LTC3810EG LINER [Linear Technology], LTC3810EG Datasheet - Page 20

LTC3810EG

Manufacturer Part Number

LTC3810EG

Description

100V Current Mode Synchronous Switching Regulator Controller

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3810EG.pdf (36 pages)

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APPLICATIONS INFORMATION

LTC3810

that have been surge tested for use in switching power

supplies. Several excellent surge-tested choices are the

AVX, TPS and TPSV or the KEMET T510 series. Aluminum

electrolytic capacitors have signiﬁ cantly higher ESR, but

can be used in cost-driven applications providing that

consideration is given to ripple current ratings and long-

term reliability. Other capacitor types include Panasonic

SP and Sanyo POSCAPs.

Output Voltage

The LTC3810 output voltage is set by a resistor divider

according to the following formula:

The external resistor divider is connected to the output as

shown in the Functional Diagram, allowing remote voltage

sensing. The resultant feedback signal is compared with

the internal precision 800mV voltage reference by the

error ampliﬁ er. The internal reference has a guaranteed

tolerance of < 1%. Tolerance of the feedback resistors

will add additional error to the output voltage. 0.1% to

1% resistors are recommended.

Input Voltage Undervoltage Lockout

A resistor divider connected from the input supply to the

UVIN pin (see Functional Diagram) is used to program the

input supply undervoltage lockout thresholds. When the

rising voltage at UVIN reaches 0.88V, the LTC3810 turns

on, and when the falling voltage at UVIN drops below 0.8V,

the LTC3810 is shut down—providing 10% hysteresis.

The input voltage UVLO thresholds are set by the resistor

divider according to the following formulas:

and

If input supply undervoltage lockout is not needed, it can

be disabled by connecting UVIN to INTV

IN,FALLING

IN,RISING

OUT

= 0.8V 1+

= 0.88V • 1+

= 0.8V • 1+

FB2

FB1

UV2

UV1

Top MOSFET Driver Supply (C

An external bootstrap capacitor, C

BOOST pin supplies the gate drive voltage for the topside

MOSFET. This capacitor is charged through diode D

DRV

turns on, the switch node rises to V

rises to approximately V

needs to store about 100 times the gate charge required

by the top MOSFET. In most applications 0.1μF to 0.47μF ,

X5R or X7R dielectric capacitor is adequate.

The reverse breakdown of the external diode, D

be greater than V

for the external diode is the reverse recovery and reverse

leakage, either of which may cause excessive reverse

current to ﬂ ow at full reverse voltage. If the reverse cur-

rent times reverse voltage exceeds the maximum allow-

able power dissipation, the diode may be damaged. For

best results, use an ultrafast recovery diode such as the

MMDL770T1.

Bottom MOSFET Driver Return Supply (BGRTN)

The bottom gate driver, BG, switches from DRV

BGRTN where BGRTN can be a voltage between ground

and –5V. Why not just keep it simple and always connect

BGRTN to ground? In high voltage switching converters,

the switch node dV/dt can be many volts/ns, which will

pull up on the gate of the bottom MOSFET through its

Miller capacitance. If this Miller current, times the internal

gate resistance of the MOSFET plus the driver resistance,

exceeds the threshold of the FET, shoot-through will oc-

cur. By using a negative supply on BGRTN, the BG can be

pulled below ground when turning the bottom MOSFET off.

This provides a few extra volts of margin before the gate

reaches the turn-on threshold of the MOSFET. Be aware

that the maximum voltage difference between DRV

BGRTN is 14V. If, for example, V

voltage on DRV

IC/MOSFET Driver Supplies (INTV

The LTC3810 drivers are supplied from the DRV

BOOST pins (see Figure 3), which have an absolute maxi-

mum voltage of 14V. Since the main supply voltage, V

when the switch node is low. When the top MOSFET

IN(MAX)

pin is now 12V instead of 14V.

. Another important consideration

+ INTV

BGRTN

, D

. The boost capacitor

)

= –2V, the maximum

, connected to the

and the BOOST pin

and DRV

)

, must

from

3810fb

and

LTC3810EG LINER [Linear Technology], LTC3810EG Datasheet - Page 20

LTC3810EG

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