MAX5099ATJ+ Maxim Integrated Products, MAX5099ATJ+ Datasheet - Page 18
MAX5099ATJ+
Manufacturer Part Number
MAX5099ATJ+
Description
IC CONV BUCK SYNC DL 32TQFN-EP
Manufacturer
Maxim Integrated Products
Type
Step-Down (Buck)r
Datasheet
1.MAX5099ATJ.pdf
(27 pages)
Specifications of MAX5099ATJ+
Internal Switch(s)
Both
Synchronous Rectifier
Yes
Number Of Outputs
2
Voltage - Output
0.8 ~ 17.1 V
Current - Output
1A, 2A
Frequency - Switching
200kHz ~ 2.2MHz
Voltage - Input
4.5 ~ 19 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
32-TQFN Exposed Pad
Power - Output
2.76W
Output Voltage
5.2 V
Output Current
2 A
Input Voltage
5.2 V to 19 V
Supply Current
4.2 mA
Switching Frequency
1.9 MHz
Mounting Style
SMD/SMT
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Three key inductor parameters must be specified for
operation with the MAX5099: inductance value (L),
peak inductor current (I
rent (I
tion of operating frequency, input-to-output voltage
differential, and the peak-to-peak inductor current (ΔI
A good compromise is to choose ΔI
the full load current. To calculate the inductance, use
the following equation:
where V
cy is optimum for typical conditions). The switching fre-
quency is set by R
Frequency section). The peak-to-peak inductor current,
which reflects the peak-to-peak output ripple, is worse
at the maximum input voltage. See the Output
Capacitor section to verify that the worst-case output
ripple is acceptable. The inductor saturation current is
also important to avoid runaway current during output
overload and continuous short circuit. Select the I
be higher than the maximum peak current limits of 4.3A
and 2.6A for converter 1 and converter 2.
The discontinuous input current waveform of the buck
converter causes large ripple currents at the input. The
switching frequency, peak inductor current, and allow-
able peak-to-peak voltage ripple dictate the input
Dual, 2.2MHz, Automotive Synchronous Buck
Converter with 80V Load-Dump Protection
18
Figure 2. Adjustable Output Voltage
MAX5099
______________________________________________________________________________________
SOURCE_
SAT
IN
FB_
). The minimum required inductance is a func-
V
OUT_
and V
≥ 0.8V
OUT
L
=
R
R
OSC
A
B
V
OUT_
V
are typical values (so that efficien-
OUT IN
V
IN
L
(see the Setting the Switching
), and inductor saturation cur-
×
(
V
f
SW
MAX5099
−
SOURCE_
×
V
BYPASS
OUT
Δ
FB_
I
L
V
Inductor Selection
OUT_
L
)
Input Capacitor
equal to 30% of
< 0.8V
R
R
C
A
V
OUT_
SAT
L
to
).
capacitance requirement. Note that the two converters
of the MAX5099 run 180° out-of-phase, thereby effec-
tively doubling the switching frequency at the input.
The input ripple waveform would be unsymmetrical due
to the difference in load current and duty cycle between
converter 1 and converter 2. The worst-case mismatch
is when one converter is at full load while the other is at
no load or in shutdown. The input ripple is comprised of
ΔV
(caused by the ESR of the capacitor). Use ceramic
capacitors with high ripple-current capability at the input
connected between DRAIN_ and PGND. Assume the
contribution from the ESR and capacitor discharge
equal to 50%. Calculate the input capacitance and ESR
required for a specified ripple using the following equa-
tions:
where
and
where
where I
converter 1 or converter 2, and D is the duty cycle for
that converter. f
converter. For example, at V
I
capacitance are calculated for a peak-to-peak input rip-
ple of 100mV or less, yielding an ESR and capacitance
value of 20mΩ and 6.8μF for 1.25MHz frequency. At low
input voltages, also add one electrolytic bulk capacitor
of at least 100μF on the converters’ input voltage rail.
This capacitor acts as an energy reservoir to avoid pos-
sible undershoot below the undervoltage-lockout thresh-
old during power-on and transient loading.
OUT
Q
(caused by the capacitor discharge) and ΔV
= 2A, and with L = 3.3μH, the ESR and input
OUT
is the maximum output current from either
ΔI
SW
L
C
ESR
=
IN
is the frequency of each individual
(
V
IN
=
IN
D
I
OUT
V
=
=
−
IN
Δ
I
V
V
OUT
V
OUT
×
OUT
V
Q
Δ
×
IN
IN
f
V
SW
D
×
ESR
+
= 12V, V
)
(
f
1
SW
×
×
Δ
−
2
V
I
L
D
L
OUT
)
OUT
= 3.3V at
ESR
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