STMICROELECTRONICS L4956

L4956
5A LOW DROP LINEAR REGULATOR
SPLITTED SUPPLY VOLTAGE FOR IMPROVED EFFICIENCY:
- VPW: 3V MIN. POWER SUPPLY VOLTAGE
- VSIG: 4.5V MIN. SIGNAL SUPPLY VOLTAGE
5A OUTPUT CURRENT
FAST LOAD TRANSIENT RESPONSE
0.75V TYP. DROP OUT VOLTAGE AT 5A
INHIBIT WITH ZEROCURRENT COMSUMPTION
POWER GOOD
SHORT CIRCUIT PROTECTION
THERMAL SHUTDOWN
HEPTAWATT PACKAGE
APPLICATIONS
PENTIUM AND POWER PC SUPPLIES
LOW COST SOLUTION FOR 3.3V TO 1.5V
CONVERSION
SUITABLE FOR APPLICATIONS WITH
STAND BY FEATURE
MULTIPOWER BCD TECHNOLOGY
HEPTAWATT
ORDERING NUMBER: L4956
Designed in BCDII technology, it uses a charge
pump technique to have a proper internal N-channel gate drive. The signal supply voltage input
VSIG can operate from 4.5V up to an absolute of
7V and the power supply voltage input VPW can
opearte from 3V min to an absolute of 7V. An
RDSON of 150mV gives a voltage drop of 750mV
at 5A of load current.
Very fast load transients and ±1% of reference
voltage precision makes this device suitable for
supplying last micrprocessors generation and low
voltage logics.
The Heptawatt package enriches the device with
auxiliary functions like power good and inhibit.
DESCRIPTION
The L4956 is an adjustable monolithic linear regulator designed to satisfy very heavy load transient
and efficient power conversion from 3.3V to 1.26V
and lower, up to 5A.
TYPICAL APPLICATION
VPW=3.3Vbus
VPW
VSIG=
5Vbus
C1
C3
VSIG
1
2
INH
PG
3
6
7
OUT
VO
R1
L4956
5
ADJ
4
C2
R2
GND
D96IN374B
March 1998
1/8
L4956
ABSOLUTE MAXIMUM RATINGS
Symbol
VPW, VSIG
Parameter
Value
Supply Input Voltage
7
V
-0.3 to 4
0 to VSIG
V
V
2
15
W
W
-40 to +150
°C
ADJ pin
PG and INH pins
PTOT
Power Dissipation @ Tamb = 50°C
Power Dissipation @ Tcase = 90°C
Tst, Ti
Storage Temperature
Unit
PIN CONNECTION (Top view)
7
OUT
6
PG
5
ADJ
4
GND
3
INH
2
VSIG
1
VPW
tab connected to pin 4
D96IN373
PIN FUNCTIONS
No.
Name
1
VPW
Function
2
VSIG
Unregulated signal input voltage this pin has to be by passed with a minimum capacitor of 0.1µF.
3
INH
TTL-CMOS input. A logic level on this input disable the device. An internal pull-down insures insures
full functionally even if the pin is open.
4
GND
Ground.
5
ADJ
The output is connected directly to this terminal for 1.26V operation via divider for higher voltages.
6
PG
Open drain output, this pin is low when the output voltage is lower than 90%, otherwise is high.
7
OUT
Unregulated power input voltage; this pin must be bypassed with a capacitor larger than 10µF.
Regulated output voltage. A minimum bypass capacitor of 22µF is required to insure stability.
BLOCK DIAGRAM
V PW
VPW
1
10µF
VSIG
VSIG
V REF=
1.26V
2
PRE
REGULATOR
CURRENT
LIMITATION
+
-
CHARGE
PUMP
FOLDBACK
BUFFER
E/A
POWER
DMOS
150mΩ
THERMAL
SHUTDOWN
INH
3
R1
ADJ
5
1.26V
INHIBIT
ACTIVE HIGH
+
0.9VREF
4
6
GND
2/8
OUT
7
PG
D96IN372A
R2
V OUT
22µF
L4956
THERMAL DATA
Symbol
Parameter
Value
Unit
Rth j-pins
Thermal Resistance Junction-case
2.5
°C/W
Rth j-amb
Thermal Resistance Junction-ambient
50
°C/W
Thermal Shutdown
Typ.
150
°C
Thermal Hysteresis
Typ.
20
°C
ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise specified)
Symbol
Parameter
VPW
Power Operating Supply Voltage
VSIG
Signal Operating Supply Voltage
VOUT
Output Voltage
(1)
Test Condition
Min.
Typ.
3
4.5
Max.
Unit
6.5
V
6.5
V
0 < Tj < 125°C; VPW = 3.3V
4.5V < VSIG < 6.5V; 0.1A < IO < 5A
1.240
1.260
1.280
V
3V < VPW < 5.5V; 4.5V< VSIG < 6.5V
0.1A < IO < 5A; 0 < Tj < 125°C
1.224
1.260
1.296
V
0.5
3
mV
1
5
mV
0.75
1.1
1.1
1.5
V
V
6.3
7.5
A
∆VOUT
Line regulation
∆VOUT
Load regulation (1)
VPW = 3.3V; VSIG = 5V
0.1A < IO < 5A
Drop-out Voltage
IO = 5A
IO = 5A, Tj = 125°C
Current Limiting
0 < Tj < 125°C
Short Circuit Current
VO = 0V, 0 < Tj < 125°C
1.8
Quiescent Current at pin VSIG
0.1A < IO < 5A
4.5V < VSIG <6.5V
1.5
3
mA
Stand By Current at pin VSIG
INH = HIGH VSIG = 5V
100
150
µA
Inhibit Threshold
0 < Tj < 125°C
1.26
1.42
V
10
µA
IO
IQ
(1)
3V < VPW < 5.5V; IO = 10mA
4.5V < VSIG < 6.5V
Inhibit Histeresys
5.1
1.1
0.2
Inhibit Bias Sink Current
5
Power Good Threshold
0.9 x
VOUT
Power Good Saturation
Power Good Histeresys
A
I6 = 4mA
0.1
0.2
V
V
0.4
V
V
(1) Output voltage connected to ADJ.
3/8
L4956
Figure 1. DC Operating Area.
Figure 2. Output Voltage Stability vs.
Junction Temperature
Vo ut [V ]
1 .2 8
O utput C urrent [A]
8
V pw > 3V
V sig > 4.5 V
T j = 1 25 ° C
7
6
P ow e r
D issip a tio n
L im it
1 .2 7
1 .2 6 5
4
1 .2 6
Tc = 7 0° C
P dm ax=2 2 W
3
1 .2 5 5
2
1 .2 5
D C O p e ra ting A rea
1
0
V pw = 3.3V
V sig = 5V
I out = 1 0m A
1 .2 7 5
R d son
lim it
5
Tc = 2 5° C
P dm ax = 4 0 W
C u rre nt Lim ita ti o n
1 .2 4 5
0
1
2
3
4
5
6
(Vpw - Vout) [V ]
7
8
5
12 0
160
[V]
V p w = 3.3 V
V s i g = 5V
Vo u t = Va d j
T j = 2 5 °C
3
2
1
0
-1
1
T j = 1 2 5 °C
0 .7 5
T j = 2 5 °C
0 .5
Minimum
O utput Voltage
40
80
T j [°C ]
1 .2 5
4
-2
-3
Tj = -40 ° C
0 .2 5
P u ls e d tec n iq u e h as b e e n u s e d
-4
-5
0
Figure 4. Dropout Voltage.
Vpw - Vout Voltage
Deviation
[m
Figure 3. Load Regulation.
1 .2 4
-40
P u ls ed te c hn iq u e h a s b e e n u s e d
0
1
2
3
I ou t [A ]
4
5
0
0
1
2
3
Io u t [A ]
4
5
Figure 5. Maximum Output Current vs.
Junction Temperature
Figure 6. Quiescent Current at pin VSIG vs.
Junction Temperature.
O u tp u t C u rre nt [A ]
I q [m A ]
2
10
V S IG = 6 . 5 V
I o u t = 1 0 m A to 5 A
3 V < V P W < 6 .5 V
1 .8
9
(V p w -Vo u t) > 2 V
8
6
1 .6
7
1 .4
6
5
1 .2
4
1
3
0 .8
2
P u ls e d te cn iq u e h a s b e e n u s e d
1
0
-4 0 -20
4/8
0
20
4 0 6 0 8 0 10 0 12 0 1 40 1 60
Tj [ºC ]
0 .6
0 .4
-40 -20
0
20
40
6 0 8 0 1 00 120 14 0 1 60
T j [ °C ]
L4956
Figure 7. Quiescent Current at pin VSIG vs.
Signal Input Voltage.
Figure 8. Stand-By Current at pin VSIG vs. Signal
Input Voltage with INH = LOGIC HIGH
Iq [m A ]
3
I q [µ A ]
1 50
Io = 1 0 m A to
2 .5
5A
1 25
T j = 2 5 °C
3 V < V P W < 6 .5 V
2
1 00
1 .5
75
1
50
0 .5
25
0
0
1
2
3
4
V S I G [V ]
5
6
0
7
T j = 25 °C
3 V < V P W < 6 .5 V
4
4 .5
5
5 .5
6
V S IG [V ]
6 .5
7
Figure 9. Power Good Function
V ADJ
V OUT=VADJ (R1+R2)/R2
0.9 VADJ
hyst = 200mV
t
PG
Low
High
Low
t
D96IN364B
Figure 10. Inhibit Function
VINH
Vref = 1.26V
hyst = 200mV
t
regulator
ON
regulator
OFF
regulator
ON
D96IN365A
t
5/8
L4956
LOAD TRANSIENT RESPONSE
Figure 11.
Figure 12.
Vout
50mV/div
CH1gnd
Vout
50mV/div
CH1gnd
5A
5A
0.5A
CH2gnd
Iout
2A/div
0.5A
CH2gnd
Iout
2A/div
t = 5µs/div
t = 5µs/div
Figure 13.
Test conditions:
VPW = 3.3V; VSIG = 5; Vout = 1.5V; Load Transient
from 0.5A to 5A;
dlout
= 20A/µs; Tj = 25°C
dt
Vout
50mV/div
CH1gnd
5A
0.5A
CH2gnd
Iout
2A/div
t = 100µs/div
Figure 14. Load transient test circuit.
PG
VIN=3.3V
VPW
VSIG=5V VSIG
C1,C2
470µF
Panasonic
HFQ
1
2
L4956
4
C16
220nF
7
6
GND
3
INH
5
OUT
ADJ
VOUT=1.5V
R4
24Ω
R5
126Ω
C4 to C9
100µF/10V
AVX TPS
6 each
D97IN593
6/8
C10 to C15
1µF
AVX X7R
6 each
L4956
HEPTAWATT PACKAGE MECHANICAL DATA
DIM.
MIN.
mm
TYP.
MAX.
MIN.
inch
TYP.
MAX.
A
4.8
0.189
C
1.37
0.054
D
2.4
2.8
0.094
0.110
D1
1.2
1.35
0.047
0.053
E
0.35
0.55
0.014
0.022
F
0.6
0.8
0.024
0.031
F1
0.9
0.035
G
2.41
2.54
2.67
0.095
0.100
0.105
G1
4.91
5.08
5.21
0.193
0.200
0.205
G2
7.49
7.62
7.8
0.295
0.300
0.307
H2
H3
10.4
10.05
10.4
0.409
0.396
0.409
L
16.97
0.668
L1
14.92
0.587
L2
21.54
0.848
L3
22.62
0.891
L5
2.6
3
0.102
0.118
L6
15.1
15.8
0.594
0.622
L7
6
6.6
0.236
M
2.8
M1
Dia
5.08
3.65
0.260
0.110
0.200
3.85
0.144
0.152
7/8
L4956
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility for the
consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No
license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specification mentioned
in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGSTHOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express
written approval of SGS-THOMSON Microelectronics.
 1998 SGS-THOMSON Microelectronics – Printed in Italy – All Rights Reserved
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