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參數(shù)資料

型號(hào)：	MAX1779
廠商：	Maxim Integrated Products, Inc.
英文描述：	32-Bit Digital Signal Controller with ROM 100-LQFP -40 to 125
中文描述：	低功耗、三輸出TFT LCD DC-DC轉(zhuǎn)換器
文件頁(yè)數(shù)：	13/18頁(yè)
文件大?。?/td>	503K
代理商：	MAX1779

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Low-Power Triple-Output TFT LCD DC-DC

Converter

______________________________________________________________________________________

where R

is the inductor

’

s series resistance. For best

performance, select inductors with resistance less than

the internal N-channel MOSFET on-resistance (1

typ).

Output Capacitor

The output capacitor selection depends on circuit sta-

bility and output voltage ripple. In order to deliver the

maximum output current capability of the MAX1779, the

inductor must run in continuous-conduction mode (see

Inductor Selection

). The minimum recommended output

capacitance is:

For configurations that need less output current, the

MAX1779 allows lower output capacitance when oper-

ating in discontinuous-conduction mode throughout the

load range. Under these conditions, at least 10μF is

recommended, as shown in Figure 6. In both discontin-

uous and continuous operation, additional feedback

compensation is required (see the

Feedback

Compensation

section) to increase the margin for sta-

bility by reducing the bandwidth further. In cases where

the output capacitance is sufficiently large, additional

feedback compensation will not be necessary.

However, in certain applications that require benign

load transients and constantly operate in discontinu-

ous-conduction mode, output capacitance less than

10μF may be used.

Output voltage ripple has two components: variations in

the charge stored in the output capacitor with each LX

pulse, and the voltage drop across the capacitor

’

equivalent series resistance (ESR) caused by the cur-

rent into and out of the capacitor:

RIPPLE

= V

RIPPLE(C)

+ V

RIPPLE(ESR)

For low-value ceramic capacitors, the output voltage

ripple is dominated by V

RIPPLE(C)

Integrator Capacitor

The MAX1779 contains an internal current integrator

that improves the DC load regulation but increases the

peak-to-peak transient voltage (see the Load Transient

Waveforms in the

Typical Operating Characteristics

For highly accurate DC load regulation, enable the inte-

grator by connecting a capacitor to INTG. The minimum

capacitor value should be C

OUT

/10k or 1nF, whichever

is greater. Alternatively, to minimize the peak-to-peak

transient voltage at the expense of DC load regulation,

disable the integrator by connecting INTG to REF and

adding a 100k

resistor to GND.

Feedback Compensation

Compensation on the feedback node is required to

have enough margin for stability. Add a pole-zero pair

from FB to GND in the form of a compensation resistor

COMP

in Figures 5 and 6) in series with a compensa-

tion capacitor (C

COMP

in Figures 5 and 6). For continu-

ous conduction operation, select R

COMP

to be 1/2 the

value of R2, the low-side feedback resistor. For discon-

tinuous-conduction operation, select R

COMP

to be 1/5th

the value of R2.

Start with a compensation capacitor value of (220pF

COMP

)/10k

. Increase this value to improve the DC

stability as necessary. Larger compensation values

slow down the converter

’

s response time. Check the

startup waveform for excessive overshoot each time the

compensation capacitor value is increased.

Charge Pump

Efficiency Considerations

The efficiency characteristics of the MAX1779 regulated

charge pumps are similar to a linear regulator. They are

dominated by quiescent current at low output currents

and by the input voltage at higher output currents (see

Typical Operating Characteristics

). So the maximum

efficiency may be approximated by:

Efficiency

NEG

/ [V

N];

for the negative charge pump

Efficiency

POS

/ [V

(N + 1)];

for the positive charge pump

where N is the number of charge-pump stages.

Output Voltage Selection

Adjust the positive output voltage by connecting a volt-

age-divider from the output (V

POS

) to FBP to GND (see

Typical Operating Circuit

). Adjust the negative output

voltage by connecting a voltage-divider from the output

NEG

) to FBN to REF. Select R4 and R6 in the 50k

100k

range. Higher resistor values improve efficiency

at low output current but increase output voltage error

due to the feedback input bias current. Calculate the

remaining resistors with the following equations:

R3 = R4 [(V

POS

/ V

REF

) - 1]

R5 = R6 (

NEG

/ V

REF

)

where V

REF

= 1.25V. V

POS

may range from V

SUPP

+40V, and V

NEG

may range from 0 to -40V.

Flying Capacitor

Increasing the flying capacitor

’

s value increases the

output current capability. Above a certain point,

increasing the capacitance has a negligible effect

because the output current capability becomes domi-

× ×

OUT

MAIN MAX

(

MAIN

IN MIN

(

)

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相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
MAX1779EUE	功能描述:直流/直流開(kāi)關(guān)轉(zhuǎn)換器 RoHS:否制造商:STMicroelectronics 最大輸入電壓:4.5 V 開(kāi)關(guān)頻率:1.5 MHz 輸出電壓:4.6 V 輸出電流:250 mA 輸出端數(shù)量:2 最大工作溫度:+ 85 C 安裝風(fēng)格:SMD/SMT
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