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LTC1872

1872fa

For more information

www.linear.com/LTC1872

Typical applicaTion

FeaTures

DescripTion

Constant Frequency

Current Mode Step-Up

DC/DC Controller in SOT-23

The

LTC

1872

is a constant frequency current mode step-

up DC/DC controller providing excellent AC and DC load

and line regulation. The device incorporates an accurate

undervoltage lockout feature that shuts down the LTC1872

when the input voltage falls below 2.0V.
The LTC1872 boasts a ±2.5% output voltage accuracy

and consumes only 270µA of quiescent current. For ap-

plications where efficiency is a prime consideration, the

LTC1872 is configured for Burst Mode operation, which

enhances efficiency at low output current.
In shutdown, the device draws a mere 8µA. The high

550kHz constant operating frequency allows the use of a

small external inductor.
The LTC1872 is available in a small footprint 6-lead

SOT-23.

applicaTions

High Efficiency: Over 90%

High Output Currents Easily Achieved

Wide V

Range: 2.5V to 9.8V

OUT

Limited Only by External Components

Constant Frequency 550kHz Operation

Burst Mode™ Operation at Light Load

Current Mode Operation for Excellent Line and Load

Transient Response

Low Quiescent Current: 270µA

Shutdown Mode Draws Only 8µA Supply Current

±2.5% Reference Accuracy

Tiny 6-Lead SOT-23 Package

Lithium-Ion-Powered Applications

Cellular Telephones

Wireless Modems

Portable Computers

Scanners

, LT, LTC, LTM, Burst Mode, Linear Technology and the Linear logo are registered trademarks

of Linear Technology Corporation. All other trademarks are the property of their respective

owners.

Figure 1. LTC1872 High Output Current 3.3V to 5V Boost Converter

Efficiency vs Load Current

/RUN

LTC1872

147k

422k

80.6k

0.03Ω

4.7µH

220pF

C1: TAIYO YUDEN CERAMIC EMK325BJ106MNT

C2: MURATA GRM42-2X5R226K6.3

D1: IR10BQ015

L1: MURATA LQN6C4R7M04

M1: IRLMS2002

R1: DALE 0.25W

GND
V

4
6

1872 TA01

2
3

NGATE

SENSE

–

10µF

10V

3.3V

OUT

22F

6.3V

M1 D1

LOAD CURRENT (mA)

EFFICIENCY (%)

100

1000

1872 TA01b

= 3.3V

OUT

= 5V

Содержание LTC1872

Страница 1: ...ieved n n Wide VIN Range 2 5V to 9 8V n n VOUT Limited Only by External Components n n Constant Frequency 550kHz Operation n n Burst Mode Operation at Light Load n n Current Mode Operation for Excelle...

Страница 2: ...N Falling VIN Rising l 1 55 1 85 2 00 2 10 2 35 2 40 V V Shutdown Threshold at ITH RUN l 0 15 0 35 0 55 V Start Up Current Source VITH RUN 0V 0 25 0 5 0 85 A Regulated Feedback Voltage 0 C to 70 C Not...

Страница 3: ...DUTY CYCLE 20 30 V IN V SENSE mV 100 1872 G04 40 50 60 70 80 90 130 120 110 100 90 80 70 60 50 VIN 4 2V TA 25 C TEMPERATURE C 55 200 I TH RUN VOLTAGE mV 240 320 360 400 600 480 15 25 45 125 1872 G05...

Страница 4: ...BLANKING CIRCUIT 0 15V 0 5 A 0 3V SLEEP OVP BURST CMP SHDN 1 2V UV 1872FD VREF 60mV VREF 0 8V VIN RS VOLTAGE REFERENCE SLOPE COMP ICMP R S Q FREQ FOLDBACK OSC SENSE VIN 5 2 4 4 EAMP VFB 3 NGATE VIN 6...

Страница 5: ...age drops below approximately 2 0V the N channel MOSFET andallcircuitryisturnedoffexcepttheundervoltageblock which draws only several microamperes Overvoltage Protection The overvoltage comparator in...

Страница 6: ...of current Using the scaling factor SF in in Figure 2 the value of RSENSE is RSENSE SF 10 IOUT 100 VIN VOUT VD Applications Information Inductor Value Calculation The operating frequency and inductor...

Страница 7: ...ycle of the LTC1872 Output Diode Selection Under normal load conditions the average current con ducted by the diode in a boost converter is equal to the output load current ID avg IOUT It is important...

Страница 8: ...d dry tantalum capacitors are both available in surface mount configurations An excellent choice of tantalum capacitors is the AVX TPS and KEMET T510 series of surface mount tantalum capacitors Also c...

Страница 9: ...rrents VIN currentresultsinasmallloss which increases with VIN 2 MOSFET gate charge current results from switching the gate capacitance of the power MOSFET Each time a MOSFET gate is switched from low...

Страница 10: ...inductor 3 The input decoupling capacitor 0 1 F should be connected closely between VIN Pin 5 and ground Pin 2 4 Connect the end of RSENSE as close to VIN Pin 5 as possible The VIN pin is the SENSE o...

Страница 11: ...E C1 10 F 10V VIN 3V TO 9 8V VOUT 12V C2 47 F 16V M1 D1 LTC1872 12V 500mA Boost Converter ITH RUN LTC1872 10k R1 0 27 53 6 L1 150 H 220pF C1 TAIYO YUDEN CERAMIC EMK325BJ106MNT C2 AVX TPSD156M035R0300...

Страница 12: ...BSC 0 80 0 90 1 00 MAX 0 01 0 10 0 20 BSC 0 30 0 50 REF PIN ONE ID NOTE 1 DIMENSIONS ARE IN MILLIMETERS 2 DRAWING NOT TO SCALE 3 DIMENSIONS ARE INCLUSIVE OF PLATING 4 DIMENSIONS ARE EXCLUSIVE OF MOLD...

Страница 13: ...believed to be accurate and reliable However noresponsibilityisassumedforitsuse LinearTechnologyCorporationmakesnorepresenta tion that the interconnection of its circuits as described herein will not...

Страница 14: ...nt Current VIN Down to 1V LTC1700 No RSENSE Synchronous Current Mode DC DC Step Up Controller 95 Efficient 0 9V VIN 5V 550kHz Operation LTC1772 Constant Frequency Current Mode Step Down DC DC Controll...

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