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参数资料
| 型号: | LT1766HGN#PBF |
| 厂商: | LINEAR TECHNOLOGY CORP |
| 元件分类: | 稳压器 |
| 英文描述: | 3 A SWITCHING REGULATOR, 228 kHz SWITCHING FREQ-MAX, PDSO16 |
| 封装: | 0.150 INCH, LEAD FREE, PLASTIC, SSOP-16 |
| 文件页数: | 9/28页 |
| 文件大小: | 284K |
| 代理商: | LT1766HGN#PBF |
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17
LT1766/LT1766-5
1766fb
Keep the connections from the resistors to the shutdown
pin short and make sure that interplane or surface capaci-
tance to the switching nodes are minimized. If high
resistor values are used, the shutdown pin should be
bypassed with a 1000pF capacitor to prevent coupling
problems from the switch node. If hysteresis is desired in
the undervoltage lockout point, a resistor RFB can be
added to the output node. Resistor values can be calcu-
lated from:
R
RV
V V
V
RA
RR
V
HI
LO
IN
OUT
LO
FB
HI
OUT
=
+
()+
[]
()
=
()
238
1
238
5 5
./
..
/
25k suggested for RLO
VIN = Input voltage at which switching stops as input
voltage descends to trip level
V = Hysteresis in input voltage level
Example: output voltage is 5V, switching is to stop if input
voltage drops below 12V and should not restart unless
input rises back to 13.5V.
V is therefore 1.5V and
VIN = 12V. Let RLO = 25k.
R
k
kA
k
Rk
k
HI
FB
=
+
()+
[]
()
=
()
=
()=
25 12 2 38 1 5 5 1
1 5
238 25 55
25 10 41
224
116
116 5 1 5
387
.. /
.
.–
.
/.
SYNCHRONIZING
The SYNC input must pass from a logic level low, through
the maximum synchronization threshold with a duty cycle
between 10% and 90%. The input can be driven directly
from a logic level output. The synchronizing range is equal
to
initial operating frequency up to 700kHz. This means
that
minimum practical sync frequency is equal to the
worst-case
high self-oscillating frequency (228kHz), not
the typical operating frequency of 200kHz. Caution should
be used when synchronizing above 265kHz because at
higher sync frequencies the amplitude of the internal slope
compensation used to prevent subharmonic switching is
reduced. This type of subharmonic switching only occurs
at input voltages less than twice output voltage. Higher
inductor values will tend to eliminate this problem. See
Frequency Compensation section for a discussion of an
entirely different cause of subharmonic switching before
assuming that the cause is insufficient slope compensa-
tion. Application Note 19 has more details on the theory
of slope compensation.
At power-up, when VC is being clamped by the FB pin (see
Figure 2, Q2), the sync function is disabled. This allows the
frequency foldback to operate in the shorted output con-
dition. During normal operation, switching frequency is
controlled by the internal oscillator until the FB pin reaches
0.6V, after which the SYNC pin becomes operational. If no
synchronization is required, this pin should be connected
to ground.
LAYOUT CONSIDERATIONS
As with all high frequency switchers, when considering
layout, care must be taken in order to achieve optimal elec-
trical, thermal and noise performance. For maximum effi-
ciency, switch rise and fall times are typically in the nano-
second range. To prevent noise both radiated and con-
ducted, the high speed switching current path, shown in
Figure 5, must be kept as short as possible. This is imple-
mented in the suggested layout of Figure 6. Shortening
this path will also reduce the parasitic trace inductance of
approximately 25nH/inch. At switch off, this parasitic in-
ductance produces a flyback spike across the LT1766
switch. When operating at higher currents and input volt-
ages, with poor layout, this spike can generate voltages
across the LT1766 that may exceed its absolute maximum
APPLICATIO S I FOR ATIO
WU
UU
1766 F05
5V
L1
VIN
LT1766
D1
C1
C3
HIGH
FREQUENCY
CIRCULATING
PATH
LOAD
Figure 5. High Speed Switching Path
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