XC6222A191PR-G [TOREX]
Fixed Positive LDO Regulator, 1.9V, 0.35V Dropout, CMOS, PDSO5, ANTIMONY AND HALOGEN FREE, ROHS COMPLIANT, SOT-89, 5 PIN;型号: | XC6222A191PR-G |
厂家: | Torex Semiconductor |
描述: | Fixed Positive LDO Regulator, 1.9V, 0.35V Dropout, CMOS, PDSO5, ANTIMONY AND HALOGEN FREE, ROHS COMPLIANT, SOT-89, 5 PIN 光电二极管 输出元件 调节器 |
文件: | 总27页 (文件大小:683K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
XC6222Series
ETR0344-007
700mA High Speed LDO Regulator
■GENERAL DESCRIPTION
The XC6222 series is a highly accurate, low noise, high ripple rejection, low dropout, and low power consumption high speed
voltage regulator. The series consists of a voltage reference, an error amplifier, a driver transistor, a current limiter, a thermal
protection circuit, and a phase compensation circuit.
The CE function enables the entire circuit to be placed in a stand-by state by inputting a low level signal to the CE pin. In this
stand-by mode, the electric charge at the output capacitor (CL) will be discharged by the internal auto-discharge switch, and as
a result the VOUT pin will quickly return to the VSS level.
Over-current protection and thermal protection circuits are integrated. The protection circuit starts to operate when either output
current reaches the current limit level or junction temperature reaches the temperature limit.
■FEATURES
■APPLICATIONS
Maximum Output Current
Dropout Voltage
: 700mA
●
●
●
●
●
●
USB Products
: 120mV @IOUT=300mA (VOUT=3.0V)
: 1.7V ~ 6.0V
: 0.8V~5.0V (0.05V increments)
: +1% (VOUT>2.0V)
+0.02V (VOUT≦2.0V)
: 100μA
CD/DVD/HDD drives
Mobile phones
Operating Voltage Range
Output Voltage
Accuracy
Portable game consoles
Camera modules
Electronic dictionaries
Low Power Consumption
High Ripple Rejection
Low ESR Capacitor
Chip Enable (CE)
: 65dB @ 1kHz
: Ceramic capacitor
: Active High, CL discharge
Standby Current below 0.1μA
Operating Ambient Temperature : -40℃~+85℃
Packages
Environmentally Friendly
: USP-6C, SOT-25, SOT-89-5
: EU RoHS Compliant, Pb Free
■TYPICAL APPLICATION CIRCUIT
■TYPICAL PERFORMANCE
CHARACTERISTICS
● Load Transient Response
XC6222x151
tr=tf=5μs,VIN=2.5V, Ta=25℃
VOUT=10→300mA, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
1.6
1000
800
600
400
200
0
Output Voltage
1.5
1.4
Output Current
1.3
1.2
1.1
Time:100μs/div
*CL: 2.2μF or higher (VOUT=2.5~5.0V)
4.7μF or higher (VOUT=2.1~2.45V)
6.8μF or higher (VOUT=0.8~2.05V)
1/27
XC6222 Series
■BLOCK DIAGRAMS
* Diodes inside the circuits are ESD protection diodes and parasitic diodes.
■PRODUCT CLASSIFICATION
●Ordering Information
XC6222①②③④⑤⑥-⑦
DESIGNATOR
ITEM
SYMBOL
DESCRIPTION
without CE Pull-down resistor, without CL discharge
without CE Pull-down resistor , with CL discharge
with CE Pull-down resistor, without CL discharge
A
B
①
Type of CE
C
D
with CE Pull-down resistor, with CL discharge
(The Recommended Type)
e.g. 2.8V → ②=2, ③=8
②③
④
08~50
Output Voltage
Output Voltage Range : 0.8~5.0 V (0.05V increments)
Output voltage {x.x0v} (the 2nd decimal place is “0”)
Accuracy±1% (VOUT>2.0V), ±0.02V(VOUT≦2.0V)
Output voltage {x.x5v} (the 2nd decimal place is “5”)
Accuracy±1% (VOUT>2.0V), ±0.02V(VOUT≦2.0V)
USP-6C (3,000/Reel)
1
Output Voltage
Accuracy
B
ER-G
MR-G
PR-G
Packages
(*1)
⑤⑥-⑦
SOT-25 (3,000/Reel)
SOT-89-5 (1,000/Reel)
(Order Unit)
(*1) The “-G” suffix denotes Halogen and Antimony free as well as being fully RoHS compliant.
2/27
XC6222
Series
■PIN CONFIGURATION
*The dissipation pad for the USP-6C package should be solder-plated in recommended mount
pattern and metal masking so as to enhance mounting strength and heat release. If the pad needs
to be connected to other pins, it should be connected to the VSS (No. 5) pin.
■PIN ASSIGNMENT
PIN NUMBER
PIN NAME
FUNCTIONS
USP-6C
SOT-25
SOT-89-5
1
3
1
5
4
2
3
4
5
3
2
1
VIN
VOUT
NC
Power Input
Output
2,4
5
No connection
Ground
VSS
CE
6
ON/OFF Control
■ABSOLUTE MAXIMUM RATINGS
PARAMETER
SYMBOL
RATINGS
UNITS
Input Voltage
Output Current
Output Voltage
CE Input Voltage
VIN
IOUT
VOUT
VCE
-0.3~+6.5
1400 (*1)
V
mA
V
VSS-0.3~+6.5
VSS-0.3~+6.5
120
V
USP-6C
1000 (PCB mounted)(*2)
250
Power Dissipation
SOT-25
Pd
mW
600 (PCB mounted)(*2)
500
SOT-89-5
1300 (PCB mounted)(*2)
-40~+85
Operating Ambient Temperature
Storage Temperature
Topr
Tstg
℃
℃
-55~+125
*1. Please use within the range of Pd > {(VIN-VOUT) × IOUT
}
*2. The power dissipation figure shown is PCB mounted. Please refer to page 23 to 25 for details.
3/27
XC6222 Series
■ELECTRICAL CHARACTERISTICS
●XC6222 Series
Ta=25℃
PARAMETER
Output Voltage
SYMBOL
CONDITIONS
OUT(T)>2.0V
CE=VIN, IOUT=10mA
OUT≦2.0V
MIN.
TYP.
MAX.
UNITS CIRCUIT
V
V
V
V
×0.99
×1.01
(*3)
(*3)
VOUT(E)
VOUT(T)
V
①
①
(*2)
(*4)
-0.02
+0.02
(*3)
(*3)
CE=VIN, IOUT=10mA
VCE=VIN, VIN=VOUT(T)+1.0V
OUT(T)≧1.5V
VCE=VIN, VIN=2.5V
OUT(T)<1.5V
V
Output Current
IOUTMAX
700
-
-
mA
V
Load Regulation
Dropout Voltage (*5)
ΔVOUT
VCE=VIN, 0.1mA≦IOUT≦300mA
IOUT=300mA, VCE=VIN
see the Voltage Chart E-1
see the Voltage Chart E-2
mV
mV
①
①
Vdif
VIN=VCE=VOUT(T)+1.0V
Supply Current
ISS
-
-
100
220
0.1
μA
μA
②
②
I
OUT=0mA
Stand-by Current
ISTBY
VIN=6.0V, VCE=VSS
VOUT(T)+0.5V≦VIN≦6.0V
:VOUT(T)≧1.0V
0.01
ΔVOUT
/
VCE=VIN, IOUT=30mA
Line Regulation
-
0.01
0.1
%/V
①
(ΔVIN VOUT
・
)
1.5V≦VIN≦6.0V
:VOUT(T)≦0.95V
VCE=VIN, IOUT=30mA
Input Voltage
Output Voltage
Temperature
VIN
1.7
-
-
6.0
-
V
①
①
ΔVOUT
/
VCE=VIN, IOUT=30mA
-40℃≦Ta≦85℃
±100
ppm/℃
(ΔTa
・
VOUT
)
Characteristics
VOUT(T)≧1.0V
VIN={VOUT(T)+1.0}VDC+0.5Vp-pAC
Power Supply
Rejection Ratio
VCE=VIN, IOUT=30mA, f=1kHz
PSRR
-
65
-
dB
③
V
OUT(T)<1.0V
VIN=2.0VDC+0.5Vp-pAC
CE=VIN, IOUT=30mA, f=1kHz
VCE=VIN, VIN=VOUT(T)+1.0V
OUT(T)≧1.5V
VCE=VIN, VIN=2.5V
OUT(T)<1.5V
CE=VIN
V
V
Limit Current
Short Current
ILIM
720
-
950
55
-
-
mA
mA
①
①
V
V
ISHORT
Short VOUT to VSS level
①
①
①
①
①
①
①
VCEH
VCEL
1.2
-
-
-
6.0
0.3
V
CE High Level Voltage
CE Low Level Voltage
V
VCE=VIN=6.0V, XC6222A/B series
VCE=VIN=6.0V, XC6222C/D series
VCE=VSS
-0.1
17.7
-0.1
-
-
0.1
μA
μA
μA
μA
μA
ICEH
CE High Level Current
24
-
36.9
0.1
ICEL
IREV
CE High Level Voltage
Reverse Curren (*6)
VIN=0V, VOUT=VOUT(T), VCE= VIN or VSS
VIN=VCE=5.0V, VOUT=6.0V
0.01
95
1.5
-
215
VOUT Pin Sink Current (*7)
IREVS
VIN=5.0V, VCE=VSS
, VOUT=6.0V,
-
2.8
150
125
530
5.3
μA
℃
①
①
①
①
XC6222A/C Series (*8)
Thermal Shutdown
Detect Temperature
Thermal Shutdown
Release Temperature
CL Discharge
TTSD
TTSR
Junction Temperature
-
-
-
-
Junction Temperature
℃
VIN=6.0V, VOUT=4.0V, VCE=VSS
XC6222B/D Series (*9)
RDCHG
370
690
Ω
Resistance (* 9)
4/27
XC6222
Series
■ELECTRICAL CHARACTERISTICS (Continued)
NOTE:
* 1: Unless otherwise stated, input voltage is VIN=VOUT(T)+1.0V.
* 2: VOUT (E) is effective output voltage (Refer to the voltage chart E-0 and E-1)
It is defined as output voltages when an amply stabilized VOUT(T)+1.0V is supplied to the VIN pin while maintaining a certain IOUT
* 3: The relation between VOU T (E) and VOUT (T) is shown in the voltage chart E-0 and E-1.
* 4: VOUT (T) is nominal output voltage
.
* 5: Vdif = {VIN1-VOUT1
}
V
V
OUT1 equals 98% of the output voltage when amply stabilized VOUT (T) +1.0V are supplied to the VIN pin.
IN1 is the input voltage when VOUT1 appears at the VOUT pin while input voltage is gradually decreased.
* 6: Reverse current (IREV) flows from VOUT to VIN.
* 7: VOUT pin sink current (IREVS) flows from VOUT to VSS
.
* 8: For the XC6222A/C series only. In the XC6222B/D series, the current flows from the VOUT pin to the VSS pin via the internal switch
when CE pin is low. Please do not connect another power supply to the VOUT pin. Please also note when the XC6222A/C series
connects external power supply to the VOUT pin, please use it within the range from VOUT(E) (actual output voltage value)or more to 6.0V
or less. When the voltage less than VOUT(E) is applied to the VOUT pin by adding a power supply or battery, a low level signal should be
input to the CE pin for chip disable in order to protect a reverse current at VIN < VOUT
.
* 9: For the XC6222B/D series only. The XC6222A/C series discharges via two resistors R1 and R2 shown in the block diagram.
5/27
XC6222 Series
■OUTPUT VOLTAGE CHART
●Voltage Chart 1
SYMBOL
E-0
E-1
E-2
NOMINAL
OUTPUT
VOLTAGE
OUTPUT VOLTAGE
(V)
DROPOUT VOLTAGE
(mV)
LOAD REGULATION
(mV)
(V)
VOUT(E)
ΔVOUT
Vdif
VOUT(T)
MIN.
MAX.
TYP.
MAX.
TYP.
MAX.
0.80
0.85
25
25
50
50
720
720
880
880
0.7800
0.8300
0.8200
0.8700
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1.25
1.30
1.35
1.40
1.45
1.50
1.55
1.60
1.65
1.70
1.75
1.80
1.85
1.90
1.95
2.00
2.05
2.10
2.15
2.20
2.25
2.30
2.35
2.40
2.45
2.50
2.55
2.60
2.65
2.70
2.75
2.80
2.85
2.90
2.95
25
25
25
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
35
35
35
35
35
35
35
35
35
35
35
35
35
35
35
35
35
35
35
50
50
50
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
70
720
720
570
570
570
570
420
420
420
420
320
320
280
280
280
280
280
280
220
220
220
220
200
200
200
200
200
200
200
200
200
200
160
160
160
160
160
160
160
160
160
160
880
880
740
740
740
740
570
570
570
570
470
470
410
410
410
410
410
410
350
350
350
350
320
320
320
320
320
320
320
320
320
320
260
260
260
260
260
260
260
260
260
260
0.8800
0.9300
0.9800
1.0300
1.0800
1.1300
1.1800
1.2300
1.2800
1.3300
1.3800
1.4300
1.4800
1.5300
1.5800
1.6300
1.6800
1.7300
1.7800
1.8300
1.8800
1.9300
1.9800
2.0295
2.0790
2.1285
2.1780
2.2275
2.2770
2.3265
2.3760
2.4255
2.4750
2.5245
2.5740
2.6235
2.6730
2.7225
2.7720
2.8215
2.8710
2.9205
0.9200
0.9700
1.0200
1.0700
1.1200
1.1700
1.2200
1.2700
1.3200
1.3700
1.4200
1.4700
1.5200
1.5700
1.6200
1.6700
1.7200
1.7700
1.8200
1.8700
1.9200
1.9700
2.0200
2.0705
2.1210
2.1715
2.2220
2.2725
2.3230
2.3735
2.4240
2.4745
2.5250
2.5755
2.6260
2.6765
2.7270
2.7775
2.8280
2.8785
2.9290
2.9795
6/27
XC6222
Series
■OUTPUT VOLTAGE CHART (Continued)
●Voltage Chart 2
SYMBOL
E-0
E-1
E-2
NOMINAL
OUTPUT
VOLTAGE
OUTPUT VOLTAGE
(V)
DROPOUT VOLTAGE
(mV)
LOAD REGULATION
(mV)
(V)
VOUT(E)
ΔVOUT
Vdif
VOUT(T)
MIN.
MAX.
TYP.
MIN.
MAX.
3.00
3.05
43
43
85
85
120
120
200
200
2.9700
3.0195
3.0300
3.0805
3.10
3.15
3.20
3.25
3.30
3.35
3.40
3.45
3.50
3.55
3.60
3.65
3.70
3.75
3.80
3.85
3.90
3.95
4.00
4.05
4.10
4.15
4.20
4.25
4.30
4.35
4.40
4.45
4.50
4.55
4.60
4.65
4.70
4.75
4.80
4.85
4.90
4.95
5.00
43
43
43
43
43
43
43
43
43
43
43
43
43
43
43
43
43
43
43
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
85
85
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
120
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
3.0690
3.1185
3.1680
3.2175
3.2670
3.3165
3.3660
3.4155
3.4650
3.5145
3.5640
3.6135
3.6630
3.7125
3.7620
3.8115
3.8610
3.9105
3.9600
4.0095
4.0590
4.1085
4.1580
4.2075
4.2570
4.3065
4.3560
4.4055
4.4550
4.5045
4.5540
4.6035
4.6530
4.7025
4.7520
4.8015
4.8510
4.9005
4.9500
3.1310
3.1815
3.2320
3.2825
3.3330
3.3835
3.4340
3.4845
3.5350
3.5855
3.6360
3.6865
3.7370
3.7875
3.8380
3.8885
3.9390
3.9895
4.0400
4.0905
4.1410
4.1915
4.2420
4.2925
4.3430
4.3935
4.4440
4.4945
4.5450
4.5955
4.6460
4.6965
4.7470
4.7975
4.8480
4.8985
4.9490
4.9995
5.0500
85
85
85
85
85
85
85
85
85
85
85
85
85
85
85
85
85
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
7/27
XC6222 Series
■OPERATIONAL EXPLANATION
The voltage divided by two resistors R1 and R2 is compared with the internal reference voltage by the error amplifier. The
P-channel MOSFET connected to the VOUT pin, is then driven by the subsequent output signal. The output voltage at the VOUT
pin is controlled and stabilized by a system of negative feedback. The current limit and short protection operate in relation to
the level of output current. The thermal protection operates in relation to the level of heat generation. The reverse current
protection operates when VOUT voltage is higher than VIN voltage. Further, the IC's internal circuitry can be turned off via the CE
pin's signal.
Reverce
Current
Protection
VIN
VOUT
CFB
CurrentLimit
&
ThermalShutdown
R1
+
Error
Amp
-
R2
each
circuit
Voltage
Reference
ON/OFF
Control
CE
VSS
XC6222Aseries
<Input and Output Capacitors>
The XC6222 needs an output capacitor CL for phase compensation. Values refor the phase compensation are shown in
the chart below. If a loss of the capacitance happens, stable phase compensation may not be obtained. Please ensure to
use a capacitor which does not depend on bias or temperature too much. For a stable power input, please connect an input
capacitor CIN of 1.0μF between the VIN pin and the VSS pin.
●Output Capacitor (CL) Table
OUTPUT VOLTAGE (V)
0.8V~2.05V
OUTPUT CAPACITOR VALUE
CL=6.8μF (MIN.)
2.1V~2.45V
CL=4.7μF (MIN.)
2.5V~5.0V
CL=2.2μF (MIN.)
<Reverse Current Protection>
The XC6222 series includes reverse current protection to prevent the damage to any connected products such as batteries as a
result of current flow from the VOUT pin to the VIN pin. When VIN is smaller than VOUT, the reverse current protection works and
suppress the reverse current to 1.5μA (MAX.). When VIN is smaller then VOUT, the VOUT pin sink current flows from the VOUT
pin to the VSS pin is 95μA (TYP.) as the IC operation current. With the XC6222A/C series, when a low level signal is inputted
to the CE pin, the sink current of the VOUT pin is minimized to 2.8μA (TYP.). However, with the XC6222B/D series, when a low
level signal is inputted to the CE pin, the sink current of the VOUT pin goes through the CL auto discharge circuit to the VSS pin
which may result in the IC being damaged. In this case, please do not connect a power supply to the VOUT pin.
Please also note when the XC6222A/C series connects external power supply to the VOUT pin, please use it within the range
from VOUT(E) (actual output voltage value)or more to 6.0V or less. When the voltage less than VOUT(E) is applied to the VOUT pin by
adding a power supply or battery, a low level signal should be input to the CE pin for chip disable in order to protect a reverse
current at VIN < VOUT
.
Example) The voltage less than VOUT(E) (actual output voltage value) is applied to the VOUT pin as "OR" connection.
* When the CE pin is connected to the VIN pin, an output voltage 2.8V
from the step-up DC/DC goes through to the VIN pin as reverse
current up to around 150mA if the USB connection is removed from
the VIN pin (VIN < VOUT). CE pin voltage should be maintained low
when the USB connection is removed from the VIN pin.
8/27
XC6222
Series
■OPERATIONAL EXPLANATION (Continued)
<Current Limiter, Short-Circuit Protection>
The XC6222 series’ fold-back circuit operates as an output current limiter and a short protection circuit for the output pin.
When the load current reaches the current limit level, the fixed current limiter circuit operates and output voltage drops. When
the output pin is short-circuited to the VSS pin, the current is decreased to a level of 55mA.
<Thermal Shutdown>
When the junction temperature of the built-in driver transistor reaches the temperature limit level (150℃ TYP.), the thermal
shutdown circuit operates and the driver transistor will be turned OFF. The IC resumes its operation when the thermal
shutdown function is released and the IC’s operation is automatically restored because the junction temperature drops to the
level of 125℃ (TYP.) as the thermal shutdown release voltage.
<CL Auto-Discharge Function>
XC6222B/D series can discharge the electric charge stored in the output capacitor (CL), when a low signal to the CE pin, which
enables the whole IC circuit to be turned off, is inputted via the N-channel transistor located between the VOUT pin and the VSS
pin (cf. BLOCK DIAGRAM). The CL auto-discharge resistance value is set at 530Ω(TYP.). The discharge time of the output
capacitor (CL) is set by the CL auto-discharge resistance (R) and the output capacitor (CL). By setting the time constant of the
CL auto-discharge resistance value [RDCHG] and the output capacitor value (CL) as τ(τ=C x RDCHG), the output voltage after
discharge via the N-channel transistor is calculated by the following formula.
V = VOUT(E) x e –t/
,
or t=τIn ( V / VOUT(E) )
τ
where
V: Output voltage after discharge
VOUT (E): Output voltage
t: Discharge time
τ: CL auto-discharge resistance RDCHG×Output capacitor (CL) value C)
<CE Pin>
The entire XC6222 circuitry can be turned off via the CE pin signal. In shutdown mode, output at the VOUT pin will be pulled
down to the VSS level via R1 & R2. However, with the XC6222B series, the CL auto-discharge resistor is connected in parallel to
R1 and R2 while the power supply is applied to the VIN pin. Therefore, time until the VOUT pin reaches the VSS level is shorter.
For the XC6222A/B series, the output voltage becomes unstable, when the CE pin is left open. If this CE pin voltage is set with
the specified voltage range, the logic is fixed and the IC will operate normally. However, the supply current may increase as a
result of shoot-through current in the IC's internal circuitry when a medium voltage is input to the CE pin. With the XC6222C/D
series, when the CE pin is left open, output voltage is fixed to VSS level.
■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 wire the input capacitor (CIN) and the output capacitor (CL) as close to the IC as possible.
3. 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.
9/27
XC6222 Series
■TEST CIRCUITS
●Circuit ①
●Circuit ②
●Circuit ③
*CIN: 1.0μF or higher
CL: 2.2μF or higher (VOUT=2.5~5.0V)
4.7μF or higher (VOUT=2.1~2.45V)
6.8μF or higher (VOUT=0.8~2.05V)
10/27
XC6222
Series
■TYPICAL PERFORMANCE CHARACTERISTICS
*CE Voltage condition: unless otherwise stated VCE=VIN
(1) Output Voltage vs. Output Current
XC6222x081
XC6222x081
V
IN=1.8V, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
Ta=25℃, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
1.0
0.8
0.6
0.4
0.2
0.0
1.0
0.8
0.6
0.4
0.2
0.0
VIN=1.4V
VIN=1.6V
VIN=1.8V
VIN=2.3V
VIN=6.0V
85℃
25℃
-40℃
0
0.2
0.4
0.6
0.8
1
1.2
0
0.2
0.4
0.6
0.8
Output Current:IOUT(A)
1
1.2
Output Current:IOUT(A)
XC6222x151
XC6222x151
Ta=25℃, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
VIN=2.5V, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
2.0
2.0
1.5
1.0
0.5
0.0
1.5
1.0
0.5
0.0
VIN=1.6V
VIN=1.8V
VIN=2.0V
VIN=2.5V
VIN=6.0V
85℃
25℃
-40℃
0
0.2
0.4
0.6
0.8
1
1.2
0
0.2
0.4
0.6
0.8
1
1.2
Output Current:IOUT(A)
Output Current:IOUT(A)
XC6222x281
XC6222x281
VIN=3.8V, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
Ta=25℃, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
3.0
2.5
2.0
1.5
1.0
0.5
0.0
3.0
2.5
2.0
1.5
1.0
0.5
0.0
VIN=2.9V
VIN=3.1V
VIN=3.3V
VIN=3.8V
VIN=6.0V
85℃
25℃
-40℃
0
0.2
0.4
0.6
Output Current:IOUT(A)
0.8
1
1.2
0
0.2
0.4
0.6
0.8
Output Current:IOUT(A)
1
1.2
11/27
XC6222 Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(1) Output Voltage vs. Output Current (Continued)
XC6222x501
XC6222x501
Ta=25℃, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
VIN=6.0V, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
6.0
5.0
4.0
3.0
2.0
1.0
0.0
6.0
5.0
4.0
3.0
VIN=5.1V
2.0
85℃
VIN=5.3V
VIN=5.5V
VIN=6.0V
25℃
1.0
-40℃
0.0
0
0.2
0.4
0.6
0.8
1
1.2
0
0.2
0.4
0.6
0.8
1
1.2
Output Current:IOUT[A]
Output Current:IOUT[A]
(2) Output Voltage vs. Input Current
XC6222x081
XC6222x081
Ta=25℃, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
Ta=25℃, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
1.0
0.8
0.6
0.4
0.2
0.0
0.90
0.85
0.80
0.75
0.70
0.65
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Input Voltage:VIN(V)
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Input Voltage:VIN(V)
XC6222x151
XC6222x151
Ta=25℃, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
Ta=25℃, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
2.0
1.5
1.0
0.5
0.0
1.60
1.55
1.50
1.45
1.40
1.35
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
0.0
1.0
2.0
3.0
4.0
5.0
6.0
2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Input Voltage:VIN(V)
Input Voltage:VIN(V)
12/27
XC6222
Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(
(2) Output Voltage vs. Input Current (Continued)
XC6222x281
XC6222x281
Ta=25℃, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
Ta=25℃, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
3.0
2.9
2.8
2.7
2.6
2.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
0.0
1.0
2.0
3.0
4.0
5.0
6.0
3.0
3.5
4.0
4.5
5.0
5.5
6.0
Input Voltage:VIN(V)
Input Voltage:VIN(V)
XC6222x501
XC6222x501
Ta=25℃, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
Ta=25℃, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
6.0
5.2
5.1
5.0
4.9
4.8
4.7
5.0
4.0
3.0
2.0
1.0
0.0
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
IOUT=0.1mA
IOUT=10mA
IOUT=30mA
IOUT=100mA
5.2
5.4
5.6
5.8
6.0
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Input Voltage:VIN(V)
Input Voltage:VIN(V)
(3) Dropout Voltage vs. Output Current
(
XC6222x081
XC6222x151
CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
1000
800
600
400
200
0
1400
85℃
25℃
-40℃
1200
※Below the minimum operating Voltage
1000
800
600
85℃
400
25℃
200
※Below the minimum operating Voltage
-40℃
0
0
100 200 300 400 500 600 700
Output Current:IOUT(mA)
0
100 200 300 400 500 600 700
Output Current:IOUT(mA)
13/27
XC6222 Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(3) Dropout Voltage vs. Output Current (Continued)
(
XC6222x281
XC6222x501
CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
C
IN=1.0μF(ceramic), CL=2.2μF(ceramic)
800
500
400
300
200
100
0
85℃
85℃
25℃
-40℃
25℃
600
-40℃
400
200
0
0
100 200 300 400 500 600 700
Output Current:IOUT(mA)
0
100 200 300 400 500 600 700
Output Current:IOUT(mA)
(4) Supply Current vs. Input Voltage
(
XC6222x151
XC6222x081
200
200
85℃
25℃
150
100
50
-40℃
150
100
50
85℃
25℃
-40℃
0
0
0
1
2
3
4
5
6
0
1
2
3
4
5
6
Input Voltage:VIN(V)
Input Voltage:VIN(V)
XC6222x501
XC6222x281
200
200
85℃
25℃
-40℃
85℃
25℃
150
100
50
150
100
50
-40℃
0
0
0
1
2
3
4
5
6
0
1
2
3
4
5
6
Input Voltage:VIN(V)
Input Voltage:VIN(V)
14/27
XC6222
Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(5) Output Voltage vs. Ambient Temperature
XC6222x081
XC6222x151
VIN=2.5V, IOUT=30mA, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
VIN=1.8V, IOUT=30mA, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
1.60
0.850
1.55
1.50
1.45
1.40
0.825
0.800
0.775
0.750
-50 -25
0
25
50
Ambient Temperature:Ta(℃)
75
100
-50 -25
0
25
50
Ambient Temperature:Ta(℃)
75
100
XC6222x501
VIN=6.0V, IOUT=30mA, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
XC6222x281
VIN=3.8V, IOUT=30mA, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
3.00
5.40
2.90
2.80
2.70
2.60
5.20
5.00
4.80
4.60
-50 -25
0
25
50
Ambient Temperature:Ta(℃)
75
100
-50 -25
0
25
50
Ambient Temperature:Ta(℃)
75
100
(6) CE Pin Threshold Voltage vs. Ambient Temperature
(7) Reverse Current vs. Output Voltage
XC6222
XC6222
V
IN=0V, VCE=VIN
1
0
1.2
1.0
0.8
0.6
0.4
-1
-2
-3
-4
-5
85℃
25℃
-40℃
CE"H"LEVEL
0.2
CE"L"LEVEL
0.0
-50 -25
0
25
50
Ambient Temperature:Ta(℃)
75
100
0
1
2
3
4
5
6
Output Voltage:VOUT(V)
15/27
XC6222 Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(8) V
Sink Current vs. Output Voltage
OUT
XC6222A081/XC6222C081
XC6222x081
VIN=3.0V, VCE=VIN
VIN=3.0V, VCE=VSS
160
85℃
8
7
6
5
4
3
2
1
0
25℃
140
85℃
25℃
-40℃
-40℃
120
100
80
60
40
20
0
2.5
3
3.5
4
4.5
5
5.5
6
2.5
3
3.5
4
4.5
5
5.5
6
Output Voltage:VOUT(V)
Output Voltage:VOUT(V)
16/27
XC6222
Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(9) Input Transient Response 1
XC6222x081
XC6222x151
Ta=25℃, VIN=0→1.8V, tr=5μs、CL=6.8μF(ceramic)
Ta=25℃, VIN=0→2.5V, tr=5μs, CL=6.8μF(ceramic)
3.0
2.5
2.0
1.5
1.0
0.5
0.0
3.0
3.0
2.5
2.0
1.5
1.0
0.5
0.0
3.0
Input Voltage
2.0
2.0
Input Voltage
IOUT=0.1mA
IOUT=1mA
IOUT=30mA
1.0
1.0
Output Voltage
0.0
0.0
IOUT=100mA
Output Voltage
-1.0
-2.0
-3.0
IOUT=0.1mA
IOUT=1mA
-1.0
-2.0
-3.0
IOUT=30mA
IOUT=100mA
Time:40μs/div
Time:40μs/div
XC6222x501
XC6222x281
Ta=25℃, VIN=0→3.8V, tr=5μs、CL=2.2μF(ceramic)
Ta=25℃, VIN=0→6.0V, tr=5μs、CL=2.2μF(ceramic)
6.0
5.0
4.0
3.0
2.0
1.0
0.0
6.0
12.0
10.0
8.0
8.0
Input Voltage
Input Voltage
4.0
6.0
2.0
4.0
Output Voltage
0.0
Output Voltage
6.0
2.0
-2.0
-4.0
-6.0
4.0
0.0
IOUT=0.1mA
IOUT=1mA
IOUT=0.1mA
IOUT=1mA
2.0
-2.0
-4.0
IOUT=30mA
IOUT=100mA
IOUT=30mA
IOUT=100mA
0.0
Time:40μs/div
Time:40μs/div
(10) CE Rising Response Time
XC6222x151
XC6222x081
tr=5μs, Ta=25℃,
VCE=0→1.8V, CIN=1.0μF(ceramic)、CL=6.8μF(ceramic)
tr=5μs, Ta=25℃,
CE=0→2.5V, CIN=1.0μF(ceramic)、CL=6.8μF(ceramic)
V
3.0
2.5
2.0
1.5
1.0
0.5
0.0
3
3.0
2.5
2.0
1.5
1.0
0.5
0.0
3
CE Input Voltage
2
2
CE Input Voltage
Output Voltage
IOUT=0.1mA
IOUT=1mA
IOUT=30mA
1
1
0
0
IOUT=100mA
Output Voltage
IOUT=0.1mA
IOUT=1mA
-1
-2
-3
-1
-2
-3
IOUT=30mA
IOUT=100mA
Time:40μs/div
Time:40μs/div
17/27
XC6222 Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(10) CE Rising Response Time (Continued)
XC6222x281
XC6222x501
tr=5μs, Ta=25℃
CE=0→3.8V, CIN=1.0μF(ceramic)、CL=2.2μF(ceramic)
tr=5μs, Ta=25℃
VCE=0→6.0V, CIN=1.0μF(ceramic)、CL=2.2μF(ceramic)
V
6.0
5.0
4.0
3.0
2.0
1.0
0.0
6
12.0
10.0
8.0
8
CE Input Voltage
CE Input Voltage
4
6
2
4
Output Voltage
0
Output Voltage
6.0
2
IOUT=0.1mA
IOUT=1mA
-2
-4
-6
4.0
0
IOUT=0.1mA
IOUT=1mA
IOUT=30mA
IOUT=100mA
2.0
-2
-4
IOUT=30mA
IOUT=100mA
0.0
Time:40μs/div
Time:40μs/div
(11) Input Transient Response 2
XC6222x151
Ta=25℃, VIN=2.5→3.5V, tr=tf=5μs,
XC6222x081
Ta=25℃, VIN=1.8→2.8V, tr=tf=5μs,
OUT=100mA, CL=6.8μF(ceramic)
IOUT=100mA, CL=6.8μF(ceramic)
I
1.54
1.53
1.52
1.51
1.50
1.49
1.48
4.5
0.84
0.83
0.82
0.81
0.80
0.79
0.78
3.8
3.5
2.8
Input Voltage
Input Voltage
2.5
1.8
1.5
0.8
Output Voltage
Output Voltage
0.5
-0.2
-1.2
-2.2
-0.5
-1.5
Time:50μs/div
Time:50μs/div
XC6222x501
Ta=25℃, VIN=5.5→6.0V, tr=tf=5μs,
XC6222x281
Ta=25℃, VIN=3.8→4.8V, tr=tf=5μs,
IOUT=100mA, CL=2.2μF(ceramic)
IOUT=100mA, CL=2.2μF(ceramic)
2.84
5.8
4.8
3.8
2.8
1.8
0.8
-0.2
5.04
5.03
5.02
5.01
5.00
4.99
4.98
6.5
6.0
5.5
5.0
4.5
4.0
3.5
2.83
2.82
2.81
2.80
2.79
2.78
Input Voltage
Input Voltage
Output Voltage
Output Voltage
Time:50μs/div
Time:50μs/div
18/27
XC6222
Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(12) Load Transient Response
XC6222x081
XC6222x081
tr=tf=5μs,VIN=1.8V, Ta=25℃
tr=tf=5μs,VIN=1.8V, Ta=25℃
OUT=10→100mA,CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
I
OUT=10→300mA, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
I
0.85
0.80
0.75
0.70
0.65
0.60
1000
800
600
400
200
0
0.85
0.80
0.75
0.70
0.65
0.60
1000
800
600
400
200
0
Output Voltage
Output Voltage
Output Current
Output Current
Time:100μs/div
XC6222x151
Time:100μs/div
XC6222x151
tr=tf=5μs,VIN=2.5V, Ta=25℃
tr=tf=5μs,VIN=2.5V, Ta=25℃
OUT=10→300mA, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
I
OUT=10→100mA, CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
I
1.55
1.50
1.45
1.40
1.35
1.30
1000
800
600
400
200
0
1.55
1.50
1.45
1.40
1.35
1.30
1000
800
600
400
200
0
Output Voltage
Output Voltage
Output Current
Output Current
Time:100μs/div
Time:100μs/div
XC6222x281
XC6222x281
tr=tf=5μs,VIN=3.8V, Ta=25℃
tr=tf=5μs,VIN=3.8V, Ta=25℃
OUT=10→100mA, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
I
OUT=10→300mA, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
I
2.90
2.80
2.70
2.60
2.50
2.40
1000
800
600
400
200
0
2.90
2.80
2.70
2.60
2.50
2.40
1000
800
600
400
200
0
Output Voltage
Output Current
Output Voltage
Output Current
TIme:100μs/div
Time:100μs/div
19/27
XC6222 Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(12) Load Transient Response (Continued)
XC6222x501
XC6222x501
tr=tf=5μs,VIN=6.0V, Ta=25℃
tr=tf=5μs,VIN=6.0V, Ta=25℃
I
OUT=10→100mA, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
I
OUT=10→300mA, CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
5.10
5.00
4.90
4.80
4.70
4.60
1000
800
600
400
200
0
5.10
5.00
4.90
4.80
4.70
4.60
1000
800
600
400
200
0
Output Voltage
Output Voltage
Output Current
Output Current
μs/div
Time:100
Time:100μs/div
(13) Ripple Rejection Rate
XC6222x151
XC6222x081
Ta=25℃,
IOUT=30mA、VIN=2.5V+0.5Vp-pAC, CL=6.8μF(ceramic)
Ta=25℃,
IOUT=30mA IN=1.8V+0.5Vp-pAC, CL=6.8μF(ceramic)
、V
80
60
40
20
0
80
60
40
20
0
10
100
1k
10k
:f(Hz)
100k
1M
10
100
1k
10k
100k
1M
Ripple Frequency
Ripple Frequency:f(Hz)
XC6222x281
XC6222x501
Ta=25℃,
OUT=30mA、VIN=3.8V+0.5Vp-pAC, CL=2.2μF(ceramic)
Ta=25℃,
IOUT=30mA IN=5.75V+0.5Vp-pAC, CL=2.2μF(ceramic)
I
、V
80
80
60
40
20
0
60
40
20
0
10
100
1k
10k
Ripple Frequency:f(Hz)
100k
1M
10
100
1k
10k
:f(Hz)
100k
1M
Ripple Frequency
20/27
XC6222
Series
■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
(14) Output Noise Density
XC6222x121
XC6222x181
VIN=2.8, Ta=25℃
VIN=2.2V, Ta=25℃
CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
CIN=1.0μF(ceramic), CL=6.8μF(ceramic)
100
10
100
10
Frequency-Range : 0.1~100kHz
Output Noise : 51.53μVrms
Frequency-Range : 0.1~100kHz
Output Noise : 76.29μVrms
IOUT=30mA
IOUT=30mA
1
1
0.1
0.01
0.1
0.01
0.1
1
10
100
0.1
1
10
100
Frequency : f (kHz)
Frequency : f (kHz)
XC6222x331
VIN=5.0V, Ta=25℃
CIN=1.0μF(ceramic), CL=2.2μF(ceramic)
100
10
Frequency-Range : 0.1~100kHz
Output Noise : 143.28μVrms
IOUT=30mA
1
0.1
0.01
0.1
1
10
100
Frequency : f (kHz)
21/27
XC6222 Series
■PACKAGING INFORMATION
●SOT-89-5
●SOT-25
Unit : mm
●USP-6C Reference Pattern Layout
●USP-6C
1.8±0.05
1pin INDENT
0.05
●USP-6C Reference Metal Mask Design
0.30±0.05
(0.1)
(0.50)
0.20±0.05
0.10±0.05
1.4±0.05
22/27
XC6222
Series
■PACKAGING INFORMATION (Continued)
●
USP-6C Power Dissipation
Power dissipation data for the USP-6C 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)
Copper (Cu) traces occupy 50% of the board area
In top and back faces
て
Package heat-sink is tied to the copper traces
Glass Epoxy (FR-4)
Material:
Thickness: 1.6 mm
Through-hole: 4 x 0.8 Diameter
2. Power Dissipation vs. Ambient Temperature
Evaluation Board (Unit: mm)
Board Mount (Tj max = 125℃)
Ambient Temperature(℃)
Power Dissipation Pd(mW) Thermal Resistance (℃/W)
25
85
1000
100.00
400
Pd vs. Ta
1200
1000
800
600
400
200
0
25
45
65
85
105
125
Ambient Temperature Ta (℃)
23/27
XC6222 Series
■PACKAGING INFORMATION (Continued)
●
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)
Copper (Cu) traces occupy 50% of the board area
In top and back faces
Package heat-sink is tied to the copper traces
(Board of SOT-26 is used.)
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) Thermal Resistance (℃/W)
25
85
600
240
166.67
Pd vs. Ta
700
600
500
400
300
200
100
0
25
45
65
85
105
125
Ambient Temperature Ta (℃)
24/27
XC6222
Series
■PACKAGING INFORMATION (Continued)
●
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
て
Ambient:
Natural convection
Soldering: Lead (Pb) free
Board:
Dimensions 40 x 40 mm (1600 mm2 in one side)
Copper (Cu) traces occupy 50% of the board area
In top and back faces
Package heat-sink is tied to the copper traces
Glass Epoxy (FR-4)
Material:
Thickness: 1.6 mm
Through-hole: 5 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) Thermal Resistance (℃/W)
25
85
1300
76.92
520
Pd vs. Ta
1400
1200
1000
800
600
400
200
0
25
45
65
85
105
125
Ambient Temperature Ta (℃)
25/27
XC6222 Series
■MARKING RULE
① represents product series
MARK
N
PRODUCT SERIES
XC6222******-G
●SOT-25
5
4
② represents regulator type, voltage range, and accuracy
OUTPUT
VOLTAGE RANGE
①
②
③
④
⑤
MARK REGULATOR TYPE
ACCURACY
PRODUCT SERIES
C
D
E
F
A
A
A
A
B
B
B
B
C
C
C
C
D
D
D
D
0.8~2.9
0.85~2.95
3.0~5.0
1
B
1
XC6222A081**-G~XC6222A291**-G
XC6222A08B**-G~XC6222A29B**-G
XC6222A301**-G~XC6222A501**-G
XC6222A30B**-G~XC6222A49B**-G
XC6222B081**-G~XC6222B291**-G
XC6222B08B**-G~XC6222B29B**-G
XC6222B301**-G~XC6222B501**-G
XC6222B30B**-G~XC6222B49B**-G
XC6222C081**-G~XC6222C291**-G
XC6222C08B**-G~XC6222C29B**-G
XC6222C301**-G~XC6222C501**-G
XC6222C30B**-G~XC6222C49B**-G
XC6222D081**-G~XC6222D291**-G
XC6222D08B**-G~XC6222D29B**-G
XC6222D301**-G~XC6222D501**-G
XC6222D30B**-G~XC6222D49B**-G
1
2
3
3.05~4.95
0.8~2.9
B
1
H
K
L
SOT89-5
0.85~2.95
3.0~5.0
B
1
5
2
4
M
N
P
R
S
T
3.05~4.95
0.8~2.9
B
1
0.85~2.95
3.0~5.0
B
1
3.05~4.95
0.8~2.9
B
1
U
V
X
0.85~2.95
3.0~5.0
B
1
1
2
3
3.05~4.95
B
* Accuracy “1”: 0.1V increments. Accuracy “B”: 0.05V increments
USP6C
③ represents output voltage
1
6
5
4
MARK
OUTPUT VOLTAGE MARK
OUTPUT VOLTAGE
MARK OUTPUT VOLTAGE
2
3
0
1
2
3
4
5
6
7
8
9
-
3.0x
3.1x
3.2x
3.3x
3.4x
3.5x
3.6x
3.7x
3.8x
3.9x
A
B
C
D
E
F
1.0x
1.1x
1.2x
1.3x
1.4x
1.5x
1.6x
1.7x
1.8x
1.9x
4.0x
4.1x
4.2x
4.3x
4.4x
4.5x
4.6x
4.7x
4.8x
4.9x
N
P
R
S
T
2.0x
2.1x
2.2x
2.3x
2.4x
2.5x
2.6x
2.7x
2.8x
2.9x
5.0x
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
U
V
X
Y
Z
F
-
K
L
0.8x
0.9x
M
④⑤ represents production lot number
01 to 09, 0A to 0Z, 11 to 9Z, A1 to A9, AA to Z9, ZA to ZZ in order.
(G, I, J, O, Q, W excluded. No character inversion used.)
26/27
XC6222
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.
27/27
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