參數(shù)資料
型號: ML4950
廠商: Fairchild Semiconductor Corporation
英文描述: Adjustable Output, Low Current Single Cell Boost Regulator with Detect(帶低電檢測電路的輸出可調(diào)、低電流單節(jié)電池上電升壓穩(wěn)壓器)
中文描述: 可調(diào)輸出,低電流的單電池升壓穩(wěn)壓器與檢測(帶低電檢測電路的輸出可調(diào),低電流單節(jié)電池上電升壓穩(wěn)壓器)
文件頁數(shù): 5/10頁
文件大?。?/td> 284K
代理商: ML4950
ML4950
5
FUNCTIONAL DESCRIPTION
The ML4950 combines Pulse Frequency Modulation (PFM)
and synchronous rectification to create a boost converter
that is both highly efficient and simple to use. A PFM
regulator charges a single inductor for a fixed period of
time and then completely discharges before another cycle
begins, simplifying the design by eliminating the need for
conventional current limiting circuitry. Synchronous
rectification is accomplished by replacing an external
Schottky diode with an on-chip PMOS device, reducing
switching losses and external component count.
REGULATOR OPERATION
A block diagram of the boost converter is shown in Figure
2. The circuit remains idle when V
OUT
is at or above the
desired output voltage, drawing 50μA from V
IN
, and 8μA
from V
OUT
through the feedback resistors R1 and R2.
When V
OUT
drops below the desired output level, the
output of amplifier A1 goes high, signaling the regulator to
deliver charge to the output. Since the output of amplifier
A2 is normally high, the flip-flop captures the A1 set signal
and creates a pulse at the gate of the NMOS transistor Q1.
The NMOS transistor will charge the inductor L1 for 5μs,
resulting in a peak current given by:
I
t
V
L
s
V
L
L PEAK
(
ON
IN
IN
)
=
1
=
1
5
m
(1)
For reliable operation, L1 should be chosen so that I
L(PEAK)
does not exceed 1A.
When the one-shot times out, the NMOS transistor
releases the V
L
pin, allowing the inductor to fly-back and
momentarily charge the output through the body diode of
PMOS transistor Q2. But as the voltage across the PMOS
transistor changes polarity, its gate will be driven low by
the current sense amplifier A2, causing Q2 to short out its
body diode. The inductor then discharges into the load
through Q2. The output of A2 also serves to reset the flip-
flop and one-shot in preparation for the next charging
cycle. A2 releases the gate of Q2 when its current falls to
zero. If V
OUT
is still low, the flip-flop will immediately
initiate another pulse. The output capacitor (C1) filters the
inductor current, limiting output voltage ripple. Inductor
current and one-shot waveforms are shown in Figure 3.
RESET
COMPARATOR
An additional comparator is provided to detect low V
IN
or
any other error condition that is important to the user. The
inverting input of the comparator is internally connected
to V
REF
, while the non-inverting input is provided
externally at the DETECT pin. The output of the
comparator is the
RESET
pin, which swings from V
OUT
to
GND when an error is detected.
DESIGN CONSIDERATIONS
INDUCTOR
Selecting the proper inductor for a specific application
usually involves a trade-off between efficiency and
maximum output current. Choosing too high a value will
keep the regulator from delivering the required output
current under worst case conditions. Choosing too low a
value causes efficiency to suffer. It is necessary to know
the maximum required output current and the input
voltage range to select the proper inductor value. The
maximum inductor value can be estimated using the
following formula:
L
V
t
V
I
MAX
IN MIN
2
ON MIN
(
OUT
OUT MAX
(
=
(
)
)
)
2
h
(2)
where
h
is the efficiency, typically between 0.8 and 0.9.
Note that this is the value of inductance that just barely
delivers the required output current under worst case
conditions. A lower value may be required to cover
inductor tolerance, the effect of lower peak inductor
currents caused by resistive losses, and minimum dead
time between pulses.
Another method of determining the appropriate inductor
value is to make an estimate based on the typical
performance curves given in Figures 4 and 5. Figure 4
shows maximum output current as a function of input
voltage for several inductor values. These are typical
performance curves and leave no margin for inductance
and ON-time variations. To accommodate worst case
conditions, it is necessary to derate these curves by at least
10% in addition to inductor tolerance.
For example, a single cell to 2.5 V application requires
20mA of output current while using an inductor with 15%
tolerance. The output current should be derated by 25% to
25mA to cover the combined inductor and ON-time
tolerances. Assuming that 1V is the end of life voltage of a
single cell input, Figure 4 shows that with the ML4950
delivers 25mA at 2.5V with a 27μH inductor.
Figure 5 shows efficiency under the conditions used to
create Figure 4. It can be seen that efficiency is mostly
independent of input voltage and is closely related to
inductor value. This illustrates the need to keep the
inductor value as high as possible to attain peak system
efficiency. As the inductor value goes down to 18μH, the
efficiency drops to between 75% and 80%. With 68μH,
the efficiency exceeds 90% and there is little room for
improvement. At values greater than 100μH, the operation
of the synchronous rectifier becomes unreliable because
the inductor current is so small that it is difficult for the
control circuitry to detect. The data used to generate
Figures 4 and 5 is provided in Table 1.
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
ML4950 WAF 制造商:Fairchild Semiconductor Corporation 功能描述:
ML4950CS 制造商:Rochester Electronics LLC 功能描述:- Bulk
ML4950ES 制造商:MICRO-LINEAR 制造商全稱:MICRO-LINEAR 功能描述:Adjustable Output, Low Current Single Cell Boost Regulator with Detect
ML4961 制造商:MICRO-LINEAR 制造商全稱:MICRO-LINEAR 功能描述:Adjustable Output Low Voltage Boost Regulator with Detect
ML4961CS 制造商:Rochester Electronics LLC 功能描述:- Bulk
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