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LM2611AMFX bảng dữ liệu(PDF) 7 Page - National Semiconductor (TI)

[Old version datasheet] Texas Instruments acquired National semiconductor.
tên linh kiện LM2611AMFX
Giải thích chi tiết về linh kiện  1.4MHz Cuk Converter
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Trang chủ  http://www.national.com
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LM2611AMFX bảng dữ liệu(HTML) 7 Page - National Semiconductor (TI)

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Operation (Continued)
The following equations define values given in Figure 2 and
Figure 3:
I
L2 =IOUT
Use these equations to choose correct core sizes for the
inductors. The design of the LM2611’s internal compensa-
tion assumes L1 and L2 are equal to 10 - 22 µH, thus it is
recommended to stay within this range.
Switch Current Limit
The LM2611 incorporates a separate current limit compara-
tor, making current limit independent of any other variables.
The current limit comparator measures the switch current
versus a reference that represents current limit. If at any time
the switch current surpasses the current limit, the switch
opens until the next switching period. To determine the maxi-
mum load for a given set of conditions, both the input and
output inductor currents must be considered. The switch
current is equal to i
L1 +iL2, and is drawn in Figure 4.In
summary:
I
SW(PEAK) must be less than the current limit (1.2A typical),
but will also be limited by the thermal resistivity of the
LM2611’s SOT23-5 package (
θ
JA = 265˚C/W).
Input Capacitor
The input current waveform to a Cuk converter is continuous
and triangular, as shown in Figure 2. The input inductor
insures that the input capacitor sees fairly low ripple cur-
rents. However, as the input inductor gets smaller, the input
ripple goes up. The RMS current in the input capacitor is
given by:
The input capacitor should be capable of handling the RMS
current. Although the input capacitor is not so critical in a Cuk
converter, a 10µF or higher value good quality capacitor
prevents any impedance interactions with the input supply. A
0.1µF or 1µF ceramic bypass capacitor is also recom-
mended on the V
IN pin (pin 5) of the IC. This capacitor must
be connected very close to pin 5 (within 0.2 inches).
Output Capacitor
Like the input current, the output current is also continuous,
triangular, and has low ripple (see I
L2 in Figure 3). The output
capacitor must be rated to handle its RMS current:
For example, I
COUT(RMS) can range from 30mA to 180mA
with 10µH
≤ L
1,2
≤ 22µH, −10V ≤ V
OUT
≤ −3.3V, and 2.7V ≤
V
IN
≤ 30V (V
IN may be 30V if using separate power and
analog supplies, see Split Supply Operation in the APPLI-
CATIONS section). The worst case conditions are with L
1,2,
V
OUT(MAX), and VIN(MAX). Many capacitor technologies will
provide this level of RMS current, but ceramic capacitors are
ideally suited for the LM2611. Ceramic capacitors provide a
good combination of capacitance and equivalent series re-
sistance (ESR) to keep the zero formed by the capacitance
and ESR at high frequencies. The ESR zero is calculated as:
A general rule of thumb is to keep f
ESR > 80kHz for LM2611
Cuk designs. Low ESR tantalum capacitors will usually be
rated for at least 180mA in a voltage rating of 10V or above.
However the ESR in a tantalum capacitor (even in a low ESR
tantalum capacitor) is much higher than in a ceramic capaci-
tor and could place f
ESR low enough to cause the LM2611 to
run unstable.
Improving Transient Response/Compensation
The compensator in the LM2611 is internal. However, a
zero-pole pair can be added to the open loop frequency
response by inserting a feed forward capacitor, C
FF, in par-
allel to the top feedback resistor (R
FB1). Phase margin and
bandwidth can be improved with the added zero-pole pair.
This inturn will improve the transient response to a step load
change (see Figure 5 and Figure 6). The position of the
zero-pole pair is a function of the feedback resistors and the
capacitor value:
20018102
FIGURE 4. Switch Current Waveform in a Cuk
Converter. The peak value is equal to the sum of the
average currents through L1 and L2 and the
average-to-peak current ripples through L1 and L2.
www.national.com
7


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