S-8540 Datasheet, PDF(10/36 Page) Seiko Instruments Inc – STEP-DOWN, 600 kHz PWM CONTROL or PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER

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S-8540 Datasheet, PDF (10/36 Pages) Seiko Instruments Inc – STEP-DOWN, 600 kHz PWM CONTROL or PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER

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STEP-DOWN, 600 kHz PWM CONTROL or PWM/PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER

S-8540/8541 Series

Rev.3.2_00

Â Operation

1. Switching control method

1. 1 PWM control (S-8540 Series)

The S-8540 series consists of pulse width modulation (PWM) DC/DC converters. In conventional

pulse frequency modulation (PFM) DC/DC converters, pulses are skipped when they operate at low

output load current, causing the variation in the ripple frequency and the increase in the ripple voltage of

the output voltage both of which constitute inherent drawbacks to those converters.

In the S-8540 series the pulse width varies in the range from 0 to 100% according to the load current,

yet ripple voltage produced by the switching can easily be removed by a filter since the switching

frequency is always constant. These converters thus provide a low-ripple voltage over wide range of

input voltage and load current. And it will be skippped to be low current consumption when the pulse

width is 0% or it is no load, input current voltage is high.

1. 2 PWM/PFM switchover control (S-8541 Series)

The S-8541 series is a DC-DC converter that automatically switches between a pulse width modulation

method (PWM) and a pulse frequency modulation method (PFM), depending on the load current, and

features low current consumption.

The S-8541 series operates under PWM control with the pulse width duty changing from 29 to 100%

when the output load current is high. On the other hand, when the output current is low, the S-8541

series operates under PFM control with the pulse width duty fixed at 29%, and pulses are skipped

according to the load current. The oscillation circuit thus oscillates intermittently so that the resultant

lower self current consumption prevents a reduction in the efficiency when the load current is low. The

switching point from PWM control to PFM control depends on the external devices (coil, diode, etc.),

input voltage, and output voltage. This series is an especially efficient DC-DC converter at an output

current of around 100 Î¼A.

Seiko Instruments Inc.

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