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參數資料
| 型號: | LM3075MTCX |
| 廠商: | NATIONAL SEMICONDUCTOR CORP |
| 元件分類: | 穩壓器 |
| 英文描述: | High Efficiency, Synchronous Current Mode Buck Controller |
| 中文描述: | SWITCHING CONTROLLER, 330 kHz SWITCHING FREQ-MAX, PDSO20 |
| 封裝: | TSSOP-20 |
| 文件頁數: | 10/18頁 |
| 文件大小: | 857K |
| 代理商: | LM3075MTCX |
Operating Descriptions
GENERAL
The LM3075 solves the need within many portable systems
for 5V, 3.3V, 3.3V stand-by and 12V legacy power supplies.
The controller (IC) uses synchronous rectification and em-
ploys a peak current mode control scheme. Protection Fea-
tures include over-voltage protection (OVP), under-voltage
protection (UVP), thermal protection, and positive and nega-
tive peak current limiting. UVP functionality is automatically
disabled during soft-start and then enabled once the IC has
correctly started. The device operates with a wide input
voltage range from 4.5V to 36V.
SOFT START
In normal operation the soft-start functions as follows:
As the input voltage rises above the 4.2V UVLO threshold,
where the internal circuitry is powered on, an internal 2 μA
current starts to charge the capacitor connected between the
SS pin and ground. A minimum on-time comparator gener-
ates the soft-start PWM pulses. As the SS pin voltage ramps
up, the duty cycle increases, causing the output voltage to
ramp up. During this time, the error amplifier output voltage
is clamped at 2V, and the duty cycle generated by the PWM
comparator is ignored. When the output voltage exceeds
98.5% (typical) of the set target voltage, the regulator tran-
sitions from soft-start to operating mode. Beyond this point,
once the PWM pulses generated by the PWM comparator
are narrower than those generated by the minimum on-time
comparator, the PWM comparator takes over and starts to
regulate the output voltage. Peak current mode control now
takes place. The rate at which the duty cycle increases
depends on the capacitance of the soft-start capacitor. The
higher the capacitance, the slower the output voltage ramps
up.
A unique feature of the LM3075 is that the rate at which the
duty cycle grows is independent of the input voltage. This is
because the ramp signal used to generate the soft-start duty
cycle has a peak value proportional to the input voltage,
making the product of duty cycle and input voltage a con-
stant. This makes the soft-start process more predictable
and reliable.
During soft-start, under-voltage protection is temporarily sus-
pended but over-voltage protection and current limit remain
in effect. When the SS pin voltage exceeds 2V, a soft-start
time out signal is issued. This signal sets the under-voltage
protection into ready mode. This is discussed more in the
Under-Voltage Protection section
.
If the SS pin is short-circuited to ground before startup, the
LM3075 operates at minimum duty cycle when it is enabled,
and the under-voltage protection is disabled.
FAULT STATE
When a fault condition is detected, a "fault" signal is gener-
ated internally. This signal discharges the capacitor con-
nected between the SS pin and ground with 4 μA of current
until the SS pin reaches 60mV. Once a level of 60mV is
reached at the SS pin, the IC restarts normally and resumes
operation assuming the cause of the fault condition has been
removed.
FORCE PWM MODE
Pulling the FPWM pin to logic low activates the force PWM
mode. In this mode, the top FET and the bottom FET gate
signals are always complementary to each other and the
Negative Current Limit comparator is activated (see
Nega-
tive Current Limit
section). In force PWM mode, the regulator
always operates in Continuous Conduction Mode (CCM) and
the duty cycle, which is approximately V
/V
in this
mode, is almost independent of load. The force PWM mode
is good for applications where fixed switching frequency is
required. In forced PWM mode, the top FET has to be turned
on for a minimum of typically 180 ns each cycle. However, if
the required duty cycle is less than the minimum value, the
IC is unable to reach the desired voltage output in FPWM
mode. This causes the chip to enter a fault state and the IC
attempts to restart until the cause of the fault has been
removed (see the Fault State section).
SKIP COMPARATOR
Whenever the output voltage of the error amplifier (COMP
pin) goes below a 0.5V threshold, the PWM cycles are
"skipped" until that voltage exceeds the threshold again. Due
to the time required for the system loop to respond to
changes, it is unlikely that the system will oscillate around
the threshold and thus the system remains stable.
PULSE-SKIP MODE
Pulse-skip mode is activated by pulling the FPWM pin to a
TTL-compatible logic high. In this mode, the Zero-Crossing /
Negative Current Limit comparator detects the bottom FET
current. Once the bottom FET current flows from drain to
source, the bottom FET is turned off. This prevents negative
inductor current.
In force PWM operation, the inductor current is allowed to go
negative, so the regulator is always in Continuous Conduc-
tion Mode (CCM), no matter what the load is. In pulse-skip
mode, the regulator enters Discontinuous Conduction Mode
(DCM) under light loads. Once the regulator enters DCM, its
switching frequency drops as the load current decreases.
The minimum on-time comparator takes over causing the
output voltage to continuously rise and COMP pin voltage
(the error amplifier output voltage) to continuously drop.
When the COMP pin voltage hits the 0.5V level, the Cycle
Skip comparator toggles, causing the present switching
cycle to be "skipped", i.e., both FETs remain off during the
whole cycle. As long as the COMP pin voltage is below 0.5V,
no switching of the FETs happens. As a result, the output
voltage drops, and the COMP pin voltage rises. When the
COMP pin goes above the 0.5V level, the Cycle Skip com-
parator flips and allows a series of on-time pulses to happen.
If the load current is so small that this series of pulses is
enough to bring the output voltage up to such a level that the
COMP pin drops below 0.5V again, the pulse skipping hap-
pens again. Otherwise it may take a number of consecutive
pulses to bring the COMP pin voltage down to 0.5V again.As
the load current increases, it takes more and more consecu-
tive pulses to drive the COMP voltage to 0.5V. The pulse-
skipping stops when the load current is sufficiently high. In
pulse-skip mode, the frequency of the burst of switching
pulses varies directly with the load current. Since the load is
usually very light in pulse-skip mode, conducted noise is
very low and the variable operating frequency should cause
no EMI problems in the system.
The LM3075 pulse-skip mode helps the light load efficiency
for two reasons. First, the bottom FET is turned on only when
inductor current is in the positive conduction region, this
eliminates circulating energy loss. Second, the FETs switch
only when necessary, rather than every cycle, thus reducing
the FETs switching losses and gate drive power losses.
L
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