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LTC3873EDDB-5 Datasheet(PDF) 9 Page - Linear Technology

Part # LTC3873EDDB-5
Description  No RSENSETM Constant Frequency Current Mode Boost/Flyback/SEPIC DC/DC Controller
Download  16 Pages
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Manufacturer  LINER [Linear Technology]
Direct Link  http://www.linear.com
Logo LINER - Linear Technology

LTC3873EDDB-5 Datasheet(HTML) 9 Page - Linear Technology

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LTC3873-5
9
38735fb
VCC Bias Power
The VCC pin must be bypassed to the GND pin with a
minimum 10μF ceramic or tantalum capacitor located
immediately adjacent to the two pins. Proper supply by-
passing is necessary to supply the high transient currents
required by the MOSFET gate driver.
For maximum flexibility, the LTC3873-5 is designed so
that it can be operated from voltages well beyond the
LTC3873-5’s absolute maximum ratings. In the simplest
case, the LTC3873-5 can be powered with a resistor con-
nected between the input voltage and VCC.Thebuilt-inshunt
regulator limits the voltage on the VCC pin to around 9.3V
as long as the shunt regulator is not forced to sink more
than 25mA. This powering scheme has the drawback that
the power loss in the resistor reduces converter efficiency
and the 25mA shunt regulator maximum may limit the
maximum-minimum range of input voltage.
The circuit in Figure 5 shows a second way to power the
LTC3873-5. An external series pre-regulator consisting of
series pass transistor Q1, zener diode D1 and bias resis-
tor RB brings VCC to at least 7.6V nominal, well above the
undervoltage lockout threshold.
resistor (RSL) connecting the SW pin to the current sense
resistor (RSENSE) thus develops a ramping voltage drop.
From the perspective of the SW pin, this ramping voltage
adds to the voltage across the sense resistor, effectively
reducing the current comparator threshold in proportion
to duty cycle. The amount of reduction in the current
comparator threshold (
ΔVSENSE) can be calculated using
the following equation:
ΔV
Duty Cycle
AR
SENSE
SLOPE
=
–%
%
6
80
20
μ
Note the external programmable slope compensation is
only needed when the internal slope compensation is not
sufficient. In some applications RSL can be shorted. For
the LTC3873-5, when the RDS(ON) sensing technique is
used, the ringing on the SW pin disrupts the tiny slope
compensation current out of the pin. It is not recommended
to add external slope compensation in this case.
Output Voltage Programming
The output voltage is set by a resistor divider according
to the following formula:
VV
R
R
O =+
⎝⎜
⎠⎟
12
1
2
1
.•
The external resistor divider is connected to the output
as shown in Figure 4, allowing remote voltage sensing.
Choose resistance values for R1 and R2 to be as large as
possible in order to minimize any efficiency loss due to
the static current drawn from VOUT, but just small enough
so that when VOUT is in regulation, the error caused by
the nonzero input current to the VFB pin is less than 1%.
A good rule of thumb is to choose R1 to be 24k or less.
Transformer Design Considerations
Transformer specification and design is perhaps the most
critical part of applying the LTC3873-5 successfully. In
addition to the usual list of caveats dealing with high fre-
quency power transformer design, the following should
prove useful.
APPLICATIONS INFORMATION
Figure 5. External Pre-Regulator for VCC Bias Power
Slope Compensation
The LTC3873-5 has built-in internal slope compensation
to stabilize the control loop against sub-harmonic oscilla-
tion. It also provides the ability to externally increase slope
compensation by injecting a ramping current out of its
SW pin into an external slope compensation resistor (RSL
in Figure 2). This current ramp starts at zero right after
the NGATE pin has been high. The current rises linearly
towards a peak of 20μA at the maximum duty cycle of
80%, shutting off once the NGATE pin goes low. A series
LTC3873-5
VCC
38735 F05
Q1
RB
VIN
CVCC
0.1μF
D1
8.2V
GND


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