XC9220B09AML_技术文档

XC9220/XC9221Series

ETR0511_007

16V Input Voltage, Step-Down DC/DC Controller ICs.

■GENERAL DESCRIPTION

The XC9220/XC9221 series is a group of multi-purpose step-down DC/DC controller ICs. The ICs enable a high efficiency,

stable power supply with an output current up to 3A to be configured using only a transistor, a coil, a diode, and two capacitors

connected externally. Low ESR capacitors such as a ceramic capacitor can be used as an output capacitor.

The XC9220/XC9221 series has a 0.9V (±1.5%) reference voltage, and using externally connected resistors, the output

voltage can be set freely. With an internal switching frequency of 300kHz and 500kHz 1.0MHz, small external components

can also be used. The XC9220 series is PWM control, and the XC9221 series is PWM/PFM mode, which automatically

switches from PWM to PFM during light loads and high efficiencies can be achieved over a wide range of load conditions.

As for the soft-start time, the XC9220/XC9221A and C series is internally set to 4msec and the XC9220/XC9221B and D

series can be externally set-up. With the built-in U.V.L.O. (Under Voltage Lock Out) function, the internal P-channel driver

transistor is forced OFF when input voltage becomes 2.3V or lower.

■FEATURES

■APPLICATIONS

●Set top boxes

Operating Voltage Range

Output Voltage Range

: 2.8V ~ 16.0V

: 1.2V or more

Output Voltage Externally Set : 0.9V (accuracy +1.5%)

●Digital TVs

Output Current

: Less than 3.0A

●DVD/HDD recorders

●Portable information terminals

●Notebook computers

Oscillation Frequency

Control Methods

: 300kHz, 500kHz, and 1.0MHz

: PWM control (XC9220)

PWM/PFM automatic switching

(XC9221)

Soft-Start Function

Protection Circuits

: 4ms, internally set

(XC9220/XC9221A, 500kHz)

Externally set (XC9220/XC9221B)

: Integral protection (1.0 ms)

(XC9220/XC9221 Aand B series)

Short-circuit protection

Low ESR

Capacitor Compatible

Packages

: Ceramic capacitor

: SOT-25

USP-6C

■TYPICAL APPLICATION CIRCUIT ■TYPICAL PERFORMANCE

CHARACTERISTICS

●Efficiency vs. Output Current

V

IN

XC9221A095MR (VOUT=3.3V, FOSC=500kHz)

CIN=47μF (OS-Con), CL=47μF (OS-Con),

L=10μH (CDRH8D43, SUMIDA)

PchMOSFET: CPH3308 (SANYO), CDD=1.0μF (ceramic), RIN=10Ω

C

IN

CE

Pc h

MOSFET

100

RSENSE

( for ceramic CL )

90

80

70

60

50

40

30

20

10

0

VIN=5.0V

L

V

OUT

CL

CFB

R

FB1

FB2

SBD

VIN=16.0V

VIN=12.0V

* RSENSE : Tantalum and electrolytic capacitors can be used, in w hich case,

RSENSE becomes unnecessary.

0.1

1

10

100

1000

10000

Output Current IOUT (mA)

ꢀ

1/22

XC9220/XC9221 Series

■PIN CONFIGURATION

V

IN

5

EXT/

4

* The dissipation pad for the USP-6C package

(preliminary) 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.

1

2

3

CE/CSS

V

SS

FB

SOT-25

USP-6C

(TOP VIEW)

(BOTTOM VIEW)

■PIN ASSIGNMENT

PIN NUMBER

PIN NAME

FUNCTION

SOT-25

USP-6C

1

2

3

4

-

6

5

4

3

2

1

CE/CSS

VSS

Chip Enable / Soft-Start

Ground

FB

Output Voltage Sense

External Transistor Drive

No Connection

EXT/

NC

5

VIN

Power Supply

■PRODUCT CLASSIFICATION

●Ordering Information

XC9220123456: PWM control

XC9221123456: PWM/PFM automatic switching control

DESIGNATOR

DESCRIPTION

SYMBOL

DESCRIPTION

A

B

C

D

: Soft-start internally set with integral protection function

: Soft-start externally set with integral protection function

: Soft-start internally set without integral protection function

: Soft-start externally set without integral protection function

Type of DC/DC Controller

ICs

1

23

4

Output Voltage

09

: FB Voltage (Fixed)

3

5

: 300kHz

Oscillation Frequency

: 500kHz

A

M

E

R

L

: 1.0MHz

: SOT-25

5

6

Package

: USP-6C

: Embossed tape, standard feed

: Embossed tape, reverse feed

Device Orientation

2/22

XC9220/XC9221

Series

■BLOCK DIAGRAMS

●XC9220/21A and C series

● XC9220/21B and D series

■ABSOLUTE MAXIMUM RATINGS

Ta = 25^OC

PARAMETER

VIN Pin Voltage

FB Pin Voltage

SYMBOL

VIN

RATINGS

UNITS

- 0.3 ~ + 18.0

- 0.3 ~ VIN + 0.3

+ 100

V

VFB

CE/CSS Pin Voltage

EXT/ Pin Voltage

EXT/ Pin Current

CE

V

VEXT

IEXT

V

mA

SOT-25

USP-6C

250

Power Dissipation

Pd

mW

100

Operating Temperature Range

Storage Temperature Range

Topr

Tstg

- 40 ~ + 85

- 55 ~ +125

^OC

3/22

XC9220/XC9221 Series

■ELECTRICAL CHARACTERISTICS

XC9220/XC9221 A and C series

Ta = 25^OC

PARAMETER

SYMBOL

CONDITIONS

MIN.

TYP.

MAX.

UNIT. CIRCUIT

FB Voltage

Input Voltage Range

U.V.L.O. Voltage

VFB

VIN

0.8865 0.9000 0.9135

V

2

-

2.8

1.9

-

16.0

2.7

VUVLO

2.3

V

3

(Minimum Operating Voltage)

Supply Current 2

IDD2

ISTB

VIN=5.0V, FB=1.0V

**

μA

1

Stand-by Current

-

0.1

1.0

Connected to external

components

Oscillation Frequency

FOSC

**

kHz

3

Maximum Duty Ratio

PFM Duty Ratio

MAXDTY

PFMDTY

REXTBH

REXTBL

100

15

6

-

%

Ω

2

3

4

No load (XC9221 series only)

25

10

12

35

16

20

EXT/ High On Resistance

EXT/ Low On Resistance

Integral Protection Time

(*2)

6

TPRO

(XC9220/9221 A series)

**

ms

2

Short-Circuit Protection

Soft-Start Time

VSHORT

TSS

-

0.7

V

ms

%

2

3

**

Efficiency (*1)

EFFI

-

92

-

FB Voltage

UVFB

ppm

/^OC

V

+100

2

Temperature Characteristics

CE “High” Level Voltage

CE “Low” Level Voltage

CE “High” Level Current

CE “Low” Level Current

FB “High” Level Current

UTopr VFB

VCEH

VCEL

ICEH

ICEL

IFBH

IFBL

1.2

-

2

3

1

4

0.3

0.1

V

VIN=CE=16V

VIN=16V, CE=0V

VIN=FB=16V

- 0.1

μA

FB “Low” Level Current

Unless otherwise stated, VIN=5.0V

NOTE:

VIN=16V, FB=0V

*1: EFFI = { (output voltage) x (output current)} / { (input voltage) x (input current) } x 100

*2: No Integral protection function is available with the XC9220/9221 C series.

** Refer to the CHARACTERISTICS CHART BY OSCILLATION FREQUENCY.

4/22

XC9220/XC9221

Series

■ELECTRICAL CHARACTERISTICS (Continued)

XC9220/XC9221 B and D series

Ta = 25^OC

PARAMETER

SYMBOL

CONDITIONS

MIN.

TYP.

MAX.

UNIT. CIRCUIT

FB Voltage

Input Voltage Range

U.V.L.O. Voltage

VFB

VIN

0.8865 0.9000 0.9135

V

2

-

2.8

1.9

-

16.0

2.7

VUVLO

2.3

V

3

(Minimum Operating Voltage)

Supply Current 2

IDD2

ISTB

VIN=5.0V, FB=1.0V

**

μA

1

Stand-by Current

-

0.1

1.0

Connected to external

components

Oscillation Frequency

FOSC

**

kHz

3

Maximum Duty Ratio

PFM Duty Ratio

MAXDTY

PFMDTY

REXTBH

REXTBL

100

15

6

-

%

Ω

2

3

4

No load (XC9221 series only)

25

10

12

35

16

20

EXT/ High On Resistance

EXT/ Low On Resistance

Integral Protection Time

(*4)

6

TPRO

(XC9220/9221 B series)

**

ms

2

Short-Circuit Protection

Soft-Start Time

VSHORT

TSS

-

10.0

**

0.7

V

ms

%

2

5

2

3

Connected to RSS and CSS

CE=VIN

5.0

20.0

Internal Soft-Start Time (*1)

Efficiency (*2)

TSS_IN

EFFI

-

92

-

FB Voltage

UVFB

ppm

/^OC

+100

-

2

Temperature Characteristics

CE “High” Level Voltage

(*3)

UTopr VFB

VCEH

2.6

-

V

CE “Low” Level Voltage

CE “High” Level Current

CE “Low” Level Current

FB “High” Level Current

FB “Low” Level Current

VCEL

ICEH

ICEL

IFBH

IFBL

-

0.3

0.1

V

2

1

4

VIN=CE=16V

VIN=16V, CE=0V

VIN=FB=16V

- 0.1

μA

VIN=16V, FB=0V

Unless otherwise stated, VIN=5.0V

External components: CSS=0.1μF, RSS=200kΩ

NOTE:

*1: Internal soft-start time: In case where the U.V.L.O. function operates temporarily due to the power cutoff etc. when an external CSS is

charged (VCE>2.6V), the IC restarts operation by the internal soft-start time. Minimum value of soft-start time set externally is equal to the

internal soft-start time.

*2: EFFI={ (output voltage) x (output current) } / { (input voltage) x (input current) } x 100

*3: The integral latch and short-circuit protection do not function when the CE/CSS pin voltage become lower than 2.6V while the soft-start time.

*4: No Integral protection function is available with the XC9220/XC9221 D series.

** Refer to the CHARACTERISTICS CHART BY OSCILLATION FREQUENCY.

■CHARACTERISTICS CHART BY OSCILLATION FREQUECY

300kHz

TYP.

25

500kHz

TYP.

25

1.0MHz

TYP.

40

PARAMETER

SYMBOL

MIN.

-

MAX.

50

MIN.

-

MAX.

50

MIN.

-

MAX.

80

Supply Voltage 2

Oscillation Frequency

Integral Protection Time

Soft-Start Time

IDD2

FOSC

TPRO

TSS

255

0.5

2

300

1.0

345

2.0

8

425

0.5

2

500

1.0

575

2.0

8

850

0.25

1

1000

0.50

2

1150

1.00

4

5/22

XC9220/XC9221 Series

■TYPICAL APPLICATION CIRCUITS

● External Components

Pch MOSFET: 2SJ646 (SANYO)

SBD: DE5PC3 (SHINDENGEN)

L: CDRH8D28-4R7 (4.7μH, SUMIDA / Fosc=1.0MHz)

CDRH8D43-100 (10μH, SUMIDA / Fosc=500kHz)

CDRH127-220 (22μH, SUMIDA / Fosc=300kHz)

CIN: 47μF (OS-CON, SANYO)

CL: 47μF (OS-CON, SANYO)

■OPERATIONAL EXPLANATION

The XC9220/XC9221 series consists of a reference voltage source, ramp wave circuit, error amplifier, PWM comparator,

phase compensation circuit, protection circuits, U.V.L.O. circuit and others. The series ICs compare, using the error

amplifier, the voltage of the internal voltage reference source with the feedback voltage from the VOUT pin through split

resistors. Phase compensation is performed on the resulting error amplifier output, to input a signal to the PWM

comparator to determine the turn-on time during PWM operation. The PWM comparator compares, in terms of voltage

level, the signal from the error amplifier with the ramp wave from the ramp wave circuit, and delivers the resulting output

to the buffer driver circuit to cause the EXT pin to output a switching duty cycle. This process is continuously performed

to ensure stable output voltage.

The reference voltage source provides the reference voltage to ensure stable output voltage of the DC/DC converter.

The oscillator determines switching frequency. The frequency is fixed internally and can be selected from 300kHz,

500kHz and 1.0MHz. Clock pulses generated in this circuit are used to produce ramp waveforms needed for PWM

operation, and to synchronize all the internal circuits.

The error amplifier is designed to monitor output voltage. The amplifier compares the reference voltage with the

feedback voltage (FB pin voltage) divided by the internal split resistors. When a voltage lower than the reference

voltage is fed back, the output voltage of the error amplifier increases. The gain and frequency characteristics of the

error amplifier output are fixed internally to deliver an optimized signal to the PWM comparator.

The XC9220 series is PWM control, and the XC9221 series is PWM/PFM automatic switching mode. In the XC9220

series, it is controlled at a constant frequency from light load to heavy load. When a noise etc. is concerned, it is easy

to set up a filter etc. since the frequency is fixed. On the other hand, the efficiency at the time of light load may fall.

In the XC9221 series, the high efficiency can be drawn from PFM control at the time of light load. In PWM/PFM

automatic switching mode, a control method is automatically changed from PWM control to PFM control at the time of

light load. If coil current becomes discontinuous at the time of light load, ON time duty intends to reduce less than

25%. Therefore, the PFM circuit operates to output the pulse, which ON time duty fixed to 25% from the EXT/pin. The

ON time duty is fixed when PFM operation. The pulse is outputted with the cycle suitable for the conditions at that

time. In order that the number of times of switching per unit time may decrease, the efficiency, which it is at the light

load time is improved. However, output cycle of the pulse cannot be fixed. For this, the circuit should be designed

with this point in mind when using a noise filter etc. The conditions shifting to the PFM operation is depend on values

of input voltage, load current, coil and so on.

6/22

XC9220/XC9221

Series

■OPERATIONAL EXPLANATION (Continued)

<U.V.L.O. (Under Voltage Lock Out) >

When the input voltage becomes 2.3V (TYP.) or lower, the external P-channel driver transistor is forced OFF. Once

the U.V.L.O. operates, the XC9220/XC9221A and C series (soft-start internally set type) resets the internal circuit. For

this, by releasing the U.V.L.O. function, the IC performs the soft-start function to initiate output startup operation.

When the input voltage falls because of a power cutoff etc. and the IC stops operation due to the U.V.L.O. function, the

IC resumes its operation by internal soft-start circuit of the XC9220/XC9221B and D series. If the soft-start time is

needed to set externally, the CE/CSS pin voltage should be reset to 0V. (Please see the soft-start circuit example.)

●U.V.L.O. Operation

U.V.L.O. operation

VIN

U.V.L.O. (InternalSignal)

VOUT

(XC9220/21A and C series)

VOUT

(XC9220/21B and D series)

U.V.L.O.

release delay

Soft-start time (Externally set-up) :Tss2

Soft-start time:Tss1

Soft-start time: Tss1

<Soft-Start Time>

The XC9220/XC9221B and D series can adjust the soft-start time externally via the CE pin. The soft-start function

operates until the CE pin voltage becomes 2.6V. Please refer to the following equation for calculating the soft-start

time. Minimum soft-start time is equal to the time set internally.

TSS= - CSS x RSS x In { (VCE – 2.2) / VCE }

Internal

sotf-starttime:Tss1

(XC9220/21A series)

Externallyset

soft-starttime:Tss2

(XC9220/21Aseries)

XC9220/21A series

Rss

CE/CSS PIN

VCE

Css

XC9220/21B series

Minimumsoft-start time

when externallyset:

Tss2_min =Tss1

> Circuit Example1 : N-ch Open Drain

VCE

> Circuit Examle2 : CMOS logic (low current dissipation) > Cicuit Examle3 : CMOS logic (low current dissipation, quick off)

VCE

Rss

ON/OFF

Signal

ON/OFF

Signal

Rss

ON/OFF

Signal

CE/CSS

Css

7/22

XC9220/XC9221 Series

■OPERATIONAL EXPLANATION (Continued)

1. Integral Protection Circuit (Latch Type)

In the circuit of the XC9220/XC9221 A and B series, the more load current becomes larger, the duty of the EXT/ pin

gradually expands, and the duty reaches maximum (EXT/L). When the MAXDUTY state continues a certain amount

of time (TPRO), the EXT/ pin holds high level (latching) and keeps the P-ch output driver transistor in OFF state. For

resuming the operation from the latching state, please turn off the IC via the CE pin or apply the input voltage again

(operates U.V.L.O. function and release). The latching state does not mean a complete shutdown, but a state in

which pulse output is suspended; therefore, the internal circuitry remains in operation.

However, the integral protection circuit uses the MAXDUTY as a trigger for its operation, it suspends the pulse output

no matter what dropout voltage decreases.

For the specification including small dropout voltage, the

XC9220/XC9221 C or D series, which do not have the integral protection function, are recommended.

z Integral protection circuit

Ton : ON Time (EXT/ : L)

Tpro : Integral Protection Circuit

Delay Time (Internally set)

EXT/ Waveform

Latch

Protection circuit operates and

EXT/ Output shut dow n

Ton < Tpro

Ton > Tpro

2. Short-Circuit Protection Circuit (Latching Type)

When the FB pin is shorted to the Ground or the output voltage drops rapidly because of over load state etc., the P-ch

driver transistor is kept OFF as in the case with the integral protection circuit. (The protection circuit operates when

the FB voltage becomes 0.7V or lower.) For releasing the latching state, the circuit is needed to restart via the VIN

and the CE pin.

z Short-circuit protection circuit

FBVoltage

VREF

0.9V

0.7V

0.9V

Latch

Less than 100usec = Not latching

Soft-start time ：Tss x 90%

* About 100 to 200usec delay time is set

to avoid latching w hen instantaneous

transient response drop

100 usec

* Protection circuit does not operate.

8/22

XC9220/XC9221

Series

■OPERATIONAL EXPLANATION (Continued)

● Output Voltage Setting

Output voltage can be set by adding split resistors. Output voltage is determined by the following equation, based on

the values of RFB1 and RFB2. The sum of RFB1 and RFB2 should normally be 1MΩ or less.

VOUT = 0.9 x (RFB1 + RFB2) / RFB2

The value of CFB, speed-up capacitor for phase compensation, should be adjusted by the following equation. Fzfb

should usually be 5kHz. Adjustments are required from 1kHz to 20kHz depending on the application, value of

inductance (L), and value of load capacity (CL).

CFB = 1 / (2 x π x RFB1 x fzfb)

[Sample calculation: Setting 3.3V VOUT]

RFB1 = 200kΩ, RFB2=75kΩ, VOUT = 0.9 x (200k + 75k) / 75k = 3.300V

CFB = 1 / (2 x π x 200k x 5k) =150pF

[Typical examples]

RFB1

(kΩ)

RFB2

(kΩ)

RFB1

(kΩ)

RFB2

(kΩ)

VOUT

(V)

CFB

(pF)

VOUT

(V)

CFB

(pF)

1.2

1.5

1.8

100

180

220

300

270

220

330

180

150

3.3

5.0

200

150

160

75

33

13

150

220

180

12.0

● Recommended MOSFET and SBD (Examples)

IOUT

UP TO 500mA

CPH3308

(SANYO)

XB01SB04A2BR

(TOREX)

UP TO 1A

UP TO 2A

2SJ616

UP TO 3A

2SJ646

P-ch MOSFET (*1)

(SANYO)

Schottky Barrier Diode

(SBD) (*2)

D1FH3 (SHINDENGEN)

CMS02 (TOSHIBA)

DE5PC3

(SHINDENGEN)

*1: Recommended to use P-ch MOSFET with Ciss less than 1500pF.

*2: SBD should be used with high-toned reverse characteristics.

● Ceramic Capacitor

With the XC9220/9221 series, a ceramic capacitor can be used as an output capacitor (CL). RSENSE resistor

is required for using the ceramic capacitor. The value of RSENSE resistor is determined depending on the

setting output voltage as the chart below.

OUTPUT VOLTAGE

_OUT≦2.5V

V_OUT>2.5V

RSENSE (mΩ)

V

100

50

＜External Components＞

P-ch MOSFET: 2SJ646 (SANYO)

SBD: DE5PC3 (SHINDENGEN)

L: CDRH8D28-4R7 (4.7μH, SUMIDA / Fosc=1.0MHz)

CDRH8D43-100 (10μH, SUMIDA / Fosc=500kHz)

CDRH127-220 (22μH, SUMIDA / Fosc=300kHz)

CIN: 22μF (ceramic)

CL: 22μF (ceramic / Fosc=1.0MHz, 500kHz)

47μF (ceramic / Fosc=300kHz)

RSENSE: 100mΩ (VOUT≦2.5V)

50mΩ (VOUT＞2.5V)

9/22

XC9220/XC9221 Series

■OPERATIONAL EXPLANATION (Continued)

● Setting of Coil Value

Recommended inductance value of coil by oscillation frequency is shown in the chart below.

FOSC (kHz)

300

L (μH)

22.0

10.0

4.7

500

1000

However, the more current change in each pulse becomes larger, the more output ripple voltage becomes

higher when dropout voltage is high. This may lead to instability. In this case,

inductance value will make Ipk_AC small, and it makes output stable.

increasing the coil

Ipk_AC = (VIN – VOUT) x VOUT / (VIN x L x FOSC)

L: Coil inductance value

FOSC: Oscillation frequency

Please do not exceed the coil rating. Coil peak current is determined by the following equation.

Ipk = IOUT + Ipk_AC / 2

10/22

XC9220/XC9221

Series

■NOTES ON USE

1. The XC9220/XC9221 series are designed for use with an output ceramic capacitor. If, however, the potential

difference between input and output is too large, a ceramic capacitor may fail to absorb the resulting high switching

energy and oscillation could occur on the output. If the input-output potential difference is large, connect the output

capacitor with large performance to compensate for insufficient capacitance.

2. Spike noise and ripple voltage arise in a switching regulator as with a DC/DC converter. These are greatly influenced

by external component selection, such as the coil inductance, capacitance values, and board layout of the external

components. Once the design has been completed, verification with actual components should be done.

3. When the difference between input voltage and output voltage is large in PWM control, and the load current is light,

very narrow pulses will be outputted, and there is the possibility that some cycles my be skipped completely.

4. When the difference between input voltage and output voltage is small in PWM control, and the load current is heavy,

very wide pulses will be outputted and there is the possibility that some cycles my be skipped completely.

5. When using the CE pin by pulling up to the V_INpin, please be noted to the rising time of the V_INpin voltage. If the

rising time of the V_INpin voltage is much slower than the soft-start time of the XC9220/XC9221 series, the

short-protection circuit starts to operate so that the output may not rise. If you are using the A or the C series, please

use a voltage detector or something similar in order to check that the input voltage rises fully. Then, start the series via

the CE pin. If you don’t want to use an additional detector in this way, we recommend that you use the B or D series,

adjusting the soft-start period externally so that the voltage at the V_INpin rises fully before the soft-start period is

completed.

6. Use of the IC at voltages below the recommended minimum operating voltage may lead to instability.

7. This IC and external components should be used within the stated absolute maximum ratings in order to prevent

damage to the device.

11/22

XC9220/XC9221 Series

■NOTES ON USE (Continued)

● Instructions on Pattern Layout

1. Wire external components as close to the IC as possible and use thick, short connecting traces to reduce the

circuit impedance.

2. Please strengthen VIN and VSS wiring in particular. Switching noise which occurs from the GND may cause the

instability of the IC. The IC can maintain stable operations with RIN (about 10Ω) and CDD (about 1μF) connected

to the VIN pin.

[Board layout when XC9220/XC9221 series is mounted with external components]

Ceramic Capacitor

Schottky Barrier Diode

Inductor

Resistor

Low value resistor

[PC board for the XC9220/XC9221 series]

12/22

XC9220/XC9221

Series

■TEST CIRCUITS

Circuit 1: Supply Current, Stand-by Current, CE Current

Circuit 2: FB Voltage, Integral Protection, Short-Circuit,

Soft-Start, MAXDUTY, CE Voltage

Probe

VIN

EXT /

FB

VIN

EXT /

FB

CE/CSS

A

CE/CSS

A

VSS

V

CIN:1uF

VSS

CIN:1uF

Circuit 3: Oscillation Frequency, PFMDUTY, U.V.L.O., Efficiency

Circuit 4: EXT On Resistance, FB Current

Circuit 5: Soft-Start (Externally set: B and D series)

Probe

VIN

EXT /

FB

VIN

EXT /

FB

Rss

A

CIN:1uF

CE/CSS

A

CE/CSS

V

VSS

V

Css

CIN:1uF

13/22

XC9220/XC9221 Series

■ELECTRICAL CHARACTERISTICS (Continued)

(1) Efficiency vs. Output Current

XC9220/21x095xx

Tr:2SJ646, SBD:DE5PC3, CDRH127-10uH, CIN=10uF(ceramic),

Tr:2SJ646, SBD:DE5PC3, CDRH127-10uH

CIN=10uF(ceramic), CL=44uF(ceramic), RSENSE=50mohm

VOUT=3.3V

CL=44uF(ceramic), RSENSE=50mohm

VIN=12V => VOUT=5V

100

90

80

70

60

50

40

30

20

10

0

100

90

80

70

60

50

40

30

20

10

0

VIN=5.0V

VIN=12V

PWM(XC9220)

PFM(XC9221)

PWM(XC9220)

PFM(XC9221)

0.1

1

10

100

1000

10000

0.1

1

10

100

1000

10000

Output Current: IOUT (mA)

(2) Output Voltage vs. Output Current

XC9220/21x095xx

Tr:2SJ646, SBD:DE5PC3, CDRH127-10uH

CIN=10uF(ceramic), CL=44uF(ceramic), RSENSE=50mohm

VIN=12V => VOUT=5V

CIN=10uF(ceramic), CL=44uF(ceramic), RSENSE=50mohm

VOUT=3.3V

3.7

3.5

3.3

3.1

2.9

2.7

5.4

5.2

5.0

4.8

4.6

4.4

VIN=5.0V

12V

PWM(XC9220)

PFM(XC9221)

PWM(XC9220)

PFM(XC9221)

0.1

1

10

100

1000

10000

0.1

1

10

100

1000

10000

Output Current: IOUT (mA)

(3) Output Ripple Voltage vs. Output Current

XC9220/21x095xx

Tr:2SJ646, SBD:DE5PC3, CDRH127-10uH

CIN=10uF(ceramic), CL=44uF(ceramic), RSENSE=50mohm

VOUT=3.3V

VIN=12V => VOUT=5V

100

90

80

70

60

50

40

30

20

10

0

PWM(XC9220)

PFM(XC9221)

PWM(XC9220)

PFM(XC9221)

80

60

40

20

0

VIN=5.0V

VIN=12V

0.1

1

10

100

1000

10000

0.1

1

10

100

1000

10000

Output Current: IOUT (mA)

14/22

XC9220/XC9221

Series

■ELECTRICAL CHARACTERISTICS (Continued)

(5) FB Voltage vs. Input Voltage

(4) FB Voltage Temperature Characteristics

XC9220/21 Series

VIN=5V

1.00

0.95

0.90

0.85

0.80

0.75

0.95

0.90

0.85

0.80

0.75

Ta=85

25

℃

-40

2

4

6

8

10

12

14

16

-50

-25

0

25

50

75

)

100

Input Voltage: VIN (V)

Ambient Temperature: Ta (

℃

(6) Input Voltage Temperature Characteristics

(7) Supply Current vs. Input Voltage

XC9220/21 Series

VIN=5V, Fosc=300k,500kHz

Fosc=300k,500kHz

50

40

30

20

10

0

40

30

20

10

0

Ta=85

25

℃

-40

-50

-25

0

25

50

75

100

0

2

4

6

8

10 12

14 16

Ambient Temperature: Ta (

)

℃

Input Voltage: VIN (V)

(8) Oscillation Frequency Temperature Characteristics

(9) U.V.L.O. Temperature Characteristics

XC9220/21x095xx

XC9220/21Series

VIN=5V

550

2.8

2.6

525

500

475

450

425

400

UVLO(Release)

2.4

2.2

UVLO(Detect)

2.0

1.8

-50

-25

0

25

50

75

)

100

-50

-25

0

25

50

75

100

Ambient Temperature: Ta (

)

℃

15/22

XC9220/XC9221 Series

■ELECTRICAL CHARACTERISTICS (Continued)

(11) EXT L ON Resistance Characteristics

(10) EXT H ON Resistance Characteristics

XC9220/21 Series

XC9220/21Series

30

25

20

30

25

20

15

10

5

Ta=85

25

℃

-40

Ta=85

25

℃

15

10

5

-40

0

2

4

6

8

10 12 14 16

0

2

4

6

8

10 12

14 16

Input Voltage: VIN (V)

(11) Soft-Start Time Temperature Characteristics

XC9220/21 Series

XC9220/21Series

VIN=5V, Fosc=300k,500kHz

VIN=5V, Fosc=1.0MHz

8.0

4.0

3.5

3.0

2.5

2.0

1.5

1.0

7.0

6.0

5.0

4.0

3.0

2.0

-50

-25

0

25

50

75

100

-50

-25

0

25

50

75

)

100

Ambient Temperature: Ta (

)

Ambient Temperature: Ta (

℃

(12) Integral Protection Time Temperature Characteristics

XC9220/21A, B Series

VIN=5V, Fosc=300k,500kHz

VIN=5V, Fosc=1MHz

2.0

1.0

1.6

1.2

0.8

0.4

0.0

0.8

0.6

0.4

0.2

0.0

-50

-25

0

25

50

75

)

100

-50

-25

0

25

50

75

)

100

Ambient Temperature: Ta (

℃

16/22

XC9220/XC9221

Series

■ELECTRICAL CHARACTERISTICS (Continued)

(14) Short-Circuit Protection Voltage vs.

Input Voltage

(13) Short-Circuit Protection Temperature Characteristics

XC9220/21 Series

VIN=5V

0.8

0.7

0.6

0.5

0.4

0.3

0.7

0.6

0.5

0.4

0.3

-50

-25

0

25

50

75

)

100

0

2

4

6

8

10 12 14 16

Ambient Temperature: Ta (

Input Voltage: VIN (V)

℃

(16) CE Threshold vs. Input Voltage

(15) CE Threshold Temperature Characteristics

XC9220/21 Series

VIN=5V

1.2

1.0

1.2

1.0

CE_H

0.8

0.6

CE_L

0.4

0.2

0.0

0.4

0.2

0.0

-50

-25

0

25

50

75

100

0

2

4

6

8

10 12 14 16

Ambient Temperature: Ta (

)

℃

Input Voltage: VIN (V)

17/22

XC9220/XC9221 Series

■ELECTRICAL CHARACTERISTICS (Continued)

(17) Load Transient Response Characteristics

XC9220x095xx (500kHz, PWM Control)

Tr: 2SJ616 (SANYO), SBD: D1FH3 (SHINDENGEN), L=10μH CDRH8D43, SUMIDA)

CIN=47μF (OS-Con), CL=47μF (OS-Con)

○IOUT=0.1mA→1000mA

VIN=5.0V, VOUT=3.3V, VOUT=100mV/div., Time=50μs/div.

VIN=5.0V, VOUT=3.3V, VOUT=100mV/div., Time=10ms/div.

○IOUT=0.1mA→1000mA

VIN=10.0V, VOUT=3.3V, VOUT=100mV/div., Time=50μs /div.

VIN=10.0V, VOUT=3.3V, VOUT=100mV/div., Time=10ms/div.

○IOUT=300mA→3000mA

VIN=10.0V, VOUT=3.3V, VOUT=100mV/div., Time=10ms/div.

VIN=10.0V, VOUT=3.3V, VOUT=100mV/div., Time=50μs /div.

18/22

XC9220/XC9221

Series

■PACKAGING INFORMATION

●SOT-25 (SOT-23-5)

●USP-6C

19/22

XC9220/XC9221 Series

■PACKAGING INFORMATION (Continued)

●USP-6C Recommended Pattern Layout

●USP-6C Recommended Metal Mask Design

20/22

XC9220/XC9221

Series

■MARKING RULE

●SOT-25

① Represents product series

MARK

PRODUCT SERIES

M

N

XC9220xxxxxx

XC9221xxxxxx

② Represents product types

MARK

FUNCTION

PRODUCT SERIES

SOT-25 (TOP VIEW)

A

B

C

D

XC922xAxxxxx

XC922xBxxxxx

XC922xCxxxxx

XC922xDxxxxx

Soft-start internally set with integral protection function

Soft-start externally set with integral protection function

Soft-start internally set without integral protection function

Soft-start externally set without integral protection function

③ Represents oscillation frequency

MARK

OSCILLATION FREQUENCY

PRODUCT SERIES

XC922xxxx3xx

XC922xxxx5xx

XC922xxxxAxx

3

5

300kHz

500kHz

1.0MHz

A

④ Represents production lot number

0 to 9, A to Z and inverted 0 to 9, A to Z repeated.

(G, I, J, O, Q, W expected.)

●USP-6C

① Represents product series

MARK

PRODUCT SERIES

XC9220xxxxxx

1

D

XC9221xxxxxx

② Represent product types

MARK

FUNCTIONS

PRODUCT SERIES

XC922xAxxxxx

USP-6C (TOP VIEW)

A

B

C

D

Soft-start internally set with integral protection function

Soft-start externally set with integral protection function

Soft-start internally set without integral protection function

Soft-start externally set without integral protection function

XC922xBxxxxx

XC922xCxxxxx

XC922xDxxxxx

③④ Represents FB voltage

MARK

FB VOLTAGE

0.9V fixed

PRODUCT SERIES

XC922xx09xxx

③

④

0

9

⑤ Represents oscillation frequency

MARK

OSCILLATION FREQUENCY

PRODUCT SERIES

XC922xxxx3xx

XC922xxxx5xx

XC922xxxxAxx

3

5

300kHz

500kHz

1.0MHz

A

⑥ Represents production lot number

0 to 9, A to Z repeated. (G, I, J, O, Q, W expected.)

* No character inversion used.

21/22

XC9220/XC9221 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 catalog 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 catalog.

3. Please ensure suitable shipping controls (including fail-safe designs and aging

protection) are in force for equipment employing products listed in this catalog.

4. The products in this catalog 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 catalog 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.

prior permission of Torex Semiconductor Ltd.

22/22


型号：	XC9220B09AML
厂家：	Torex Semiconductor
描述：	16V Input Voltage, Step-Down DC/DC Controller ICs. 16V输入电压，降压型DC / DC控制器IC 。稳压器开关式稳压器或控制器电源电路开关式控制器
文件：	总22页 (文件大小：517K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

XC9220B09AML [TOREX]

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XC9220C093MR

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XC9220C095ML