MAX1677EEE Maxim Integrated Products, MAX1677EEE Datasheet - Page 11
MAX1677EEE
Manufacturer Part Number
MAX1677EEE
Description
IC CONV DC-DC STEP-UP 16-QSOP
Manufacturer
Maxim Integrated Products
Type
Step-Up (Boost)r
Datasheet
1.MAX1677EEE.pdf
(16 pages)
Specifications of MAX1677EEE
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
2
Voltage - Output
3.3V or Adj Main, -28 ~ 28 V or Adj Secondary
Current - Output
350mA
Frequency - Switching
300kHz
Voltage - Input
0.7 ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-QSOP
Power - Output
696mW
Output Voltage
2.5 V to 5.5 V
Output Current
350 mA
Input Voltage
0.7 V to 5.5 V
Supply Current
35 uA
Switching Frequency
300 KHz
Mounting Style
SMD/SMT
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
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During PFM operation, the error comparator detects
when the output voltage is out of regulation and sets a
flip-flop, turning on the N-channel MOSFET switch
(Figure 5). When the inductor current ramps to the PFM
mode current limit (350mA), the current-sense compara-
tor resets a flip-flop. The flip-flop turns off the N-channel
switch and turns on the P-channel synchronous rectifier.
The energy stored in the inductor is transferred to the
output through the P-channel switch. A second flip-flop,
previously reset by the switch’s “on” signal, inhibits the
next cycle until the inductor current is depleted and the
output is out of regulation. This forces operation with
discontinuous inductor current in PFM mode.
The MBC employs a low-voltage startup oscillator to
ensure a 1.1V (0.9V typical) startup voltage. On start-
up, if the output voltage is less than 2.25V, the P-chan-
nel switch stays off and the N-channel pulses at a 25%
duty cycle. When the output voltage exceeds 2.25V,
the normal PWM or PFM control circuitry takes over.
Once the MBC is in regulation, it can operate with
inputs down to 0.7V since the internal power for the IC
Table 2. Selecting MBC Operating Mode
Figure 5. Controller Block Diagram in PFM Mode
LIMIT LEVEL
CURRENT
(200Hz to
CLK/SEL
Ext Clock
400kHz)
V
V
REF
FB
0
1
Low-Power PFM
Synchronized
______________________________________________________________________________________
MBC MODE
Step-Up and LCD Bias DC-DC Converter
PWM
PWM
Compact, High-Efficiency, Dual-Output
S
R
Q
Q
Q
R
D
Lowest Supply Current
High Output Current,
Fixed-Frequency Ripple
High Output Current,
Synchronized Ripple
Frequency
Startup Oscillator
LOGIC HIGH
FEATURES
POUT
P
N
PGND
LX
is taken from OUT. The MBC cannot supply full output
current until OUT reaches 2.5V.
The MAX1677 MBC features an internal 1Ω P-channel
synchronous rectifier. Synchronous rectification typical-
ly improves efficiency by 5% or more over similar non-
synchronous step-up designs. In PWM mode, the
synchronous rectifier turns on during the second half of
each cycle. In PFM mode, an internal comparator turns
on the synchronous rectifier when the voltage at LX
exceeds the MBC output, and then turns it off when the
inductor current drops below 90mA (typ).
The on-chip synchronous rectifier allows the external
Schottky diode to be omitted in designs that operate
from inputs exceeding 1.4V. In circuits operating below
1.4V (1-cell inputs, for example), connecting a Schottky
diode in parallel with the internal synchronous rectifier
(from LX to POUT) provides the lowest startup voltage.
The LCD converter can be configured for a positive or
negative output by setting the LCDPOL pin and using
the appropriate circuit (Figures 2 and 3, and Table 3).
A combination of peak current limiting and a pair of
one-shot timers control LCD switching. During the on-
cycle the internal N-channel DMOS switch turns on,
and inductor current ramps up until either the switch
peak current limit is reached or the 5.2µs maximum on-
time expires (typically at low input voltages). After the
on-cycle terminates, the switch turns off and the output
capacitor charges. The switch remains off until the error
comparator initiates another cycle.
The LCDLX current limit is set by LCDPOL, as outlined
in Table 3. The lower, 225mA peak current setting
allows tiny low-current “chip” inductors to be used
when powering smaller (less than 15 square inches)
liquid crystal panels. Use the following equation to
determine which LCDLX current-limit setting is
required.
where I
mum expected input voltage, V
mum required LCD output voltage, and I
350mA or 225mA as set by LCDPOL. The 0.7 term is a
correction factor to conservatively account for typical
switch, inductor, and diode losses.
The LCD boost is enabled when both ON and LCDON
are high, and the MBC output voltage is within 90% of
its set value. A soft-start startup mode with increased
I
LCD
= (0.7 × I
LCD
is the output current, V
PK(LCD)
LCD Boost Converter (LCD)
× V
IN(MIN)
Synchronous Rectifier
LCD(MAX)
) / (2 × V
IN(MIN)
LCD(MAX)
is the maxi-
is the mini-
PK(LCD)
)
11
is
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