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LT3480

7

3480fb

 PIN FUNCTIONS

BD (Pin 1):

 This pin connects to the anode of the boost 

Schottky diode. BD also supplies current to the internal 
regulator.

BOOST (Pin 2):

 This pin is used to provide a drive 

voltage, higher than the input voltage, to the internal bipolar 
NPN power switch.

SW (Pin 3):

 The SW pin is the output of the internal power 

switch. Connect this pin to the inductor, catch diode and 
boost capacitor.

V

IN

 (Pin 4):

 The V

IN

 pin supplies current to the LT3480’s 

internal regulator and to the internal power switch. This 
pin must be locally bypassed.

RUN/SS (Pin 5):

 The RUN/SS pin is used to put the 

LT3480 in shutdown mode. Tie to ground to shut down 
the LT3480. Tie to 2.5V or more for normal operation. If 
the shutdown feature is not used, tie this pin to the V

IN 

pin. RUN/SS also provides a soft-start function; see the 
Applications Information section.

SYNC (Pin 6):

 This is the external clock synchronization 

input. Ground this pin for low ripple Burst Mode operation at 
low output loads. Tie to a clock source for synchronization. 
Clock edges should have rise and fall times faster than 1μs. 
See synchronizing section in Applications Information.

PG (Pin 7):

 The PG pin is the open collector output of an 

internal comparator. PG remains low until the FB pin is 
within 14% of the fi nal regulation voltage. PG output is 
valid when V

IN

 is above 3.6V and RUN/SS is high.

FB (Pin 8):

 The LT3480 regulates the FB pin to 0.790V. 

Connect the feedback resistor divider tap to this pin.

V

C

 (Pin 9):

 The V

C

 pin is the output of the internal error 

amplifi er. The voltage on this pin controls the peak switch 
current. Tie an RC network from this pin to ground to 
compensate the control loop.

RT (Pin 10):

 Oscillator Resistor Input. Connecting a resistor 

to ground from this pin sets the switching frequency.

Exposed Pad (Pin 11):

 Ground. The Exposed Pad must 

be soldered to PCB.

BLOCK DIAGRAM

+

+


OSCILLATOR

200kHz–2.4MHz

BurstMode

DETECT

V

C

 CLAMP

SOFT-START

SLOPE COMP

R

V

IN

V

IN

RUN/SS

BOOST

SW

SWITCH

LATCH

V

C

V

OUT

C2

C3

C

F

L1

D1

DISABLE

C

C

R

C

BD

RT

R2

GND

ERROR AMP

R1

FB

R

T

C1

PG

0.7V

S

Q

3

3480 BD

4

5

10

7

1

2

3

9

11

8

6

INTERNAL 0.79V REF

SYNC

Summary of Contents for LT3480

Page 1: ...ckages with exposed pads for low thermal resistance n Wide Input Range Operation from 3 6V to 36V Over Voltage Lockout Protects Circuits through 60V Transients n 2A Maximum Output Current n Low Ripple...

Page 2: ...C LEAD BASED FINISH TAPE AND REEL PART MARKING PACKAGE DESCRIPTION TEMPERATURE RANGE LT3480EDD LT3480EDD TR LCTP 10 Lead 3mm 3mm Plastic DFN 40 C to 85 C LT3480IDD LT3480IDD TR LCTP 10 Lead 3mm 3mm P...

Page 3: ...N TYP MAX UNITS Quiescent Current from VIN VRUN SS 0 2V VBD 3V Not Switching VBD 0 Not Switching l 0 01 30 105 0 5 100 160 A A A Quiescent Current from BD VRUN SS 0 2V VBD 3V Not Switching VBD 0 Not S...

Page 4: ...350 25 3480 G05 200 100 25 0 50 50 0 400 300 250 150 75 100 150 125 VIN 12V VOUT 3 3V CATCH DIODE DIODES INC PDS360 INCREASED SUPPLY CURRENT DUE TO CATCH DIODE LEAKAGE AT HIGH TEMPERATURE INPUT VOLTA...

Page 5: ...AGE mV 0 SWITCHING FREQUENCY kHz 800 1000 1200 600 3480 G14 600 400 200 400 800 500 100 300 700 900 200 0 TEMPERATURE C MINIMUM SWITCH ON TIME ns 80 100 120 3480 G15 60 40 20 0 140 50 25 25 0 50 75 10...

Page 6: ...5 100 150 125 TEMPERATURE C THRESHOLD VOLTAGE 85 90 95 3480 G23 80 75 50 25 25 0 50 75 100 150 125 3480 G24 IL 0 2A DIV VSW 5V DIV VOUT 10mV DIV 5 s DIV VIN 12V FRONT PAGE APPLICATION ILOAD 10mA Error...

Page 7: ...stModeoperationat lowoutputloads Tietoaclocksourceforsynchronization Clockedgesshouldhaveriseandfalltimesfasterthan1 s See synchronizing section in Applications Information PG Pin 7 The PG pin is the...

Page 8: ...e the LT3480 in shutdown disconnecting the output and reducing the input current to less than 1 A The switch driver operates from either the input or from the BOOST pin An external capacitor and diode...

Page 9: ...ion shows that slower switching frequency is necessary to safely accommodate high VIN VOUT ratio Also as shown inthenextsection lowerfrequencyallowsalowerdropout voltage The reason input voltage range...

Page 10: ...equency will determine the ripple current The ripple current IL increases with higher VIN or VOUT anddecreaseswithhigherinductanceandfasterswitching frequency A reasonable starting point for selecting...

Page 11: ...tance may be necessary Thiscanbeprovidedwithalowerperformance electrolytic capacitor Step downregulatorsdrawcurrentfromtheinputsupplyin pulses with very fast rise and fall times The input capaci tor i...

Page 12: ...crease to the typical peak switch current Peak reverse voltage is equal to the regulator input voltage Use a Schottky diode with a reverse voltage rating greater than the input voltage The overvoltage...

Page 13: ...one of the circuits in this data sheet that is similar to your application and tune the compensation network to optimize the performance Stability should then be checked across all operating conditio...

Page 14: ...to get the boost circuit running properly This minimum load will depend on input and output voltages and on the arrangement of the boost circuit The minimum load generally goes to zero once the circu...

Page 15: ...Minimum Input Voltage Depends on Output Voltage Load Current and Boost Circuit 3480 F06 LOAD CURRENT A 1 INPUT VOLTAGE V 4 0 4 5 5 0 10000 3 5 3 0 2 0 10 100 1000 1 10000 10 100 1000 2 5 6 0 5 5 TO S...

Page 16: ...y backup systems where a battery or some other supply is diode OR ed with the LT3480 s output If the VIN pin is allowed to oat and the RUN SS pin is held high either by a logic signal or because it is...

Page 17: ...pply seeLinearTechnologyApplicationNote88for a complete discussion The low loss ceramic capacitor combined with stray inductance in series with the power VIAS TO LOCAL GROUND PLANE VIAS TO VOUT VIAS T...

Page 18: ...ace additional vias can reduce thermal resistance further With these steps the thermal resistance from die or junction to ambient can be reduced to JA 35 C W or less With 100 LFPM air ow this resistan...

Page 19: ...AL APPLICATIONS 3 3V Step Down Converter SW FB VC PG RT VIN BD VIN 4 4V TO 36V TRANSIENT TO 60V VOUT 3 3V 2A 4 7 F 0 47 F 22 F 100k f 800kHz D DIODES INC DFLS240L L TAIYO YUDEN NP06DZB4R7M D 14k 40 2k...

Page 20: ...S INC DFLS240L L NEC TOKIN PLC 0755 100 D 26 1k 40 2k L 10 H 715k GND 330pF ON OFF LT3480 3480 TA06 RUN SS BOOST SYNC 5V 2MHz Step Down Converter SW FB VC PG RT VIN BD VIN 8 6V TO 22V TRANSIENT TO 38V...

Page 21: ...S 1 8V Step Down Converter SW FB VC PG RT VIN BD VIN 3 5V TO 27V VOUT 1 8V 2A 4 7 F 0 47 F 47 F 100k f 500kHz D DIODES INC DFLS240L L TAIYO YUDEN NP06DZB3R3M D 18 2k 68 1k L 3 3 H 127k GND 330pF ON OF...

Page 22: ...OTTOM OF PACKAGE DO NOT INCLUDE MOLD FLASH MOLD FLASH IF PRESENT SHALL NOT EXCEED 0 15mm ON ANY SIDE 5 EXPOSED PAD SHALL BE SOLDER PLATED 6 SHADED AREA IS ONLY A REFERENCE FOR PIN 1 LOCATION ON THE TO...

Page 23: ...DE MOLD FLASH PROTRUSIONS OR GATE BURRS MOLD FLASH PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED 0 152mm 006 PER SIDE 4 DIMENSION DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS INTERLEAD FLASH OR PROTRU...

Page 24: ...ISD 1 A 16 Pin TSSOP Package LT1767 25V 1 2A IOUT 1 1MHz High Ef ciency Step Down DC DC Converter VIN 3V to 25V VOUT MIN 1 2V IQ 1mA ISD 6 A MS8E Package LT1940 Dual 25V 1 4A IOUT 1 1MHz High Ef cien...

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