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| LTC1142_15 Datasheet, PDF (1/20 Pages) Linear Technology – Dual High Efficiency Synchronous Step-Down Switching Regulators | |||
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FEATURES
s Dual Outputs: 3.3V and 5V or User Programmable
s Ultrahigh Efficiency: Over 95% Possible
s Current Mode Operation for Excellent Line and Load
Transient Response
s High Efficiency Maintained over 3 Decades of
Output Current
s Low Standby Current at Light Loads: 160µA/Output
s Independent Micropower Shutdown: IQ < 40µA
s Wide VIN Range: 3.5V to 20V
s Very Low Dropout Operation: 100% Duty Cycle
s Synchronous FET Switching for High Efficiency
s Available in Standard 28-Pin SSOP
U
APPLICATIO S
s Notebook and Palmtop Computers
s Battery-Operated Digital Devices
s Portable Instruments
s DC Power Distribution Systems
LTC1142/LTC1142L/LTC1142HV
Dual High Efficiency
Synchronous Step-Down
Switching Regulators
DESCRIPTIO
The LTC®1142/LTC1142L/LTC1142HV are dual synchro-
nous step-down switching regulator controllers featuring
automatic Burst ModeTM operation to maintain high efficien-
cies at low output currents. The devices are composed of two
separate regulator blocks, each driving a pair of external
complementary power MOSFETs, at switching frequencies
up to 250kHz, using a constant off-time current mode archi-
tecture providing constant ripple current in the inductor.
The operating current level for both regulators is user pro-
grammable via an external current sense resistor. Wide input
supply range allows operation from 3.5V* to 18V (20V
maximum). Constant off-time architecture provides low drop-
out regulation limited only by the RDS(ON) of the external
MOSFET and resistance of the inductor and current sense
resistor.
The LTC1142 series is ideal for applications requiring dual
output voltages with high conversion efficiencies over a wide
load current range in a small amount of board space.
, LTC and LT are registered trademarks of Linear Technology Corporation.
Burst Mode is a trademark of Linear Technology Corporation.
TYPICAL APPLICATIO
VIN
5.2V TO 18V
VOUT3
3.3V/2A
RSENSE3
0.05â¦
L1
50µH
CIN3
22µF
25V
Ã2
0.22µF
P-CH
Si9430DY
24
VIN3
23
PDRIVE 3
0V = NORMAL
>1.5V = SHDN
2
SHDN3
16
SHDN5
0.22µF
10
VIN5
9
PDRIVE 5
P-CH
Si9430DY
D1
MBRS130L
COUT3
220µF
10V
Ã2
1000pF
N-CH
Si9410DY
1 SENSE+ 3
SENSEâ 3
28
NDRIVE 3
6
PGND3 SGND3 CT3
4
3 25
LTC1142HV
SENSE+ 5 15
SENSEâ 5
14
NDRIVE 5
20
ITH3 ITH5 CT5 SGND5 PGND5
27
13 11
17
18
RC3 RC5
1k
1k
RSENSE3, RSENSE5 : DALE WSL-2010-.05
L1, L2: COILTRONICS CTX50-2-MP
PINS 5, 7, 8, 19, 21, 22: NC
CT3 CC3
CC5
CT5
560pF 3300pF 3300pF 390pF
1000pF
N-CH
Si9410DY
NOTE: COMPONENTS OPTIMIZED FOR HIGHEST EFFICIENCY, NOT MINIMUM BOARD SPACE.
Figure 1. High Efficiency Dual 3.3V, 5V Supply
+
CIN5
22µF
25V
Ã2
L2
50µH
RSENSE5
0.05â¦
VOUT5
5V/2A
D2
MBRS130L
+ COUT5
220µF
10V
Ã2
1142 F01
1
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