ANPEC APL5331U5C-TRL, APL5331U5C-TR, APL5331KC-TRL, APL5331KC-TR, APL5331KAC-TRL Datasheet

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3A Bus Termination Regulator
Copyright ANPEC Electronics Corp. Rev. A.8 - Oct., 2003
APL5331
www.anpec.com.tw1
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.
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 - Sourcing or Sinking Current up to 3A
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••
1.25V/0.9V Output for DDR I/II Applications
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Fast Transient Response
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High Output Accuracy
- ±20mV over Load, VOUT Offset and Temperature
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Adjustable Output Voltage by External Resistors
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Current-Limit Protection
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On-Chip Thermal Shutdown
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Shutdown for Standby or Suspend Mode
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Simple SOP-8, SOP-8-P with thermal pad,
TO-252- 5 and TO-263-5 Packages
Features General Description (Cont.)
On-chip thermal shutdown provides protection against any combination of overload that would create ex­cessive junction temperature. The output voltage of APL5331 track the voltage at VREF pin. A resistor divider connected to VIN, GND and VREF pins is used to provide a half voltage of VIN to VREF pin. In addition, an external ceramic capacitor and an open­drain transistor connected to VREF pin provides soft­start and shutdown control respectively. Pulling and holding the VREF to GND shuts off the output. The output of APL5331 will be high impedance after be­ing shut down by VREF or thermal shutdown function.
Applications
DDR I/II SDRAM Termination
SSTL-2/3 Termination Voltage
Applications Requiring the Regulator with


Bi-direction 3A Current Capability
Pin Configuration
TO-252-5 (Top View)
VOUT VREF
VCNTL GND
VIN
12345
TAB is VCNTL
TO-263-5 (Top View)
VIN
GND
VCNTL
VREF
VOUT
1
2
3
4
5
TAB is VCNTL
SOP-8 (Top View)
1 2 3 45
6
7
8
VIN
GND
VREF
VOUT VCNTL
VCNTL
VCNTL
VCNTL
General Description
The APL5331 linear regulator is designed to provide a regulated voltage with bi-directional output current for DDR-SDRAM termination. The APL5331 integrates two power transistors to source or sink current up to 3A. It also incorporate current-limit, thermal shut­down and shutdown control functions into a single chip. Current-limit circuit limits the short-circuit current.
1 2 3 45
6
7
8
VIN
GND
VREF
VOUT
NC
VCNTL
NC
NC
SOP-8-P (Top View)
= Thermal Pad
NC = No internal connection
(connected to GND plane for better heat dissipation)
Copyright ANPEC Electronics Corp. Rev. A.8 - Oct., 2003
APL5331
www.anpec.com.tw2
Package Code K : SOP-8 KA : SOP-8-P U5 : TO-252-5 G5 : T O-263-5 Tem p. Range
C : 0 to 7 0
o
C
Handling Code
TR : Tape & Re el Lead Free Code L : Lead Free Device Blank : Orginal Device
APL5331
Handling Code Tem p. Range Package Code
APL5331 XXXXX
APL5331K C-TR : APL5331 KAC -TR :
XXXXX - Date Code
APL5331 XXXXX
APL5331 U5C -TR : APL5331 G5C -TR :
XXXXX - Date Code
Lead Free Code
Ordering and Marking Information
Pin Description
PIN NAME I/O DESCRIPTION
VIN I
Main power input pin. Connect this pin to a voltage source and an input capacitor. The APL5331 sources current to VOUT pin by controlling the upper NPN pass transistor, providing a current path from VIN pin.
GND O
Power and signal ground. Connect this pin to system ground plane with shortest traces. The APL5331 sinks current from VOUT pin by controlling the lower NPN pass transistor, providing a current path to GN D pin. This pin is also the ground path fo r inter n a l co n tr o l c ircu itry.
VCNTL I
Power input pin for internal control circuitry. Connect this pin to a voltage source, providing a bias for the internal control circuitry. A bypass capacitor is usually connected near this pin.
VREF I
Reference voltage input and active-low shutdown control pin. Apply a voltage to this pin as a reference voltage for the AP L5331. Connect this pin to a resistor divider, between VIN and GND, and a capacitor for soft-start and filtering noise purposes. Applying and holding this pin low by an open-drain transistor to shut down th e o u tp u t.
VOUT O
Output pin of the regulator. Connect this pin to load. Output capacitors connected this pin improves stability and transient response. The output voltage tracks the reference voltage and is capable of sourcing or sinking current up to 3A.
Block Diagram
GND
VOUT
VIN
VCNTL
VREF
Current
Limit
Therm al
Limit
Voltage
Regulation
Shutdown
Copyright ANPEC Electronics Corp. Rev. A.8 - Oct., 2003
APL5331
www.anpec.com.tw3
Symbol Parameter Range Unit
V
CNTL
VCNTL Supply Voltage 3.1 ~ 6V V
V
IN
VIN Supply Voltage 1.6 ~ 3.5 V
V
REF
VREF Input Voltage 0.8 ~ 1.75 V
I
OUT
VOUT Output Current (Note1, 2) -3 ~ +3 A
T
J
Junction Temperature 0 ~ 125
o
C
Symbol Parameter Rating Unit
V
CNTL
VCNTL Supply Voltage, VCNTL to GND -0.2 ~ 7 V
V
IN
VIN Supply Voltage, VIN to G ND -0.2 ~ 3.9 V
P
D
Power Dissipation Internally Limited W
T
J
Junction Temperature 150
o
C
T
STG
Storage Temperature -65 ~ 150
o
C
T
SDR
Soldering Temperature, 10 Seconds 300
o
C
V
ESD
Minimum ESD R ating (Human Body Mode)
±3
kV
Note1 : The symbol “+” means the VOUT sources current to load; the symbol “-“ means the VOUT sinks current to GND. Note2 : The max. IOUT varies with the TJ. Please refer to the typical characteristics.
Absolute Maximum Ratings
Thermal Characteristics
Symbol
Parameter Rating Unit
θ
JA
Thermal Resistance in Free Air
SOP-8
SOP-8-P TO-252-5 TO-263-5
160
80 80 50
°C/W
Recommended Operating Conditions
Copyright ANPEC Electronics Corp. Rev. A.8 - Oct., 2003
APL5331
www.anpec.com.tw4
Electrical Characteristics
Refer to the typical application circuit. These specifications apply over, VCNTL=3.3V, VIN=2.5V/1.8V, VREF=0.5VIN and TJ= 0 to 125°C, unless otherwise specified. Typical values refer to TJ =25°C.
APL5331
Symbol
Parameter Test Conditions
Min Typ Max
Unit
Output Voltage
V
OUT
VOUT O utput Voltage I
OUT
=0A
V
REF
V
System Accuracy
Over temperature, VOUT offset, and load regulation
-20 20 mV
I
OUT
=+10mA -14
-9
V
OS
VOUT O ffset Voltage (V
OUT–VREF
)
I
OUT
=-10mA
2
8
mV
I
OUT
=+10mA to +3A -6
-3
Load Regulation
I
OUT
= -10 mA to -3 A
7
12
mV
Protection
Sourcing Current TJ=25°C (V
IN
=2.5V) TJ=125°C
+3.3 +3.6
+3.1
Sinking Current TJ=25°C (V
IN
=2.5V) TJ=125°C
-3.3 -3.6
-3.1
Sourcing Current TJ=25°C (V
IN
=1.8V) TJ=125°C
+2.9 +3.2
+2.6
I
LIM
Current Limit
Sinking Current T
J
=25°C
(V
IN
=1.8V) TJ=125°C
-2.9 -3.2
-2.6
A
T
SD
Thermal Shutdown Tem perature
Rising T
J
150
o
C
Therm al Shutdown Hysteresis
40
o
C
Input Current
I
OUT
=0A 2
4.5
6
I
OUT
=±3A (Norm al Operation),
V
CNTL
=5V
50 110
I
CNTL
VCNTL S upply Current
V
REF
=GND (S hutdown)
2.6
mA
V
REF
=1.25V/0.9V (Normal Operation)
150
500 nA
I
VREF
VREF Bias Current (The current flows out of VREF)
V
REF
=GND (Shutdown)
20
40
µA
Shutdown Control
Shutdown Threshold Voltage
0.2
0.35
0.65 V
Copyright ANPEC Electronics Corp. Rev. A.8 - Oct., 2003
APL5331
www.anpec.com.tw5
Typical Application Circuit
COUT : 470µF, ESR=25m R1, R2 : 1k, 1% Q1 : APM2300 AC
V
CNTL
+3.3V
C
CNTL
47uF
V
OUT
+1.25V/0.9V
-3~+3A
C
SS
0.1uF
GND
R
1
1k
R
2
1k
V
IN
+2.5V/1.8 V
GND
C
IN
470uF
Q
1
Shutdown
C
OUT
470uF
V
REF
GND
VREF
VIN
VOU T
VCNTL
Note : Since R1 and R2 are very small, the voltage offset caused by the bias current of VREF can be ignore.
2. VOUT=1.4V Application
V
CNTL
+5V
C
CNTL
47µF
V
OUT
+1.4V/
-3~+3A
C
SS
0.1µF
GND
R
1
1k
R
2
1k
V
IN
+2.8V
GND
C
IN
470µF
C
OUT
470µF
V
REF
GND
VREF
VIN
VOU T
VCNTL
1. VOUT=1.25V/0.9V Application
Copyright ANPEC Electronics Corp. Rev. A.8 - Oct., 2003
APL5331
www.anpec.com.tw6
2.0
2.5
3.0
3.5
4.0
4.5
5.0
-50 -25 0 25 50 75 100 125
-5.0
-4.5
-4.0
-3.5
-3.0
-2.5
-2.0
-50 -25 0 25 50 75 100 125
0.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
-50 -25 0 25 50 75 100 125
Typical Characteristics
Sourcing Current-Limit
vs Junction T emperature
Current-Limit, ILIM (A)
Junction Temperature (°C)
VREF Bias Current
vs Junction T emperature
Junction Temperature (°C)
VREF Bias Current, IVREF (µA)
Junction Temperature (°C)
VREF Shutdown Threshold (V)
Junction Temperature (°C)
Current-Limit, ILIM (A)
Sinking Current-Limit
vs Junction T emperature
VREF Shutdown Threshold
vs Junction T emperature
V
REF
=1.25V/0.9V
0.1
0.2
0.3
0.4
0.5
0.6
-50 -25 0 25 50 75 100 125
V
CNTL
=5V
V
CNTL
=3.3V
VCNTL=5V,VIN=2.5V
VCNTL=3.3V,VIN=2.5V
VCNTL=5V,VIN=1.8V
VCNTL=3.3V,VIN=1.8V
VCNTL=5V,VIN=1.8V
VCNTL=3.3V,VIN=1.8V
VCNTL=3.3V,VIN=2.5V
VCNTL=5V,VIN=2.5V
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