ISL62881HRTZ-T Intersil, ISL62881HRTZ-T Datasheet - Page 20

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ISL62881HRTZ-T

Manufacturer Part Number
ISL62881HRTZ-T
Description
IC REG PWM SGL PHASE 28TQFN
Manufacturer
Intersil
Datasheet
1.ISL62881BHRTZ-T.pdf (35 pages)

Specifications of ISL62881HRTZ-T

Applications
Controller, Intel IMVP-6.5™
Voltage - Input
5 V ~ 25 V
Number Of Outputs
1
Voltage - Output
0.0125 V ~ 1.5 V
Operating Temperature
-10°C ~ 100°C
Mounting Type
*
Package / Case
*
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
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Part Number:
ISL62881HRTZ-T
Manufacturer:
UCHIHASHI
Quantity:
15 512
Company:
Meier Automation Equipment Co., Limited Meier Automation Equipment Co., Limited
Part Number:
ISL62881HRTZ-T
Manufacturer:
INTERSIL
Quantity:
20 000
form a a filter for noise attenuation. Equations 13
through 15 gives V
Transfer function A
Current-sensing resistor R
significant variation over-temperature, so there is no
need for the NTC network.
The recommended values are R
C
Overcurrent Protection
Referring to Equation 1 and Figures 12, 13 and 19,
resistor R
the internal OCP threshold. It is recommended to design
I
For example, the OCP threshold is 20µA. We will design
I
1.43x of the full load current.
For inductor DCR sensing, Equation 16 gives the DC
relationship of V
Substitution of Equation 16 into Equation 1 gives:
Therefore:
Substitution of Equation 8 and application of the OCP
condition in Equation 18 gives:
where I
corresponding droop current. For example, given
R
DCR = 1.1mΩ, I
Equation 19 gives R
For resistor sensing, Equation 20 gives the DC
relationship of V
I
V
V
R
V
A
ω
droop
R
droop
droop
n
sum
Cn
Cn
Cn
i
Rsen
Rsen
i
=
= 5600pF.
=
s ( )
=
=
----------------------------------------------------------------------------------------------------------------- -
--------------------------------------------------------------------- -
(
= 3.65kΩ, R
(
----------------------------------------------------
s ( )
R
=
2
R
R
R
without using the R
to be 14µA at full load, so the OCP trip level is
=
=
----------------------------------------- -
R
ntcnet
2R
omax
×
ntcs
ntcs
sen
---- -
R
2
ntcnet
---------------------------- -
R
R
=
i
(
----------------------------------------------------
i
R
R
ntcnet
sum
sen
×
sets the droop current I
R
---------------------- -
1
×
ntcs
ntcs
+
+
----------------------------------------- -
R
ntcnet
I
+
1
+
R
R
is the full load current, I
ntcnet
o
×
×
1
------------ -
ω
+
R
ntc
ntc
I
+
+
R
C
sns
×
o
R
sum
s
omax
cn
cn
ntcnet
R
R
s ( )
n
DCR
)
sum
+
p
ntc
ntc
(s) and I
×
(s) and I
Rsen
+
Cn
R
)
= 11kΩ, R
R
×
i
R
×
p
)
×
+
= 1.36kΩ.
p
A
(s) expressions:
= 14A and I
sum
×
I
×
droop
Rsen
DCR
R
+
(s) always has unity gain at DC.
I
R
o
p
R
p
sum
×
20
×
sen
comp
s ( )
o
DCR
o
DCR
(s).
×
(s).
ntcs
I
value will not have
×
o
I
sum
resistor.
×
droopmax
×
I
= 2.61kΩ, R
I
o
droopmax
omax
droop
= 1kΩ and
droopmax
. Table 3 shows
ISL62881, ISL62881B
= 14µA,
ntc
is the
= 10kΩ,
(EQ. 13)
(EQ. 14)
(EQ. 15)
(EQ. 16)
(EQ. 17)
(EQ. 18)
(EQ. 19)
(EQ. 20)
Substitution of Equation 20 into Equation 1 gives
Equation 21:
Therefore:
Substitution of Equation 22 and application of the OCP
condition in Equation 18 gives:
where I
corresponding droop current. For example, given
R
Equation 23 gives R
A resistor from COMP to GND can adjust the internal OCP
threshold, providing another dimension of fine-tune
flexibility. Table 3 shows the detail. It is recommended to
scale I
approximately the desired OCP level, then use R
fine tune the OCP level if necessary.
Load Line Slope
Refer to Figure 12.
For inductor DCR sensing, substitution of Equation 17
into Equation 2 gives the load line slope expression in
Equation 24.
For resistor sensing, substitution of Equation 21 into
Equation 2 gives the load line slope expression in
Equation 25:
Substitution of Equation 18 and rewriting Equation 24,
or substitution of Equation 22 and rewriting Equation 25
gives the same result in Equation 26:
One can use the full load condition to calculate R
For example, given I
LL = 7mΩ, Equation 26 gives R
It is recommended to start with the R
calculated by Equation 26, and fine tune it on the actual
board to get accurate load line slope. One should record
the output voltage readings at no load and at full load for
load line slope calculation. Reading the output voltage at
lighter load instead of full load will increase the
measurement error.
R
R
LL
LL
I
R
droop
sen
droop
i
i
=
=
=
=
2R
--------------------------- -
= 1mΩ, I
2R
---------------------------------------
V
------------------ -
V
------------------ -
droop
=
droop
droop
I
I
=
droop
omax
sen
droopmax
sen
I
I
o
o
---- -
R
2
----------------
I
droop
i
×
×
×
I
o
R
I
such that the default OCP threshold gives
=
=
I
o
omax
is the full load current, I
sen
omax
2R
---------------------- -
2R
------------------------------------------ -
×
LL
droop
sen
×
R
I
i
o
= 14A and I
i
R
×
omax
= 2kΩ.
i
R
×
droop
----------------------------------------- -
R
ntcnet
= 14A, I
R
ntcnet
+
droop
droopmax
R
sum
droopmax
= 7kΩ.
×
droopmax
droop
DCR
= 14µA,
value
= 14µA and
March 9, 2011
is the
droop
comp
(EQ. 21)
(EQ. 22)
(EQ. 23)
(EQ. 24)
(EQ. 25)
(EQ. 26)
FN6924.2
.
to

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