YB1680 Datasheet, PDF(8/10 Page) YOBON TECHNOLOGIES,INC. – 1.5MHz, 600mA Synchronous Step-Down Converter

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YB1680 Datasheet, PDF (8/10 Pages) YOBON TECHNOLOGIES,INC. – 1.5MHz, 600mA Synchronous Step-Down Converter

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YB1680

1.5MHz, 600mA Synchronous Step-Down Converter

turning the main switch off and keeping it

off until the fault is no longer present.

Idle Mode Operation

At very light loads, the YB1680

automatically enters Idle Mode. In the Idle

Mode, the inductor current may reach zero

or reverse on each pulse. The PWM control

loop will automatically skip pulses to

maintain output regulation. The bottom

MOSFET is turned off by the current

reversal comparator, IZERO, and the switch

voltage will ring. This is discontinuous

mode operation, and is normal behavior for

the switching regulator.

Dropout Operation

When the input voltage decreases toward

the value of the output voltage, the YB1680

allows the main switch to remain on for

more than one switching cycle and

increases the duty cycle until it reaches

100%. The output voltage then is the input

voltage minus the voltage drop across the

main switch and the inductor. At low input

supply voltage, the RDS(ON) of the

P-Channel MOSFET increases, and the

efficiency of the converter decreases.

Caution must be exercised to ensure the

heat dissipated not to exceed the maximum

junction temperature of the IC.

switch and synchronous rectifier. The slope

compensation signal reduces the peak

inductor current as a function of the duty

cycle to prevent sub-harmonic oscillations

at duty cycles greater than 50%.

Conversely the current limit increases as

the duty cycle decreases.

Application Information

Setting the Output Voltage

Figure 1 above shows the basic application

circuit with YB1680 adjustable output

version. The external resistor sets the

output voltage according to the following

equation:

R1=300Kâ¦ for all outputs; R2=300Kâ¦ for

VOUT=1.2V, R2=200Kâ¦ for VOUT=1.5V,

R2=150Kâ¦ for VOUT=1.5V, and R=95.3Kâ¦

for VOUT=2.5V.

Inductor Selection

For most designs, the YB1680 operates

with inductors of 1Î¼H to 4.7Î¼H. Low

inductance values are physically smaller

but require faster switching, which results in

some efficiency loss. The inductor value

can be derived from the following equation:

Maximum Load Current

The YB1680 will operate with input supply

voltage as low as 2.5V, however, the

maximum load current decreases at lower

input due to large IR drop on the main

Where ÎIL is inductor Ripple Current. Large

value inductors lower ripple current and

small value inductors result in high ripple

currents. Choose inductor ripple current

YB1680 Rev.1.0

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