ISL62773 Datasheet, PDF(30/37 Page) Intersil Corporation – Multiphase PWM Regulator for AMD Fusion™ Desktop CPUs Using SVI 2.0

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ISL62773

Resistor Current-Sensing Network

PHASE1 PHASE2 PHASE3

DCR

RSEN RSEN RSEN

RSUM

VCN CN

ISUM+

ISUM-

FIGURE 28. RESISTOR CURRENT-SENSING NETWORK

Figure 28 shows the resistor current-sensing network for a

3-phase solution. Each inductor has a series current sensing

resistor, Rsen. Rsum and Ro are connected to the Rsen pads to

accurately capture the inductor current information. The Rsum

and Ro resistors are connected to capacitor Cn. Rsum and Cn

form a filter for noise attenuation. Equations 23 thru 25 give the

VCn(s) expression.

VCnï¨sï©

-R----s---e---n--

ï´

ï¨

sï©

ï´

ARs

nï¨

ï©

(EQ. 23)

ARsenï¨sï©

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

------s------

ï·sns

(EQ. 24)

ï·Rsen

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

R-----s---u---m---

ï´

(EQ. 25)

Transfer function ARsen(s) always has unity gain at DC.

Current-sensing resistor Rsen value does not have significant

variation over-temperature, so there is no need for the NTC

network.

The recommended values are Rsum = 1kï and Cn = 5600pF.

Overcurrent Protection

Refer to Equation 1 on page 17 and Figures 22, 26 and 28;

resistor Ri sets the droop current, Idroop. Tables 1 and 2 show the

internal OCP threshold. It is recommended to design Idroop

without using the Rcomp resistor.

For example, the OCP threshold is 1.5V on the IMON pin. This

translates to 45ÂµA of Isum current or 56.25ÂµA of droop current.

Idroop is designed to be 45ÂµA at full load, so the OCP trip level is

1.25x of the full load current.

For inductor DCR sensing, Equation 26 gives the DC relationship

of Vcn(s) and Io(s):

Substitution of Equation 26 into Equation 1 gives Equation 27:

Therefore:

ï¦

ï¶

VCn

ï§

ï¨

-----------R-----n---t--c---n----e---t-----------

cne

-R----s---u---m---

ï´

D-----CN-----R---ï·ï·ï·

ï¸

ï´ Io

(EQ. 26)

Idroop

--1---

ï´

------------R----n---t--c---n----e---t-----------

cne

-R----s---u---m---

ï´

D-----C-----R---

ï´

(EQ. 27)

---------------R-----n---t--c---n----e---t---ï´-----D----C-----R------ï´-----I--o----------------

ï´

ï¦

ï¨

-R----s-N--u---m---ï¸ï¶

ï´

Idroop

(EQ. 28)

Substitution of Equation 18 and application of the OCP condition

in Equation 28 gives Equation 29:

----------------ï¨-----RR---------nn-------tt----cc------ss--------++----------RR--------nn--------tt---cc-------ï©--+----ï´-----R-----R----p-----p------ï´-----D-----C----R------ï´-----I--o---m-----a---x----------------

ï´

ï¦

ï§

ï¨

ï¨---R----n----t--c---s----+-----R----n----t-c----ï©---ï´-----R----p--

Rntcs + Rntc + Rp

-R----s-N--u---m---ï¸ï·ï¶

ï´

Idroopmax

(EQ. 29)

where Iomax is the full load current and Idroopmax is the

corresponding droop current. For example, given N = 3,

Rsum = 3.65kï, Rp = 11kï, Rntcs = 2.61kï, Rntc = 10kï,

DCR = 0.9mï, Iomax = 65A and Idroopmax = 45ÂµA. Equation 29

gives Ri = 359ï.

For resistor sensing, Equation 30 gives the DC relationship of

Vcn(s) and Io(s).

VCn

-R----s---e---n--

ï´

(EQ. 30)

Substitution of Equation 30 into Equation 1 gives Equation 31:

Idroop

--1---

ï´

R-----s---e---n--

ï´

(EQ. 31)

Therefore:

--R----s---e----n----ï´-----I--o--

N ï´ Idroop

(EQ. 32)

Substitution of Equation 32 and application of the OCP condition

in Equation 28 gives Equation 33:

Ri = N--R----ï´s---e--I--nd---r-ï´--o---oI--o-p--m--m---a-a--x--x-

(EQ. 33)

where Iomax is the full load current and Idroopmax is the

corresponding droop current. For example, given N = 3,

Rsen = 1mï, Iomax = 65A and Idroopmax = 45ÂµA, Equation 33

gives Ri = 481ïï®

Load Line Slope

See Figure 14 for load-line implementation.

For inductor DCR sensing, substitution of Equation 27 into

Equation 2 gives the load-line slope expression in Equation 34:

-V----d---r--o----o---p-

R-----d---r---o---o---p- ï´ -----------R-----n---t--c---n----e---t----------- ï´ D-----C-----R---

Rntcnet

-R----s---u---m---

(EQ. 34)

For resistor sensing, substitution of Equation 31 into Equation 2

gives the load line slope expression in Equation 35:

-V----d---r--o----o---p-

R-----s---e---n-----ï´-----R----d----r--o---o---p--

N ï´ Ri

(EQ. 35)

March 7, 2012

FN8263.0

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