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參數(shù)資料

型號(hào)：	LTC1709EG-9
廠商：	LINEAR TECHNOLOGY CORP
元件分類：	穩(wěn)壓器
英文描述：	RADIATION HARDENED HIGH EFFICIENCY, 5 AMP SWITCHING REGULATORS
中文描述：	3 A DUAL SWITCHING CONTROLLER, 360 kHz SWITCHING FREQ-MAX, PDSO36
封裝：	0.209 INCH, PLASTIC, SSOP-36
文件頁(yè)數(shù)：	22/28頁(yè)
文件大?。?/td>	319K
代理商：	LTC1709EG-9

LTC1709-7

synchronous MOSFET. If the two MOSFETs have approxi-

mately the same R

DS(ON)

, then the resistance of one

MOSFET can simply be summed with the resistances of L,

SENSE

and ESR to obtain I

R losses. For example, if each

DS(ON)

= 10m

, R

= 10m

, and R

SENSE

= 5m

, then the

total resistance is 25m

. This results in losses ranging

from 2% to 8% as the output current increases from 3A to

15A per output stage for a 5V output, or a 3% to 12% loss

per output stage for a 3.3V output. Efficiency varies as the

inverse square of V

OUT

for the same external components

and output power level. The combined effects of increas-

ingly lower output voltages and higher currents required

by high performance digital systems is not doubling but

quadrupling the importance of loss terms in the switching

regulator system!

2) Transition losses apply only to the topside MOSFET(s),

and are significant only when operating at high input

voltages (typically 12V or greater). Transition losses can

be estimated from:

Transition Loss = (1.7) V

IN2

O(MAX)

RSS

3) INTV

current is the sum of the MOSFET driver and

control currents. The MOSFET driver current results from

switching the gate capacitance of the power MOSFETs.

Each time a MOSFET gate is switched from low to high to

low again, a packet of charge dQ moves from INTV

ground. The resulting dQ/dt is a current out of INTV

that

is typically much larger than the control circuit current. In

continuous mode, I

GATECHG

= (Q

+ Q

), where Q

and Q

are the gate charges of the topside and bottom side

MOSFETs.

Supplying INTV

power through the EXTV

switch input

from an output-derived source will scale the V

current

required for the driver and control circuits by the ratio

(Duty Factor)/(Efficiency). For example, in a 20V to 5V

application, 10mA of INTV

current results in approxi-

mately 3mA of V

current. This reduces the mid-current

loss from 10% or more (if the driver was powered directly

from V

) to only a few percent.

4) The V

current has two components: the first is the

DC supply current given in the Electrical Characteristics

table, which excludes MOSFET driver and control cur-

rents; the second is the current drawn from the differential

amplifier output. V

current typically results in a small

(<0.1%) loss.

Other “hidden” losses such as copper trace and internal

battery resistances can account for an additional 5% to

10% efficiency degradation in portable systems. It is very

important to include these “system” level losses in the

design of a system. The internal battery and input fuse

resistance losses can be minimized by making sure that

has adequate charge storage and a very low ESR at

the switching frequency. A 50W supply will typically

require a minimum of 200

F to 300

F of output capaci-

tance having a maximum of 10m

to 20m

of ESR. The

LTC1709-7 2-phase architecture typically halves the

input and output capacitance requirements over compet-

ing solutions. Other losses including Schottky conduc-

tion losses during dead-time and inductor core losses

generally account for less than 2% total additional loss.

Checking Transient Response

The regulator loop response can be checked by looking at

the load transient response. Switching regulators take

several cycles to respond to a step in DC (resistive) load

current. When a load step occurs, V

OUT

shifts by an

amount equal to

LOAD

(ESR), where ESR is the effective

series resistance of C

OUT

(

LOAD

) also begins to charge or

discharge C

OUT

generating the feedback error signal that

forces the regulator to adapt to the current change and

return V

OUT

to its steady-state value. During this recovery

time V

OUT

can be monitored for excessive overshoot or

ringing, which would indicate a stability problem. The

availability of the I

pin not only allows optimization of

control loop behavior but also provides a DC coupled and

AC filtered closed loop response test point. The DC step,

rise time, and settling at this test point truly reflects the

closed loop response.Assuming a predominantly second

order system, phase margin and/or damping factor can be

estimated using the percentage of overshoot seen at this

pin. The bandwidth can also be estimated by examining

the rise time at the pin. The I

external components

shown in the Figure 1 circuit will provide an adequate

starting point for most applications.

The I

series R

-C

filter sets the dominant pole-zero

loop compensation. The values can be modified slightly

APPLICATIU

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