SP6120HV Datasheet, PDF(15/22 Page) Sipex Corporation – High Voltage, Synchronous ,Buck Controller Ideal for 2A to 20A, High Performance, DC-DC Power Converters

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SP6120HV Datasheet, PDF (15/22 Pages) Sipex Corporation – High Voltage, Synchronous ,Buck Controller Ideal for 2A to 20A, High Performance, DC-DC Power Converters

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large enough so that the output voltage is held up

while the inductor current ramps up or down to

the value corresponding to the new load current.

Additionally, the ESR in the output capacitor

causes a step in the output voltage equal to the

ESR value multiplied by the change in load

current. Because of the fast transient response

and inherent 100% and 0% duty cycle capabil-

ity provided by the SP6120HV when exposed to

output load transient, the output capacitor is

typically chosen for ESR, not for capacitance

value.

The output capacitorâs ESR, combined with the

inductor ripple current, is typically the main

contributor to output voltage ripple. The maxi-

mum allowable ESR required to maintain a

specified output voltage ripple can be calculated

by:

where:

RESR

â¤

âVOUT

I PP

âVOUT = peak to peak output voltage ripple

IPP = peak to peak inductor ripple current

The total output ripple is a combination of the

ESR and the output capacitance value and can

be calculated as follows:

( ) âVOUT =

IPP (1 â D)

COUTFS

+ (IPPRESR)2

where:

FS = switching frequency

D = duty cycle

COUT = output capacitance value

Recommended capacitors that can be used ef-

fectively in SP6120HV applications are: low-

ESR aluminum electrolytic capacitors, OS-CON

capacitors that provide a very high performance/

size ratio for electrolytic capacitors and low-

ESR tantalum capacitors. AVX TPS series and

Kemet T510 surface mount capacitors are popu-

lar tantalum capacitors that work well in

SP6120HV applications. POSCAP from Sanyo

is a solid electrolytic chip capacitor that has low

ESR and high capacitance. For the same ESR

value, POSCAP has lower profile compared

with tantalum capacitor.

Input Capacitor Selection

The input capacitor should be selected for ripple

current rating, capacitance and voltage rating.

The input capacitor must meet the ripple current

requirement imposed by the switching current.

In continuous conduction mode, the source cur-

rent of the high-side MOSFET is approximately

a square wave of duty cycle VOUT/VIN. Most of

this current is supplied by the input bypass

capacitors. The RMS value of input capacitor

current is determined at the maximum output

current and under the assumption that the peak

to peak inductor ripple current is low, it is given

by:

ICIN(rms) = IOUT(max) âD(1 - D)

The worse case occurs when the duty cycle D is

50% and gives an RMS current value equal to

IOUT /2. Select input capacitors with adequate

ripple current rating to ensure reliable opera-

tion.

The power dissipated in the input capacitor is:

P = I R 2

C IN

CIN ( rms) ESR( CIN)

This can become a significant part of power

losses in a converter and hurt the overall energy

transfer efficiency.

The input voltage ripple primarily depends on

the input capacitor ESR and capacitance. Ignor-

ing the inductor ripple current, the input voltage

ripple can be determined by:

â VIN

= I out(max)

RE SR(CIN )

I OUT (MAX V) OUT (VIN

FSC INVIN 2

âVOUT )

The capacitor type suitable for the output ca-

pacitors can also be used for the input capaci-

tors. However, exercise extra caution when tan-

talum capacitors are considered. Tantalum ca-

pacitors are known for catastrophic failure when

exposed to surge current, and input capacitors

Date: 5/25/04

SP6120HV Low Voltage, Synchronous Buck Controller

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