=5.0V,
V
OUT(T)
=4.0V
(*1)
, I
OUT
=30mA.
V
IN
=V
CE
=3.6V,
V
OUT(T)
=3.3V
(*1)
, I
OUT
=30mA.
V
IN
=V
CE
=3.6V,
V
OUT(T)
=1.8V
(*1)
, I
OUT
=30mA.
V
IN
=V
CE
=5.0V, V
OUT
=0V, I
LX
=100mA.
V
IN
=V
CE
=5.0V.
(*1)
Ta=25˚C
CONDITIONS
MIN.
2.0
TYP.
-
E1
MAX.
6.0
UNITS
V
V
CIRCUIT
①
②
1.65
1.8
1.95
V
②
0.11
0.15
0.24
V
②
E2
-
-
-
115
100
-
-
-
-
-
0.1
0.1
0.1
180
-
95
95
89
0.4
0.4
(*6)
1.0
1.0
1.0
250
-
-
-
-
0.65
-
μA
μA
μA
μA
mA
%
%
%
%
Ω
Ω
③
③
③
③
①
②
①
①
①
④
-
, V
CE
=1.2V
Resistor connected with L
X
pin.
-40℃≦Topr≦85℃.
V
OUT
=0V. Resistor connected with L
X
pin.
-
±100
-
ppm/℃
②
V
CEH
Voltage which L
X
pin changes “L” to “H” level while
V
CE
=0.2→1.5V.
V
OUT
=0V. Resistor connected with L
X
pin.
1.2
-
6.0
V
⑤
CE “Low” Voltage
CE “High” Current
CE “Low” Current
Short Protection
Threshold Voltage
V
CEL
I
CEH
I
CEL
V
SHORT
Voltage which L
X
pin changes “H” to “L” level while
V
CE
=1.5→0.2V.
V
IN
=V
CE
=5.0V, V
OUT
=0V, L
X
=Open.
V
IN
=5.0V, V
CE
=V
OUT
=0V, L
X
=Open.
Resistor connected with L
X
pin.
Voltage which L
X
pin changes “H” to “L” level while
V
OUT
= V
OUT(T)
+0.1V→0V
(*1)
GND
-0.1
-0.1
0.4
-
-
-
0.5
0.3
0.1
0.1
0.6
V
μA
μA
V
⑤
⑤
⑤
②
.
Unless otherwise stated, V
IN
=V
CE
=5.0V
(*1)
(*2)
V
OUT(T)
=Nominal Output Voltage
V
OUT(E)
=Effective Output Voltage
The actual output voltage value V
OUT(E)
is the PFM comparator threshold voltage in the IC.
Therefore, the DC/DC circuit output voltage, including the peripheral components, is boosted by the ripple voltage average value.
Please refer to the characteristic example.
(*3)
(*4)
(*5)
(*6)
Not applicable to the products with V
OUT(T)
< 2.15V since it is out of operational volatge range.
EFFI=[{ (Output Voltage)×(Output Current)] / [(Input Voltage)×(Input Current)}]×100
LX SW “Pch” ON resistance = (V
IN
– V
LX
pin measurement voltage) / 100mA
Designed value
5/32
