Sharp PQ05SZ1, PQ05SZ11, PQ05SZ5, PQ05SZ51, PQ09SZ1 Datasheet

Low Power-Loss Voltage Regulators PQ05SZ5/PQ05SZ1 Series

PQ05SZ5/PQ05SZ1 Series

Low Power-Loss Voltage Regulators (Built-in Reverse Voltage Protection Function)

■ Features

¡Low power-loss (Dropout voltage : MAX. 0.5V)
¡Surface mount type package (Equivalent to SC-63)
¡Built-in a function to prevent reverse voltage between input and

output
The diode to prevent reverse voltage between input and output is
not necessary. (When VO-I=<13V)

■ Applications

¡Portable equipment
¡Notebook PC

■ Model Line-ups

Output voltage
precision:±5%
Output voltage
precision:±2.5%

0.5A output

Output voltage
precision:±5%
Output voltage

1A output

precision:±2.5%

5V output

PQ05SZ5

PQ05SZ51

PQ05SZ1

PQ05SZ11

9V output

PQ09SZ5

PQ09SZ51

PQ09SZ1

PQ09SZ11

12V output

PQ12SZ5

PQ12SZ51

PQ12SZ1

PQ12SZ11

■ Outline Dimensions

6.6MAX

5.2±0.5

05SZ5

9.7MAX

5.5±0.5

0.7MAX

2.5MIN

122

Internal connection diagram

1

Specific IC

3

3

2

+0.2

0.5

-0.1

2-(2.54)

(Unit : mm)

2.3±0.5

(0.5)

(0.9) (1.7)

(0.5)

1 DC input (V
2 DC output (V
3 GND

Heat sink is common to 2 (V

IN

)

O

)

(0to0.25)

O

).

■ Absolute Maximum Ratings

Parameter

Input voltage
Input-output reverse voltage
Output current
Power dissipation
Junction temperature
Operating temperature
Storage temperature
Soldering temperature

*1

All are open except GND and applicable terminals.

*2

With imfinite heat sink.

*

Over heat protection may operate at T

“ In the absence of confirmation by device specification sheets,SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices
shown in catalogs,data books,etc.Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device. ”

j

>=125˚C

(Ta=25˚C, XX=05,09,12)

Symbol

V

IN

VO-

I

O

P

D

T

j

T

opr

T

stg

T

sol

i

Conditions

*1

VIN=0V

Refer to Fig. 4

*

For 10s

Rating

PQXXSZ5/51

24
13

*2

0.5
8

150

-

20 to +80

-

40 to +150

260

· Please refer to the chapter“ Handling Precautions ”.

PQXXSZ1/11

1.0

(XX:05,09,12)

Unit

V
V

A
W
˚C
˚C
˚C
˚C

Low Power-Loss Voltage Regulators PQ05SZ5/PQ05SZ1 Series

■ Electrical Characteristics

Parameter Symbol Conditions

VO

RegL

R

T

RR

V

VIN=7V

IN=11V

V

IN=14V

V

IN=7V

V

IN=11V

V

IN=14V

V

*4

IO=5mA,

egI

IO=5mA, Tj=0 to 125˚C,

CVO

Refer to Fig. 2

IO=0.5A

*7

i-O

I

O=0A,

I

Iq

*6

*5

O=0.3A

PQ05SZ1/5
PQ09SZ1/5

Output voltage

PQ12SZ1/5
PQ05SZ11/51
PQ09SZ11/51
PQ12SZ11/51

Load regulation
Line regulation
Temperature coefficient of output voltage
Ripple rejection

XXSZ1/11

Dropout voltage

PQ

XXSZ5/51

PQ

Quiescent current

*3

PQxxSZ1/11 Series:Io=0.5A

PQxxSZ5/51 Series:Io=0.3A

*4

PQ05SZ1/11:V
PQ09SZ1/11:VIN=11V, Io=5mA to 1.0A PQ09SZ5/51:VIN=11V, Io=5mA to 0.5A
PQ12SZ1/11:VIN=14V, Io=5mA to 1.0A PQ12SZ5/51:VIN=14V, Io=5mA to 0.5A

*5

PQ05SZ1/11/5/51:V
PQ09SZ1/11/5/51:VIN=10 to 20V
PQ12SZ1/11/5/51:VIN=13 to 23V

*6

PQ05SZ1/11/5/51:V
PQ09SZ1/11/5/51:VIN=11V
PQ12SZ1/11/5/51:VIN=14V

*7

Input voltage shall be the value when output voltage is 95% in comparison with the initial value.

IN=7V, Io=5mA to 1.0A PQ05SZ5/51:VIN=7V, Io=5mA to 0.5A

IN=6 to 16V

IN=7V

Fig.1 Test Circuit

(Tj=25˚C, xx=05,09,12)

UnitMAX.TYP.MIN.

4.75

8.55

*3

11.4

4.88

8.78

11.7

*6

45

5.0

9.0

12.0

5.0

9.0

12.0

-

0.2

-

0.1

-

±0.01

-

0.2

-

4.0

5.25

9.45

12.6

5.12

V

9.22

12.3

2.0

2.5

-

60

-

0.5

10.0

%
%

%/˚C

dB

V

mA

VIN

0.33µF

●2●1

●3

A

Iq

47µF

+

VO

IO

A

V

RL

Fig.2 Test Circuit of Ripple Rejection

●2●1

~

e

i

●3

rms

i/eo

47µF

)

VIN

0.33µF

f=120Hz (sine wave)

i

=0.5V

e
VIN= 7V (PQ05SZ1/11/5/51)

IN

=11V (PQ09SZ1/11/5/51)

V

IN

=14V (PQ12SZ1/11/5/51)

V

O

=0.3A

I
RR=20 log (e

+

IO

+

V

eO

RL

~

Fig.3 Overcurrent Protection

Characteristics(Typical Value)

100

80

PQxxSZ5/51

60

PQxxSZ1/11

40

20

Relative output voltage (%)

0

0

0.3 0.6 0.9 1.2 1.5 1.8 2.1
Output current IO (A)

Low Power-Loss Voltage Regulators PQ05SZ5/PQ05SZ1 Series

Fig.4 Power Dissipation vs. Ambient

Temperature

10

(W)

D

5

Power dissipation P

0

-20 0020 40 60 80 100
Ambient temperature Ta (˚C)

Note) Oblique line portion:Overheat

Fig.6

Output Voltage Deviation vs. Junction Temperature

With infinite heat sink

P

D

protection may operate in this area.

(PQ09SZ1/PQ09SZ11/PQ09SZ5/PQ09SZ51)

+100

V

IN=11V

I

O=5mA

Fig.5

Output Voltage Deviation vs. Junction Temperature

(PQ05SZ1/PQ05SZ11/PQ05SZ5/PQ05SZ51)

+50

V

IN=7V

I

O=5mA

0

Output voltage deviation ∆VO (mV)

-50

-25 0

25 50 75 100 125

Junction temperature Tj (˚C)

Fig.7

Output Voltage Deviation vs. Junction Temperature

(PQ12SZ1/PQ12SZ11/PQ12SZ5/PQ12SZ51)

IN=14V

V

+100

I

O=5mA

0

Output voltage deviation ∆VO (mV)

-100

-25 0 25 50 75 100 125
Junction temperature Tj (˚C)

Fig.8 Output Voltage vs. Input Voltage

(PQ05SZ1/PQ05SZ11)

7

Tj=25˚C

6

L

=∞

R

5

(V)

L

=10Ω

R

O

R

L

=5Ω

4

3

2

Output voltage V

1

0

123456789100

Input voltage V

IN

(V)

0

Output voltage deviation ∆VO (mV)

-100

-25 0 25 50 75 100 125
Junction temperature Tj (˚C)

Fig.9 Output Voltage vs. Input Voltage

(PQ05SZ5/PQ05SZ51)

7
6

(V)

5

O

RL=∞

4

3

2

Output voltage V

1

0

123456789100

Input voltage V

R
RL=20Ω

L

=10Ω

IN

Tj=25˚C

(V)