ISL97650ARTZ-T Intersil, ISL97650ARTZ-T Datasheet - Page 12
ISL97650ARTZ-T
Manufacturer Part Number
ISL97650ARTZ-T
Description
IC LCD SUPPLY HP 4CHN 36-TQFN
Manufacturer
Intersil
Datasheet
1.ISL97650ARTZ-TK.pdf
(20 pages)
Specifications of ISL97650ARTZ-T
Applications
LCD TV/Monitor
Current - Supply
250µA
Voltage - Supply
4 V ~ 14 V
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
36-TQFN
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ISL97650ARTZ-T
Manufacturer:
INTERSIL
Quantity:
20 000
Boost Inductor
The boost inductor is a critical part which influences the
output voltage ripple, transient response, and efficiency.
Values of 3.3µH to 10µH are to match the internal slope
compensation. The inductor must be able to handle the
following average and peak current:
Some inductors are recommended in Table 3.
Rectifier Diode (Boost Converter)
A high-speed diode is necessary due to the high switching
frequency. Schottky diodes are recommended because of
their fast recovery time and low forward voltage. The reverse
voltage rating of this diode should be higher than the
maximum output voltage. The rectifier diode must meet the
output current and peak inductor current requirements.
Table 4 is some recommendations for boost converter diode.
Output Capacitor
The output capacitor supplies the load directly and reduces
the ripple voltage at the output. Output ripple voltage
consists of two components: the voltage drop due to the
inductor ripple current flowing through the ESR of output
capacitor, and the charging and discharging of the output
capacitor.
For low ESR ceramic capacitors, the output ripple is
dominated by the charging and discharging of the output
capacitor. The voltage rating of the output capacitor should
be greater than the maximum output voltage.
I
I
V
LAVG
LPK
INDUCTOR
RIPPLE
4.55A
2.9A
DIODE
TABLE 4. BOOST CONVERTER RECTIFIER DIODE
3A
SS23
SL23
6.8µH/
6.8µH/
5.2µH/
=
PEAK
PEAK
TABLE 3. BOOST INDUCTOR RECOMMENDATION
=
PEAK
I
LAVG
------------ -
1 D
=
I
–
O
I
LPK
RECOMMENDATION
V
RATING
+
DIMENSIONS
30V/2A
30V/2A
10x10.1x3.8 Cooper
R
7.3x6.8x3.2
7.6x7.6x3.0
ΔI
--------
/I
2
×
AVG
L
(mm)
ESR
+
V
----------------------- -
PACKAGE
O
V
TDK
Sumida
Bussmann
SMB
SMB
–
VENDOR
O
12
V
IN
×
--------------- -
C
OUT
Fairchild Semiconductor
Vishay Semiconductor
I
O
RLF7030T-6R8N3R0
CDR7D28MNNP-6R8NC
CD1-5R2
×
PART NUMBER
--- -
f
1
s
VENDOR
(EQ. 5)
(EQ. 6)
(EQ. 7)
ISL97650
Note: Capacitors have a voltage coefficient that makes their
effective capacitance drop as the voltage across then
increases. C
of the capacitor at a particular voltage and not the
manufacturer's stated value, measured at zero volts.
Table 5 shows some selections of output capacitors.
PI Loop Compensation (Boost Converter)
The boost converter of ISL97650 can be compensated by a
RC network connected from CM1 pin to ground. C3 = 4.7nF
and R1 = 10k RC network is used in the demo board. A
higher resistor value can be used to lower the transient
overshoot - however, this may be at the expense of stability
to the loop.
The stability can be examined by repeatedly changing the
load between 100mA and a max level that is likely to be
used in the system being used. The A
examined with an oscilloscope set to AC 100mV/div and the
amount of ringing observed when the load current changes.
Reduce excessive ringing by reducing the value of the
resistor in series with the CM1 pin capacitor.
Boost Converter Feedback Resistors and
Capacitor
An RC network across feedback resistor R5 may be required
to optimize boost stability when A
than 12V. This network reduces the internal voltage
feedback used by the IC. This RC network sets a pole in the
control loop. This pole is set to approximately fp = 10kHz for
C
adding a small capacitor (20 to 100pF) in parallel with R5
(i.e. R16 = short) may help to reduce A
improve regulation, particularly if high value feedback
resistors are used.
R16
C18
CAPACITOR
TABLE 5. BOOST OUTPUT CAPACITOR RECOMMENDATION
OUT
10µF/25V
10µF/25V
=
=
= 10µF and fp = 4kHz for C
⎛
⎝
------------------------------------------------------ -
(
2
⎛
⎝
------------------------- -
0.1 R5
×
3.142
OUT
1
×
SIZE
1210
1210
1
×
in Equation 7 assumes the effective value
⎞
⎠
fp
–
×
------- -
R3
1
R5
TDK
Murata
⎞
⎠
)
–
VENDOR
1
VDD
OUT
VDD
voltage is set to less
= 30µF. Alternatively,
VDD
C3225X7R1E106M
GRM32DR61E106K
voltage should be
PART NUMBER
noise and
April 17, 2009
FN9198.4
(EQ. 8)
(EQ. 9)
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