MAX8668ETEX+T Maxim Integrated Products, MAX8668ETEX+T Datasheet - Page 13
MAX8668ETEX+T
Manufacturer Part Number
MAX8668ETEX+T
Description
IC DC-DC CONV W/DUAL LDO 16TQFN
Manufacturer
Maxim Integrated Products
Type
Step-Down (Buck)r
Datasheet
1.MAX8668ETEWT.pdf
(18 pages)
Specifications of MAX8668ETEX+T
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
4
Voltage - Output
1.8V, 2.8V, 0.6 ~ 3.3 V (2)
Current - Output
600mA, 1.2A
Frequency - Switching
1.5MHz
Voltage - Input
2.6 ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-TQFN Exposed Pad
Power - Output
1.67W
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The LDO output voltages of the MAX8667/MAX8668,
and the step-down outputs of the MAX8667 are factory
preset. See the Selector Guide to find the part number
corresponding to the desired output voltages.
The OUT1 and OUT2 output voltages of the MAX8668
are set by a resistor network connected to FB_ as
shown in Figure 5. With this configuration, a portion of
the feedback signal is sensed on the switched side of
the inductor (LX), and the output voltage droops slightly
as the load current is increased due to the DC resis-
tance of the inductor (DCR). This allows the load regu-
lation to be set to match the voltage droop during a
load transient (voltage positioning), reducing the peak-
to-peak output-voltage deviation during a load tran-
sient, and reducing the output capacitance
requirements.
For the simplest method of setting the output voltage,
R6 is not installed. Choose the value of R2 (a good
starting value is 100kΩ), and then calculate the value of
R1 as follows:
where V
With the voltage set in this manner, the voltage posi-
tioning depends only on the DCR, and the maximum
output voltage droop is:
To obtain less voltage positioning than described in the
previous section, use the following procedure for set-
ting the output voltages. The OUT1 and OUT2 output
voltages and voltage positioning of the MAX8668 are
set by a resistor network connected to FB_ as shown in
Figure 5.
To set the output voltage (V
R2 (a good starting value is 100kΩ). Then calculate the
value of R
and R6) as follows:
where V
FB
FB
EQ
is the feedback regulation voltage (0.6V).
is the feedback-regulation voltage (0.6V).
∆V
1.5MHz Dual Step-Down DC-DC Converters
(the equivalent parallel resistance of R1
OUT MAX
Applications Information
R
EQ
R
______________________________________________________________________________________
(
Setting the Output Voltages
1
=
Setting the Output Voltages with
=
R
with Dual LDOs and Individual Enables
⎛
⎜
⎝
2
)
Reduced Voltage Positioning
V
and Voltage Positioning
×
=
V
OUT
FB
DCR I
⎛
⎜
⎝
OUT
V
V
OUT
FB
−
×
), first select a value for
1
⎞
⎟ ×
⎠
OUT MAX
−
1
R
⎞
⎟
⎠
2
(
)
Calculate the factor m based on the desired load-regu-
lation improvement:
where I
the inductor series resistance, and ∆V
maximum allowable droop in the output voltage at full
load. The calculated value for m must be between 1.1 and
2; m = 2 results in a 2x improvement in load regulation.
Now calculate the values of R1 and R6 as follows:
The value of R1 should always be lower than the value
of R6.
The MAX8667/MAX8668 have individual enable inputs
for each regulator to allow complete control over the
power sequencing. When all EN_ inputs are low, the IC
is in low-power shutdown mode, reducing the supply
current to less than 1µA. After one of the EN_ inputs
asserts high, the corresponding regulator begins soft-
start after a delay of t
enabled from shutdown mode or initially powering up
the IC has a longer delay (t
low-power shutdown mode.
The MAX8667/MAX8668 step-down converters operate
with inductors between 2.2µH and 4.7µH. Low induc-
tance values are physically smaller, but require faster
switching, resulting in some efficiency loss. The induc-
tor’s DC current rating must be high enough to account
Figure 5. MAX8668 Feedback Network
LX_
FB_
OUT(MAX)
R1
R2
C4
L1
m
is the maximum output current, DCR is
=
R
I
(OPTIONAL)
R
∆
6
EN
OUT MAX
Power-Supply Sequencing
DCR
1
V
=
=
OUT DESIRED
R
(see Figure 2). The first output
R
(
EQ
R6
EQ
(
PWRON
×
×
)
m
Inductor Selection
×
m
m
−
DCR
1
ESR
) as the IC exits the
C6
OUT(DESIRED)
)
R
LOAD
OUT
is the
13
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