LTC1703IG#TRPBF (Linear) PDF资料下载 Datasheet(23/36 页)

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参数资料

型号：	LTC1703IG#TRPBF
厂商：	Linear Technology
文件页数：	23/36页
文件大小：	0K
描述：	IC REG SW DUAL SYNC VID 28SSOP
标准包装：	2,000
应用：	控制器，移动式 Intel Pentium? III
输入电压：	3 V ~ 7 V
输出数：	2
输出电压：	0.9 V ~ 2 V
工作温度：	-40°C ~ 85°C
安装类型：	表面贴装
封装/外壳：	28-SSOP（0.209"，5.30mm 宽）
供应商设备封装：	28-SSOP
包装：	带卷 (TR)

LTC1703

APPLICATIO S I FOR ATIO

accurate results, but simulation can often get close enough

to give a working system. To measure the modulator gain

and phase directly, wire up a breadboard with an LTC1703

and the actual MOSFETs, inductor, and input and output

capacitors that the final design will use. This breadboard

should use appropriate construction techniques for high

speed analog circuitry: bypass capacitors located close to

the LTC1703, no long wires connecting components,

V(OUT) in degrees. Refer to your SPICE manual for details

of how to generate this plot.

*1703 modulator gain/phase

* ? 1999 Linear Technology

*this file written to run with PSpice 8.0

*may require modifications for other SPICE

simulators

*MOSFETs

appropriately sized ground returns, etc. Wire the feedback

amplifier as a simple type 1 loop, with a 10k resistor from

V OUT to FB and a 0.1 μ F feedback capacitor from COMP to

FB. Choose the bias resistor (R B ) as required to set the

desired output voltage. Disconnect R B from ground and

connect it to a signal generator or to the source output of

a network analyzer (Figure 12) to inject a test signal into the

rfet mod sw 0.02

*inductor

lext sw out1 1u

rl out1 out 0.005

*output cap

cout out out2 1000u

resr out2 0 0.01

;MOSFET rdson

;inductor value

;inductor series R

;capacitor value

;capacitor ESR

loop. Measure the gain and phase from the COMP pin to

the output node at the positive terminal of the output

capacitor. Make sure the analyzer’s input is AC coupled so

that the DC voltages present at both the COMP and V OUT

nodes don’t corrupt the measurements or damage the

analyzer.

5V

*1703 internals

emod mod 0 laplace {v(comp)} =

+ {5*exp(–s*909e–9)} ;5 -> 3.3 for 3.3 VCC

*emod mod 0 comp 0 5 ;use if above lines fail

vstim comp 0 0 ac 1 ;ac stimulus

.ac dec 100 1k 1meg

.probe

.end

With the gain/phase plot in hand, a loop crossover fre-

+

10 μ F

V COMP

TO

ANALYZER 0.1 μ F

R B

AC

SOURCE

FROM

NC

10k

10 ?

MBR0530T

V CC PV CC

BOOST2

TG

1/2 LTC1703

COMP SW

FB BG

RUN/SS FCB

FAULT

SGND PGND

+

QT

QB

C IN

1 μ F

L EXT

+

V OUT

TO

ANALYZER

C OUT

quency can be chosen. Usually the curves look something

like Figure 8. Choose the crossover frequency in the rising

or flat parts of the phase curve, beyond the external LC

poles. Frequencies between 10kHz and 50kHz usually

work well. Note the gain (GAIN, in dB) and phase (PHASE,

in degrees) at this point. The desired feedback amplifier

gain will be – GAIN to make the loop gain 0dB at this

frequency. Now calculate the needed phase boost, assum-

ing 60 ° as a target phase margin:

BOOST = – (PHASE + 30 ° )

ANALYZER

1703 F12

If the required BOOST is less than 60 ° , a type 2 loop can

Figure 12. Modulator Gain/Phase Measurement Set-Up

If breadboard measurement is not practical, a SPICE

simulation can be used to generate approximate gain/

phase curves. Plug the expected capacitor, inductor and

MOSFET values into the following SPICE deck and gener-

ate an AC plot of V(V OUT )/V(COMP) in dB and phase of

be used successfully, saving two external components.

BOOST values greater than 60 ° usually require type 3

loops for satisfactory performance.

Finally, choose a convenient resistor value for R1 (10k is

usually a good value). Note that channel 1 includes R1 and

R B internally as part of the VID DAC circuitry. R1 is fixed

at 10k ? and R B varies depending on the VID code

selected.

1703fa

23

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