MAX8734AEEI+T (Maxim) PDF资料下载 Datasheet(29/33 页)

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参数资料

型号：	MAX8734AEEI+T
厂商：	Maxim Integrated Products
文件页数：	29/33页
文件大小：	0K
描述：	IC PWR SUPPLY CONTROLLER 28QSOP
产品培训模块：	Lead (SnPb) Finish for COTS Obsolescence Mitigation Program
标准包装：	2,500
应用：	电源控制器
输入电压：	4.5 V ~ 24 V
电流 - 电源：	25µA
工作温度：	-40°C ~ 85°C
安装类型：	表面贴装
封装/外壳：	28-QSOP
供应商设备封装：	28-QSOP
包装：	带卷 (TR)

High-Efficiency, Quad-Output, Main Power-

Supply Controllers for Notebook Computers

( ) V 1 . 0

? 0 . 35 μ s × 1 . 5 ?

1 ? ? ?

N =

the minimum V+ is:

5 V +

V + ( MIN ) =

? 2 . 25 μ s ?

Calculating with h = 1 yields:

+ 0 . 1 V ? 0 . 1 V = 6 . 65 V

V OUT ( V IN ( MAX ) ? V OUT

L PRIMARY =

V IN ( MAX ) × ? × I TOTAL × LIR

V SEC + V FWD

V OUT ( MIN ) + V RECT

where L PRIMARY is the primary inductance, N is the

transformer turns ratio, V SEC is the minimum-required

rectified secondary voltage, V FWD is the forward drop

( ) V 1 . 0

? 0 . 35 μ s × 1 ?

V + ( MIN ) =

5 V +

1 ? ? ?

? 2 . 25 μ s ?

+ 0 . 1 V ? 0 . 1 V = 6 . 04 V

across the secondary rectifier, V OUT(MIN) is the minimum

value of the main output voltage, and V RECT is the on-

state voltage drop across the synchronous rectifier

MOSFET. The transformer secondary return is often con-

nected to the main output voltage instead of ground to

reduce the necessary turns ratio. In this case, subtract

Therefore, V+ must be greater than 6.65V. A practical

input voltage with reasonable output capacitance

would be 7.5V.

Use of Coupled Inductors to Create

Auxiliary Outputs

A coupled inductor or transformer can be substituted for

the inductor in the 5V or 3.3V SMPS to create an auxiliary

output (Figure 12). The MAX8732A/MAX8733A/

MAX8734A are particularly well suited for such applica-

tions because they can be configured in ultrasonic or

forced-PWM mode to ensure good load regulation when

the main supplies are lightly loaded. An additional

postregulation circuit can be used to improve load regula-

tion and limit output current.

The power requirements of the auxiliary supply must be

considered in the design of the main output. The trans-

former must be designed to deliver the required current

in both the primary and the secondary outputs with the

proper turns ratio and inductance. The power ratings of

the synchronous-rectifier MOSFETs and the current limit

in the MAX8732A/MAX8733A/MAX8734A must also be

adjusted accordingly. Extremes of low input-output dif-

ferentials, widely different output loading levels, and high

turns ratios can further complicate the design due to par-

asitic transformer parameters such as interwinding

capacitance, secondary resistance, and leakage induc-

tance. Power from the main and secondary outputs is

combined to get an equivalent current referred to the

main output. Use this total current to determine the cur-

rent limit (see the Determining the Current Limit section):

I TOTAL = P TOTAL / V OUT

where I TOTAL is the equivalent output current referred

to the main output and P TOTAL is the sum of the output

power from both the main output and the secondary

output:

V OUT from the secondary voltage (V SEC - V OUT ) in the

transformer turns-ratio equation above.

The secondary diode in coupled-inductor applications

must withstand flyback voltages greater than 60V, which

usually rules out most Schottky rectifiers. Common sili-

con rectifiers, such as the 1N4001, are also prohibited

because they are too slow. This often makes fast silicon

rectifiers such as the MURS120 the only choice. The fly-

back voltage across the rectifier is related to the V IN -

V OUT difference, according to the transformer turns ratio:

V FLYBACK = V SEC + (V IN - V OUT ) ? N

where N is the transformer turns ratio (secondary wind-

ings/primary windings), V SEC is the maximum secondary

DC output voltage, and V OUT is the primary (main) out-

put voltage. If the secondary winding is returned to V OUT

instead of ground, subtract V OUT from V FLYBACK in the

equation above. The diode’s reverse breakdown voltage

rating must also accommodate any ringing due to leak-

age inductance. The diode’s current rating should be at

least twice the DC load current on the secondary output.

The optional linear postregulator must be selected to

deliver the required load current from the transformer’s

rectified DC output. The linear regulator should be con-

figured to run close to dropout to minimize power dissi-

pation and should have good output accuracy under

those conditions. Input and output capacitors are cho-

sen to meet line regulation, stability, and transient

requirements. There is a wide variety of linear regulators

appropriate for this application; consult the specific lin-

ear-regulator data sheet for details.

Widely different output loads affect load regulation. In

particular, when the secondary output is left unloaded

while the main output is fully loaded, the secondary out-

put capacitor may become overcharged by the leakage

inductance, reaching voltages much higher than intend-

ed. In this case, a minimum load or overvoltage protec-

______________________________________________________________________________________

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