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參數(shù)資料

型號(hào)：	LTC1709-9
廠商：	Linear Technology Corporation
英文描述：	CHOKE COIL 33UH 260MA SMD
中文描述：	2相，5位VID，電流模式，高效率同步降壓型開關(guān)穩(wěn)壓器
文件頁(yè)數(shù)：	16/28頁(yè)
文件大小：	319K
代理商：	LTC1709-9

LTC1709-7

50mA peak and must be bypassed to power ground with

a minimum of 4.7

F tantalum or electrolytic capacitor. An

additional 1

F ceramic capacitor placed very close to the

IC is recommended due to the extremely high instanta-

neous currents required by the MOSFET gate drivers.

High input voltage applications in which large MOSFETs

are being driven at high frequencies may cause the maxi-

mum junction temperature rating for the LTC1709-7 to be

exceeded. The supply current is dominated by the gate

charge supply current, in addition to the current drawn

from the differential amplifier output. The gate charge is

dependent on operating frequency as discussed in the

Efficiency Considerations section. The supply current can

either be supplied by the internal 5V regulator or via the

EXTV

pin. When the voltage applied to the EXTV

is less than 4.7V, all of the INTV

load current is supplied

by the internal 5V linear regulator. Power dissipation for

the IC is higher in this case by (I

)(V

– INTV

) and

efficiency is lowered. The junction temperature can be

estimated by using the equations given in Note 1 of the

Electrical Characteristics. For example, the LTC1709-7 V

current is limited to less than 24mA from a 24V supply:

= 70

C + (24mA)(24V)(85

C/W) = 119

Use of the EXTV

pin reduces the junction temperature

to:

= 70

C + (24mA)(5V)(85

C/W) = 80.2

The input supply current should be measured while the

controller is operating in continuous mode at maximum

and the power dissipation calculated in order to

prevent the maximum junction temperature from being

exceeded.

EXTV

Connection

The LTC1709-7 contains an internal P-channel MOSFET

switch connected between the EXTV

and INTV

pins.

When the voltage applied to EXTV

rises above

4.7V, the

internal regulator is turned off and an internal switch

closes, connecting the EXTV

pin to the INTV

thereby supplying internal and MOSFET gate driving power

to the IC. The switch remains closed as long as the voltage

applied to EXTV

remains above 4.5V. This allows the

MOSFET driver and control power to be derived from the

output during normal operation (4.7V < V

EXTVCC

< 7V) and

from the internal regulator when the output is out of

regulation (start-up, short-circuit). Do not apply greater

than 7V to the EXTV

pin and ensure that EXTV

< V

0.3V when using the application circuits shown.

If an

external voltage source is applied to the EXTV

pin when

the V

supply is not present, a diode can be placed in

series with the LTC1709-7’s V

pin and a Schottky diode

between the EXTV

and the V

pin, to prevent current

from backfeeding V

Significant efficiency gains can be realized by powering

INTV

from the output, since the V

current resulting

from the driver and control currents will be scaled by the

ratio: (Duty Factor)/(Efficiency). For 5V regulators this

means connecting the EXTV

pin directly to V

OUT

. How-

ever, for 3.3V and other lower voltage regulators, addi-

tional supply circuitry is required to derive INTV

power

from the output.

The following list summarizes the four possible connec-

tions for EXTV

CC:

1. EXTV

left open (or grounded). This will cause INTV

to be powered from the internal 5V regulator resulting in

a significant efficiency penalty at high input voltages.

2. EXTV

connected directly to V

OUT

. This is the normal

connection for a 5V regulator and provides the highest

efficiency.

3. EXTV

connected to an external supply. If an external

supply is available in the 5V to 7V range, it may be used to

power EXTV

providing it is compatible with the MOSFET

gate drive requirements.

4. EXTV

connected to an output-derived boost network.

For 3.3V and other low voltage regulators, efficiency gains

can still be realized by connecting EXTV

to an output-

derived voltage which has been boosted to greater than

4.7V but less than 7V. This can be done with either the

inductive boost winding as shown in Figure 5a or the

capacitive charge pump shown in Figure 5b. The charge

pump has the advantage of simple magnetics.

APPLICATIU

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