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Low I

Q

, Low Dropout 500mA Fixed Voltage Regulator

Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

1

ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and advise

customers to obtain the latest version of relevant information to verify before placing orders.

Features

Design with an internal P-channel MOSFET pass

transistor,  the APL5501/2/3 maintains a low supply

current, independent of the load current and dropout

voltage. Other features include  reverse current

protection, thermal-shutdown protection, current limit

protection  to ensure specified output current and con-

trolled short-circuit current. The APL5501/2/3 regu-

lator comes in a miniature SOT-23-5, SOT-89, SOT-

89-5, SOT-223, SO-8, TO-252 and TO-252-5

packages.

Applications

•     Notebook Computer

•     PDA or Portable Equipments

•     Noise-Sensitive Instrumentation Systems

•••••     Low Noise : 50µV

RMS

 (100Hz to 100kHz)

•••••     Low Quiescent Current : 50µA (No load)

•••••     Low Dropout Voltage : 170mV (@500mA)

•••••     Very low Shutdown Current : < 0.5uA

•••••     Fixed Output Voltage : 1.3V ~ 3.4V

•••••     Stable with 4.7uF Output Capacitor

•••••     Stable with Aluminum , Tantalum or Ceramic

       Capacitors .

•••••     Reverse Current Protection

•••••     No Protection Diodes Needed

•••••     Built in Thermal Protection

•••••     Built in Current Limit Protection

•••••     Controlled Short Circuit Current : 150mA

•••••     Fast Transient Response

•••••     Short Setting Time

•••••     SOT-23-5, SOT-89, SOT-89-5, SOT-223, SO-8

       ,TO-252 and TO-252-5 Packages

Pin Configuration

SOT-89 (Top View)

V

IN

G N D

V

O U T

1

2

3

T A B   is   G N D

SOT-89-5 (Top

 

View)

SO-8 (Top View)

1

2

3

4

5

6

7

8

IN

G N D

G N D

SH D N

BYP

GN D

GN D

OU T

TO-252-5 (Top View)

General Description

The APL5501/2/3 is micropower, low noise, low drop-

out linear regulator. Operate from 2.7V to 6V input

voltage and deliver up to 500mA. Typical output noise

is just 50

µV

RMS

 with the addition of an external 0.1

µF

bypass capacitor in BP pin and typical dropout volt-

age is only 170mV at 500mA loading . Designed for

use in battery-powered system, the low 50uA quies-

cent current makes it an ideal choice.

TO-252 (Top View)

G ND

1

2

3

V

OUT

V

IN

V

IN

G N D

V

OUT

1

2

3

5

4

S H D N

B P

G N D

BP

V

OUT

GND

V

IN

12

3

4

5

TAB i

s G

N

D

SHDN

SOT-23-5 (Top View)

1

2

3

4

5

V

IN

G N D

SH D N

BP

V

O U T

APL5501

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

2

Product Name

Marking

Product Name

Marking

Product Name

Marking

APL5501-13B

517X

APL5502-13B

527X

APL5503-13B

537X

APL5501-14B

518X

APL5502-14B

528X

APL5503-14B

538X

APL5501-15B

519X

APL5502-15B

529X

APL5503-15B

539X

APL5501-16B

51AX

APL5502-16B

52AX

APL5503-16B

53AX

APL5501-17B

51BX

APL5502-17B

52BX

APL5503-17B

53BX

APL5501-18B

51CX

APL5502-18B

52CX

APL5503-18B

53CX

APL5501-19B

51DX

APL5502-19B

52DX

APL5503-19B

53DX

APL5501-20B

51EX

APL5502-20B

52EX

APL5503-20B

53EX

APL5501-21B

51FX

APL5502-21B

52FX

APL5503-21B

53FX

APL5501-22B

51GX

APL5502-22B

52GX

APL5503-22B

53GX

APL5501-23B

51HX

APL5502-23B

52HX

APL5503-23B

53HX

APL5501-24B

51IX

APL5502-24B

52IX

APL5503-24B

53IX

APL5501-25B

51JX

APL5502-25B

52JX

APL5503-25B

53JX

APL5501-26B

51KX

APL5502-26B

52KX

APL5503-26B

53KX

APL5501-27B

51LX

APL5502-27B

52LX

APL5503-27B

53LX

P a c k a g e   C o d e

  B   :  S O T - 2 3 - 5                D   :  S   O T - 8 9                    D 5   :  S O T - 8 9 - 5

   U   :  T O - 2 5 2                   U 5   :  T O - 2 5 2 -5                     V   :  S O T - 2 2 3

  K  : S O - 8

T e m p .   R a n g e

C   :   0   to   7 0     C

H a n d lin g   C o d e

T R   :  T a p e   &   R e e l

V o lt a g e   C o d e   :

1 3   :   1 .3 V   ~   3 4   :   3 .4 V

A P L 5 5 0 1 /2 /3   -

H a n d lin g   C o d e

T e m p .   R a n g e

P a c k a g e   C o d e

V o lt a g e   C o d e

                  1 3

A P L 5 5 0 1 /2 / 3

X X X X X

A P L 5 5 0 1 /2 / 3   -   1 3   U   :

X X X X X     -     D a t e   C o d e     ,    1 3   -  1 . 3 V

X X X X X     -     D a t e   C o d e     ,    1 3   -  1 . 3 V

A P L 5 5 0 1 /2 / 3

X X X X X 1 3

A P L 5 5 0 1 /2 / 3   -   1 3   D / V /K   :

°

Ordering and Marking Information

Pin Configuration (Cont.)

SOT-223 (Top View)

V

OUT

G N D

V

IN

1

2

3

TA B   is  G N D

APL5501

APL5502

SOT-89 (Top View)

GND

V

IN

V

OUT

1

2

3

TAB is V

IN

V

IN

G N D

V

OUT

1

2

3

TA B   is  G N D

SOT-223 (Top View)

APL5503

V

OUT

V

IN

G N D

1

2

3

TA B   is  V

IN

SOT-223 (Top View)

APL5502

 Marking Information

SOT-23-5 package

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

3

Product Name

Marking

Product Name

Marking

Product Name

Marking

APL5501-28B

51MX

APL5502-28B

52MX

APL5503-28B

53MX

APL5501-29B

51NX

APL5502-29B

52NX

APL5503-29B

53NX

APL5501-30B

51OX

APL5502-30B

52OX

APL5503-30B

53OX

APL5501-31B

51PX

APL5502-31B

52PX

APL5503-31B

53PX

APL5501-32B

51QX

APL5502-32B

52QX

APL5503-32B

53QX

APL5501-33B

51RX

APL5502-33B

52RX

APL5503-33B

53RX

APL5501-34B

51SX

APL5502-34B

52SX

APL5503-34B

53SX

Pin Description

PIN

No.

Name

I/O

Description

1

V

IN

I

Supply voltage input.

2

SHDN 

(Note1)

I

Shutdown control pin, low = off , high = normal .

3

GND

 

 

 

 

 

Ground pins of the circuitry, and all ground pins must be soldered to

PCB with proper power dissipation.

4

BP

(Note1)

O

Bypass signal pin in fixed output type device

5

V

OUT

O

Output pin of the regulator.

 Marking Information (Cont.)

SOT-23-5 package

Note1 : These pins do not exist in 3-pin package.

Symbol

Parameter

Rating

Unit

V

IN

, V

OUT

Input Voltage or Out Voltage

5

V

SHDN

Shutdown Control Pin

5

V

R

TH,JA

Thermal Resistance – Junction to Ambient

SOT-89 : 180

SOT-223 : 135

SO-8 : 210

SOT-23-5 : 357

°C/W

P

D

Power Dissipation

Internally Limited

W

T

J

Operating Junction Temperature

°C

                                  Control Section

0 to 125

                                  Power Transistor

0 to 150

T

STG

Storage Temperature Range

-65 to +150

°C

T

L

Lead Temperature (Soldering, 10 second)

260

°C

Absolute Maximum Ratings

The last character “X” in the marking is for data code.

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

4

Electrical Characteristics

Unless otherwise noted these specifications apply over full temperature, V

IN

=3.6V, C

IN

=1

µF, C

OUT

=4.7

µF,

SHDN=V

IN

, T

J

=0 to 125

°C. Typical values refer to T

J

=25

°C.

APL5501/2/3

Symbol

Parameter

Test Conditions

Min.

Typ.

Max.

Unit

V

IN

Input Voltage

2.7

6

V

V

OUT

Output Voltage

V

OUT

+1.0V< V

CC

<6.0V, 0mA< I

OUT 

< I

MAX

V

OUT 

-2

%

V

OUT

V

OUT 

+2

%

V

I

LIMIT

Circuit Current Limit

V

IN

=4.3V

0.7

A

I

SHORT

Short Current

V

OUT

=0V

200

mA

I

OUT

Load Current

500

mA

REG

LINE

Line Regulation

V

OUT

+0.5V< V

CC

<6.0V, 0mA< I

OUT 

< I

MAX

4

10

mV

REG

LOAD

Load Regulation

V

IN

 =V

OUT

+1.0V, 0mA< I

OUT 

< I

MAX

1

6

mV

V

DROP

Dropout Voltage

(Note2)

(V

OUT

(Nominal)=3.0V

Version)

I

OUT

 =500mA

170

300

mV

PSRR Ripple Rejection

F

≤1kHz, 1Vpp at V

IN

 = V

OUT

+1.0V

55

65

dB

No load

50

100

I

Q

Quiescent Current

I

OUT

=500mA

370

450

µA

Shutdown Supply

Current

(Note3)

Shutdown = low

I

OUT

=0, V

CC

 =6.0V

0.01

1

µA

100Hz<f<100kHz, typical load,

C

BP

=0.01

µF, C

OUT

 = 1

µF

50

Noise

(Note3)

100Hz<f<100kHz, typical load,

C

BP

=0.1

µF, C

OUT

 = 1

µF

40

µVrms

C

BP

=0.01

µF,C

OUT

=1

µF, no load

7

Shutdown Recovery

Delay

(Note3)

C

BP

=0.1

µF,C

OUT

=1

µF, no load

70

ms

OTS

Over Temperature

Shutdown

150

°C

Over Temperature

Shutdown Hysteresis

Hysteries

10

°C

TC

Output Voltage

Temperature

Coefficient

50

ppm/

°C

C

OUT

Output Capacitor

4.2

4.7

5.2

µF

ESR

0.02

0.1

1

Ohm

Shutdown Input

Threshold

(Note3)

V

OUT

+1.0V< V

IN

 <6.0V

0.4

0.7

1.6

V

I

SHDN

Shutdown input Bias

current

(Note3)

V

SHDN 

=V

IN

0.01

100

nA

Input Reverse Leakage

current

V

OUT

-V

IN

=0.1V

0.1

0.5

µA

Reverse Protection

Threshold

11

50

mV

Note 2 : Dropout voltage definition : V

IN

-V

OUT

 when V

OUT

 is 2% below the value of V

OUT 

for V

IN

 = V

OUT

 + 0.5V

Note 3 : For 5-pin devices only.

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

5

Application Circuit

BP

V

O U T

V

IN

G N D

SH D N

VO U T

C

IN

1uF

off

on

AP L5501/2/3

IN P U T

2.7V to 6V

0.1uF

C

BP

C

O U T

4.7uF

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

6

0

0.5

1

1.5

2

2.5

3

3.5

4

4.5

5

5.5

6

0

0.5

1

1.5

2

2.5

3

3.5

0

1

2

3

4

5

6

0

50

100

150

200

250

300

350

0

1

2

3

4

5

6

0

50

100

150

200

250

300

350

400

0

150

300

450

600

750

900

Typical Characteristics

Input Voltage (V)

Current Limit (mA)

Ground Pin Current vs. Load Current (uA)

Output Current (mA)

Input Voltage (V)

Ground Pin Current vs. Load Current (uA)

Input Voltage (V)

Output V

oltage (V)

APL5501/2/3-33

APL5501/2/3-33

APL5501/2/3-33

APL5501/2/3-33

Input Voltage vs. Output Voltage

Ground Pin Current vs. Input Voltage

Current Limit vs. Input Voltage

Ground Pin Current vs. Output Current

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

7

-100

+0

-90

-80

-70

-60

-50

-40

-30

-20

-10

20

200k

50 100 200

500 1k

2k

5k 10k 20k

50k 100k

0.4

0.5

0.6

0.7

0.8

0.9

1

3

3.5

4

4.5

5

5.5

6

-12

-10

-8

-6

-4

-2

0

0

0.5

1

1.5

2

2.5

3

0

50

100

150

200

250

0

150

300

450

600

750

900

Typical Characteristics

SHDN Threshold V

oltage (V)

Input Voltage (V)

PSRR vs. Frequency

Frequency (H

Z

)

PSRR (dB)

I

OUT

 =50mA

C

OUT

=10uF

C

BP

=0.1uF

Output Current (uA)

Output Voltage (V)

Output Current (mA)

Dropout V

oltage (mV)

V

IN

=0V

V

IN

=0V

V

IN

=4V

V

IN

=5V

APL5501/2/3-33

APL5501/2/3-33

APL5501/2/3-33

Dropout Voltage vs. Output Current

Output Current vs. Output Voltage

APL5501/2/3-33

SHDN Threshold Voltage vs. Input Voltage

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

8

0

50

100

150

200

250

300

350

400

450

500

0

0.1

0.2

0.3

0.4

-100u

100u

-80u

-60u

-40u

-20u

0

20u

40u

60u

80u

0

10m

2m

4m

6m

8m

Typical Characteristics

Output Noise

Time (s)

V

OUT

 (50uV/div)

V

IN=

4.3V

I

OUT

 =0mA

C

OUT

=10uF

C

BP

=0.1uF

Output Noise vs. Bypass Capacitor

Output Noise (uV)

Bypass Capacitor (uF)

Time (1ms/div)

V

OUT

v

SHDN

Shutdown Exit Delay

Time (20ms/div)

V

OUT

v

SHDN

C

BP

=100nF

No Load

Shutdown Exit Delay

APL5501/2/3-33

3.3V

4V

3.3V

4V

0V

0V

0V

0V

C

BP

=10nF

No Load

APL5501/2/3-33

APL5501/2/3-33

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

9

0.001

0.01

0.1

1

0

150

300

450

600

750

900

V

OUT

C

OUT

=1

µF

No Load

Typical Characteristics

Entering Shutdown

Time (200ms/div)

V

OUT

=3.3V

Region of Stable ESR vs. Load Current

Load Current (mA)

C

OUT

 ESR (

)

unstable

stable

APL5501/2/3-33

APL5501/2/3-33

3.3V

4V

0V

0V

3.25

3.27

3.29

3.31

3.33

3.35

-40

0

40

80

120

Temperature (°C )

Output V

oltage (V)

APL5501/2/3-33

Output Voltage vs. Temperature

Time (40

µs/div)

V

OUT

V

IN

Line-Transient Response

Output V

oltage (20mV/div)

APL5901/2-33

4V

3V

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

10

C

OUT

=1

µF

V

IN

=V

OUT

+1V

Typical Characteristics

Time (10

µs/div)

APL5501/2/3-33

I

OUT

=1mA~500mA

Output V

oltage (50mV/div)

Load-Transient Response

V

OUT

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

11

The minimum input-output voltage difference (dropout)

determines the lowest usable supply voltage.  In bat-

tery-powered systems, this will determine the useful

end-of-life battery voltage.  Because the APL5501/2/3

use a p-channel MOSFET pass transistor, the drop-

out voltage is a function of drain-to-source on-resis-

tance (R

DS(ON)

) multiplied by the load current.

The APL5501/2/3 load-transient response graphs in

typical characteristics show the transient response.

A step change in the load current from 0mA to 500mA

at 1us will cause a 100mV transient spike.  Larger

output capacitor and lower ESR can reduce transient

spike.

Application Information

Capacitor Selection and Regulator

Stability

The APL5501/2/3 use at least a 1uF capacitor on the

input, and this capacitor can be Aluminum, Tantalum

or Ceramic capacitor.  The input capacitor with larger

value and lower ESR provides better PSRR and line-

transient response. The output capacitor also can use

Aluminum, Tantalum or Ceramic capacitor, and a mini-

mum value of 1uF and ESR above 0.06

Ω  is

recommended.  The curve of the stable region in typi-

cal characteristics shows the appropriate output ca-

pacitor ESR for different load current stable operation.

A larger output capacitor can reduce noise and im-

prove load-transient response, stability, and PSRR.

Note that some ceramic dielectrics exhibit large ca-

pacitance and ESR variation with temperature.  When

using this capacitor, a minimum 10uF or more may

be required  to ensure  the stability at low temperature

operation.  Use a bypass capacitor at BP pin for low

output nvise.  Increasing the capacitance will slightly

decrease the output noise, but increase the start-up

time.

Load-Transient Considerations

Input-Output (Dropout)Voltage

Reverse Current Protection

The APL5501/2/3 have an internal reverse protection,

it does not need an external schottky diode to con-

nect the regulator input and output.  If the output volt-

age is forced above the input voltage by more than

11mV, the IC will be shutdown and the ground pin

current is below 0.1uA.

Current Limit

The APL5501/2/3 have a current limit protection.  The

ouptut voltage will drop close to zero volt, when load

current reaches the limit, and then the load current

will be limited at 150mA after output voltage is below

0.7V. When the load current back to the value where

limiting started, the output voltage and current will re-

turn to normal value.  When output is shorted to

ground, the APL5501/2/3 will keep short circuit cur-

rent at 150mA .

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

12

Thermal protection limits total power dissipation in the

device.  When the junction temperature exceeds

T

J

=+150

J, the thermal sensor generates a logic sig-

nal to turn off the pass transistor and allows IC to

cool.  When the IC’s junction temperature is down by

10

J, the thermal sensor will turn the pass transistor

on again, resulting in a pulsed output during continu-

ous thermal protection.  Thermal protection is designed

to protect the APL5501/2/3 in the event of fault

conditions. For continuous operation, do not exceed

the absolute maximum junction temperature of

T

J

=+150

J.

Operating Region and Power Dis-

sipation

The thermal resistance of the case to circuit board,

and the rate of air flow all control the APL5501/2/3’s

maximum power dissipation.  The power dissipation

across the device is P

D

 = I

OUT 

(V

IN

-V

OUT

) and the maxi-

mum power dissipation is:

P

DMAX

 = (T

J

-T

A

) / (

?

JC

 +

?

CA

)

where T

J

-T

A

 is the temperature difference between the

junction and ambient air, 

?

JC

 is the thermal resis-

tance of the package, and

?

CA

 is the thermal resis-

tance through the printed circuit board, copper traces,

and other materials to the ambient air.

The GND pin of the APL5501/3 provide an electrical

connection to ground and channeling heat away.  If

power dissipation is large, connect the GND pin to

ground using a large pad or ground plane, can im-

prove the problem of over heat of IC.

Thermal Protection

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

13

Packaging Information

SOT-23-5

e1

E1

E

b

1

2

3

4

5

e

D

A2

A

A1

L 2

L

L 1

a

Millimet ers

Inches

Dim

Min .

Max.

Min .

Max.

A

0.95

1.45

0.037

0.057

A1

0.05

0.15

0.002

0.006

A2

0.90

1.30

0.035

0.051

D

2.8

3.00

0.110

0.118

E

2.6

3.00

0.102

0.118

E1

1.5

1.70

0.059

0.067

L

0.35

0.55

0.014

0.022

L1

0.20 BSC

0.008 BSC

L2

0.5

0.7

0.020

0.028

N

5

5

α

0

°

10

°

0

°

10

°

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

14

Packaging Information

Millimet ers

Inches

Dim

Min.

Max.

Min.

Max.

A

1.35

1.75

0.053

0.069

A1

0.10

0.25

0.004

0.010

D

4.80

5.00

0.189

0.197

E

3.80

4.00

0.150

0.157

H

5.80

6.20

0.228

0.244

L

0.40

1.27

0.016

0.050

e1

0.33

0.51

0.013

0.020

e2

1.27BSC

0.50BSC

φ  1

8

°

8

°

H

E

e1

e2

0.015X45

D

A

A1

0.004max.

1

L

SOP-8 pin ( Reference JEDEC Registration MS-012)

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

15

SOT-223( Reference JEDEC Registration SOT-223)

B1

D

H

E

K

e

e1

A

c

L

A1

a

B

b

Millimeters

Inches

Dim

Min.

Max.

Min.

Max.

A

1.50

1.80

0.06

0.07

A1

0.02

0.08

B

0.60

0.80

0.02

0.03

B1

2.90

3.10

0.11

0.12

c

0.28

0.32

0.01

0.01

D

6.30

6.70

0.25

0.26

E

3.30

3.70

0.13

0.15

e

2.3 BSC

0.09 BSC

e1

4.6 BSC

0.18 BSC

H

6.70

7.30

0.26

0.29

L

0.91

1.10

0.04

0.04

K

1.50

2.00

0.06

0.08

α

0

°

10

°

0

°

10

°

β

13

°

13

°

Packaging Information

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

16

Packaging Information

D

D1

e

B1

e1

B

1

2

3

L

H

E

C

a

a

A

SOT-89 (Reference EIAJ ED-7500A Reg stration SC-62)

M illim eters

Inches

Dim

M in.

M ax.

M in.

M ax.

A

1.40

1.60

0.055

0.063

B

0.40

0.56

0.016

0.022

B1

0.35

0.48

0.014

0.019

C

0.35

0.44

0.014

0.017

D

4.40

4.60

0.173

0.181

D1

1.35

1.83

0.053

0.072

e

1.50 BSC

0.059 BSC

e1

3.00 BSC

0.118 BSC

E

2.29

2.60

0.090

0.102

H

3.75

4.25

0.148

0.167

L

0.80

1.20

0.031

0.047

α

10

°

10

°

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

17

Packaging Information

SOT-89-5

Millim eters

Inches

Dim

Min.

Max.

Min.

Max.

A

4.40

4.60

0.17

0.18

B

4.05

4.25

0.16

0.17

C

1.50

1.70

0.06

0.07

D

1.30

1.50

0.05

0.06

E

2.40

2.60

0.09

0.1

F

0.80

-

0.03

-

G

3.00 REF

0.12 REF

H

1.50 REF

0.06 REF

I

0.40

0.52

0.01

0.02

J

1.40

1.60

0.05

0.06

K

0.35

0.41

0.01

0.02

L

5 TYP

0.2 TYP

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

18

TO-252( Reference JEDEC Registration TO-252)

Millimet ers

Inches

Dim

Min .

Max.

Min .

Max.

A

2.18

2.39

0.086

0.094

A1

0.89

1.27

0.035

0.050

b

0.508

0.89

0.020

0.035

b2

5.207

5.461

0.205

0.215

C

0.46

0.58

0.018

0.023

C1

0.46

0.58

0.018

0.023

D

5.334

6.22

0.210

0.245

E

6.35

6.73

0.250

0.265

e1

3.96

5.18

0.156

0.204

H

9.398

10.41

0.370

0.410

L

0.51

0.020

L1

0.64

1.02

0.025

0.040

L2

0.89

2.032

0.035

0.080

L2

D

L1

b

b2

E

C1

A

H

L

C

A1

e1

Packaging Information

background image

Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

19

Packaging Information

TO-252-5

Millimeters

Inches

Dim

Min.

Max.

Min.

Max.

A

6.40

6.80

0.25

0.26

B

5.20

5.50

0.20

0.21

C

6.80

7.20

0.26

0.27

D

2.20

2.80

0.08

0.11

P

1.27 REF

0.05 REF

S

0.50

0.80

0.02

0.03

H

2.20

2.40

0.08

0.09

J

0.45

0.55

0.01

0.02

K

0

0.15

0

0.006

L

0.90

1.50

0.03

0.06

M

5.40

5.80

0.21

0.22

L

K

J

H

B

A

C

M

D

P

S

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

20

Physical  Specifications

Pre-heat temperature

183 C

Peak temperature

Time

°

temperature

Classification Reflow Profiles

Convection or IR/

Convection

VPR

Average ramp-up rate(183

°C to Peak)

3

°C/second max.

10 

°C /second max.

Preheat temperature 125 ± 25

°C)

120 seconds max

Temperature maintained above 183

°C

60 – 150 seconds

Time within 5

°C of actual peak temperature 10 –20 seconds

60 seconds

Peak temperature range

220 +5/-0

°C or 235 +5/-0°C 215-219°C or 235 +5/-0°C

Ramp-down rate

°C /second max.

10 

°C /second max.

Time 25

°C to peak temperature

6 minutes max.

Package Reflow Conditions

pkg. thickness 

≥≥≥≥ 2.5mm

and all bgas

pkg. thickness < 2.5mm and

pkg. volume 

≥≥≥≥ 350 mm³

pkg. thickness < 2.5mm and pkg.

volume < 350mm³

Convection 220 +5/-0 

°C

Convection 235 +5/-0 

°C

VPR 215-219 

°C

VPR 235 +5/-0 

°C

IR/Convection 220 +5/-0

 °C

IR/Convection 235 +5/-0 

°C

Terminal Material

Solder-Plated Copper (Solder Material : 90/10 or 63/37 SnPb)

Lead Solderability

Meets EIA Specification RSI86-91, ANSI/J-STD-002 Category 3.

Reference JEDEC Standard J-STD-020A APRIL 1999

Reflow Condition 

(IR/Convection or VPR Reflow)

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

21

R e lia b ility  te s t p ro g ra m

Te s t  ite m

M e th o d

D e s c rip tio n

S O L D E R A B IL IT Y

M IL -S T D -8 8 3 D -2 0 0 3

2 4 5

°C   ,  5   S E C

H O LT

M IL -S T D -8 8 3 D -1 0 0 5 .7

1 0 0 0   H rs   B ia s   @   1 2 5  

°C

P C T

J E S D -2 2 -B ,  A 1 0 2

1 6 8   H rs ,  1 0 0   %   R H   ,  1 2 1

°C

T S T

M IL -S T D -8 8 3 D -1 0 11 .9

-6 5

°C   ~   1 5 0°C ,  20 0   C yc le s

E S D

M IL -S T D -8 8 3 D -3 0 1 5 .7

V H B M   >   2 K V,  V M M   >   2 0 0 V

L a tc h -U p

J E S D  7 8

1 0 m s  , I

tr

  >   1 0 0 m A

Carrier Tape

A

J

B

T2

T1

C

t

Ao

E

W

Po

P

Ko

Bo

D1

D

F

P1

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Copyright  ANPEC Electronics Corp.

Rev. A.9 - May., 2003

APL5501/2/3

www.anpec.com.tw

22

Application

Carrier Width

Cover Tape Width

Devices Per Reel

SOP- 8

12

9.3

2500

SOT- 89

12

9.3

1000

SOT- 223

12

9.3

2500

TO- 252

16

13.3

2500

Anpec Electronics Corp.

Head Office :

5F, No. 2 Li-Hsin Road, SBIP,

Hsin-Chu, Taiwan, R.O.C.

Tel :  886-3-5642000

Fax : 886-3-5642050

 Taipei Branch :

7F, No. 137, Lane 235, Pac Chiao Rd.,

Hsin Tien City, Taipei Hsien, Taiwan, R. O. C.

Tel :  886-2-89191368

Fax : 886-2-89191369

Customer Service

Reel Dimensions

Cover Tape Dimensions

A p p lication

A

B

C

J

T 1

T 2

W

P

E

330 ± 1

62 +1.5

12.75+ 0.15

2 ± 0.5

12.4 ± 0.2

2 ± 0.2

12± 0. 3

8± 0.1

1.75±0.1

F

D

D 1

P o

P 1

A o

B o

K o

t

S O P -  8

5.5± 1

1.55 +0.1

1.55+ 0.25

4.0 ± 0.1

2.0 ± 0.1

6.4 ± 0.1

5.2± 0. 1

2.1± 0.1

0.3±0.013

A p p lication

A

B

C

J

T 1

T 2

W

P

E

178 ±1

70 ± 2

13.5 ± 0.15 3 ± 0.15

14 ± 2

1.3 ± 0.3

1 2   +   0.3

12 - 0.1

8 ± 0.1

1.75± 0.1

F

D

D 1

P o

P 1

A o

B o

K o

t

S O T -89

5.5 ± 0.05

1.5± 0.1

1.5± 0.1

4.0 ± 0.1

2.0 ± 0.1

4.8 ± 0.1

4.5± 0.1

1.80± 0.1 0.3±0.013

A p p lication

A

B

C

J

T 1

T 2

W

P

E

330±1

62±1.5

12.75±

0.15

2 ± 0.6

12.4 +0.2

2± 0.2

12 ± 0.3

8 ± 0.1

1.75± 0.1

F

D

D 1

P o

P 1

A o

B o

K o

t

S O T -223

5.5 ± 0.05

1 .5 +   0.1

1.5+   0.1

4.0  ± 0.1

2.0 ± 0.05

6.9 ± 0.1

7.5± 0.1

2.1± 0.1

0.3±0.05

A p p lication

A

B

C

J

T 1

T 2

W

P

E

330 ±3

100 ± 2

13 ± 0. 5

2 ± 0.5

16.4 + 0.3

        -0.2

2.5± 0.5

16+ 0.3

      - 0.1

8 ± 0.1

1.75± 0.1

F

D

D 1

P o

P 1

A o

B o

K o

t

TO -252

7.5 

± 0.1

1.5 + 0.1

1.5

± 0.25

4.0 

± 0.1

2.0 

± 0.1

6.8 

± 0.1

10.4

± 0.1

2.5

± 0.1

0.3

±0.05