R1230D Datasheet, PDF(9/20 Page) RICOH electronics devices division – PWM/VFM Step-down DC/DC Converter with Synchronous Rectifier

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R1230D Datasheet, PDF (9/20 Pages) RICOH electronics devices division – PWM/VFM Step-down DC/DC Converter with Synchronous Rectifier

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q If the mode is switched over into PWM mode from VFM mode during the operation, change the mode at light load

current. If the load current us large, output voltage may decline.

q Reinforce the VIN, PGND, and VOUT lines sufficiently. Large switching current may flow in these lines. If the

impedance of VIN and PGND lines is too large, the internal voltage level in this IC may shift caused by the

switching current, and the operation might be unstable.

â° The performance of power source circuits using these ICs extremely depends upon the peripheral circuits.

Pay attention in the selection of the peripheral circuits. In particular, design the peripheral circuits in a way that the

values such as voltage, current, and power of each component, PCB patterns and the IC do not exceed their

respected rated values.

s OPERATION of step-down DC/DC converter and Output Current

The step-down DC/DC converter charges energy in the inductor when Lx transistor is ON, and discharges the energy

from the inductor when Lx transistor is OFF and controls with less energy loss, so that a lower output voltage than the

input voltage is obtained. The operation will be explained with reference to the following diagrams:

IOUT

VIN

Pch Tr

Nch Tr

VOUT

ILmin

ILmax

topen

ton

toff

T=1/fosc

Step 1:

Step 2:

Step 3:

P-channel Tr. turns on and current IL (=i1) flows, and energy is charged into CL. At this moment, IL

increases from ILmin(=0) to reach ILmax in proportion to the on-time period(ton) of P-channel Tr.

When P-channel Tr. turns off, Synchronous rectifier N-channel Tr. turns on in order that L maintains IL at

ILmax, and current IL (=i2) flows.

IL (=i2) decreases gradually and reaches IL=ILmin=0 after a time period of topen, and N-channel Tr. turns

off. Provided that in the continuous mode, next cycle starts before IL becomes to 0 because toff time is not

enough. In this case, IL value increases from this ILmin(>0).

In the case of PWM control system, the output voltage is maintained by controlling the on-time period (ton), with the

oscillator frequency (fosc) being maintained constant.

q Discontinuous Conduction Mode and Continuous Conduction Mode

The maximum value (ILmax) and the minimum value (ILmin) of the current flowing through the inductor are the

same as those when P-channel Tr. turns on and off.

The difference between ILmax and ILmin, which is represented by âI;

âI = ILmax â ILmin = VOUT Ã topen / L = (VIN-VOUT)Ãton/LâââEquation 1

Wherein T=1/fosc=ton+toff

duty (%)=ton/TÃ100=tonÃfoscÃ100

topen â¤ toff

In Equation 1, VOUTÃtopen/L and (VIN-VOUT)Ãton/L respectively show the change of the current at âONâ, and the

change of the current at âOFFâ.

When the output current (IOUT) is relatively small, topen<toff as illustrated in the above diagram. In this case, the

energy is charged in the inductor during the time period of ton and is discharged in its entirely during the time period of

toff, therefore ILmin becomes to zero (ILmin=0). When Iout is gradually increased, eventually, topen becomes to toff

(topen=toff), and when IOUT is further increased, ILmin becomes larger than zero (ILmin>0). The former mode is

referred to as the discontinuous mode and the latter mode is referred to as continuous mode.

In the continuous mode, when Equation 1 is solved for ton and assumed that the solution is tonc,

Rev. 1.12

-9-

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