ISL6755 Datasheet, PDF(12/17 Page) Intersil Corporation – ZVS Full-Bridge PWM Controller with Average Current Limit

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ISL6755 Datasheet, PDF (12/17 Pages) Intersil Corporation – ZVS Full-Bridge PWM Controller with Average Current Limit

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ISL6755

voltage feedback error signal. Adding the external ramp to

the current feedback signal is the more popular method.

From the small signal current-mode model [1] it can be

shown that the naturally-sampled modulator gain, Fm,

without slope compensation, is

---------1----------

SnTsw

(EQ. 10)

where Sn is the slope of the sawtooth signal and Tsw is the

duration of the half-cycle. When an external ramp is added,

the modulator gain becomes:

(---S----n-----+-----S-1----e---)---T----s---w---

-------------1--------------

mcSnTsw

(EQ. 11)

where Se is slope of the external ramp and:

S-----e--

(EQ. 12)

The criteria for determining the correct amount of external

ramp can be determined by appropriately setting the

damping factor of the double-pole located at half the

oscillator frequency. The double-pole will be critically

damped if the Q-factor is set to 1, and over-damped for

Q > 1, and under-damped for Q < 1. An under-damped

condition can result in current loop instability.

------------------------1-------------------------

Ï(mc(1 â D) â 0.5)

(EQ. 13)

where D is the percent of on time during a half cycle. Setting

Q = 1 and solving for Se yields:

ââ

1-Ï-

0.5â â

------1-------

1âD

1â â

(EQ. 14)

Since Sn and Se are the on time slopes of the current ramp

and the external ramp, respectively, they can be multiplied

by Ton to obtain the voltage change that occurs during Ton.

1-Ï-

0.5â â

------1-------

1âD

1â â

(EQ. 15)

where Vn is the change in the current feedback signal during

the on time and Ve is the voltage that must be added by the

external ramp.

Vn can be solved for in terms of input voltage, current

transducer components, and output inductance yielding:

T----S----W--N----C-â---VT----O-â---L--â--O-R----C----S--

N-----S--

1-Ï-

0.5â â

(EQ. 16)

where RCS is the current sense burden resistor, NCT is the

current transformer turns ratio, LO is the output inductance,

VO is the output voltage, and Ns and Np are the secondary

and primary turns, respectively.

The inductor current, when reflected through the isolation

transformer and the current sense transformer to obtain the

current feedback signal at the sense resistor yields:

VCS

-N----S-----â---R-----C----S--

NP â NCT

D------â---T----S----W---

2LO

VIN

N-----S--

ââ

VOâ ââ â

(EQ. 17)

where VCS is the voltage across the current sense resistor

and IO is the output current at current limit.

Since the peak current limit threshold is 1.00V, the total

current feedback signal plus the external ramp voltage must

sum to this value.

Ve + VCS = 1

(EQ. 18)

Substituting Equations 16 and 17 into Equation 18 and

solving for RCS yields:

RCS

N-----P-----â---N-----C----T-

--------------------------1----------------------------

V-----O--

TSW

1Ï--

D-2--â â

Î©

(EQ. 19)

For simplicity, idealized components have been used for this

discussion, but the effect of magnetizing inductance must be

considered when determining the amount of external ramp

to add. Magnetizing inductance provides a degree of slope

compensation to the current feedback signal and reduces

the amount of external ramp required. The magnetizing

inductance adds primary current in excess of what is

reflected from the inductor current in the secondary.

ÎIP

-V----I--N-----â---D-----T----S----W---

(EQ. 20)

where VIN is the input voltage that corresponds to the duty

cycle D and Lm is the primary magnetizing inductance. The

effect of the magnetizing current at the current sense

resistor, RCS, is:

ÎVCS

Î-----I--P-----â---R----C----S--

NCT

(EQ. 21)

If ÎVCS is greater than or equal to Ve, then no additional

slope compensation is needed and RCS becomes:

RCS

--------------------------------------------------------------N----C----T---------------------------------------------------------------

N-----S--

D-----T----S----W---

2LO

N-----S--

ââ

VOâ â

V-----I--N-----â---D-----T----S---W----

(EQ. 22)

If ÎVCS is less than Ve, then Equation 19 is still valid for the

value of RCS, but the amount of slope compensation added

by the external ramp must be reduced by ÎVCS.

Adding slope compensation is accomplished in the ISL6755

using the CTBUF signal. CTBUF is an amplified

representation of the sawtooth signal that appears on the CT

pin. It is offset from ground by 0.4V and is 2x the peak-to-

peak amplitude of CT (0.4V to 4.4V). A typical application

FN6442.1

September 29, 2008

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