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參數(shù)資料

型號：	CS51312GD16
廠商：	ZF Electronics Corporation
英文描述：	Synchronous CPU Buck Controller for 12V Only Applications
中文描述：	同步降壓控制器的CPU，只有應(yīng)用的12V
文件頁數(shù)：	11/18頁
文件大?。?/td>	276K
代理商：	CS51312GD16

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Application Information: continued

where

T = load current slew rate (as high as 20A/μs);

ESL

= change in output voltage due to ESL.

The actual maximum allowable ESL can be determined by

using the equation:

ESL

MAX

where ESL

CAP

= maximum ESL per capacitor (it is estimat-

ed that a 10

12mm Aluminum Electrolytic capacitor has

approximately 4nH of package inductance).

The actual output voltage deviation due to the actual maxi-

mum ESL can then be verified:

ESL

The designer now must determine the change in output

voltage due to output capacitor discharge during the tran-

sient:

CAP

where

= the output voltage transient response time

(assigned by the designer);

CAP

= output voltage deviation due to output capaci-

tor discharge;

I = Load step.

The total change in output voltage as a result of a load cur-

rent transient can be verified by the following formula:

OUT

ESR

ESL

CAP

Step 3: Selection of the Duty Cycle,

Switching Frequency, Switch On-Time (T

)

and Switch Off-Time (T

OFF

)

The duty cycle of a buck converter (including parasitic

losses) is given by the formula:

Duty Cycle = D =

where

OUT

= buck regulator output voltage;

HFET

= high side FET voltage drop due to R

DS(ON)

;

= output inductor voltage drop due to inductor wire

DC resistance;

DROOP

= droop (current sense) resistor voltage drop;

= buck regulator input voltage;

LFET

= low side FET voltage drop due to R

DS(ON)

Step3a: Calculation of Switch On-Time

The switch On-Time (time during which the switching

MOSFET in a synchronous buck topology is conducting) is

determined by:

where F

= regulator switching frequency selected by the

designer.

Higher operating frequencies allow the use of smaller

inductor and capacitor values. Nevertheless, it is common

to select lower frequency operation because a higher fre-

quency results in lower efficiency due to MOSFET gate

charge losses. Additionally, the use of smaller inductors at

higher frequencies results in higher ripple current, higher

output voltage ripple, and lower efficiency at light load

currents.

Step 3b: Calculation of Switch Off-Time

The switch Off-Time (time during which the switching

MOSFET is not conducting) can be determined by:

OFF

The C

OFF

capacitor value has to be selected in order to set

the Off-Time, T

OFF

, above:

OFF

where

3980 is a characteristic factor of the CS51312;

D = Duty Cycle.

Step 4: Selection of the Output Inductor

The inductor should be selected based on its inductance,

current capability, and DC resistance. Increasing the induc-

tor value will decrease output voltage ripple, but degrade

transient response. There are many factors to consider in

selecting the inductor including cost, efficiency, EMI and

ease of manufacture. The inductor must be able to handle

the peak current at the switching frequency without satu-

rating, and the copper resistance in the winding should be

kept as low as possible to minimize resistive power loss.

There are a variety of materials and types of magnetic

cores that could be used for this application. Among them

are ferrites, molypermalloy cores (MPP), amorphous and

powdered iron cores. Powdered iron cores are very com-

monly used. Powdered iron cores are very suitable due to

their high saturation flux density and have low loss at high

frequencies, a distributed gap and exhibit very low EMI.

The inductor value can be determined by:

L =

where

= input voltage;

OUT

= output voltage;

= output voltage transient response time (assigned

by the designer);

I = load transient.

The inductor ripple current can then be determined:

OUT

OFF

OUT

)

Period

3980

Duty Cycle

OUT

+ (V

HFET

+ V

DROOP

)

+ V

LFET

HFET

OUT

ESL

MAX

ESL

CAP

Number of output capacitors

相關(guān)PDF資料	PDF描述
CS51313GD16	Micropower 5V, 100mA Low Dropout Linear Regulator
CS51313GDR16	Micropower 5V, 100mA Low Dropout Linear Regulator
CS51313	Micropower 5V, 100mA Low Dropout Linear Regulator
CS5132GDW24	Dual Output CPU Buck Controller
CS5132GDWR24	Aluminum Electrolytic Radial Lead High Ripple, Long Life Capacitor; Capacitance: 47uF; Voltage: 250V; Case Size: 12.5x20 mm; Packaging: Bulk

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
CS-51313D16	制造商:未知廠家制造商全稱:未知廠家功能描述:Current-Mode SMPS Controller
CS-51313DR16	制造商:未知廠家制造商全稱:未知廠家功能描述:Current-Mode SMPS Controller
CS51313GDR16	制造商:Rochester Electronics LLC 功能描述: 制造商:ON Semiconductor 功能描述:
CS-5132	制造商:未知廠家制造商全稱:未知廠家功能描述:Dual Output CPU Buck Controller
CS5132DW24	制造商:ON Semiconductor 功能描述:

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