LT3759(RevB) Просмотр технического описания (PDF) - Linear Technology
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LT3759 Datasheet PDF : 32 Pages
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LT3759
APPLICATIONS INFORMATION
Main Control Loop
The LT3759 uses a fixed frequency, current mode control
scheme to provide excellent line and load regulation.
Operation can be best understood by referring to the Block
Diagram in Figure 1.
The start of each oscillator cycle sets the SR latch (SR1) and
turns on the external power MOSFET switch M1 through
driver G2. The switch current flows through the external
current sensing resistor RSENSE and generates a voltage
proportional to the switch current. This current sense
voltage VISENSE (amplified by A5) is added to a stabilizing
slope compensation ramp and the resulting sum (SLOPE)
is fed into the positive terminal of the PWM comparator A7.
When SLOPE exceeds the level at the negative input of A7
(VC pin), SR1 is reset, turning off the power switch. The
level at the negative input of A7 is set by the error amplifier
A1 (or A2) and is an amplified version of the difference
between the feedback voltage (FBX pin) and the reference
voltage (1.6V or –0.8V, depending on the configuration).
In this manner, the error amplifier sets the correct peak
switch current level to keep the output in regulation.
The LT3759 has a switch current limit function. The current
sense voltage is input to the current limit comparator A6.
If the SENSE pin voltage is higher than the sense current
limit threshold VSENSE(MAX) (50mV, typical), A6 will reset
SR1 and turn off M1 immediately.
The LT3759 is capable of generating either positive or nega-
tive output voltage with a single FBX pin. It can be configured
as a boost or SEPIC converter to generate positive output
voltage, or as an inverting converter to generate negative
output voltage. When configured as a SEPIC converter, as
shown in Figure 1, the FBX pin is pulled up to the internal bias
voltage of 1.6V by a voltage divider (R1 and R2) connected
from VOUT to GND. Comparator A2 becomes inactive and
comparator A1 performs the inverting amplification from
FBX to VC. When the LT3759 is in an inverting configuration,
the FBX pin is pulled down to –0.8V by a voltage divider
connected from VOUT to GND. Comparator A1 becomes
inactive and comparator A2 performs the noninverting
amplification from FBX to VC.
The LT3759 has overvoltage protection functions to protect
the converter from excessive output voltage overshoot
during start-up or recovery from a short-circuit condition.
An overvoltage comparator A11 (with 40mV hysteresis)
senses when the FBX pin voltage exceeds the positive
regulated voltage (1.6V) by 7.5% and turns off M1.
Similarly, an overvoltage comparator A12 (with 20mV
hysteresis) senses when the FBX pin voltage exceeds the
negative regulated voltage (–0.8V) by 7.5% and turns
off M1. Both reset pulses are sent to the main RS latch
(SR1) through G6 and G5. The external power MOSFET
switch M1 is actively held off for the duration of an output
overvoltage condition.
Programming Turn-On and Turn-Off Thresholds with
EN/UVLO Pin
The EN/UVLO pin controls whether the LT3759 is enabled
or is in shutdown state. A micropower 1.22V reference, a
comparator A10 and controllable current source IS1 allow
the user to accurately program the supply voltage at which
the IC turns on and off. The falling value can be accurately
set by the resistor dividers R3 and R4. When EN/UVLO
is above 0.7V, and below the 1.22V threshold, the small
pull-down current source IS1 (typical 2μA) is active.
The purpose of this current is to allow the user to program
the rising hysteresis. The Block Diagram of the comparator
and the external resistors is shown in Figure 1. The typical
falling threshold voltage and rising threshold voltage can
be calculated by the following equations:
VVIN(FALLING)
=
1.22
•
(R3 + R4)
R4
VVIN(RISING) = 2μA • R3+ VIN(FALLING)
For applications where the EN/UVLO pin is only used as
a logic input, the EN/UVLO pin can be connected directly
to the input voltage VIN for always-on operation.
INTVCC Low Dropout Voltage Regulators
The LT3759 features two internal low dropout (LDO) volt-
age regulators (VIN LDO and DRIVE LDO) powered from
different supplies (VIN and DRIVE respectively). Both LDO’s
regulate the internal INTVCC supply which powers the gate
driver and the internal loads, as shown in Figure 1. Both
regulators are designed so that current does not flow from
INTVCC to the LDO input under a reverse bias condition.
DRIVE LDO regulates the INTVCC to 4.75V, while VIN LDO
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