Linear LT1308ACS8, LT1308AIS8, LT1308BCS8, LT1308BIS8, LT1308ACF Schematic [ru]

LT1308A/LT1308B

High Current, Micropower

Single Cell, 600kHz

DC/DC Converters

FEATURES

n

5V at 1A from a Single Li-Ion Cell

n

5V at 800mA in SEPIC Mode from Four NiCd Cells

n

Fixed Frequency Operation: 600kHz

n

Boost Converter Outputs up to 34V

n

Starts into Heavy Loads

n

Automatic Burst Mode™ Operation at

Light Load (LT1308A)

n

Continuous Switching at Light Loads (LT1308B)

n

Low V

n

Pin-for-Pin Upgrade Compatible with LT1308

n

Lower Quiescent Current in Shutdown: 1µA (Max)

n

Improved Accuracy Low-Battery Detector

Switch: 300mV at 2A

CESAT

Reference: 200mV ±2%

n

Available in 8-Lead SO and 14-Lead TSSOP Packages

APPLICATIONS

n

GSM/CDMA Phones

n

Digital Cameras

n

LCD Bias Supplies

n

Answer-Back Pagers

n

GPS Receivers

n

Battery Backup Supplies

n

Handheld Computers

DESCRIPTION

The LT®1308A/LT1308B are micropower, fi xed frequency
step-up DC/DC converters that operate over a 1V to 10V
input voltage range. They are improved versions of the
LT1308 and are recommended for use in new designs.
The LT1308A features automatic shifting to power sav­ing Burst Mode operation at light loads and consumes
just 140µA at no load. The LT1308B features continuous
switching at light loads and operates at a quiescent cur­rent of 2.5mA. Both devices consume less than 1µA in
shutdown.

Low-battery detector accuracy is signifi cantly tighter than
the LT1308. The 200mV reference is specifi ed at ±2%
at room and ±3% over temperature. The shutdown pin
enables the device when it is tied to a 1V or higher source
and does not need to be tied to V
internal V

clamp results in improved transient response

C

and the switch voltage rating has been increased to 36V,
enabling higher output voltage applications.

The LT1308A/LT1308B are available in the 8-lead SO and
the 14-lead TSSOP packages.

L, 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.

as on the LT1308. An

IN

TYPICAL APPLICATION

L1

4.7µH

V

+

C1
47µF

Li-Ion
CELL

C1: AVX TAJC476M010
C2: AVX TPSD227M006
D1: IR 10BQ015

IN

LBI

LT1308B

SHDNSHUTDOWN

V

C

47k

100pF

L1: MURATA LQH6C4R7
*R1: 887k FOR V

Figure 1. LT1308B Single Li-Ion Cell to 5V/1A DC/DC Converter

SW

LBO

GND

OUT

FB

D1

= 12V

R1*
309k

R2
100k

5V
1A

+

C2
220µF

1308A/B F01a

95

90

85

80

75

70

EFFICIENCY (%)

65

60

55

50

1

Converter Effi ciency

VIN = 3.6V

VIN = 1.5V

10 100 1000

LOAD CURRENT (mA)

VIN = 4.2V

VIN = 2.5V

1308A/B F01b

1308abfb

1

LT1308A/LT1308B

ABSOLUTE MAXIMUM RATINGS

VIN, SHDN, LBO Voltage ........................................... 10V

SW Voltage .............................................. –0.4V to 36V

FB Voltage ......................................................... V

Voltage ................................................................. 2V

V

C

+ 1V

IN

LBI Voltage ................................................. –0.1V to 1V

Current into FB Pin ............................................... ±1mA

PIN CONFIGURATION

TOP VIEW

V

1

C

FB

2

SHDN

3

GND

4

8-LEAD PLASTIC SO

T

= 125°C, θJA = 190°C/W

JMAX

S8 PACKAGE

LBO

8

LBI

7

V

6

IN

SW

5

(Note 1)

Operating Temperature Range

Commercial............................................. 0°C to 70°C

Extended Commerial (Note 2) ............ –40°C to 85°C

Industrial ........................................... – 40°C to 85°C

Storage Temperature Range .................. –65°C to 150°C

Lead Temperature (Soldering, 10 sec) ................. 300°C

TOP VIEW

1

V

C

2

FB

3

SHDN

4

GND

5

GND

6

GND

7

GND

F PACKAGE

14-LEAD PLASTIC TSSOP

(NOTE 6)

= 125°C, θJA = 80°C/W

T

JMAX

LBO

14

LBI

13

V

12

IN

V

11

IN

SW

10

SW

9

SW

8

OBSOLETE, FOR INFORMATION PURPOSES ONLY

Contact Linear Technology for Potential Replacement

ORDER INFORMATION

LEAD FREE FINISH TAPE AND REEL PART MARKING PACKAGE DESCRIPTION TEMPERATURE RANGE

LT1308ACS8#PBF LT1308ACS8#TRPBF 1308A 8-Lead Plastic SO 0°C to 70°C

LT1308AIS8#PBF LT1308AIS8#TRPBF 1308AI 8-Lead Plastic SO –40°C to 85°C

LT1308BCS8#PBF LT1308BCS8#TRPBF 1308B 8-Lead Plastic SO 0°C to 70°C

LT1308BIS8#PBF LT1308BIS8#TRPBF 1308BI 8-Lead Plastic SO –40°C to 85°C

LT1308ACF#PBF LT1308ACF#TRPBF LT1308ACF 14-Lead Plastic TSSOP 0°C to 70°C

LT1308BCF#PBF LT1308BCF#TRPBF LT1308BCF 14-Lead Plastic TSSOP 0°C to 70°C

LEAD BASED FINISH TAPE AND REEL PART MARKING PACKAGE DESCRIPTION TEMPERATURE RANGE

LT1308ACS8 LT1308ACS8#TR 1308A 8-Lead Plastic SO 0°C to 70°C

LT1308AIS8 LT1308AIS8#TR 1308AI 8-Lead Plastic SO –40°C to 85°C

LT1308BCS8 LT1308BCS8#TR 1308B 8-Lead Plastic SO 0°C to 70°C

LT1308BIS8 LT1308BIS8#TR 1308BI 8-Lead Plastic SO –40°C to 85°C

LT1308ACF LT1308ACF#TR LT1308ACF 14-Lead Plastic TSSOP 0°C to 70°C

LT1308BCF LT1308BCF#TR LT1308BCF 14-Lead Plastic TSSOP 0°C to 70°C

Consult LTC Marketing for parts specifi ed with wider operating temperature ranges.
For more information on lead free part marking, go to:

This product is only offered in trays. For more information go to:

http://www.linear.com/leadfree/

http://www.linear.com/packaging/

1308abfb

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LT1308A/LT1308B

ELECTRICAL CHARACTERISTICS

The l denotes the specifi cations which apply over the full operating temperature
range, otherwise specifi cations are at T

= 25°C. Commercial Grade 0°C to 70°C. VIN = 1.1V, V

A

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

I

Q

Quiescent Current Not Switching, LT1308A

Switching, LT1308B
V

= 0V (LT1308A/LT1308B)

SHDN

V

FB

I

B

Feedback Voltage

FB Pin Bias Current (Note 3)

Reference Line Regulation 1.1V ≤ V

2V ≤ V

IN

≤ 10V

IN

≤ 2V

Minimum Input Voltage 0.92 1 V

g

A

f

m

V

OSC

Error Amp Transconductance ∆I = 5µA 60 µmhos

Error Amp Voltage Gain 100 V/V

Switching Frequency VIN = 1.2V

Maximum Duty Cycle

Switch Current Limit Duty Cycle = 30% (Note 4) 2 3 4.5 A

Switch V

CESAT

Burst Mode Operation Switch Current Limit

ISW = 2A (25°C, 0°C), VIN = 1.5V
I

= 2A (70°C), VIN = 1.5V

SW

= 2.5V, Circuit of Figure 1 400 mA

V

IN

(LT1308A)

Shutdown Pin Current V

SHDN

V

SHDN

V

SHDN

= 1.1V
= 6V
= 0V

LBI Threshold Voltage

LBO Output Low I

LBO Leakage Current V

LBI Input Bias Current (Note 5) V

= 50µA

SINK

= 250mV, V

LBI

= 150mV 33 100 nA

LBI

LBO

= 5V

Low-Battery Detector Gain 3000 V/V

Switch Leakage Current V

SW

= 5V

= VIN, unless otherwise noted.

SHDN

140

2.5

0.01

l

1.20 1.22 1.24 V

l

l

27 80 nA

0.03

0.01

l

500 600 700 kHz

l

82 90 %

290
330

l
l
l

196

l

194

l

l

l

2

20

0.01

200
200

0.1 0.25 V

0.01 0.1 µA

0.01 10 µA

240

4
1

0.4

0.2

350
400

5

35

0.1

204
206

µA

mA

µA

%/V
%/V

mV
mV

µA
µA
µA

mV
mV

The l denotes the specifi cations which apply over the full operating temperature range, otherwise specifi cations are at TA = 25°C.
Industrial Grade –40°C to 85°C. VIN = 1.2V, V

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

I

Q

V

FB

I

B

g

m

A

V

Quiescent Current Not Switching, LT1308A

Feedback Voltage

FB Pin Bias Current (Note 3)

Reference Line Regulation 1.1V ≤ V

Minimum Input Voltage 0.92 1 V

Error Amp Transconductance ∆I = 5µA 60 µmhos

Error Amp Voltage Gain 100 V/V

= VIN, unless otherwise noted.

SHDN

Switching, LT1308B
V

= 0V (LT1308A/LT1308B)

SHDN

≤ 2V

IN

2V ≤ V

≤ 10V

IN

l
l
l

l

1.19 1.22 1.25 V

l

l
l

140

240

2.5

0.01

27 80 nA

0.05

0.01

0.4

0.2

4
1

mA

µA

%/V
%/V

1308abfb

µA

3

LT1308A/LT1308B

The l denotes the specifi cations which apply over the full operating temperature

ELECTRICAL CHARACTERISTICS

range, otherwise specifi cations are at TA = 25°C. Industrial Grade –40°C to 85°C. VIN = 1.2V, V

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

f

OSC

Note 1: Stresses beyond those listed under Absolute Maximum Ratings
may cause permanent damage to the device. Exposure to any Absolute
Maximum Rating condition for extended periods may affect device
reliability and lifetime.

Note 2: The LT1308ACS8, LT1308ACF, LT1308BCS8 and LT1308BCF are
designed, characterized and expected to meet the industrial temperature
limits, but are not tested at –40°C and 85°C. I grade devices are
guaranteed over the –40°C to 85°C operating temperature range.

Note 3: Bias current fl ows into FB pin.

Switching Frequency

Maximum Duty Cycle

Switch Current Limit Duty Cycle = 30% (Note 4) 2 3 4.5 A

Switch V

CESAT

Burst Mode Operation Switch Current Limit

ISW = 2A (25°C, –40°C), VIN = 1.5V
I

= 2A (85°C), VIN = 1.5V

SW

= 2.5V, Circuit of Figure 1 400 mA

V

IN

(LT1308A)

Shutdown Pin Current V

SHDN

V

SHDN

V

SHDN

= 1.1V
= 6V
= 0V

LBI Threshold Voltage

LBO Output Low I

LBO Leakage Current V

LBI Input Bias Current (Note 5) V

= 50µA

SINK

= 250mV, V

LBI

= 150mV 33 100 nA

LBI

LBO

= 5V

Low-Battery Detector Gain 3000 V/V

Switch Leakage Current V

SW

= 5V

Note 4: Switch current limit guaranteed by design and/or correlation to
static tests. Duty cycle affects current limit due to ramp generator (see
Block Diagram).

Note 5: Bias current fl ows out of LBI pin.
Note 6: Connect the four GND pins (Pins 4–7) together at the device.

Similarly, connect the three SW pins (Pins 8–10) together and the two V
pins (Pins 11, 12) together at the device.

= VIN, unless otherwise noted.

SHDN

l

500 600 750 kHz

l

82 90 %

290
330

l
l

2

20

0.01

196

l

193

l

l

l

200
200

0.1 0.25 V

0.01 0.1 µA

0.01 10 µA

350
400

5

35

0.1

204
207

mV
mV

µA
µA
µA

mV
mV

IN

TYPICAL PERFORMANCE CHARACTERISTICS

LT1308B

3.3V Output Effi ciency

95

90

85

80

75

70

EFFICIENCY (%)

65

60

55

50

1 100 1000

VIN = 1.8V

10

LOAD CURRENT (mA)

VIN = 2.5V

VIN = 1.2V

1308A/B G01

LT1308A

3.3V Output Effi ciency

95

90

85

80

75

70

EFFICIENCY (%)

65

60

55

50

VIN = 1.8V

1 100 1000

10

LOAD CURRENT (mA)

VIN = 2.5V

VIN = 1.2V

4

1308A/B G02

LT1308A
5V Output Effi ciency

95

90

VIN = 3.6V

85

80

75

70

EFFICIENCY (%)

65

60

55

50

1

VIN = 4.2V

VIN = 1.5V

10 100 1000

LOAD CURRENT (mA)

VIN = 2.5V

1308A/B G03

1308abfb

TYPICAL PERFORMANCE CHARACTERISTICS

LT1308A/LT1308B

LT1308B
12V Output Effi ciency

90

85

80

75

70

65

EFFICIENCY (%)

60

55

50

1 100 1000

VIN = 5V

VIN = 3.3V

10

LOAD CURRENT (mA)

SHDN Pin Bias Current vs Voltage

50

40

30

20

SHDN PIN CURRENT (µA)

10

0

2

0

SHDN PIN VOLTAGE (V)

6

4

8

1308A/B G04

–40°C

25°C

85°C

1308 G07

10

Switch Current Limit vs
Duty Cycle

4.0

3.5

3.0

CURRENT LIMIT (A)

2.5

2.0
20

0

40

DUTY CYCLE (%)

FB, LBI Bias Current vs
Temperature

80

70

60

50

40

30

BIAS CURRENT (nA)

20

10

0

–50 –25

LBI

05025

TEMPERATURE (°C)

Switch Saturation Voltage
vs Current

500

400

1.5

85°C

–40°C

2.0

1308 G06

(mV)

300

CESAT

200

SWITCH V

100

0

60

80

100

1308 • G05

0

0.5
SWITCH CURRENT (A)

25°C

1.0

Low Battery Detector Reference
vs Temperature

203

202

201

200

(mV)

199

REF

V

FB

75

100

1308 • G08

198

197

196

195

–50 –25

05025

TEMPERATURE (°C)

75

100

1308 • G09

Oscillator Frequency vs
Temperature

800

750

700

650

600

550

FREQUENCY (kHz)

500

450

400

–50 –2.5

05025

TEMPERATURE (°C)

75

1308 • G10

100

LT1308A Quiescent Current vs
Temperature

180

170

160

150

140

130

120

QUIESCENT CURRENT (µA)

110

100

–50 –25

05025

TEMPERATURE (°C)

75

1308 • G11

100

Feedback Pin Voltage vs
Temperature

1.25

1.24

1.23

1.22

(V)

FB

V

1.21

1.20

1.19

1.18
–50 –25

05025

TEMPERATURE (°C)

75

1308abfb

100

1308 • G12

5

LT1308A/LT1308B

PIN FUNCTIONS

VC (Pin 1/Pin 1): Compensation Pin for Error Amplifi er.
Connect a series RC from this pin to ground. Typical values
are 47k and 100pF. Minimize trace area at V

FB (Pin 2/Pin 2): Feedback Pin. Reference voltage is

1.22V. Connect resistive divider tap here. Minimize trace
area at FB. Set V

V
SHDN (Pin 3/Pin 3): Shutdown. Ground this pin to turn

off switcher. To enable, tie to 1V or more. SHDN does
not need to be at V

GND (Pin 4/Pins 4, 5, 6, 7): Ground. Connect directly
to local ground plane. Ground plane should enclose all
components associated with the LT1308. PCB copper
connected to these pins also functions as a heat sink. For
the TSSOP package, connect all pins to ground copper
to get the best heat transfer. This keeps chip heating to
a minimum.

= 1.22V(1 + R1/R2).

OUT

according to:

OUT

IN

(SO/TSSOP)

to enable the device.

.

C

SW (Pin 5/Pins 8, 9, 10): Switch Pins. Connect induc­tor/diode here. Minimize trace area at these pins to keep
EMI down. For the TSSOP package, connect all SW pins
together at the package.

(Pin 6/Pins 11, 12): Supply Pins. Must have local

V

IN

bypass capacitor right at the pins, connected directly to
ground. For the TSSOP package, connect both V
together at the package.

LBI (Pin 7/Pin 13): Low-Battery Detector Input. 200mV
reference. Voltage on LBI must stay between –100mV
and 1V. Low-battery detector does not function with
SHDN pin grounded. Float LBI pin if not used.

LBO (Pin 8/Pin 14): Low-Battery Detector Output. Open
collector, can sink 50µA. A 220k pull-up is recommend­ed. LBO is high impedance when SHDN is grounded.

pins

IN

6

1308abfb

BLOCK DIAGRAMS

V

IN

6

R5
40k

V

OUT

R1
(EXTERNAL)

FB

R2
(EXTERNAL)

FB

Q1

2

R6
40k

Q2
×10

R3
30k

R4
140k

V

IN

+

g

m

–

AMPLIFIER

RAMP

GENERATOR

600kHz

OSCILLATOR

ERROR

V

IN

Q4

V

C

1

2V

BE

+

*

BIAS

–

A1

COMPARATOR

–

+

Σ

+

*HYSTERESIS IN LT1308A ONLY

+

A2

LT1308A/LT1308B

SHUTDOWN

LBI

7

+

ENABLE

–

200mV

R

FF

Q

S

A4

DRIVER

+

A = 3

–

SHDN

3

LBO

8

SW

5

4

GND

Q3

0.03

1308 BD2a

V

OUT

R1
(EXTERNAL)

R2
(EXTERNAL)

Figure 2a. LT1308A/LT1308B Block Diagram (SO-8 Package)

V

IN

+

*

–

A1

COMPARATOR

–

+

A2

2V

BE

SHDN

3

LBO

14

SW

8SW9

SW

10

Q3

ENABLE

200mV

R

SHUTDOWN

LBI

13

+

–

A4

FF

Q

S

DRIVER

+

A = 3

0.03Ω

–

4

GND5GND6GND

GND

7

1308 BD2b

V

11

IN

V

IN

12

R5
40k

R6
40k

V

IN

+

g

m

Q4

V

C

1

–

ERROR

FB

FB

Q1

2

Q2
×10

R3
30k

R4
140k

AMPLIFIER

RAMP

GENERATOR

BIAS

+

Σ

+

600kHz

OSCILLATOR

*HYSTERESIS IN LT1308A ONLY

Figure 2b. LT1308A/LT1308B Block Diagram (TSSOP Package)

1308abfb

7