參數(shù)資料
型號(hào): LM2635M/NOPB
廠商: NATIONAL SEMICONDUCTOR CORP
元件分類: 穩(wěn)壓器
英文描述: SWITCHING CONTROLLER, 350 kHz SWITCHING FREQ-MAX, PDSO20
封裝: PLASTIC, SOP-20
文件頁(yè)數(shù): 12/13頁(yè)
文件大?。?/td> 734K
代理商: LM2635M/NOPB
Applications Information (Continued)
output voltage level is fed to the error amplifier. The output of
the
error
amplifier
is
then
compared
with
an
internally generated PWM ramp signal and the result of the
comparison is a series of pulses with certain duty ratios.
These pulses are used to control the turn-on and turn-off of
the MOSFET gate drivers. In this way, the error in the output
voltage gets “compensated” or cancelled by the change in
the duty ratio of the FET switches. During a large load
transient, depending on the compensation design, the
change in duty ratio can be as fast as less than one switch-
ing cycle. Refer to Design Considerations section for more
details.
Besides the usual voltage mode feedback control loop, the
LM2635 also has a pair of fast comparators (the MIN and
MAX comparators) to help maintain the output voltage dur-
ing a large and fast load transient. The trip points of the
comparators are set to ±5% of the DAC output voltage.
When the load transient is so large that the output voltage
goes outside the ±5% window, the MIN or MAX comparator
will bypass the primary voltage control loop and immediately
set the duty ratio to either maximum value or to zero. This
provides the fastest possible way to react to such a large
load transient in a classical buck converter.
Power Good Signal
The power good signal is used to indicate that the output
voltage is within specified range. In the LM2635, the range is
set to a ±10% window of the DAC output voltage. During soft
start, the power good signal is always low. At the end of the
soft start session,the output voltage is checked and the
PWRGD pin will be asserted if the voltage is within specified
range.
Over Voltage Protection
When the output voltage exceeds 115% of the DAC output
voltage after the end of soft start, the LM2635 will enter over
voltage protection mode in which it shuts itself down. The
upper gate driver is held low while the lower gate driver is
held high. PWRGD will be low. For LM2635 to recover from
OVP mode, either OUTEN or V
CC voltage has to be toggled.
Another more subtle way to recover is to float all the VID pins
and reapply the correct code.
Current Limit
Current limit is realized by sensing the V
DS voltage of the
high side MOSFET when it is on. Since the r
DS_ON of a
MOSFET is a known value, current through the MOSFET
can be known by monitoring V
DS. The relationship between
the three parameters is:
To implement the current limit function, an external resistor
R
IMAX is need. The resistor should be connected between
the drain of the high side MOSFET and the IMAX pin. A
constant current of around 180 A is forced into the IMAX pin
and causes a fixed voltage drop across the R
IMAX resistor.
This voltage drop is then compared with the V
DS of the high
side MOSFET and if the latter is higher, over current is
reached. So the appropriate value of R
IMAX
for a pre-
determined current limit level I
LIM can be calculated by the
following equation:
For example, if we know that the r
DS_ON of the MOSFET is
20 m
, and the current limit we want to set is 20A, then we
should choose the value of R
IMAX to be 2.2 k
.
To provide the greatest protection over the high side MOS-
FET, cycle by cycle protection is implemented. The sampling
of the V
DS starts as early as about 300 ns after the switch is
turned on. Whenever an over current condition is detected,
the high side switch is immediately turned off and the low
side switch turned on, until the next switching cycle comes.
The delay of 300 ns is to circumvent switching noise when
the MOSFET is first turned on.
DESIGN CONSIDERATIONS
Control Loop Compensation
A switching regulator should be properly compensated to
achieve a stable condition. For a synchronous buck regula-
tor that needs to meet stringent load transient requirement
such as a Pentium II MPU core voltage supply, a simple
2-pole-1-zero compensation network should suffice, such as
the one shown in Figure 4 (C
1,C2,R1 and R2). This is
because the ESR zero of the typical output capacitors is low
enough to make the control-to-output transfer function a
single-pole-roll-off.
As an example, let us figure out the values of the compen-
sation network components in Figure 4. Assume the follow-
ing parameters:R=20
,R
L =20m
,R
C =9m
,L =2H,
C = 7.5 mF, V
IN =5V, Vm = 2V and switching frequency
= 300 kH. These parameters are based on the typical appli-
cation in Figure 1. Notice R
L is the sum of the inductor DC
resistance and the on resistance of the MOSFETs.
10011909
FIGURE 4. Buck Converter from a Control Point of
View
LM2635
www.national.com
8
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