CS51033GD8 (ON) PDF资料下载 Datasheet(8/10 页)

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参数资料

型号：	CS51033GD8
厂商：	ON Semiconductor
文件页数：	8/10页
文件大小：	0K
描述：	IC REG CTRLR BUCK PWM 8-SOIC
产品变化通告：	Product Obsolescence 11/Feb/2009 Product Obsolescence 30/Dec/2003
标准包装：	98
PWM 型：	控制器
输出数：	1
频率 - 最大：	240kHz
占空比：	83.3%
电源电压：	3 V ~ 16 V
降压：	是
升压：	无
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	0°C ~ 70°C
封装/外壳：	8-SOIC（0.154"，3.90mm 宽）
包装：	管件

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CS51033

TFASTDISCHARGE +

6) Divider Bypass Capacitor C RR

Since the feedback resistors divide the output voltage by

a factor of 4.0, i.e. 5.0 V/1.25 V= 4.0, it follows that the

output ripple is also divided by four. This would require that

the output ripple be at least 60 mV (4.0 × 15 mV) to trip the

feedback comparator. We use a capacitor C RR to act as an

AC short so that the output ripple is not attenuated by the

divider network. The ripple voltage frequency is equal to the

switching frequency so we choose C RR so that:

The fast discharge time occurs when a fault is first

detected. The CS capacitor is discharged from 2.5 V to 2.4 V.

CS (2.5 V * 2.4 V)

IFASTDISCHARGE

where I FASTDISCHARGE is 66 m A typical.

TFASTDISCHARGE + CS 1515

The recharge time is the time for CS to charge from 1.5 V

to 2.5 V.

XC + 1.0

2 p fC

is negligible at the switching frequency.

TCHARGE +

CS

(2.5 V * 1.5 V)

ICHARGE

C + 1.0 ^ 0.265 m F

In this case F SW is 200 kHz if we allow X C = 3.0 W then:

2 p f3

where I CHARGE is 264 m A typical.

TCHARGE + CS 3787

The fault time out time is given by:

7) Soft?Start and Fault Timing Capacitor CS

TFAULT + CS

(3787 ) 1515 ) 1.5

105)

CS performs several important functions. First it provides

a dead time for load transients so that the IC does not enter

TFAULT + CS

(1.55

105)

T + CS

CS(MIN) +

+ 0.02 m F

TSLOWDISCHARGE +

RDS t+

167 m W

OUT(MAX)

a fault mode every time the load changes abruptly. Secondly

it disables the fault circuitry during startup, it also provides

Soft?Start by clamping the reference voltage during startup

to rise slowly and finally it controls the hiccup short circuit

protection circuitry. This function reduces the P?Ch FET’s

duty cycle to 2.0% of the CS period.

The most important consideration in calculating CS is that

it’s voltage does not reach 2.5 V (the voltage at which the

fault detect circuitry is enabled) before V FB reaches 1.15 V

otherwise the power supply will never start.

If the V FB pin reaches 1.15 V, the fault timing comparator

will discharge CS and the supply will not start. For the V FB

voltage to reach 1.15 V the output voltage must be at least

4 × 1.15 = 4.6 V.

If we choose an arbitrary startup time of 200 m s, we

calculate the value of CS from:

2.5 V

ICHARGE

200 m s 264 m A

2.5 V

Use 0.1 m F.

The fault time out time is the sum of the slow discharge

time the fast discharge time and the recharge time and is

obviously dominated by the slow discharge time.

The first parameter is the slow discharge time, it is the time

for the CS capacitor to discharge from 2.4 V to 1.5 V and is

given by:

CS (2.4 V * 1.5 V)

IDISCHARGE

For this circuit

TFAULT + 0.1 10 * 6 1.55 105 + 0.0155

A larger value of CS will increase the fault time out time

but will also increase the Soft?Start time.

8) Input Capacitor

The input capacitor reduces the peak currents drawn from

the input supply and reduces the noise and ripple voltage on

the V CC and V C pins. This capacitor must also ensure that

the V CC remains above the UVLO voltage in the event of an

output short circuit. C IN should be a low ESR capacitor of

at least 100 m F. A ceramic surface mount capacitor should

also be connected between V CC and ground to prevent

spikes.

9) MOSFET Selection

The CS51033 drives a P?Channel MOSFET. The V GATE

pin swings from GND to V C . The type of P?Ch FET used

depends on the operating conditions but for input voltages

below 7.0 V a logic level FET should be used.

Choose a P?Ch FET with a continuous drain current (I D )

rating greater than the maximum output current. R DS(ON)

should be less than

0.6 V

I

The Gate?to?Source voltage V GS and the

Drain?to?Source Breakdown Voltage should be chosen

based on the input supply voltage.

The power dissipation due to the conduction losses is

given by:

where I DISCHARGE is 6.0 m A typical.

PD + IOUT2

RDS(ON)

D

TSLOWDISCHARGE + CS

1.5 V

105

The power dissipation due to the switching losses is given

by:

PD + 0.5

VIN

IOUT

(TRr ) TF)

FSW

where T R = Rise Time and T F = Fall Time .

http://onsemi.com

8

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