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DEMO MANUAL DC252

DESIGN-READY SWITCHER

LTC1736 5-Bit VID Constant

Frequency Synchronous DC/DC Converter

, LTC and LT are registered trademarks of Linear Technology Corporation.

DESCRIPTIO

U

PERFOR A CE SU

ARY

U

W

W

W

Burst Mode and OPTI-LOOP are trademarks of Linear Technology Corporation.

Demonstration Circuit DC252 is designed for mobile 5-bit
VID-programmed notebook CPU applications using the
LTC

®

1736 switching regulator controller. A high perfor-

mance, constant frequency current mode architecture
generates a precise low voltage CPU core supply. Protec-
tion features include an externally defeatable overcurrent
latchoff and internal current foldback for overload condi-
tions. A soft-latched crowbar monitors the output voltage
for overvoltage protection. OPTI-LOOP

TM

compensation

allows the transient response to be optimized over a wide
range of output capacitance and ESR values. The circuit
was designed for a 5V to 24V input range but allows a 4.5V
to 28V range (limited by the external MOSFETs). Strong
output drivers easily handle large power MOSFETs effi-

ciently. Output voltages can be configured according to
Intel mobile VID standards of 0.9V to 2.0V. An internal
power-good circuit monitors the output voltage for out-of-
regulation conditions. External frequency synchronization
is provided, as are three modes of operation: Burst Mode

TM

operation to reduce switching losses and maintain high
operating efficiencies, burst inhibit/forced continuous
mode and a low noise pulse-skipping mode that provides
constant frequency operation down to 1% maximum load
currents with low quiescent current. This results in a
power supply that has very high efficiency, low ripple and
fast transient response.

Gerber files for this circuit board

are available. Call the LTC factory.

PARAMETER

CONDITIONS

VALUE

Input Voltage Range

(Maximum Input Voltage Limited By External MOSFET and Input Capacitor)

5V to 24V

Output

Output Voltage (Programmed with a 5-Bit Mobile VID Code)

0.9V to 2.0V

Max Output Current (Continuous)

11.0A

Max Output Current (Peak)

12A

Typical Output Ripple Measured with 10MHz Bandwidth (Burst Mode Operation) I

O

= 100mA

45mV

P-P

Typical Output Ripple Measured with 10MHz Bandwidth (Continuous) I

O

= 5A

20mV

P-P

V

IN

Line Regulation 5V to 24V

0.002%/V

LOAD CURRENT (A)

10mA

100mA

1A

10A

EFFICIENCY (%)

252 TA01

100

90

80

70

60

50

40

V

IN

= 5V

EXTV

CC

= 5V

V

IN

= 24V

V

IN

= 15V

Efficiency

TYPICAL PERFOR A CE CHARACTERISTICS A D BOARD PHOTOS

U

U

W

Solder Side

Component Side

1
2
3
...
»

Summary of Contents for DC252

Page 1: ...tel mobile VID standards of 0 9V to 2 0V An internal power goodcircuitmonitorstheoutputvoltageforout of regulationconditions Externalfrequencysynchronization isprovided asarethreemodesofoperation Burs...

Page 2: ...OOST SW VIN INTVCC BG PGND EXTVCC VIDVCC VID4 VID3 VID2 LTC1736CG24 PACKAGE A D SCHE ATIC DIAGRA W U W 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 COSC RUN SS ITH FCB SGND PGOOD SEN...

Page 3: ...AVX 843 946 0362 CS1 1 08055A102MAT1A 1000pF 50V 5 NPO Capacitor AVX 843 946 0362 D1 1 CMDSH 3 BVR 30V 0 1A Schottky Diode CENTRAL 516 435 1110 D2 1 MBRS340T3 BVR 40V 3A Schottky Diode ON SEMICONDUCTO...

Page 4: ...JP2 OVERCURRENT LATCHOFF Installed Disabled Removed Enabled Active loads can cause confusing results Refer to the active load discussion in the Operation section QUICK START GUIDE I TRODUCTIO U U The...

Page 5: ...egulation input to output voltage regulation as well as load regulation tests In doing line regulation tests always look at the input voltage across the input terminals Remote Output Voltage Sensing R...

Page 6: ...hereferencevoltage of 0 8V Jumper JP3 connects pull up resistor R1 from INTVCC to the power good output E1 This jumper is provided to allow other pull up voltages to be used Make OPERATIO U sure the m...

Page 7: ...nhibit mode allows heavily discontinuous low audio noise constant frequency operation down to ap proximately 1 of maximum designed load current This mode results in the elimination of switching freque...

Page 8: ...minallevel whetherornot the short circuit latchoff circuit is enabled With the overcurrent latchoff enabled a slow ramp on the input voltage may cause the circuit to latch off Simply re cycle the run...

Page 9: ...eration To alleviate the active load problem during testing the active load should be initially programmed to a much lower current value until the switching regulator s soft start interval has passed...

Page 10: ...PTI OPERATIO U LOOP compensation allows the transient response to be optimized over a wide range of output capacitances and ESR values The availability of the ITH pin not only allows optimization of c...

Page 11: ...range of the feedback loop The output voltage settling behavior is related to the stability of the closed loop system and will demonstrate the actual overall supply performance CapacitorCC2providesso...

Page 12: ...0 100 8 YES B 0 070 2 NO C 0 065 5 YES D 0 045 18 YES E 0 035 25 YES F 0 025 2 YES G 0 020 15 YES A A A A B B C C C D D D D D D E E G G G G G G G G G G G G G G G E E E E E E E E E E 10 PLCS E E E E E...

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